CN115137208B - Cold and hot ice trinity direct drinking machine - Google Patents

Abstract

The invention discloses a cold and hot ice trinity direct drinking machine, which comprises: the refrigerating and ice-making module is used for making ice cubes and outputting cold water and comprises a refrigerating module and an ice-removing module which are connected with each other; the heating module is used for heating and outputting hot water; the waterway system module is connected with the refrigerating and ice-making module and the heating module through the communication pipeline to form a water flow passage; and the fixing module is used for fixing the positions of the refrigerating and ice making module, the heating module and the waterway system module. The invention can prepare cold water after the step of ice making is completed by adopting the semiconductor refrigeration technology, and can prepare hot water at the same time, thereby achieving the purpose of having three functions of refrigeration, heating and ice making on one water dispenser, leading the drinking operation of users to be more convenient and having wider application range.

Description

Cold and hot ice trinity direct drinking machine

Technical Field

The invention relates to the technical field of water dispensers, in particular to a cold and hot ice trinity direct drinking machine.

Background

With the improvement of people's awareness of water health, more advanced water and electric appliances such as a direct drinking machine, a water purifier and the like are selected to improve the quality of life of families, and become a standard. The requirements of different groups on different types of hydropower devices are different; instant heating type water dispensers on the market are common, but only the daily hot drink demands of people are basically met, and the cold drink demands and the ice drink demands cannot be met at the same time. If the cold water is to be prepared, an independent cold water machine is needed, a refrigeration system loop is generally formed by a refrigeration compressor, a condenser and an evaporator, and the cold water is prepared in an external heat transfer mode, when the cold water is needed to be prepared, the refrigeration system is started first, and the cold water can be taken when the temperature of a water source stored in a cold water container reaches the requirement; therefore, the method has the defect of overlong cold water preparation time, overlong waiting time when the ice water is needed to be drunk, and can not meet the requirement in time when the consumption is large.

The quick cold and hot water dispenser disclosed in Chinese patent literature has a publication number of CN112274007A and a publication date of 2021-01-29 and comprises a shell, a Venturi, a reflux cavity, a compressor, a condenser, an ice bucket, a heating liner and an electronic controller; a normal temperature water inlet, an ice water outlet and a hot water outlet are arranged above the shell, a fixed bracket is arranged among the normal temperature water inlet, the ice water outlet and the hot water outlet, a display screen is arranged on the front side of the shell, and a power supply seat is arranged at the lower end of the left side of the shell; an electronic controller is fixed in the shell through a mounting bracket, and an electromagnetic valve I and an electromagnetic valve II are arranged at the upper part of the reflux cavity in parallel; the invention adopts the structure with the built-in evaporating tube to realize rapid refrigeration, thereby meeting the requirements of rapidness and a large amount; the energy is more fully utilized, and the energy is saved; the cold water barrel is provided with an internal circulating water device, so that ice cubes are prevented from being partially accumulated in the cold water barrel, and the effect of uniformly reducing the temperature of the water body is achieved; the heat dissipation of adopting the condenser adopts the cross flow fan, and the noise is less, and the travelling comfort is stronger. The technology achieves the aim of preparing cold water and hot water on the same water dispenser, but can not simultaneously meet the requirement of preparing ice, and additional equipment is needed to prepare ice cubes.

Disclosure of Invention

The invention aims to solve the problem that a water dispenser capable of simultaneously preparing hot water, cold water and ice cubes is lacking in the prior art, and provides the cold and hot ice three-in-one direct water dispenser, which can prepare cold water after the step of ice making is completed by adopting a semiconductor refrigeration technology, and can also prepare hot water, so that the purposes of having the three functions of refrigeration, heating and ice making on one water dispenser are achieved, the drinking operation of a user is more convenient, and the application range is wider.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

a cold and hot ice three-in-one direct drinking machine, comprising:

The refrigerating and ice-making module is used for making ice cubes and outputting cold water and comprises a refrigerating module and an ice-removing module which are connected with each other; the heating module is used for heating and outputting hot water; the waterway system module is connected with the refrigerating and ice-making module and the heating module through the communication pipeline to form a water flow passage; the fixing module is used for fixing the positions of the refrigerating and ice making module, the heating module, the waterway system module and the control module. The direct drinking machine further comprises a control module, wherein the control module comprises a panel and a control panel and is used for selecting the refrigerating, heating or ice making functions of the direct drinking machine.

In the invention, a proper amount of ice cubes are prepared through the ice making step of the refrigerating module, and when an ice making mode is selected, the prepared ice cubes are taken out for use through the ice removing module after ice making is finished; when the mode of preparing cold water is selected, water in the water supply module flows into the refrigeration module to be cooled by ice cubes and then is output from the water outlet, so that the aim of preparing cold water is fulfilled; when the hot water preparation mode is selected, hot water preparation is carried out through an independent heating module; the invention adopts the semiconductor refrigeration technology to make ice, is environment-friendly and energy-saving, occupies small space, is light and easy to operate; meanwhile, two operations of ice making and ice removing can be completed through the cold and hot surface conversion of the semiconductor, and the method is convenient and quick.

Preferably, the refrigerating module comprises an ice groove fixing seat, and a refrigerating assembly, a radiator and a fan which are sequentially arranged below the ice groove fixing seat, wherein a certain distance is reserved between the radiator and the fan, and the radiator and the fan are fixed through the fixing module to form a fan air channel; the refrigerating assembly comprises a semiconductor refrigerating sheet, wherein the cold surface of the semiconductor refrigerating sheet is coated with heat-conducting silicone grease and clings to the bottom of the ice groove, and the upper end surface of the ice groove is provided with an ice groove sealing ring.

According to the invention, four corners of the ice groove fixing seat are provided with four stud positions, and the ice groove fixing seat is fixedly connected with the power panel supporting and isolating frame of the fixing module through the screws, so that the refrigerating assembly and the radiator are fixed below the ice groove fixing seat, meanwhile, a fan air channel is formed between the fan and the radiator, the inlet and outlet ports of the fan are completely isolated, the smooth air inlet and outlet of the air channel is realized, and the influence of cold and hot air circulation mixed flow on the heat dissipation efficiency is reduced; the baffle that can set up different specifications according to the user's demand in the ice groove thereby forms the ice-cube of different shapes, and the setting of ice groove sealing washer is between ice groove and ice groove fixing base, prevents that the water from leaking out.

Preferably, the ice removing module comprises a plurality of elastic blocks, an ice removing cap assembly and an electromagnetic limiting device, wherein the elastic blocks are arranged on the top surface of an ice groove fixing seat of the refrigerating module, the ice removing cap assembly is arranged above the elastic blocks, a plurality of electromagnetic limiting devices are arranged on the side surface of the ice removing cap assembly, a magnetic field generating part of each electromagnetic limiting device is fixed through a fixing module, and a limiting block which is in sliding connection with the magnetic field generating part is in clamping connection with an annular clamping groove on the side surface of the ice removing cap assembly; the ice removing cap assembly is connected with the ice groove fixing seat in a sliding manner and can slide up and down relative to the ice groove fixing seat.

The position of the ice removing cap assembly is restrained by the electromagnetic limiting device, and the ice removing cap assembly generates pressure on the elastic block below the ice removing cap assembly; when the electromagnetic limiting device is electrified, the magnetic field generating part can generate an adsorption effect on the limiting block, so that the limiting block is separated from the annular clamping groove, and the constraint on the ice removing cap assembly is invalid, so that the ice removing cap assembly is ejected upwards relative to the ice groove fixing seat under the action of the elastic block; the ice cubes are separated from the ice grooves.

Preferably, the ice removing cap assembly comprises an ice removing cap body, wherein the ice removing cap body is formed by connecting a concentric hollow cylindrical part and an outer circumference part through a circular ring part; a through hole with the radius smaller than the inner diameter of the hollow cylindrical part is formed in one surface, far away from the circular ring part, of the hollow cylindrical part, and a plurality of round rods are circumferentially arranged around the through hole; an ice removing cap elastic block is arranged in the hollow cylindrical part, and the radial section of the ice removing cap elastic block is matched with the shape of the through hole; an ice removing cap spring is arranged between the hollow cylindrical part and the ice removing cap elastic block.

The top of the ice groove fixing seat is provided with the hollow convex cylinder, when the ice groove fixing seat is combined with the ice removing cap assembly, the hollow cylinder part, the outer circumferential part and the hollow convex cylinder are concentric, and the hollow convex cylinder is just positioned in a gap between the hollow cylinder part and the outer circumferential part; the through hole in the middle of the hollow convex cylinder can be communicated with the hollow cylinder part of the ice removing cap assembly and the ice groove in the refrigerating assembly; the round rod arranged on the hollow cylindrical part can be immersed into the ice tank, so that the ice cubes can be connected and detained on the round rod after the ice cubes are formed; the ice removing cap spring is arranged between the hollow cylindrical part and the ice removing cap elastic block, so that the ice removing cap elastic block can move back and forth along the axial direction of the hollow cylindrical part under the action of external force, and ice cubes are pushed away from the round rod.

Preferably, the heating module comprises a heating support plate, and a heating pipe and a pump for the heating module are fixed on the upper side of the heating support plate; a heating water inlet and a first temperature sensor are arranged on the lower side of the heating support plate; the heating water inlet is connected with the input end of the heating pipe through the heating module by a pump, and the output end of the heating pipe is connected with the heating water outlet and the second temperature sensor.

The heating tube can select a heating thick film or other heating devices to heat water, the temperature sensor can select a negative temperature coefficient NTC thermistor, the first temperature sensor is used for detecting the initial temperature of water entering the heating water inlet, the second temperature sensor is used for detecting the water outlet temperature of the heating water outlet, the temperature data obtained by the water inlet and the water outlet are fed back to the control module, and the heating power can be adjusted according to requirements to adjust the water outlet temperature.

Preferably, the waterway system module comprises a water supply module, a water hole is formed in the bottom of the water supply module and is connected with a water supply connector, the water supply connector comprises a water supply connector main body, a plurality of downcomers are arranged on the bottom surface of the water supply connector main body, and the first downcomers are connected with the heating module through a heating water pipe; the second sewer pipe is connected to the refrigerating module through the first water pump water inlet pipe, the first water pump and the first refrigerating water delivery pipe in sequence; the third sewer pipe is connected to the refrigerating module through the second water pump water inlet pipe, the second water pump and the second refrigerating water delivery pipe in sequence.

The water supply module can be a water tank, a water hole at the bottom of the water tank is connected with a water supply joint, a plurality of downcomers arranged on the water supply joint are respectively connected with the heating module and the refrigerating and ice-making module to form a waterway, a one-way valve can be arranged at the water hole at the bottom of the water tank, the one-way valve is jacked up by the water supply joint after the assembly is completed so as to be communicated with the water tank and each water pump, a flow valve can be arranged between a heating water pipe or a water inlet pipe of the water pump, and water pumping and water flow control can be realized by matching with the water pump and the control module.

Preferably, the fixing module comprises a power panel supporting and isolating frame fixed with a refrigerating module, the power panel supporting and isolating frame is composed of a horizontal supporting part and vertical supporting parts connected to two sides of the horizontal supporting part, a fan is connected to the lower side face of the horizontal supporting part, a fan channel corresponding to the fan is arranged on the horizontal supporting part, and a radiator is arranged on the upper side face of the horizontal supporting part and connected with the ice groove fixing seat; the bottom of vertical supporting part is connected with the water and electricity division board, and the upside of water and electricity division board is fixed with the power strip.

The power panel supporting and isolating frame is arranged, the fan is connected to the lower side surface of the horizontal supporting part of the power panel supporting and isolating frame, the water and electricity plate is arranged at the bottom of the vertical supporting part and is fixed on the upper side surface of the water and electricity plate, so that sufficient space is reserved between the fan and the power panel, and air circulation and cooling are facilitated; in addition, a water-electricity separation plate is arranged, a power panel is fixed on the upper side of the water-electricity separation plate, and various water pipelines and water pumps in the waterway system module are arranged below the water-electricity separation plate, so that water-electricity separation is realized, and the water-electricity separation plate is safer and more reliable.

Preferably, the fixing module further comprises a shell, air inlets and air outlets are formed in two side faces of the shell, the bottom of the shell is fixedly connected with the base, a plurality of fixing columns are arranged on the base and used for supporting and connecting the hydropower isolation plates, and a communication pipeline of the waterway system module is arranged between the base and the hydropower isolation plates.

The shell is designed according to the combined shape of the refrigerating and ice-making module, the heating module and the waterway system module, and meanwhile, the shell is also provided with a connecting structure with a water supply module such as a water tank, and a water through hole corresponding to the water hole of the water tank is formed in the shell, so that water in the water tank can be reserved in a waterway positioned at the bottom of the shell; an air inlet is formed in the position, corresponding to the radiator, of the shell, and an air outlet is formed in the position, corresponding to the fan, of the shell, so that air circulation is formed, and the cooling effect is guaranteed.

The invention has the following beneficial effects: the invention can prepare cold water after the step of ice making is completed by adopting the semiconductor refrigeration technology, and can prepare hot water at the same time, thereby achieving the purpose of having three functions of refrigeration, heating and ice making on one water dispenser, leading the drinking operation of users to be more convenient and having wider application range; the semiconductor refrigeration technology is adopted for ice making, so that the device is more environment-friendly and energy-saving, and the whole device is small in size, light and convenient and occupies small space; the ice cubes are quickly separated from the ice grooves through the cold-hot surface conversion of the semiconductor, and the unique ice removing module is designed to take the ice cubes out of the refrigerating assembly and can be quickly and conveniently separated from the ice removing module.

Drawings

FIG. 1 is a schematic view of the exterior of a three-in-one instant drinking machine of the present invention;

FIG. 2 is a side view of the assembled body portion of the instant drink machine of the present invention;

FIG. 3 is an exploded view of the main body portion of the instant drink machine of the present invention;

FIG. 4 is an exploded view of a refrigeration and ice-making module in a drink-through machine according to the present invention;

FIG. 5 is a schematic view of a heating module in a drink-through machine according to the present invention;

FIG. 6 is a schematic diagram of a water circuit system module in a drink-through machine according to the present invention;

FIG. 7 is a schematic view of an ice cap assembly in a drink-through machine of the present invention;

FIG. 8 is an exploded view of the ice cap assembly of the instant invention in a drink-through machine;

FIG. 9 is an exploded view of the water supply fitting of the instant invention in a drink-through machine;

FIG. 10 is a schematic view of a bottle adapter in a drink-through machine according to the present invention;

FIG. 11 is a schematic view of a housing and associated accessories in a drink-through machine according to the present invention;

In the figure: 1. a panel; 2. a fixed cover on the ice removing cap; 3. an ice removing cap body; 301. a round bar; 302. a sealing ring at the top of the ice removing cap; 303. a hollow cylindrical portion; 304. an outer circumferential portion; 305. a circular ring portion; 306. an annular clamping groove; 307. a buckle limit groove; 4. an ice cap spring; 5. an ice removing cap sealing ring; 6. an ice removing cap spring block; 61. the ice removing elastic block is buckled; 7. an electromagnetic limit device; 71. a magnetic field generating section; 72. a limiting block; 8. the ice groove fixing seat; 81. a refrigerating water outlet; 82. a second refrigeration water inlet; 83. a first refrigeration water inlet; 84. a fixed seat base; 85. a hollow convex cylinder; 86. a spring block fixing column; 9. a heating tube; 91. a heating water outlet; 92. a heating water inlet; 93. a heating support plate; 10. heating a module pressing plate; 11. an ice bath; 111. an ice groove heat insulation ring; 112. an ice trough heat insulation pad; 12. a water outlet joint cover; 13. a water outlet joint; 14. a second temperature sensor; 15. a first temperature sensor; 16. a fan duct; 17. a fan; 18. the power panel supports the isolation frame; 181. a horizontal support portion; 182. a vertical support portion; 19. a power panel; 20. a water-electricity separation plate; 21. a base; 22. a control board; 23. a housing; 231. a water outlet connector housing; 232. an air inlet and an air outlet; 24. a water cup draining box; 25. a water supply joint sealing ring; 26. draining board of water supply joint; 261. a draining net convex body; 27. A water supply joint body; 271. a first downcomer; 272. a third downcomer; 273. a second downcomer; 28. a first water pump; 29. a second water pump; 30. a pump for a heating module; 31. a water bottle adapter; 311. an adapter body; 312. a movable valve; 313. a transfer port sealing ring; 314. a water outlet sealing ring; 315. a gas-permeable sealing valve; 316. a ventilation valve fixing ring; 317. a ventilation valve fixing block; 32. a water tank; 33. a water tank cover; 34. an ice groove sealing ring; 35. a handle; 36. a handle rotating shaft; 37. foot pads; 38. a water pump fixing plate; 39. refrigerating water pipe; 391. a first refrigerating water pipe; 392. a second refrigerating water pipe; 40. a water pump water inlet pipe; 401. heating water pipe; 402. a second water pump water inlet pipe; 403. a first water pump water inlet pipe; 41. a flow valve; 42. a semiconductor refrigeration sheet; 43. a spring block; 44. a heat sink; 45. an ice cap assembly.

Detailed Description

The invention is further described below with reference to the drawings and detailed description.

As shown in fig. 1-11, a cold and hot ice three-in-one direct drinking machine comprises: the refrigerating and ice-making module is used for making ice cubes and outputting cold water and comprises a refrigerating module and an ice-removing module which are connected with each other; the heating module is used for heating and outputting hot water; the waterway system module is used for connecting the water supply module with the refrigerating and ice-making module and forming a water flow passage by the heating module; the fixing module is used for fixing the positions of the refrigerating and ice making module, the heating module, the waterway system module and the control module; the control module comprises a panel 1 and a control panel 22 for selecting the cooling, heating or ice making functions of the instant drink machine.

As shown in fig. 2, 3 and 4, the refrigeration module comprises an ice groove fixing seat 8, and a refrigeration assembly, a radiator 44 and a fan 17 which are sequentially arranged below the ice groove fixing seat 8, wherein a certain distance is arranged between the radiator 44 and the fan 17, and the fan duct 16 is formed by fixing the fixing module; the refrigeration assembly comprises a semiconductor refrigeration piece 42, wherein the cold surface of the semiconductor refrigeration piece 42 is coated with heat-conducting silicone grease and is clung to the bottom of the ice groove 11, and the upper end surface of the ice groove 11 is provided with an ice groove sealing ring 34.

The ice groove fixing seat 8 comprises a fixing seat base 84 and a hollow convex cylinder 85 connected to the upper surface of the fixing seat base 84, and a round hole with the same radius as the inner diameter of the hollow convex cylinder 85 is formed in the position, corresponding to the hollow convex cylinder 85, of the upper surface of the fixing seat base 84, so that a round rod 301 in the ice removing cap assembly 45 can penetrate through the fixing seat base 84 to penetrate into the ice groove 11. Four elastic block fixing columns 86 are arranged around the hollow convex cylinder 85 on the upper surface of the fixing base 84, an ice groove sealing ring 34, an ice groove 11, a semiconductor refrigerating sheet 42 and a radiator 44 are sequentially arranged on the lower surface of the fixing base 84 from top to bottom, and the fixing columns at four corners of the fixing base 84 are connected with a power panel supporting and isolating frame 18 through tapping screws, so that the whole refrigerating assembly and the radiator 44 are fixed, the radiator 44 is fixed on the upper side of a horizontal supporting portion 181, meanwhile, a fan 17 is fixed on the lower side of the horizontal supporting portion 181, and a certain thickness exists on the horizontal supporting portion 181, so that a fan air duct 16 is formed by through holes corresponding to the size of the fan 17 on the horizontal supporting portion 181. Positioning ribs are diagonally arranged on the bottom surface of the ice tank, so that the position of the semiconductor refrigerating sheet 42 can be fixed; meanwhile, the four sides of the ice groove 11 are surrounded by ice groove heat insulation rings 111, the bottom of the ice groove 11 is provided with an ice groove heat insulation pad 112, and the corresponding position of the ice groove heat insulation pad 112 is provided with a through hole with the same shape as the semiconductor refrigerating sheet 42. A refrigerating water outlet 81 is provided at one side of the hollow convex cylinder 85, and a first refrigerating water inlet 83 and a second refrigerating water inlet 82 are provided at the opposite side, and the height of the refrigerating water outlet 81 is higher than the heights of the two refrigerating water inlets.

As shown in fig. 2, 4, 7 and 8, the ice removing module comprises a plurality of elastic blocks 43, the elastic blocks 43 are arranged on the top surface of an ice groove fixing seat 8 of the refrigerating module, an ice removing cap assembly 45 is arranged above the elastic blocks 43, a plurality of electromagnetic limiting devices 7 are arranged on the side surfaces of the ice removing cap assembly 45, a magnetic field generating part 71 of the electromagnetic limiting devices 7 is fixed through a fixing module, and a limiting block 72 which is in sliding connection with the magnetic field generating part 71 is in clamping connection with an annular clamping groove 306 on the side surface of the ice removing cap assembly 45; the ice cap assembly 45 can slide up and down with respect to the ice chute mounting base 8. The ice removing cap assembly 45 includes an ice removing cap body 3, and the ice removing cap body 3 is formed by connecting a concentric hollow cylindrical part 303 and an outer circumferential part 304 through a circular ring part 305; a through hole with the radius smaller than the inner diameter of the hollow cylindrical part 303 is formed in the surface, away from the annular part 305, of the hollow cylindrical part 303, and a plurality of round rods 301 are circumferentially arranged around the through hole; the hollow cylindrical part 303 is internally provided with an ice removing cap elastic block 6, and the radial section of the ice removing cap elastic block 6 is matched with the shape of the through hole; an ice cap spring 4 is provided between the hollow cylindrical portion 303 and the ice cap spring block 6.

The ice removing module comprises four elastic blocks 43 which are respectively fixed in four elastic block fixing columns 86 of the fixing base 84, and when the assembly is completed, the ice removing cap assembly 45 has downward pressure on the four elastic blocks 43; the ice removing cap elastic block 6 and the upper ice removing cap fixing cover 2 are connected in a clamping way in the ice removing cap assembly 45, and meanwhile, an ice removing cap sealing ring 5 is arranged on the upper side of the ice removing cap elastic block 6 for sealing treatment. The ice removing cap spring 4 is sleeved on the ice removing cap elastic block 6 and is simultaneously placed into the hollow cylindrical part 303 of the ice removing cap main body 3 together with the ice removing cap elastic block 6, the ice removing cap elastic block 61 is arranged on the ice removing cap elastic block 6, and meanwhile, the inner side of the hollow cylindrical part 303 is provided with the buckle limit groove 307 corresponding to the ice removing cap elastic block 61, so that the ice removing cap elastic block 61 can slide back and forth in the buckle limit groove 307 under the action of the ice removing cap spring 4, and the ice removing cap elastic block 6 is driven to slide back and forth relative to the ice removing cap main body 3. Four symmetrical round rods 301 are arranged around the through hole of the hollow cylindrical part 303 far away from the circular ring part 305, a part of each round rod 301 is positioned inside the through hole, and the shortest distance between the two symmetrical round rods 301 is smaller than the diameter of the through hole; meanwhile, four grooves are formed in the side face of the ice removing cap elastic block 6, and the shapes of the grooves are matched with the shapes of the protruding through holes of the round rods 301. An annular clamping groove 306 is formed in the outer side of the outer circumferential part 304 of the ice removing cap body 3, the magnetic field generating part 71 of the electromagnetic limiting device 7 is fixed on the shell 23 on two opposite sides of the ice removing cap body 3, and one end of the limiting block 72 which is in sliding connection with the magnetic field generating part 71 is clamped with the annular clamping groove 306; at the same time, an ice cap top sealing ring 302 is also provided on the upper side of the ice cap body 3, thereby forming a complete ice cap assembly 45.

As shown in fig. 2, 3 and 5, the heating module includes a heating support plate 93, and a heating tube 9 and a heating module pump 30 are fixed to the upper side of the heating support plate; a heating water inlet 92 and a first temperature sensor 15 are arranged on the lower side of the heating support plate 93; the heating water inlet 92 is connected to the input end of the heating pipe 9 through the heating module pump 30, and the output end of the heating pipe 9 is connected to the heating water outlet 91 and the second temperature sensor 14.

Two sides of the upper half part of the heating tube 9 of the heating module are respectively provided with a fixing stud, and the heating module is fixed on the ice groove fixing seat 8 through self-tapping screws; meanwhile, a fixing stud is arranged at the lower half part of the heating tube 9 of the heating module, and the heating module is fixed on the power panel supporting and isolating frame 18 by a self-tapping screw through the heating module pressing plate 10, so that the refrigerating and ice making module, the heating module and the power panel supporting and isolating frame 18 are fixed together. The first temperature sensor 15 and the second temperature sensor 14 both adopt negative temperature coefficient thermistors to detect the water temperature, and a flow valve for preventing dry combustion can be arranged to detect the heated water quantity.

As shown in fig. 2, 3, 6 and 9, the waterway system module comprises a water supply module, the bottom of the water supply module is provided with a water hole and is connected with a water supply connector, the water supply connector comprises a water supply connector main body 27, the bottom surface of the water supply connector main body 27 is provided with a plurality of water downcomers, and the first water downcomers 271 are connected with the heating module through a heating water pipe 401; the second sewer pipe 273 is connected to the refrigeration module through the first water pump water inlet pipe 403, the first water pump 28, and the first refrigeration water pipe 391 in sequence; the third downcomer 272 is connected to the refrigeration module sequentially through the second water inlet pipe 402, the second water pump 29, and the second refrigeration conduit 392.

In the embodiment of the invention, the water supply module is the water tank 32, the upper end of the water tank 32 is provided with the water tank cover 33 which can be turned over, and simultaneously, the two sides of the water tank 32 are respectively provided with the handle rotating shaft 36 and the handle 35 which is rotationally connected with the handle rotating shaft, so that a user can conveniently lift and move the water tank 32. And meanwhile, a water hole matched with a water supply joint is formed in the bottom of the water tank 32, the water supply joint comprises a water supply joint sealing ring 25, a water supply joint draining board 26 and a water supply joint main body 27 which are sequentially connected from top to bottom, and a draining net convex body 261 is further arranged on the upper side of the water supply joint draining board 26. The lower side of the water supply joint is provided with three downcomers, the first downcomers 271 are connected with the heating water inlet 92 through the heating water pipe 401, and a flow valve can be arranged at the heating water pipe 401 to meter water flow. The second sewer pipe 273 is connected to the first water pump 28 through the first water pump water inlet pipe 403, and is connected to the first refrigeration water inlet 83 through the first refrigeration water pipe 391 by the first water pump 28; the first water pump water inlet pipe 403 may be provided with a flow valve 41; the third downcomer 272 is connected to the second water pump 29 by a second water inlet pipe 402 and to the second refrigeration water inlet 82 by the second water pump 29 by a second refrigeration water conduit 392. In addition, the waterway system module further comprises a water outlet connector 13, wherein the water outlet connector 13 is provided with a cold water pipe connected with the refrigerating water outlet 81 and a hot water pipe connected with the heating water outlet 91, the final water outlet of the water outlet connector 13 is vertically downward, and meanwhile, the upper side of the water outlet connector 13 is also provided with a water outlet connector cover 12. A one-way valve can be arranged at the water hole at the bottom of the water tank 32, and after the water tank 32 and the shell 23 are assembled, the water draining net convex body 261 on the water supply joint can jack up the one-way valve, so that water in the water tank 32 is communicated with each water pump and each water pipe to form a smooth waterway.

The first water pump 28 and the second water pump 29 or one of the water pumps and the control valve are selected to be connected to the refrigerating water inlet pipe of the hollow convex cylinder 85 of the ice tank fixing seat 8, the water pumping and the overflow of water filling are controlled to be carried out together with the water tank 32, the refrigerating water outlet 81 on the other side of the hollow convex cylinder 85 of the ice tank fixing seat 8 is communicated with the cold water pipe on the water outlet joint 13, a water inlet and outlet passage is formed, the water pump is controlled by the control board 22 through signals, and the water pumping and the water controlling are realized. The two ends of the ice groove fixing seat 8 are provided with a low-water-level refrigerating water inlet and a high-water-level refrigerating water outlet, and the flow of the water pump is matched, so that the fusion of the low-temperature water and the ice is realized to form ice water. The refrigerating water inlet of the ice tank fixing seat 8 can be provided with a water inlet and a water return port, and the two water pumps can work simultaneously under the action of one suction and one suction, so that the unification of the ice making amount in the ice tank 11 and the overflow of redundant water from the refrigerating water outlet are ensured.

As shown in fig. 6 and 10, a horizontal adapter 31 can be arranged above the water hole in the water tank 32, and comprises an adapter main body 311, and a water outlet below the adapter main body 311 corresponds to the water hole at the bottom of the water tank 32 and is provided with a water outlet sealing ring 314; an adapter sealing ring 313 is arranged in the adapter above the adapter main body 311, and meanwhile, threads are arranged on the inner side of the adapter, so that the adapter can be directly connected with an opening of bottled water through threads. The movable valve 312 is arranged in the channel for communicating the water outlet and the transfer port, water cannot flow out from the water outlet when the movable valve 312 is not jacked, and water can flow out from the water outlet after the movable valve 312 is jacked. The ventilation sealing valve 315 is arranged in the ventilation port at the side of the adapter main body 311, the ventilation sealing valve 315 is fixed in the ventilation port through the ventilation valve fixing block 317, and the ventilation valve fixing block 317 is fixed on the ventilation port through the ventilation valve fixing ring 316. The water drain port of the adapter body 311 corresponds to the upper end of the water supply adapter body 27, and forms a sealed connection.

As shown in fig. 2,3 and 11, the fixing module comprises a power panel support isolation frame 18, the power panel support isolation frame 18 is composed of a horizontal support portion 181 and vertical support portions 182 connected to two sides of the horizontal support portion 181, a fan 17 is connected to the lower side surface of the horizontal support portion 181, a fan channel 16 corresponding to the fan 17 is arranged on the horizontal support portion 181, and a radiator 44 is arranged on the upper side surface of the horizontal support portion 181 and connected with the ice groove fixing seat 8; the bottom of the vertical support 182 is connected to the hydro-electric isolation plate 20, and the power panel 19 is fixed to the upper side of the hydro-electric isolation plate 20. The fixed module further comprises a shell 23, air inlets and outlets 232 are formed in two side faces of the shell 23, the bottom of the shell 23 is fixedly connected with the base 21, a plurality of fixed columns are arranged on the base 21 and used for supporting and connecting the hydropower isolation plate 20.

In the embodiment of the present invention, a plurality of pads 37 are disposed under the base 21, which is similar to the anti-slip. Meanwhile, a fixing column is arranged above the base 21, and the base 21, the power panel supporting isolation frame 18 and the water electric isolation plate 20 are connected through the fixing column and the tapping screw. A W-shaped water pump fixing plate 38 is further arranged between the water-electricity separation plate 20 and the base 21, two arc-shaped surfaces on the upper side of the water pump fixing plate 38 can be used for fixing the positions of the first water pump 28 and the second water pump 29, and a round hole between the water pump fixing plate 38 and the base 21 can be used for passing through the heating water pipe 401. Meanwhile, the base 21 and the shell 23 are fixedly connected through fixing columns and self-tapping screws, a panel 1 which is connected in a clamping mode is arranged at an opening at the upper side of the base 21, an opening which is the same as the ice removing cap assembly 45 in size is arranged at a position, corresponding to the ice removing cap assembly 45, of the panel 1, a touch key area is further arranged on one side, close to the water outlet connector 13, of the panel 1, a control board 22 is further arranged on one side, close to the water outlet connector 13, of the lower side of the panel 1, and the control board 22 is located right below the touch key area. A water outlet connector shell 231 is arranged at the position of the shell 23 corresponding to the water outlet connector 13, and is connected with the water outlet connector cover 12 in a clamping way to wrap the water outlet connector 13. A water cup draining box 24 movably connected with the shell 23 and the base 21 is arranged right below the water outlet joint 13 and used for temporarily storing water leaked from the water outlet joint 13, and a water cup can be placed on the water cup draining box 24. Air inlets and outlets 232 are also arranged on two sides of the shell 23, and air inlets are arranged at positions corresponding to the heat radiator 44 in the shell 23 and air outlets are arranged at positions corresponding to the fan 17 in the shell 23.

In the invention, a proper amount of ice cubes are prepared through the ice making step of the refrigerating module, and when an ice making mode is selected, the prepared ice cubes are taken out for use through the ice removing module after ice making is finished; when the mode of preparing cold water is selected, water in the water supply module flows into the refrigeration module to be cooled by ice cubes and then is output from the water outlet, so that the aim of preparing cold water is fulfilled; when the hot water preparation mode is selected, hot water preparation is carried out through an independent heating module; the invention adopts the semiconductor refrigeration technology to make ice, is environment-friendly and energy-saving, occupies small space, is light and easy to operate; meanwhile, two operations of ice making and ice removing can be completed through the cold and hot surface conversion of the semiconductor, and the method is convenient and quick.

According to the invention, four corners of the ice groove fixing seat 8 are provided with four stud positions, and the ice groove fixing seat 8 is fixedly connected with the power panel supporting and isolating frame 18 of the fixing module through screws, so that the refrigerating assembly and the radiator 44 are fixed below the ice groove fixing seat 8, meanwhile, a fan air duct 16 is formed between the fan 17 and the radiator 44, the inlet and outlet ports of the fan 17 are completely isolated, the smooth air inlet and outlet of the air duct is realized, and the influence of cold and hot air circulation mixed flow on the heat dissipation efficiency is reduced; the partition boards with different specifications can be arranged in the ice groove 11 according to the requirements of users so as to form ice cubes with different shapes, and the ice groove sealing ring 34 is arranged between the ice groove 11 and the ice groove fixing seat 8 to prevent water from leaking.

In the invention, the position of the ice removing cap assembly 45 is restrained by the electromagnetic limiting device 7, and the ice removing cap assembly 45 generates pressure on the elastic block 43 below; when the electromagnetic limiting device 7 is electrified to enable the magnetic field generating part 71 to generate an adsorption effect on the limiting block 72, so that the limiting block 72 is separated from the annular clamping groove 306, and the constraint on the ice removing cap assembly 45 is invalid, so that the ice removing cap assembly 45 is ejected upwards relative to the ice groove fixing seat 8 under the action of the elastic block 43; the ice cubes are separated from the ice grooves 11.

The top of the ice groove fixing seat 8 is provided with the hollow convex cylinder 85, when the ice groove fixing seat is combined with the ice removing cap assembly 45, the hollow cylinder part 303, the outer circumferential part 304 and the hollow convex cylinder 85 are concentric, and the hollow convex cylinder 85 is just positioned in a gap between the hollow cylinder part 303 and the outer circumferential part 304; the through hole in the middle of the hollow convex cylinder 85 can be communicated with the hollow cylinder part 303 of the ice removing cap assembly 45 and the ice groove 11 in the refrigerating assembly; the round bar 301 provided on the hollow cylindrical portion 303 can be submerged into the interior of the ice tank 11 so that the ice cubes can be retained on the round bar 301 after the ice cubes are formed; an ice cap spring 4 is disposed between the hollow cylindrical portion 303 and the ice cap elastic block 6, so that the ice cap elastic block 6 can move back and forth along the axial direction of the hollow cylindrical portion 303 under the action of external force to push ice cubes away from the round rod 301.

The heating tube 9 can select a heating thick film or other heating devices for heating water, the temperature sensor can select a negative temperature coefficient NTC thermistor, the first temperature sensor 15 is used for detecting the initial temperature of water entering the heating water inlet 92, the second temperature sensor 14 is used for detecting the water outlet temperature of the heating water outlet 91, the temperature data obtained by the water inlet and outlet are fed back to the control module, and the heating power can be adjusted according to the requirement to adjust the water outlet temperature.

The water supply module in the invention can be a water tank 32, a water hole at the bottom of the water tank 32 is connected with a water supply joint, a plurality of downcomers arranged on the water supply joint are respectively connected with the heating module and the refrigerating and ice-making module to form a waterway, a one-way valve can be arranged at the water hole at the bottom of the water tank, the one-way valve is jacked by the water supply joint after the assembly is completed so as to be communicated with the water tank and each water pump, a flow valve 41 can be arranged between a heating water pipe or a water inlet pipe of the water pump, and the water pump and the control module are matched to realize water pumping and water flow control.

The invention is provided with the power panel supporting and isolating frame 18, the lower side surface of the horizontal supporting part 181 is connected with the fan 17, the bottom of the vertical supporting part 182 is provided with the water-electricity isolating plate 20 and fixes the power panel 19 on the upper side surface of the water-electricity isolating plate 20, so that sufficient space is reserved between the fan 17 and the power panel 19, and air circulation and cooling are convenient; in addition, a water-electricity separation plate 20 is arranged, a power panel 19 is fixed on the upper side of the water-electricity separation plate, and various water pipelines and water pumps in the waterway system module are arranged below the water-electricity separation plate, so that water-electricity separation is realized, and the water-electricity separation plate is safer and more reliable.

The shell 23 is designed according to the combined shape of the refrigerating and ice-making module, the heating module and the waterway system module, and meanwhile, the shell 23 is also provided with a connecting structure with a water supply module such as a water tank 32, and a water through hole corresponding to the water hole of the water tank is arranged, so that water in the water tank 32 can flow into a waterway positioned at the bottom of the shell 23; an air inlet is provided at a position of the housing 23 corresponding to the radiator 44, and an air outlet is provided at a position corresponding to the fan 17, thereby forming an air circulation to ensure a cooling effect. When different pumps work, water in the water tank 32 is pumped into the ice tank 11 or the heating pipe 9 through the flowmeter, and when the water in the water tank reaches a set lower limit threshold value, the water is transmitted to the control board through a signal to give an alarm for water shortage. The power panel 19 is disposed at the lower end of the opening of the fan 17, and is structurally provided with a water and electricity isolation board 20, so that heat dissipation is realized and safety is ensured. The invention is suitable for the differentiation of the ice making quantity and the speed demand, the corresponding refrigeration ice making module can be realized by a multiple increasing and decreasing scheme, and the water circulation is realized by matching the increase and decrease of the water pump with the electromagnetic valves of all channels and the water circulation differentiation scheme.

In an embodiment of the present invention, the corresponding function is selected by a touch key area on the panel:

If the ice making function is selected: the fan 17 is activated and the fan duct 16 separates the air inlet and outlet 232 of the housing 23 and the air flows in the forward direction through the fins of the heat sink 44 to dissipate heat from the semiconductor refrigeration fins 42. The semiconductor refrigerating sheet 42 starts refrigerating, meanwhile, the first water pump 28 pumps clean water into the ice tank 11 from the water tank through the first water pump water inlet pipe 403 and the first refrigerating water pipe 391, when the water amount in the ice tank 11 is excessive, the second water pump 29 can be used for recovering the redundant water amount into the water tank 32, after ice making is completed for a period of time, the control panel 22 gives out an electric signal to reversely control the semiconductor to instantly heat, so that ice cubes are separated from the ice tank, meanwhile, the magnetic field generating part 71 of the electromagnetic limiting device 7 is electrified, and the limiting block 72 clamped with the annular clamping groove 306 is adsorbed, so that the ice removing cap assembly 45 and the limiting block 72 are separated, the upward constraint of the ice removing cap assembly 45 is invalid, and the elastic block 43 under the ice removing cap assembly is upwards used for ejecting the surface hole of the ice removing cap assembly 45 and is higher than the panel 11, so that the ice cubes are separated from the ice taking direction of the ice tank 11. At this time, the ice cubes are removed from the ice bank 11 and remain on the round bar 301 of the ice cap assembly 45, which is sunk into the ice bank 11. The cap spring 4 is then compressed by manually depressing the cap spring 6, causing the cap spring 6 to move toward the rod 301, pushing ice from the rod 301 of the cap assembly 45 into the ice vessel.

If the function of preparing ice water is selected: the ice making function is firstly completed by preparing ice cubes in the ice tank 11, after the ice cubes are prepared, the first water pump 28 starts to work, water is injected into the ice tank 11 with ice being made through the first water pump water inlet pipe 403 and the first refrigerating water pipe 391 which are connected between the water tank 32 and the ice tank 11, so that the water gradually passes through the ice cubes and continuously rises, and when the water in the ice tank 11 is higher than the position of the refrigerating water outlet 81 because the position of the refrigerating water inlet is lower than the position of the refrigerating water outlet 81, the water which stays in the ice tank 11 for a certain time is cooled to become ice water, and the ice water is reserved through the refrigerating water outlet 81 and the water outlet joint 13.

If the function of preparing hot water is selected: different heat marks on the key area are touched through the panel 1, so that the control panel 22 receives a heating temperature signal and then controls the output power of the heating tube 9 of the heating module, meanwhile, the negative temperature coefficient thermistor detects the temperatures of the water inlet and the water outlet of the heating tube 9 and then feeds back the temperatures to the control panel 22, and the heating power is adjusted according to the fed-back temperature data, so that hot water is output according to the set water outlet temperature.

The foregoing embodiments are further illustrative and explanatory of the invention, as is not restrictive of the invention, and any modifications, equivalents, and improvements made within the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (8)

1. A cold and hot ice three-in-one direct drinking machine, which is characterized by comprising:

The refrigerating and ice-making module is used for making ice cubes and outputting cold water and comprises a refrigerating module and an ice-removing module which are connected with each other;

The heating module is used for heating and outputting hot water;

the waterway system module is connected with the refrigerating and ice-making module and the heating module through the communication pipeline to form a water flow passage;

The fixing module is used for fixing the positions of the refrigerating and ice making module, the heating module and the waterway system module;

The ice removing module comprises a plurality of elastic blocks (43), wherein the elastic blocks (43) are arranged on the top surface of an ice groove fixing seat (8) of the refrigerating module, an ice removing cap assembly (45) is arranged above the elastic blocks (43), a plurality of electromagnetic limiting devices (7) are arranged on the side surfaces of the ice removing cap assembly (45), a magnetic field generating part (71) of each electromagnetic limiting device (7) is fixed through the fixing module, and a limiting block (72) which is in sliding connection with the magnetic field generating part (71) is in clamping connection with an annular clamping groove (306) on the side surface of the ice removing cap assembly (45); the ice removing cap assembly (45) can slide up and down relative to the ice groove fixing seat (8);

The refrigeration assembly includes a semiconductor refrigeration sheet (42);

The ice removing cap assembly (45) comprises an ice removing cap main body (3), wherein the ice removing cap main body (3) is formed by connecting a concentric hollow cylindrical part (303) and an outer circumferential part (304) through a circular ring part (305); a through hole with the radius smaller than the inner diameter of the hollow cylindrical part (303) is formed in one surface, far away from the circular ring part (305), of the hollow cylindrical part (303), and a plurality of round rods (301) are circumferentially arranged around the through hole; an ice removing cap elastic block (6) is arranged in the hollow cylindrical part (303), and the radial section of the ice removing cap elastic block (6) is matched with the shape of the through hole; an ice removing cap spring (4) is arranged between the hollow cylindrical part (303) and the ice removing cap elastic block (6).

2. The cold and hot ice three-in-one direct drinking machine according to claim 1, wherein the refrigerating module comprises an ice tank fixing seat (8), and a refrigerating assembly, a radiator (44) and a fan (17) which are sequentially arranged below the ice tank fixing seat (8), wherein a certain distance is formed between the radiator (44) and the fan (17) and the fan air channel (16) is formed by fixing the fixing module; the cold face of the semiconductor refrigerating sheet (42) is coated with heat-conducting silicone grease and is clung to the bottom of the ice groove (11), the hot face of the semiconductor refrigerating sheet (42) is clung to the radiator (44), and the upper end face of the ice groove (11) is provided with the ice groove sealing ring (34).

3. The cold and hot ice three-in-one direct drinking machine according to claim 1 or 2, wherein the ice tank fixing seat (8) comprises a fixing seat base (84) and a hollow convex cylinder (85) connected to the upper surface of the fixing seat base (84), and a round hole with the same radius as the inner diameter of the hollow convex cylinder (85) is formed in the position, corresponding to the hollow convex cylinder (85), of the upper surface of the fixing seat base (84), so that a round rod (301) in the ice removing cap assembly (45) can penetrate through the fixing seat base (84) and penetrate into the ice tank (11); one side of the hollow convex cylinder (85) is provided with a refrigerating water outlet (81), and meanwhile, the opposite side is provided with a first refrigerating water inlet (83) and a second refrigerating water inlet (82), and the height of the refrigerating water outlet (81) is higher than that of the two refrigerating water inlets.

4. A cold and hot ice three-in-one direct drinking machine according to claim 1 or 2, characterized in that the heating module comprises a heating support plate (93), and a heating tube (9) and a heating module pump (30) are fixed on the upper side of the heating support plate (93); a heating water inlet (92) and a first temperature sensor (15) are arranged on the lower side of the heating support plate (93); the heating water inlet (92) is connected with the input end of the heating pipe (9) through the heating module pump (30), and the output end of the heating pipe (9) is connected with the heating water outlet (91) and the second temperature sensor (14).

5. The cold and hot ice three-in-one direct drinking machine according to claim 1 or 2, wherein the waterway system module comprises a water supply module, a water hole is arranged at the bottom of the water supply module and is connected with a water supply joint, the water supply joint comprises a water supply joint main body (27), a plurality of downcomers are arranged at the bottom surface of the water supply joint main body (27), and a first downcomers (271) are connected with the heating module through a heating water pipe (401); the second sewer pipe (273) is connected to the refrigeration module through the first water inlet pipe (403), the first water pump (28) and the first refrigeration water delivery pipe (391) in sequence; the third sewer pipe (272) is connected to the refrigerating module through a second water inlet pipe (402), a second water pump (29) and a second refrigerating water delivery pipe (392) in sequence.

6. A cold and hot ice three-in-one direct drinking machine according to claim 3, characterized in that the fixing module comprises a power panel supporting and isolating frame (18) fixed with a refrigerating module, the power panel supporting and isolating frame (18) is composed of a horizontal supporting part (181) and vertical supporting parts (182) connected to two sides of the horizontal supporting part (181), a fan (17) is connected to the lower side of the horizontal supporting part (181), a fan channel (16) corresponding to the fan (17) is arranged on the horizontal supporting part (181), and a radiator (44) is arranged on the upper side of the horizontal supporting part (181) and connected with an ice tank fixing seat (8); the bottom of vertical supporting part (182) is connected with water electric isolation board (20), and the upside of water electric isolation board (20) is fixed with power strip (19).

7. The cold and hot ice three-in-one direct drinking machine according to claim 2 or 6, wherein the fixing module further comprises a shell (23), air inlet and outlet openings (232) are formed in two side surfaces of the shell (23), the bottom of the shell (23) is fixedly connected with the base (21), a plurality of fixing columns are arranged on the base (21) and used for supporting and connecting the hydropower isolation plate (20), and a communicating pipeline of the waterway system module is arranged between the base (21) and the hydropower isolation plate (20).

8. The ice and cold three-in-one direct drinking machine according to claim 1, further comprising a control module, wherein the control module comprises a panel (1) and a control board (22), and the control module is used for selecting the refrigerating, heating or ice making functions of the direct drinking machine.