CN212798439U - A send on mechanism for automated production of apron - Google Patents

Abstract

The utility model relates to a transfer mechanism for automated production of apron, including the commentaries on classics material slide of slidable mounting on the walking guide rail, it changes the material adjusting part with the A1 commentaries on classics that its length direction along the walking guide rail removed of drive to expect the slide and be connected, change and be provided with the lift installation department along the installation of vertical direction over-and-under type on the material slide, the lift installation department is connected with adjusting its B1 adjusting part that goes up and down, be provided with on the lift installation department along direction A slidable mounting's commentaries on classics material mounting bracket, direction A is the horizontal direction of crossing form arrangement with the walking guide rail, change the material mounting bracket and adjust its A3 commentaries on classics material adjusting part along direction A removal and be connected, be provided with on the commentaries on classics material mounting bracket and expect the frame, install the. The transfer mechanism can realize the reliable requirements of transferring and taking the plate material.

Description

A send on mechanism for automated production of apron

Technical Field

The utility model relates to a preceding, the back lid production field of washing machine inner tube, concretely relates to automated production equipment of interior apron.

Background

The punch forming of the front cover and the rear cover (plate) of the inner drum of the traditional Huibop washing machine mainly adopts manual operation of punch presses to carry out punch forming and realize material transfer among the punch presses. Because the noise of a punching workshop is high, the intensity of manual operation is high, and meanwhile, the precision of a manually operated product is difficult to control by leaning, the improvement is needed to realize the automatic production of the inner cylinder cover plate.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an automatic production equipment of interior apron, its problem that aims at solving is: the existing cocoon cooking mode is easy to cause the accumulation of the silkworm cocoons, so that the soaking and cooking are not sufficient and complete, the cooked silkworm cocoons need to be manually fished, and the production efficiency is low.

The technical proposal adopted by the utility model is as follows.

The utility model provides an interior automated production equipment of using apron which characterized in that: including the transfer chain that is used for realizing that the plate material is carried, the interval is provided with the stamping device who is used for realizing the shaping of plate material on the delivery path of transfer chain, is provided with between the adjacent stamping device and passes on the mechanism to the material, and the head end of transfer chain is provided with the feed mechanism who is used for supplying the plate material, and the tail end of transfer chain is provided with the discharge apparatus who is used for unloading the product after the shaping.

The further scheme is as follows: each stamping device is arranged at intervals in a row shape, the conveying line comprises a walking guide rail arranged at the front end of each stamping device, the walking guide rail is fixedly assembled on the guide rail bracket, and the transfer mechanism is slidably arranged on the walking guide rail.

An oiling mechanism for oiling the plate material part is arranged between the feeding device and the adjacent transfer mechanism.

The feeding mechanism comprises a stacking unit for stacking round plate materials in a stacking mode, a material taking unit for taking the plate materials and a feeding conveying unit for conveying the plate materials, and the material taking mechanism is used for sucking the plate materials on the stacking unit and placing the plate materials on the feeding conveying unit.

The stacker unit is provided with two, two outsides of feeding conveying unit are arranged in respectively to two windrows, it gets the material guide rail including the level arrangement to get the material unit, it keeps unanimous with the length direction between two stacker units to get the length direction of material guide rail, it gets the material slide rather than sliding fit to get to be provided with on the material guide rail, it gets material adjusting part with the level that drives its removal to get the material slide and be connected, it gets the material frame of vertical direction slidable mounting to be provided with on the material slide, it gets material adjusting part that sets up the vertical removal of material frame on the slide to get the material and is connected, the lower extreme of material frame is provided with and inhales the material.

The conveying guide rollers arranged at intervals of the feeding conveying unit are formed, the oiling mechanism is arranged on a conveying path of the feeding conveying unit and is formed by upper and lower oiling rollers, a felt layer adsorbing oil is arranged on the surface of each oiling roller, and the surface of each sheet material piece is oiled when passing between the two oiling rollers.

Upside oiling roller over-and-under type movable mounting, the side of upside oiling roller still is provided with the shower, and the downside of oiling mechanism is provided with the fluid accumulator, and the front and back side of oiling mechanism is provided with A, B sensors that carry out the detection to the material, and feeding conveying unit's end is provided with the C sensor.

The stacking unit comprises a material supporting platform, wherein a material blocking positioning rod and a detection sensor for detecting the amount of residual materials on the material releasing platform are arranged on the periphery of the material supporting platform.

The automatic plate taking and feeding device is characterized by further comprising a double-plate detection mechanism for detecting the number of plate materials taken by the material taking frame at a time, wherein the double-plate detection mechanism is connected with the control unit, and the control unit regulates and controls the running state of each mechanism according to signals detected by the double-plate detection mechanism.

The double-plate detection sensor is composed of two plate sensors which are correspondingly arranged up and down, and the double-plate detection sensor is arranged on a moving path of the material taking frame after the material taking frame takes the materials.

The feeding conveying unit is also provided with a correcting mechanism for correcting the posture of the plate material part, and the correcting mechanism comprises a correcting plate movably installed along the length direction of the conveying guide roller.

The material taking frame comprises a material taking lifting plate horizontally arranged, the material taking lifting plate is slidably mounted on a material taking sliding seat through a material taking guide rod, a material taking cylinder used for driving the material taking lifting plate to move up and down is arranged on the material taking sliding seat, two material taking mounting beams arranged in parallel are arranged on the lower surface of the material taking lifting plate, material taking mounting arms used for mounting material taking suckers are arranged on the material taking mounting beams at intervals, an A-shaped hole is formed in one end of each material taking mounting arm, the hole length direction of the A-shaped hole is consistent with the length of the material taking mounting arms, A bolts matched with the A-shaped holes are arranged on the material taking mounting beams, and the material taking suckers are flo.

The utility model also provides a mechanism that forwards that is used for the automated production of apron, specific scheme is:

the utility model provides a turn on mechanism for automated production of apron, including the commentaries on classics material slide of slidable mounting on walking guide rail, it changes the material adjusting part with the A1 commentaries on classics that its length direction along walking guide rail removed to change the material slide and is connected, change and be provided with the lift installation department along the installation of vertical direction over-and-under type on the material slide, the lift installation department is connected with adjusting its B1 adjusting part that goes up and down, be provided with along direction A slidable mounting's commentaries on classics material mounting bracket on the lift installation department, direction A is the horizontal direction of crossing form arrangement with walking guide rail, change the material mounting bracket and adjust its A3 commentaries on classics material adjusting part along direction A removal and be connected, be provided with the commentaries on classics material frame on classics material mounting bracket, install the.

Transfer material sucking disc subassembly is including changeing the material sucking disc and installing the sucking disc installation arm of changeing the material sucking disc, and sucking disc installation arm one end is rotated and is installed on changeing the work or material rest, is provided with the retaining member that carries out locking to sucking disc installation arm on changeing the work or material rest, changes the material sucking disc and float and install the other end at sucking disc installation arm.

Be provided with B bar hole on the sucking disc installation arm, the hole length direction in B bar hole keeps unanimous with the length direction of sucking disc installation arm, and the retaining member is constituteed for the locking bolt with B bar hole matched with.

It can go up and down to be provided with the lift seat that can go on the commentaries on classics material slide, the lift seat is connected with adjusting its B2 lift adjustment subassembly that goes up and down, the lift installation department includes the lift sub-mount pad that sets up on the lift seat and the lift mounting bracket that sets up on the lift sub-mount pad, the lift mounting bracket is along A direction slidable mounting on the lift sub-mount pad, lift sub-mount pad is connected with B1 lift adjustment subassembly, the lift mounting bracket is connected with adjusting its A2 commentaries on classics material adjustment subassembly that removes along direction A, the length direction of lift mounting bracket and commentaries on classics material mounting bracket all keeps unanimous with direction A, the one end of commentaries on classics material mounting bracket sets up commentaries on classics material frame, the other end of commentaries on classics.

A fixed rack is arranged on the walking guide rail, the A1 material transferring adjusting assembly comprises an A1 driving motor fixedly mounted on a material transferring sliding seat, an A1 driving gear is assembled on an A1 driving motor, and the A1 driving gear is meshed with the A fixed rack.

The B2 lifting adjusting component comprises a lifting cylinder, a piston rod of the lifting cylinder is connected with a lifting seat, and a cylinder body of the lifting cylinder is fixedly installed on the material transferring sliding seat.

The B1 lifting adjusting component comprises a B2 driving motor fixedly mounted on the lifting seat, a fixed sliding block is arranged on the lifting auxiliary mounting seat, the B2 driving motor is connected with an adjusting screw rod vertically and rotatably mounted on the lifting seat, and the adjusting screw rod and the fixed sliding block form a screw rod nut adjusting mechanism.

The lifting mounting frame is fixedly provided with a material transferring rack, the A2 driving mechanism comprises an A2 driving motor fixedly mounted on the lifting auxiliary mounting seat, an A2 driving motor is provided with an A2 driving gear, the A2 driving gear is meshed with the material transferring rack, and the length direction of the material transferring rack is consistent with the A direction.

A3 changes material adjusting part includes the drive belt of installation on the lift mount frame, is provided with the A connecting block on the upper band body of drive belt, is provided with the B connecting block on the lower band body of drive belt, and the A connecting block links firmly mutually with the vice mount pad that goes up and down, and the B connecting block links firmly mutually with the transition slide.

The material transferring frame comprises two material transferring mounting pieces which are arranged in parallel, the length direction of the material transferring mounting pieces is consistent with that of the walking slide rail, two sucking disc mounting arms at the two ends of the material transferring mounting pieces are arranged in a 'less' mode, and clamping openings of the mounting arms point to the outer sides of the material transferring mounting pieces.

An electromagnet assembly is further arranged on the material transferring frame. The electromagnet assembly is arranged in the middle of the material transferring frame, and the material transferring sucker is arranged on the periphery of the electromagnet assembly.

The utility model provides a pair of automatic production equipment of internal cover board improves through the stamping forming device to current, increases devices such as transfer chain, realizes the automated production of apron, provides production efficiency and yields.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a schematic view of a take-off unit;

FIG. 4 is a side view of FIG. 3;

FIG. 5 is a schematic view of a transfer mechanism;

FIG. 6 is a schematic view of FIG. 5 with a portion of the cover removed;

the corresponding relation of all the reference numbers is as follows: 10-a stamping device and 20-a conveying line;

30-a transfer mechanism, 311-a material transferring sliding seat, 312-a lifting seat, 313-a lifting auxiliary mounting seat, 314-a lifting mounting frame, 315-a material loading mounting frame, 316-a transition sliding seat, 317-a material transferring frame, 331-a sucker mounting arm and 332-a material transferring sucker;

40-feeding mechanism, 41-stacking unit, 42-taking unit, 43-oiling mechanism, 421-taking guide rail, 422-taking slide seat, 423-taking frame, 424-taking lifting plate, 425-taking mounting arm and 426-taking sucker.

Detailed Description

In order to make the objects and advantages of the present invention more apparent, the present invention will be described in detail with reference to the following embodiments. It is to be understood that the following text is only intended to describe one or several particular embodiments of the invention, and does not strictly limit the scope of the claims specifically claimed.

The utility model provides an automatic production facility of interior apron, including the transfer chain 20 that is used for realizing that the plate material is carried, the interval is provided with the stamping device 10 that is used for realizing the plate material shaping on the transport route of transfer chain 20, is provided with between the adjacent stamping device 10 and passes on mechanism 30 to the material, and the head end of transfer chain 20 is provided with the feed mechanism 40 that is used for supplying the plate material, and the tail end of transfer chain 20 is provided with the discharge apparatus that is used for unloading the product after the shaping. The utility model discloses an improvement of going on the basis of the embodiment of present artifical commentaries on classics material, consequently stamping device 10's implementation and present keeping unanimous. By adding the conveying line 20, the transfer mechanism 30, the feeding device and the like, the automatic production of the cover plate is realized, and the production efficiency and the yield are improved.

The further scheme is as follows: each stamping device 10 is the line form interval and arranges, and transfer chain 20 is including the walking guide rail that is located the setting of each stamping device 10 front end, and walking guide rail fixed assembly is on rail brackets, and the material mechanism is expected in the commentaries on classics of transmitting mechanism 30 slidable mounting on walking guide rail, interval setting, can improve production efficiency.

An oiling mechanism 43 for oiling the sheet material member is provided between the feeding device and the adjacent transfer mechanism 30. Oil is smeared on the plate, so that damage to the plate in the machining process is avoided. The feeding mechanism 40 includes a stacking unit 41 for stacking round plate members, a material taking unit 42 for taking and taking the plate members, and a feeding and conveying unit for conveying the plate members, and the material taking mechanism is used for sucking and placing the plate members on the stacking unit 41 on the feeding and conveying unit. The two stacker units 41 are arranged, the two stacker units 41 are respectively arranged at two outer sides of the feeding and conveying unit, the material taking unit 42 comprises a horizontally arranged material taking guide rail 421, the length direction of the material taking guide rail 421 is consistent with the length direction between the two stacker units 41, a material taking slide 422 in sliding fit with the material taking guide rail 421 is arranged on the material taking guide rail 421, the material taking slide 422 is connected with a horizontal material taking adjusting assembly driving the material taking slide 422 to move, a material taking frame 423 installed in a sliding mode in the vertical direction is arranged on the material taking slide 422, a vertical material taking adjusting assembly adjusting the material taking frame 423 to vertically move is arranged on the material taking slide 422 to be connected with the material taking slide, and a suction plate material taking sucker 426 is arranged. By implementing the scheme, the production efficiency is improved, and the halt caused by intermittent feeding is avoided.

The conveying guide rollers arranged at intervals of the feeding conveying unit are formed, the oiling mechanism 43 is arranged on a conveying path of the feeding conveying unit, the oiling mechanism 43 is formed by oiling rollers arranged up and down, a felt layer adsorbing oil is arranged on the surface of each oiling roller, and the surface of a plate piece is oiled when passing between the two oiling rollers. Upside oiling roller over-and-under type movable mounting, the side of upside oiling roller still is provided with the shower, and the downside of oiling mechanism 43 is provided with the fluid accumulator, and the front and back side of oiling mechanism 43 is provided with the A, B sensor that detects the material, and the end of feeding conveying unit is provided with the C sensor, realizes handling the reliable fat liquoring of panel material spare.

The stacking unit 41 includes a material supporting table, and a material blocking positioning rod and a detection sensor for detecting the amount of remaining material on the material releasing table are arranged on the periphery of the material supporting table. The plate material taking device is characterized by further comprising a double-plate detection mechanism for detecting the number of plate materials taken by the material taking frame 423 at a time, the double-plate detection mechanism is connected with the control unit, and the control unit regulates and controls the running state of each mechanism according to signals detected by the double-plate detection mechanism. The biplate detection sensor is composed of two plate sensors which are correspondingly arranged up and down, and the biplate detection sensor is arranged on a moving path of the material taking frame 423 after the material taking. The material is prevented from being taken by mistake, and the reliability of the material taking is ensured.

The feeding conveying unit is also provided with a correcting mechanism for correcting the posture of the plate material part, and the correcting mechanism comprises a correcting plate movably installed along the length direction of the conveying guide roller. The position that gets the material at every turn is guaranteed to be fixed, improves the accurate nature of material loading.

Get the work or material rest 423 and get material lifter plate 424 including what the level was arranged, get material lifter plate 424 through getting material guide arm slidable mounting get on material slide 422, get and be provided with on the material slide 422 and be used for ordering about the material cylinder that gets that material lifter plate 424 reciprocated, get and be provided with two parallel arrangement's the material installation roof beam of getting on the lower face of material lifter plate 424, get and be provided with the material installation arm 425 that is used for installing and gets material sucking disc 426 at the interval on the material installation roof beam, get material installation arm 425 one end and seted up A bar hole, the hole length direction in A bar hole keeps the unanimity with the length of getting material installation arm 425, get and be provided with the A bolt with A bar hole matched with on the material installation roof beam.

The transfer mechanism 30 comprises a transfer slide seat 311 which is slidably mounted on the traveling guide rail, the transfer slide seat 311 is connected with an A1 transfer adjusting component which drives the transfer slide seat to move along the length direction of the traveling guide rail, a lifting installation part which is installed in a lifting mode along the vertical direction is arranged on the transfer slide seat 311, the lifting installation part is connected with a B1 adjusting component which adjusts the lifting of the lifting installation part, a transfer mounting frame which is slidably mounted along the direction A is arranged on the lifting installation part, the direction A is the horizontal direction which is intersected with the traveling guide rail and arranged, the transfer mounting frame is connected with an A3 transfer adjusting component which adjusts the transfer mounting frame to move along the direction A, a transfer frame 317 is arranged on the transfer mounting frame, and a transfer sucker 332 component which is used for sucking plate materials is mounted on the. The reliable demand of transferring and taking the plate material piece is realized.

The material transferring sucker 332 component comprises a material transferring sucker 332 and a sucker mounting arm 331 for mounting the material transferring sucker 332, one end of the sucker mounting arm 331 is rotatably mounted on the material transferring frame 317, a locking member for locking the sucker mounting arm 331 is arranged on the material transferring frame 317, and the material transferring sucker 332 is arranged at the other end of the sucker mounting arm 331 in a floating mode. The sucking disc installation arm 331 is provided with a B strip-shaped hole, the hole length direction of the B strip-shaped hole is consistent with the length direction of the sucking disc installation arm 331, and the locking piece is composed of a locking bolt matched with the B strip-shaped hole. It can go up and down to be provided with the lift seat 312 on the material slide 311 to change, lift seat 312 is connected with the B2 lift adjustment subassembly of adjusting that it goes up and down, the lift installation department includes the lift sub-mount pad 313 that sets up on the lift seat 312 and the lift mounting bracket 314 that sets up on the lift sub-mount pad 313, lift mounting bracket 314 is along A direction slidable mounting on lift sub-mount pad 313, lift sub-mount pad 313 is connected with B1 lift adjustment subassembly, lift mounting bracket 314 is connected with the material adjustment subassembly of adjusting its A2 commentaries on classics that moves along direction A, the length direction of lift mounting bracket 314 and commentaries on classics material mounting bracket all keeps unanimous with direction A, the one end of commentaries on classics material mounting bracket sets up commentaries on classics material 317, the other end of commentaries on classics material mounting bracket is provided with transition slide 316. A fixed rack is arranged on the walking guide rail, the A1 material transferring adjusting component comprises an A1 driving motor fixedly mounted on the material transferring sliding seat 311, an A1 driving gear is assembled on the A1 driving motor, and the A1 driving gear is meshed with the A fixed rack. The B2 lifting adjusting component comprises a lifting cylinder, a piston rod of the lifting cylinder is connected with the lifting seat 312, and a cylinder body of the lifting cylinder is fixedly installed on the material transferring sliding seat 311. The B1 lifting adjusting component comprises a B2 driving motor fixedly mounted on the lifting seat 312, a fixed sliding block is arranged on the lifting auxiliary mounting seat 313, the B2 driving motor is connected with an adjusting screw rod vertically and rotatably mounted on the lifting seat 312, and the adjusting screw rod and the fixed sliding block form a screw rod nut adjusting mechanism. The lifting mounting frame 314 is fixedly provided with a material transferring rack, the A2 driving mechanism comprises an A2 driving motor fixedly mounted on the lifting auxiliary mounting seat 313, an A2 driving gear is assembled on the A2 driving motor, the A2 driving gear is meshed with the material transferring rack, and the length direction of the material transferring rack is consistent with the A direction. A3 changes material adjusting part includes the drive belt of installation on the lift mounting bracket 314, is provided with the A connecting block on the upper band body of drive belt, is provided with the B connecting block on the lower band body of drive belt, and the A connecting block links firmly mutually with lift pair mount pad 313, and the B connecting block links firmly mutually with transition slide 316. By implementing the scheme, the plate members can be stably, reliably and quickly transferred among the stamping devices 10, and the accuracy of transferring and feeding is ensured.

The material transferring frame 317 comprises two material transferring mounting pieces which are arranged in parallel, the length direction of the material transferring mounting pieces is consistent with that of the walking slide rail, two sucker mounting arms 331 at the two ends of the material transferring mounting pieces are arranged in a shape of < ", and clamping openings of the mounting arms point to the outer sides of the material transferring mounting pieces. The material transferring frame 317 is also provided with an electromagnet assembly. The electromagnet assembly is arranged in the middle of the material transferring frame 317, and the material transferring sucker 332 is arranged on the periphery of the electromagnet assembly. The reliability of the absorption of the sheet material piece is improved, and the unloading of the waste materials after stamping is convenient to realize.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention. The structures, devices, and methods of operation of the present invention, not specifically described and illustrated, are generally practiced by those of ordinary skill in the art without specific recitation or limitation.

Claims (10)

1. A transfer mechanism for automated production of cover plates, characterized in that: including slidable mounting change material slide on walking guide rail, it changes material adjusting part with its A1 who removes along walking guide rail's length direction of drive to change the material slide and is connected, it is provided with the lift installation department along vertical direction over-and-under type installation on the material slide to change, the lift installation department is connected with the B1 adjusting part that adjusts it and go up and down, be provided with on the lift installation department along direction A slidable mounting's commentaries on classics material mounting bracket, direction A is the horizontal direction of crossing the form arranging with walking guide rail, it changes material adjusting part with the A3 who adjusts its removal along direction A and is connected, it is provided with the commentaries on classics work or material rest on the commentaries on classics material mounting bracket, it installs the commentaries on classics material sucking.

2. A transfer mechanism for the automated production of lids as claimed in claim 1, wherein: transfer material sucking disc subassembly is including changeing the material sucking disc and installing the sucking disc installation arm of changeing the material sucking disc, and sucking disc installation arm one end is rotated and is installed on changeing the work or material rest, is provided with the retaining member that carries out locking to sucking disc installation arm on changeing the work or material rest, changes the material sucking disc and float and install the other end at sucking disc installation arm.

3. A transfer mechanism for the automated production of lids as claimed in claim 1, wherein: be provided with B bar hole on the sucking disc installation arm, the hole length direction in B bar hole keeps unanimous with the length direction of sucking disc installation arm, and the retaining member is constituteed for the locking bolt with B bar hole matched with.

4. A transfer mechanism for the automated production of lids as claimed in claim 1, wherein: it can go up and down to be provided with the lift seat that can go on the commentaries on classics material slide, the lift seat is connected with adjusting its B2 lift adjustment subassembly that goes up and down, the lift installation department includes the lift sub-mount pad that sets up on the lift seat and the lift mounting bracket that sets up on the lift sub-mount pad, the lift mounting bracket is along A direction slidable mounting on the lift sub-mount pad, lift sub-mount pad is connected with B1 lift adjustment subassembly, the lift mounting bracket is connected with adjusting its A2 commentaries on classics material adjustment subassembly that removes along direction A, the length direction of lift mounting bracket and commentaries on classics material mounting bracket all keeps unanimous with direction A, the one end of commentaries on classics material mounting bracket sets up commentaries on classics material frame, the other end of commentaries on classics.

5. A transfer mechanism for the automated production of lids as claimed in claim 1, wherein: a fixed rack is arranged on the walking guide rail, the A1 material transferring adjusting assembly comprises an A1 driving motor fixedly mounted on a material transferring sliding seat, an A1 driving gear is assembled on an A1 driving motor, and the A1 driving gear is meshed with the A fixed rack.

6. A transfer mechanism for the automated production of lids as claimed in claim 1, wherein: the B2 lifting adjusting component comprises a lifting cylinder, a piston rod of the lifting cylinder is connected with a lifting seat, and a cylinder body of the lifting cylinder is fixedly installed on the material transferring sliding seat.

7. A transfer mechanism for the automated production of lids as claimed in claim 1, wherein: the B1 lifting adjusting component comprises a B2 driving motor fixedly mounted on the lifting seat, a fixed sliding block is arranged on the lifting auxiliary mounting seat, the B2 driving motor is connected with an adjusting screw rod vertically and rotatably mounted on the lifting seat, and the adjusting screw rod and the fixed sliding block form a screw rod nut adjusting mechanism.

8. A transfer mechanism for the automated production of lids as claimed in claim 1, wherein: the lifting mounting frame is fixedly provided with a material transferring rack, the A2 driving mechanism comprises an A2 driving motor fixedly mounted on the lifting auxiliary mounting seat, an A2 driving motor is provided with an A2 driving gear, the A2 driving gear is meshed with the material transferring rack, and the length direction of the material transferring rack is consistent with the A direction.

9. A transfer mechanism for the automated production of lids as claimed in claim 1, wherein: a3 changes material adjusting part includes the drive belt of installation on the lift mount frame, is provided with the A connecting block on the upper band body of drive belt, is provided with the B connecting block on the lower band body of drive belt, and the A connecting block links firmly mutually with the vice mount pad that goes up and down, and the B connecting block links firmly mutually with the transition slide.

10. A transfer mechanism for the automated production of lids as claimed in claim 1, wherein: the material transferring frame comprises two material transferring mounting pieces which are arranged in parallel, the length direction of the material transferring mounting pieces is consistent with that of the walking slide rail, two sucking disc mounting arms at the two ends of the material transferring mounting pieces are arranged in a 'less' mode, and clamping openings of the mounting arms point to the outer sides of the material transferring mounting pieces.

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