CN219188292U - Shielding case processing equipment - Google Patents

Abstract

The utility model discloses shielding case processing equipment, and relates to the technical field of metal processing. The shielding cover processing equipment comprises a punching mechanism, a first conveying mechanism, a feeding mechanism, a second conveying mechanism and a material sucking manipulator; the material bearing piece is arranged on one side of the punching mechanism and is provided with a bearing station for bearing the workpiece; the first material sucking piece and the second material sucking piece are respectively arranged at two ends of the connecting rod, the first driving part can drive the connecting rod to move so as to drive the first material sucking piece to move to the upper part of the feeding station and the upper part of the bearing station, and can drive the second material sucking piece to move to the upper part of the bearing station and the punching mechanism, and the first material sucking piece and the second material sucking piece can both suck and put down a workpiece; the material sucking manipulator is arranged on one side of the feeding mechanism, can take back glue on the second conveying mechanism and can attach the back glue to a workpiece on the bearing station. The shielding cover processing equipment can improve production efficiency and reduce labor cost.

Description

Shielding case processing equipment

Technical Field

The utility model relates to the technical field of metal processing, in particular to shielding case processing equipment.

Background

With the continuous development of the automobile field, electronic components in the automobile are continuously increased, and a shielding cover is widely applied to the automobile field and is a tool for shielding electronic signals, and the shielding cover has the effects of shielding the influence of external electromagnetic waves on an internal circuit and outward radiation of the electromagnetic waves generated in the interior; when producing the shield cover, the working procedures such as punching and bending are carried out on the material belt through the punching device to form a plastic-sucking semi-finished product, then the plastic-sucking semi-finished product is manufactured into a complete shield cover for shipment after being attached with the PSA back glue, and then the shield cover is cut.

Disclosure of Invention

The present utility model aims to solve at least one of the technical problems existing in the prior art. Therefore, the utility model provides shielding case processing equipment which can improve the production efficiency, reduce the labor cost and meet the production requirement.

According to an embodiment of the utility model, a shield can processing apparatus includes: the punching mechanism is used for carrying out punching operation on the workpiece; the first conveying mechanism is provided with a feeding station and is used for conveying the workpiece to the feeding station; the feeding mechanism comprises a material moving assembly and a material bearing piece, wherein the material bearing piece is arranged on one side of the punching mechanism and is provided with a bearing station for bearing a workpiece; the material moving assembly comprises a first driving part, a first material sucking part, a second material sucking part and a connecting rod, wherein the first material sucking part and the second material sucking part are respectively arranged at two ends of the connecting rod, the first driving part is in driving connection with the connecting rod and can drive the connecting rod to move so as to drive the first material sucking part to move to the upper part of the feeding station and the upper part of the bearing station, and can drive the second material sucking part to move to the upper part of the bearing station and the punching mechanism, and the first material sucking part and the second material sucking part can both suck and put down a workpiece; the second conveying mechanism is arranged on one side of the material bearing piece and is used for conveying back glue; the material sucking manipulator is arranged on one side of the feeding mechanism, and can take away the back glue on the second conveying mechanism and attach the back glue to the workpiece on the bearing station.

The shield cover processing equipment provided by the utility model has at least the following beneficial effects: the first conveying mechanism conveys the workpiece to the feeding station, as the first material sucking piece and the second material sucking piece are respectively arranged at the two ends of the connecting rod, the first driving part can drive the connecting rod to move, so that the first material sucking piece positioned on the connecting rod is positioned above the feeding station, and the second material sucking piece can be positioned above the material bearing piece, the first material sucking piece can suck the workpiece at the feeding station, the second material sucking piece can suck the workpiece at the bearing station, and the first driving part drives the connecting rod to move, so that the first material sucking piece is positioned above the bearing station, and the second material sucking piece can be positioned at the punching mechanism, and the workpiece sucked by the first material sucking piece is positioned at the bearing station, and the workpiece sucked by the second material sucking piece is positioned at the punching mechanism, so that the punching mechanism performs punching operation on the workpiece; after the first material sucking piece places the workpiece at the bearing station, the material sucking manipulator moves to the second conveying mechanism through the driving working end, so that the material sucking manipulator can suck the back glue and move the back glue to the position above the bearing station, and the material sucking manipulator can paste the back glue to the workpiece at the bearing station; this shield cover processing equipment degree of automation is higher, can inhale material spare and second through first and inhale the synchronous work of material spare to the cooperation is inhaled the material manipulator and is automatic to be inhaled the gum and laminate the gum on the work piece, in order to improve the efficiency of production, reduce the human cost, thereby satisfy the production demand.

According to some embodiments of the present utility model, the first conveying mechanism, the material bearing member and the punching mechanism are sequentially arranged along a first horizontal direction, and the connecting rod is arranged along the first horizontal direction in an extending manner; the first driving part comprises a horizontal driving piece which is in driving connection with the connecting rod and is used for driving the connecting rod to move back and forth along the first horizontal direction.

According to some embodiments of the utility model, the first driving part further comprises a vertical driving part, wherein the vertical driving part is in driving connection with the connecting rod and is used for driving the connecting rod to move along the vertical direction.

According to some embodiments of the present utility model, the horizontal driving member includes a first driving structure, a sliding rail and a sliding block, where the sliding block is slidably disposed on the sliding rail and is in driving connection with the first driving structure, the sliding rail is disposed to extend along a first horizontal direction, and the first driving structure can drive the sliding block to slide on the sliding rail; the vertical driving piece comprises a second driving structure and a pushing block, wherein the second driving structure is arranged on the sliding block and connected with the pushing block, the second driving structure can drive the pushing block to move along the vertical direction, and the pushing block is connected with the connecting rod.

According to some embodiments of the utility model, the first conveying mechanism comprises a third driving structure, a first conveying belt, a first driving shaft and a plurality of first driven shafts, the first conveying belt is sleeved on the first driving shaft and the plurality of first driven shafts, the third driving structure is in driving connection with the first driving shaft and can drive the first driving shaft to rotate, so that the first conveying belt conveys workpieces to move along a first horizontal direction, and the feeding station is located on the first conveying belt.

According to some embodiments of the utility model, the material moving assembly further comprises a first detecting member, wherein the first detecting member is arranged at one side of the material loading station, and the first detecting member is used for detecting the workpiece at the material loading station.

According to some embodiments of the utility model, the material moving assembly further comprises a second detecting member, the second detecting member is disposed at one side of the second conveying mechanism, the material sucking manipulator can move the gum to above the second detecting member, and the second detecting member is used for detecting the workpiece sucked by the material sucking manipulator.

According to some embodiments of the utility model, the material moving assembly further comprises a third detecting member, wherein the third detecting member is arranged above the material bearing member, and the third detecting member is used for detecting the workpiece on the material bearing member.

According to some embodiments of the utility model, the punching mechanism comprises a punching assembly and a sliding assembly, the punching assembly comprises a fifth driving structure, an upper die and a lower die, the upper die is located above the lower die, the fifth driving structure is in driving connection with the upper die and can move up and down, the sliding assembly can be arranged above the lower die in a sliding manner along a first horizontal direction and can slide between the upper die and the lower die, the sliding assembly can bear a workpiece, and the first driving part can drive the second sucking piece to move above the sliding assembly.

According to some embodiments of the utility model, the punching mechanism further comprises a pushing assembly, the pushing assembly comprises a sixth driving structure, a pushing piece and a blanking piece, the pushing piece and the blanking piece are respectively arranged on two sides of the lower die along a second horizontal direction, and the sixth driving structure is in driving connection with the pushing piece and can push a workpiece between the upper die and the lower die to move towards the direction of the blanking piece.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The foregoing or additional aspects and advantages of the utility model will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a schematic view of a shield processing apparatus of the present utility model;

fig. 2 is a schematic structural view of a portion a of the shield processing apparatus of fig. 1.

Reference numerals:

a workpiece 10; a back adhesive 20; a first conveying mechanism 100; a first conveyor belt 110; a second conveying mechanism 200;

a feeding mechanism 300; a material moving assembly 310; a first suction member 311; a second suction member 312; a connecting rod 313; a first detecting member 314; a second detecting member 315; a light source module 316; a CCD camera module 317; a carrier 320; a horizontal driving member 330; a slide rail 331; a slider 332; a vertical driving member 340; a second driving structure 341; a push block 342; a die cutting mechanism 400; a die cutting assembly 410; an upper die 411; a lower die 412; a fifth driving structure 413; a slip assembly 420; a slider 421; a blanking member 430; and a suction manipulator 500.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

In the description of the present utility model, it should be understood that the direction or positional relationship indicated with respect to the description of the orientation, such as up, down, left, right, front, rear, etc., is based on the direction or positional relationship shown in the drawings, is merely for convenience of describing the present utility model and simplifying the description, and does not indicate or imply that the apparatus or element to be referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, the description of the first and second is only for the purpose of distinguishing technical features, and should not be construed as indicating or implying relative importance or implying the number of technical features indicated or the precedence of the technical features indicated.

In the description of the present utility model, unless explicitly defined otherwise, terms such as arrangement, installation, connection, etc. should be construed broadly and the specific meaning of the terms in the present utility model can be reasonably determined by a person skilled in the art in combination with the specific contents of the technical scheme.

A shield processing apparatus according to an embodiment of the present utility model is described below with reference to fig. 1 to 2.

According to the shielding case processing equipment, the shielding case processing equipment comprises a punching mechanism 400, a first conveying mechanism 100, a feeding mechanism 300, a second conveying mechanism 200 and a material sucking manipulator 500; the punching mechanism 400 is used for punching the workpiece 10; the first conveying mechanism 100 is provided with a feeding station, and the first conveying mechanism 100 is used for conveying the workpiece 10 to the feeding station; the feeding mechanism 300 comprises a material moving assembly 310 and a material bearing piece 320, wherein the material bearing piece 320 is arranged on one side of the punching mechanism 400 and is provided with a bearing station for bearing the workpiece 10; the material moving assembly 310 comprises a first driving part, a first material sucking part 311, a second material sucking part 312 and a connecting rod 313, wherein the first material sucking part 311 and the second material sucking part 312 are respectively arranged at two ends of the connecting rod 313, the first driving part is in driving connection with the connecting rod 313 and can drive the connecting rod 313 to move so as to drive the first material sucking part 311 to move above the feeding station and above the bearing station, and can drive the second material sucking part 312 to move above the bearing station and at the punching mechanism 400, and the first material sucking part 311 and the second material sucking part 312 can both suck and put down the workpiece 10; the second conveying mechanism 200 is disposed at one side of the material carrying member 320, and the second conveying mechanism 200 is used for conveying the back adhesive 20; the material sucking manipulator 500 is disposed on one side of the feeding mechanism 300, and can take away the back glue 20 on the second conveying mechanism 200, and attach the back glue 20 to the workpiece 10 on the bearing station.

The first conveying mechanism 100 conveys the workpiece 10 to the feeding station, since the first suction piece 311 and the second suction piece 312 are respectively arranged at two ends of the connecting rod 313, the first driving component can drive the connecting rod 313 to move, so that the first suction piece 311 positioned on the connecting rod 313 is positioned above the feeding station, and the second suction piece 312 can be positioned above the carrying piece 320 at the same time, the first suction piece 311 can suck the workpiece 10 at the feeding station, the second suction piece 312 can suck the workpiece 10 at the carrying station, and then the first driving component drives the connecting rod 313 to move, so that the first suction piece 311 is positioned above the carrying station, and the second suction piece 312 can be positioned at the punching mechanism 400 at the same time, the workpiece 10 sucked by the first suction piece 311 can be positioned at the carrying station, and the workpiece 10 sucked by the second suction piece 312 can be positioned at the punching mechanism 400, so that the punching mechanism 400 performs punching operation on the workpiece 10; after the first material sucking piece 311 places the workpiece 10 at the bearing station, the material sucking manipulator 500 moves onto the second conveying mechanism 200 by driving the working end, so that the material sucking manipulator 500 can suck the back glue 20 and move the back glue 20 to the position above the bearing station, and the material sucking manipulator 500 can attach the back glue 20 to the workpiece 10 at the bearing station; this shield cover processing equipment degree of automation is higher, can inhale material piece 311 and second and inhale material piece 312 simultaneous working through first to the cooperation is inhaled material manipulator 500 and is automatic to be inhaled gum 20 and with gum 20 laminating on work piece 10, in order to improve the efficiency of production, reduce human cost, thereby satisfy the production demand.

Referring to fig. 1, it may be understood that the first conveying mechanism 100, the material carrying member 320 and the punching mechanism 400 are sequentially arranged along the first horizontal direction, the connecting rod 313 is extended along the first horizontal direction, the first driving component includes a horizontal driving member 330, the horizontal driving member 330 is in driving connection with the connecting rod 313 and is used for driving the connecting rod 313 to move back and forth along the first horizontal direction, so as to drive the first material absorbing member 311 and the second material absorbing member 312 to move back and forth, and reduce the difficulty that the horizontal driving member 330 drives the first material absorbing member 311 and the second material absorbing member 312 on the connecting rod 313 to move to corresponding positions, and reduce the travel that the horizontal driving member 330 needs to move to drive the connecting rod 313.

The first material absorbing member 311 and the second material absorbing member 312 are arranged at two ends of the connecting rod 313 along the first horizontal direction, the first material absorbing member 311 is located at a side close to the first conveying mechanism 100, and the second material absorbing member 312 is located at a side close to the punching mechanism 400.

Referring to fig. 1 and 2, it can be appreciated that the first driving part further includes a vertical driving member 340, and the vertical driving member 340 is in driving connection with the connection rod 313 and is used for driving the connection rod 313 to move in a vertical direction.

The vertical driving piece 340 can drive the connecting rod 313 to move up and down so as to drive the first absorbing piece 311 and the second absorbing piece 312 to move up and down, so that the horizontal driving piece 330 is prevented from driving the first absorbing piece 311 and the second absorbing piece 312 to collide with other mechanisms when moving, the safety is improved, the absorbing heads of the first absorbing piece 311 and the second absorbing piece 312 can be in direct contact with the workpiece 10, and the difficulty of absorbing the workpiece 10 by the first absorbing piece 311 and the second absorbing piece 312 is reduced.

Referring to fig. 2, it can be understood that the horizontal driving member 330 includes a first driving structure, a sliding rail 331 and a sliding block 332, the sliding block 332 is slidably disposed on the sliding rail 331 and is in driving connection with the first driving structure, the sliding rail 331 is disposed along a first horizontal direction, and the first driving structure can drive the sliding block 332 to slide on the sliding rail 331; the vertical driving member 340 includes a second driving structure 341 and a pushing block 342, the second driving structure 341 is disposed on the sliding block 332 and connected to the pushing block 342, and the second driving structure 341 can drive the pushing block 342 to move along the vertical direction, and the pushing block 342 is connected to the connecting rod 313.

The first driving structure slides on the sliding rail 331 through the driving sliding block 332, so as to drive the vertical driving piece 340 to slide along the first horizontal direction, thereby driving the first material sucking piece 311 and the second material sucking piece 312 to move along the first horizontal direction, and the second driving structure 341 can drive the pushing block 342 to move along the vertical direction, so as to drive the connecting rod 313 to move along the vertical direction, thereby driving the first material sucking piece 311 and the second material sucking piece 312 to move along the vertical direction; wherein, the horizontal driving member 330 is a driving structure of the screw slider 332, and the vertical driving member 340 is a driving structure of a cylinder.

Referring to fig. 1, it may be understood that the first conveying mechanism 100 includes a third driving structure, a first conveying belt 110, a first driving shaft and a plurality of first driven shafts, where the first conveying belt 110 is sleeved on the first driving shaft and the plurality of first driven shafts, and the third driving structure is in driving connection with the first driving shaft and can drive the first driving shaft to rotate, so that the first conveying belt 110 conveys the workpiece 10 to move along a first horizontal direction, and the feeding station is located on the first conveying belt 110.

Specifically, the first driving shaft of third drive structure drive rotates, can drive first conveyer belt 110 and rotate, in order to can make first conveyer belt 110 upper portion follow first horizontal direction motion, wherein, a plurality of work pieces 10 set up in the upper end of first conveyer belt 110 along first horizontal direction one-to-one, and the material loading station is located the end of first conveyer belt 110 in first horizontal direction, and first conveyer belt 110 can drive work piece 10 and remove to material loading station department in proper order along first horizontal direction, improves the efficiency and the stability of material loading.

Referring to fig. 1, it can be appreciated that the material moving assembly 310 further includes a first detecting member 314, where the first detecting member 314 is disposed on one side of the loading station, and the first detecting member 314 is configured to detect the workpiece 10 at the loading station.

The first detecting piece 314 can detect whether the workpiece 10 exists in the feeding station and the position of the workpiece 10 at the feeding station, so as to improve the feeding stability of the first conveying mechanism 100; specifically, the height of the first detecting member 314 is the same as the height of the feeding station, so as to improve the detection stability.

Referring to fig. 1, it may be understood that the material moving assembly 310 further includes a second detecting member 315, the second detecting member 315 is disposed on one side of the second conveying mechanism 200, the material sucking manipulator 500 can move the back glue 20 above the second detecting member 315, and the second detecting member 315 is used for detecting the workpiece 10 sucked by the material sucking manipulator 500.

Specifically, the second detecting element 315 includes a light source module 316 and a CCD camera module 317, the light source module 316 is located above the CCD camera module 317, the material sucking manipulator 500 can move the back glue 20 to the above of the light source module 316 after sucking the back glue 20, the light source module 316 can irradiate light on the back glue 20, and the CCD camera module 317 can perform visual detection on the back glue 20.

It can be appreciated that the material moving assembly 310 further includes a third detecting member disposed above the material carrying member 320, and the third detecting member is configured to detect the workpiece 10 disposed on the material carrying member 320.

A third detecting element is arranged above the material bearing element 320, and the third detecting element is used for detecting the workpiece 10 on the bearing station, so that the stability of the workpiece 10 on the bearing station is further improved, and the accuracy of film pasting can be improved.

The second conveying mechanism 200 comprises a fourth driving structure, a second conveying belt, a second driving shaft and a plurality of second driven shafts, the second driving shaft and the plurality of second driven shafts are sleeved with the second conveying belt, the fourth driving structure is in driving connection with the second driving shaft and can drive the second driving shaft to rotate, so that the second conveying belt conveys and bears the back glue 20 to move along the second horizontal direction, and the feeding station is located on the second conveying belt.

Specifically, the fourth driving structure drives the second driving shaft to rotate, so that the second conveying belt can be driven to rotate, the upper part of the second conveying belt can move along the second horizontal direction, the material belt carrying the back glue 20 is sleeved on the second main shaft and the second driven shaft, the suction nozzle manipulator can absorb the back glue 20 at the tail end of the second conveying belt in the second horizontal direction, a stripping part is respectively arranged at two sides of the second conveying belt, the stripping part can strip the back glue 20 from the material belt, and the difficulty of absorbing the back glue 20 by the suction manipulator 500 is reduced; the second horizontal direction and the first horizontal direction are perpendicular to each other.

Referring to fig. 1, it may be understood that the die-cutting mechanism 400 includes a die-cutting assembly 410 and a sliding assembly 420, the die-cutting assembly 410 includes a fifth driving structure 413, an upper die 411 and a lower die 412, the upper die 411 is located above the lower die 412, the fifth driving structure 413 is in driving connection with the upper die 411 and can move up and down, the sliding assembly 420 can be slidably disposed above the lower die 412 along a first horizontal direction and can slide between the upper die 411 and the lower die 412, the sliding assembly 420 can bear the workpiece 10, and the first driving component can drive the second material sucking member 312 to move above the sliding assembly 420.

Specifically, the sliding assembly 420 includes a sliding member 421 and a sliding driving member, the sliding driving member is in driving connection with the sliding member 421 and can drive the sliding member 421 to slide along a first horizontal direction, the sliding driving member can drive the sliding member 421 to move to a position close to the material bearing member 320, at this time, a distance between the sliding member 421 and the material bearing member 320 is equal to a distance between the material bearing member 320 and the material loading station, so that the first driving member can drive the first material absorbing member 311 to move to the upper side of the material loading station and simultaneously drive the second material absorbing member 312 to move to the upper side of the material loading station, and the first driving member can drive the first material absorbing member 311 to move to the upper side of the material loading station and simultaneously drive the second material absorbing member 312 to move to the upper side of the sliding member 421, thereby improving the working efficiency of the material moving assembly 310; after the second suction member 312 places the workpiece 10 on the sliding member 421, the sliding driving member can drive the sliding member 421 to move between the upper die 411 and the lower die 412, and the fifth driving structure 413 can drive the upper die 411 to move downward to match the lower die 412 to die-cut the workpiece 10 located between the upper die 411 and the lower die 412; the difficulty in transferring from the carrier 320 to the skid 421 can be reduced by providing the skid 420.

Referring to fig. 1, it may be understood that the punching mechanism 400 further includes a pushing assembly, where the pushing assembly includes a sixth driving structure, a pushing member and a blanking member 430, the pushing member and the blanking member 430 are respectively disposed on two sides of the lower die 412 along the second horizontal direction, and the sixth driving structure is in driving connection with the pushing member and is capable of pushing the workpiece 10 located between the upper die 411 and the lower die 412 to move toward the blanking member 430.

After the upper die 411 and the lower die 412 die-cut the workpiece 10, the sixth driving structure pushes out the workpiece 10 located between the upper die 411 and the lower die 412 and pushes the workpiece 10 to the direction of the blanking member 430, so that the workpiece 10 is transferred onto the blanking member 430 from between the upper die 411 and the lower die 412, and the blanking assembly 410 can perform the waste discharge and blanking of the workpiece 10 through the pushing assembly after the die-cutting operation is completed on the workpiece 10, thereby improving the processing efficiency of the shielding cover processing equipment.

In the description of the present specification, a description referring to the terms "one embodiment," "some embodiments," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present application. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present application have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the principles and spirit of the application, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. Shield cover processing equipment, its characterized in that includes:

the punching mechanism is used for carrying out punching operation on the workpiece;

the first conveying mechanism is provided with a feeding station and is used for conveying the workpiece to the feeding station;

the feeding mechanism comprises a material moving assembly and a material bearing piece, wherein the material bearing piece is arranged on one side of the punching mechanism and is provided with a bearing station for bearing a workpiece; the material moving assembly comprises a first driving part, a first material sucking part, a second material sucking part and a connecting rod, wherein the first material sucking part and the second material sucking part are respectively arranged at two ends of the connecting rod, the first driving part is in driving connection with the connecting rod and can drive the connecting rod to move so as to drive the first material sucking part to move to the upper part of the feeding station and the upper part of the bearing station, and can drive the second material sucking part to move to the upper part of the bearing station and the punching mechanism, and the first material sucking part and the second material sucking part can both suck and put down a workpiece;

the second conveying mechanism is arranged on one side of the material bearing piece and is used for conveying back glue;

the material sucking manipulator is arranged on one side of the feeding mechanism, and can take away the back glue on the second conveying mechanism and attach the back glue to the workpiece on the bearing station.

2. The shield can processing apparatus of claim 1, wherein the first conveying mechanism, the material receiving member, and the die cutting mechanism are arranged in order along a first horizontal direction, and the connecting rod is arranged to extend along the first horizontal direction; the first driving part comprises a horizontal driving piece which is in driving connection with the connecting rod and is used for driving the connecting rod to move back and forth along the first horizontal direction.

3. The shield can processing apparatus of claim 2, wherein the first drive member further includes a vertical drive member drivingly connected to the connecting rod and configured to drive the connecting rod for movement in a vertical direction.

4. The shield can processing apparatus as recited in claim 3, wherein the horizontal driving member includes a first driving structure, a slide rail, and a slider, the slider being slidably disposed on the slide rail and being in driving connection with the first driving structure, the slide rail being disposed to extend in a first horizontal direction, the first driving structure being capable of driving the slider to slide on the slide rail; the vertical driving piece comprises a second driving structure and a pushing block, wherein the second driving structure is arranged on the sliding block and connected with the pushing block, the second driving structure can drive the pushing block to move along the vertical direction, and the pushing block is connected with the connecting rod.

5. The shielding case processing device according to claim 2, wherein the first conveying mechanism comprises a third driving structure, a first conveying belt, a first driving shaft and a plurality of first driven shafts, the first driving shaft and the plurality of first driven shafts are sleeved with the first conveying belt, the third driving structure is in driving connection with the first driving shaft and can drive the first driving shaft to rotate, so that the first conveying belt conveys workpieces to move along a first horizontal direction, and the feeding station is located on the first conveying belt.

6. The shield can processing apparatus of claim 1, wherein the transfer assembly further includes a first detecting member disposed on a side of the loading station, the first detecting member being configured to detect a workpiece at the loading station.

7. The shielding case processing device according to claim 1, wherein the material moving assembly further comprises a second detecting member, the second detecting member is disposed on one side of the second conveying mechanism, the material sucking manipulator can move the back glue to a position above the second detecting member, and the second detecting member is used for detecting the workpiece sucked by the material sucking manipulator.

8. The shield can processing apparatus of claim 2, wherein the material moving assembly further includes a third detecting member disposed above the material receiving member, the third detecting member being configured to detect a workpiece disposed on the material receiving member.

9. The shielding can processing device according to claim 2, wherein the punching mechanism comprises a punching assembly and a sliding assembly, the punching assembly comprises a fifth driving structure, an upper die and a lower die, the upper die is located above the lower die, the fifth driving structure is in driving connection with the upper die and can move up and down, the sliding assembly can be slidably arranged above the lower die along a first horizontal direction and can slide between the upper die and the lower die, the sliding assembly can bear a workpiece, and the first driving part can drive the second sucking piece to move above the sliding assembly.

10. The shielding can processing device of claim 9, wherein the punching mechanism further comprises a pushing assembly, the pushing assembly comprises a sixth driving structure, a pushing piece and a blanking piece, the pushing piece and the blanking piece are respectively arranged on two sides of the lower die along the second horizontal direction, and the sixth driving structure is in driving connection with the pushing piece and can push a workpiece between the upper die and the lower die to move towards the direction of the blanking piece.

Images