CN215879616U - Automatic processing device for glass lifter parts - Google Patents

Abstract

The utility model discloses an automatic processing device for glass lifter parts, which comprises a support frame, wherein a driving piece is fixedly connected to the upper side of the support frame, the driving piece is connected with a first template positioned below the driving piece through a driving telescopic rod, a second template is arranged below the first template on the support frame, a template linkage mechanism and a pushing mechanism are arranged between the first template and the second template, the template linkage mechanism is fixedly connected with the first template, the pushing mechanism is connected to the support frame, and after a workpiece between the first template and the second template is subjected to phase shifting processing, the template linkage mechanism is matched with the pushing mechanism to move the workpiece out of the second template. According to the device, the first template corresponding to the second template is connected to the telescopic rod of the driving piece, the template linkage mechanism is arranged on the first template, the pushing mechanism is connected to the support frame, and the machined part is automatically moved out of the second template along with the mutual movement of the first template and the second template under the cooperation of the template linkage mechanism and the pushing mechanism, so that the working efficiency is improved.

Description

Automatic processing device for glass lifter parts

Technical Field

The utility model relates to the technical field of glass lifter part processing, in particular to an automatic processing device for glass lifter parts.

Background

In the process of using the die to process the glass lifter part, most of processed workpieces are processed in the next procedure by manually taking out the workpieces. This manual removal is laborious and can lead to a low working efficiency, and therefore a device which has a simple structure and can replace the manual removal of the workpiece is required to solve this problem.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model provides the automatic processing device of the glass lifter part, which has a simple structure and can automatically move out of the die after a processed part is processed in the die.

In order to solve the technical problems, the utility model solves the technical problems by the following technical scheme:

the utility model provides an automatic processing device of glass-frame riser part, includes the support frame, support frame upside fixedly connected with driving piece, the driving piece is connected with the first template that is located the driving piece below through drive telescopic link, the below of first template is equipped with the second template on the support frame, be provided with template link gear, pushing mechanism between first template and the second template, template link gear and first template fixed connection, pushing mechanism connects on the support frame, behind the work piece between first template and the phase shift of second template move processing, template link gear cooperation pushing mechanism makes the work piece shift out the second template. According to the automatic processing device for the glass lifter parts, the first template corresponding to the second template is connected to the telescopic rod of the driving piece, the template linkage mechanism is arranged on the first template, the pushing mechanism matched with the template linkage mechanism is connected to the support frame, and the processed parts are automatically moved out of the second template along with the mutual movement of the first template and the second template under the matching of the template linkage mechanism and the pushing mechanism, so that automatic discharging is realized, and the working efficiency is improved.

Preferably, template link gear is including linkage connecting piece, rotation ejector pad, spring assembly, locating part, linkage connecting piece one end and first template fixed connection, and its tip after extending to first template side is connected with rotation ejector pad through the pivot, linkage connecting piece tip fixed connection and rotation ejector pad complex locating part, the tip that the pivot was kept away from to the rotation ejector pad is equipped with the push face, when rotating the ejector pad and rotating to the locating part upside and offset, the push face is by the setting of low direction height along the direction that the second template was kept away from gradually to the level, the tip of keeping away from the pivot in the rotation ejector pad is connected to spring assembly one end, and the other end is connected at linkage connecting piece tip, the elastic connection portion between the spring assembly both ends offsets with the pivot downside.

Preferably, the pushing mechanism comprises a fixed box, a transmission part, an ejection part and an elastic part, the fixed box is connected to the support frame, a transmission channel matched with the transmission part and capable of moving back and forth is arranged in the fixed box, the transmission part comprises a transmission wheel arranged corresponding to the rotary push block and a transmission rod horizontally penetrating into the fixed box, the transmission wheel is fixedly connected with the transmission rod, the ejection part comprises a limiting block connected with the transmission rod and an ejection rod fixedly connected with the limiting block, the ejection rod penetrates out of the fixed box to one side close to the second template, the transmission channel comprises a first channel matched with the transmission rod, a second channel matched with the limiting block and a third channel matched with the ejection rod, the height of the second channel is greater than that of the first channel and the third channel, and the ejection rod penetrates through the elastic part to enable one end of the elastic part to abut against the limiting block, the other end of the first template abuts against the end face, close to the second template, of the second channel, when the first template descends, the pushing block is rotated to abut against the driving wheel and then upwards rotated until the pushing block descends to the lower side of the driving wheel and then downwards rotated to reset, and when the first template ascends again, the pushing face of the pushing block is rotated to drive the driving wheel and the ejector piece to move towards the position close to the second template.

Preferably, the linkage connecting piece includes linkage horizontal pole, linkage montant, linkage support, the linkage montant is connected and is kept away from first template one end in the linkage horizontal pole, the linkage support is fixed at linkage montant lower extreme, and pivot, locating part and the spring assembly that are connected with the rotation ejector pad are all connected on the linkage support.

Preferably, the limiting member is a rod-shaped structure.

Preferably, the ejector rod is of a cylindrical structure.

Preferably, the driving member is a driving cylinder.

Compared with the prior art, the utility model has the beneficial effects that:

according to the automatic processing device for the glass lifter parts, the first template corresponding to the second template is connected to the telescopic rod of the driving piece, the template linkage mechanism is arranged on the first template, the pushing mechanism matched with the template linkage mechanism is connected to the support frame, and the processed parts are automatically moved out of the second template along with the mutual movement of the first template and the second template under the matching of the template linkage mechanism and the pushing mechanism, so that automatic discharging is realized, and the working efficiency is improved.

Drawings

Fig. 1 is a first structural diagram of the present invention.

FIG. 2 is a second schematic structural diagram of the present invention.

FIG. 3 is a schematic structural diagram of the device for removing the side shell of the fixed box according to the present invention.

FIG. 4 is a schematic structural view of the template linkage mechanism and the pushing mechanism of the present invention.

FIG. 5 is a schematic structural diagram of the template linkage mechanism of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 5 in detail, an automatic processing device for glass lifter parts comprises a support frame 1, the support frame 1 is a structure in which a plurality of layers are fixed in the vertical direction, a driving member 2 is fixedly connected to the upper side of the support frame 1, the driving member 2 is a driving cylinder, the driving member 2 is connected with a first template 3 positioned below the driving member 2 through a driving telescopic rod, a second template 4 is arranged below the first template 3 on the support frame 1, the second template 4 is fixed on the support frame 1, a template linkage mechanism 5 and a pushing mechanism 6 are arranged between the first template 3 and the second template 4, the template linkage mechanism 5 is fixedly connected with the first template 3, the pushing mechanism 6 is connected on the support frame 1, the first template 3 and the second template 4 move mutually and approach or separate from each other, thereby processing the workpiece between the two, and after the processing is finished, the template linkage mechanism 5 is matched with the pushing mechanism 6 to move the workpiece out of the second template 4.

The template linkage mechanism 5 comprises a linkage connecting piece 51, a rotating push block 52, a spring group 53 and a limiting piece 54, one end of the linkage connecting piece 51 is fixedly connected with the first template 3, the end part of the linkage connecting piece extending to the side of the first template 3 is connected with the rotating push block 52 through a rotating shaft, the linkage connecting piece 51 comprises a linkage cross rod 511, a linkage vertical rod 512 and a linkage support 513, the linkage cross rod 511 is horizontally arranged, one end of the linkage cross rod 511 is fixedly connected with the first template 3, the other end of the linkage cross rod 512 is fixedly connected with the linkage vertical rod 512, the linkage vertical rod 512 is connected with the end, far away from the first template 3, of the linkage cross rod 511, the linkage support 513 is fixed at the lower end of the linkage vertical rod 512, the rotating shaft, the limiting piece 54 and the spring group 53 which are connected with the rotating push block 52 are all connected on the linkage support 513, and the linkage support is of a block structure. A limiting member 54 matched with the rotating push block 52 is fixedly connected to the end of the linkage connecting member 51, i.e. the linkage support 513, and the limiting member 54 is of a rod-shaped structure.

The end of the rotating push block 52 far from the rotating shaft is provided with a push surface 521, when the rotating push block 52 rotates to the upper side of the limiting member 54 and abuts against the limiting member 54, the push surface 521 is arranged along the direction horizontally and gradually far from the second template 4 from low to high, i.e. the inclined surface inclined downwards and rightwards in fig. 4, one end of the spring set 53 is connected to the end of the rotating push block 52 far from the rotating shaft, the other end of the spring set is connected to the end of the linkage connecting member 51, i.e. the linkage support 513, and the elastic connecting part between the two ends of the spring set 53 abuts against the lower side of the rotating shaft, so that the spring set 53 can always keep the rotating push block 52 in a clockwise rotation trend by means of the rotating shaft, and the rotating push block 52 is kept abutting against the limiting member 54 without other external forces.

The pushing mechanism 6 comprises a fixed box 61, a transmission part 62, an ejecting part 63 and an elastic part 64, the fixed box 61 is connected on the support frame 1, a transmission channel matched with the transmission part 62 and the ejecting part 63 to move back and forth is arranged in the fixed box, the transmission part 62 comprises a transmission wheel 621 arranged corresponding to the rotary pushing block 52 and a transmission rod 622 horizontally penetrating into the fixed box 61, the transmission wheel 621 is fixedly connected with the transmission rod 622, the ejecting part 63 comprises a limit block 631 connected with the transmission rod 622 and an ejecting rod 632 fixedly connected with the limit block 631, the ejecting rod 632 penetrates out of the fixed box 61 to one side close to the second template 4, the transmission channel comprises a first channel matched with the transmission rod 622, a second channel 65 matched with the limit block and a third channel matched with the ejecting rod 632, the height of the second channel 65 is greater than the height of the first channel and the height of the third channel, the height of the channels is the distance between the top surface and the bottom surface of the channels in the vertical direction, the ejecting rod 632 penetrates through the elastic member 64, so that one end of the elastic member 64 abuts against the limiting block 631, the other end abuts against the end surface, close to the second die plate 4, of the second channel 65, the elastic member 64 is a spiral surrounding spring, when the first die plate 3 descends, the rotating push block 52 abuts against the transmission wheel 621 and then rotates upwards, until the rotating push block 52 descends to the lower side of the transmission wheel 621 and then rotates downwards to reset, when the first die plate 3 ascends again, the pushing surface 521 of the rotating push block 52 drives the transmission wheel 621 and the ejecting member 63 to move towards the position close to the second die plate 4.

Wherein the ejector rod 632 is a cylindrical structure.

In operation, the driving member 2 drives the first mold plate 3 to descend so as to cooperate with the second mold plate 4 to press-machine the glass lifter part located on the second mold plate 4, wherein the glass lifter part is called a workpiece. When the first template 3 descends, the rotary push block 52 on the template linkage mechanism 5 descends synchronously, the rotary push block 52 abuts against the transmission wheel 621 and then rotates upwards, meanwhile, the linkage vertical rod 512 and the linkage support 513 continue to move downwards relative to the transmission wheel 621, until the rotary push block 52 descends to the lower side of the transmission wheel 621, the rotary push block 52 is separated from the transmission wheel 621, the rotary push block 52 rotates downwards under the pulling force of the spring group 53 and resets, in the process, the first template 3 and the second template 4 complete the press processing of the workpiece, then the driving part 2 drives the first template 3 to ascend, at the moment, the rotary push block 52 abuts against the limiting part 54 and is matched, the pushing surface 521 of the rotary push block 52 drives the transmission wheel 621, the transmission rod 622 and the ejection part 63 to move rightwards, namely, to move towards the position close to the second template 4, the processed workpiece on the second template 4 is ejected, and the purpose of automatic ejection after the processing is achieved, the working efficiency is improved.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims (7)

1. An automatic processing device for a glass lifter part comprises a support frame (1), a driving piece (2) is fixedly connected with the upper side of the support frame (1), the driving piece (2) is connected with a first template (3) positioned below the driving piece (2) through a driving telescopic rod, a second template (4) is arranged below the first template (3) on the supporting frame (1), it is characterized in that a template linkage mechanism (5) and a pushing mechanism (6) are arranged between the first template (3) and the second template (4), the template linkage mechanism (5) is fixedly connected with the first template (3), the pushing mechanism (6) is connected on the support frame (1), after the first template (3) and the second template (4) move and process the workpiece between the two templates, the template linkage mechanism (5) is matched with the pushing mechanism (6) to move the workpiece out of the second template (4).

2. The automatic processing device of the glass lifter part according to claim 1, wherein the template linkage mechanism (5) comprises a linkage connecting piece (51), a rotary pushing block (52), a spring set (53) and a limiting piece (54), one end of the linkage connecting piece (51) is fixedly connected with the first template (3), the end part of the linkage connecting piece (51) extending to the side of the first template (3) is connected with the rotary pushing block (52) through a rotating shaft, the end part of the linkage connecting piece (51) is fixedly connected with the limiting piece (54) matched with the rotary pushing block (52), the end part of the rotary pushing block (52) far away from the rotating shaft is provided with a pushing surface (521), when the rotary pushing block (52) rotates to the upper side of the limiting piece (54) and is abutted against, the pushing surface (521) is arranged along the direction horizontally and gradually far away from the second template (4) from the lower direction, one end of the spring set (53) is connected with the end part of the rotary pushing block (52) far away from the rotating shaft, the other end is connected with the end part of the linkage connecting piece (51), and the elastic connecting part between the two ends of the spring group (53) is propped against the lower side of the rotating shaft.

3. The automatic processing device of the glass lifter part as claimed in claim 2, wherein the pushing mechanism (6) comprises a fixed box (61), a transmission member (62), an ejecting member (63), and an elastic member (64), the fixed box (61) is connected to the supporting frame (1), a transmission channel for matching the transmission member (62) and the ejecting member (63) to move back and forth is arranged in the fixed box, the transmission member (62) comprises a transmission wheel (621) corresponding to the rotary pushing block (52) and a transmission rod (622) horizontally penetrating into the fixed box (61), the transmission wheel (621) is fixedly connected with the transmission rod (622), the ejecting member (63) comprises a limit block (631) connected with the transmission rod (622) and an ejecting rod (632) fixedly connected with the limit block (631), and the ejecting rod (632) penetrates out of the fixed box (61) to a side close to the second template (4), the transmission channels comprise a first channel matched with the transmission rod (622), a second channel (65) matched with the limiting block (631) and a third channel matched with the ejection rod (632), the height of the second channel (65) is greater than the height of the first channel and the height of the third channel, the ejector rod (632) penetrates through the elastic piece (64) to enable one end of the elastic piece (64) to be abutted against the limiting block (631) and the other end of the ejector rod to be abutted against the end face, close to the second template (4), in the second channel (65), when the first template (3) descends, the rotating push block (52) abuts against the transmission wheel (621) and then rotates upwards until the rotating push block (52) descends to the lower side of the transmission wheel (621) and then rotates downwards to reset, and when the first template (3) ascends again, the push surface (521) of the rotating push block (52) drives the transmission wheel (621) and the ejector piece (63) to move towards the position close to the second template (4).

4. The automatic processing device of the glass lifter part as claimed in claim 2, wherein the linkage connecting piece (51) comprises a linkage cross rod (511), a linkage vertical rod (512) and a linkage support (513), the linkage vertical rod (512) is connected to one end of the linkage cross rod (511) far away from the first template (3), the linkage support (513) is fixed at the lower end of the linkage vertical rod (512), and a rotating shaft, a limiting piece (54) and a spring set (53) which are connected with the rotating push block (52) are all connected to the linkage support (513).

5. The automatic glass-lifter component machining device according to claim 2, characterized in that the stop member (54) is a rod-like structure.

6. An automatic glass-lifter part-machining device according to claim 3, characterized in that the ejector rod (632) is of a cylindrical structure.

7. An automatic processing device for glass lifter parts according to claim 1, characterized in that the driving member (2) is a driving cylinder.

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