CN114650708B - High-efficient cooling equipment is used in manufacturing of industry automatic control system device - Google Patents

Abstract

The invention relates to the technical field of high-efficiency cooling equipment, in particular to high-efficiency cooling equipment for manufacturing an industrial automatic control system device, which comprises an integrated cabinet, wherein two groups of exhaust fans are symmetrically arranged on two sides of the integrated cabinet, one group of exhaust fans are communicated with an elbow, the elbow is connected with an air drying device with double drying and condensate water removing functions, and the air drying device is connected with an air compression mechanism; the decompression board receives the atmospheric pressure influence, makes the decompression board remove along the outlet duct, and decompression board compresses spring one through the guiding axle simultaneously, until the decompression board removes the outlet duct head, and the air is spouted through the venthole that the outlet duct head set up this moment, forms a plurality of air columns, and the air column spouts on the refrigeration ring, because the refrigeration piece makes refrigeration ring inner circle temperature low to the steam that makes mix with in the air congeals into the drop of water, worm two makes gear one rotate through gear two simultaneously, and gear one rotates through the compressed tank makes the outlet duct rotate, thereby makes the even spraying of air column on the refrigeration ring inner circle, has improved the drying efficiency of air.

Description

High-efficient cooling equipment is used in manufacturing of industry automatic control system device

Technical Field

The invention relates to the technical field of high-efficiency cooling equipment, in particular to high-efficiency cooling equipment for manufacturing an industrial automatic control system device.

Background

The intelligent automatic industrial control system mainly uses industrial control computer to integrate information management and automatic control, and can ensure information safety by means of authority authentication, and the industrial automation is characterized by that in the whole industrial production process, the manpower operation can be reduced as far as possible, and the energy source except animals and various information can be fully used to make production work.

Because integrated circuit elements or control elements and man-machine interaction elements in the integrated cabinet are numerous, a large amount of heat can be generated in the operation process of the integrated cabinet, in order to ensure the normal operation of the integrated cabinet, heat dissipation and cooling equipment is generally installed on the integrated cabinet, the heat dissipation and cooling equipment is used for effectively cooling the integrated cabinet by sucking external cold air into the integrated cabinet through cold-heat exchange, but water vapor is mixed in the air, the water vapor content in different seasons is different, the water vapor enters the integrated cabinet and can be condensed into water drops, the water drops can damage the integrated circuit elements or the control elements and the man-machine interaction elements, and potential safety hazards are caused by setting.

Disclosure of Invention

The invention aims to provide high-efficiency cooling equipment for manufacturing an industrial automatic control system device, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the high-efficiency cooling equipment for manufacturing the industrial automatic control system device comprises an integrated cabinet, wherein two groups of exhaust fans are symmetrically arranged on two sides of the integrated cabinet, one group of exhaust fans are communicated with an elbow, the elbow is connected with an air drying device with double drying and condensate water removing functions, and the air drying device is connected with an air compression mechanism;

the air drying device comprises a drying box body, an air outlet pipe mechanism is arranged in the drying box body, a refrigerating ring is sleeved on the head of the air outlet pipe mechanism, four groups of refrigerating sheets are arranged on the refrigerating ring at equal angles, a water removing mechanism is arranged in the refrigerating ring, the drying box body is connected with a drying agent containing pipe, two groups of steel wire nets are arranged in the drying agent containing pipe, a transmission shaft is arranged in the drying agent containing pipe, and four groups of stirring rods are arranged on the transmission shaft.

Preferably, the air outlet pipe mechanism comprises an air outlet pipe, the head part of the air outlet pipe is provided with a plurality of groups of air outlet holes, a pressure relief plate is arranged in the air outlet pipe and connected with a guide shaft, a spring I is sleeved on the guide shaft, a bearing is arranged on the air outlet pipe and embedded into the drying box body, the air outlet holes are opposite to the inner ring of the refrigeration ring, a vertical bearing is arranged on the guide shaft, and the vertical bearing is embedded into a support plate arranged in the air outlet pipe.

Preferably, the water removing mechanism comprises a foam-rubber cushion, two groups of springs II are symmetrically arranged on the foam-rubber cushion, two groups of clamping plates are arranged on two sides of the foam-rubber cushion, the clamping plates are in sliding connection with two groups of sliding rods, one group of clamping plates are hinged with a pull rod, one end of the pull rod is provided with a worm wheel I, the worm wheel I is meshed with a worm I, and one end of the worm is connected with an air outlet pipe.

Preferably, the air compression mechanism comprises a compression tank, one end of the compression tank is connected with an air outlet pipe, the compression tank is located on a support, the other end of the compression tank is connected with a first gear, the first gear is meshed with a second gear, the middle of the second gear is connected with a second worm, one end of the second worm is provided with a transmission mechanism, the transmission mechanism is connected with the compression mechanism, a bearing is arranged on the compression tank, a bearing embedded support is arranged on the second worm, and the bearing is embedded in the support.

Preferably, the compression mechanism comprises an air inlet pipe, one end of the air inlet pipe is connected with the compression tank, a filter is arranged in the air inlet pipe, one end of the air inlet pipe is internally provided with a check plate, the middle part of the check plate is connected with a first guide pillar, a third spring is sleeved on the first guide pillar, the air inlet pipe is connected with a piston in a sliding manner, a plug is arranged in the piston, the plug is connected with the second guide pillar, one side of the plug is provided with two groups of connecting rods, and one end of each connecting rod is connected with a connecting disc.

Preferably, the transmission mechanism comprises a worm wheel II, the worm wheel II is meshed with a worm II, the middle part of the worm wheel II is connected with a shaft II, one end of the shaft II is connected with a rotary table, one side of the rotary table, deviating from the axis, is provided with a shaft III, one end of the shaft III is provided with a bearing, the bearing is rotationally connected with a rectangular groove, the rectangular groove is positioned on a bearing seat, the lower end of the bearing seat is provided with a sliding block, and the sliding block is in sliding connection with a sliding rail.

Preferably, one end of the transmission shaft is connected with the first worm, the other end of the transmission shaft is provided with a bearing, the bearing is embedded into the drying agent containing pipe, and the refrigerating ring is fixedly connected with the inner wall of the drying box body.

Preferably, the first upright bearing is arranged on the first guide post, the first upright bearing is embedded into the first support rod arranged in the air inlet pipe, the vent hole arranged in the piston is formed in the second guide post, the second upright bearing is embedded into the second support rod arranged in the vent hole, the bearing is arranged in the middle of one side of the receiving disc, and the bearing is embedded into the receiving seat.

Preferably, two groups of holes are symmetrically arranged on the sponge cushion, a spring II is arranged in the holes, the sponge cushion is fixedly connected with a clamping plate, two groups of vertical bearings are arranged on the sliding rod, the vertical bearings are embedded into the clamping plate, two groups of pin shafts are arranged at two ends of the pull rod, one end of each pin shaft is provided with a bearing, one group of bearings are embedded into one side of the worm wheel deviating from the axis, the other group of bearings are embedded into one group of clamping plate, the middle part of the worm wheel is connected with the first shaft, one end of each shaft is provided with a bearing, and the bearings are embedded into the drying box.

Compared with the prior art, the invention has the beneficial effects that:

1. the pressure release plate is influenced by air pressure, so that the pressure release plate moves along the air outlet pipe, the spring I is compressed by the guide shaft until the pressure release plate moves to the head of the air outlet pipe, at the moment, air is sprayed out through the air outlet holes arranged at the head of the air outlet pipe to form a plurality of air columns, the air columns are sprayed on the refrigerating ring, water mixed in the air is condensed into water drops due to low temperature of the inner ring of the refrigerating ring by the refrigerating sheet, meanwhile, the gear I is rotated by the worm II, the air outlet pipe is rotated by the gear II, and the air columns are uniformly sprayed on the inner ring of the refrigerating ring by the compression tank, so that the drying efficiency of the air is improved;

2. the first worm wheel is rotated through the first worm, the first worm wheel enables the sponge cushion and the two groups of clamping plates to move back and forth along the sliding rod through the pull rod, the condensed water attached to the inner ring of the refrigerating ring is absorbed through the movement of the sponge cushion, accumulation of the condensed water on the inner ring of the refrigerating ring is avoided, meanwhile, when the sponge cushion moves to a limiting block arranged on the sliding rod, the limiting block blocks the movement of the sponge cushion, the clamping plates can squeeze the sponge cushion, and meanwhile the second compression spring enables the condensed water on the sponge cushion to be squeezed off, so that efficient water absorption of the sponge cushion is guaranteed.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view in partial cross-section of the structure of the present invention;

FIG. 3 is an enlarged view of FIG. 2 at A;

FIG. 4 is a schematic diagram of the combination of the air outlet pipe mechanism, the refrigeration ring and the water removal mechanism of the structure of the invention;

fig. 5 is a schematic view of a structural transmission mechanism of the present invention.

In the figure: 1. an integrated cabinet; 2. an exhaust fan; 3. bending the pipe; 4. an air drying device; 5. an air compression mechanism; 401. a drying box body; 402. an air outlet pipe mechanism; 403. a refrigeration ring; 404. a cooling sheet; 405. a water removal mechanism; 406. a desiccant accommodating tube; 407. a steel wire mesh; 408. a transmission shaft; 409. an agitating rod; 4021. an air outlet pipe; 4022. an air outlet hole; 4023. a pressure relief plate; 4024. a guide shaft; 4025. a first spring; 4051. a sponge cushion; 4052. a second spring; 4053. a clamping plate; 4054. a slide bar; 4055. a pull rod; 4056. a first worm wheel; 4057. a first shaft; 4058. a first worm; 501. a compression tank; 502. a bracket; 503. a first gear; 504. a second gear; 505. a second worm; 506. a compression mechanism; 507. a transmission mechanism; 5061. an air inlet pipe; 5062. a filter; 5063. a check plate; 5064. a third spring; 5065. a first guide post; 5066. a piston; 5067. a plug; 5068. a second guide post; 5069. a receiving rod; 50610. a receiving tray; 5071. a second worm wheel; 5072. a second shaft; 5073. a turntable; 5074. an axle III; 5075. rectangular grooves; 5076. a socket; 5077. a slide block; 5078. a slide rail.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 5, the present invention provides a technical solution: the high-efficiency cooling equipment for manufacturing the industrial automatic control system device comprises an integrated cabinet 1, wherein two groups of exhaust fans 2 are symmetrically arranged on two sides of the integrated cabinet 1, one group of exhaust fans 2 is communicated with an elbow pipe 3, the elbow pipe 3 is connected with an air drying device 4 with double drying and condensate water removing functions, and the air drying device 4 is connected with an air compression mechanism 5; the air compression mechanism 5 comprises a compression tank 501, one end of the compression tank 501 is connected with an air outlet pipe 4021, the compression tank 501 is positioned on a support 502, the other end of the compression tank 501 is connected with a first gear 503, the first gear 503 is meshed with a second gear 504, the middle part of the second gear 504 is connected with a second worm 505, one end of the second worm 505 is provided with a transmission mechanism 507, the transmission mechanism 507 is connected with a compression mechanism 506, a bearing is arranged on the compression tank 501 and is embedded in the support 502, the bearing is arranged on the second worm 505 and is embedded in the support 502, the compression mechanism 506 comprises an air inlet pipe 5061, one end of the air inlet pipe 5061 is connected with the compression tank 501, a filter 5062 is arranged in the air inlet pipe 5061, a check plate 5063 is arranged at one end of the air inlet pipe 5061, the middle part of the check plate 5063 is connected with a first guide pillar 5065, a third spring 5064 is sleeved on the first guide pillar 5065, the air inlet pipe 5061 is connected with a piston 5066 in a sliding way, a plug 5067 is connected with the second guide pillar 5068, one side of the plug 5067 is provided with two groups of bearing rods 5069, one end of the bearing rod 5069 is connected with the bearing disc 50610, the transmission mechanism 507 comprises a worm gear II 5071, the worm gear II 5071 is meshed with a worm gear II 505, the middle part of the worm gear II 5071 is connected with a shaft II 5072, one end of the shaft II 5072 is connected with a rotary disc 5073, one side, deviating from the axis, of the rotary disc 5073 is provided with a shaft III 5074, one end of the shaft III 5074 is provided with a bearing, the bearing is rotationally connected with a rectangular groove 5075, the rectangular groove 5075 is positioned on the bearing seat 5076, the lower end of the bearing seat 5076 is provided with a sliding block 5077, the sliding block 5077 is slidingly connected with a sliding rail 5078, the guide post I5065 is provided with a vertical bearing I, the vertical bearing I is embedded with a support rod I arranged in an air inlet pipe 5061, a vent hole is arranged in a piston 5066, the guide post II is provided with a vertical bearing II arranged in the vent hole, the middle part of one side of the bearing disc 50610 is provided with a bearing, the bearing is embedded with the bearing seat 5076, the filter 5062 is an air filter, the filter 5062 is composed of a frame and a filter element, the soft filter element, the porous and spongy polyurethane is characterized in that a worm II 505 is driven by a motor, when the motor rotates a worm wheel II 5071 through the worm II 505, the worm wheel II 5071 rotates a turntable 5073 through a shaft II 5072, the turntable 5073 drives a sliding block 5077 to linearly move back and forth on a sliding rail 5078 through the cooperation of a shaft III 5074 and a rectangular groove 5075, meanwhile, the bearing block 5076 drives a bearing rod 5069 through a bearing plate 50610, the bearing rod 5069 drives a piston 5066 to move back and forth along an air inlet pipe 5061, when the piston 5066 moves towards the inside of the air inlet pipe 5061, under the influence of air pressure, a plug 5067 plugs a vent hole in the piston 5066, simultaneously a check plate 5063 is separated from an air outlet of the air inlet pipe 5061, and air is filtered by a spring III 5064 through a guide pillar 5065 and then pressed into a compression tank 501;

the air outlet pipe mechanism 402 comprises an air outlet pipe 4021, a plurality of groups of air outlet holes 4022 are arranged at the head part of the air outlet pipe 4021, a pressure release plate 4023 is arranged in the air outlet pipe 4021, the pressure release plate 4023 is connected with a guide shaft 4024, a first spring 4025 is sleeved on the guide shaft 4024, a bearing is arranged on the air outlet pipe 4021, the bearing is embedded into a drying box 401, the air outlet holes 4022 are opposite to the inner ring of a refrigerating ring 403, a vertical bearing is arranged on the guide shaft 4024, the vertical bearing is embedded into a support plate arranged in the air outlet pipe 4021, the air drying device 4 comprises the drying box 401, an air outlet pipe mechanism 402 is arranged in the drying box 401, a refrigerating ring 403 is sleeved at the head part of the air outlet pipe mechanism 402, four groups of refrigerating sheets 404 are arranged on the refrigerating ring 403 at equal angles, a water removing mechanism 405 is arranged in the refrigerating ring 403, the drying box 401 is connected with a drying agent accommodating pipe 406, two groups of steel wires 407 are arranged in the drying agent accommodating pipe 406, a transmission shaft 408 is arranged in the drying agent accommodating pipe 406, four groups of stirring rods 409 are arranged on the transmission shaft 408,

wherein two sets of exhaust fans 2 (refer to model FD 9225) wind direction is unanimous, place the silica gel drier between two sets of steel wire nets 407, the cover is established the rubber sleeve on the pressure release plate 4023, the rubber sleeve hugs closely the inner wall of outlet duct 4021, refrigeration piece 404 (refer to model TEC 1-07103) has refrigerated effect, when the atmospheric pressure in the compression jar 501 is bigger and bigger, pressure release plate 4023 receives the atmospheric pressure influence, make pressure release plate 4023 remove along outlet duct 4021, simultaneously pressure release plate 4023 compresses spring one 4025 through guiding axle 4024, until pressure release plate 4023 removes the outlet duct 4021 head, the air is spouted through the venthole 4022 that the outlet duct 4021 head set up this moment, form a plurality of air columns, the air column spouts on refrigerating ring 403, because refrigerating piece 404 makes refrigerating ring 403 inner circle temperature low, thereby make the steam in the air condense into the drop, simultaneously, gear one 503 rotates through gear two 504 make, gear one 503 rotates through compressing jar 501 makes air column uniform on refrigerating ring 403, the drying efficiency has been improved, simultaneously, machine 2 makes the drying ring 403 through guiding axle 4024 compressed spring one, until pressure release plate 4023 moves to the outlet duct 4021 head, make the drier, make the drying agent in the silica gel is more fully absorbed through the silica gel 408 through the drying tube, and the air column 408 is absorbed through the drying air, simultaneously, the drying device is fully and the moisture is absorbed by the silica gel in the drying rod 408.

The water removing mechanism 405 comprises a foam cushion 4051, two groups of springs 4052 are symmetrically arranged on the foam cushion 4051, two groups of clamping plates 4053 are arranged on two sides of the foam cushion 4051, the clamping plates 4053 are in sliding connection with two groups of slide bars 4054, one group of clamping plates 4053 are hinged with a pull rod 4055, one end of the pull rod 4055 is provided with a worm wheel 4056, the worm wheel 4056 is meshed with a worm 4058, one end of the worm 4058 is connected with an air outlet pipe 4021, one end of a transmission shaft 408 is connected with the worm 4058, the other end of the transmission shaft 408 is provided with a bearing, the bearing is embedded into a drying agent containing pipe 406, a refrigerating ring 403 is fixedly connected with the inner wall of a drying box 401, two groups of holes are symmetrically arranged on the foam cushion 4051, the springs 4052 are arranged in the holes, the foam cushion 4051 is fixedly connected with the clamping plates 4053, two groups of vertical bearings are arranged on the slide bars 4054, two groups of pin shafts are embedded into the clamping plates 4053, one end of the pull rod 4055 is provided with two groups of pins, one end of the pin shaft is provided with a bearing, one group of bearings are embedded into one side of the worm gear 4056, which deviates from the axis, the other group of bearings are embedded into one group of clamping plates 4053, the middle part of the worm gear 4056 is connected with the first shaft 4057, one end of the first shaft 4057 is provided with a bearing, the bearing is embedded into the drying box 401, wherein when the air outlet pipe 4021 rotates the first worm gear 4056 through the first worm gear 4058, the first worm gear 4056 enables the foam-rubber cushion 4051 and the two groups of clamping plates 4053 to move back and forth along the sliding rod 4054 through the pull rod 4055, the movement of the foam-rubber cushion 4051 absorbs condensed water attached to the inner ring of the refrigeration ring 403, the condensed water is prevented from accumulating on the inner ring of the refrigeration ring 403, meanwhile, when the foam-rubber cushion 4051 moves to a limiting block arranged on the sliding rod 4054, the limiting block blocks block the movement of the foam-rubber cushion 4051, the clamping plates 4053 squeeze the foam-rubber cushion 4051, and meanwhile, the second compression spring 4052 is compressed, so that the condensed water on the foam-rubber cushion 4051 is squeezed, and the efficient water absorption of the foam-rubber cushion 4051 is ensured.

Working principle: in the use process, the motor makes worm wheel two 5071 rotate through worm two 505, worm wheel two 5071 makes carousel 5073 rotate through axle two 5072, carousel 5073 makes through the cooperation of axle three 5074 and rectangular groove 5075, make carrier 5076 drive slider 5077 make round trip rectilinear movement on slide rail 5078, simultaneously carrier 5076 makes carrier 5069 through carrier 50610 drive, carrier 5069 drives piston 5066 along intake pipe 5061 round trip movement, make the air in the compression tank 501 more and more, when the atmospheric pressure in the compression tank 501 is greater and greater, pressure release plate 4023 receives the influence of the atmospheric pressure, make pressure release plate 4023 follow outlet duct 4021 and remove, simultaneously pressure release plate 4023 compresses spring one 4025 through guiding axle 4024, until pressure release plate 4023 moves to outlet duct 4021 head, at this moment the air is spouted through the venthole 4022 that outlet duct 4021 head set up, the air column spouts on refrigeration ring 403, simultaneously, gear two 505 makes gear one 503 rotate through gear two 504, make outlet duct 1 rotate through compression tank 501, make outlet duct 1 rotate, start-up of machine 2, make the drying ring 403 dry, make the air flow into through the quick-drying agent group 408 through the worm 408, make desiccant set of drying agent set up desiccant 408 rotate, simultaneously, agitating the transmission shaft 409 stirs, and the desiccant is stirred by the transmission shaft 408 is made to stir the desiccant set of drying, and the desiccant is moved by four.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides an industry automatic control system device makes with high-efficient cooling equipment, includes integrated cabinet, integrated cabinet bilateral symmetry sets up two sets of exhaust fans, a set of exhaust fan intercommunication return bend, its characterized in that: the bent pipe is connected with an air drying device with double drying and condensate water removing functions, and the air drying device is connected with an air compression mechanism;

the air drying device comprises a drying box body, an air outlet pipe mechanism is arranged in the drying box body, a refrigerating ring is sleeved on the head of the air outlet pipe mechanism, four groups of refrigerating sheets are arranged on the refrigerating ring at equal angles, a water removing mechanism is arranged in the refrigerating ring, the drying box body is connected with a drying agent containing pipe, two groups of steel wire meshes are arranged in the drying agent containing pipe, a transmission shaft is arranged in the drying agent containing pipe, four groups of stirring rods are arranged on the transmission shaft, the air outlet pipe mechanism comprises an air outlet pipe, a plurality of groups of air outlet holes are arranged on the head of the air outlet pipe, a pressure relief plate is arranged in the air outlet pipe, the pressure relief plate is connected with a guide shaft, a first spring is sleeved on the guide shaft, a bearing is arranged on the air outlet pipe, the bearing is embedded into the drying box body, the air outlet holes are opposite to the inner ring, a vertical bearing is arranged on the guide shaft, the vertical bearing is embedded into a support plate arranged in the air outlet pipe, the water removing mechanism comprises a foam-rubber cushion, two groups of springs are symmetrically arranged on the foam-rubber cushion, two groups of clamping plates are arranged on two sides of the foam-rubber cushion, two groups of sliding rods are connected with the clamping plates in a sliding manner, one group of clamping plates are hinged with a pull rod, one end of the pull rod is provided with a worm wheel I which is meshed with a worm I, one end of the worm I is connected with an air outlet pipe, a vertical bearing I is arranged on a guide pillar I, a support rod I embedded in an air inlet pipe is embedded in the vertical bearing I, a vent hole in the piston is embedded in the piston, a vertical bearing II is arranged on the guide pillar II, a support rod II arranged in the vertical bearing II is embedded in the vent hole, a bearing is arranged in the middle of one side of the bearing plate, two groups of holes are symmetrically arranged on the foam-rubber cushion, the springs II are fixedly connected with the clamping plates, two groups of vertical bearings are arranged on the sliding rods, the vertical bearings are embedded in the clamping plates, two groups of pin shafts are arranged at two ends of the pull rod, one end of each pin shaft is provided with a bearing, one group of bearings are embedded into one side of the worm wheel deviating from the axis, the other group of bearings are embedded into one group of clamping plates, the middle part of the worm wheel is connected with the first shaft, one end of each shaft is provided with a bearing, and the bearings are embedded into the drying box body.

2. The efficient cooling apparatus for manufacturing an industrial automatic control system device according to claim 1, wherein: the air compression mechanism comprises a compression tank, one end of the compression tank is connected with an air outlet pipe, the compression tank is located on a support, the other end of the compression tank is connected with a first gear, the first gear is meshed with a second gear, the middle of the second gear is connected with a second worm, one end of the second worm is provided with a transmission mechanism, the transmission mechanism is connected with the compression mechanism, a bearing is arranged on the compression tank, the bearing is embedded in the support, the second worm is provided with a bearing, and the bearing is embedded in the support.

3. The efficient cooling apparatus for manufacturing an industrial automatic control system device according to claim 2, wherein: the compression mechanism comprises an air inlet pipe, one end of the air inlet pipe is connected with a compression tank, a filter is arranged in the air inlet pipe, one end of the air inlet pipe is internally provided with a check plate, the middle of the check plate is connected with a first guide pillar, a third spring is sleeved on the first guide pillar, the air inlet pipe is connected with a piston in a sliding manner, a plug is arranged in the piston, the plug is connected with a second guide pillar, one side of the plug is provided with two groups of receiving rods, and one end of each receiving rod is connected with a receiving disc.

4. The efficient cooling apparatus for manufacturing an industrial automatic control system device according to claim 2, wherein: the transmission mechanism comprises a worm wheel II, the worm wheel II is meshed with a worm II, the middle of the worm wheel II is connected with a shaft II, one end of the shaft II is connected with a rotary table, one side of the rotary table deviating from the axis is provided with a shaft III, one end of the shaft III is provided with a bearing, the bearing is rotationally connected with a rectangular groove, the rectangular groove is positioned on a bearing seat, the lower end of the bearing seat is provided with a sliding block, and the sliding block is in sliding connection with a sliding rail.

5. The efficient cooling apparatus for manufacturing an industrial automatic control system device according to claim 1, wherein: one end of the transmission shaft is connected with the first worm, the other end of the transmission shaft is provided with a bearing, the bearing is embedded into the drying agent containing pipe, and the refrigeration ring is fixedly connected with the inner wall of the drying box body.