CN216760852U - Bonding equipment is used in production of magnetic stripe thin pad - Google Patents

Abstract

The utility model discloses bonding equipment for producing a magnetic stripe thin cushion, which comprises a rack, a primary bonding device, a secondary bonding device and a rolling mechanism, wherein the primary bonding device is positioned at the left end of the secondary bonding device, the rolling mechanism is positioned in front of the secondary bonding device, a feed inlet which is convenient for leading a sponge layer into is arranged at the position, behind the secondary bonding device, of the rack, a cloth guide roller is arranged at the feed inlet, so that materials are bonded with a magic tape through the primary bonding device, then the bonding of a thin sponge and a first fixing strip is completed through the secondary bonding device, and bonded products are bonded for the second time through the rolling mechanism, so that the bonding degree is improved, the bonding among the first fixing strip, the thin sponge and the magic tape is automatically completed, the labor is reduced, and the working efficiency is improved.

Description

Bonding equipment is used in production of magnetic stripe thin pad

Technical Field

The utility model relates to the field of core body preparation, in particular to bonding equipment for producing a magnetic stripe thin pad.

Background

At present, diseases such as hypertension, diabetes, cardiovascular and cerebrovascular diseases and the like become high-incidence diseases in Chinese population, and the incidence population gradually shows a younger trend. According to medical investigation, the microcirculation disorder is a source of various diseases, and the Chinese medicine considers that the human body self-regulation mechanism is the best treatment method, so that the inevitable trend of future social development is how to promote the human body microcirculation and strengthen the human body self-regulation mechanism. As one of health care forms, magnetic therapy is considered as a relatively safe human body micro-therapy method, and a plurality of magnetic therapy pads are available on the market at present, many of the magnetic therapy pads cannot be disassembled, only one magnetic therapy pad can be used as the magnetic therapy pad, and the singleness is too strong.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems in the background art and provides a bonding device for producing a magnetic stripe thin pad.

The technical purpose of the utility model is realized by the following technical scheme:

the utility model provides a bonding equipment is used in production of magnetic stripe thin pad is including frame, an adhesive device, secondary adhesive device and rolling mechanism, an adhesive device is located secondary adhesive device's left end, rolling mechanism is located secondary adhesive device's the place ahead, the frame is located the position department at secondary adhesive device rear is equipped with the leading-in feed inlet of sponge layer of being convenient for, the feed inlet is equipped with the fabric guide roller for the material is earlier through an adhesive device and accomplishes the bonding of first fixed strip and magic subsides, later accomplishes the bonding of thin sponge and first fixed strip through secondary adhesive device, carries out the secondary through rolling mechanism with the product after the bonding and bonds, improves the laminating degree, accomplishes the bonding between first fixed strip and thin sponge and the magic subsides automatically, has reduced the manual work, has improved work efficiency.

Preferably, an adhesive device is established including the level first slide rail on the lateral wall of frame, establish fixed plate, slider, second slide rail, lifter plate, vacuum chuck, first rubber coating mechanism on the frame workstation, the slider with first slide rail sliding connection, the second slide rail with slider fixed connection, the slip direction of second slide rail with the slip direction of first slide rail is perpendicular, the lifter plate with second slide rail sliding connection, vacuum chuck installs on the lifter plate, set up the first fixed slot of being convenient for place first fixed strip and be convenient for place the second fixed slot that the magic was pasted on the fixed plate, first rubber coating mechanism is located the top of second fixed slot is placed first fixed strip in first fixed slot, pastes the magic with first fixed strip

Place in the second fixed slot, paint glue on the surface that the magic was pasted through rubber coating mechanism, later vacuum chuck will place the first fixed strip in first fixed slot and adsorb the surface that the magic was pasted, can accomplish the automatic bonding of first fixed strip and magic subsides.

Preferably, the first gluing mechanism comprises a gluing sliding rail, a gluing electric push rod and a gluing nozzle, the gluing sliding rail is arranged along the front-back direction of the frame, the gluing electric push rod is connected with the gluing sliding rail in a sliding mode, the gluing nozzle is installed at the push rod end of the gluing electric push rod, the gluing nozzle is moved back and forth through the gluing sliding rail, and the gluing nozzle is moved up and down through the gluing electric push rod.

Preferably, the secondary bonding device comprises a conveyor belt positioned on the rack, and a second gluing mechanism and a primary pressing mechanism are sequentially arranged from the conveying starting end to the conveying terminal end of the conveyor belt;

the conveying belt is fixedly connected with a placing groove which is convenient for placing the first fixing strip in an array manner;

the second gluing mechanism and the first gluing mechanism have the same structure;

preliminary pressing mechanism is including being located the cylinder of frame inside surface, the push rod end fixedly connected with clamp plate of cylinder, the clamp plate is located the top of conveyer belt, can scribble glue with every upper surface of placing the first fixed strip in the standing groove through second rubber coating mechanism, makes first fixed strip can the equidistance place in the standing groove through the standing groove, can carry out preliminary pressfitting with thin sponge and first fixed strip through preliminary pressing mechanism to accomplish the bonding between thin sponge and the first fixed strip.

Preferably, the pressing plate is provided with a vacuum adsorption hole on one side close to the conveyor belt, the pressing plate can be conveniently demoulded from the placing groove through the upward moving thin sponge, the first fixing strip is placed in the placing groove and is adhered to the thin sponge, the thin sponge is conveniently transmitted to the rolling mechanism, and the first fixing strip is prevented from being clamped in the placing groove to affect transmission.

Preferably, rolling mechanism establishes including passing through the bearing two first compression rollers and the second compression roller that are parallel to each other in the frame, the second compression roller is located the below of first compression roller, the upper surface of second compression roller is higher than the upper surface of conveyer belt, the second compression roller is the drive roll, first compression roller is the driven voller, the one end fixedly connected with drive arrangement of second compression roller, drive arrangement is prior art, can be the motor, thereby drives the roll of first compression roller through the rotation of drive arrangement drive second compression roller for accomplish the secondary extrusion between thin sponge and the first fixed strip, strengthen the laminating degree.

Preferably, the distance between every two placing grooves is the same as the distance between no two first fixing strips on the thin sponge layer.

A magnetic stripe thin cushion comprises a cushion core and a cloth cover wrapped outside the cushion core, the cloth cover and the cushion core wrapped in the cloth cover, wherein the cushion core comprises a thin sponge layer, first fixing strips, a magnetic stripe, second fixing strips and a high-density sponge layer, the first fixing strips are arranged on the upper surface of the thin sponge layer in an array mode, a clamping groove is formed between every two first fixing strips, the magnetic stripe is arranged on the clamping groove, the second fixing strips are arranged on the upper surface of the magnetic stripe in an array mode, the length direction of the second fixing strips is perpendicular to the length direction of the first fixing strips, the high-density sponge layer is arranged above the second fixing strips, the first fixing strips and the second fixing strips are detachably connected through magic tapes, the magnetic stripe can be clamped in the clamping groove through the clamping groove formed between every two first fixing strips, and can not be translocated in the using process, through the cross design of second fixed strip and first fixed strip, can further fix the magnetic stripe in the draw-in groove, prevent that the magnetic stripe from breaking away from in the draw-in groove, later with thin sponge layer and high density sponge layer pass through the magic and paste and carry out releasable connection, alright realize dismantling of magnetic stripe and connect, when the user need not to carry out the magnetotherapy, the dismantlement that the accessible magic was pasted, take out the magnetic stripe, later the bonding is as ordinary mat use, make thin pad both can regard as ordinary mat to use, also can use as magnetotherapy pad, a thing is dual-purpose, use more hommization.

The cloth cover and the cushion core are detachably connected, so that the cloth cover can be frequently replaced and washed.

Preferably, the bottom adopts thin sponge layer, and the top adopts high density sponge layer, can guarantee that the thickness of mat can not be too thick, and the comfort of thin pad is not influenced again through the density sponge layer at top simultaneously.

Preferably, first fixed strip can enclose into a draw-in groove including perpendicular blend stop and the horizontal blend stop that is located perpendicular blend stop both ends through the perpendicular blend stop of two first fixed strips and horizontal blend stop to with the magnetic stripe card in the draw-in groove.

Preferably, the distance A between the two transverse barrier strips is smaller than the transverse degree of the magnetic strips, so that the magnetic strips are guaranteed to be clamped in the clamping grooves.

Preferably, the two second fixing strips are separated by a distance, so that materials can be reduced while the magnetic strips are prevented from being separated.

In conclusion, the utility model has the beneficial effects that:

1. according to the utility model, the first fixing strip and the magic tape are bonded through the one-time bonding device, so that the first fixing strip and the magic tape are bonded without manual work, the bonding process is automatic and reliable, the bonding position is accurate, the production efficiency is improved, the device is suitable for large-scale production in factories, and the problem of high defective rate in the traditional manual bonding process is solved.

2. According to the utility model, the first fixing strips are sequentially placed on the placing groove of the conveyor belt through the secondary bonding device, the first fixing strips can be equidistantly placed in the placing groove through the placing groove, the thin sponge and the first fixing strips can be preliminarily pressed through the pressing plate of the preliminary pressing plate mechanism, so that the bonding between the thin sponge and the first fixing strips is completed, the first fixing strips are equidistantly and fixedly connected to the thin sponge, the measurement and installation through manpower are not needed, the production efficiency is improved, meanwhile, the situation that the magnetic strips cannot be installed in the later period due to the fact that the distance between the first fixing strips and the first fixing strips is too large or too small through manual installation can be prevented.

3. According to the utility model, the bonded product is secondarily bonded through the rolling mechanism, so that the bonding degree of the product is improved.

Drawings

FIG. 1 is a schematic cross-sectional view of a thin magnetic strip mat of the present invention;

FIG. 2 is a schematic view of a thin magnetic strip mat of the present invention in disassembled form;

FIG. 3 is a schematic view of the installation of the thin sponge of the magnetic stripe thin pad of the present invention with the first fixing stripe and the magnetic stripe;

figure 4 is a schematic view of the magnetic stripe thin pad magic tape and the first fixing strip of the present invention;

FIG. 5 is a schematic bottom view of the high density sponge layer of the present invention with a second fastening strip attached;

FIG. 6 is an overall schematic view of a first bonding apparatus of the present invention;

FIG. 7 is a schematic rear view of a first bonding apparatus of the present invention;

FIG. 8 is a schematic bottom view of a first bonding apparatus of the present invention;

FIG. 9 is a schematic view of a placement slot on a conveyor belt of a first bonding apparatus of the present invention;

FIG. 10 is a schematic bottom view of the platen of the present invention;

fig. 11 is a schematic view of a fixation plate of the present invention.

Detailed Description

The following specific examples are given by way of illustration only and not by way of limitation, and it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made in the examples without inventive faculty, and yet still be protected by the scope of the claims.

The present invention will be described in detail below by way of examples with reference to the accompanying drawings.

Referring to fig. 1-5, a magnetic stripe thin cushion comprises a cushion core 2 and a cloth cover 1 wrapped outside the cushion core, the cloth cover 1 and the cushion core 2 wrapped inside the cloth cover 1, the cushion core 2 comprises a thin sponge layer 21, a first fixing strip 22, a magnetic strip 23, a second fixing strip 24 and a high-density sponge layer 25, the first fixing strips 22 are arranged on the upper surface of the thin sponge layer 21 in an array, a clamping groove 27 is formed between every two first fixing strips, the magnetic strip 23 is arranged on the card slot 27, the second fixing strips 24 are arranged on the upper surface of the magnetic strip 23 in an array, the length direction of the second fixing strip 24 is perpendicular to the length direction of the first fixing strip 22, the high-density sponge layer 25 is arranged above the second fixing strip 24, the first fixing strip 22 and the second fixing strip 24 are detachably connected by a magic tape 26, the first fixing strip 22 includes a vertical bar 221 and a horizontal bar 222 at two ends of the vertical bar.

As shown in fig. 6 to 11, an adhering device 3 for producing a magnetic stripe cushion comprises a frame 31, a primary adhering device 32, a secondary adhering device 33 and a rolling mechanism 34, wherein the primary adhering device 32 is located at the left end of the secondary adhering device 33, the rolling mechanism 34 is located in front of the secondary adhering device 33, a feed inlet 35 for facilitating sponge layer introduction is arranged at a position behind the secondary adhering device 33 of the frame 31, the feed inlet is provided with a cloth guide roller 83, the primary adhering device 32 comprises a first slide rail 311 horizontally arranged on the side wall of the frame 31, a fixing plate 312, a slide block 313, a second slide rail 314, a lifting plate 315, a vacuum suction cup 316 and a first gluing mechanism 319, the slide block 313 is slidably connected with the first slide rail, the second slide rail 314 is fixedly connected with the slide block 313, the sliding direction of the second sliding rail 314 is perpendicular to the sliding direction of the first sliding rail 311, the lifting plate 315 is slidably connected to the second sliding rail 314, the vacuum chuck 316 is installed on the lifting plate 315, a first fixing groove 317 convenient for placing the first fixing strip 22 and a second fixing groove 318 convenient for placing the magic tape 26 are formed in the fixing plate 312, the first gluing mechanism 319 is located above the second fixing groove 318, the first gluing mechanism 319 comprises a gluing sliding rail 3191, a gluing electric push rod 3192 and a gluing nozzle 3193, the gluing sliding rail 3191 is arranged along the front and back direction of the rack 31, the gluing electric push rod 3192 is slidably connected to the gluing sliding rail 3191, the gluing nozzle 3193 is installed at the push rod end of the gluing electric push rod 3192, the secondary bonding device 33 comprises a conveying belt 331 located on the rack, and the conveying belt 331 is sequentially provided with a second gluing mechanism 332 and a primary pressing device from the conveying start end to the conveying end A closing mechanism 333; a placing groove 3311 for conveniently placing the first fixing strip 22 is fixedly connected to the conveyor belt 331 in an array manner; the second glue coating mechanism 332 and the first glue coating mechanism 319 have the same structure; the preliminary pressing mechanism 333 includes an air cylinder 3331 located on the inner top surface of the frame 31, a pressing plate 3332 is fixedly connected to a push rod end of the air cylinder 3331, the pressing plate 3332 is located above the conveyor belt 331, a vacuum absorption hole 3334 is formed in one side of the pressing plate 3332 close to the conveyor belt, the rolling mechanism 34 includes two first pressing rollers 341 and a second pressing roller 342 which are parallel to each other and are arranged on the frame 31 through a bearing, the second pressing roller 342 is located below the first pressing roller 341, the upper surface of the second pressing roller 342 is higher than the upper surface of the conveyor belt 331, the second pressing roller 342 is a driving roller, the first pressing roller 341 is a driven roller, one end of the second pressing roller 342 is fixedly connected with a driving device 343, the driving device 343 may be a motor, the terminal of the first sliding rail 311 is located below the second gluing mechanism 332, and it is ensured that the first fixing strip can be transported to a placement groove on the conveyor belt, the initiating terminal and the terminal of first slide rail 311 all are equipped with limit switch 8, the position department of first fixed slot also is equipped with limit switch, the position department of second fixed slot is equipped with limit switch, be equipped with the limit point with limit switch matched with on the slider 313, limit switch 82 is installed along the direction of delivery of conveyer belt and the place that is located second rubber coating mechanism 332 side to the frame, the side of standing groove is equipped with the spacing bump 81 of mutually supporting with limit switch, and limit switch's control, this is very conventional prior art, consequently does not give unnecessary details at the present case.

The working principle is as follows: manually placing the cut first fixing strip 22 in the first fixing groove 317, placing the magic tape 26 in the second fixing groove 318, coating glue on the upper surface of the first fixing strip 22 through the primary glue coating mechanism 319, in order to prevent the glue from overflowing and affecting the demoulding of the magic tape when too much glue is coated, in the coating process, not coating the glue on the surface of the magic tape 26, then adsorbing the first fixing strip 22 through the lifting plate 314 by the vacuum suction cup 316, then moving the first fixing strip above the magic tape 26 through the first sliding rail 311, then descending through the lifting plate 314 to adhere the first fixing strip with the magic tape, transferring the first fixing strip 22 adhered with the magic tape 26 to the secondary adhering device 33 by the vacuum suction cup 316, after contacting the limit switch, moving the vacuum suction cup 316 downwards to place the first fixing strip 22 above the conveying belt, then returning the vacuum suction cup along the first sliding rail, the next first fixing strip is bonded with the magic tape 26 again, the second gluing mechanism 332 moves downwards to glue the surface of the first fixing strip without the magic tape 26, the vacuum chuck 316 places the second first fixing strip with the magic tape glued in the placing groove to glue, the conveyor belt moves once, the next placing groove moves to the position below the second gluing mechanism 332, the controller counts once again through the limit switch 82, when the controller accumulates corresponding number, such as nine second fixing strips in the case, the pressing plate 3332 of the primary pressing mechanism 332 presses downwards, the thin sponge which is conveyed to the upper part of the conveyor belt through the cloth guide roller 83 is pressed downwards, so that the first fixing strip is fixed on the surface of the thin sponge, the thin sponge after fixed-point pressing moves upwards in the primary pressing mechanism 333, the first fixing strip is wholly separated from the placing groove through the vacuum adsorption hole 3334 which is slightly too high, the roll extrusion in the later stage of being convenient for, later thin sponge carries out the roll extrusion once more through rolling 34's first compression roller and second compression roller, accomplishes the step that a plurality of first fixed strip fixed point and thin sponge carry out bonding, need not the manual work, and the installation is accurate, improves work efficiency, the controller is prior art, therefore does not give unnecessary details at the present case.

Claims (6)

1. The utility model provides a magnetic stripe shim production is with bonding equipment, characterized in that, including frame (31), bonding device (32), secondary bonding device (33) and rolling mechanism (34), bonding device (32) are located once bonding device (33)'s left end, rolling mechanism (34) are located the place ahead of secondary bonding device (33), frame (31) are located the position department at secondary bonding device (33) rear is equipped with feed inlet (35) that the sponge layer of being convenient for is leading-in, the feed inlet is equipped with fabric guide roller (83).

2. The bonding device for producing the magnetic stripe thin mat as claimed in claim 1, wherein the primary bonding device (32) comprises a first slide rail (311) horizontally arranged on the side wall of the rack (31), a fixing plate (312) arranged on the worktable of the rack (31), a slider (313), a second slide rail (314), a lifting plate (315), a vacuum chuck (316) and a first gluing mechanism (319), the slider (313) is slidably connected with the first slide rail, the second slide rail (314) is fixedly connected with the slider (313), the sliding direction of the second slide rail (314) is perpendicular to the sliding direction of the first slide rail (311), the lifting plate (315) is slidably connected with the second slide rail (314), the vacuum chuck (316) is arranged on the lifting plate (315), a first fixing groove (317) for placing a first fixing strip (22) and a magic fixing groove for placing a magic are arranged on the fixing plate (312) A second fixation slot (318) for the patch (26), the first glue application mechanism (319) being located above the second fixation slot (318).

3. The bonding device for producing the magnetic stripe mat is characterized in that the first gluing mechanism (319) comprises a gluing sliding rail (3191), a gluing electric push rod (3192) and a gluing nozzle (3193), the gluing sliding rail (3191) is arranged along the front-back direction of the rack (31), the gluing electric push rod (3192) is connected with the gluing sliding rail (3191) in a sliding manner, and the gluing nozzle (3193) is arranged at the push rod end of the gluing electric push rod (3192).

4. The bonding equipment for producing the magnetic stripe mat is characterized in that the secondary bonding device (33) comprises a conveyor belt (331) positioned on the frame, and a second glue coating mechanism (332) and a primary pressing mechanism (333) are sequentially arranged on the conveyor belt (331) from the conveying starting end to the conveying terminal end;

a placing groove (3311) which is convenient for placing the first fixing strip (22) is fixedly connected to the conveyor belt (331) in an array manner;

the second gluing mechanism (332) has the same structure as the first gluing mechanism (319);

the preliminary pressing mechanism (333) comprises an air cylinder (3331) located on the inner top surface of the rack (31), a pressing plate (3332) is fixedly connected to a push rod end of the air cylinder (3331), and the pressing plate (3332) is located above the conveyor belt (331).

5. A bonding apparatus for producing magnetic stripe thin pad as claimed in claim 4, wherein the side of said pressing plate (3332) near said conveyor belt is equipped with vacuum suction holes (3334).

6. The bonding device for producing the magnetic stripe thin pad is characterized in that the rolling mechanism (34) comprises a first pressing roller (341) and a second pressing roller (342) which are arranged on the rack (31) through a bearing and are parallel to each other, the second pressing roller (342) is positioned below the first pressing roller (341), the upper surface of the second pressing roller (342) is higher than the upper surface of the conveyor belt (331), the second pressing roller (342) is a driving roller, the first pressing roller (341) is a driven roller, and one end of the second pressing roller (342) is fixedly connected with a driving device (343).

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