CN113163673B - Automatic monitoring system of mine hoist - Google Patents

Abstract

The invention discloses an automatic monitoring system of a mine hoist, which relates to the technical field of ore exploitation and comprises a cabinet body, wherein a cabinet door is arranged on the cabinet body, a plurality of mounting plates and a U-shaped ventilation box are arranged in the cabinet body, two ends of the ventilation box are connected through a partition plate, an air inlet hole and an air outlet hole are formed in the inner side walls of the two ends of the ventilation box, and a driving structure, a dehumidifying structure and a cooling structure are further arranged on the outer side wall of the ventilation box; the driving structure comprises a first notch arranged on the outer side wall of one side of the ventilation box and a first positioning hole arranged on the side wall of the cabinet body and corresponding to the first notch, wherein a first barrel penetrating through the first positioning hole is arranged in the first positioning hole, and a fan is arranged on the inner wall of the first barrel, penetrates through the first notch and is tightly attached to the inner wall of the ventilation box; the dehumidifying structure comprises a dehumidifying screen plate stretching into the ventilation box, and the cooling structure comprises a condensing pipe arranged in the ventilation box; the invention has the advantages of convenient use, temperature control effect and the like.

Description

A mine hoist automatic monitoring system

technical field

The invention relates to the technical field of ore mining, in particular to an automatic monitoring system for hoists used in mines.

Background technique

With the development of society and the advancement of science and technology, automated production has become the mainstream. The difference between automated production and manual control production is that manual control is mainly done through human eye observation and equipment control, and automated production is mainly done through equipment detection and control. The safety of the hoist in the mine is more and more valued by people. The mine hoist needs to be monitored during use to prevent accidents. With the advancement of technology, the monitoring system of the hoist is becoming more and more Intelligent, the monitoring system can display and alarm the failure of the hoist in the general control room. The existing mine control system is installed in the cabinet of the control room and integrated with the cabinet. The detection system of the mine hoist is also in a high-load operation state, and the monitoring system often fails due to overheating, resulting in the inability to process the monitoring data of the hoist. Therefore, this application sets up an automatic mine hoist surveillance system.

Contents of the invention

The technical problem to be solved by the present invention is to provide an automatic monitoring system for mine hoists, which is used to solve the problem that the mine hoist monitoring system in the prior art described in the background technology is easy to heat and damage

In order to achieve the above object, the present invention provides the following technical solutions: an automatic monitoring system for a hoist in a mine, comprising a cabinet, the cabinet is provided with a cabinet door, and inside the cabinet are provided with several mounting plates and a U-shaped ventilation box, the two ends of the ventilation box are connected by partitions, the ventilation box surrounds the mounting plate, the inner side walls of the two ends of the ventilation box are provided with air inlet holes and air outlet holes, the ventilation box A drive structure, a dehumidification structure and a cooling structure are also provided on the outer wall of the ventilation box; the drive structure includes a first notch arranged on the outer wall of one side of the ventilation box, and a first notch arranged on the side wall of the cabinet corresponding to the position of the first notch. The first positioning hole, the first positioning hole is provided with a first barrel passing through the first positioning hole, the opening end of the first barrel coincides with the first notch, and the inner wall of the first barrel is set There is a fan, the fan passes through the first notch and is in close contact with the inner wall of the ventilation box, and is used to drive the air flow in the ventilation box; the dehumidification structure includes a dehumidification net plate extending into the ventilation box, and the cooling structure includes The condensing pipe arranged in the ventilation box, the condensing pipe is between the fan and the dehumidification net plate.

Preferably: the driving structure further includes a plurality of filter screens arranged in the first barrel, and the several filter screens are respectively located on both sides of the fan for filtering the air passing through the fan.

Preferably: the dehumidification structure also includes a second notch arranged on the outer wall of the ventilation box, and a second positioning hole arranged on the side wall of the cabinet corresponding to the position of the second notch, and the second positioning hole is set There is a second barrel body passing through the second positioning hole, the opening end of the second barrel body coincides with the second notch, and the dehumidification screen is arranged in the second barrel body and is in close contact with the inner wall of the ventilation box.

Preferably: the positions corresponding to the first positioning hole and the second positioning hole on the outer wall of the cabinet body are respectively rotated and provided with several splints. A thrust is applied to the first barrel or the second barrel.

Preferably: the cooling structure also includes a refrigeration box arranged on the outer wall of the cabinet, a refrigerator and a cooling liquid tank are arranged in the refrigeration box, a pump body is arranged on the outer wall of the refrigeration box, and a pump body of the pump body The liquid inlet pipe is connected with the cooling liquid tank, the liquid outlet pipe is connected with one end of the condensing pipe, and the other end of the condensing pipe is connected with the cooling liquid tank.

Preferably: a temperature sensor is also arranged on the inner wall of the cabinet, and the temperature sensor is located within the range of the ventilation box.

Preferably: the bottom of the cabinet is provided with a base.

The beneficial effect of adopting above technical scheme is:

The fan in the drive structure provided by the present application can form an air flow in the ventilation box, so that the air in the ventilation box flows into the inner range of the ventilation box after being filtered, dehumidified, and cooled, and the electrical components on the mounting plate are cooled. Moreover, intelligent control can be realized through the installed temperature sensor, and the external pollution and influence on the cabinet body can be reduced.

Description of drawings

Fig. 1 is a front view of an automatic monitoring system for a mine hoist according to the present invention.

Fig. 2 is a schematic structural view of the cabinet of the present invention.

Fig. 3 is a rear view of the cabinet of the present invention.

Among them: cabinet body 10, cabinet door 11, base 12, mounting plate 20, ventilation box 30, air inlet 31, air outlet 32, partition 33, driving structure 40, first notch 41, first positioning hole 42, The first barrel body 43, the fan 44, the filter screen 45, the splint 46, the spring 47, the dehumidification structure 50, the second notch 51, the second positioning hole 52, the second barrel body 53, the dehumidification net plate 54, the cooling structure 60, Refrigeration box 61 , coolant tank 62 , refrigerator 63 , condensation pipe 64 , pump body 65 , temperature sensor 70 .

Detailed ways

Preferred embodiments of the present invention will be described in detail below in conjunction with the accompanying drawings.

Embodiment, as shown in Fig. 1-3, in this embodiment, a kind of hoist automatic monitoring system for mine, comprises cabinet body 10, and cabinet body 10 is provided with cabinet door 11, and the inside of described cabinet body 10 is provided with There are several mounting plates 20 and a U-shaped vent box 30, the two ends of the vent box 30 are connected by a partition 33, the vent box 30 surrounds the mounting plate 20, and the inside walls of the vent box 30 two ends An air inlet 31 and an air outlet 32 are provided, and a driving structure 40, a dehumidification structure 50 and a cooling structure 60 are also arranged on the outer wall of the ventilation box 30; The first notch 41 of the first notch 41 and the first positioning hole 42 corresponding to the position of the first notch 41 are arranged on the side wall of the cabinet body 10. The first positioning hole 42 is provided with a first barrel passing through the first positioning hole 42 body 43, the opening end of the first barrel body 43 coincides with the first notch 41, and the inner wall of the first barrel body 43 is provided with a fan 44, and the fan 44 passes through the first notch 41 and connects with the ventilation box 30 The inner wall of the ventilation box 30 is used to drive the air flow in the ventilation box 30; the dehumidification structure 50 includes a dehumidification net plate 54 extending into the ventilation box 30, and the cooling structure 60 includes a condensation pipe 64 arranged in the ventilation box 30 , the condensation pipe 64 is between the fan 44 and the dehumidification screen 54 .

Preferably: the driving structure 40 further includes several filter screens 45 arranged in the first barrel body 43 , and the several filter screens 45 are respectively located on both sides of the fan 44 for filtering the air passing through the fan 44 .

Preferably: the dehumidification structure 50 also includes a second notch 51 provided on the outer wall of the ventilation box 30, and a second positioning hole 52 provided on the side wall of the cabinet 10 corresponding to the position of the second notch 51, the The second positioning hole 52 is provided with a second barrel body 53 passing through the second positioning hole 52, the opening end of the second barrel body 53 coincides with the second notch 51, and the dehumidification net plate 54 is arranged in the second barrel body 53 and is in close contact with the inner wall of the vent box 30.

Preferably: the positions corresponding to the first positioning hole 42 and the second positioning hole 52 on the outer side wall of the cabinet body 10 are respectively rotated and provided with several splints 46, and the splints 46 are connected to the outer side wall of the cabinet body 10 by a spring 47, The splint 46 applies thrust to the first barrel body 43 or the second barrel body 53 under the action of the spring 47 .

Preferably: the cooling structure 60 also includes a refrigeration box 61 arranged on the outer wall of the cabinet body 10, a refrigerator 63 and a coolant tank 62 are arranged in the refrigerator box 61, and a pump is arranged on the outer wall of the refrigeration box 61 body 65 , the liquid inlet pipe of the pump body 65 is connected to the coolant tank 62 , the liquid outlet pipe is connected to one end of the condensation pipe 64 , and the other end of the condensation pipe 64 is connected to the coolant tank 62 .

Preferably: the inner wall of the cabinet body 10 is also provided with a temperature sensor 70 , and the temperature sensor 70 is located within the range of the ventilation box 30 .

Preferably: the bottom of the cabinet body 10 is provided with a base 12 .

The specific implementation manner of this embodiment:

When the application is in use, the temperature sensor 70 can perceive the temperature in the cabinet body 10. When the temperature is greater than the set value, the fan 44 starts, and the fan 44 introduces the wind in the ventilation box 30 into the ventilation box 30 and the partition through the air inlet 31. Within the range surrounded by the board 33, the electrical components on the mounting board 20 are cooled, and then the hot air carried flows out from the air outlet 32, filtered by the filter screen 45, cooled by the condensation pipe 64, and dehumidified by the dehumidification net plate 54. Within the range enclosed by the vent box 30 and the partition 33;

The condensing pipe 64 circulates the coolant in the coolant tank 62 through the provided pump body 65, and cools the coolant through the refrigerator 63, which can effectively control the temperature of the gas circulating in the vent box 30;

In the present application, the spring 47 is stretched by rotating the splint 46, the first barrel body 43 and the second barrel body 53 can be taken out from the first positioning hole 42 and the second positioning hole 52 respectively, and the filter screen 45 can be replaced 1. The blower fan 44 is maintained, and the dehumidification net plate 54 is replaced, which makes the use of the present application more flexible.

The above is only the preferred embodiment of the present invention, it should be pointed out that for those skilled in the art, without departing from the inventive concept of the present invention, some modifications and improvements can also be made, and these all belong to the present invention. protection scope of the invention.

Claims (4)

1. The utility model provides a mine is with automatic monitored control system of lifting machine, includes the cabinet body, be provided with cabinet door, its characterized in that on the cabinet body: a plurality of mounting plates and a U-shaped ventilation box are arranged in the cabinet body, two ends of the ventilation box are connected through a partition board, the ventilation box surrounds the periphery of the mounting plates, an air inlet hole and an air outlet hole are formed in the inner side walls of the two ends of the ventilation box, and a driving structure, a dehumidifying structure and a cooling structure are further arranged on the outer side wall of the ventilation box; the driving structure comprises a first notch arranged on the outer side wall of one side of the ventilation box and a first positioning hole arranged on the side wall of the cabinet body and corresponding to the first notch, wherein a first barrel penetrating through the first positioning hole is arranged in the first positioning hole, the opening end of the first barrel is anastomotic with the first notch, a fan is arranged on the inner wall of the first barrel, penetrates through the first notch and clings to the inner wall of the ventilation box, and is used for driving air in the ventilation box to flow; the dehumidifying structure comprises a dehumidifying screen plate stretching into the ventilation box, the cooling structure comprises a condensing pipe arranged in the ventilation box, and the condensing pipe is arranged between the fan and the dehumidifying screen plate;

the driving structure further comprises a plurality of filter screens arranged in the first barrel body, wherein the filter screens are respectively positioned at two sides of the fan and used for filtering air passing through the fan;

the dehumidifying structure further comprises a second notch arranged on the outer side wall of the ventilation box and a second positioning hole arranged on the side wall of the cabinet body and corresponding to the second notch, a second barrel penetrating through the second positioning hole is arranged in the second positioning hole, the opening end of the second barrel is matched with the second notch, and the dehumidifying screen is arranged in the second barrel and is tightly attached to the inner wall of the ventilation box;

the clamping plates are respectively rotatably arranged on the outer side wall of the cabinet body at positions corresponding to the first positioning holes and the second positioning holes, and are connected with the outer side wall of the cabinet body through springs, and the clamping plates apply thrust to the first barrel body or the second barrel body under the action of the springs;

the spring is stretched by rotating the clamping plates, the first barrel body and the second barrel body can be taken out from the first positioning hole and the second positioning hole respectively, and the filter screen can be replaced, the fan can be maintained, and the dehumidifying screen can be replaced.

2. The automatic monitoring system of a mine hoist according to claim 1, wherein the cooling structure further comprises a refrigerating box arranged on the outer side wall of the cabinet body, a refrigerator and a cooling liquid box are arranged in the refrigerating box, a pump body is arranged on the outer wall of the refrigerating box, a liquid inlet pipe of the pump body is connected with the cooling liquid box, a liquid outlet pipe of the pump body is connected with one end of a condensing pipe, and the other end of the condensing pipe is connected with the cooling liquid box.

3. The automatic monitoring system for mine hoists as set forth in claim 2, wherein a temperature sensor is further provided on the inner side wall of the cabinet, and the temperature sensor is located in the range of the ventilation box.

4. The automatic monitoring system for mine hoists as in claim 1, wherein a base is provided at the bottom of the cabinet.