CN213790850U - Dehumidification system utilizing waste heat of air compressor - Google Patents

Abstract

A dehumidification system utilizing waste heat of an air compressor is arranged between an air compressor room and a workshop, the air compressor is arranged in the air compressor room, and one side of the air compressor room is communicated with the workshop through a first pipeline and a second pipeline; a blower, an active carbon air purifier and a damper mechanism I are sequentially arranged in the pipeline II and led to the workshop side; a second air door mechanism is arranged at the position, which is communicated to the outer side, in the second pipeline; a third pipeline is arranged between the active carbon air purifier and the first air door mechanism and is connected with the second pipeline; a third air door mechanism is connected in the third pipeline; and a temperature sensor is arranged in the workshop. Compared with the prior art, the dehumidification system utilizing the waste heat of the air compressor removes the humidity in the air by utilizing the waste heat of the air compressor, can reduce the production cost and improve the rate of certified products through improvement; the system can be widely applied to the electronic industry needing to control indoor humidity, and contributes to domestic energy conservation and emission reduction.

Description

Dehumidification system utilizing waste heat of air compressor

Technical Field

The utility model relates to an utilize dehumidification system of air compressor machine waste heat is applicable to the condenser trade, especially the occasion that aluminium electrolytic capacitor need control the humiture, also is applicable to other occasions that need control the humiture.

Background

The environmental humidity is very important in the production process of the capacitor, if the humidity is too poor, the interelectrode arcing of the capacitor can be caused, the voltage resistance of the capacitor is reduced, the capacitor is easy to crack during aging, and the rate of certified products of the product is reduced; at present, a common method is that a dehumidifier is additionally arranged in a workshop, and an exhaust fan is arranged to remove indoor peculiar smell, so that the indoor air pressure is small, the outdoor air pressure is high, moisture easily enters indoors, an air conditioner is required to be started when the dehumidifier is started in order to ensure the normal operation of various automatic devices in cold seasons, and the production cost is greatly increased.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is not enough to above-mentioned prior art, and provide an utilize dehumidification system of air compressor machine waste heat.

In order to solve the technical problem, the utility model discloses a technical scheme is:

a dehumidification system utilizing waste heat of an air compressor is arranged between an air compressor room and a workshop, the air compressor is arranged in the air compressor room, and one side of the air compressor room is communicated with the workshop through a first pipeline and a second pipeline; a blower, an active carbon air purifier and a damper mechanism I are sequentially arranged in the pipeline II and led to the workshop side; a second air door mechanism is arranged at the position, which is communicated to the outer side, in the second pipeline; a third pipeline is arranged between the active carbon air purifier and the first air door mechanism and is connected with the second pipeline; a third air door mechanism is connected in the third pipeline; and a temperature sensor is arranged in the workshop.

Furthermore, the air door mechanism comprises an air door plate, a motor support, a proximity switch and a speed reduction motor with a brake, the appearance of the air door plate is matched with the inner section of the second pipeline, and a sealing gasket is wrapped around the air door plate; the center of the air door plate is provided with a connecting sleeve, and a main shaft penetrates through the connecting sleeve; two sides of the main shaft are rotatably connected with the second pipeline through bearings; the motor bracket is connected to the outer side of the second pipeline; the speed reducing motor with the brake is arranged on the motor bracket, and the output end of the speed reducing motor with the brake is connected with the main shaft through the coupler; the main shaft is sleeved with a positioning plate, and the positioning plate is connected with the main shaft through a set screw; and a proximity switch is arranged on the side surface of the motor bracket and is matched with the positioning plate for use.

Furthermore, the positioning plate is provided with four control end parts which are uniformly distributed around the center of the positioning plate.

Furthermore, the second air door mechanism and the third air door mechanism are the same as the air door mechanism in structure.

Compared with the prior art, the dehumidification system utilizing the waste heat of the air compressor can remove the humidity in the air by utilizing the waste heat of the air compressor in winter, can ensure the normal operation of various devices without using a dehumidifier and an air conditioner, can reduce the production cost by improvement, improve the voltage resistance and the insulation resistance performance of a capacitor, and improve the rate of certified products of products; the system can be widely applied to the electronic industry needing to control indoor humidity, and contributes to domestic energy conservation and emission reduction.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic structural diagram of a first air door mechanism of the present invention;

FIG. 3 is a schematic structural view of the wind gate plate of the present invention;

FIG. 4 is a schematic structural view of the positioning plate of the present invention;

the air compressor comprises an air compressor room 1, an air compressor room 2, a workshop 3, an air compressor 4, a pipeline I, a pipeline 5, a pipeline II, a pipeline 6, a blower 7, an active carbon air purifier 8, a damper mechanism I, a damper mechanism II, a damper mechanism 10, a pipeline III, a damper mechanism 12, a temperature sensor 13, a control center 811, a damper plate 812, a motor support 813, a proximity switch 814, a speed reducing motor with a brake 815, a sealing gasket 816, a connecting sleeve 817, a main shaft 818, a coupling 819 and a positioning plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below.

As shown in fig. 1 to 4, a dehumidification system using waste heat of an air compressor is arranged between an air compressor room 1 and a workshop 2, wherein the air compressor 3 is arranged in the air compressor room 1, and one side of the air compressor room 1 is communicated with the workshop 2 through a first pipeline 4 and a second pipeline 5; a blower 6, an active carbon air purifier 7 and a first air door mechanism 8 are sequentially arranged in the pipeline II 5 and led to the workshop 2 side, the blower 6 adopts an exhaust fan, and active carbon is placed in the active carbon air purifier 7; a second air door mechanism 9 is arranged at the position, which is communicated to the outer side, in the second pipeline 5; a third pipeline 10 is arranged between the active carbon air purifier 7 and the first air door mechanism 8, and the third pipeline 10 is connected with the second pipeline 5; a third air door mechanism 11 is connected in the third pipeline 10; a temperature sensor 12 is arranged in the workshop 2, and the temperature sensor 12 adopts a thermistor.

The first air door mechanism 8 comprises an air door plate 811, a motor support 812, a proximity switch 813 and a speed reduction motor 814 with a brake, the shape of the air door plate 811 is matched with the inner cross section of the second pipeline 5, in the embodiment, the inner cross section of the second pipeline 5 is square, the air door plate 811 is a square plate, and the periphery of the air door plate 811 is wrapped with a sealing gasket 815; a connecting sleeve 816 is arranged in the center of the wind gate plate 811, and a main shaft 817 penetrates through the connecting sleeve 816; two sides of the main shaft 817 are rotatably connected with the second pipeline 5 through bearings, and a bearing sleeve is arranged between the bearings and the second pipeline 5; the motor bracket 812 is connected to the outer side of the second pipeline 5; the speed reducing motor 814 with the brake is arranged on the motor bracket 812, and the output end of the speed reducing motor 814 with the brake is connected with the main shaft 817 through a coupler 818; a positioning plate 819 is sleeved on the main shaft 817, and the positioning plate 819 is connected with the main shaft 817 through a set screw; a proximity switch 813 is arranged on the side surface of the motor bracket 812 and is matched with the positioning plate 819 for use.

In this embodiment, the positioning plate 819 is provided with four control ends, and the four control ends are uniformly distributed around the center of the positioning plate 819.

The second air door mechanism 9 and the third air door mechanism 11 are identical to the first air door mechanism 8 in structure.

The working principle is as follows: the air blower 8 draws air, dry hot air released when the air compressor 3 is cooled is conveyed through the first pipeline 4 and the second pipeline 5, at the moment, an air door plate of the first air door mechanism 8 is opened, an air door plate of the second air door mechanism 9 and the third air door mechanism 11 is closed, the dry hot air is purified through the activated carbon air purifier 7 and then conveyed into the workshop 2, the workshop 2 is internally provided with a temperature sensor 12, when the indoor temperature exceeds a certain value, the temperature sensor 12 sends an instruction to the control center 13, the air door plate and the air blower 6 of the first air door mechanism 8 are closed, the air door plates of the second air door mechanism 9 and the third air door mechanism 11 are opened at the same time, wherein the opening and closing of the air door plate 811 are controlled by the positioning plate 819, the proximity switch 813 and the speed reducing motor 814 with brake, when a first control end on the positioning plate 819 approaches the proximity switch 813, the air door plate 811 is, the wind door plate 811 rotates 90 degrees to close, and the like, and the wind door plate 811 is controlled to open and close.

The present invention is not limited to the above-described embodiments, and those skilled in the art can make modifications or changes without departing from the spirit of the present invention.

Claims (4)

1. The utility model provides an utilize dehumidification system of air compressor machine waste heat, sets up between air compressor machine room and workshop, its characterized in that: an air compressor is arranged in the air compressor room, and one side of the air compressor room is communicated with a workshop through a first pipeline and a second pipeline; a blower, an active carbon air purifier and a damper mechanism I are sequentially arranged in the pipeline II and led to the workshop side; a second air door mechanism is arranged at the position, which is communicated to the outer side, in the second pipeline; a third pipeline is arranged between the active carbon air purifier and the first air door mechanism and is connected with the second pipeline; a third air door mechanism is connected in the third pipeline; and a temperature sensor is arranged in the workshop.

2. The dehumidification system using waste heat of the air compressor as claimed in claim 1, wherein: the air door mechanism I comprises an air door plate, a motor support, a proximity switch and a speed reduction motor with a brake, the appearance of the air door plate is matched with the inner section of the second pipeline, and a sealing gasket is wrapped around the air door plate; the center of the air door plate is provided with a connecting sleeve, and a main shaft penetrates through the connecting sleeve; two sides of the main shaft are rotatably connected with the second pipeline through bearings; the motor bracket is connected to the outer side of the second pipeline; the speed reducing motor with the brake is arranged on the motor bracket, and the output end of the speed reducing motor with the brake is connected with the main shaft through the coupler; the main shaft is sleeved with a positioning plate, and the positioning plate is connected with the main shaft through a set screw; and a proximity switch is arranged on the side surface of the motor bracket and is matched with the positioning plate for use.

3. The dehumidification system using waste heat of the air compressor as claimed in claim 2, wherein: the positioning plate is provided with four control end parts which are uniformly distributed around the center of the positioning plate.

4. The dehumidification system using waste heat of the air compressor as claimed in claim 2, wherein: and the second air door mechanism and the third air door mechanism have the same structure as the air door mechanism.

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