A processing device suitable for silica gel pad

Abstract

The utility model provides a kind of processing device suitable for silica gel pad, including main body frame, feed section, receiving transfer section, storage tank supply section, storage tank section and control section, main body frame includes pedestal, work seat, load plate, electric hydraulic rod, cutting machine, feed section includes longitudinal adjusting mechanism, vertical adjusting mechanism and transverse adjusting mechanism, receiving transfer section includes receiving mechanism and transfer mechanism, storage tank supply section includes motor roller, screw stepper motor, electric telescopic rod and jaw motor, and storage tank section includes tank and tank cover.The utility model in operation, staff only needs to go up and down storage tank section, without long-term wearing mask, greatly improve working environment;During cutting process, mechanical correction silica gel strip position is used, cutting quality is significantly improved, high and stable precision;Closed cutting, the environment where silica gel strip, silica gel section is cleaner, simplify subsequent process, to improve the production efficiency of silica gel pad.

Description

Technical Field

[0001] This utility model relates to the field of automotive parts, and in particular to a processing device suitable for silicone pads. Background Technology

[0002] Silicone is a polymer with polysiloxane as its main chain, possessing flexibility, elasticity, and chemical stability, making it suitable for sealing, cushioning, and other applications. Currently, silicone pads are frequently used as cushioning in the transfer of automotive parts, such as the fixing and protective device for automotive radiators disclosed in Chinese Patent CN109532466A, which includes a main housing, a clamping knob, and a fixing plate; the top of the lower clamp is provided with an upper clamp via a snap-fit ​​ring; and a silicone pad is fixedly installed on the inner side of both the upper and lower clamps.

[0003] The production of silicone pads, as described above, involves cutting silicone strips into silicone segments and then processing them into silicone pads. Currently, the cutting method is mostly done manually, which has the following drawbacks:

[0004] Firstly, during the cutting process, staff need to wear masks at all times, and the working environment is poor.

[0005] Secondly, the silicone strip is highly flexible, and the cutting quality depends on the experience and condition of the staff, resulting in large fluctuations in cutting accuracy.

[0006] Third, the open-cut design makes silicone strips and segments prone to dust accumulation, affecting subsequent production processes (requiring additional cleaning procedures) and severely restricting production progress. Utility Model Content

[0007] This invention proposes a processing device suitable for silicone pads, which can effectively solve the problems mentioned in the background art.

[0008] To achieve the above objectives, the present invention adopts the following technical solution:

[0009] A processing apparatus for silicone pads includes a main frame, a feeding section, a receiving and transferring section, a storage box supply section, a storage box section, and a control section.

[0010] Specifically, the main frame includes a base, a workbench, a load plate, an electro-hydraulic rod, a cutting machine, a compressor, and an industrial vacuum cleaner. The base includes a rectangular hollow container (Type 1). The workbench includes a rectangular hollow container (Type 2), with rectangular through holes 1, 2, and 3 on its front side plate, and mounting through holes 1 and 2 on its bottom plate. The load plate is L-shaped and located within the workbench, with strip-shaped through holes 1 and 2 on it. The electro-hydraulic rod is located within the workbench. The cutting machine is mounted on the movable end of the electro-hydraulic rod. The compressor and industrial vacuum cleaner are mounted on the base. The vacuum cleaner head is mounted on the movable end of the electro-hydraulic rod.

[0011] Specifically, the feeding section includes a longitudinal adjustment mechanism, a vertical adjustment mechanism, and a lateral adjustment mechanism.

[0012] More specifically, the longitudinal adjustment mechanism includes an electric roller shaft one, a screw jack, and a limiting plate. The electric roller shaft one is equidistantly arranged on a strip mounting plate one; one end of the strip mounting plate one is mounted on the base via a support column one, and the other end is mounted inside the work seat via a support column two; the screw jack is located inside the work seat, above the electric roller shaft one; the limiting plate is located on the movable end of the screw jack, and a vacuum suction cup one is mounted on it for adjusting the position of the feeding box.

[0013] More specifically, the vertical adjustment mechanism includes an electric lifting platform and a "U"-shaped limiting cover. The electric lifting platform is located inside the work seat, below the electric roller shaft one; the "U"-shaped limiting cover is located inside the work seat via an elastic telescopic rod, above the electric roller shaft one, and its side plate is symmetrically provided with "U"-shaped opening through slots one.

[0014] More specifically, the lateral adjustment mechanism includes an electric telescopic rod, a U-shaped limiting groove, a strip limiting plate, a push rod motor, an electric telescopic rod four, and a vacuum suction cup three. The electric telescopic rod one and the U-shaped limiting groove one are mounted inside the workbench via a mounting bracket; the electric telescopic rod one is located on the left side of the U-shaped limiting cover; the U-shaped limiting groove one is located on the right side of the U-shaped limiting cover, and has a U-shaped opening through groove two; the push rod motor one is mounted on the side plate of the U-shaped limiting groove one via a mounting plate three; the strip limiting plate is located on the movable end of the push rod motor one, inside the U-shaped limiting groove one, and is used to adjust the position of the silicone strip to be cut; the electric telescopic rod four is located on the inner wall of the rear side plate of the workbench; the vacuum suction cup three is located on the movable end of the electric telescopic rod four and is used to adjust the position of the silicone strip.

[0015] Specifically, the transfer portion includes the receiving organization and the transfer organization.

[0016] More specifically, the receiving mechanism includes a second "U"-shaped limiting groove tube, a limiting rod, a second push rod motor, and a first lead screw stepper motor. The second "U"-shaped limiting groove tube is mounted inside the work base via a mounting bracket, located to the right of the first "U"-shaped limiting groove tube and the cutting machine. It has a third "U"-shaped opening through groove, and its bottom plate also has a third strip-shaped through hole. The second push rod motor is mounted on the side plate of the second "U"-shaped limiting groove tube via a second mounting plate. The limiting rod is located on the movable end of the second push rod motor. The first lead screw stepper motor and the first slide rod are located inside the work base, below the second "U"-shaped limiting groove tube. The first movable carrier plate is slidably connected to the first slide rod and connected to the nut seat of the first lead screw stepper motor. The first movable carrier plate has a positioning block, which is slidably connected inside the third strip-shaped through hole for adjusting the cutting length.

[0017] More specifically, the transfer mechanism includes a lead screw stepper motor, an electric telescopic rod, a vacuum suction cup, a push rod motor, and a pressure plate. The lead screw stepper motor and the slide rod are mounted within the work base via a load plate; the movable load plate is slidably connected to the slide rod and to the nut seat of the lead screw stepper motor; the electric telescopic rod is mounted on the lower surface of the movable load plate via a mounting plate; the vacuum suction cup is mounted on the movable end of the electric telescopic rod; the push rod motor is mounted on the mounting plate; and the pressure plate is mounted on the movable end of the push rod motor to prevent the pad from bouncing and causing cutting errors.

[0018] Specifically, the storage box supply section includes an electric roller shaft two, a lead screw stepper motor three, an electric telescopic rod three, and a gripper motor. The electric roller shaft two is equidistantly mounted on a rectangular mounting plate; one end of the rectangular mounting plate is mounted on the base via a support column three, and the other end is mounted inside the work seat via a support column four; the lead screw stepper motor three and the slide rod three are mounted inside the work seat via a load plate; the movable load plate three is slidably connected to the slide rod three and connected to the nut seat of the lead screw stepper motor three; the electric telescopic rod three is mounted on the lower surface of the movable load plate three via the load plate; and the gripper motor is mounted on the movable end of the electric telescopic rod two.

[0019] Specifically, the storage box includes a box body and a box lid. The box body includes a rectangular container one and a movable base plate; a rectangular through hole five is provided on the base plate of the rectangular container one; the movable base plate is slidably connected inside the rectangular container one; the box lid includes a rectangular container two, a rectangular container three, and a handle; a rectangular through hole four is provided on the base plate of the rectangular container two; the rectangular container three is located inside the rectangular through hole four; the handle is located inside the rectangular container three.

[0020] Specifically, the control section includes a control mechanism, a feedback mechanism, and a PLC controller. The control mechanism includes a start switch, a material preparation switch, a cutting switch, a pause switch, and an unloading switch. The feedback mechanism includes several distance sensor modules.

[0021] Furthermore, hinged blinds are added inside rectangular through holes one, two, and three.

[0022] Advantages compared to existing technologies:

[0023] In this utility model, the following functions are achieved through the integrated design of the main frame, feeding section, receiving and transferring section, storage box supply section, storage box section, and control section:

[0024] Firstly, staff only need to move the silicone strips to the upper and lower storage boxes (i.e., the silicone strips are installed and the silicone strips are removed), eliminating the need for prolonged mask-wearing and significantly improving the working environment.

[0025] Secondly, during the cutting process, the position of the silicone strip is mechanically corrected, which significantly improves the cutting quality, resulting in high precision and stability.

[0026] Third, the closed-loop cutting process ensures a clean environment for the silicone strips and segments, significantly simplifying subsequent processes (e.g., eliminating the cleaning process) and thus improving the production efficiency of silicone pads. Attached Figure Description

[0027] Figure 1 This is a schematic diagram of a partial cross-sectional structure from a top view of the present invention. Figure 1 ;

[0028] Figure 2 This is a schematic diagram of a partial cross-sectional structure from a top view of the present invention. Figure 2 ;

[0029] Figure 3 This is a schematic diagram of a partial cross-sectional structure viewed from the front of this utility model. Figure 1 ;

[0030] Figure 4 This is a schematic diagram of a partial cross-sectional structure viewed from the front of this utility model. Figure 2 ;

[0031] Figure 5 This is a schematic diagram of a partial cross-sectional structure viewed from the front of this utility model. Figure 2 A magnified view of a portion of the image;

[0032] Figure 6 This is a schematic diagram of the system structure of this utility model. Figure 1 ;

[0033] Figure 7 This is a schematic diagram of the system structure of this utility model. Figure 2 .

[0034] In the diagram: 101. Base, 102. Working seat, 103. Load plate, 104. Electro-hydraulic rod, 105. Cutting machine, 201. Electric roller shaft one, 202. Screw jack, 203. Vacuum suction cup one, 204. Electric lifting platform, 205. "U"-shaped limit cover, 206. Electric telescopic rod one, 207. "U"-shaped limit groove tube one, 208. Push rod motor one, 209. Electric telescopic rod four, 301. "U"-shaped limit groove tube two, 302. Push rod motor two, 303. Screw stepper motor one, 304. Positioning block, 305. Screw stepper motor two, 306. Electric telescopic rod two, 307. Vacuum suction cup two, 308. Push rod motor three, 309. Pressure plate, 401. Electric roller shaft two, 402. 3. Lead screw stepper motor; 403. Electric telescopic rod; 404. Gripper motor; 501. Rectangular container; 502. Movable base plate; 503. Box lid. Detailed Implementation

[0035] Example 1, refer to Appendix Figure 1-7 A processing apparatus for silicone pads includes a main frame, a feeding section, a receiving and transferring section, a storage box supply section, a storage box section, and a control section.

[0036] The main frame includes a base 101, a work stand 102, a load plate 103, an electro-hydraulic rod 104, a cutting machine 105, a compressor, and an industrial vacuum cleaner.

[0037] The base 101 includes a rectangular hollow container.

[0038] The work stand 102 includes a rectangular hollow container.

[0039] Rectangular through-hole one, rectangular through-hole two, and rectangular through-hole three are provided on the front side plate of the rectangular hollow container two.

[0040] The bottom plate of the rectangular hollow container 2 is provided with mounting through hole 1 and mounting through hole 2.

[0041] The load plate 103 is disposed inside the work stand 102.

[0042] The load plate 103 is L-shaped.

[0043] The load plate 103 is provided with two strip-shaped through holes.

[0044] The electro-hydraulic rod 104 is installed inside the work seat 102.

[0045] The cutting machine 105 is mounted on the movable end of the electric hydraulic rod 104.

[0046] The compressor and industrial vacuum cleaner are mounted on the base 101.

[0047] The vacuum cleaner head is located on the movable end of the electric hydraulic rod 104.

[0048] The feeding section includes a longitudinal adjustment mechanism, a vertical adjustment mechanism, and a lateral adjustment mechanism.

[0049] The longitudinal adjustment mechanism includes an electric roller shaft 201, a screw jack 202, and a limit plate.

[0050] Electric roller shaft 201 is equidistantly arranged on strip mounting plate 1.

[0051] One end of the strip mounting plate is mounted on the base 101 via a support column 1, and the other end is mounted inside the work seat 102 via a support column 2.

[0052] The screw jack 202 is installed inside the work seat 102 and is located above the electric roller 201.

[0053] A limit plate is set on the movable end of the screw jack 202, and a vacuum suction cup 203 is set on the limit plate for adjusting the position of the feeding box.

[0054] The vertical adjustment mechanism includes an electric lifting platform 204 and a "U"-shaped limit cover 205.

[0055] The electric lifting platform 204 is installed inside the work seat 102 and is located below the electric roller 201;

[0056] The "U"-shaped limiting cover 205 is installed inside the work seat 102 via an elastic telescopic rod, located above the electric roller shaft 201.

[0057] A U-shaped opening through groove is symmetrically arranged on the side plate of the U-shaped limiting cover 205.

[0058] The lateral adjustment mechanism includes an electric telescopic rod 206, a "U"-shaped limiting groove tube 207, a strip limiting plate, a push rod motor 208, an electric telescopic rod 209, and a vacuum suction cup 3.

[0059] The electric telescopic rod 206 and the "U"-shaped limiting groove tube 207 are installed in the work base 102 through the mounting bracket.

[0060] The electric telescopic rod 206 is located on the left side of the "U"-shaped limiting cover 205.

[0061] The “U”-shaped limiting groove tube 207 is located on the right side of the “U”-shaped limiting cover 205.

[0062] A U-shaped limiting groove is provided on the 207 tube with a U-shaped opening through groove.

[0063] The push rod motor 208 is mounted on the side plate of the "U"-shaped limiting groove tube 207 via the mounting plate 3.

[0064] A strip-shaped limit plate is set on the movable end of the push rod motor 208.

[0065] The strip-shaped limiting plate is located inside the "U"-shaped limiting groove tube 207 and is used to adjust the position of the silicone strip to be cut.

[0066] The electric telescopic rod 209 is installed on the inner wall of the rear side plate of the work base 102; the vacuum suction cup 3 is installed on the movable end of the electric telescopic rod 209 and is used to adjust the position of the silicone strip.

[0067] The transfer portion includes the receiving organization and the transfer organization.

[0068] The receiving mechanism includes a U-shaped limiting groove tube 301, a limiting rod, a push rod motor 302, and a lead screw stepper motor 303.

[0069] The second U-shaped limiting groove tube 301 is installed inside the work seat 102 via a mounting bracket; it is located to the right of the first U-shaped limiting groove tube 207 and the cutting machine 105.

[0070] A U-shaped limiting groove is provided on the 301 tube with a U-shaped opening through groove.

[0071] A strip-shaped through hole is provided on the bottom plate of the "U"-shaped limiting groove tube 2 301.

[0072] The push rod motor 302 is mounted on the side plate of the "U"-shaped limiting groove tube 301 via the mounting plate 2.

[0073] The limit rod is located on the movable end of the push rod motor 302.

[0074] The lead screw stepper motor 303 and the slide rod 1 are installed inside the work seat 102, located below the "U"-shaped limiting groove tube 301.

[0075] The movable carrier plate is slidably connected to the slide rod and is connected to the nut seat of the lead screw stepper motor 303.

[0076] A positioning block 304 is installed on the movable carrier plate. The positioning block 304 is slidably connected to the strip-shaped through hole three and is used to adjust the cutting length.

[0077] The transfer mechanism includes a lead screw stepper motor 305, an electric telescopic rod 306, a vacuum suction cup 307, a push rod motor 308, and a pressure plate 309.

[0078] The lead screw stepper motor 2 305 and the slide bar 2 are mounted in the work seat 102 via the load plate 103.

[0079] The movable carrier plate 2 is slidably connected to the slide rod 2 and connected to the nut seat of the lead screw stepper motor 2 305.

[0080] The electric telescopic pole 2 306 is mounted on the bottom surface of the movable carrier plate 2 via the mounting plate 1.

[0081] Vacuum suction cup 2 307 is mounted on the movable end of electric telescopic rod 2 306.

[0082] The push rod motor 308 is mounted on the mounting plate 1.

[0083] The pressure plate 309 is located on the movable end of the push rod motor 308 to prevent the pad from bouncing up and causing cutting errors.

[0084] The storage box supply section includes an electric roller 401, a lead screw stepper motor 402, an electric telescopic rod 403, and a gripper motor 404.

[0085] The electric roller shafts 2401 are equidistantly arranged on the rectangular mounting plate.

[0086] One end of the rectangular mounting plate is mounted on the base 101 via support column three; the other end is mounted inside the work seat 102 via support column four.

[0087] The lead screw stepper motor 3 402 and the slide bar 3 are set in the work seat 102 through the load plate 103.

[0088] The movable carrier plate three is slidably connected to the slide rod three and is connected to the nut seat of the lead screw stepper motor three 402.

[0089] The electric telescopic pole 3 403 is mounted on the lower surface of the movable carrier plate 3 via the load plate 103.

[0090] The gripper motor 404 is mounted on the movable end of the electric telescopic rod 306.

[0091] The storage box section includes the box body and the box cover 503.

[0092] The box body includes a rectangular container 501 and a movable base plate 502.

[0093] A rectangular through hole is provided on the bottom plate of the rectangular container 501.

[0094] The movable base plate 502 is slidably connected to the rectangular container 501.

[0095] The lid 503 includes a rectangular container 2, a rectangular container 3, and a handle.

[0096] A rectangular through hole four is provided on the bottom plate of rectangular container two.

[0097] Rectangular container three is placed inside rectangular through hole four.

[0098] The handle is placed inside the rectangular container.

[0099] The control section includes a control mechanism, a feedback mechanism, and a PLC controller.

[0100] The control mechanism includes a start switch, a material preparation switch, a cutting switch, a pause switch, and an unloading switch.

[0101] The start switch, material preparation switch, cutting switch, pause switch, and unloading switch are located on the screening base.

[0102] The feedback mechanism includes distance sensor module 1, distance sensor module 2, distance sensor module 3, distance sensor module 4, distance sensor module 5, distance sensor module 6, and distance sensor module 7.

[0103] The distance sensor module is mounted on the base 101, located below the electric roller 201, and is used to assist the PLC controller in detecting the position of the housing.

[0104] The distance sensor modules are equidistantly mounted on the rectangular mounting plate to assist the PLC controller in detecting the position of the enclosure.

[0105] The distance sensor module 3 is mounted on the strip-shaped limit plate to assist the PLC controller in detecting the position of the silicone strip.

[0106] The distance sensor module 4 is mounted on the "U"-shaped limit cover 205 to assist the PLC controller in detecting the position of the silicone strip.

[0107] Distance sensor module five is mounted on the "U"-shaped limiting groove tube two 301 to assist the PLC controller in detecting the position of the silicone strip.

[0108] The distance sensor module 6 is mounted on the load board 103 to assist the PLC controller in detecting the position of the silicone segment.

[0109] The distance sensor module 7 is mounted on the load board 103 to assist the PLC controller in detecting the position of the enclosure.

[0110] Working principle and usage:

[0111] Step 1, Pre-setting:

[0112] Press the start switch to test the power supply. Place the box containing the silicone strips to be cut onto the electric roller 201.

[0113] Place the unloaded box onto the electric roller 401; place the box cover 503 below the gripper motor 404.

[0114] Press the material preparation switch, and the distance sensor module outputs a signal to the PLC controller. The PLC controller then outputs a signal to the electric roller 201, the compressor, and the screw jack 202.

[0115] The electric roller 201 starts, moving the housing towards the screw jack 202. The compressor and solenoid valve start after a delay, fixing the housing in place; the screw jack 202 moves the housing to the initial feeding position.

[0116] Distance sensor module 2 outputs a signal to the PLC controller, which in turn outputs a signal to electric roller 401. Electric roller 401 starts and transports the unloaded housing to below the lead screw stepper motor 305.

[0117] Press the adjustment switch, and the PLC controller outputs a signal to the lead screw stepper motor 303; the lead screw stepper motor 303 drives the positioning block 304 to move in an orderly manner, adjusting the cutting length.

[0118] The second step is cutting:

[0119] Press the cutting switch, and the distance sensor module three outputs a signal to the PLC controller. The PLC controller then outputs a signal to the screw jack 202, the electric lifting platform 204, and the electric telescopic rod 206.

[0120] The electric lifting platform 204 drives the movable base plate 502 to move upward in an orderly manner, and the electric telescopic rod 206 pushes the silicone strip into the "U"-shaped limiting groove tube 207 until it enters the "U"-shaped limiting groove tube 301.

[0121] Then, the distance sensor module four outputs a signal to the PLC controller, and the PLC controller outputs a signal to the electric telescopic pole four 209.

[0122] When the electric telescopic rod 209 is activated and the solenoid valve is engaged, it drives the next silicone strip into one side of the "U"-shaped limiting groove tube 207.

[0123] The distance sensor module five outputs a signal to the PLC controller, and the PLC controller outputs signals to the lead screw stepper motor 2 (305), the electric telescopic rod 2 (306), the vacuum suction cup 2 (307), the push rod motor 3 (308), the push rod motor 1 (208), the push rod motor 2 (302), the electric hydraulic rod 104, and the cutting machine 105.

[0124] Push rod motor 1 (208) and push rod motor 2 (302) start to adjust the position of the silicone strip; lead screw stepper motor 2 (305) and push rod motor 3 (308) drive the pressure plate 309 to move downward, ensuring that the silicone strip is not bent and improving cutting accuracy. Electro-hydraulic rod 104 and cutting machine 105 start after a delay to cut the silicone strip and form silicone segments.

[0125] Step 3, packing:

[0126] The distance sensor module outputs a signal to the PLC controller, which in turn outputs a signal to the lead screw stepper motor 305 and the electric telescopic rod 306. The electric telescopic rod 306 and the solenoid valve are activated, and the vacuum suction cup 307 picks up the silicone segment and transfers it into the housing on the electric roller 401.

[0127] When the enclosure is fully loaded, the distance sensor module seven outputs a signal to the PLC controller, and the PLC controller outputs a signal to the lead screw stepper motor three 402, the electric telescopic rod three 403, and the gripper motor 404.

[0128] Electric roller 401 moves the box body to the bottom of the load plate 103, electric telescopic rod 403 and gripper motor 404 grip the box cover 503, and lead screw stepper motor 402 moves the box cover 503 and installs it onto the box body.

[0129] Example 2: Based on Example 1, a hinged curtain is added inside rectangular through hole one, rectangular through hole two, and rectangular through hole three.

[0130] The lead screw stepper motor of this utility model includes a servo motor, a ball screw assembly, and a nut seat; the servo motor and the ball screw assembly are connected by a lead screw drive. The ball screw assembly includes a ball screw, a ball nut, rotating steel balls, and a circulating component. The nut seat is connected to the ball nut of the ball screw assembly.

Claims

1. A processing apparatus suitable for silicone pads, characterized in that: It includes a main frame, a feeding section, a receiving and transferring section, a storage box supply section, a storage box section, and a control section; the main frame includes a base (101), a workbench (102), a load plate (103), an electric hydraulic rod (104), a cutting machine (105), a compressor, and an industrial vacuum cleaner; the feeding section includes a longitudinal adjustment mechanism, a vertical adjustment mechanism, and a transverse adjustment mechanism; the longitudinal adjustment mechanism includes an electric roller shaft one (201), a screw jack (202), and a limiting plate; the vertical adjustment mechanism includes an electric lifting platform (204) and a "U"-shaped limiting cover (205); the electric lifting platform (204) is located inside the workbench (102) and below the electric roller shaft one (201); The U-shaped limiting cover (205) is set inside the work seat (102) via an elastic telescopic rod, located above the electric roller shaft one (201); the side plate of the U-shaped limiting cover (205) is provided with a U-shaped opening through groove one; the transverse adjustment mechanism includes an electric telescopic rod one (206), a U-shaped limiting groove tube one (207), a strip limiting plate, a push rod motor one (208), an electric telescopic rod four (209), and a vacuum suction cup three; the receiving and transfer part includes a receiving mechanism and a transfer mechanism; the storage box supply part includes an electric roller shaft two (401), a lead screw stepper motor three (402), an electric telescopic rod three (403), and a gripper motor (404); the storage box part includes a box body and a box cover (503).

2. The processing apparatus for silicone pads according to claim 1, characterized in that: Electric telescopic rod 1 (206) and "U"-shaped limiting groove 1 (207) are mounted on the work base (102) via a mounting bracket; electric telescopic rod 1 (206) is located on the left side of "U"-shaped limiting cover (205); "U"-shaped limiting groove 1 (207) is located on the right side of "U"-shaped limiting cover (205), and "U"-shaped opening through groove 2 is provided on it; push rod motor 1 (208) is mounted on the side plate of "U"-shaped limiting groove 1 (207) via mounting plate 3; strip limiting plate is set on the movable end of push rod motor 1 (208) and is located inside "U"-shaped limiting groove 1 (207); electric telescopic rod 4 (209) is set on the inner wall of the rear side plate of work base (102); vacuum suction cup 3 is set on the movable end of electric telescopic rod 4 (209).

3. The processing apparatus for silicone pads according to claim 1, characterized in that: Electric roller shaft 1 (201) is mounted on strip mounting plate 1; one end of strip mounting plate 1 is mounted on base (101) via support column 1, and the other end is mounted in work seat (102) via support column 2; screw jack (202) is mounted in work seat (102) and located above electric roller shaft 1 (201); limit plate is mounted on the movable end of screw jack (202), and vacuum suction cup 1 (203) is mounted on limit plate.

4. The processing apparatus for silicone pads according to claim 1, characterized in that: The base (101) includes a rectangular hollow container; the work seat (102) includes a rectangular hollow container, with rectangular through holes 1, 2, and 3 on its front side plate and mounting through holes 1 and 2 on its bottom plate; the load plate (103) is located inside the work seat (102), with strip through holes 1 and 2 on it; the electric hydraulic rod (104) is located inside the work seat (102); the cutting machine (105) is located on the movable end of the electric hydraulic rod (104); and the vacuum cleaner head of the industrial vacuum cleaner is located on the movable end of the electric hydraulic rod (104).

5. The processing apparatus for silicone pads according to claim 1, characterized in that: The receiving mechanism includes a "U"-shaped limiting groove tube two (301), a limiting rod, a push rod motor two (302), and a lead screw stepper motor one (303); the "U"-shaped limiting groove tube two (301) is installed in the work seat (102) through a mounting bracket, located on the right side of the "U"-shaped limiting groove tube one (207) and the cutting machine (105), and its base plate is provided with a strip-shaped through hole three; the push rod motor two (302) is installed on the "U"-shaped limiting groove tube two (301) through a mounting plate two. On the side plate of 01); the limiting rod is set on the movable end of the push rod motor 2 (302); the lead screw stepper motor 1 (303) and the slide rod 1 are set in the work seat (102) and located below the "U" shaped limiting groove tube 2 (301); the movable carrier plate 1 is slidably connected to the slide rod 1 and connected to the nut seat of the lead screw stepper motor 1 (303); the movable carrier plate 1 is provided with a positioning block (304), and the positioning block (304) is slidably connected in the strip through hole 3.

6. The processing apparatus for silicone pads according to claim 1, characterized in that: The transfer mechanism includes a second lead screw stepper motor (305), a second electric telescopic rod (306), a second vacuum suction cup (307), a third push rod motor (308), and a pressure plate (309). The second lead screw stepper motor (305) and the second slide rod are mounted on the work base (102) via a load plate (103). The second movable load plate is slidably connected to the second slide rod and connected to the nut seat of the second lead screw stepper motor (305). The second electric telescopic rod (306) is mounted on the lower surface of the second movable load plate via a mounting plate. The second vacuum suction cup (307) is mounted on the movable end of the second electric telescopic rod (306). The third push rod motor (308) is mounted on the mounting plate. The pressure plate (309) is mounted on the movable end of the third push rod motor (308).

7. The processing apparatus for silicone pads according to claim 1, characterized in that: Electric roller shaft 2 (401) is mounted on a rectangular mounting plate; one end of the rectangular mounting plate is mounted on the base (101) via support column 3, and the other end is mounted in the work seat (102) via support column 4; screw stepper motor 3 (402) and slide rod 3 are mounted in the work seat (102) via load plate (103); movable carrier plate 3 is slidably connected to slide rod 3 and connected to the nut seat of screw stepper motor 3 (402); electric telescopic rod 3 (403) is mounted on the lower surface of movable carrier plate 3 via load plate (103); gripper motor (404) is mounted on the movable end of electric telescopic rod 2 (306).

8. The processing apparatus for silicone pads according to claim 1, characterized in that: The box includes a rectangular container (501) and a movable base plate (502); a rectangular through hole (5) is provided on the base plate of the rectangular container (501); the movable base plate (502) is slidably connected to the rectangular container (501).

9. The processing apparatus for silicone pads according to claim 1, characterized in that: The lid (503) includes a rectangular container 2, a rectangular container 3 and a handle; a rectangular through hole 4 is provided on the bottom plate of the rectangular container 2; the rectangular container 3 is located inside the rectangular through hole 4; and the handle is located inside the rectangular container 3.

10. The processing apparatus for silicone pads according to claim 1, characterized in that: The load plate (103) is L-shaped.

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