CN212383054U - Atomizing constant temperature physics cooler - Google Patents

Abstract

A spray type constant temperature physical cooler comprises a container for holding liquid; the temperature adjusting device is configured to heat or refrigerate the liquid in the container so as to adjust and control the temperature of the liquid to be within a preset temperature interval; and a spray head connected with the container, wherein the spray head is configured to spray out the liquid in a mist state.

Description

Atomizing constant temperature physics cooler

Technical Field

The utility model relates to the field of medical equipment, particularly, relate to an atomizing constant temperature physics cooler.

Background

Aiming at the problems of fever and heatstroke of human bodies, a physical cooling mode is generally adopted for relieving fever symptoms of human bodies, and the common physical cooling mode is a mode of warm water wiping, ice compress, warm water bathing and the like; the ice compress can not control the temperature, which can cause the human body to have chilly and pale skin, and severe people have shivering performance; warm water wiping and warm water bathing are common modes, but the adopted water temperature is moderate, too cold water or too hot water is not beneficial to bringing down a fever, too hot water is easy to cause skin scald, too cold water causes shrinkage of pores, is not beneficial to heat dissipation, and cannot achieve the effect of bringing down a fever.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an atomizing constant temperature physics cooler to solve above-mentioned problem.

The utility model provides a spray type constant temperature physical cooler, which comprises a container for containing liquid; the temperature adjusting device is configured to heat or refrigerate the liquid in the container so as to adjust and control the temperature of the liquid to be within a preset temperature interval; and a spray head connected with the container, wherein the spray head is configured to spray the liquid in a mist state.

Optionally, the temperature adjustment device comprises:

the working end of the semiconductor refrigeration piece is used for being in contact with the container;

the power supply is used for supplying power to the semiconductor refrigerating sheet; and

the controller is used for controlling the state of the current transmitted to the semiconductor refrigeration piece by the power supply, so that the semiconductor refrigeration piece is controlled to heat or refrigerate the liquid in the container, and the temperature of the liquid is regulated and controlled to be within the preset temperature interval.

Optionally, the temperature adjustment device further comprises:

the temperature detection module is connected with the controller and used for detecting the temperature of the liquid in the container, and the controller regulates and controls the heating quantity or the refrigerating quantity of the semiconductor refrigerating sheet based on the temperature of the liquid so as to regulate and control the temperature of the liquid in the preset temperature interval.

Optionally, the spray type constant-temperature physical cooler further comprises an instruction entry module connected with the controller, and the instruction entry module is used for a user to enter and control the operating instruction of the working state of the spray type constant-temperature physical cooler.

Optionally, the power supply is a storage battery, and when the controller judges that the electric quantity of the power supply is smaller than the minimum electric quantity threshold value, the controller controls an alarm module connected with the controller to alarm.

Optionally, the charging system further comprises a charging interface connected with the storage battery, and the charging interface is used for connecting an external power supply to charge the storage battery.

Optionally, still include the liquid measure sensor, connect the controller for real-time supervision the volumetric capacity value of liquid in the container and with the volumetric capacity value conveys the controller, when the controller judges the volumetric capacity value is less than the minimum threshold value of liquid capacity, control connection the alarm module of controller reports to the police.

Optionally, the spray head comprises a pressing spray head, the pressing spray head is connected with the container, and the liquid is sprayed out in a mist state by pressing the spray head.

Optionally, the container has a fill port.

Optionally, the container has a heat preservation function.

Optionally, the container includes diapire and lateral wall, the lateral wall includes interior casing and cladding in the outer casing outside the interior casing, wherein, the outer casing with the space intussuseption between the interior casing is filled with thermal-insulated material or the outer casing with the space between the interior casing is the vacuum state, the semiconductor refrigeration piece is configured with the diapire contacts.

Optionally, the container includes a bottom wall and a side wall, the side wall is integrally made of a heat insulating material, and the semiconductor refrigeration sheet is configured to contact with the bottom wall.

Optionally, the diapire is made by heat-conducting material, the diapire with be provided with the heat conduction silicone grease layer between the semiconductor refrigeration piece, the semiconductor refrigeration piece indirectly through the heat conduction silicone grease layer with the diapire contact.

Optionally, a transparent or semitransparent observation window is formed in the side wall of the container, and a volume scale value is formed on the observation window.

Optionally, the spray type constant-temperature physical cooler further comprises a communication module connected with the controller, wherein the communication module is used for communication connection of external terminal equipment so as to send the working state information of the spray type constant-temperature physical cooler to the external terminal equipment.

Optionally, the communication module is further configured to receive working parameter information of the spray-type constant-temperature physical cooler set by the external terminal device, and the controller controls a working state of the spray-type constant-temperature physical cooler based on the working parameter information.

Optionally, still include communication module, connect the controller, communication module is used for connecting remote server through gateway equipment, and the user passes through intelligent terminal and connects remote server, and pass through intelligent terminal sets up the working parameter information of atomizing constant temperature physics cooler, and will working parameter information passes through in proper order remote server gateway equipment sends to communication module, the controller is based on working parameter information control the operating condition of atomizing constant temperature physics cooler.

Optionally, the semiconductor refrigeration device further comprises a fan for dissipating heat of the semiconductor refrigeration piece, the fan is arranged in the installation shell, and the installation shell is provided with an air inlet and an air outlet.

Optionally, the state of the current flow comprises a direction of the current flow.

Optionally, the state of the current comprises a magnitude of the current.

Optionally, the contacting comprises indirect contacting.

Optionally, a heat conductive layer is further included, through which the working end is in indirect contact with the container.

Optionally, the controller comprises a chip with a mos tube h-bridge circuit.

The atomizing constant temperature physics desuperheater that this embodiment provided, through temperature regulation apparatus, liquid (like water) to holding in the container heats or refrigerate, make the temperature of this liquid regulated and control to predetermineeing in the temperature interval, form "thermostatic water", with the required optimum temperature of suitable human cooling, then will be in the liquid of predetermineeing in the temperature interval with the fog blowout through the shower nozzle, if spout on human skin, thereby effectively solve and adopt the warm water to wipe, the problem of the not good or other human uncomfortable symptoms of cooling effect that mode such as ice compress and the bathing of warm water can't realize temperature control and arouse among the prior art.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural view of a spray type constant temperature physical cooler provided in an embodiment of the present invention;

fig. 2 is a schematic structural view of the container in fig. 1.

Icon: 100-a container; 101-a bottom wall; 102-a side wall; 1021-an inner shell; 1022-an outer shell; 1023-thermal insulation material; 103-a thermally conductive silicone layer; 110-a liquid filling port; 120-liquid; 210-semiconductor chilling plates; 220-a power supply; 2201-charging interface; 230-a controller; 240-temperature detection module; 300-a spray head; 310-buttons of the spray head; 600-an order entry module; 700-a display unit; 900-mounting the housing; 901-a fan; 902-air outlet; 903-air inlet.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship which is usually placed when the product of the present invention is used, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific position, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

Furthermore, the terms "horizontal", "vertical" and the like do not imply that the components are required to be absolutely horizontal or pendant, but rather may be slightly inclined. For example, "horizontal" merely means that the direction is more horizontal than "vertical" and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In order to solve the problem of poor cooling effect caused by the physical cooling manner in the prior art, such as shown in fig. 1 and 2, the present embodiment provides a spray type constant temperature physical cooler, which includes a container 100, a temperature adjustment device and a spray head 300.

The container 100 is used to hold a liquid 120.

Specifically, in the present embodiment, the container 100 is used for storing a liquid 120 for cooling, such as a clean water source, for heating or cooling the clean water source to a predetermined temperature and then gasifying and spraying the heated clean water source to cool the human body. However, the liquid 120 provided in this embodiment is not limited to be a clean water source, and may also be applied to a disinfection occasion, at this time, the liquid 120 may be 75% alcohol, which may be specifically selected according to an actual application scenario, and this is not specifically limited in this embodiment.

The temperature regulating device is configured to heat or refrigerate the liquid 120 in the container 100 to regulate the temperature of the liquid 120 to a predetermined temperature range.

Specifically, the temperature adjustment device is configured to heat or cool the liquid 120 in the container 100 to adjust the temperature of the liquid 120 to a preset temperature range, so as to be suitable for the optimal temperature required for cooling the human body, and the specific structure and operation principle of the temperature adjustment device will be described in detail below.

In addition, the liquid 120 stored in the container 100 needs to be brought into the preset temperature interval, so when the ambient temperature is too high, which causes the temperature of the liquid 120 in the container 100 to be too high to exceed the temperature range of the preset temperature interval, the temperature of the liquid 120 needs to be cooled by the temperature adjusting device to be lowered into the preset temperature interval; similarly, when the ambient temperature is too low and the temperature of the liquid 120 in the container 100 is too low to be lower than the temperature range of the preset temperature interval, the temperature of the liquid 120 needs to be heated by the temperature adjusting device to be raised to the preset temperature interval, and the temperature of the liquid 120 is controlled to be within the optimal temperature range suitable for cooling the human body through the above operation.

In order to spray the liquid 120 in the container 100 in the mist state, the container 100 is further connected with a spray head 300, the spray head 300 may be, for example, a button 310 of a press spray head (e.g., the spray head 300 for spraying toilet water or perfume), and a user can spray the liquid 120 in the container 100 in the mist state with the temperature within a preset temperature range by pressing, so as to meet the user's needs, such as the cooling needs.

It should be further understood that, the preset temperature interval may be obtained according to human body cooling experience in real life or clinical cooling treatment operation, in this embodiment, the preset temperature interval may be 20 degrees celsius to 50 degrees celsius, but in actual operation, the preset temperature interval should not be limited to the example value of the preset temperature interval, and may be specifically set according to actual needs, which is not specifically limited in this embodiment.

The atomizing constant temperature physics desuperheater that this embodiment provided, through temperature regulation apparatus, liquid 120 (like water) to holding in the container 100 heats or refrigerates, make the temperature of this liquid 120 regulated and control to predetermine the temperature interval in, form "thermostatic water", with the required optimum temperature of suitable human cooling, then will be in predetermineeing the temperature interval in liquid 120 with the fog blowout through shower nozzle 300, if spout on human skin, thereby effectively solve and adopt among the prior art warm water to wipe, the problem that the cooling effect that mode such as ice compress and bathing can't realize temperature control and arouse is not good or other human uncomfortable symptoms.

In the above embodiment, the temperature adjusting device includes: a semiconductor cooling plate 210, a power supply 220 and a controller 230.

The semiconductor cooling plate 210 is also called a thermoelectric cooling plate, and is a heat pump. By utilizing the Peltier effect of semiconductor materials, when direct current passes through a galvanic couple formed by connecting two different semiconductor materials in series, heat can be absorbed and released at the refrigerating end and the heating end of the galvanic couple respectively, and the semiconductor refrigerating sheet 210 is a refrigerating technology generating negative thermal resistance and is characterized by no moving parts and higher reliability.

The semiconductor chilling plate 210 has two working ends, which are arranged oppositely, if one working end is chilled, the corresponding other working end heats, otherwise, if one working end heats, the corresponding other working end cools, when the working end cools, the working end is called as the "chilling end" or the "cold end" of the semiconductor chilling plate 210, when the working end heats, the working end is called as the "warming end" or the "hot end" of the semiconductor chilling plate 210, and the so-called "chilling end" and "chilling end" are determined by the working state (chilling or warming) of the working end.

The semiconductor chilling plate 210 is configured to contact the container 100, and in particular, one working end of the semiconductor chilling plate 210 may be in contact with the container 100, for example, the bottom wall 101 of the container 100.

The power supply 220 is electrically connected to the semiconductor cooling plate 210, the power supply 220 is used for supplying power to the semiconductor cooling plate 210, the power supply 220 may be a storage battery, such as a rechargeable lithium battery, a dry battery may be used for easy detachment and replacement, of course, in other embodiments, a power plug with a power supply 220 adapter may be used, the power supply 220 may be configured by inserting the power plug into an ac socket through the power adapter, and the power supply 220 may be any component capable of providing direct current.

The controller 230 is connected to the power supply 220 to control the state of the current transmitted from the power supply 220 to the semiconductor cooling plate 210, such as controlling the magnitude or direction of the current. For example, the current temperature of the pre-stored liquid 120 (e.g., water) in the container 100 is 20 degrees celsius, and the current working end is a "heating end", if 30 degrees celsius water is required, the current transmitted by the power supply 220 to the semiconductor chilling plate 210 may be controlled to be increased to increase the heating amount of the working end, and if 10 degrees celsius water is required, the current transmitted by the power supply 220 to the semiconductor chilling plate 210 may be controlled to be reversely biased, so that the working end performs chilling. The direction of the control current is specifically as follows: for example, the current provided by the power source 220 may flow through the controller 230 and then be transmitted to the semiconductor cooling plate 210, the current direction has only two directions, i.e. the forward direction and the reverse direction of the current, which may define that the forward direction of the current is the first direction and the reverse direction of the current is the second direction, for example, in the initial state, when the current direction is the first direction, one working end of the semiconductor cooling plate 210 is caused to be in the cooling state, and when the current direction is controlled to be the second direction, the working end may be switched to the heating state; or, in an initial state, when the current direction is the first direction, the one working end of the semiconductor cooling plate 210 is caused to be in a heating state, and when the current direction is controlled to be the second direction, the working end can be switched to a cooling state, in other words, the current direction can be controlled to be reversely biased to realize the switching between the cooling end and the heating end (that is, the working states of the two working ends of the semiconductor cooling plate 210 are switched). In this embodiment, the controller 230 may be, for example, a chip having a mos transistor h-bridge circuit, through which reverse bias of current is implemented.

In addition, in addition to the heating and cooling by the semiconductor cooling plate 210 proposed in the present embodiment, the liquid 120 in the container 100 may be heated or cooled by means of a heating plate and a micro-cooler. For example, the heat patch and micro-cooler are both communicatively coupled to the controller 230 for warming or cooling the liquid 120 in the container 100.

For example, a combination of heating wire + liquid nitrogen spray may be used to heat or cool the liquid 120 in the container 100. For example, the front surface of a metal plate is contacted with the bottom of the container 100, the metal plate mainly plays a role in transferring heat, a temperature sensor is installed on the metal plate, the temperature sensor is connected with the controller 230, the controller 230 controls the temperature sensor to measure the temperature of the metal plate in real time, a heating wire and a small tank of liquid nitrogen with an electromagnetic valve are arranged on the back surface of the metal plate, the controller 230 can control the heating wire to generate heat to heat the back surface of the metal plate so as to heat the liquid 120 in the container 100, and the electromagnetic valve can be controlled to be opened to spray a small amount of liquid nitrogen gas to cool the back surface of the metal plate so as to refrigerate the liquid 120 in the container 100.

In addition to heating the metal plate with the electric heating wire, an eddy current heating method (for example, a method of applying a high frequency alternating current to the metal plate) may be employed, and the heating method may be an infrared heating method. The cooling method for the metal plate may be performed by spraying liquid nitrogen, or may be performed by using a cooling gas such as dry ice.

Further, in this embodiment, the temperature adjustment device may further include a temperature detection module 240, where the temperature detection module 240 is connected to the controller 230 and is configured to detect the temperature of the liquid 120 in the container 100 in real time, and the controller 230 regulates the heating capacity or the cooling capacity of the semiconductor cooling plate 210 based on the temperature of the liquid 120 so as to regulate the temperature of the liquid 120 within the preset temperature range.

The temperature detection module 240 can obtain the temperature of the liquid 120 in the container 100 in real time and feed the temperature of the liquid 120 back to the controller 230 so that the controller 230 can decide the manner of temperature adjustment. The temperature detection module 240 can be set in a manner of referring to the installation manner of the temperature sensor in the water dispenser.

For example, if the temperature detection module 240 detects that the temperature of the liquid 120 in the container 100 is higher than the preset temperature, the controller 230 controls the working end of the semiconductor chilling plate 210 to chill or increase the chilling efficiency, and conversely, if the temperature detection module 240 detects that the temperature of the liquid 120 in the container 100 is lower than the preset temperature, the controller 230 controls the working end of the semiconductor chilling plate 210 to heat or increase the heating efficiency.

It should be noted that, regarding whether to select to cool or heat the liquid 120 in the container 100, and whether to select the cooling time or the heating time may be pre-stored in the controller 230 in advance, for example, the normal temperature water of a unit volume injected into the container 100 may be cooled or heated to a preset temperature range by corresponding to a preset cooling efficiency and a preset cooling time or by corresponding to a preset heating efficiency and a preset heating time; of course, if the temperature detection module 240 is added, the controller 230 can control the semiconductor chilling plates 210 more precisely.

Preferably, in the present embodiment, an instruction entry module 600 may also be included. The instruction entry module 600 is connected to the controller 230, and the instruction entry module 600 is used for a user to enter an operation instruction for controlling the working state of the spray type constant temperature physical cooler.

Specifically, the instruction entry module 600 may specifically be an operation panel having function keys or buttons, for example, the operation panel may include an on-off button for controlling the temperature adjustment device to be turned on, the on-off button includes a temperature rise button and a temperature decrease button, and by operating the buttons on the instruction entry module 600, operations such as setting the operating state (heating or cooling), the operating duration, and the like of the spray-type thermostatic physical cooler may be implemented. Of course, it can be understood that a panel with a touch screen may also be used as the instruction entry module 600, and the instruction entry to the spray-type thermostatic physical cooler may also be implemented by clicking the touch screen with a finger or a stylus pen, etc., to retrieve a task list and a menu bar.

Preferably, in this embodiment, when the storage battery is used as the power supply 220, when the controller 230 determines that the power of the power supply 220 is less than the minimum power threshold, the alarm module connected to the controller 230 is controlled to alarm.

The minimum threshold of the power amount can be set to one tenth of the total power amount of the power supply 220, and when the controller 230 determines that the power amount of the power supply 220 is less than one tenth of the total power amount of the power supply 220, the alarm module of the controller 230 alarms.

The alarm module can be a loudspeaker or a flash lamp or a combination of the loudspeaker and the flash lamp, and can prompt a user that the storage battery is charged by giving an alarm signal such as howling or light flashing. In order to charge the storage battery conveniently, in this embodiment, a charging interface 2201 connected to the storage battery may be further included, and the charging interface 2201 is used for connecting an external power supply to charge the storage battery. The form of the charging interface can be selected in various ways, for example, it can be USB interface, typec, etc., and in addition, the external power supply can be the commercial power, or an independent device with power supply. For example, the spray type constant-temperature physical cooler can be an electronic device such as a mobile phone and a charge pal, and can be charged by the charge pal or the mobile phone of the charge pal when the spray type constant-temperature physical cooler is used outdoors without commercial power.

Preferably, in this embodiment, a liquid amount sensor may be further included. The liquid volume sensor is connected to the controller 230 for monitoring the volume value of the liquid 120 in the container 100 in real time and transmitting the volume value to the controller 230, and when the controller 230 determines that the volume value is smaller than the minimum volume threshold of the liquid 120 (for example, the minimum volume threshold may be one tenth of the total volume of the container 100), the controller controls the alarm module connected to the controller 230 to alarm.

The liquid level sensor may be installed in an automatic water supply electric water heater, and the alarm module may be, for example, a speaker or a flash lamp or a combination thereof, and may give an alarm signal such as a whistle or a light flash to prompt a user that the liquid 120 should be supplied to the container 100.

If the user still does not replenish the liquid 120 in the container 100, and the liquid amount in the container 100 is still less than the minimum threshold value of the volume of the liquid 120, the controller 230 may control the semiconductor chilling plate 210 to suspend the cooling or heating operation, so as to avoid the failure caused by the fact that the "heat energy" or "cold energy" generated by the semiconductor chilling plate 210 cannot be timely transmitted to the liquid 120.

Preferably, in the present embodiment, a display unit 700 may be further included. The display unit 700 is connected to the controller 230 for displaying the working status information of the spray type physical thermostat cooler.

Specifically, the display unit 700 may be a common display screen, and then may display, for example, a heating or cooling state of the liquid 120 of the heating container 100 of the semiconductor cooling plate 210 on the display screen, or may also display a real-time temperature of the liquid 120 in the heating container 100, or may also display a real-time electric quantity of the power supply 220, or may display fault information of the temperature detection module 240, and it should be understood that at this time, the temperature detection module 240 is provided with a fault detector, and the fault detector is configured to detect a fault, such as a short circuit, of the temperature detection module 240, and display the fault through the display screen.

Of course, in other embodiments, the display unit 700 may also be a component having an indication or display function, such as an instrument panel, an indicator light, etc., and the display unit 700 can visually present various pieces of operating status information of the spray type thermostatic physical cooler to the user for reference.

Further, in this embodiment, the container 100 may further have a filling port 110, and the filling port 110 is used for storing the liquid 120 into the container 100 when the storage amount of the liquid 120 in the container 100 is less than a predetermined storage amount.

The filling opening 110 can be further provided with a plug for plugging the filling opening 110, when the liquid 120 needs to be added, the plug is taken down to add the liquid 120, and the design form of the oil tank can be used for reference.

Preferably, in this embodiment, the container 100 has a heat preservation function, so that when the liquid 120 in the container 100 is heated or refrigerated by the semiconductor refrigeration sheet 210 to a preset temperature range, the temperature can be maintained for a certain period of time, which is convenient for use. Thermal insulation materials are also common, and thus, the example is not given.

Specifically, in the present embodiment, the container 100 includes a bottom wall 101 and a side wall 102, the side wall 102 includes an inner shell 1021 and an outer shell 1022 covering the inner shell 1021, wherein a gap between the outer shell 1022 and the inner shell 1021 is filled with a heat insulation material 1023 or the gap between the outer shell 1022 and the inner shell 1021 is in a vacuum state, so as to prevent heat of the container 100 from being dissipated through the outer shell 1022 and affecting a heat preservation effect of the liquid 120 in the container 100. The semiconductor chilling plates 210 are configured to be in contact with the bottom wall 101 such that the semiconductor chilling plates 210 facilitate heating or chilling of the liquid 120 within the container 100.

In other embodiments, the sidewall 102 of the container 100 may also be a unitary structure. Specifically, the container 100 includes a bottom wall 101 and a side wall 102, and the side wall 102 is made of a heat insulating material, so that the liquid 120 in the container 100 is effectively insulated, and the heat of the container 100 is prevented from being dissipated through the side wall 102, which affects the heat insulating effect of the liquid 120 in the container 100. The semiconductor chilling plates 210 are configured to be in contact with the bottom wall 101 such that the semiconductor chilling plates 210 facilitate heating or chilling of the liquid 120 within the container 100.

Preferably, in this embodiment, the bottom wall 101 is made of a heat conductive material, so that heat can be easily transferred to the container 100 through the bottom wall 101. In addition, the heat conduction silicone layer 103 is arranged between the bottom wall 101 and the semiconductor refrigeration sheet 210, heat can be effectively conducted, and the semiconductor refrigeration sheet 210 indirectly passes through the heat conduction silicone layer 103 to be in contact with the bottom wall 101, so that heat conduction efficiency is improved.

Preferably, in this embodiment, the sidewall 102 of the container 100 is provided with a transparent or translucent observation window (not shown in the drawings), and the observation window is formed with a volume scale value, so that the storage amount of the liquid 120 in the container 100 can be conveniently observed, and further, the volume scale value can enable related personnel to accurately obtain the storage amount of the liquid 120 in the container 100. Specifically, the volume scale value may be formed integrally with the container 100 on the sidewall 102, such as by stamping, pressing, or the like, or may be a table of volume scale values affixed to the sidewall 102 of the container 100. In addition, the transparent or semitransparent material is selected widely according to actual needs.

Preferably, in this embodiment, a communication module may be further included. The communication module is connected to the controller 230, and the communication module is used for being in communication connection with an external terminal device (such as a computer, a mobile carrier such as a mobile phone, etc.) so as to send the working state information of the spray type constant temperature physical cooler to the external terminal device.

Related personnel can obtain the working state of the wiping type constant-temperature physical cooling period in time through the terminal equipment, such as a heating state, a refrigerating state, a heat preservation state and the like. In addition, the controller 230 may control the alarm module to perform an alarm operation, so that the relevant person can know the alarm operation in time through the external terminal device, and process the alarm information in the shortest time, that is, the terminal device may also function as an alarm unit, for example, when the solution amount in the container 100 is lower than the threshold value or the battery capacity is too low, the terminal device may receive a push message or a short message to prompt the relevant person of the problem to be handled.

In addition, the external terminal device may also be used for a user to set or modify the working parameter information of the spray-type thermostatic physical cooler, for example, the user may set that the spray-type thermostatic physical cooler needs to be in a heating state, a cooling state, or a heat preservation state by himself, and send the working parameter information to the communication module through the external terminal device, and the controller 230 controls the spray-type thermostatic physical cooler to correspondingly heat, refrigerate, or preserve heat, etc. based on the working parameter information.

In consideration of the reasons of the speed and stability of network transmission and the like, the gateway equipment and the remote server can be configured, a user can firstly connect the remote server through the intelligent terminal, then connect the remote server to the gateway equipment, and then connect the gateway equipment to the communication module of the spray type constant temperature physical cooler, the user can check various parameters of the working state of the wiping type constant temperature physical cooler in the wiping type constant temperature physical cooler period on the intelligent terminal, and can also set or modify the working parameter information of the spray type constant temperature physical cooler on the intelligent terminal, for example, the user can set the state that the spray type constant temperature physical cooler needs to be in a heating state or a refrigerating state or a heat preservation state by himself.

In addition, in this embodiment, the spray type constant temperature physical cooler further includes an installation shell 900, the installation shell 900 accommodates the above-mentioned devices (such as the container 100, the semiconductor chilling plates 210, the power supply 220, the controller 230, etc.) therein, an air inlet 903 and an air outlet 902 are further formed in the installation shell 900 at a position corresponding to the semiconductor chilling plates 210, a fan 901 for dissipating heat of the semiconductor chilling plates 210 is further installed at a position of the installation shell 900 close to the air inlet 903, the fan 901 is disposed opposite to the semiconductor chilling plates 210, and the fan 901 dissipates heat of the semiconductor chilling plates 210 to enhance the peltier effect of the semiconductor chilling plates 210, thereby being more beneficial to cooling or heating the semiconductor chilling plates 210.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A spray type constant temperature physical cooler is characterized by comprising:

a container for holding a liquid;

the temperature adjusting device is configured to heat or refrigerate the liquid in the container so as to adjust and control the temperature of the liquid to be within a preset temperature interval; and

a spray head connected to the container, the spray head configured to spray the liquid in a mist state.

2. The spray thermostatted physical desuperheater of claim 1, wherein the temperature-regulating device comprises:

the working end of the semiconductor refrigeration piece is used for being in contact with the container;

the power supply is used for supplying power to the semiconductor refrigerating sheet; and

the controller is used for controlling the state of the current transmitted to the semiconductor refrigeration piece by the power supply, so that the semiconductor refrigeration piece is controlled to heat or refrigerate the liquid in the container, and the temperature of the liquid is regulated and controlled to be within the preset temperature interval.

3. The spray thermostatted physical desuperheater of claim 2, wherein the temperature-regulating device further comprises:

the temperature detection module is connected with the controller and used for detecting the temperature of the liquid in the container, and the controller regulates and controls the heating quantity or the refrigerating quantity of the semiconductor refrigerating sheet based on the temperature of the liquid so as to regulate and control the temperature of the liquid in the preset temperature interval.

4. The spray type thermostatic physical cooler according to claim 2, further comprising an instruction entry module connected to the controller, wherein the instruction entry module is used for a user to enter an operation instruction for controlling the working state of the spray type thermostatic physical cooler; the power supply is a storage battery, and when the controller judges that the electric quantity of the power supply is smaller than the minimum electric quantity threshold value, the controller controls an alarm module connected with the controller to alarm; the charging interface is connected with the storage battery and used for connecting an external power supply to charge the storage battery; still include the liquid measure sensor, connect the controller for real-time supervision the volumetric capacity value of liquid in the container and with the volumetric capacity value sends to the controller, works as the controller judges when the volumetric capacity value is less than liquid capacity minimum threshold, the control connection the alarm module of controller reports to the police.

5. The spray type thermostatic physical cooler according to claim 1, wherein the spray head comprises a press spray head, the press spray head is connected with the container, and the liquid is sprayed out in a mist state by pressing the spray head; the container has a fill port.

6. The spray-type thermostatic physical cooler according to claim 2, wherein the container has a heat preservation function; the container comprises a bottom wall and a side wall, wherein the side wall comprises an inner shell and an outer shell coated outside the inner shell, a gap between the outer shell and the inner shell is filled with a heat insulation material or is in a vacuum state, and the semiconductor refrigeration sheet is configured to be in contact with the bottom wall; or the container comprises a bottom wall and a side wall, the side wall is integrally made of a heat-insulating material, and the semiconductor refrigeration sheet is configured to be in contact with the bottom wall.

7. The spray type thermostatic physical cooler according to claim 6, wherein the bottom wall is made of a heat conductive material, a heat conductive silicone layer is arranged between the bottom wall and the semiconductor refrigeration sheet, and the semiconductor refrigeration sheet indirectly passes through the heat conductive silicone layer to contact with the bottom wall.

8. The spray type constant-temperature physical cooler according to claim 2, further comprising a communication module connected to the controller, wherein the communication module is used for communication connection of external terminal equipment so as to send the working state information of the spray type constant-temperature physical cooler to the external terminal equipment; the communication module is also used for receiving the working parameter information of the spray type constant-temperature physical cooler set by the external terminal equipment, and the controller controls the working state of the spray type constant-temperature physical cooler based on the working parameter information.

9. The spray type constant-temperature physical cooler according to claim 2, further comprising a communication module connected to the controller, wherein the communication module is used for connecting a remote server through gateway equipment, a user connects the remote server through an intelligent terminal, the intelligent terminal sets working parameter information of the spray type constant-temperature physical cooler and sends the working parameter information to the communication module through the remote server and the gateway equipment in sequence, and the controller controls the working state of the spray type constant-temperature physical cooler based on the working parameter information.

10. The spray thermostatted physical desuperheater of claim 2, wherein the state of the electrical current comprises a direction of the electrical current and/or a magnitude of the electrical current; the contacting comprises indirect contacting; the controller includes a chip having a mos tube h-bridge circuit.

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