CN115835567B - Electromechanical automatic control cabinet - Google Patents

Abstract

The invention relates to the technical field of control cabinets and provides an electromechanical automatic control cabinet which comprises a cabinet body and a cabinet door, wherein a plurality of radiating holes are formed in the cabinet body, a control panel is arranged on the cabinet door, the electromechanical automatic control cabinet further comprises a dampproof air inlet area, the dampproof air inlet area comprises an air inlet shell and a plurality of radiating fans arranged in the air inlet shell, the air inlet shell is provided with a plurality of air inlets, a water absorbing sponge is arranged in the air inlet shell, and a dehumidifying mechanism is arranged in the air inlet shell; the auxiliary dehumidifying area comprises a drying box and a drying assembly, and the drying box is positioned at the bottom of the cabinet body and is communicated with the cabinet body; the control panel waterproof assembly comprises a waterproof frame, the waterproof frame is arranged at the front end of the cabinet door, the control panel is positioned in the waterproof frame, and the waterproof frame is communicated with the drying box.

Description

Electromechanical automatic control cabinet

Technical Field

The invention relates to the technical field of control cabinets, in particular to an electromechanical automatic control cabinet.

Background

In hydraulic engineering, a large amount of electromechanical automation equipment such as hydraulic generators, oil pumps and water pumps can be used, the operation condition of the electromechanical equipment can be monitored and controlled by using an electromechanical automation control cabinet, a control panel is usually arranged on a chassis of the control cabinet for realizing comprehensive monitoring of the hydraulic electromechanical automation equipment, various parameters such as the operation condition, temperature and pressure of the equipment are displayed, and meanwhile, the opening and closing and the operation of the electromechanical automation equipment can be controlled by the control panel.

Because hydraulic engineering electromechanical automation control cabinet is usually installed in near water environment, environmental humidity is great, especially for the electromechanical automation control cabinet of installing in outdoor environment, in flood season and rainy weather, air humidity is showing and is increasing, use to electromechanical automation control cabinet, especially the use to control panel causes the influence, moisture in the air contacts control panel, form the drop of water on its surface, the parameter observation to electromechanical automation equipment causes the hindrance, and when the control panel is touched to the finger, the production of control panel surface drop of water can cause the phenomenon such as mistake touch or touch-screen malfunction when touching control and erasing the drop of water, influence electromechanical automation control cabinet's normal use, even appear the maloperation, cause electromechanical automation equipment's improper operation, serious can produce great work mistake, influence the development of flood control work, electromechanical automation control cabinet use in-process need dispel the heat, normally use louvre realization and external air circulation in order to realize the heat dissipation, outside air can get into electromechanical automation control cabinet's inside through the louvre, humidity can reduce electromechanical automation control cabinet's the insulating edge when the drop of water, electromechanical automation control cabinet can damage even electric shock strength through high humidity.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides an electromechanical automatic control cabinet to solve the problems of the prior art in the background art.

(II) technical scheme

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an electromechanical automation switch board, is in including the cabinet body and articulated the cabinet door of cabinet body front end, the tool to lock is installed to the cabinet door, install control panel and a plurality of viewing aperture on the cabinet door, the internally mounted of viewing aperture has the switch board observation window, and this electromechanical automation switch board still includes:

the moistureproof air inlet area comprises an air inlet shell and a plurality of cooling fans arranged in the air inlet shell, a plurality of air inlets are formed in the front side and the rear side of the air inlet shell, the moistureproof air inlet area is communicated with the cabinet body through a plurality of air inlets, two water absorbing sponges are arranged in the air inlet shell and used for absorbing moisture at the air inlets, a moisture discharging mechanism used for extruding the moisture in the water absorbing sponges is arranged in the air inlet shell and comprises an extrusion part and a drainage part;

the extrusion part comprises two extrusion plates, the extrusion plates are positioned at one side of the water absorption sponge, which is far away from the air inlet, a linkage assembly for enabling the two extrusion plates to move relatively is arranged in the air inlet shell, the extrusion plates positioned at the front side are connected with pull rods, and the pull rods penetrate through the corresponding air inlets and extend out of the outside;

the drainage part comprises two drainage pipes, the inner bottom wall of the air inlet shell is connected with two baffles, so that the inside of the air inlet shell is separated into two drainage grooves, the water absorbing sponge and the extrusion plate are both positioned in the corresponding drainage grooves, the top ends of the drainage pipes are communicated with the corresponding drainage grooves, the inner bottom wall of the drainage grooves is fixedly connected with a water falling inclined plate, and the drainage pipes are positioned on one side with lower water falling inclined plate height;

the dampproof air exhaust area comprises a plurality of radiating holes formed in the cabinet body and a dampproof air exhaust component arranged at the radiating holes, the radiating Kong Kaishe is arranged on the side wall of the cabinet body and communicated with the outside, and the dampproof air exhaust component is used for drying air at the radiating holes;

the auxiliary dehumidifying area comprises a drying box and a drying assembly, wherein the drying box is positioned at the bottom of the cabinet body and is communicated with the cabinet body through a plurality of inverted cone-shaped openings, and a protective net is arranged at the top of each inverted cone-shaped opening;

the control panel waterproof assembly comprises a waterproof frame, the waterproof frame is detachably arranged at the front end of the cabinet door, the control panel is located inside the waterproof frame, an observation port is formed in the front side of the waterproof frame, a control panel observation window is arranged on the front side of the waterproof frame, an operation port is formed in the bottom of the waterproof frame, an opening and closing plate is slidably arranged at the operation port and used for opening and closing the operation port, an elastic sheet is arranged in the operation port, a gap for an arm to pass through is formed in the elastic sheet, and the waterproof frame is communicated with the drying box.

For avoiding switch board observation window and control panel observation window department to form the water smoke, install on the cabinet door and be used for carrying out clear clean mechanism to switch board observation window and control panel observation window, clean mechanism includes multiunit magnet, installs clean pad and a plurality of being used for of installing on the magnet the driving piece that magnet removed, every group the quantity of magnet is two, two the magnet is located the inboard and the outside of switch board observation window or control panel observation window respectively to the one end magnetism that two magnets are close to each other is opposite, clean pad is installed the magnet is close to switch board observation window or the one end of control panel observation window.

In order to avoid moist ground to cause the stoving case to wet corrosion, reduce the heat dissipation simultaneously, support piece is installed to the bottom of stoving case, support piece optional a plurality of landing legs for make and have the clearance between stoving case and the ground.

For the inside that reduces outside moisture and get into the shell of admitting air from the drain pipe, there is the shutoff piece bottom of drain pipe through spring coupling, the shutoff piece is used for right the bottom of drain pipe is sealed, the elasticity of spring and the gravity adaptation of shutoff piece, when the inside of drain pipe has water, with the shutoff piece roof-open, water can follow the drain pipe and flow out, when the inside no water of drain pipe, the shutoff piece seals the drain pipe bottom under the effect of spring, avoids outside moisture to get into.

The top of the sealing block is conical in order to facilitate the water in the drain pipe to fall down.

Preferably, the drying assembly comprises a heating element and a diffusion element, the heating element comprises an electric heater, the electric heater is used for heating the inside of the drying box, the diffusion element comprises a fan, and the fan is used for diffusing hot air generated by the heating element to the inside of the cabinet body, the waterproof frame and the air inlet shell, so that the diffusion speed of the hot air is accelerated, and the drying is carried out on the electromechanical automatic control cabinet.

For the switching of control stoving subassembly, the inside stoving of supplementary cabinet when cabinet internal temperature is not enough, the internally mounted of cabinet body has temperature sensor and humidity transducer, temperature sensor with radiator fan electric connection, humidity transducer with stoving subassembly electric connection.

For avoiding outside moisture to get into the inside of the cabinet body from the louvre, dampproofing exhaust subassembly includes dampproofing exhaust hood, dampproofing exhaust hood and external intercommunication, louvre and the dampproofing exhaust hood intercommunication of correspondence, the gas outlet has been seted up to dampproofing exhaust hood, the inside sealed slidable mounting of dampproofing exhaust hood has the change frame, install a plurality of protection network on the change frame, the drier has been placed to the inside of changing the frame.

(III) beneficial effects

Compared with the prior art, the invention provides an electromechanical automatic control cabinet, which has the following beneficial effects:

1. according to the invention, external air enters from the air inlet, air in the cabinet body is discharged from the radiating holes, air circulation is quickened through the radiating fan, the cabinet body is radiated, moisture in the entering air is absorbed through the water absorbing sponge, the moisture in the water absorbing sponge is discharged through the moisture discharging mechanism, and the cabinet body is dried through the heat generated by the operation of the cabinet body and the matching of the drying component.

2. According to the invention, the control panel is protected through the waterproof frame, the control panel is observed through the control panel observation window, the control panel is operated by extending hands into the waterproof frame through the operation port, hot air generated by the drying assembly is sent into the waterproof frame to dry the inside of the waterproof frame, and the moisture in the waterproof frame is reduced, so that the control panel is prevented from being touched or damaged by mistake.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is evident that the drawings in the following description are only some embodiments of the present invention and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a partially exploded perspective view of another embodiment of the present invention;

FIG. 3 is a schematic perspective view showing the open state of the cabinet door according to the present invention;

FIG. 4 is a schematic perspective view of the cabinet door, the control panel waterproof assembly, the cleaning mechanism and the like of the invention;

FIG. 5 is a schematic view of a partially cut-away perspective structure of a moisture resistant intake zone or the like of the present invention;

FIG. 6 is a schematic perspective view in partial cross-section of a mated exploded view of the moisture resistant intake zone and the like of the present invention;

FIG. 7 is a schematic view of a three-dimensional structure of the drain pipe and the closing block of the present invention;

fig. 8 is a schematic diagram of a three-dimensional structure of the auxiliary dehumidifying area and the like of the present invention.

Reference numerals in the drawings represent respectively:

1. a cabinet body; 2. a cabinet door; 3. a control panel; 4. a waterproof cover; 5. a support;

100. a moisture-proof air inlet area; 101. an air inlet shell; 102. a heat radiation fan; 103. a water absorbing sponge;

200. an extrusion part; 201. an extrusion plate; 202. a linkage assembly; 203. a fixing frame;

300. a water draining part; 301. a drain pipe; 302. a baffle; 303. a water falling sloping plate; 304. a closing block;

400. an auxiliary dehumidifying region; 401. a drying box;

500. a drying assembly; 501. an electric heater; 502. a blower;

600. a control panel waterproof assembly; 601. a waterproof frame; 602. an opening/closing plate; 603. an elastic sheet;

700. a cleaning mechanism; 701. a magnet; 702. a driving member;

800. a moisture resistant vent assembly; 801. a moisture-proof exhaust hood; 802. the frame is replaced.

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.

Examples

Referring to fig. 1 to 8, an electromechanical automation control cabinet, including a cabinet body 1 and a cabinet door 2 hinged at the front end of the cabinet body 1, the cabinet door 2 is provided with a lock, the cabinet door 2 is provided with a control panel 3 and a plurality of observation ports, the inner part of the observation ports is provided with a control cabinet observation window, the electric elements inside the cabinet body 1 can be observed through the control cabinet observation window, the electromechanical automation control cabinet further comprises a moisture-proof air inlet area 100, an auxiliary dehumidification area 400, a moisture-proof air exhaust area and a control panel waterproof assembly 600, the moisture-proof air exhaust area comprises a plurality of radiating holes formed in the side wall of the cabinet body 1 and a moisture-proof air exhaust assembly 800 mounted at the radiating holes, the moisture-proof air exhaust assembly 800 is used for drying air at the radiating holes, the moisture-proof air exhaust assembly 800 comprises a moisture-proof air exhaust cover 801, the moisture-proof air exhaust cover 801 is communicated with the outside, the corresponding moisture-proof air exhaust cover 801 is provided with an air outlet, a replacement frame 802 is mounted in a sliding manner inside the moisture-proof air cover 801, a plurality of protection nets are mounted on the replacement frame 802, the interior of the replacement frame 802 is placed inside the desiccant 802, the desiccant is prevented from being regularly pulled out of the desiccant through the air outlet, and the desiccant can be regularly replaced from the desiccant through the air vent.

Referring to fig. 5 to 7, the moisture-proof air intake area 100 includes an air intake shell 101 and a plurality of cooling fans 102 installed inside the air intake shell 101, a plurality of air inlets are formed on the front side and the rear side of the air intake shell 101, a waterproof cover 4 is installed on the front end and the rear end of the air intake shell 101, the plurality of air inlets are located inside the corresponding waterproof covers 4, the top of the waterproof cover 4 is inclined, and one end of the waterproof cover 4 far away from the air intake shell 101 is a lower end, the waterproof shell can protect the air inlets, rainwater is reduced, meanwhile, rainwater can flow down from the top of the waterproof cover 4 to avoid moisture accumulation, the air outlets of the cooling fans 102 face downwards, the moisture-proof air intake area 100 is communicated with the cabinet 1 through a plurality of air inlets, two water absorbing sponges 103 are installed inside the air intake shell 101 to absorb moisture at the air inlets, a moisture discharging mechanism for extruding the moisture inside the water absorbing sponges 103 is installed inside the air intake shell 101, the moisture discharging mechanism includes an extruding part 200 and a water discharging part 300, air can be blown into the cabinet 1 through the fans 102, the outside air can enter the cabinet 1 from the air inlet, and the inside the cabinet 1 is circulated, and the air is discharged from the air inlet and the inside the cabinet 1 is cooled;

the extrusion part 200 comprises two extrusion plates 201, the extrusion plates 201 are positioned at one side of the water absorbing sponge 103 far away from the air inlet, a linkage assembly 202 for enabling the two extrusion plates 201 to relatively move is arranged in the air inlet shell 101, the linkage assembly 202 comprises three rotary plates which are connected end to end, the middle rotary plate is rotatably arranged in the air inlet shell 101 through a supporting frame, the rotary plates and the supporting frame are rotatably connected in the middle area of the rotary plates, the two rotary plates and the two rotary plates are respectively rotatably connected with the two extrusion plates 201, the extrusion plates 201 at the front side are connected with a pull rod, the pull rod penetrates through the corresponding air inlet and stretches out of the outside, the pull rod is pulled forwards to drive the extrusion plates 201 at the front side to extrude the water absorbing sponge 103 at the front side, meanwhile, the rotary plates at the front side are driven to move forwards, the rotary plates at the middle are driven to rotate around the position which is rotatably connected with the supporting frame, the rotary plates at the rear side are driven to move backwards to extrude the water absorbing sponge 103 at the rear side, the two extrusion plates 201 are synchronously moved relatively, the two extrusion plates 103 are connected with the corresponding air inlet springs 203, and the water absorbing sponge 201 can be continuously extruded at the position of the air inlet shell, and the inside the air inlet springs are connected with the sponge 201 by the expansion springs, and the water absorbing sponge 201 can be continuously connected at the inside the air inlet by the expansion device, and the expansion springs are connected by the expansion springs, and the inside the expansion plates and the expansion device and the expansion bodies are connected by the expansion springs and the expansion;

it should be noted that, in the actual use process, an electric cylinder may be installed in the air inlet casing 101, an output end of the electric cylinder is connected with the corresponding extrusion plate 201, the electric cylinder is preset to be opened regularly, and the electric cylinder may drive the corresponding extrusion plate 201 to move, so that the two extrusion plates 201 move synchronously to extrude the absorbent sponge 103.

The drainage part 300 comprises two drainage pipes 301, two baffles 302 are connected to the inner bottom wall of the air inlet shell 101, two drainage grooves are formed in the air inlet shell 101 in a separated mode, the water absorbing sponge 103 and the squeezing plates 201 are located in the corresponding drainage grooves, the top ends of the drainage pipes 301 are communicated with the corresponding drainage grooves, the water falling inclined plates 303 are fixedly connected to the inner bottom wall of the drainage grooves, the drainage pipes 301 are located on the lower side of the water falling inclined plates 303, water extruded by the water absorbing sponge 103 flows downwards from the water falling inclined plates 303 and is discharged from the drainage pipes 301, a sealing block 304 is connected to the bottom of the drainage pipes 301 through springs, the sealing block 304 is used for sealing the bottom of the drainage pipes 301, the top of the sealing block 304 is conical, water in the drainage pipes 301 is conveniently discharged, the elasticity of the springs is matched with the gravity of the sealing block 304, when water exists in the drainage pipes 301, the sealing block 304 is pushed up, the water can flow out of the drainage pipes 301, and when no water exists in the drainage pipes 301, the sealing block 304 seals the bottom under the action of the springs, and external water is prevented from entering.

Referring to fig. 8, the auxiliary dehumidifying area 400 includes a drying box 401 and a drying assembly 500, the drying box is located at the bottom of the cabinet 1 and is communicated with the cabinet 1 through a plurality of inverted conical openings, if water enters the interior of the cabinet 1 or more water is accumulated in the interior of the cabinet 1, the water falls into the interior of the drying box 401 through the inverted conical openings, the water is prevented from accumulating in the interior of the cabinet 1, the damage to electrical elements is avoided, a protection net is installed at the top of the inverted conical openings, the elements or other objects in the interior of the cabinet 1 are prevented from falling into the interior of the drying box 401, a supporting member 5 is installed at the bottom end of the drying box 401, a plurality of supporting legs or a plurality of movable wheels are optionally used for enabling gaps to exist between the drying box and the ground, the drying box 401 is prevented from being corroded by damp, meanwhile, heat dissipation of the drying assembly 500 is reduced, the drying assembly 500 includes a heating member and a diffusion member, the heating member includes an electric heater 501, the electric heater 501 is used for heating the interior of the drying box 401, the electrical element is prevented from being accumulated, the electrical element is damaged, the protection net is installed at the top of the inverted conical opening, the element is prevented from falling into the interior of the cabinet 1, the waterproof frame 601 and the air inlet housing 101, the diffusion is controlled, and the electro-mechanical and thermal air is controlled.

It should be noted that, the internally mounted of the cabinet body 1 has temperature sensor and humidity sensor, temperature sensor and radiator fan 102 and fan 502 electric connection, sense the internal temperature of cabinet body 1 when temperature sensor is higher, open radiator fan 102 and fan 502, accelerate the inside air flow of the cabinet body 1, be convenient for realize the heat dissipation to the cabinet body 1, humidity sensor and electric heater 501 electric connection, in ordinary course of working, the inside heat that electrical component itself work produced of the cabinet body 1 can be realized the stoving to the inside of cabinet body 1, when external humidity is great like the flood season, the rainy period, and when external moisture and get into the inside of cabinet body 1, humidity sensor senses the inside humidity of cabinet body 1 great, control electric heater 501 opens, the auxiliary heating to the inside of cabinet body 1, thereby dry this electromechanical automatic control cabinet, keep the inside of cabinet body 1, reduce the production of trouble, and set for the temperature of electric heater 501 in advance, generally control is below 60 degrees, avoid causing high temperature damage to this electromechanical automatic control cabinet internal element, simultaneously temperature sensor cabinet body 1 internal temperature control fan 102 and fan 502 can be opened fast, the inside of the humidity can be discharged to the inside of the cabinet body 1.

Referring to fig. 4, the control panel waterproof assembly 600 includes a waterproof frame 601, the waterproof frame 601 is detachably mounted at the front end of a cabinet door 2, the control panel 3 is located inside the waterproof frame 601, an observation port is formed in the front side of the waterproof frame 601, a control panel observation window is mounted on the control panel, an operation port is formed in the bottom of the waterproof frame 601, an opening and closing plate 602 is slidably mounted at the operation port and used for opening and closing the operation port, a pull plate is connected to the opening and closing plate 602, a plurality of magnets 701 are mounted on the waterproof frame 601, the pull plate is in contact with the plurality of magnets 701, the pull plate is made of iron metal, an elastic piece 603 is mounted inside the operation port, a gap for an arm to pass through is formed in the elastic piece 603, the waterproof frame 601 is communicated with a drying box, the pull plate enables the opening and closing plate 602 to open the operation port, hands of an operator can pass through the gap between the elastic piece 603, the opening and the operation port is good in wrapping property after the operation port, moisture entering during operation can be reduced, the opening and closing plate 602 is slidably mounted into the operation port 701, the operation port is closed, the pull plate is in contact with the magnets 701, the elastic plate is ensured, the elastic plate 603 is enabled to contact with the magnets, the elastic plate 603, the moisture entering the waterproof frame is prevented from entering the waterproof frame 601, and the inside of the waterproof frame is prevented from being broken, and the inside of the waterproof frame is prevented from being dried by the inside by the control panel 3, and the waterproof frame is prevented from being dried, and the inside the waterproof frame is 3 from being dried by the inside the waterproof frame 3, and the inside the waterproof frame is 3 is protected.

Referring to fig. 1 and 4, a door 2 is provided with a cleaning mechanism 700 for cleaning a control cabinet observation window and a control panel observation window, the cleaning mechanism 700 comprises a plurality of groups of magnets 701, a cleaning pad installed on the magnets 701 and a plurality of driving members 702 for driving the magnets 701 to move, the number of each group of magnets 701 is two, the two magnets 701 are respectively positioned at the inner side and the outer side of the control cabinet observation window or the control panel observation window, one ends of the two magnets 701 close to each other are opposite in magnetism, the cleaning pad is installed at one end of the magnets 701 close to the control cabinet observation window or the control panel observation window, the driving members 702 can be a motor, a bidirectional screw and a moving frame, a plurality of driving boxes are installed on the door 2, the driving members 702 are installed inside the driving boxes, the moving frame is in threaded connection with the bidirectional screw, and the moving frame penetrates through the driving boxes and is connected with the magnets 701 positioned at the outer part, so that the motor drives the bidirectional screw to reciprocate, the moving frame and the magnets 701 are attracted to each other, the cleaning pad is pressed on the surface of the control cabinet observation window and the control panel observation window, and the two magnets 701 can realize synchronous movement of the control cabinet 701, the cleaning pad is driven to block the control cabinet and the control panel observation window, and the cleaning window is prevented from being cleaned by the water bead or the surface of the control panel observation window.

It should be noted that, in this embodiment, the electric appliances such as the motor, the electric cylinder, and the electric heater 501 may be configured with a storage battery, or a power line may be connected with a circuit of the electromechanical automatic control cabinet, and a connection manner of the electric appliances is a technology known to those skilled in the art, which is not described herein.

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 electromechanical automation switch board, includes cabinet body (1) and cabinet door (2), install control panel (3) on cabinet door (2), its characterized in that still includes:

the moistureproof air inlet area (100), the moistureproof air inlet area (100) comprises an air inlet shell (101) and a plurality of cooling fans (102) arranged in the air inlet shell (101), the air inlet shell (101) is provided with a plurality of air inlets, the air inlets are positioned at the top of the cabinet body (1), the moistureproof air inlet area (100) is communicated with the cabinet body (1), a water absorbing sponge (103) is arranged in the air inlet shell (101) and used for absorbing moisture at the air inlets, a moisture discharging mechanism used for discharging the moisture in the water absorbing sponge (103) is arranged in the air inlet shell (101), and the moisture discharging mechanism comprises an extrusion part (200) and a water discharging part (300);

the extrusion part (200) comprises two extrusion plates (201), the extrusion plates (201) are positioned at one side of the water absorbing sponge (103) far away from the air inlet, a linkage assembly (202) for enabling the two extrusion plates (201) to move relatively is arranged in the air inlet shell, the linkage assembly (202) comprises three rotating plates connected in an end-to-end rotation mode, the middle rotating plate is rotatably arranged in the air inlet shell (101) through a supporting frame, the rotating connection position between the rotating plates and the supporting frame is located in the middle area of the rotating plates, the two rotating plates at two sides are respectively connected with the two extrusion plates (201) in a rotating mode, the extrusion plates (201) at the front side are connected with a pull rod, the pull rod penetrates through the corresponding air inlet and stretches out of the outside, the pull rod is pulled forwards to drive the extrusion plates (201) at the front side to extrude the water absorbing sponge (103), meanwhile, the middle rotating plates at the front side are driven to move forwards, the middle rotating plates are rotated around the supporting frame, the rotating connection position between the rotating plates is located in the middle, the two rotating plates are driven to move the two extrusion plates (103) at the front side, and the two extrusion plates (201) are driven to move relatively, and the water absorbing sponge (201) are extruded and move relatively, and the sponge (201) at the front side is extruded by the two extrusion plates are pushed by the front side rotating plates at the front side;

the drainage part (300) comprises two drainage pipes (301), wherein two baffles (302) are connected to the inner bottom wall of the air inlet shell (101), so that two drainage grooves are separated from the inside of the air inlet shell (101), the water absorbing sponge (103) and the squeezing plate (201) are both positioned in the corresponding drainage grooves, the top ends of the drainage pipes (301) are communicated with the corresponding drainage grooves, a water falling inclined plate (303) is fixedly connected to the inner bottom wall of each drainage groove, the drainage pipes (301) are positioned on one side with the lower height of the water falling inclined plate (303), a sealing block (304) is connected to the bottom of each drainage pipe (301) through a spring, and the sealing block (304) is used for sealing the bottom of each drainage pipe (301);

the dampproof exhaust area comprises a plurality of radiating holes and a dampproof exhaust assembly (800) arranged at the radiating holes, the radiating Kong Kaishe is arranged on the side wall of the cabinet body (1), the dampproof exhaust assembly (800) comprises a dampproof exhaust cover (801), the dampproof exhaust cover (801) is communicated with the outside, and a drying agent is placed in the dampproof exhaust cover (801);

an auxiliary dehumidification area (400), wherein the auxiliary dehumidification area (400) comprises a drying box (401) and a drying assembly (500), and the drying box (401) is communicated with the cabinet body (1);

the control panel waterproof assembly (600), control panel waterproof assembly (600) includes waterproof frame (601), waterproof frame (601) are installed the front end of cabinet door (2), control panel (3) are located the inside of waterproof frame (601), the front side of waterproof frame (601) has seted up the viewing aperture and has installed control panel observation window, but the operation mouth of switching has been seted up to the bottom of waterproof frame (601), the internally mounted of operation mouth has elastic sheet (603) that is equipped with the gap, waterproof frame (601) with stoving case (401) intercommunication;

the drying assembly (500) comprises a heating element and a diffusion element, the heating element comprises an electric heater (501), the electric heater (501) is used for heating the inside of the drying box (401), the diffusion element comprises a fan (502) and is used for diffusing hot air generated by the heating element into the inside of the cabinet body (1), the waterproof frame (601) and the air inlet shell (101) so as to accelerate the diffusion speed of the hot air and dry the electromechanical automatic control cabinet.

2. An electromechanical automation control cabinet according to claim 1, characterised in that the cabinet door (2) is provided with at least one viewing port and that the viewing port is internally provided with a control cabinet viewing window.

3. An electromechanical automation control according to claim 2, characterised in that the cabinet door (2) is provided with a cleaning mechanism (700) for cleaning the control cabinet and control panel windows.

4. An electromechanical automation control cabinet according to claim 3, characterised in that the bottom end of the drying box (401) is provided with a support (5).

5. The electromechanical automation control cabinet according to claim 4, characterized in that a temperature sensor and a humidity sensor are installed inside the cabinet body (1), the temperature sensor is electrically connected with the cooling fan (102), and the humidity sensor is electrically connected with the drying assembly (500).

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