Workshop industrial control cabinet detection deviceTechnical Field
The invention relates to the technical field of industrial control cabinet detection, in particular to a workshop industrial control cabinet detection device.
Background
The workshop industrial control cabinet contains a large number of electronic components, such as a Programmable Logic Controller (PLC), an industrial computer, a relay and the like, the electronic components can continuously generate heat in the operation process, if the heat cannot be timely emitted, the temperature in the cabinet can be continuously increased, the radiating fin is used as an efficient radiating device, the radiating area can be increased, the radiating speed of the heat can be accelerated, the heat is conducted from the components to the surface of the radiating fin, and the heat is emitted to the surrounding environment through air convection or other radiating modes, so that the temperature in the industrial control cabinet is effectively reduced.
The radiating fin is usually made of metal materials, such as aluminum, copper and the like, rust can form an oxide layer on the surface of the radiating fin, the heat conduction performance of the oxide layer is far lower than that of metal, heat conduction from the radiating fin to the surrounding environment can be hindered, radiating efficiency is reduced, along with the aggravation of the rust condition, radiating capacity of the radiating fin can be obviously reduced, and further the temperature in an industrial control cabinet is increased, normal operation of electronic components is affected, the risk of equipment faults is increased, various production equipment in a workshop can generate a large amount of dust in the operation process, the dust can be gradually accumulated on the surface of the radiating fin to form a thick covering layer, the rusted part is completely covered, the dust can interfere with signal transmission and reception and can not accurately judge whether the radiating fin rusts, moreover, rust is a continuous corrosion process, the metal material of the radiating fin can be continuously destroyed, the service life of the radiating fin can be greatly shortened, the conventional cleaning mechanism needs to replace the radiating fin according to the inclination angle of the side wall of the semi-rhombic radiating fin, the conventional cleaning mechanism needs to replace a troublesome assembly of the side wall of the radiating fin in the operation process, and the industrial control cabinet is relatively solved.
Disclosure of Invention
The invention mainly aims to provide a workshop industrial control cabinet detection device which can effectively solve the problems in the background technology.
In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:
The utility model provides a workshop industrial control cabinet detection device, includes the cabinet body, be provided with clearance detection mechanism between the cabinet body inboard left and right sides both ends, clearance detection mechanism is including the movable plate, two sets of the corresponding one end of movable plate is provided with ash removal mechanism, ash removal mechanism is including first commentaries on classics piece, first commentaries on classics piece left end is provided with the second motor, second motor output runs through first commentaries on classics piece and is provided with the transmission shaft, both ends fixedly connected with backup pad about the transmission shaft lateral wall, the backup pad bottom is provided with first triangle impeller, the rotation groove has been seted up to first triangle impeller inboard, the rotation groove rear end is provided with electric telescopic handle, electric telescopic handle telescopic end is provided with the mount, the inboard rotation of mount is connected with the second commentaries on classics piece, the second commentaries on classics piece other end is provided with the second triangle impeller, the guide way agrees with electric telescopic handle, first triangle impeller bottom and second triangle impeller bottom rotate to be connected, the second triangle impeller agrees with the groove.
Preferably, the corresponding ends of the two groups of moving plates are provided with fourth electric sliding grooves, the inner sides of the multiple groups of fourth electric sliding grooves are connected with fourth electric sliding blocks in a sliding manner, and the other ends of the multiple groups of fourth electric sliding blocks are fixedly connected with second guide plates.
Preferably, two sets of corresponding one end fixedly connected with second connecting rod of second deflector, the fifth electronic spout has been seted up to second connecting rod rear end, the inboard sliding connection of fifth electronic spout has a fifth electronic slider, fifth electronic slider bottom and first turning block top fixed connection.
Preferably, the left end and the right end of the inner side of the cabinet body are both provided with first electric sliding grooves, the inner sides of the two groups of first electric sliding grooves are both connected with first electric sliding blocks in a sliding manner, one ends of the two groups of first electric sliding blocks corresponding to the first electric sliding blocks are both fixedly connected with the moving plate, the lower part of one end of the moving plate corresponding to the moving plate is provided with second electric sliding grooves, and the second electric sliding grooves are positioned below fourth electric sliding grooves.
Preferably, the inner sides of the plurality of groups of second electric sliding grooves are all connected with second electric sliding blocks in a sliding manner, one ends of the two groups of second electric sliding blocks corresponding to each other are all provided with first guide plates, one ends of the two groups of second guide plates corresponding to each other are fixedly connected with first connecting rods, and the rear ends of the first connecting rods are provided with third electric sliding grooves.
Preferably, the inside sliding connection of third electronic spout has the third electronic slider, the third electronic slider other end is provided with the support frame, support frame bottom left side is provided with the sensor, the support frame left end is provided with first motor, first motor output runs through the support frame and is provided with the scraper blade, scraper blade top lateral wall rotates with support frame bottom inside wall to be connected, the triangular groove has been seted up to the scraper blade other end.
Preferably, the upper end and the lower end of the scraping plate are both provided with detection grooves, the inner sides of a plurality of groups of detection grooves are both provided with detectors, the inner sides of a plurality of groups of detection grooves are both provided with electromagnetic valves, and the side walls of the electromagnetic valves are flush with the side walls of the scraping plate.
Preferably, the rear end of the inner side of the cabinet body is fixedly connected with a plurality of groups of mounting plates, a plurality of groups of half rhombic cooling fins are arranged at the front ends of the mounting plates, the side wall of the scraping plate is contacted with the side wall of the half rhombic cooling fin, the side wall of the rear end of the first triangular pushing plate is tightly contacted with the lower side wall of one group of half rhombic cooling fins, and the side wall of the front end of the second triangular pushing plate is tightly contacted with the upper side wall of the other group of half rhombic cooling fins.
Preferably, the dust collection mechanism is arranged on the inner side of the first electric sliding groove and located below the moving plate, the dust collection mechanism comprises a sixth electric sliding block, two groups of the dust collection mechanisms are connected with the inner side of the first electric sliding groove in a sliding mode, two groups of the dust collection mechanisms are connected with the sixth electric sliding block in a sliding mode, openings are formed in one ends corresponding to the sixth electric sliding block and are detachably connected with clamping blocks, two groups of the dust collection mechanisms are fixedly connected with a collection box at one ends corresponding to the clamping blocks, a placing groove is formed in the top end of the inner side of the cabinet, and the bottom end of the collection box is matched with the bottom end of the placing groove.
Preferably, the left side of the front end of the cabinet body is rotationally connected with a door plate, the front end of the door plate is provided with an opening and is fixedly connected with an observation window, the left end and the right end of the cabinet body are provided with a plurality of groups of ventilation holes, and the left end and the right end of the inner side of the cabinet body are provided with a plurality of groups of partition boards.
Compared with the prior art, the invention has the following beneficial effects:
1. The workshop industrial control cabinet detection device is characterized in that a supporting frame is moved to the position near the right end of a half rhombic radiating fin, a sensor works at the moment, the angle of the two groups of half rhombic radiating fins is detected, so that a first motor is started to drive a scraper blade to rotate, the inclination angle of the side wall of the scraper blade is consistent with that of the half rhombic radiating fin, one side wall of the scraper blade is contacted with one side wall of the half rhombic radiating fin, then a third electric sliding block drives the scraper blade to slide towards the left end of the half rhombic radiating fin, so that the surface of the half rhombic radiating fin is subjected to ash removal in the process of the scraper blade, a second electric sliding block drives a first connecting rod and the scraper blade to move forwards, the angle of the half rhombic radiating fin at the other side is detected by the sensor, the inclination angle of the side wall of the scraper blade is consistent with that of the half rhombic radiating fin, the half rhombic radiating fin side walls with different inclination angles are adapted, then one side wall of the scraping plate is contacted with one side wall of the half rhombic radiating fin, then the third electric sliding block drives the scraping plate to slide towards the right end of the half rhombic radiating fin, so that the scraping plate can clean the other surface of the half rhombic radiating fin in the process, the first rotating block is moved to the right end of the half rhombic radiating fin, the angle of the second triangular pushing plate is adjusted through the expansion and contraction of the electric telescopic rod, meanwhile, the second motor is started to drive the transmission shaft to rotate, the supporting plate, the first triangular pushing plate and the second triangular pushing plate are driven to rotate, the first triangular pushing plate and the second triangular pushing plate are respectively in close contact with the upper side wall and the lower side wall of the half rhombic radiating fin, thereby adapting to the half rhombic radiating fin side walls with different inclination angles, then the fifth electric sliding block drives the first rotating block to slide towards the left end of the half rhombic radiating fin, therefore, the first triangular pushing plate and the second triangular pushing plate can clean dust remained between the two groups of semi-rhombic cooling fins in the moving process, after dust is cleaned, the propagation and the receiving of detection signals are not interfered by the dust any more, the detection equipment can acquire the internal information of the cooling fins more accurately, the rust condition can be judged more accurately, and the reliability of the detection result is improved to clean the dust on the surface of the cooling fins.
2. This workshop industrial control cabinet detection device, in carrying out the deashing in-process, sixth electronic slider slides in the inboard, make the collection box be located the movable plate below all the time, thereby make scraper blade and second triangle impel when the board clearance dust, make the dust can drop to the collection box, after the scraper blade is half rhombus fin clearance is accomplished, the solenoid valve that is located the scraper blade both sides wall this moment starts, make two sets of detectors start to move, make scraper blade lateral wall unanimous with half rhombus fin inclination afterwards, a lateral wall of scraper blade and half rhombus fin lateral wall no longer contact, afterwards, the third electronic slider drives the scraper blade and slides, thereby make two sets of detectors detect the both sides wall of multiunit half rhombus fin, detect after the clearance dust, can accomplish detection work more fast, accurately, time and resource wasted because of repeated detection or misjudgement have been reduced, accurate testing result can avoid unnecessary maintenance and change operation, detection and maintenance cost has been reduced, work efficiency and economic benefits have been improved.
Drawings
FIG. 1 is a schematic diagram of the overall structure of the present invention;
FIG. 2 is a schematic cross-sectional view of the overall structure of the present invention;
FIG. 3 is a schematic view of a part of a cleaning and detecting mechanism according to the present invention;
FIG. 4 is a schematic view of the overall planer of FIG. 3 in accordance with the present invention;
FIG. 5 is a schematic diagram of a part of a cleaning and detecting mechanism according to the present invention;
FIG. 6 is a schematic view of a part of the ash removing mechanism of the present invention;
FIG. 7 is a schematic view of the overall slicing of FIG. 6 in accordance with the present invention;
Fig. 8 is an overall schematic view of the dust collection mechanism of the present invention.
In the figure, 1, a cabinet body; 12, ventilation holes; 13, door panel, 14, observation window, 15, partition, 16, placing groove, 17, mounting plate, 18, semi-rhombic cooling fin, 2, cleaning detection mechanism, 3, ash removal mechanism, 4, dust collection mechanism, 21, first electric sliding groove, 22, first electric sliding block, 23, moving plate, 24, second electric sliding groove, 25, second electric sliding block, 26, first guide plate, 27, first connecting rod, 28, third electric sliding groove, 29, third electric sliding block, 291, supporting frame, 292, first motor, 293, scraper, 294, triangle groove, 295, detection groove, 296, detector, 297, electromagnetic valve, 298, sensor, 31, fourth electric sliding groove, 32, fourth electric sliding block, 33, second guide plate, 34, second connecting rod, 35, fifth electric sliding groove, 36, fifth electric sliding block, 37, first rotating block, 38, second motor, 39, supporting plate, 391, first triangle pushing plate, 392, rotating groove, 393, second triangle pushing plate, 395, transmission shaft, 295, second rotating block, 397, fixed frame, 39, guide box, 41, 39, telescopic guide box, 43 and 43.
Detailed Description
The invention is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.
As shown in fig. 1-8, a workshop industrial control cabinet detection device comprises a cabinet body 1, a cleaning detection mechanism 2 is arranged between the left end and the right end of the inner side of the cabinet body 1, the cleaning detection mechanism 2 comprises a moving plate 23, one corresponding ends of the two groups of moving plates 23 are provided with a dust removing mechanism 3, the dust removing mechanism 3 comprises a first rotating block 37, the left end of the first rotating block 37 is provided with a second motor 38, the output end of the second motor 38 penetrates through the first rotating block 37 and is provided with a transmission shaft 394, the left end and the right end of the outer side wall of the transmission shaft 394 are fixedly connected with a supporting plate 39, the bottom end of the supporting plate 39 is provided with a first triangular pushing plate 391, the inner side of the first triangular pushing plate 391 is provided with a rotating groove 392, the rear end of the rotating groove 392 is provided with an electric telescopic rod 396, the telescopic end of the electric telescopic rod 396 is provided with a fixed frame 398, the inner side of the fixed frame 398 is rotationally connected with a second rotating block 395, the other end of the second rotating block 395 is provided with a second triangular pushing plate 393, the rear end of the second triangular pushing plate 393 is provided with a guide groove 397, the guide groove 397 is matched with the electric telescopic rod 391, and the bottom end of the first triangular pushing plate 391 is connected with the second triangular pushing plate 393.
In the embodiment, the corresponding ends of the two sets of moving plates 23 are provided with fourth electric sliding grooves 31, the inner sides of the multiple sets of fourth electric sliding grooves 31 are slidably connected with fourth electric sliding blocks 32, and the other ends of the multiple sets of fourth electric sliding blocks 32 are fixedly connected with second guide plates 33.
Specifically, the fourth electric slider 32 is started to slide in the fourth electric chute 31, so as to drive the second guide plate 33 and the second connecting rod 34 to move.
In this embodiment, the corresponding ends of the two sets of second guide plates 33 are fixedly connected with a second connecting rod 34, a fifth electric chute 35 is provided at the rear end of the second connecting rod 34, a fifth electric slider 36 is slidably connected to the inner side of the fifth electric chute 35, and the bottom end of the fifth electric slider 36 is fixedly connected with the top end of the first rotating block 37.
Specifically, the fifth electric slider 36 is activated to slide in the fifth electric chute 35, and the first rotating block 37 is moved to the right end of the half diamond-shaped heat sink 18.
In this embodiment, the left and right ends of the inner side of the cabinet body 1 are both provided with the first electric sliding grooves 21, the inner sides of the two groups of first electric sliding grooves 21 are both slidably connected with the first electric sliding blocks 22, the corresponding ends of the two groups of first electric sliding blocks 22 are both fixedly connected with the moving plate 23, the lower part of the corresponding end of the moving plate 23 is both provided with the second electric sliding groove 24, and the second electric sliding groove 24 is located below the fourth electric sliding groove 31.
Specifically, the first electric sliding block 22 is started to slide in the first electric sliding groove 21, so that the moving plate 23 is driven to move to a proper ash removal and detection position, and the second electric sliding block 25 is started to slide in the second electric sliding groove 24, so that the first guide plate 26 and the first connecting rod 27 are driven to move.
In this embodiment, the inner sides of the plurality of groups of second electric sliding grooves 24 are all slidably connected with second electric sliding blocks 25, the corresponding ends of the two groups of second electric sliding blocks 25 are all provided with first guide plates 26, the corresponding ends of the two groups of first guide plates 26 are fixedly connected with first connecting rods 27, and the rear ends of the first connecting rods 27 are provided with third electric sliding grooves 28.
Specifically, the third power slider 29 is activated to slide in the third power chute 28, and the support bracket 291 is moved to the vicinity of the right end of the half diamond-shaped heat sink 18.
In this embodiment, the third electric sliding chute 28 is slidably connected with the third electric sliding block 29, the other end of the third electric sliding block 29 is provided with a supporting frame 291, the left side of the bottom end of the supporting frame 291 is provided with a sensor 298, the left end of the supporting frame 291 is provided with a first motor 292, the output end of the first motor 292 penetrates through the supporting frame 291 to be provided with a scraper 293, the outer side wall of the top end of the scraper 293 is rotationally connected with the inner side wall of the bottom end of the supporting frame 291, and the other end of the scraper 293 is provided with a triangular groove 294.
Specifically, the sensor 298 operates to detect the angle of the two sets of semi-rhombic fins 18, thereby activating the first motor 292 to rotate the scraper 293, so that the inclination angle of the side wall of the scraper 293 is consistent with that of the semi-rhombic fins 18, and a side wall of the scraper 293 contacts with a side wall of the semi-rhombic fins 18.
In this embodiment, the upper and lower ends of the scraper 293 are provided with detecting grooves 295, the inner sides of the detecting grooves 295 are provided with detectors 296, the inner sides of the detecting grooves 295 are provided with solenoid valves 297, and the side walls of the solenoid valves 297 are flush with the side walls of the scraper 293.
Specifically, after the scraper 293 cleans the half rhombic cooling fins 18, the electromagnetic valves 297 at two side walls of the scraper 293 are started at this time, so that the two groups of detectors 296 start to operate, then the inclination angles of the side walls of the scraper 293 and the half rhombic cooling fins 18 are consistent, one side wall of the scraper 293 is not contacted with one side wall of the half rhombic cooling fins 18 any more, and then the third electric slider 29 drives the scraper 293 to slide, so that the two groups of detectors 296 detect the two side walls of the multiple groups of half rhombic cooling fins 18.
In this embodiment, the rear end of the inner side of the cabinet body 1 is fixedly connected with a plurality of groups of mounting plates 17, the front ends of the plurality of groups of mounting plates 17 are all provided with a plurality of groups of half rhombic cooling fins 18, the side wall of the scraper 293 contacts with the side wall of the half rhombic cooling fin 18, the side wall of the rear end of the first triangular pushing plate 391 contacts with the lower side wall of one group of half rhombic cooling fins 18 tightly, and the side wall of the front end of the second triangular pushing plate 393 contacts with the upper side wall of the other group of half rhombic cooling fins 18 tightly.
Specifically, one side wall of the scraper 293 contacts with one side wall of the half rhombic cooling fin 18, the third electric slider 29 drives the scraper 293 to slide towards the left end of the half rhombic cooling fin 18, so that the scraper 293 cleans the surface of the half rhombic cooling fin 18 in the process, the first triangular pushing plate 391 and the second triangular pushing plate 393 are respectively in close contact with the upper side wall and the lower side wall of the half rhombic cooling fin 18, and then the fifth electric slider 36 drives the first rotating block 37 to slide towards the left end of the half rhombic cooling fin 18, so that dust remained between the two groups of half rhombic cooling fins 18 in the moving process of the first triangular pushing plate 391 and the second triangular pushing plate 393 is cleaned.
In this embodiment, the dust collection mechanism 4 is disposed inside the first electric sliding groove 21, the dust collection mechanism 4 is located below the moving plate 23, the dust collection mechanism 4 includes a sixth electric sliding block 41, the insides of two groups of first electric sliding grooves 21 are slidably connected with the sixth electric sliding block 41, one ends of two groups of sixth electric sliding blocks 41 are provided with openings and detachably connected with clamping blocks 42, one ends of two groups of clamping blocks 42 are fixedly connected with a collection box 43, the top end of the inside of the cabinet body 1 is provided with a placement groove 16, and the bottom end of the collection box 43 is matched with the bottom end of the placement groove 16.
Specifically, in the ash removal process, the sixth electric sliding block 41 of the dust collection mechanism 4 slides inside the first electric sliding groove 21, so that the collection box 43 is always located below the moving plate 23, and when the scraping plate 293, the first triangular pushing plate 391 and the second triangular pushing plate 393 clean dust, the dust can fall into the collection box 43, and the plurality of groups of the first electric sliding blocks 22 and the sixth electric sliding block 41 respectively drive the moving plate 23 and the clamping block 42 to move upwards until the bottom end of the collection box 43 is flush with the top end of the inner side of the cabinet body 1, and at the moment, the collection box 43 is matched with the placing groove 16.
In this embodiment, a door plate 13 is rotatably connected to the left side of the front end of the cabinet body 1, an opening is provided at the front end of the door plate 13 and is fixedly connected with an observation window 14, a plurality of groups of ventilation holes 12 are provided at the left and right ends of the cabinet body 1, and a plurality of groups of partition plates 15 are provided at the left and right ends of the inner side of the cabinet body 1.
Specifically, the components in the industrial control cabinet are observed through the observation window 14, and the components are placed through the plurality of groups of partition boards 15.
It should be noted that, the present invention is a workshop industrial control cabinet detection device, a user will start the first electric slider 22 to slide in the first electric chute 21, drive the moving plate 23 to move to a suitable ash removal and detection position, start the second electric slider 25 to slide in the second electric chute 24, drive the first guide plate 26 and the first connecting rod 27 to move, start the third electric slider 29 to slide in the third electric chute 28, move the supporting frame 291 to the vicinity of the right end of the half rhombic cooling fin 18, at this time, the sensor 298 works, detects the angle of the two sets of half rhombic cooling fins 18, thereby starting the first motor 292, driving the scraper 293 to rotate, making the inclined angles of the side wall of the scraper 293 and the half rhombic cooling fin 18 consistent, thereby adapting to the side walls of the half rhombic cooling fins with different inclined angles, and one side wall of the scraper 293 is contacted with one side wall of the half rhombic radiating fin 18, then the third electric sliding block 29 drives the scraper 293 to slide towards the left end of the half rhombic radiating fin 18, so that the scraper 293 can clean the surface of the half rhombic radiating fin 18 in the process, then the second electric sliding block 25 drives the first connecting rod 27 to move forwards with the scraper 293, so that the sensor 298 detects the angle of the half rhombic radiating fin 18 on the other side, and the inclination angles of the side wall of the scraper 293 and the half rhombic radiating fin 18 are consistent, so that the side wall of the half rhombic radiating fin is adapted to the half rhombic radiating fin side walls with different inclination angles, then one side wall of the scraper 293 is contacted with one side wall of the half rhombic radiating fin 18, and then the third electric sliding block 29 drives the scraper 293 to slide towards the right end of the half rhombic radiating fin 18, so that the scraper 293 can clean the other surface of the half rhombic radiating fin 18 in the process.
At the same time, the fourth electric slide block 32 is started to slide in the fourth electric slide groove 31, the second guide plate 33 and the second connecting rod 34 are driven to move, the fifth electric slide block 36 is started to slide in the fifth electric slide groove 35, the first rotating block 37 is moved to the right end of the semi-rhombic radiating fin 18, by the extension and retraction of the electric extension and retraction lever 396, the angle of the second triangular push plate 393 is adjusted, simultaneously, the second motor 38 is started to drive the transmission shaft 394 to rotate, the supporting plate 39, the first triangular pushing plate 391 and the second triangular pushing plate 393 are driven to rotate, the first triangular pushing plate 391 and the second triangular pushing plate 393 are respectively in close contact with the upper side wall and the lower side wall of the half rhombic radiating fin 18, then the fifth electric sliding block 36 drives the first rotating block 37 to slide towards the left end of the half rhombic radiating fin 18, so that the first and second triangular push plates 391 and 393 clean up dust remaining between the two sets of half diamond fins 18 during the movement, during the ash removal process, the sixth electric slide block 41 of the dust collection mechanism 4 slides inside the first electric slide groove 21, so that the collection box 43 is always positioned below the movable plate 23, so that the scraper 293, the first triangular pushing plate 391 and the second triangular pushing plate 393 clean the dust, the dust falls into the collecting box 43, when the scraper 293 cleans the half rhombic cooling fin 18, the electromagnetic valves 297 on the two side walls of the scraper 293 are started to enable the two groups of detectors 296 to start to operate, then the inclination angles of the side walls of the scraper 293 and the half rhombic cooling fin 18 are consistent, one side wall of the scraper 293 and one side wall of the half rhombic cooling fin 18 are not contacted any more, then the third electric sliding block 29 drives the scraper 293 to slide, so that two sets of detectors 296 detect both sidewalls of the multiple sets of semi-rhombic fins 18.
After detection is completed, the plurality of groups of first electric sliding blocks 22 and sixth electric sliding blocks 41 respectively drive the moving plate 23 and the clamping blocks 42 to move upwards until the bottom end of the collecting box 43 is flush with the top end of the inner side of the cabinet body 1, the collecting box 43 is matched with the placing groove 16 at the moment, the dust collecting mechanism 4 is checked regularly, when more dust is in the collecting box 43, the door plate 13 is opened, the clamping blocks 42 are detached from the sixth electric sliding blocks 41, the dust in the collecting box 43 is cleaned, and the clamping blocks 42 are reinstalled after cleaning is completed.
The foregoing has shown and described the basic principles and main features of the present invention and the advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.