CN216579244U - Automatic welding equipment that cosmetics core screen cloth was used - Google Patents

Abstract

The utility model relates to the technical field of welding equipment, in particular to automatic welding equipment for cosmetic core mesh, which comprises a mesh feeding group and an ultrasonic welding machine, wherein the ultrasonic welding machine is oppositely arranged on one side of the mesh feeding group, a jacking jig assembly, an artificial feeding part and a same-station rotary carrying mechanism are arranged below the ultrasonic welding machine, the jacking jig assembly comprises a product welding position jig, a front cylinder, a rear cylinder and an extrusion block are arranged below the product welding position jig, the extrusion block abuts against a jacking rod, the jacking rod is fixedly connected with the product welding position jig, the artificial feeding part comprises an artificial feeding assembly line, a sucker carrying group and a feeding to-be-positioned jig, and the same-station rotary carrying mechanism comprises a feeding sucker jig, a second servo motor and a discharging clamping jaw. The automatic feeding and discharging device is convenient to adopt a welding mode of a production line to carry out feeding and discharging at the same station, reduces manpower participation, improves the product welding speed of enterprises, and is high in efficiency, time-saving and labor-saving.

Description

Automatic welding equipment that cosmetics core screen cloth was used

Technical Field

The utility model relates to the technical field of welding equipment, in particular to automatic welding equipment for cosmetic core mesh cloth.

Background

The welding equipment refers to equipment required for realizing a welding process, and comprises a welding machine, welding process equipment and a welding auxiliary appliance.

Welding technology is used in various fields of social production, for example: welding of the inside core of cosmetics, the inside core of current many cosmetics all need weld 1-2 layers of screen cloth, and the size of screen cloth needs to carry out the manual work and handles in advance, and welds and needs manual operation, and is slow, wastes time and energy, and manual welding's quantity when being more, can lead to working strength big, influences physical and mental health, therefore needs to design the automatic weld equipment that a cosmetics core screen cloth was used and solves above-mentioned problem urgently.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide automatic welding equipment for cosmetic core mesh cloth, which solves the problems that 1-2 layers of mesh cloth need to be welded on the inner cores of a plurality of existing cosmetics in the background technology, the mesh cloth needs to be manually processed in advance, manual operation is needed for welding, the speed is low, time and labor are wasted, and the physical and mental health is affected due to the fact that the working strength is high when the number of manual welding is large.

In order to achieve the purpose, the utility model provides the following technical scheme: an automatic welding device for cosmetic core mesh cloth comprises a mesh cloth feeding group and an ultrasonic welding machine, wherein the ultrasonic welding machine is oppositely arranged on one side of the mesh cloth feeding group, a jacking jig assembly, an artificial feeding part and a same-station rotary carrying mechanism are arranged below the ultrasonic welding machine, the jacking jig assembly comprises a product welding position jig, a front air cylinder, a rear air cylinder and an extrusion block are arranged below the product welding position jig, the extrusion block abuts against a jacking rod, the jacking rod is fixedly connected with the product welding position jig, the jacking rod is connected with a jig jacking air cylinder, the artificial feeding part comprises an artificial feeding line, a sucker carrying group and a feeding to-be-positioned jig, the feeding to-be-positioned jig is positioned under the sucker carrying group, the same-station rotary carrying mechanism comprises a feeding sucker jig, a second servo motor and a feeding clamping jaw, the servo motor is connected with a rotating piece, and the rotating piece is fixedly connected with the feeding sucker jig and the discharging clamping jaw.

Preferably, the same-station rotary carrying mechanism further comprises a sliding table cylinder, the sliding table cylinder is connected with a clamping jaw cylinder, a sliding table groove is formed in the upper surface of the sliding table cylinder, and the clamping jaw cylinder is connected with the inner wall of the sliding table cylinder in a sliding mode through the sliding table groove.

Preferably, the jacking jig assembly further comprises a structure frame and a first integral jacking cylinder, the first integral jacking cylinder is located below the structure frame, the inner wall of the structure frame is fixedly connected with a linear rail, and the linear rail is in sliding connection with the extrusion block.

Preferably, the below of second servo motor is provided with the whole jacking cylinder of second, the top of the whole jacking cylinder of second is connected with the same-position support, and is connected fixedly with slip table cylinder and/or material loading sucking disc tool and/or rotation piece with the same-position support.

Preferably, the manual feeding part further comprises a first servo motor, a front conveying cylinder and a rear conveying cylinder are arranged above the first servo motor, a track is connected to the upper surface of the front conveying cylinder and the lower surface of the rear conveying cylinder, and the track surface is in sliding connection with the sucker conveying group.

Preferably, the first servo motor is connected with a connecting rod, and one end, far away from the first servo motor, of the connecting rod is connected and fixed with a feeding jig to be positioned.

Preferably, one side of the mesh cloth feeding group is relatively provided with a mesh cloth receiving group, a rotary cutter combination is arranged between the mesh cloth receiving group and the mesh cloth feeding group, and the rotary cutter combination comprises a blade and a rotating assembly.

Preferably, a cloth clamping assembly is arranged below the rotary cutter assembly, and a blanking assembly line is arranged on one side, away from the mesh cloth feeding assembly, of the mesh cloth receiving assembly.

Compared with the prior art, the utility model has the beneficial effects that: this automatic weld equipment that cosmetics core screen cloth was used is convenient for adopt the welding mode of assembly line, carries out the last unloading of same station, reduces the manpower and participates in, has improved the product welding speed of enterprise, and is efficient, labour saving and time saving.

(1) Through setting up ultrasonic bonding machine, jacking tool subassembly, artifical material loading part, the rotatory transport mechanism of same station and unloading assembly line, can save a lot of manpower participation links, all hand into by mechanical automation with product fortune, welding and transport out part, reduce the cycle of every cosmetics core screen cloth operation production, can be quick on a large scale produce to reduce the time cost, let the competitiveness of product bigger.

(2) Receive the material group through setting up screen cloth blowing group, rotary cutter combination, clamp cloth combination and screen cloth, can be fine take out the screen cloth from screen cloth blowing group, press from both sides tightly through pressing from both sides the cloth combination to roll up on the screen cloth receives the material group, and can accomplish the back through rotary cutter combination in the welding, the automatic connection of cutting the product and the cloth of connecting, the in-service use is respond well, improves welding efficiency more.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic structural view of the artificial feeding portion of FIG. 1 according to the present invention;

FIG. 3 is a schematic structural view of the jacking jig assembly shown in FIG. 1 according to the present invention;

fig. 4 is a schematic structural view of the same-position rotary conveying mechanism in fig. 1.

In the figure: 1. arranging mesh cloth in groups; 2. ultrasonic welding machine; 3. a rotary cutter assembly; 4. clamping a cloth combination; 5. jacking the jig assembly; 501. a product welding position jig; 502. front and rear cylinders; 503. extruding the block; 504. a jacking rod; 505. jacking the cylinder by the jig; 506. a first integral jacking cylinder; 6. a manual feeding part; 601. manually feeding the material to a production line; 602. carrying the cylinder forwards and backwards; 603. a first servo motor; 604. a sucker carrying group; 605. feeding a jig to be positioned; 7. rotating the carrying mechanism at the same station; 701. a sliding table cylinder; 702. feeding sucker jigs; 703. a second integral jacking cylinder; 704. a second servo motor; 705. blanking clamping jaws; 706. a clamping jaw cylinder; 8. a screen cloth receiving group; 9. and (5) a blanking assembly line.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1-4, an embodiment of the present invention is shown: an automatic welding device for cosmetic core mesh cloth comprises a mesh cloth feeding group 1 and an ultrasonic welding machine 2, wherein the ultrasonic welding machine 2 is arranged on one side of the mesh cloth feeding group 1 relatively, a jacking jig assembly 5, an artificial feeding part 6 and a synchronous station rotary carrying mechanism 7 are arranged below the ultrasonic welding machine 2, the jacking jig assembly 5 comprises a product welding position jig 501, a front air cylinder 502 and a rear air cylinder 502 and an extrusion block 503 are arranged below the product welding position jig 501, the extrusion block 503 is abutted with a jacking rod 504, the jacking rod 504 is fixedly connected with the product welding position jig 501, the jacking rod 504 is connected with a jig jacking air cylinder 505, the artificial feeding part 6 comprises an artificial feeding assembly line 601, a suction disc carrying group 604 and a feeding jig 605 to be positioned, the feeding jig 605 to be positioned is positioned under the suction disc carrying group 604, the synchronous station rotary carrying mechanism 7 comprises a feeding suction disc 702, A second servo motor 704 and a discharging clamping jaw 705, wherein the servo motor is connected with a rotating piece, and the rotating piece is fixedly connected with the feeding sucker jig 702 and the discharging clamping jaw 705.

As shown in fig. 4, the same-station rotary carrying mechanism 7 further includes a sliding table cylinder 701, the sliding table cylinder 701 is connected with a clamping jaw cylinder 706, a sliding table groove is formed in the upper surface of the sliding table cylinder 701, the clamping jaw cylinder 706 is connected with the inner wall of the sliding table cylinder 701 in a sliding manner through the sliding table groove, the clamping jaw cylinder 706 slides the sliding table groove, so that the clamping is shortened when the product is clamped, the product is lengthened when the product is released, and the product can be clamped and placed at a specified position.

As shown in fig. 3, the jacking jig assembly 5 further includes a structure frame and a first integral jacking cylinder 506, the first integral jacking cylinder 506 is located below the structure frame, the inner wall of the structure frame is fixedly connected with a linear rail, and is in sliding connection with the extrusion block 503 through the linear rail, the first integral jacking cylinder 506 integrally lifts and displaces the structure frame and the assembly connected to the structure frame.

As shown in fig. 2, a second integral jacking cylinder 703 is arranged below the second servo motor 704, a co-operating support is connected above the second integral jacking cylinder 703, the co-operating support is fixedly connected with the sliding table cylinder 701 and/or the feeding sucker jig 702 and/or the rotating member, and the second integral jacking cylinder 703 integrally lifts and displaces the components connected to the co-operating support and the co-operating support, so as to facilitate feeding and discharging of the feeding sucker jig 702 and the discharging clamping jaw 705.

As shown in fig. 2, the manual feeding part 6 further includes a first servo motor 603, a front and rear conveying cylinder 602 is disposed above the first servo motor 603, a rail is connected to an upper surface of the front and rear conveying cylinder 602, a surface of the rail is slidably connected to the suction cup conveying group 604, the suction cup conveying group 604 slides on the front and rear conveying cylinder 602 and provides power by the front and rear conveying cylinder 602 to convey a product to the feeding fixture 605 to be positioned.

As shown in fig. 2, the first servo motor 603 is connected with a connecting rod, and one end of the connecting rod away from the first servo motor 603 is fixedly connected with the feeding jig 605 to be positioned, and the first servo motor 603 drives the working direction of the feeding jig 605 to be positioned to rotate to the designated direction through the connecting rod.

As shown in fig. 1, a mesh receiving group 8 is oppositely arranged on one side of the mesh feeding group 1, a rotary cutter assembly 3 is arranged between the mesh receiving group 8 and the mesh feeding group 1, the rotary cutter assembly 3 comprises a blade and a rotating component, and the rotary cutter assembly 3 cuts the product and the connected cloth.

As shown in fig. 1, a cloth clamping assembly 4 is arranged below the rotary cutter assembly 3, a blanking assembly line 9 is arranged on one side of the mesh cloth receiving assembly 8, which is far away from the mesh cloth discharging assembly 1, the cloth is clamped tightly by the cloth clamping assembly 4, and the finished product flows to the next operation link by the blanking assembly line 9.

The working principle is as follows: one end of a coiled film is manually put into a mesh cloth discharging group 1 in advance, the other end of the coiled film is pulled out and fixed into a mesh cloth receiving group 8, after the preparation is finished, the manual feeding is started, a product is put into a manual feeding part 6, a product flows in through a manual feeding assembly line 601, a sucker carrying group 604 sucks and carries the in-place product into a feeding to-be-positioned jig 605, a first servo motor 603 works to rotate the direction of the product to a designated direction, the same-station rotating and carrying mechanism 7 works, the feeding sucker jig 702 sucks the product, a second servo motor 704 rotates to put the product into a product welding position jig 501, a cloth clamping combination 4 clamps the cloth, a jig jacking cylinder 505 pushes the product out, a front cylinder 502 pushes out a squeezing block 503 and presses a jacking rod 504 pushed out by the jacking cylinder to fix the position of the product, an ultrasonic welding machine 2 starts welding, and after the welding is finished, the mesh cloth and the product are welded together, and (3) performing the next action, enabling the rotary cloth cutting combination to move forward to the position above the product, enabling the blades to rotate, enabling a second integral jacking cylinder 703 in the same-station rotary carrying mechanism 7 to jack up the whole mechanism, cutting the product and the connected cloth by the rotary blades, returning all cylinders to the original position, grabbing the product by a blanking clamping jaw 705 on the same station, placing the product into a blanking assembly line 9, and meanwhile, feeding the product in the next fixture 605 to be positioned into a product welding positioning fixture 501, so as to circulate.

Same-station rotary carrying mechanism 7: the second servo motor 704 controls the rotation positions of the feeding sucker jig 702 and the discharging clamping jaw 705, the feeding sucker jig 702 is used for feeding products, the suction position is rotated to the product position firstly by the second servo motor 704, the second integral jacking cylinder 703 in the same-station rotary carrying mechanism 7 descends, the feeding sucker jig 702 is cut off, the products are sucked into the product welding position jig 501, the products are discharged by multi-cylinder transmission, the suction position is rotated to the product position firstly by the second servo motor 704, the integral jacking cylinder in the same-station rotary carrying mechanism 7 descends, the clamping jaw cylinder 706 is pushed out by the sliding table cylinder 701, and the clamping jaw cylinder 706 loosens to place the clamped products on the discharging assembly line 9.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The utility model provides an automatic weld equipment that cosmetics core screen cloth was used, includes screen cloth blowing group (1) and ultrasonic welding machine (2), ultrasonic welding machine (2) set up the one side in screen cloth blowing group (1) relatively, its characterized in that: the utility model discloses a production line of ultrasonic welding machine, including ultrasonic welding machine's (2) below be provided with jacking tool subassembly (5), artifical material loading part (6) and with station rotatory transport mechanism (7), jacking tool subassembly (5) are including product welding position tool (501), cylinder (502) and extrusion block (503) around product welding position tool (501)'s below is provided with, extrusion block (503) offset has liftout pole (504), liftout pole (504) are connected fixedly with product welding position tool (501), liftout pole (504) are connected with tool jacking cylinder (505), artifical material loading part (6) are including artifical material loading assembly line (601), sucking disc transport group (604) and material loading tool (605) of locating, material loading tool (605) of locating under sucking disc transport group (604), with station rotatory transport mechanism (7) including material loading sucking disc tool (702), Second servo motor (704) and unloading clamping jaw (705), servo motor is connected with the rotation piece, and rotates the piece and be connected fixedly with material loading sucking disc tool (702) and unloading clamping jaw (705).

2. An automatic welding apparatus for cosmetic core webs, as defined in claim 1, wherein: rotatory transport mechanism of same station (7) still includes slip table cylinder (701), slip table cylinder (701) are connected with clamping jaw cylinder (706), the slip table groove has been seted up to the upper surface of slip table cylinder (701), clamping jaw cylinder (706) are through the inner wall sliding connection of slip table groove and slip table cylinder (701).

3. An automatic welding apparatus for cosmetic core webs, as defined in claim 1, wherein: jacking tool subassembly (5) still include structure frame and first whole jacking cylinder (506), first whole jacking cylinder (506) are located the below of structure frame, and the inner wall fixedly connected with line rail of structure frame to be sliding connection through line rail and extrusion piece (503).

4. An automatic welding apparatus for cosmetic core webs, as defined in claim 1, wherein: the lower part of the second servo motor (704) is provided with a second integral jacking cylinder (703), the upper part of the second integral jacking cylinder (703) is connected with a same-station support, and the same-station support is fixedly connected with the sliding table cylinder (701) and/or the feeding sucker jig (702) and/or the rotating part.

5. An automatic welding apparatus for cosmetic core webs, as defined in claim 1, wherein: artifical material loading part (6) still include first servo motor (603), transport cylinder (602) around the top of first servo motor (603) is provided with, transport cylinder (602) upper surface is connected with the track around, and orbital surface and sucking disc transport group (604) sliding connection.

6. An automatic welding apparatus for cosmetic core webs, as defined in claim 5, wherein: the first servo motor (603) is connected with a connecting rod, and one end, far away from the first servo motor (603), of the connecting rod is fixedly connected with a feeding jig (605) to be positioned.

7. An automatic welding apparatus for cosmetic core webs, as defined in claim 1, wherein: one side of the screen cloth discharging group (1) is relatively provided with a screen cloth receiving group (8), a rotary cutter combination (3) is arranged between the screen cloth receiving group (8) and the screen cloth discharging group (1), and the rotary cutter combination (3) comprises a blade and a rotating assembly.

8. An automatic welding apparatus for cosmetic core webs, as defined in claim 7, wherein: a cloth clamping assembly (4) is arranged below the rotary cutter assembly (3), and a blanking assembly line (9) is arranged on one side, away from the mesh cloth discharging assembly (1), of the mesh cloth receiving assembly (8).

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