A soundproofing box for an automated punch press
By introducing a cleaning mechanism and a limiting mechanism into the soundproof box of an automated punch press, the problem of dust adhesion was solved, achieving efficient cleaning and improved sound insulation performance, thus optimizing the working environment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- SHENZHEN KING-GUANHUA LNDUSTRY CO LTD
- Filing Date
- 2024-11-12
- Publication Date
- 2026-06-26
AI Technical Summary
In traditional automated punch press soundproof boxes, dust adheres to the inner wall during the heat dissipation process, affecting sound insulation performance and causing noise pollution.
An automated punch press soundproof box was designed, which includes a cleaning mechanism, a limiting mechanism, and a smoothing mechanism. The cleaning roller is driven to roll and clean dust through gear and worm gear transmission, and the smooth movement of the cleaning roller is ensured by limiting and sealing components. Combined with a heat dissipation mechanism, the environment is optimized.
It effectively removes dust, keeps the inner walls of the soundproof box clean, improves sound insulation performance, optimizes the working environment, reduces noise pollution, and enhances cleaning efficiency.
Smart Images

Figure CN119329113B_ABST
Abstract
Description
Technical Field
[0001] This invention belongs to the field of sound insulation equipment technology, specifically a sound insulation box for automated punch presses. Background Technology
[0002] The soundproof enclosure for automated punch presses is designed to effectively isolate and reduce noise and vibration generated during punch press operation, providing operators with a relatively quiet and comfortable working environment.
[0003] Currently, traditional automated punch press soundproof boxes are installed around the punch press and then soundproofed and noise-reducing using sound-insulating materials. When the punch press is working, a cooling fan on the surface of the soundproof box operates to cool the punch press. While the cooling fan is dissipating heat, it also carries away the dust accumulated inside the soundproof box. This dust may come from debris generated during punch press operations, suspended particles in the air, or tiny pieces of the soundproofing material itself. Some dust particles have strong adsorption properties, and when they are discharged by the cooling fan, they easily adhere to the inner wall of the soundproof box. Over time, this accumulated dust not only affects the cleanliness of the inside of the soundproof box, but can even seep into the soundproofing material through gaps, affecting its sound insulation performance and causing noise pollution in the working environment and the surrounding environment. Summary of the Invention
[0004] To address the problem mentioned in the background art that dust adheres to the inner wall of the soundproof box during heat dissipation, the present invention provides a soundproof box for automated punch presses.
[0005] To achieve the above objectives, the present invention provides the following technical solution: a soundproof box for an automated punch press, comprising a box body:
[0006] Mounting shell two, which is located on one side of the outer surface of the box;
[0007] Two door panels are placed inside the second mounting shell, and the door panels can slide inside the second mounting shell.
[0008] A cleaning mechanism is disposed on one side of the outer surface of the housing. The cleaning mechanism includes a gear one, which is rotatably connected to one side of the outer surface of the housing and located inside the mounting shell two. A rack is fixedly installed on the top of the door panel, and a worm gear located inside the housing is fixedly installed on one end of the gear one. A worm wheel that meshes with the worm gear is rotatably connected to the inner cavity of the housing. A push rod one is fixedly installed on one side of the worm wheel. A mounting shell one is disposed inside the housing. A cleaning roller is rotatably connected inside the mounting shell one, and a sliding block located inside the push rod one is slidably connected inside the mounting shell one.
[0009] Preferably, it further includes: a limiting mechanism disposed on the outer surface of the box body, the limiting mechanism including a fixed shell, the fixed shell being fixedly connected to the outer surface of the box body, a pressing rod being fixedly installed at the top of the rack, air inlet slots being provided inside both ends of the box body, one end of the air inlet slot communicating with the fixed shell, and circular slots being provided inside both ends of the box body, the other end of the air inlet slot communicating with the circular slot; a sealing plate rotatably connected inside the circular slot, and the surface of the sealing plate rotatably fitting against the inner wall of the circular slot; a fixing slot rotatably provided on both sides of the box body, a hinge rod slidably connected inside the fixing slot rotatably, one end of the hinge rod being hinged to the sealing plate rotatably, a pressing block being fixedly installed at the other end of the hinge rod, and a spring rotatably connected between the pressing block and the fixing slot rotatably, a spring rotatably installed in the inner cavity of the fixing slot rotatably, a moving block located on one side of the pressing block being fixedly installed at one end of the spring rotatably, a spring rotatably installed on the side of the moving block close to the mounting shell rotatably, and a limiting plate being fixedly installed at one end of the spring rotatably.
[0010] Preferably, it further includes: a smoothing mechanism disposed inside the top of the housing, the smoothing mechanism including a second fixing groove, the second fixing groove being opened inside the top of the housing, a sliding plate being slidably connected inside the second fixing groove, a limiting strip located inside the housing being fixedly installed at the bottom end of the sliding plate, a pulley being rolledly connected inside the limiting strip, a connecting block being provided on one side of the limiting strip, and the connecting block being fixedly connected to one side of the mounting shell; a second gear being rotatably connected inside the second fixing groove, a second push rod being fixedly installed at the top of the second gear and located at the top of the sliding plate, a protrusion being fixedly installed at the top of the sliding plate and located inside the second push rod, a sliding groove being opened on one side of the second fixing groove, a sliding rod being slidably connected inside the sliding groove, one end of the sliding rod being fixedly connected to the top of the moving block, and a toothed plate meshing with the second gear being fixedly installed at the other end of the sliding rod.
[0011] Preferably, it further includes: a sealing assembly disposed inside the fixed housing, the sealing assembly including a spring four, the spring four being fixedly installed inside the fixed housing, a sealing block being fixedly installed at one end of the spring four, a neodymium magnet being disposed inside the sealing block near the end of the air inlet groove, and a metal block being disposed inside the extrusion rod near the end of the sealing block.
[0012] Preferably, it further includes: a heat dissipation mechanism disposed on both sides of the outer surface of the housing, the heat dissipation mechanism including a mounting groove, the mounting groove being opened on both sides of the outer surface of the housing, the mounting groove being provided with a heat dissipation component, and a protective shell located on one side of the mounting groove being fixedly installed on both sides of the outer surface of the housing.
[0013] Preferably, a limiting rod is fixedly installed inside the housing and located inside the cleaning roller. The cleaning roller can move on the surface of the limiting rod. There are four limiting rods, and each pair is located at the top and bottom of the cleaning roller.
[0014] Preferably, a second sealing plate is fixedly installed on one side of the first sealing plate, and one side of the second sealing plate is in contact with the inner wall of the circular groove.
[0015] Preferably, the connecting block has an arc-shaped design, and both sides inside the limiting strip have a chamfered design.
[0016] Preferably, the interior of the housing is provided with a square groove, and the mounting shell can be placed in the square groove, with a gap between the mounting shell and the sliding plate.
[0017] Preferably, the sides of the extrusion block and the moving block opposite each other are designed with slopes, and the two slopes are parallel to each other.
[0018] Compared with the prior art, the beneficial effects of the present invention are as follows:
[0019] This invention uses a door panel to move a rack, which in turn drives a gear and a worm gear to rotate. The worm gear then drives a worm wheel and a push rod to rotate. The push rod pushes a sliding block to move inside the cleaning roller, and also pushes the mounting housing and the cleaning roller to move. Because the surface of the cleaning roller is in contact with the inner wall of the housing, it rolls as it moves. The surface of the cleaning roller is covered with adhesive paper, which helps to clean the dust adhering to the inner wall of the housing. Finally, the moving door panel causes the push rod to move the cleaning roller, thus cleaning the inner wall of the housing. This not only keeps the inside of the housing clean but also improves the sound insulation of the housing and optimizes the working environment and reduces noise pollution in the surrounding environment.
[0020] This invention pushes the two door panels to move relative to each other, causing the mounting shell and cleaning roller to reset. The rack moves away from the surface of the gear. As the rack moves, the squeezing rod also disengages from the interior of the fixed shell. The moving block then drives the spring and the limiting plate to contact one side of the mounting shell again, thus limiting the mounting shell and cleaning roller. Finally, by pushing the squeezing rod away from the interior of the fixed shell, the squeezing block pushes the limiting plate to limit the mounting shell and cleaning roller, ensuring that the cleaning roller will not move or hit the inner wall of the box after cleaning. This avoids physical damage to the box caused by the accidental movement of the cleaning roller, thereby maintaining the sound insulation performance of the box.
[0021] This invention, when the moving block retracts into the fixed groove, triggers the movement of the sliding rod and toothed plate. The toothed plate drives the second gear and the second push rod to rotate. The second push rod pulls the protrusion and the sliding plate to move. The sliding plate then drives the limiting strip and the pulley to move. The surface of the pulley then contacts the surface of the connecting block. When the mounting shell moves, it causes the connecting block to move inside the limiting strip. The moving connecting block acts as a power source, causing the pulley to rotate. This allows the mounting shell and the cleaning roller to move more smoothly. Finally, the moving block, in conjunction with the toothed plate, causes the second push rod to pull the limiting strip and the pulley, making the movement of the mounting shell and the cleaning roller smoother. This allows the mounting shell to cover the inner wall of the box more quickly, reducing the cleaning time and improving the overall cleaning efficiency. Attached Figure Description
[0022] Figure 1 This is a schematic diagram of the structure of the present invention;
[0023] Figure 2 This is a cross-sectional view of the mounting shell of the present invention;
[0024] Figure 3 This is a cross-sectional view of the housing of the present invention;
[0025] Figure 4 This is a schematic diagram illustrating the cleaning mechanism of the present invention;
[0026] Figure 5 This is a schematic diagram of the cross-section of the push rod of the present invention;
[0027] Figure 6 This is a schematic diagram illustrating the limiting mechanism of the present invention;
[0028] Figure 7 This is a schematic diagram showing the interior of the fixing groove of the present invention;
[0029] Figure 8 This is a schematic diagram illustrating the sliding groove of the present invention;
[0030] Figure 9 This is a schematic diagram illustrating the smoothing mechanism of the present invention;
[0031] Figure 10 This is a cross-sectional view of the limiting strip of the present invention;
[0032] Figure 11 This is a cross-sectional view of the fixing shell of the present invention.
[0033] Figure 12 For the present invention Figure 9 Enlarged diagram of point A in the diagram.
[0034] In the diagram: 1. Housing; 2. Cleaning mechanism; 201. Gear 1; 202. Rack; 203. Worm; 204. Worm wheel; 205. Push rod 1; 206. Mounting housing 1; 207. Cleaning roller; 208. Sliding block; 3. Limiting mechanism; 301. Fixed housing; 302. Extrusion rod; 303. Air inlet slot; 304. Circular slot; 305. Sealing plate 1; 306. Hinge rod; 307. Extrusion block; 308. Spring 1; 309. Spring 2; 310. Moving block; 311. Spring 3; 312. Limiting plate; 313. Fixed slot 1; 4. Smooth sliding mechanism; 401. Fixed groove two; 402. Sliding plate; 403. Limiting strip; 404. Pulley; 405. Connecting block; 406. Gear two; 407. Protrusion; 408. Push rod two; 409. Sliding groove; 410. Sliding rod; 411. Toothed plate; 5. Sealing assembly; 501. Spring four; 502. Sealing block; 503. Neodymium magnet; 504. Metal block; 6. Heat dissipation mechanism; 601. Mounting groove; 602. Heat dissipation assembly; 603. Protective shell; 7. Limiting rod; 8. Sealing plate two; 9. Mounting shell two; 10. Door panel. Detailed Implementation
[0035] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.
[0036] like Figures 1 to 12 As shown, the present invention provides a soundproof box for an automated punch press, comprising a box body 1:
[0037] Mounting shell 2 9 is located on one side of the outer surface of the housing 1;
[0038] Door panel 10 is placed inside mounting housing 2 9. There are two door panels 10, and the door panels 10 can slide inside mounting housing 2 9.
[0039] The cleaning mechanism 2 is located on one side of the outer surface of the housing 1. The cleaning mechanism 2 includes a gear 201, which is rotatably connected to one side of the outer surface of the housing 1 and located inside the mounting shell 9. A rack 202 is fixedly installed on the top of the door panel 10. A worm 203 located inside the housing 1 is fixedly installed on one end of the gear 201. A worm wheel 204 meshing with the worm 203 is rotatably connected to the inner cavity of the housing 1. A push rod 205 is fixedly installed on one side of the worm wheel 204. A mounting shell 206 is provided inside the housing 1. A cleaning roller 207 is rotatably connected inside the mounting shell 206. A sliding block 208 located inside the push rod 205 is slidably connected inside the mounting shell 206.
[0040] Using the above solution: the operator sets the housing 1 around the punch press, then pushes the two door panels 10 to move to both ends to open the housing 1, and then puts the workpiece into the punch press worktable for processing. During the processing, the housing 1 can reduce the noise generated by the punch press.
[0041] When the housing 1 has been in operation for a long time and dust adheres to the inner wall of the housing 1, while opening the housing 1, it is necessary to continue pushing the two door panels 10 to move to both ends. Then, the door panels 10 will drive the rack 202 to move. Then, the teeth at the bottom of the rack 202 will contact and mesh with the teeth on the surface of the gear 201. Moving the rack 202 will drive the gear 201 to rotate. The gear 201 will drive the worm 203 to rotate. Because the worm 203 meshes with the worm wheel 204, the worm 203 will drive the worm wheel 204 and the push rod 205 to rotate. When the push rod 205 rotates, the sliding block 208 will move inside the push rod 205, and the push rod 205 will push... The sliding block 208 moves inside the cleaning roller 207. Then, the push rod 205 pushes the mounting shell 206 and the cleaning roller 207 to move. Since the surface of the cleaning roller 207 is in contact with the inner wall of the housing 1, it will roll when the cleaning roller 207 moves. The surface of the cleaning roller 207 is provided with adhesive paper, so the dust attached to the inner wall of the housing 1 can be cleaned when the cleaning roller 207 moves. Finally, the moving door panel 10 causes the push rod 205 to push the cleaning roller 207 to move, thereby cleaning the inner wall of the housing 1. This not only keeps the inside of the housing 1 clean, but also improves the sound insulation of the housing 1 and optimizes the working environment and noise pollution of the surrounding environment.
[0042] like Figure 6 , Figure 7 , Figure 8 and Figure 9As shown, the limiting mechanism 3 is disposed on the outer surface of the housing 1. The limiting mechanism 3 includes a fixed shell 301, which is fixedly connected to the outer surface of the housing 1. A pressing rod 302 is fixedly installed on the top of the rack 202. Air inlet grooves 303 are provided inside both ends of the housing 1. One end of the air inlet groove 303 is connected to the fixed shell 301. Circular grooves 304 are provided inside both ends of the housing 1, and the other end of the air inlet groove 303 is connected to the circular groove 304. A sealing plate 305 is rotatably connected inside the circular groove 304, and the surface of the sealing plate 305 is fully in contact with the inner wall of the circular groove 304. The two sides inside the housing 1... Each has a fixing groove 313. A hinge rod 306 is slidably connected inside the fixing groove 313. One end of the hinge rod 306 is hinged to the sealing plate 305. A pressing block 307 is fixedly installed at the other end of the hinge rod 306. A spring 308 is elastically connected between the pressing block 307 and the fixing groove 313. A spring 309 is fixedly installed in the inner cavity of the fixing groove 313. A moving block 310 located on one side of the pressing block 307 is fixedly installed at one end of the spring 309. A spring 311 is fixedly installed on the side of the moving block 310 close to the mounting shell 206. A limit plate 312 is fixedly installed at one end of the spring 311.
[0043] Using the above solution: Through the design of the limiting mechanism 3, when the mounting shell 206 and the cleaning roller 207 move, they will contact the limiting plate 312 and push the limiting plate 312 to compress the spring 311. Therefore, the limiting plate 312 will not jam the mounting shell 206. Furthermore, during the movement of the rack 202, the pressing rod 302 will move in conjunction with it. Then, one end of the pressing rod 302 will enter the interior of the fixed shell 301. Since the surface of the pressing rod 302 is in contact with the inner wall of the fixed shell 301, it will compress the air inside the fixed shell 301. Because both ends of the air inlet groove 303 are connected to the fixed shell 301 and the circular groove 304, the compressed air passes through the air inlet groove 303 and enters the interior of the circular groove 304. The moving air pushes the sealing plate 305 to move, and the sealing plate 305 pushes the hinge rod 306 and the pressing block 307 to move inside the fixing groove 313. When the pressing block 307 moves, the spring 308 is compressed. Then, one side of the pressing block 307 moves away from the side of the moving block 310. Then, the compressed spring 309 pulls the moving block 310 to retract into the fixing groove 313. The moving block 310 drives the spring 311 and the limiting plate 312 to retract into the fixing groove 313. Then, the limiting plate 312 releases the limiting on the mounting shell 206 and the cleaning roller 207, and then the mounting shell 206 and the cleaning roller 207 can move, thereby cleaning the inner wall of the box 1.
[0044] After the cleaning is completed, the two door panels 10 can be pushed to move relative to each other. Then, the mounting shell 206 and the cleaning roller 207 will reset, and the rack 202 will move away from the surface of the gear 201. As the rack 202 moves, the extrusion rod 302 will also disengage from the interior of the fixed shell 301. Then, the air pressure inside the air inlet groove 303 will be restored, and the compressed spring 308 will push the extrusion block 307 to contact one side of the moving block 310, and will compress the moving block 310 to move. When the moving block 310 moves, the spring 309 will be stretched. Next, the moving block 310 will drive the spring 311 and the limiting plate 312 to contact one side of the mounting shell 206 again, thereby limiting the mounting shell 206 and the cleaning roller 207. Finally, the squeezing rod 302 moves away from the inside of the fixed shell 301, causing the squeezing block 307 to push the limiting plate 312 to limit the mounting shell 206 and the cleaning roller 207. This ensures that the cleaning roller 207 will not move or hit the inner wall of the box 1 after cleaning, avoiding physical damage to the box 1 caused by the accidental movement of the cleaning roller 207, thereby maintaining the sound insulation performance of the box 1.
[0045] like Figure 2 , Figure 7 , Figure 8 , Figure 9 , Figure 10 and Figure 12 As shown, the smoothing mechanism 4 is located inside the top of the housing 1. The smoothing mechanism 4 includes a second fixing groove 401, which is opened inside the top of the housing 1. A sliding plate 402 is slidably connected inside the second fixing groove 401. A limiting strip 403 located inside the housing 1 is fixedly installed at the bottom end of the sliding plate 402. A pulley 404 is rollably connected inside the limiting strip 403. A connecting block 405 is provided on one side of the limiting strip 403, and the connecting block 405 is fixedly connected to one side of the mounting shell 206. The second fixing groove 401... The internal rotating connection is a gear 406, and a push rod 408 located at the top of the sliding plate 402 is fixedly installed at the top of the gear 406. A protrusion 407 located inside the push rod 408 is fixedly installed at the top of the sliding plate 402. A sliding groove 409 is opened on one side inside the fixed groove 401. A sliding rod 410 is slidably connected inside the sliding groove 409. One end of the sliding rod 410 is fixedly connected to the top of the moving block 310, and a toothed plate 411 that meshes with the gear 406 is fixedly installed at the other end of the sliding rod 410.
[0046] Using the above solution: Through the design of the smoothing mechanism 4, when the moving block 310 retracts into the fixed groove 313, it will move the sliding rod 410 inside the sliding groove 409. The sliding rod 410 will drive the toothed plate 411 to move. Because the toothed plate 411 meshes with the gear 406, the moving toothed plate 411 will drive the gear 406 and the push rod 408 to rotate. Then, the protrusion 407 will move inside the push rod 408, and the push rod 408 will pull the protrusion 407 and the sliding plate 402 to move. The sliding plate 402 will drive the limiting strip 403 and the pulley 404 to move. Then, the limiting strip 403 will wrap around the connecting block 405, and the pulley 404 will move. The surface of 4 will contact the surface of the connecting block 405. When the mounting shell 206 moves, it will drive the connecting block 405 to move inside the limiting strip 403. The moving connecting block 405 serves as the power source, which causes the pulley 404 to rotate. This allows the mounting shell 206 and the cleaning roller 207 to move more smoothly. Finally, the moving block 310 links the toothed plate 411 to cause the push rod 408 to pull the limiting strip 403 and the pulley 404 to move. This allows the mounting shell 206 and the cleaning roller 207 to move more smoothly, so that the mounting shell 206 can cover the inner wall of the box 1 more quickly, reducing the cleaning time and improving the overall cleaning efficiency.
[0047] like Figure 11 As shown, the sealing component 5 is disposed inside the fixed housing 301. The sealing component 5 includes a spring 501, which is fixedly installed inside the fixed housing 301. A sealing block 502 is fixedly installed at one end of the spring 501. A neodymium magnet 503 is disposed inside the sealing block 502 near the end of the air inlet groove 303. A metal block 504 is disposed inside the extrusion rod 302 near the end of the sealing block 502.
[0048] Using the above solution: Through the design of the sealing component 5, when the extrusion rod 302 enters the interior of the fixed housing 301, the metal block 504 also enters. Then, the surface of the metal block 504 contacts the surface of the neodymium magnet 503, and the metal block 504 adheres to the surface of the neodymium magnet 503. When the extrusion rod 302 moves outward from the fixed housing 301, it pulls the sealing block 502 to move inside the fixed housing 301. During the movement of the sealing block 502, the spring 4 501 is stretched. Because the surface of the sealing block 502 contacts the inner wall of the fixed housing 301, it can block the air inlet groove 303 during the movement. Ensure sufficient pressure inside the air inlet groove 303 and the circular groove 304 to prevent the sealing plate 305 from resetting when the extrusion rod 302 has not been removed from the fixed housing 301. When the extrusion rod 302 is removed from the fixed housing 301, the metal block 504 will move away from the surface of the neodymium magnet 503, and then the stretched spring 501 will pull the sealing block 502 to reset. Then the sealing block 502 will unblock the air inlet groove 303, and the pressure inside the air inlet groove 303 and the circular groove 304 will return to normal. Then the sealing plate 305 will reset, and the limiting plate 312 can limit the mounting housing 206 and the cleaning roller 207.
[0049] like Figure 1 , Figure 2 and Figure 3 As shown, the heat dissipation mechanism 6 is disposed on both sides of the outer surface of the housing 1. The heat dissipation mechanism 6 includes a mounting groove 601, which is opened on both sides of the outer surface of the housing 1. A heat dissipation component 602 is disposed inside the mounting groove 601. A protective shell 603 located on one side of the mounting groove 601 is fixedly installed on both sides of the outer surface of the housing 1. A limiting rod 7 located inside the cleaning roller 207 is fixedly installed inside the housing 1. The cleaning roller 207 can move on the surface of the limiting rod 7. There are four limiting rods 7, and each pair is located at the top and bottom of the cleaning roller 207.
[0050] The above solution is adopted as follows: Through the design of the heat dissipation mechanism 6, when the punch press is working, the heat dissipation component 602 can be driven, and then the heat dissipation component 602 will draw in the air inside the housing 1. Then the drawn air will be discharged from the inside of the protective shell 603, thus dissipating heat from the punch press. Through the design of the limiting rod 7, when the mounting shell 206 moves, it will move on the surface of the limiting rod 7. Since the limiting rod 7 is in pairs, it can support and limit the mounting shell 206.
[0051] like Figure 6 , Figure 7 and Figure 10As shown, a sealing plate 8 is fixedly installed on one side of the sealing plate 305, and one side of the sealing plate 8 is in contact with the inner wall of the circular groove 304. The connecting block 405 has an arc-shaped design, and both sides of the inner side of the limiting strip 403 have a chamfered design.
[0052] The above solution is adopted as follows: Through the design of the sealing plate 2 8, since the sealing plate 2 8 fits inside the circular groove 304, a sealed space is formed through the cooperation between the sealing plate 2 8 and the circular groove 304. This facilitates the gas inside the air inlet groove 303 to drive the sealing plate 1 305 to rotate. Through the design of the limiting strip 403 and the connecting block 405, since the inside of the limiting strip 403 is chamfered, it is convenient for the limiting strip 403 to be fitted onto the surface of the connecting block 405. Furthermore, the arc-shaped design of the connecting block 405 facilitates the movement of the connecting block 405 inside the limiting strip 403.
[0053] like Figure 7 , Figure 8 and Figure 10 As shown, the inside of the box 1 is provided with a square groove, and the mounting shell 206 can move inside the square groove. There is a gap between the mounting shell 206 and the sliding plate 402. The pressing block 307 and the moving block 310 are both designed with inclined surfaces on opposite sides, and the two inclined surfaces are parallel to each other.
[0054] The above solution is adopted as follows: By designing the mounting shell 206, when the mounting shell 206 moves, it will move inside the square groove, so the box 1 will not interfere with the movement of the mounting shell 206. Furthermore, there is a gap between the mounting shell 206 and the sliding plate 402, so the sliding plate 402 will not block the movement of the mounting shell 206. By designing the pressing block 307 and the moving block 310, since the opposite side of the pressing block 307 and the moving block 310 are both designed with slopes, the friction between the pressing block 307 and the moving block 310 will be reduced, thus facilitating the pressing block 307 to press and push the moving block 310 to move.
[0055] Working principle and usage process of this invention:
[0056] First, the operator can place the housing 1 outside the punch press. Then, the two door panels 10 can be pushed to move to both ends. Next, the workpiece can be placed on the punch press's worktable for processing. The housing 1 can then provide sound insulation and noise reduction for the punch press. While the punch press is operating, the heat dissipation component 602 can be driven to dissipate heat inside the housing 1. When cleaning dust adhering to the inner wall of the housing 1, the two door panels 10 can be pushed to move to both ends. The door panels 10 will drive the rack 202 to move. During the movement of the rack 202, the pressing rod 302 will move in conjunction with it. Then, one end of the pressing rod 302 will enter the fixed housing 301 and compress the air inside the fixed housing 301. This air will then push the sealing plate 305 to move. The sealing plate 305 will then push the hinge rod 306 and the pressing block 307 to move inside the fixed groove 313. When the pressing block 307 moves, the spring 308 will be compressed. The side of the pressing block 307 will move away from the side of the moving block 310. Then, the compressed spring 2 309 will pull the moving block 310, spring 3 311 and limiting plate 312 to retract into the fixed groove 313, thereby canceling the limiting of the mounting shell 206 and cleaning roller 207. Then, the moving rack 202 will drive the gear 1 201 to rotate, the gear 1 201 will drive the worm 203 to rotate, the worm 203 will drive the worm wheel 204 and push rod 1 205 to rotate, the push rod 1 205 will push the sliding block 208 to move inside the cleaning roller 207, and the push rod 1 205 will push the mounting shell 206 and cleaning roller 207 to move. Since the surface of the cleaning roller 207 is in contact with the inner wall of the box 1, it will roll when the cleaning roller 207 moves. The surface of the cleaning roller 207 is provided with adhesive paper, so the dust attached to the inner wall of the box 1 can be cleaned when the cleaning roller 207 moves.
[0057] At the same time, when the moving block 310 retracts into the fixed groove 313, it will move the sliding rod 410 in the sliding groove 409. The sliding rod 410 will drive the toothed plate 411 to move. The toothed plate 411 will drive the gear 406 and the push rod 408 to rotate. The push rod 408 will pull the protrusion 407 and the sliding plate 402 to move. The sliding plate 402 will drive the limiting strip 403 and the pulley 404 to move. Then the surface of the pulley 404 will contact the surface of the connecting block 405. When the mounting shell 206 moves, it will drive the connecting block 405 to move inside the limiting strip 403. The moving connecting block 405 will act as a power source, and the pulley 404 will rotate, which will make the mounting shell 206 and the cleaning roller 207 move more smoothly.
[0058] After the cleaning work is completed, the two door panels 10 can be pushed to move relative to each other. Then the mounting shell 206 and the cleaning roller 207 will be reset, and the rack 202 will move away from the surface of the gear 201. As the rack 202 moves, the squeezing rod 302 will also disengage from the interior of the fixed shell 301. Then the moving block 310 will drive the spring 311 and the limiting plate 312 to contact one side of the mounting shell 206 again, thereby limiting the mounting shell 206 and the cleaning roller 207, and finally completing the operation process.
[0059] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.
[0060] Although embodiments of the 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 to these embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A soundproof box for automated punch presses, characterized in that, Includes the housing (1); Mounting shell two (9), which is located on one side of the outer surface of the box body (1); Door panel (10), which is placed inside the mounting shell two (9), the number of door panels (10) is two, and the door panels (10) can slide inside the mounting shell two (9); The cleaning mechanism (2) is located on one side of the outer surface of the box (1). The cleaning mechanism (2) includes a gear (201), which is rotatably connected to one side of the outer surface of the box (1) and located inside the mounting shell (9). A rack (202) is fixedly installed on the top of the door panel (10), and a worm (203) located inside the box (1) is fixedly installed on one end of the gear (201). The inner cavity of the housing (1) is rotatably connected to a worm gear (204) that meshes with a worm (203). A push rod (205) is fixedly installed on one side of the worm gear (204). An installation shell (206) is provided inside the housing (1). A cleaning roller (207) is rotatably connected inside the installation shell (206). A sliding block (208) located inside the push rod (205) is slidably connected inside the installation shell (206). It also includes: A limiting mechanism (3) is provided on the outer surface of the box (1). The limiting mechanism (3) includes a fixed shell (301), which is fixedly connected to the outer surface of the box (1). A pressing rod (302) is fixedly installed on the top of the rack (202). An air inlet groove (303) is provided inside both ends of the box (1). One end of the air inlet groove (303) is connected to the fixed shell (301). A circular groove (304) is provided inside both ends of the box (1). The other end of the air inlet groove (303) is connected to the circular groove (304). A sealing plate (305) is rotatably connected inside the circular groove (304), and the surface of the sealing plate (305) is fully in contact with the inner wall of the circular groove (304). Fixing grooves (313) are provided on both sides of the inside of the box (1). A hinge rod (306) is slidably connected inside the fixing groove (313), and one end of the hinge rod (306) is hinged to the sealing plate (305). A pressing block (307) is fixedly installed at the other end of the hinge rod (306). A spring (308) is elastically connected between the extrusion block (307) and the fixing groove (313). A spring (309) is fixedly installed in the inner cavity of the fixing groove (313). A moving block (310) located on one side of the extrusion block (307) is fixedly installed at one end of the spring (309). A spring (311) is fixedly installed on the side of the moving block (310) close to the mounting shell (206). A limit plate (312) is fixedly installed at one end of the spring (311). It also includes: A sealing assembly (5) is disposed inside the fixed housing (301). The sealing assembly (5) includes a spring four (501), which is fixedly installed inside the fixed housing (301). A sealing block (502) is fixedly installed at one end of the spring four (501). A neodymium magnet (503) is disposed inside the sealing block (502) near the end of the air inlet groove (303). A metal block (504) is disposed inside the extrusion rod (302) near the end of the sealing block (502).
2. The soundproof box for automated punch presses according to claim 1, characterized in that, It also includes: A smoothing mechanism (4) is provided inside the top of the box (1). The smoothing mechanism (4) includes a fixing groove two (401). The fixing groove two (401) is opened inside the top of the box (1). A sliding plate (402) is slidably connected inside the fixing groove two (401). A limiting strip (403) located inside the box (1) is fixedly installed at the bottom end of the sliding plate (402). A pulley (404) is slidably connected inside the limiting strip (403). A connecting block (405) is provided on one side of the limiting strip (403), and the connecting block (405) is fixedly connected to one side of the mounting shell one (206). Gear 2 (406) is rotatably connected inside the fixed groove 2 (401). A push rod 2 (408) located at the top of the sliding plate (402) is fixedly installed at the top of the gear 2 (406). A protrusion (407) located inside the push rod 2 (408) is fixedly installed at the top of the sliding plate (402). A sliding groove (409) is opened on one side inside the fixed groove 2 (401). A sliding rod (410) is slidably connected inside the sliding groove (409). One end of the sliding rod (410) is fixedly connected to the top of the moving block (310). A toothed plate (411) that meshes with gear 2 (406) is fixedly installed at the other end of the sliding rod (410).
3. The soundproof box for automated punch presses according to claim 1, characterized in that, It also includes: A heat dissipation mechanism (6) is provided on both sides of the outer surface of the box (1). The heat dissipation mechanism (6) includes a mounting groove (601). The mounting groove (601) is opened on both sides of the outer surface of the box (1). A heat dissipation component (602) is provided inside the mounting groove (601). A protective shell (603) located on one side of the mounting groove (601) is fixedly installed on both sides of the outer surface of the box (1).
4. The soundproof box for automated punch presses according to claim 1, characterized in that: The housing (1) is fixedly installed with a limiting rod (7) inside the cleaning roller (207). The cleaning roller (207) can move on the surface of the limiting rod (7). There are four limiting rods (7), and each pair is located at the top and bottom of the cleaning roller (207).
5. The soundproof box for automated punch presses according to claim 2, characterized in that: A second sealing plate (8) is fixedly installed on one side of the first sealing plate (305), and one side of the second sealing plate (8) is in contact with the inner wall of the circular groove (304).
6. The soundproof box for automated punch presses according to claim 2, characterized in that: The connecting block (405) has an arc-shaped design, and both sides of the inner side of the limiting strip (403) are chamfered.
7. The soundproof box for automated punch presses according to claim 1, characterized in that: The box (1) has a square groove inside, and the mounting shell (206) can move inside the square groove. There is a gap between the mounting shell (206) and the sliding plate (402).
8. The soundproof box for automated punch presses according to claim 2, characterized in that: The pressing block (307) and the moving block (310) are both designed with inclined surfaces on opposite sides, and the two inclined surfaces are parallel to each other.