CN220846555U - Laser bag opening machine - Google Patents

Abstract

The utility model discloses a laser bag opening machine which comprises a frame, a folding device, a laser cutting device, a sewing device, a frame pressing device and a bottom supporting plate, wherein the folding device, the laser cutting device, the sewing device, the frame pressing device and the bottom supporting plate are arranged on the frame; the machine frame is provided with a workbench, and a material folding station, a laser incision station and a sewing station are arranged on the workbench at intervals side by side; a waiting area positioned between the material folding station and the laser cutting station is arranged below the workbench; the bottom support plate is unloaded at the laser cutting station and descends along with the lifting plate, the first translation driving unit carries the bottom support plate to translate to the waiting area, after the set time, the first translation driving unit carries the bottom support plate to translate to the lower part of the material folding station and ascends under the action of the second lifting driving unit to be positioned below the frame pressing device at the material folding station, the upper and lower circulation is formed below the workbench, the space is effectively saved, the area of the workbench can be reduced, the whole occupied area of the laser bag opening machine is further reduced, and the storage and management of workshop equipment are facilitated.

Description

Laser bag opening machine

Technical Field

The utility model relates to the technical field of laser bag opening machines, in particular to a laser bag opening machine.

Background

The existing laser bag opening machine is generally characterized in that a plurality of stations such as laser cutting, flanging and sewing are integrally arranged on one piece of equipment, so that automatic bag opening of clothes, trousers and the like is realized. The laser bag opening machine comprises a frame, a material folding device, a laser cutting device, a sewing device, a frame pressing device and a bottom supporting plate, wherein the material folding device, the laser cutting device, the sewing device, the frame pressing device and the bottom supporting plate are arranged on the frame; the automatic folding machine comprises a frame, and is characterized in that a workbench is arranged on the frame, a folding station, a laser cutting station and a sewing station are arranged on the workbench at intervals side by side, the folding device, the laser cutting device, the sewing device correspond to the folding station, the laser cutting station and the sewing station are respectively arranged, and the frame pressing device and the bottom supporting plate are respectively movable to be selectively positioned at the folding station, the laser cutting station and the sewing station.

But in the prior art, the bottom support plate circulates on the working table in a plane, and the working table surface needs to be full of the required region of the bottom support plate circulation, so that the area of the working table is larger, and the whole area of the laser bag opening machine is difficult to further reduce, for example: in CN 216891497U, the lower supporting plate is driven by the circulating device to move back and forth, left and right and reset, specifically, the circulating device includes a rail bracket fixedly connected with the back of the mounting beam, the lower surface of the rail bracket is fixedly connected with a first linear sliding table, the upper surface of the first linear sliding table is fixedly connected with the lower surface of the small beam, the moving end of the first linear sliding table is fixedly connected with an upright foot rest, the front surface of the upright foot rest is fixedly connected with a second linear sliding table, the moving end of the second linear sliding table is fixedly connected with a rail plate, the front surface of the rail plate is slidably connected with a cylinder substrate, the upper surface of the cylinder substrate is fixedly connected with a connecting sheet, the front surface of the rail plate is fixedly connected with an adjusting cylinder, the output end of the adjusting cylinder is fixedly connected with a lower surface of the connecting sheet, the front surface of the adjusting plate is fixedly connected with a clamping cylinder, the output end of the clamping cylinder is fixedly connected with a clamp, and the opposite surfaces of the two clamps are provided with clamping surfaces. The first linear sliding table drives the vertical foot rest to move back and forth, and then drives the second linear sliding table to move back and forth, and then drives the structure on the second linear sliding table to move back and forth simultaneously, and the second linear sliding table drives the guide rail plate to move left and right, and then drives the structure on the guide rail plate to move left and right simultaneously.

Therefore, a new technical solution is needed to solve the above problems.

Disclosure of utility model

In view of the above, the present utility model aims at overcoming the drawbacks of the prior art, and its main objective is to provide a laser bag opening machine, in which the bottom support plate is formed to circulate up and down below the workbench, so as to effectively save space, reduce the area of the workbench, further reduce the overall occupied area of the laser bag opening machine, and facilitate storage and management of workshop equipment.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

A laser bag opening machine comprises a frame, a folding device, a laser cutting device, a sewing device, a frame pressing device and a bottom supporting plate, wherein the folding device, the laser cutting device, the sewing device, the frame pressing device and the bottom supporting plate are arranged on the frame; the frame is provided with a workbench, a material folding station, a laser incision station and a sewing station are arranged on the workbench at intervals side by side, the material folding device, the laser incision device and the sewing device are respectively arranged corresponding to the material folding station, the laser incision station and the sewing station, and the frame pressing device and the bottom supporting plate can be moved to be selectively positioned at the material folding station, the laser incision station and the sewing station;

A first avoidance window is arranged on the workbench corresponding to the laser incision station, a lifting plate is arranged in the first avoidance window, and the lifting plate is connected with a first lifting driving unit so as to enable the lifting plate to lift below the first avoidance window; a second lifting driving unit is arranged below the material folding station; a waiting area positioned between the material folding station and the laser cutting station is arranged below the workbench, and a first translation driving unit is further arranged on the rack;

The bottom support plate is located above the lifting plate at the first avoidance window, and is acted by the first lifting driving unit to descend along with the lifting plate, the first translation driving unit carries the bottom support plate to translate to the waiting area, and after a set time, the first translation driving unit carries the bottom support plate to translate to the lower part of the material folding station and is acted by the second lifting driving unit to ascend to be located below the frame pressing device at the material folding station.

As a preferable scheme, the first translation driving unit comprises two clamping cylinders and a first circulation driving unit for driving the clamping cylinders to translate left and right, wherein the two clamping cylinders are provided with clamping positioning parts which are oppositely arranged, and the two clamping positioning parts can be selectively opened and closed to clamp the left end and the right end of the bottom supporting plate or release the bottom supporting plate.

As a preferable scheme, a second avoiding window is arranged on the workbench corresponding to the material folding station, and the bottom supporting plate is lifted under the action of the second lifting driving unit so as to be positioned at the second avoiding window.

As a preferable scheme, a second translation driving unit is further arranged on the frame, and the second translation driving unit drives the frame pressing device to translate left and right so as to be selectively positioned at the material folding station, the laser incision station and the sewing station.

As a preferable scheme, the frame pressing device is provided with a locking cylinder, and the locking cylinder can selectively lock the bottom supporting plate or unlock the bottom supporting plate; the frame pressing device is also connected with a third lifting driving unit; when the bottom supporting plate reaches the material folding station, the second lifting driving unit is acted to lift the bottom supporting plate to the proper position, the third lifting driving unit controls the frame pressing device to descend, the locking cylinder locks the bottom supporting plate, and the bottom supporting plate moves to the sewing station along with the frame pressing device.

As a preferable scheme, after the bottom supporting plate moves from the sewing station to the laser cutting station along with the frame pressing device, the locking cylinder unlocks the bottom supporting plate at the laser cutting station so that the bottom supporting plate can descend along with the jacking plate.

As a preferable scheme, two bottom supporting plates are arranged, one is in a waiting state, and the other is in a working state; in the initial state, one is positioned in the waiting area, and the other is positioned below the material folding station.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, in particular, the technical proposal shows that the bottom supporting plate mainly circulates up and down below the workbench, and compared with the form that the supporting plate circulates on the workbench in a plane in the prior art, the utility model effectively saves space, can reduce the area of the workbench, further reduces the whole occupied area of the laser bag opening machine, and is beneficial to the storage and management of workshop equipment.

In order to more clearly illustrate the structural features and efficacy of the present utility model, the present utility model will be described in detail below with reference to the accompanying drawings and examples.

Drawings

FIG. 1 is a top view of a laser bag opener according to an embodiment of the present utility model;

FIG. 2 is a front view of a laser bag opening machine (the housing of the tucker is hidden from view) in accordance with an embodiment of the present utility model;

FIG. 3 is a cross-sectional view taken at C-C of FIG. 1;

FIG. 4 is a perspective cross-sectional view of a laser bag opener according to an embodiment of the present utility model;

Fig. 5 is a schematic view of a cycle of a bottom pallet according to an embodiment of the utility model.

The attached drawings are used for identifying and describing: the device comprises a rack 301, a material folding device 302, a laser cutting device 303, a sewing device 304, a frame pressing device 305, a bottom supporting plate 306, a workbench 307, a material folding station 308, a laser cutting station 309, a sewing station 310, a jacking plate 311, a first lifting driving unit 312, a second lifting driving unit 313, a first translation driving unit 314, a clamping cylinder 315, a first circulation driving unit 316 and a second translation driving unit 317.

Detailed Description

Referring to fig. 1 to 5, specific structures of embodiments of the present utility model are shown.

In the description of the present utility model, it should be noted that the azimuth or positional relationship indicated by the terms "upper", "lower", "left", "right", etc. are based on the azimuth or positional relationship shown in the drawings, and are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or element referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and thus should not be construed as limiting the present utility model.

The utility model provides a laser bag opening machine, includes frame 301 and sets up folding material device 302, laser incision device 303, sewing device 304, frame pressing device 305, the backing plate 306 on frame 301, generally, folding material device 302, laser incision device 303, sewing device 304, frame pressing device 305 are provided with one respectively, the backing plate 306 is provided with two, and a backing plate 306 is in wait state, and a backing plate 306 is in operating condition, compares the condition that only has a backing plate 306, reduces time, is favorable to promoting overall efficiency.

The frame 301 is provided with a workbench 307, the workbench 307 is provided with a material folding station 308, a laser cutting station 309 and a sewing station 310 which are arranged in parallel at intervals, the material folding device 302, the laser cutting device 303 and the sewing device 304 are respectively arranged corresponding to the material folding station 308, the laser cutting station 309 and the sewing station, and the frame pressing device 305 and the bottom supporting plate 306 are respectively movable to be selectively positioned at the material folding station 308, the laser cutting station 309 and the sewing station.

A first avoidance window is arranged on the workbench 307 corresponding to the laser incision station 309, a lifting plate 311 is arranged in the first avoidance window, and the lifting plate 311 is connected with a first lifting driving unit 312 (for example, a cylinder or other driving modes capable of driving up and down motion such as a motor screw rod) so as to enable the lifting plate 311 to lift below the first avoidance window; a second lifting driving unit 313 (for example, a cylinder or other driving modes capable of driving up and down motion such as a motor screw rod) is arranged below the material folding station 308; a waiting area between the folding station 308 and the laser cutting station 309 is disposed below the working table 307, and a first translation driving unit 314 is further disposed on the frame 301, for example: the first translation driving unit 314 includes two clamping cylinders 315 and a first circulation driving unit 316 for driving the clamping cylinders 315 to translate left and right, wherein the first circulation driving unit 316 can adopt a conveyor belt, and the two clamping cylinders 315 are connected to the conveyor belt to translate along with the conveyor belt; the two clamping cylinders 315 have opposite telescopic rods, and the outer ends of the telescopic rods are connected with opposite clamping and positioning parts, so that the two clamping and positioning parts can be selectively opened and closed to clamp the left and right ends of the bottom support plate 306 or release the bottom support plate 306. The clamping and positioning portion may be designed into an L shape, and has a supporting portion and a clamping portion, where the supporting portion is located below the bottom support plate 306, and the clamping portion is located at the left and right ends of the bottom support plate 306, so as to ensure reliable clamping of the bottom support plate 306.

The bottom plate 306 is located above the lifting plate 311 at the first avoiding window, and is acted by the first lifting driving unit 312 to descend along with the lifting plate 311, the first translation driving unit 314 translates to the waiting area under the workbench 307 with the bottom plate 306, and after a set time, the first translation driving unit 314 translates to the lower side of the folding station 308 with the bottom plate 306, and is acted by the second lifting driving unit 313 to ascend to be located under the frame pressing device 305 at the folding station 308. Generally, a second avoiding window is disposed on the working table 307 corresponding to the material folding station 308, and the bottom support plate 306 is lifted by the second lifting driving unit 313 to be located at the second avoiding window.

The frame 301 is further provided with a second translation driving unit 317, and the second translation driving unit 317 drives the frame pressing device 305 to translate left and right so as to be selectively located at the material folding station 308, the laser cutting station 309 and the sewing station 310. For example, the second translational drive unit may employ a motor screw as the second cyclic drive.

The frame pressing device 305 is provided with a locking cylinder, and the locking cylinder can selectively lock the bottom supporting plate 306 or unlock the bottom supporting plate 306; the frame pressing device 305 is also connected with a third lifting driving unit; when the bottom plate 306 reaches the material folding station 308 and is lifted in place under the action of the second lifting driving unit 313, the third lifting driving unit controls the frame pressing device 305 to descend, the locking cylinder locks the bottom plate 306, and the bottom plate 306 translates to the right along with the frame pressing device 305 to the sewing station 310. The laser cutting station 309 also serves as a bottom plate 306 unloading position, and after the bottom plate 306 translates leftwards from the sewing station 310 to the laser cutting station 309 along with the frame pressing device 305, the locking cylinder releases the locking of the bottom plate 306 at the laser cutting station 309, so that the bottom plate 306 can descend along with the jacking plate 311.

Next, the cycle of the bottom plate 306 of the present embodiment will be described generally:

Step 1, the frame pressing device 305 clamps and loads at the laser cutting station 309; the cloth is already loaded on the frame pressing device 305, and a bag opening is formed on the cloth by the laser cutting device 303;

Step 2, the second translation driving unit 317 drives the frame pressing device 305 to translate left to the material folding station 308, and at this time, the bottom support plate 306 is already in place below the material folding station 308; the folding device 302 is used for folding, then the third lifting driving unit controls the frame pressing device 305 to descend, the locking cylinder locks the bottom supporting plate 306, and the bottom supporting plate 306 moves along with the frame pressing device 305 to the right side under the driving action of the second shifting driving unit 317 to the sewing station 310.

Step 3, performing a first sewing operation by the sewing device 304 at the sewing station 310;

Step 4, after finishing the first sewing operation, the second translation driving unit 317 drives the frame pressing device 305 to translate left together with the bottom support plate 306 to the laser cutting station 309, and the locking cylinder releases the locking of the bottom support plate 306; simultaneously, placing a second layer of cloth at the sewing station 310;

Step 5, the bottom plate 306 can descend along with the jacking plate 311, and the first translation driving unit 314 carries the bottom plate 306 to translate below the workbench 307 to the waiting area; simultaneously, the second translation driving unit 317 drives the frame pressing device 305 to translate to the right to the sewing station 310, and drop down to press on the second layer of cloth to perform a second sewing operation;

Step 6, if a third layer of cloth needs to be placed, the second translation driving unit 317 drives the frame pressing device 305 to translate to the left to the laser incision station 309 for avoiding; simultaneously, placing a third layer of cloth at the sewing station 310; subsequently, the second translation driving unit 317 drives the frame pressing device 305 to translate to the right to the sewing station 310, and drop down to press on the third layer of cloth to perform a third sewing operation;

The circulation is carried out until the sewing of the N layers of cloth is completed;

In step 7, the second translation driving unit 317 drives the frame pressing device 305 to translate left to the laser cutting station 309, and the frame pressing device 305 removes the pressing and positioning effects on the cloth, so that the sewn product can be manually removed.

The next cloth is then loaded at the laser kerf station 309, cycling through steps 1-7 as described previously. In step 1, when the laser cutting is performed, the bottom plate 306 is located below the material folding station 308, and is lifted by the second lifting driving unit 313 to be located below the frame pressing device 305 at the material folding station 308. In the whole circulation process, two bottom supporting plates 306 are arranged, one is in a waiting state, and the other is in a working state; in the initial state, one is located in the waiting area and the other is located below the folding station 308.

The design of the utility model is focused on that the bottom supporting plate 306 is formed to circulate up and down below the workbench 307, compared with the traditional technology that the supporting plate circulates on the workbench 307 in a plane, the utility model effectively saves space, reduces the area of the workbench 307, further reduces the whole occupied area of the laser bag opening machine, and is beneficial to the storage and management of workshop equipment.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the technical scope of the present utility model, so any minor modifications, equivalent changes and modifications made to the above embodiments according to the technical principles of the present utility model are still within the scope of the technical solutions of the present utility model.

Claims (7)

1. A laser bag opening machine comprises a frame, a folding device, a laser cutting device, a sewing device, a frame pressing device and a bottom supporting plate, wherein the folding device, the laser cutting device, the sewing device, the frame pressing device and the bottom supporting plate are arranged on the frame; the automatic folding machine comprises a frame, and is characterized in that a workbench is arranged on the frame, a folding station, a laser incision station and a sewing station are arranged on the workbench at intervals side by side, the folding device, the laser incision device and the sewing device correspond to the folding station, the laser incision station and the sewing station are respectively arranged, and the frame pressing device and the bottom supporting plate are respectively movable to be selectively positioned at the folding station, the laser incision station and the sewing station, and are characterized in that:

A first avoidance window is arranged on the workbench corresponding to the laser incision station, a lifting plate is arranged in the first avoidance window, and the lifting plate is connected with a first lifting driving unit so as to enable the lifting plate to lift below the first avoidance window; a second lifting driving unit is arranged below the material folding station; a waiting area positioned between the material folding station and the laser cutting station is arranged below the workbench, and a first translation driving unit is further arranged on the rack;

The bottom support plate is located above the lifting plate at the first avoidance window, and is acted by the first lifting driving unit to descend along with the lifting plate, the first translation driving unit carries the bottom support plate to translate to the waiting area, and after a set time, the first translation driving unit carries the bottom support plate to translate to the lower part of the material folding station and is acted by the second lifting driving unit to ascend to be located below the frame pressing device at the material folding station.

2. A laser bag opener according to claim 1, characterized in that: the first translation driving unit comprises two clamping cylinders and a first circulation driving unit for driving the clamping cylinders to translate left and right, the two clamping cylinders are provided with clamping positioning parts which are arranged oppositely, and the two clamping positioning parts can be selectively opened and closed to clamp the left end and the right end of the bottom supporting plate or release the bottom supporting plate.

3. A laser bag opening machine according to claim 1 or 2, characterized in that: the workbench is provided with a second avoiding window corresponding to the material folding station, and the bottom supporting plate is lifted under the action of the second lifting driving unit so as to be positioned at the second avoiding window.

4. A laser bag opener according to claim 1, characterized in that: the frame is also provided with a second translation driving unit, and the second translation driving unit drives the frame pressing device to translate left and right so as to be selectively positioned at the material folding station, the laser incision station and the sewing station.

5. A laser bag opener according to claim 4, characterized in that: the frame pressing device is provided with a locking cylinder, and the locking cylinder can selectively lock the bottom supporting plate or unlock the bottom supporting plate; the frame pressing device is also connected with a third lifting driving unit; when the bottom supporting plate reaches the material folding station, the second lifting driving unit is acted to lift the bottom supporting plate to the proper position, the third lifting driving unit controls the frame pressing device to descend, the locking cylinder locks the bottom supporting plate, and the bottom supporting plate moves to the sewing station along with the frame pressing device.

6. A laser bag opener according to claim 5, characterized in that: after the bottom support plate moves along with the frame pressing device from the sewing station to the laser cutting station, the locking cylinder unlocks the bottom support plate at the laser cutting station, so that the bottom support plate can descend along with the jacking plate.

7. A laser bag opener according to claim 1, characterized in that: two bottom supporting plates are arranged, one is in a waiting state, and the other is in a working state; in the initial state, one is positioned in the waiting area, and the other is positioned below the material folding station.