CN214207352U - Automatic welding instrument for mask ear band - Google Patents

Abstract

An automatic welding instrument for mask ear bands, comprising: the automatic welding device comprises a winding mechanism, an automatic welding device and a mobile driver; the output end of the mechanism driver is connected with the upper winding main body and/or the lower winding main body and is used for driving the upper winding main body and/or the lower winding main body to rotate; the upper winding main body and the lower winding main body are connected in an upper-lower position, and a welding extending port is formed between the upper winding main body and the lower winding main body; the two sides of the upper winding main body are provided with upper wire clamping grooves, and the two sides of the lower winding main body are provided with lower wire clamping grooves; the clamping part of one of the upper winding clamp and the lower winding clamp can be reset to abut against the upper wire clamping groove, and the clamping part of the other one can be reset to abut against the lower wire clamping groove; the output end of the movable driver is connected with the welding column and used for driving the welding column to horizontally move, so that the welding column extends into the opening through over-welding. This winding mechanism is used for carrying out the material loading to the gauze mask ear area, and gauze mask flow direction of packaging line provides full-automatic material loading and welding function, has improved the ear area machining efficiency of gauze mask.

Description

Automatic welding instrument for mask ear band

Technical Field

The utility model relates to a gauze mask processing lines technical field especially relates to an automatic weld appearance for gauze mask ear area.

Background

The existing mask manufacturing process mainly adopts a mechanical device to realize full-automatic batch production; the mask mainly comprises a plurality of layers of filter cloth with a filtering function and a hanging lug for hanging on ears; in the prior art, the ear belts are welded on the surface of the mask cloth and hung at the left and right ears of a user, so that two ear belts are arranged on the mask surface; however, since the cutting, conveying and welding structures of the ear belt are complicated, the structures among the cutting portion, the conveying portion and the welding portion are not simple, and the processing and production efficiency of the left and right ears is low during mass production.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic welder for gauze mask ear area, it has used winding mechanism and automatic welder to realize full automatic feeding's function to the ear area.

To achieve the purpose, the utility model adopts the following technical proposal:

an automatic welding instrument for mask ear bands, comprising: the automatic welding device comprises a winding mechanism, an automatic welding device and a mobile driver;

the winding mechanism includes: the winding device comprises a mechanism driver, an upper winding main body, a lower winding main body, a winding lug and a lower winding clamp;

the output end of the mechanism driver is connected with the upper winding main body and/or the lower winding main body and is used for driving the upper winding main body and/or the lower winding main body to rotate; the upper winding main body and the lower winding main body are connected in an upper-lower position, and a welding extending port is formed between the upper winding main body and the lower winding main body; the upper end of the upper winding main body is connected with the winding lug, and the lower end of the lower winding main body is connected with the winding lug; the two sides of the upper winding main body are provided with upper wire clamping grooves, and the two sides of the lower winding main body are provided with lower wire clamping grooves; the clamping part of one of the upper winding clamp and the lower winding clamp can be reset to abut against the upper wire clamping groove, and the clamping part of the other one of the upper winding clamp and the lower winding clamp can be reset to abut against the lower wire clamping groove;

the automatic welding device includes: welding the post and the welding plate;

the output end of the movable driver is connected with the welding column and used for driving the welding column to horizontally move, so that the welding column passes through the welding extending port.

Preferably, the automatic welding apparatus further comprises: welding the moving component;

the welding movement assembly includes: the movable welding seat, the movable welding slider and the movable welding track are arranged on the movable welding seat;

the welding movable sliding block is arranged on the welding movable seat; the welding moving sliding block is movably arranged on the welding moving track, so that the welding moving seat moves along the welding moving track; the output end of the mobile driver is provided with a mobile driving column which is connected with the welding column; the welding movable seat is sleeved on the movable driving column.

Preferably, the welding movement assembly comprises: welding the frame and welding the guide post;

the welding guide column is fixed on the welding rack; the welding movable seat is movably connected with the welding guide post and moves along the extending direction of the welding guide post when moving.

Preferably, the mechanism driver includes: the mechanism comprises a mechanism mounting seat, a driving shaft, a mechanism driving motor, a driving wheel, a driving driven wheel and a driving synchronous belt;

the driving shaft is rotatably arranged on the mechanism mounting seat; the output end of the mechanism driving motor is connected with the driving wheel, and the driving driven wheel is synchronously and rotatably arranged on the driving shaft; the driving synchronous belt synchronously connects the driving wheel with the driving driven wheel; the driving shaft is connected with the upper winding main body and/or the lower winding main body in a synchronous rotating mode.

Preferably, the lower winding jig comprises: the clamp comprises a clamp driver, a clamp synchronous plate and a movable clamp block;

the output end of the clamp driver is connected with the clamp synchronous plate and used for driving the clamp synchronous plate to move; when the clamp synchronous plate moves, the movable clamp block is driven to move, so that the movable clamp block moves in the notch of the upper wire clamping groove or the notch of the lower wire clamping groove to adjust the size of the notch.

Preferably, the winding jig includes: the clamp guide column, the clamp base and the movable clamp block;

the clamp guide post is arranged on the clamp base; the clamp bases are respectively arranged outside the upper wire clamping groove and the lower wire clamping groove; the movable clamp block is mounted on the clamp guide post in a resetting and rotating manner; when the clamp synchronous plate moves, the clamp synchronous plate is abutted against the movable clamp block so as to drive the movable clamp block to rotate around the clamp guide post.

Preferably, the upper winding main body and/or the lower winding main body are/is provided with a reset extending groove; go up the winding anchor clamps and include: a restoring elastic member; the reset elastic piece is arranged in the reset extending groove;

the movable clamp block is provided with a driving part, a resetting part and the clamping part;

the driving part is used for driving the movable clamp block to rotate after the position of the driving part is adjusted;

the reset part is abutted against the reset elastic piece after rotating so as to reset the movable clamp block after rotating;

under the effect of drive division with the portion that resets, the clamping part rotates the back end lean on and keep away from in the notch of last wire clamping groove or the notch of lower wire clamping groove to adjust the notch size.

Preferably, the winding jig includes: an upper winding driver and an upper winding synchronous plate;

the output end of the upper winding driver is connected with the upper winding synchronous plate and used for driving the upper winding synchronous plate to move to drive the movable clamp block to move, so that the movable clamp block moves in the notch of the upper wire clamping groove or the notch of the lower wire clamping groove to adjust the size of the notch.

Preferably, the upper winding main body and/or the lower winding main body are/is provided with winding clamping grooves; one end of the winding bump extends outwards to form a winding clamping block; the winding clamping block is detachably arranged in the winding clamping groove;

the number of the winding bumps is at least a plurality; the winding convex blocks are also provided with the winding clamping grooves, and the two adjacent winding convex blocks are clamped in the winding clamping groove of the other winding convex block through the winding clamping block of one winding convex block.

Preferably, the method further comprises the following steps: ejecting the frame;

the ejection frame is positioned on the outer side of the winding lug and forms a gap with the winding lug; the ejection frame can move.

The utility model has the advantages that:

this winding mechanism is used for carrying out the material loading to the gauze mask ear area, and gauze mask flow direction of packaging line provides full-automatic material loading and welding function, has improved the ear area machining efficiency of gauze mask.

Drawings

FIG. 1 is a schematic view of an automatic welding apparatus;

FIG. 2 is a schematic structural view of a winding mechanism;

FIG. 3 is a schematic structural view of the winding mechanism;

fig. 4 is an enlarged view of a portion a in fig. 3.

Wherein:

a winding mechanism 1; the automatic welding device 2, the moving driver 6; a moving drive column 61;

a mechanism driver 11, an upper winding main body 12, a lower winding main body 13, a winding bump 14, an upper winding clamp 16 and a lower winding clamp 15; an ejection frame 17;

a winding position-locking groove 141 and a winding position-locking block 142;

a clamp driver 151, a clamp synchronization plate 152, a movable clamp block 153;

an upper wire clamping groove 121; welding the extending port 130, the lower wire clamping groove 131 and the reset extending groove 132;

a clamp guide post 161, a clamp base 162, a reset elastic member 163, a winding driver 164, and an upper winding synchronization plate 165; a driving part 1531, a reset part 1532, a clamping part 1533; the clearance groove 171;

a welding column 21, a welding plate 22, a welding moving assembly 23, a welding rack 24 and a welding guide column 25;

a welding movable seat 231, a welding movable slider 232 and a welding movable rail 233;

a mechanism mounting seat 111, a driving shaft 112, a mechanism driving motor 113, a driving wheel 114, a driving driven wheel 115 and a driving timing belt 116.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

An automatic welding instrument for mask ear bands, comprising: the automatic welding device comprises a winding mechanism 1, an automatic welding device 2 and a mobile driver 6;

the winding mechanism 1 includes: a mechanism driver 11, an upper winding body 12, a lower winding body 13, a winding bump 14, and a lower winding jig 15;

the output end of the mechanism driver 11 is connected with the upper winding main body 12 and/or the lower winding main body 13 and is used for driving the upper winding main body 12 and/or the lower winding main body 13 to rotate; the upper winding main body 12 and the lower winding main body 13 are connected in an upper-lower position, and a welding extending port 130 is formed between the upper winding main body and the lower winding main body; the upper end of the upper winding body 12 is connected with the winding bump 14, and the lower end of the lower winding body 13 is connected with the winding bump 14; the upper winding body 12 is provided with upper wire clamping slots 121 on two sides, and the lower winding body 13 is provided with lower wire clamping slots 131 on two sides; the clamping portion 1533 of one of the upper winding clamp 16 and the lower winding clamp 15 can be restably abutted against the upper clamping groove 121, and the clamping portion 1533 of the other can be restably abutted against the lower clamping groove 131;

the automatic welding device 2 includes: a welding post 21 and a welding plate 22;

the output end of the moving driver 6 is connected to the welding column 21, and is used for driving the welding column 21 to move horizontally, so that the welding column 21 passes through the welding protrusion opening 130.

This winding mechanism 1 is used for carrying out the material loading to the gauze mask ear area, and gauze mask flow direction of packaging line provides full-automatic material loading function, has improved the ear area machining efficiency of gauze mask.

Specifically, in the initial state, the upper winding body 12 is located above, and the lower winding body 13 is located below; the ear belt extends from the upper wire clamping groove 121 on the left side of the upper winding main body 12 to the lower wire clamping groove 131 on the left side of the lower winding main body 13, winds around the outer side of the lower winding bump 14 and enters the lower wire clamping groove 131 on the right side of the lower winding main body 13; at this time, the lower winding clamps 15 positioned in the lower clipping grooves 131 on both sides limit the ear straps, and the upper winding clamps 16 positioned in the upper clipping grooves 121 limit the ear straps, so that the ear straps are in a tightened state; at this time, an ear band cutting device having a cutting function and an automatic welding device 2 having a welding function may be provided at the welding protrusion 130, the ear band is cut at the welding protrusion 130 by the ear band cutting device, and the cut ear band is pushed out of the welding protrusion 130 by the automatic welding device 2; the ear band cutting device is a known cutting mechanism, and can be used for cutting the ear band, such as scissors; the automatic welding device 2 is a well-known mechanism having a welding function, such as an ultrasonic welding machine, and presses the ear band to the welding plate 22 by the welding column 21, and the ear band is welded to the mask cloth by an ultrasonic welding method. After the cut ear bands are welded on the mask cloth, the lower winding clamp 15 is loosened, and at the moment, the upper winding clamp 16 still clamps the uncut ear bands; the mechanism driver 11 is started to drive the upper winding main body 12 and the lower winding main body 13 to rotate 180 degrees, the upper winding clamp 16 positioned in the upper winding clamping groove 121 drives the lug belt to turn over 180 degrees, the lug belt is sequentially wound around the upper winding clamping groove 121 on the left side, the winding lug 14 at the upper end and the upper winding clamping groove 121 on the right side, the lug belt is enabled to be overlapped with an initial state after being turned over, namely, the upper winding clamping groove 121 after being turned over, the upper winding clamp 16 and the winding lug 14 are respectively overlapped with the initial state, the upper winding main body 12 is positioned below after being turned over, the lower winding main body 13 is positioned above after being turned over, the lug belt can be fed to the winding lug 14 again, and then the lug belt cutting device and the automatic welding device 2 can respectively cut and weld the lug belt which is newly fed.

The mechanism driver 11 is a well-known mechanism having a driving function, such as a motor, or a combination of a motor and a reducer. The upper and lower winding clamps 16 and 15 are well known alternatives that can be used to limit the position of the ear straps, such as by holding the ear straps or by limiting the ear straps in the slots.

The moving actuator 6 is a known driving mechanism such as an air cylinder, or a linear actuator composed of a motor and a screw.

Preferably, the automatic welding device 2 further comprises: a welding moving assembly 23;

the welding movement assembly 23 comprises: a welding movable seat 231, a welding movable slider 232 and a welding movable rail 233;

the welding movable slider 232 is mounted on the welding movable seat 231; the welding moving slider 232 is movably mounted on the welding moving rail 233, so that the welding moving seat 231 moves along the welding moving rail 233; the output end of the mobile driver 6 is provided with a mobile driving column 61, and the mobile driving column 61 is connected with the welding column 21; the welding movable seat 231 is sleeved on the movable driving column 61.

The welding moving assembly 23 is used for adjusting the moving state of the welding column 21, so that the welding column 21 keeps balance in the welding process, and the welding column 21 can weld the ear strap to the mask cloth stably, and the welding stability is improved. Specifically, the welding moving rail 233 is mounted on the work table 05, and the welding moving seat 231 is movably mounted on the welding moving rail 233 by the welding moving slider 232; and because the welding movable seat 231 is sleeved on the movable driving column 61, when the output end of the movable driver 6 drives the welding column 21 to move, the movable driving column 61 is supported by the welding movable seat 231, and the welding movable seat 231 can move, so that the center of gravity of the movable driving column 61 is centralized on the welding movable seat 231, the moving stability is improved, the movement of the movable driving column 61 is guided by the welding moving track 233, and the welding column 21 is not easy to shift.

Preferably, the welding movement assembly 23 comprises: a welding frame 24 and a welding guide 25;

the welding guide column 25 is fixed to the welding frame 24; the welding movable seat 231 is movably connected to the welding guide post 25, and moves along the extending direction of the welding guide post 25 when moving.

When the moving driver 6 is an air cylinder, the moving driver 6 is installed on the welding frame 24, and the output end of the moving driver is connected with the welding column 21 and used for driving the welding column 21 to move linearly, so that the welding column 21 passes through the welding extending port 130, and the ear band is welded on the mask cloth at the welding extending port 130; the welding frame 24 is arranged on the workbench; in the embodiment, the welding guide post 25 is installed on the welding frame 24 and connected to the welding movable seat 231, and the welding guide post 25 can ensure that the welding movable seat 231 moves linearly, so that the welding guide post 21 always moves linearly when extending and retracting.

Preferably, the mechanism driver 11 includes: a mechanism mounting seat 111, a driving shaft 112, a mechanism driving motor 113, a driving wheel 114, a driving driven wheel 115 and a driving synchronous belt 116;

the drive shaft 112 is rotatably mounted to the mechanism mounting base 111; the output end of the mechanism driving motor 113 is connected with the driving wheel 114, and the driving driven wheel 115 is synchronously and rotatably mounted on the driving shaft 112; the driving synchronous belt 116 synchronously connects the driving wheel 114 with the driven driving wheel 115; the drive shaft 112 is synchronously rotatably connected to the upper winding body 12 and/or the lower winding body 13.

The output end of the mechanism driving motor 113 rotates to drive the driving wheel 114 to rotate, the driven wheel 115 is driven to rotate under the driving action of the driving synchronous belt 116, and the driving shaft 112 rotates to drive the upper winding main body 12 and/or the lower winding main body 13 to rotate due to the synchronous rotation connection of the driving shaft 112 and the driven wheel 115, so that the 180-degree turnover of the upper winding main body 12 and/or the lower winding main body 13 is realized; the upper winding body 12 and/or the lower winding body 13 of the present embodiment may be directly driven by the mechanism driving motor 113 to rotate.

Preferably, the lower winding jig 15 includes: a clamp driver 151, a clamp synchronization plate 152, and a movable clamp block 153;

the output end of the clamp driver 151 is connected to the clamp synchronizing plate 152, and is used for driving the clamp synchronizing plate 152 to move; when the clamp synchronization plate 152 moves, the movable clamp block 153 is driven to move, so that the movable clamp block 153 moves in the notch of the upper wire clamping groove 121 or the notch of the lower wire clamping groove 131 to adjust the size of the notch.

The jig driver 151 is a mechanism known to have a function of driving movement, such as an air cylinder; when the output end of the clamp driver 151 extends and retracts, the clamp synchronization plate 152 can be driven to move to drive the movable clamp block 153 to move, so that the size of the notch of the upper wire clamping groove 121 or the size of the notch of the lower wire clamping groove 131 can be adjusted after the movable clamp block 153 moves.

The movable clamp block 153 is used for limiting the ear strap at the notch of the upper wire clamping groove 121 or the notch of the lower wire clamping groove 131, and the lower winding clamp 15 is specifically used for fixing two ends of the ear strap so as to facilitate cutting and welding; because the upper winding body 12 and the lower winding body 13 are rotatable and have similar or identical shapes, and the position of the upper wire clamping groove 121 after rotation overlaps the position of the lower wire clamping groove 131 before rotation, the position of the clamp synchronization plate 152 does not need to be changed, and the continuously-turned movable clamp block 153 can be driven at the same position, so that the movable clamp block 153 can still be driven by the clamp synchronization plate 152 after turning, and the size of the notch of the upper wire clamping groove 121 or the notch of the lower wire clamping groove 131 can be adjusted.

More preferably, the upper winding jig 16 includes: the clamp guide post 161, the clamp base 162 and the movable clamp block 153;

the jig guide post 161 is mounted on the jig base 162; the clamp bases 162 are respectively installed outside the upper wire clamping groove 121 and outside the lower wire clamping groove 131; the movable clamp block 153 is mounted on the clamp guide post 161 in a resetting and rotating manner; when the clamp synchronizing plate 152 moves, the clamp synchronizing plate abuts against the movable clamp block 153 to drive the movable clamp block 153 to rotate around the clamp guide post 161.

When the movable clamp block 153 rotates, it rotates around the clamp guide post 161, so that one end of the movable clamp block is close to and far away from the outer side of the upper wire clamping groove 121 or the inner side of the lower wire clamping groove 131, and the size of the notch is adjusted; further, the movable clamp block 153 is used for contacting the ear belt to press the ear belt in the groove, so that after the ear belt is cut off, the ear belt can still be limited in the groove through the movable clamp block 153, and the ear belt can be fed again after the upper winding main body 12 and the lower winding main body 13 are turned over.

Preferably, the upper winding body 12 and/or the lower winding body 13 is provided with a reset protrusion groove 132; the winding up jig 16 includes: the return spring 163; the reset elastic member 163 is installed in the reset protrusion groove 132;

the movable clamp block 153 is provided with a driving part 1531, a reset part 1532 and the clamping part 1533;

the driving part 1531 is used for driving the movable clamp block 153 to rotate after being adjusted in position;

the reset part 1532 abuts against the reset elastic member 163 after rotating, so that the movable clamp block 153 resets after rotating;

under the action of the driving part 1531 and the reset part 1532, the clamping part 1533 rotates to be at the bottom and away from the notch of the upper wire clamping groove 121 or the notch of the lower wire clamping groove 131, so as to adjust the size of the notch.

After the reset elastic member 163 is disposed in the reset extending groove 132, when the reset portion 1532 of the movable clamp block 153 is driven by the clamp synchronization board 152 or the upper winding synchronization board 165 to contact the reset elastic member 163, the reset elastic member 163 is elastically deformed, and at this time, the clamping portion 1533 abuts against the upper wire clamping groove 121 or the lower wire clamping groove 131, and the ear strap is pressed; the output terminal of the clamp driver 151 or the upper winding driver 164 is reset to reset the clamp synchronizing plate 152 or the upper winding synchronizing plate 165; at this time, since the clamping portion 1533 has no pressing force, the reset portion 1532 is originally pressed against the reset elastic member 163, the reset portion 1532 is reset by the elastic recovery of the reset elastic member 163, the clamping portion 1533 is far away from the wire clamping groove (the upper wire clamping groove 121 or the lower wire clamping groove 131), the size of the groove opening is increased, and the ear strap can be loosened; when the clamping portion 1533 abuts against the wire clamping groove, the notch is reduced, and the ear strap can be pressed.

The restoring elastic member 163 is a generally elastic workpiece, such as a sponge, an eraser, etc., which has elastic restoring capability and is made into a ball structure, for providing restoring function for the restoring portion 1532.

More preferably, the upper winding jig 16 includes: an upper winding driver 164 and an upper winding synchronizing plate 165;

the output end of the upper winding driver 164 is connected to the upper winding synchronization plate 165, and is used for driving the upper winding synchronization plate 165 to move, so as to drive the movable clamp block 153 to move, so that the movable clamp block 153 moves in the notch of the upper wire clamping groove 121 or the notch of the lower wire clamping groove 131, and the size of the notch is adjusted.

Go up wire winding anchor clamps 16 and be used for the one end of centre gripping ear area, after the ear area is cut off in welding draw-in mouth 130, go up wire winding driver 164's output and stretch out, synchronous board 165 of wire winding stretches out in the drive, compress tightly the ear area of last wire clamping groove 121 or lower wire clamping groove 131 that will correspond through activity anchor clamps piece 153, under the rotation effect through mechanism driver 11, drive wire winding main part 12 and wire winding main part 13 upset 180 degrees down, the ear area is loaded on again.

The upper winding actuator 164 is a mechanism having a generally horizontal driving function, such as an air cylinder or the like. The output end of the cylinder is connected with the upper winding synchronous plate 165, and the position of the upper winding synchronous plate 165 is adjusted through the expansion and contraction of the output end.

Preferably, the method further comprises the following steps: an ejection frame 17;

the ejection frame 17 is positioned outside the winding bump 14 and forms a gap with the winding bump 14; the ejection frame 17 is movable.

The ejection frame 17 can be driven to extend and retract by a known driver, such as an air cylinder; when the push-out frame 17 is retractable, the lug belt sleeved on the winding lug 14 can be separated from the winding lug 14, so that the lug belt can be easily separated from the winding lug 14 after being welded, and the separation efficiency of the lug belt is improved.

The ejection frame 17 is mounted to the jig synchronization plate 152. In the scheme, the ejection frame 17 is preferably arranged on the clamp synchronization plate 152, and the ejection frame 17 and the movable clamp block 153 can be driven only by using a single clamp driver 151 so as to synchronously clamp and push the ear belt; specifically, when the output end of the clamp driver 151 extends out, the clamp synchronization plate 152 synchronously drives the ejection frame 17 and the movable clamp block 153, the movable clamp block 153 clamps two ends of the ear belt, and the ejection frame 17 separates the middle section of the ear belt from the winding bump 14; when the movable clamp block 153 is released, the ear belt can automatically fall off.

Two sides of the winding bump 14 are recessed to form a clearance groove 171; the curved portion of the ejection frame 17 extends into the clearance groove 171. As shown in fig. 2, the ear strap, due to the tight state, will enter the lower clipping groove 131 or the upper clipping groove 121 linearly after bypassing the winding protrusion 14; after the bending portion of the push-out frame 17 extends into the clearance groove 171, the ear strap can be separated from the winding bump 14 after the push-out frame 17 moves and extends into the clearance groove 171.

Preferably, the upper winding body 12 and/or the lower winding body 13 is provided with a winding clamping groove 141; one end of the winding bump 14 extends outwards to form a winding clamping block 142; the winding position-locking block 142 is detachably mounted in the winding position-locking groove 141;

the number of the winding bumps 14 is at least a plurality; the winding protrusion 14 is further provided with the winding engaging groove 141, and two adjacent winding protrusions 14 are engaged with the winding engaging groove 141 of one winding protrusion through the winding engaging block 142 of the other winding protrusion.

The winding protrusion 14 is detachably mounted in the winding position-locking groove 141 to be respectively mounted in the upper winding body 12 and/or the lower winding body 13, so that the manufacturing cost of the winding mechanism 1 is reduced, and the daily replacement and maintenance are facilitated.

The winding mechanism 1 can prolong the length of the ear belt at the winding lug 14 by arranging a plurality of winding lugs 14 according to the actual height, and can process the ear belts with different lengths; for example, when a single winding bump 14 is used, the length of the winding bump is the path between the wire clamping groove and the outer side of the single winding bump 14; when the plurality of winding bumps 14 are provided, the plurality of winding bumps 14 can extend the length of the ear belt, so that the length of the ear belt can be processed in a targeted manner.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims (10)

1. The utility model provides an automatic weld appearance for gauze mask ear area which characterized in that includes: the automatic welding device comprises a winding mechanism, an automatic welding device and a mobile driver;

the winding mechanism includes: the winding device comprises a mechanism driver, an upper winding main body, a lower winding main body, a winding lug and a lower winding clamp;

the output end of the mechanism driver is connected with the upper winding main body and/or the lower winding main body and is used for driving the upper winding main body and/or the lower winding main body to rotate; the upper winding main body and the lower winding main body are connected in an upper-lower position, and a welding extending port is formed between the upper winding main body and the lower winding main body; the upper end of the upper winding main body is connected with the winding lug, and the lower end of the lower winding main body is connected with the winding lug; the two sides of the upper winding main body are provided with upper wire clamping grooves, and the two sides of the lower winding main body are provided with lower wire clamping grooves; the clamping part of one of the upper winding clamp and the lower winding clamp can be reset to abut against the upper wire clamping groove, and the clamping part of the other one can be reset to abut against the lower wire clamping groove;

the automatic welding device includes: welding the post and the welding plate;

the output end of the movable driver is connected with the welding column and used for driving the welding column to horizontally move, so that the welding column passes through the welding extending port.

2. The automatic welding apparatus of claim 1, wherein the automatic welding device further comprises: welding the moving component;

the welding movement assembly includes: the movable welding seat, the movable welding slider and the movable welding track are arranged on the movable welding seat;

the welding movable sliding block is arranged on the welding movable seat; the welding moving sliding block is movably arranged on the welding moving track, so that the welding moving seat moves along the welding moving track; the output end of the mobile driver is provided with a mobile driving column which is connected with the welding column; the welding movable seat is sleeved on the movable driving column.

3. The automated welding apparatus of claim 2, wherein the weld movement assembly comprises: welding the frame and welding the guide post;

the welding guide column is fixed on the welding rack; the welding movable seat is movably connected with the welding guide post and moves along the extending direction of the welding guide post when moving.

4. The automated welding apparatus of claim 1, wherein the mechanism driver comprises: the mechanism comprises a mechanism mounting seat, a driving shaft, a mechanism driving motor, a driving wheel, a driving driven wheel and a driving synchronous belt;

the driving shaft is rotatably arranged on the mechanism mounting seat; the output end of the mechanism driving motor is connected with the driving wheel, and the driving driven wheel is synchronously and rotatably arranged on the driving shaft; the driving synchronous belt synchronously connects the driving wheel with the driving driven wheel; the driving shaft is connected with the upper winding main body and/or the lower winding main body in a synchronous rotating mode.

5. The automatic welding apparatus of claim 1, wherein the down-winding clamp comprises: the clamp comprises a clamp driver, a clamp synchronous plate and a movable clamp block;

the output end of the clamp driver is connected with the clamp synchronous plate and used for driving the clamp synchronous plate to move; when the clamp synchronous plate moves, the movable clamp block is driven to move, so that the movable clamp block moves in the notch of the upper wire clamping groove or the notch of the lower wire clamping groove to adjust the size of the notch.

6. The automatic welding apparatus of claim 5, wherein the wire-up clamp comprises: the clamp guide column, the clamp base and the movable clamp block;

the clamp guide post is arranged on the clamp base; the clamp bases are respectively arranged outside the upper wire clamping groove and the lower wire clamping groove; the movable clamp block is mounted on the clamp guide post in a resetting and rotating manner; when the clamp synchronous plate moves, the clamp synchronous plate is abutted against the movable clamp block so as to drive the movable clamp block to rotate around the clamp guide post.

7. The automatic welding instrument according to claim 6, wherein the upper winding body and/or the lower winding body is provided with a reset protrusion groove; go up the winding anchor clamps and include: a restoring elastic member; the reset elastic piece is arranged in the reset extending groove;

the movable clamp block is provided with a driving part, a resetting part and the clamping part;

the driving part is used for driving the movable clamp block to rotate after the position of the driving part is adjusted;

the reset part is abutted against the reset elastic piece after rotating so as to reset the movable clamp block after rotating;

under the effect of drive division with the portion that resets, the clamping part rotates the back end lean on and keep away from in the notch of last wire clamping groove or the notch of lower wire clamping groove to adjust the notch size.

8. The automatic welding apparatus of claim 7, wherein the wire-up clamp comprises: an upper winding driver and an upper winding synchronous plate;

the output end of the upper winding driver is connected with the upper winding synchronous plate and used for driving the upper winding synchronous plate to move to drive the movable clamp block to move, so that the movable clamp block moves in the notch of the upper wire clamping groove or the notch of the lower wire clamping groove to adjust the size of the notch.

9. The automatic welding machine according to claim 1, wherein the upper winding body and/or the lower winding body is provided with a winding position-locking groove; one end of the winding bump extends outwards to form a winding clamping block; the winding clamping block is detachably arranged in the winding clamping groove;

the number of the winding bumps is at least a plurality; the winding convex blocks are also provided with the winding clamping grooves, and the two adjacent winding convex blocks are clamped in the winding clamping groove of the other winding convex block through the winding clamping block of one winding convex block.

10. The automatic welding apparatus of any of claims 1-9, further comprising: ejecting the frame;

the ejection frame is positioned on the outer side of the winding lug and forms a gap with the winding lug; the ejection frame can move.

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