CN220054404U - Automatic change equipment for packing - Google Patents

Abstract

The utility model discloses automatic packaging equipment which comprises a rack, a control module, a feeding device, a high-frequency device and a discharging device, wherein the rack is arranged on the rack; the control module is arranged on the frame; the feeding device is arranged on the frame and connected with the control module, a plurality of placing grooves for placing semi-finished packages are formed in the feeding device, and a flattening piece for flattening the semi-finished packages is arranged on the feeding device. Through setting up material feeding unit, loading attachment, high cycle device and discharging device in the frame, cooperation transmission operation platform is with operation tool transfer gradually loading attachment, high cycle device and discharging device again, and loading attachment places half packing article in the operation chamber, and high cycle device welds half packing article and makes it become the finished product, and discharging device takes out the finished product in the operation chamber, and the packing of product realizes automaticly, improves packing inefficiency, reduces the cost of labor.

Description

Automatic change equipment for packing

Technical Field

The utility model relates to the technical field of equipment, in particular to automatic packaging equipment.

Background

The high frequency wave is a high frequency wave. The high frequency is an electromagnetic wave with a frequency greater than 100KHz, and the ultrasonic wave is an acoustic wave with a frequency greater than 20 KHz. The welding principle and the welding principle of the high frequency are different from those of the ultrasonic wave, the high frequency utilizes the high frequency electromagnetic field to lead molecules inside the materials to mutually collide violently to generate high temperature so as to achieve the purpose of welding and welding, and the ultrasonic wave utilizes the principle of friction heat generation to generate a large amount of heat so as to achieve the purpose of welding and welding. The application field of the high frequency wave is wide, so that a high frequency wave plastic welding machine, a high frequency wave plastic fusing machine, a high frequency wave folding box creasing machine, a high frequency wave metal heating machine and the like are available.

On the existing product packaging, most manufacturers weld the packaging boxes through a high-cycle machine, so that the packaging boxes are sealed, and the product can be placed in the packaging boxes without falling out of the packaging boxes. However, most of the conventional high-frequency machines cannot realize automation, and the semi-finished packages need to be manually placed in an operation jig, the button is pressed, the operation end of the high-frequency machine is pressed down to weld the semi-finished packages, the button is pressed once again, the operation end of the high-frequency machine is lifted, and the packages can be taken out, so that the production efficiency is low, and the labor cost is high. Therefore, there is a need to propose a new solution to the above-mentioned problems.

Disclosure of Invention

In view of the above, the present utility model aims at overcoming the drawbacks of the prior art, and has a primary object to provide an automated packaging device, which can effectively solve the problems of low efficiency and high labor cost of the existing packaging process.

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

an automatic packaging device comprises a frame, a control module, a feeding device, a high-frequency device and a discharging device; the control module is arranged on the frame; the feeding device is arranged on the frame and connected with the control module, the feeding device is provided with a plurality of placing grooves for placing semi-finished packages, and the feeding device is provided with a flattening piece for flattening the semi-finished packages; the feeding device is arranged on the frame and positioned at the output end of the feeding device, and is connected with the control module; the high frequency device is arranged on the frame and connected with the control module, the high frequency device is provided with a welding operation end capable of moving up and down, the high frequency device is provided with a transmission operation platform, the transmission operation platform is provided with a plurality of operation jigs, and each operation jig is provided with an operation cavity; the discharging device is arranged on the high-frequency device and is connected with the control module.

As a preferable scheme, the feeding device comprises a conveying belt and a first driving mechanism; the conveying belt and the first driving mechanism are arranged on the frame, the plurality of placing grooves are formed in the conveying belt, a preparation groove is formed in the output end of the conveying belt, a transfer device is arranged beside the preparation groove, and the first driving mechanism provides driving force for the conveying belt.

As a preferable scheme, the transfer device comprises a first guide rail, a second driving mechanism, a first sliding block, a third driving mechanism and a transfer piece; the first guide rail is arranged on the frame, the second driving mechanism is arranged on the frame, the first sliding block can be movably arranged on the first guide rail back and forth along the extending direction of the first guide rail and is provided with driving force by the second driving mechanism, the third driving mechanism is arranged on the first sliding block, the transferring piece is arranged on the first sliding block in an up-and-down movable manner and is provided with driving force by the third driving mechanism, and the transferring piece is provided with a transferring end for transferring the semi-finished package and a flattening end for flattening the semi-finished package.

As a preferable scheme, the feeding device comprises a second guide rail, a fourth driving mechanism, a second sliding block, a fifth driving mechanism and a clamping piece; the second guide rail is arranged on the frame, the fourth driving mechanism is arranged on the frame, the second sliding block can be movably arranged on the second guide rail back and forth along the extending direction of the second guide rail and is provided with driving force by the fourth driving mechanism, the fifth driving mechanism is arranged on the second sliding block, the clamping piece is arranged on the second sliding block in an up-down movable way and is provided with driving force by the fifth driving mechanism, the clamping piece is provided with a sixth driving mechanism, and the clamping piece is provided with an openable or closable clamping part and is provided with driving force by the sixth driving mechanism.

As a preferable scheme, the transmission operation platform is a rotary disk, and the plurality of operation jigs are radially arranged at intervals on the periphery of the transmission operation platform.

As a preferable scheme, the discharging device comprises a bracket, a third guide rail, a seventh driving mechanism, a third sliding block and a picking and placing piece; the support is arranged on the high-frequency device, the third guide rail is arranged on the support, the seventh driving mechanism is arranged on the third guide rail, the third sliding block can be movably arranged on the third guide rail back and forth along the extending direction of the third guide rail and is provided with driving force by the seventh driving mechanism, the picking and placing piece is arranged on the third sliding block and can move back and forth along with the back and forth movement of the third sliding block, and the picking and placing piece is provided with a picking and placing part capable of moving up and down.

As a preferable scheme, the picking and placing part is a sucker.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, and in particular, the technical scheme can be as follows:

through setting up material feeding unit, loading attachment, high cycle device and discharging device in the frame, cooperation transmission operation platform is with operation tool transfer gradually loading attachment, high cycle device and discharging device again, and loading attachment places half packing article in the operation chamber, and high cycle device welds half packing article and makes it become the finished product, and discharging device takes out the finished product in the operation chamber, and the packing of product realizes automaticly, improves packing inefficiency, reduces the cost of labor.

In order to more clearly illustrate the structural features and efficacy of the present utility model, the following detailed description of the utility model is made with reference to the accompanying drawings and to the specific embodiments:

drawings

FIG. 1 is an assembled perspective view of a preferred embodiment of the present utility model;

FIG. 2 is an enlarged schematic view of a feeding device according to a preferred embodiment of the present utility model;

FIG. 3 is an enlarged schematic view of a transfer device according to a preferred embodiment of the present utility model;

FIG. 4 is an enlarged schematic view of the feeding device according to the preferred embodiment of the present utility model;

FIG. 5 is an enlarged schematic view of the discharging device in the preferred embodiment of the present utility model.

The attached drawings are used for identifying and describing:

10. rack 20, control module

30. Feeding device 301 and placing groove

302. Flattening member 303, preparation groove

31. Conveyor belt 32, first drive mechanism

33. Transfer device 331, first guide rail

332. Second driving mechanism 333, first slider

334. Third drive mechanism 335, transfer member

3351. Transfer end 3352, flattened end

40. Feeding device 41, second guide rail

42. Fourth driving mechanism 43, second slider

44. Fifth driving mechanism 45, clamping member

451. Sixth driving mechanism 452, clamping part

50. High frequency device 51 and welding operation end

52. Transmission operation platform 53 and operation jig

531. Working chamber 60 and discharging device

61. Bracket 62, third guide rail

63. Seventh driving mechanism 64, third slider

65. Picking and placing part 651 and picking and placing part

71. Semi-finished packages.

Detailed Description

Referring to fig. 1 to 3, a specific structure of a preferred embodiment of the present utility model is shown, which includes a frame 10, a control module 20, a feeding device 30, a feeding device 40, a high frequency device 50 and a discharging device 60.

The control module 20 is disposed on the housing 10.

The feeding device 30 is arranged on the frame 10 and connected with the control module 20, the feeding device 30 is provided with a plurality of placing grooves 301 for placing the semi-finished packages 71, and the feeding device 30 is provided with flattening pieces 302 for flattening the semi-finished packages 71; in the present embodiment, the feeding device 30 includes a conveying belt 31 and a first driving mechanism 32; the conveyor belt 31 and the first driving mechanism 32 are both arranged on the frame 10, the plurality of placement grooves 301 are all arranged on the conveyor belt 31, a preparation groove 303 is arranged at the output end of the conveyor belt 31, a transfer device 33 is arranged beside the preparation groove 303, and the first driving mechanism 32 provides driving force for the conveyor belt 31; the transfer device 33 includes a first rail 331, a second driving mechanism 332, a first slider 333, a third driving mechanism 334, and a transfer member 335; the first rail 331 is provided on the frame 10, the second driving mechanism 332 is provided on the frame 10, the first slider 333 is movably provided on the first rail 331 back and forth in an extending direction of the first rail 331 and is provided with a driving force by the second driving mechanism 332, the third driving mechanism 334 is provided on the first slider 333, the transfer member 335 is provided on the first slider 333 movably up and down and is provided with a driving force by the third driving mechanism 334, and the transfer member 335 has a transfer end 3351 for transferring the half-packs 71 and a flattening end 3352 for flattening the half-packs 71.

The feeding device 40 is arranged on the frame 10 and positioned at the output end of the feeding device 30, and the feeding device 40 is connected with the control module 20; in this embodiment, the feeding device 40 includes a second guide rail 41, a fourth driving mechanism 42, a second slider 43, a fifth driving mechanism 44, and a clamping member 45; the second guide rail 41 is provided on the frame 10, the fourth driving mechanism 42 is provided on the frame 10, the second slider 43 is movably provided on the second guide rail 41 back and forth in the extending direction of the second guide rail 41 and is driven by the fourth driving mechanism 42, the fifth driving mechanism 44 is provided on the second slider 43, the holding member 45 is provided on the second slider 43 movably up and down and is driven by the fifth driving mechanism 44, the sixth driving mechanism 451 is provided on the holding member 45, the holding member 45 has an openable or closable holding portion 452 and is driven by the sixth driving mechanism 451.

The high frequency device 50 is arranged on the frame 10 and connected with the control module 20, the high frequency device 50 is provided with a welding operation end 51 which can move up and down, the high frequency device 50 is provided with a transmission operation platform 52, the transmission operation platform 52 is provided with a plurality of operation jigs 53, and each operation jig 53 is provided with an operation cavity 531; in this embodiment, the driving platform 52 is a rotating disc, and the plurality of working tools 53 are radially arranged at intervals on the periphery of the driving platform 52.

The discharging device 60 is arranged on the high frequency device 50 and is connected with the control module 20; in the present embodiment, the discharging device 60 includes a bracket 61, a third rail 62, a seventh driving mechanism 63, a third slider 64, and a picking and placing member 65; the bracket 61 is arranged on the high frequency device 50, the third guide rail 62 is arranged on the bracket 61, the seventh driving mechanism 63 is arranged on the third guide rail 62, the third sliding block 64 is movably arranged on the third guide rail 62 back and forth along the extending direction of the third guide rail 62 and is provided with driving force by the seventh driving mechanism 63, the picking and placing piece 65 is arranged on the third sliding block 64 and moves back and forth along with the back and forth movement of the third sliding block 64, and the picking and placing piece 65 is provided with a picking and placing part 651 which can move up and down; specifically, the pick-and-place portion 651 is a suction cup.

The working procedure of this embodiment is described in detail as follows:

firstly, the semi-finished packages 71 are placed in the placing groove 301, in the conveying process, the flattening piece 302 flattens the raised paper sheet part of the semi-finished packages 71, then the transferring end 3351 of the transferring device 33 transfers the semi-finished packages 71 to the preparation groove 303, the clamping piece 45 of the feeding device 40 places the semi-finished packages 71 into the working cavity 531 of the corresponding working jig 53, the conveying working platform 52 drives the corresponding working jig 53 to the lower part of the welding working end 51, the welding working end 51 presses down and welds the semi-finished packages 71 to form packaged finished products, finally, the conveying working platform 52 drives the corresponding working jig 53 to the lower part of the discharging device 60, and the discharging device 60 takes out the packaged finished products and discharges the packaged products.

The design focus of the utility model is that: through setting up material feeding unit, loading attachment, high cycle device and discharging device in the frame, cooperation transmission operation platform is with operation tool transfer gradually loading attachment, high cycle device and discharging device again, and loading attachment places half packing article in the operation chamber, and high cycle device welds half packing article and makes it become the finished product, and discharging device takes out the finished product in the operation chamber, and the packing of product realizes automaticly, improves packing inefficiency, reduces the cost of labor.

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. An automated packaging apparatus, characterized in that: comprises a frame, a control module, a feeding device, a high frequency device and a discharging device; the control module is arranged on the frame; the feeding device is arranged on the frame and connected with the control module, the feeding device is provided with a plurality of placing grooves for placing semi-finished packages, and the feeding device is provided with a flattening piece for flattening the semi-finished packages; the feeding device is arranged on the frame and positioned at the output end of the feeding device, and is connected with the control module; the high frequency device is arranged on the frame and connected with the control module, the high frequency device is provided with a welding operation end capable of moving up and down, the high frequency device is provided with a transmission operation platform, the transmission operation platform is provided with a plurality of operation jigs, and each operation jig is provided with an operation cavity; the discharging device is arranged on the high-frequency device and is connected with the control module.

2. The automated packaging apparatus of claim 1, wherein: the feeding device comprises a conveying belt and a first driving mechanism; the conveying belt and the first driving mechanism are arranged on the frame, the plurality of placing grooves are formed in the conveying belt, a preparation groove is formed in the output end of the conveying belt, a transfer device is arranged beside the preparation groove, and the first driving mechanism provides driving force for the conveying belt.

3. The automated packaging apparatus of claim 2, wherein: the transfer device comprises a first guide rail, a second driving mechanism, a first sliding block, a third driving mechanism and a transfer piece; the first guide rail is arranged on the frame, the second driving mechanism is arranged on the frame, the first sliding block can be movably arranged on the first guide rail back and forth along the extending direction of the first guide rail and is provided with driving force by the second driving mechanism, the third driving mechanism is arranged on the first sliding block, the transferring piece is arranged on the first sliding block in an up-and-down movable manner and is provided with driving force by the third driving mechanism, and the transferring piece is provided with a transferring end for transferring the semi-finished package and a flattening end for flattening the semi-finished package.

4. The automated packaging apparatus of claim 1, wherein: the feeding device comprises a second guide rail, a fourth driving mechanism, a second sliding block, a fifth driving mechanism and a clamping piece; the second guide rail is arranged on the frame, the fourth driving mechanism is arranged on the frame, the second sliding block can be movably arranged on the second guide rail back and forth along the extending direction of the second guide rail and is provided with driving force by the fourth driving mechanism, the fifth driving mechanism is arranged on the second sliding block, the clamping piece is arranged on the second sliding block in an up-down movable way and is provided with driving force by the fifth driving mechanism, the clamping piece is provided with a sixth driving mechanism, and the clamping piece is provided with an openable or closable clamping part and is provided with driving force by the sixth driving mechanism.

5. The automated packaging apparatus of claim 1, wherein: the transmission operation platform is a rotary disc, and the plurality of operation jigs are radially arranged at intervals on the periphery of the transmission operation platform.

6. The automated packaging apparatus of claim 1, wherein: the discharging device comprises a bracket, a third guide rail, a seventh driving mechanism, a third sliding block and a picking and placing piece; the support is arranged on the high-frequency device, the third guide rail is arranged on the support, the seventh driving mechanism is arranged on the third guide rail, the third sliding block can be movably arranged on the third guide rail back and forth along the extending direction of the third guide rail and is provided with driving force by the seventh driving mechanism, the picking and placing piece is arranged on the third sliding block and can move back and forth along with the back and forth movement of the third sliding block, and the picking and placing piece is provided with a picking and placing part capable of moving up and down.

7. The automated packaging apparatus of claim 6, wherein: the picking and placing part is a sucker.