CN215827832U - Intelligent pressure maintaining machine - Google Patents

Abstract

The utility model provides an intelligence guarantor's press, gets the material module, tears pressurize tool module open and pressurize tool return line including the material loading, pressurize module, unloading, the pressurize tool return line runs through the material loading is got the material module, pressurize module, unloading and is got the material module and tear pressurize tool module open, the material loading is got the material module and is used for carrying the pressurize tool extremely in the pressurize module, the unloading is got the material module and is used for taking out and placing the pressurize tool in the pressurize module tear open on the pressurize tool module open, through tear the pressurize tool base and the pressurize tool upper cover after the pressurize tool module is torn open and pass through pressurize tool return line backward flow to material machine department. The utility model has the advantages of higher efficiency, higher operation accuracy and lower defective rate.

Description

Intelligent pressure maintaining machine

Technical Field

The utility model relates to the field of pressure maintaining machines, in particular to an intelligent pressure maintaining machine.

Background

The current assembly mode of the mobile phone screen is that after the mobile phone screen is bonded to the middle frame, a certain pressure needs to be applied for a certain time, so that the bonding effect is ensured, which is called pressure maintaining; the traditional pressure maintaining process usually adopts a pneumatic pressure maintaining box to manually maintain pressure, and the pneumatic pressure maintaining equipment realizes pressure maintaining by means of an air compressor, a pneumatic valve, a high-pressure device and a corresponding workbench, so that the equipment cost is high, the occupied space is large, and the maintenance cost is high; the manual pressure maintaining is realized by matching various pressing devices and clamping devices with elastic foam, elastic silica gel and the like in a manual pressing mode; however, in the pressure maintaining process, manual intervention is usually required, full automation cannot be realized, efficiency is low, and particularly in the pressure maintaining box detaching stage, internal products are damaged carelessly, the defective rate is high, and further the production progress is influenced.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model provides an intelligent pressure maintaining machine with higher efficiency, higher operation accuracy and lower defective rate for the society.

The technical scheme of the utility model is as follows: the utility model provides an intelligence guarantor's press, get the material module, tear pressurize tool module and pressurize tool backward flow including the material loading, pressurize module, unloading, the pressurize tool backward flow runs through the material loading is got the material module, pressurize module, unloading and is got the material module and tear pressurize tool module open, the material loading is got the material module and is used for carrying the pressurize tool extremely in the pressurize module, the unloading is got the material module and is used for taking out and placing the pressurize tool in the pressurize module tear open on the pressurize tool module open, through tear the pressurize tool base and the pressurize tool upper cover after the pressurize tool module is torn open and pass through pressurize tool backward flow to material machine department.

The pressure removing and maintaining jig module comprises a pressure removing and maintaining jig workbench, a pressure removing and maintaining jig conveying line, a box opening clamp, a double-shaft driving device and a pressure removing and maintaining jig lifter, wherein the pressure removing and maintaining jig conveying line, the box opening clamp, the double-shaft driving device and the pressure removing and maintaining jig lifter are arranged on the pressure removing and maintaining jig workbench, the box opening clamp and the double-shaft driving device are arranged on the pressure removing and maintaining jig conveying line, the box opening clamp is mounted on the double-shaft driving device, the double-shaft driving device drives the box opening clamp to move, and the pressure removing and maintaining jig lifter is arranged behind the pressure removing and maintaining jig conveying line.

The finished product conveying line is arranged on one side of the pressure removing and maintaining jig conveying line, and a finished product opened by the box opening clamp is placed on the finished product conveying line and conveyed to the next working procedure by the finished product conveying line.

As an improvement of the utility model, the feeding and taking module comprises a feeding frame, a feeding module arranged at the front end of the feeding frame, a three-axis feeding and taking module arranged at the top of the feeding frame, a feeding elevator module arranged below the three-axis feeding and taking module, and a feeding power roller line, wherein the feeding module receives a pressure maintaining jig from a previous process and conveys the pressure maintaining jig upwards to the three-axis feeding and taking module, and the three-axis feeding and taking module conveys the pressure maintaining jig to the feeding elevator module and conveys the pressure maintaining jig to a next process through the feeding power roller line.

As an improvement of the utility model, the feeding module comprises a feeding double guide rail, a feeding double slider, a feeding support frame and a feeding support roller line, the feeding double guide rail is arranged on the feeding frame, two sides of the feeding support frame are respectively installed on the feeding double guide rail through the feeding double slider, the feeding support roller line is arranged on the feeding support frame, and the feeding support roller line is used for carrying the pressure maintaining jig.

As an improvement of the utility model, the feeding supporting roller line comprises a feeding supporting roller power source and a plurality of rollers, the rollers are arranged on the feeding supporting frame in an arrayed mode, and the feeding supporting roller power source is used for driving the rollers to roll.

As an improvement of the present invention, the pressure maintaining module includes a pressure maintaining frame body, a plurality of shelves are disposed in the pressure maintaining frame body, a predetermined distance is provided between adjacent shelves, each shelf is provided with a corresponding shelf roller line, the pressure maintaining jig is disposed on the shelf, and the shelf roller line is used for driving the pressure maintaining jig on the shelf to be conveyed to the next process.

As an improvement of the utility model, the blanking and taking module comprises a blanking frame, a blanking module arranged at the front end of the blanking frame, a three-shaft blanking and taking module arranged at the top of the blanking frame, a blanking elevator module arranged below the three-shaft blanking and taking module, and a blanking power roller line, wherein the three-shaft blanking and taking module transfers a pressure maintaining jig to the blanking module, and the blanking module transfers the pressure maintaining jig to the pressure removing and maintaining jig conveying line.

As an improvement of the utility model, the structure of the feeding power roller line is the same as that of the feeding supporting roller line.

As an improvement of the utility model, the structure of the layered frame roller line is the same as that of the feeding support roller line.

The pressure maintaining jig conveying device comprises a feeding material taking module, a pressure maintaining module, a discharging material taking module, a pressure disassembling and maintaining jig module and a pressure maintaining jig return line, wherein the pressure maintaining jig return line penetrates through the feeding material taking module, the pressure maintaining module, the discharging material taking module and the pressure disassembling and maintaining jig module; when the pressure maintaining jig disassembling device is used, the feeding and taking module is used for taking the pressure maintaining jig, the pressure maintaining jig is conveyed to the pressure maintaining module, the pressure maintaining module is used for maintaining the pressure for a preset time, then the discharging and taking module is used for taking the pressure maintaining jig from the pressure maintaining module, the pressure maintaining jig is transferred to the pressure disassembling and maintaining jig module, the pressure disassembling and maintaining jig module is used for disassembling the pressure maintaining jig, the upper cover and the base of the pressure maintaining jig are reflowed to an initial process through a pressure maintaining jig reflow line, and finished products in the pressure maintaining jig are transferred through another process.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present invention.

Fig. 2 is a schematic diagram of another perspective of the embodiment shown in fig. 1.

Fig. 3 is a schematic diagram of the structure of fig. 1 from a third viewing angle.

Detailed Description

Please refer to fig. 1 to 3, and fig. 1 to 3 disclose an embodiment of an intelligent press maintaining machine, which includes a feeding material taking module 1, a pressure maintaining module 2, a discharging material taking module 3, a pressure maintaining jig detaching module 4 and a pressure maintaining jig return line 5, wherein the pressure maintaining jig return line 5 penetrates through the feeding material taking module 1, the pressure maintaining module 2, the discharging material taking module 3 and the pressure maintaining jig detaching module 4, the feeding material taking module 1 is used for conveying a pressure maintaining jig 9 into the pressure maintaining module 2, the discharging material taking module 3 is used for taking out and placing the pressure maintaining jig 9 in the pressure maintaining module 2 on the pressure maintaining jig detaching module 4, and a pressure maintaining jig base 91 and a pressure maintaining jig upper cover 92 detached by the pressure maintaining jig detaching module 4 return to the material machine through the pressure maintaining jig return line 5. When the pressure maintaining device is used, the pressure maintaining jig 9 is taken by the feeding and taking module 1, the pressure maintaining jig 9 is conveyed to the pressure maintaining module 2, the pressure maintaining module 2 maintains the pressure for a preset time, then the pressure maintaining jig 9 is taken by the discharging and taking module 3 from the pressure maintaining module 2, the pressure maintaining jig 9 is transferred to the pressure maintaining jig detaching module 4, the pressure maintaining jig 9 is detached by the pressure maintaining jig detaching module 4, the pressure maintaining jig upper cover 92 and the pressure maintaining jig base 91 are reflowed to an initial process by the pressure maintaining jig reflow line 5, and a finished product 90 in the pressure maintaining jig 9 is transferred by another process.

In the present invention, it is preferable that the pressure removing and maintaining jig module 4 includes a pressure removing and maintaining jig worktable 41, a pressure removing and maintaining jig conveying line 42, a box opening clamp 43, a dual-axis driving device 44, a pressure removing and maintaining jig lifter 45, and a finished product conveying line 6, the box opening clamp 43 and the dual-axis driving device 44 are disposed on the pressure removing and maintaining jig conveying line 42, the box opening clamp 43 is mounted on the dual-axis driving device 44, the dual-axis driving device 44 drives the box opening clamp 43 to move, the pressure removing and maintaining jig lifter 45 is disposed behind the pressure removing and maintaining jig conveying line 42, specifically, the dual-axis driving device 44 includes a Y-direction driver 441, a Z-direction driver 442, a suction nozzle 443, and a suction nozzle connecting plate 444, the Z-direction driver 442 is disposed on the Y-direction driver 441, and the suction nozzle 443 and the suction nozzle connecting plate 444 are mounted on the Z-direction driver 442, the suction nozzle 443 penetrates through the suction nozzle connecting plate 444, the box opening clamp 43 is mounted on the lower surface of the suction nozzle connecting plate 444, a clamp 46 is arranged on the pressure maintaining jig dismounting and lifting machine 45 and used for clamping the pressure maintaining jig base 91 or the pressure maintaining jig upper cover 92, and the pressure maintaining jig dismounting and lifting machine 45 can clamp the pressure maintaining jig base 91 or the pressure maintaining jig upper cover 92 and descend to the pressure maintaining jig return line 5; the finished product conveying line 6 is arranged on one side of the pressure removing and maintaining jig conveying line 42, and a finished product 90 which is opened by the box opening clamp 43 is placed on the finished product conveying line 6 and conveyed to the next process by the finished product conveying line 6. Specifically, the process of detaching the pressure maintaining jig 9 is as follows: after the pressure maintaining jig 9 is maintained in the pressure maintaining module 2, the pressure maintaining jig is conveyed to the pressure removing and maintaining jig conveying line 42 by the blanking and taking module 3, the pressure maintaining jig conveying line 42 conveys the pressure maintaining jig 9 to the box opening clamp 43, the double-shaft driving device 44 drives the box opening clamp 43 to move, so that the box opening clamp 43 is adjusted to a proper position on the pressure maintaining jig 9, the box opening clamp 43 opens the pressure maintaining jig 9 and clamps the pressure maintaining jig upper cover 92, the suction nozzle 443 sucks the finished product 90 in the pressure maintaining jig 9 to the finished product conveying line 6 and conveys the finished product to the next process by the finished product conveying line 6, the pressure maintaining jig base 91 is kept on the pressure removing and maintaining jig conveying line 42, the pressure maintaining jig base 91 is conveyed to the pressure removing and maintaining jig lifter 45 by the pressure removing and maintaining jig lifter 45, and the pressure maintaining jig base 91 is conveyed downwards to the pressure maintaining jig return line 5 by the pressure removing and maintaining jig lifter 45, treat pressurize tool base 91 to tearing open 45 orientations removal backs of pressurize tool lift, it places pressurize tool upper cover 92 on tearing open pressurize tool transfer chain 42 to open box clamp 43, carries pressurize tool upper cover 92 to tearing open 45 places of pressurize tool lift by tearing open on the pressurize tool transfer chain 42, tear pressurize tool lift 45 and carry pressurize tool upper cover 92 down to on the pressurize tool return wire 5, carry pressurize tool base 91 and pressurize tool upper cover 92 to the initial process by pressurize tool return wire 5, during the continuous operation, pressurize tool base 91 and pressurize tool upper cover 92 interval arrangement are in on the pressurize tool return wire 5, carry to the initial process by pressurize tool return wire 5.

In the present invention, preferably, the feeding and taking module 1 includes a feeding frame 10, a feeding module 11 disposed at the front end of the feeding frame 10, a three-axis feeding and taking module 12 located at the top of the feeding frame 10, a feeding elevator module 13 located below the three-axis feeding and taking module 12, and a feeding power roller line 14, where the feeding power roller line 14 and the feeding support roller line 114 have the same structure, and specific description is omitted here. The feeding module 11 receives the pressure maintaining jig 9 from the previous process and conveys the pressure maintaining jig upwards to the three-axis feeding and taking module 12, the three-axis feeding and taking module 12 conveys the pressure maintaining jig 9 to the feeding elevator module 13 and conveys the pressure maintaining jig 9 to the next process by the feeding power roller line 14, the three-axis feeding and taking module 12 is X, Y, Z, and the description is omitted here.

Specifically, in this embodiment, the feeding module 11 includes a feeding double-guide rail 111, a feeding double-slider 112, a feeding support frame 113, and a feeding support roller line 114, the feeding double-guide rail 111 is disposed on the feeding frame 10, two sides of the feeding support frame 113 are respectively mounted on the feeding double-guide rail 111 through the feeding double-slider 112, the feeding support roller line 114 is disposed on the feeding support frame 113, and the feeding support roller line 114 is used for receiving the pressure maintaining jig 9. The feeding supporting roller line 114 includes a feeding supporting roller power source 1141 and a plurality of rollers 1142, the plurality of rollers 1142 are arranged on the feeding supporting frame 113, and the feeding supporting roller power source 1141 is used for driving the plurality of rollers 1142 to roll. Specifically, the feeding process comprises the following steps: in the former process (the pressure maintaining jig 9 is conveyed by the workpiece conveying line), the feeding support frame 113 descends to the same height position as the workpiece conveying line along the feeding double guide rails 111, the feeding support roller line 114 is connected with the workpiece conveying line, the feeding support roller power source 1141 drives the plurality of rollers 1142 to rotate, so that the pressure maintaining jig 9 is received on the plurality of rollers 1142, the feeding support roller power source 1141 stops working, then the feeding support frame 113 is driven to ascend to a preset height along the feeding double guide rails 111, the feeding elevator module 13 conveys the feeding power roller line 14 upwards, the triaxial feeding and taking module 12 sucks the pressure maintaining jig 1149 on the rollers 1142 onto the feeding power roller line 14 until the pressure maintaining jig 9 on the feeding power roller line 14 reaches a preset number, and the feeding elevator module 13 conveys the feeding power roller line 14 downwards to a corresponding empty layer on the pressure maintaining module 2, then drive material loading power cylinder line 14 and layer frame cylinder line 23 of pressurize module 2, the cylinder of material loading power cylinder line 14 and layer frame cylinder line 23 rolls to carry the pressurize tool 9 on the material loading power cylinder line 14 to the corresponding layer frame of pressurize module 2 in, thereby realize the conveying of pressurize tool 9 from material loading module 11 to pressurize module 2, the structure is ingenious, and is efficient, need not manual operation.

In the present invention, preferably, the pressure maintaining module 2 includes a pressure maintaining frame body 21, a plurality of shelves 22 are disposed in the pressure maintaining frame body 21, a predetermined distance is provided between adjacent shelves 22, each shelf 22 is provided with a corresponding shelf roller line 23, the pressure maintaining jig 9 is located on the shelf 22, the shelf roller line 23 is used for driving the pressure maintaining jig 9 on the shelf 22 to be conveyed to a next process, specifically, the structure of the shelf roller line 23 is the same as that of the feeding support roller line 114, and details are not repeated here.

In the utility model, preferably, the blanking and taking module 3 comprises a blanking frame 30, a blanking module 31 arranged at the front end of the blanking frame 30, a three-axis blanking and taking module 32 positioned at the top of the blanking frame 30, a blanking elevator module 33 positioned below the three-axis blanking and taking module 32, and a blanking power roller line 34, the three-axis blanking and taking module 2 transfers the pressure maintaining jig 9 to the blanking module 31, and the blanking module 31 transfers the pressure maintaining jig 9 to the pressure maintaining jig detaching and conveying line 42; specifically, the blanking process is as follows: when the pressure maintaining jig 9 of a certain layer on the pressure maintaining module 2 is maintained for a predetermined time by the pressure maintaining module 2, the corresponding layer frame roller line 23 works, the pressure maintaining jig 9 after pressure maintaining is conveyed towards the direction of the unloading module 31, the unloading lifting ladder module 33 drives the unloading power roller line 34 to ascend or descend to the position with the same layer height as the pressure maintaining jig 9 after pressure maintaining, namely the unloading power roller line 34 is connected with the layer frame roller line 23 corresponding to the pressure maintaining module 2, the unloading power roller line 34 works, when the layer frame roller line 23 conveys the pressure maintaining jig 9 to the unloading power roller line 34, until all the pressure maintaining jigs 9 after pressure maintaining are transferred to the unloading power roller line 34, the layer frame roller line 23 and the unloading power roller line 34 stop working, and then the unloading lifting ladder module 33 drives the unloading roller power line 34 to ascend to the top, the pressure maintaining jig 9 is clamped by the triaxial unloading material taking module 32 to the unloading module 31, the pressure maintaining jig 9 is conveyed downwards by the unloading module 31 and is transferred to the pressure removing and maintaining jig conveying line 42 of the pressure removing and maintaining jig module 4, and then the pressure removing and maintaining jig module 4 is used for removing the pressure maintaining jig 9, so that the whole pressure maintaining process is completed. The automatic packaging machine has the advantages of ingenious structure, realization of full automation, no need of manual operation, high efficiency, accurate operation and low defective rate, effectively improves the production efficiency, and further improves the production progress.

Claims (10)

1. The utility model provides a press is protected to intelligence which characterized in that: get material module (1), pressurize module (2), unloading including the material loading and get material module (3), tear pressurize tool module (4) and pressurize tool return line (5), pressurize tool return line (5) run through the material loading is got material module (1), pressurize module (2), unloading and is got material module (3) and tear pressurize tool module (4), material loading is got material module (1) and is used for carrying pressurize tool (9) extremely in pressurize module (2), unloading is got material module (3) and is used for taking out and placing pressurize tool (9) in pressurize module (2) tear pressurize tool module (4) on, tear pressurize tool base (91) and pressurize tool upper cover (92) after tearing open pressurize tool module (4) open through pressurize tool return line (5) and flow back to the department.

2. The intelligent pressure maintaining machine according to claim 1, wherein: tear pressurize tool module (4) open including tearing pressurize tool workstation (41) open, set up tear pressurize tool transfer chain (42) open on pressurize tool workstation (41) open, open box press from both sides (43), biax drive arrangement (44) and tear pressurize tool lift (45) open, it sets up to open box press from both sides (43) and biax drive arrangement (44) tear open on pressurize tool transfer chain (42), it installs to open box press from both sides (43) on biax drive arrangement (44), by the removal that box press from both sides (43) was opened in biax drive arrangement (44) drive, tear pressurize tool lift (45) open and set up tear pressurize tool transfer chain (42) back open.

3. The intelligent pressure maintaining machine according to claim 2, wherein: still include finished product transfer chain (6), finished product transfer chain (6) set up tear one side of pressurize tool transfer chain (42) open, finished product (90) after opening box clamp (43) are placed on finished product transfer chain (6), are carried to next process by finished product transfer chain (6).

4. The intelligent pressure maintaining machine according to claim 1, 2 or 3, wherein: the feeding and taking module (1) comprises a feeding frame (10), a feeding module (11) arranged at the front end of the feeding frame (10), a triaxial feeding and taking module (12) positioned at the top of the feeding frame (10), a feeding elevator module (13) positioned below the triaxial feeding and taking module (12), and a feeding power roller line (14), wherein the feeding module (11) receives a pressure maintaining jig (9) from a previous process and upwards conveys the pressure maintaining jig to the triaxial feeding and taking module (12), and the triaxial feeding and taking module (12) conveys the pressure maintaining jig (9) to the feeding elevator module (13) and conveys the pressure maintaining jig (9) to a next process through the feeding power roller line (14).

5. The intelligent pressure maintaining machine according to claim 4, wherein: the feeding module (11) comprises a feeding double-guide rail (111), a feeding double-slider (112), a feeding support frame (113) and a feeding support roller line (114), wherein the feeding double-guide rail (111) is arranged on the feeding frame (10), two sides of the feeding support frame (113) are respectively installed on the feeding double-guide rail (111) through the feeding double-slider (112), the feeding support roller line (114) is arranged on the feeding support frame (113), and the feeding support roller line (114) is used for bearing the pressure maintaining jig (9).

6. The intelligent pressure maintaining machine according to claim 5, wherein: the feeding supporting roller line (114) comprises a feeding supporting roller power source (1141) and a plurality of rollers (1142), the rollers (1142) are arranged on the feeding supporting frame (113), and the feeding supporting roller power source (1141) is used for driving the rollers (1142) to roll.

7. The intelligent pressure maintaining machine according to claim 1, 2 or 3, wherein: the pressure maintaining module (2) comprises a pressure maintaining frame body (21), wherein a plurality of layers of frames (22) are arranged in the pressure maintaining frame body (21), a preset distance is reserved between every two adjacent layers of frames (22), each layer of frame (22) is provided with a corresponding layer of frame roller line (23), the pressure maintaining jig (9) is located on each layer of frame (22), and each layer of frame roller line (23) is used for driving the pressure maintaining jig (9) on the conveying layer of frame (22) to the next procedure.

8. The intelligent pressure maintaining machine according to claim 1, 2 or 3, wherein: unloading is got material module (3) and is included work or material rest (30) down, sets up unloading module (31), the triaxial unloading that is located work or material rest (30) top are got material module (32), are located the triaxial unloading and get material module (32) below unloading elevator module (33) of triaxial unloading to and unloading power roller line (34) of work or material rest (30) front end, triaxial unloading is got material module (32) and is shifted pressurize tool (9) to unloading module (31), unloading module (31) shift pressurize tool (9) to tear open on pressurize tool transfer chain (42).

9. The intelligent pressure maintaining machine according to claim 4, wherein: the feeding power roller line (14) and the feeding supporting roller line (114) have the same structure.

10. The intelligent pressure maintaining machine according to claim 7, wherein: the layered roller line (23) has the same structure as the feeding supporting roller line (114).

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