CN110269298B

CN110269298B - Equipment is made up to thermal-insulated gloves

Info

Publication number: CN110269298B
Application number: CN201910338845.4A
Authority: CN
Inventors: 方珏
Original assignee: Shaoyang Xida Labor Protection Products Co ltd
Current assignee: Shaoyang Xida labor protection products Co.,Ltd.
Priority date: 2019-04-25
Filing date: 2019-04-25
Publication date: 2021-07-06
Anticipated expiration: 2039-04-25
Also published as: CN110269298A; JP6627169B1; JP2020180420A

Abstract

The invention relates to a sewing device for heat-insulating gloves, which comprises an extrusion dispensing device, a colloid supplementing device and a rotary assembling and disassembling device, wherein before dispensing, a heat-insulating material is clamped by the rotary assembling and disassembling device, then the adhesive is dispensed on the inner side of the heat-insulating material by the extrusion dispensing device, after a numerical control sewing machine is started for sewing, the colloid supplementing device supplements the lost colloid after dispensing, and then the heat-insulating gloves are disassembled by the rotary assembling and disassembling device.

Description

Equipment is made up to thermal-insulated gloves

Technical Field

The invention relates to the field of protective articles, in particular to heat-insulating glove sewing equipment.

Background

As is known to all, in a high-temperature environment, high-temperature water vapor is generated in the external environment, the sealing performance of the traditional heat-insulating gloves after sewing is low, and the external water vapor easily enters the interior of the gloves to generate water drops to influence the operation of a user;

therefore, the heat-insulating glove sewing equipment is needed to be designed to solve the problems, the glue dispensing on the inner side of the heat-insulating material is realized, the equipment is simple to operate, and the practicability is high.

Disclosure of Invention

The technical problem to be solved by the invention is to provide heat-insulating glove sewing equipment which can solve the problems in the prior art.

The invention is realized by the following technical scheme: the invention relates to heat-insulating glove sewing equipment which comprises a machine body, wherein a first cavity with an opening towards one side is arranged in the machine body, a first chute is communicated and arranged at the top end of the first cavity, a first rotating shaft is arranged on one side of the bottom end of the first cavity, a numerical control sewing machine is fixedly arranged on the other side of the bottom end of the first cavity, a first sliding plate is arranged in the first chute in a sliding manner, a first spring is fixedly connected with the top surface of the first chute through the first sliding plate, an installation cavity is arranged in the lower wall of the first cavity, a first rotating shaft is rotatably arranged between the installation cavity and the first cavity, a rotating assembling and taking device is arranged in the first rotating shaft, a first fixed block is fixedly arranged at the tail end of the first rotating shaft, a first grab handle is fixedly arranged at one end of the first fixed block, a hand-shaped die is rotatably arranged at the other end of the, a glue supplementing device is arranged between the glue groove and the first sliding plate, and an extrusion dispensing device is arranged between the first sliding groove and the hand-shaped die.

Wherein, the extrusion dispensing device comprises the first chute, the first chute and the outer side of the machine body are rotatably provided with a third rotating shaft, the third rotating shaft is fixedly provided with a first torsional spring, one end of the third rotating shaft is fixedly provided with a second handle, the top end of the first chute is communicated with a third cavity, the third rotating shaft in the first chute is fixedly provided with a cam positioned in the third cavity, the cam is contacted with the first sliding plate, a second torsional spring is arranged between the hand-shaped die and the first fixed block, a first rubber tube is arranged in the hand-shaped die, the first rubber tube is upwards provided with a communicating groove in a penetrating way, one side of the first cavity is communicated with a T-shaped through hole, the T-shaped through hole is arranged along the outer surface of the hand-shaped die, the top end of the hand-shaped die is provided with a first sliding block in a sliding way, one side of the first sliding block is communicated with a second, the second sliding block is arranged in the second sliding groove in a sliding mode and fixedly connected with the first sliding block, the second sliding block is fixedly connected with a second spring on the bottom surface of the second sliding groove, the bottom end of the first sliding block is fixedly provided with a second sliding plate located in the first rubber pipe, a first permanent magnet is fixedly arranged on the hand-shaped die from top to bottom, the first permanent magnet can be attracted to be provided with a second permanent magnet, and heat insulation materials can be clamped between the second permanent magnet and the first permanent magnet.

The rotary assembling and disassembling device comprises a first rotating shaft, a third permanent magnet is fixedly arranged at two ends of the first rotating shaft in the installation cavity, a fourth permanent magnet which is mutually attracted by the third permanent magnet is fixedly arranged at two ends of the installation cavity, an opening-upward groove is formed in the top end of the first fixed block, and a rectangular block which can stretch into the groove is fixedly arranged on the bottom surface of the first sliding plate.

Preferably, the colloid supplementary device includes glue the groove, it is equipped with the third spout to glue groove both ends intercommunication, it is equipped with the sloping block to slide in the third spout, the sloping block inclined plane is both sides around towards, the sloping block with fixedly connected with third spring between the third spout terminal surface, the fourth cavity that runs through from top to bottom is equipped with on one side of the first slide, the fourth cavity internal rotation is equipped with the second pivot, the second pivot with it is equipped with the third torsional spring to connect between the fourth cavity end wall, the fixed second fixed block that is equipped with of second pivot, the second fixed block can stretch into in the glue groove, be equipped with the second rubber tube that link up from top to bottom in the second fixed block.

In conclusion, the beneficial effects of the invention are as follows: the heat-insulating glove sewing equipment has the advantages of high utilization rate of kinetic energy, sensitive response and simple operation; meanwhile, the device has the advantages of high dispensing efficiency, simple maintenance and strong practicability.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view showing the overall construction of a heat-insulating glove sewing apparatus according to the present invention;

FIG. 2 is an enlarged schematic view of A in FIG. 1;

fig. 3 is an enlarged structural diagram of B in fig. 1.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

As shown in fig. 1-3, the heat-insulating glove sewing device of the present invention comprises a machine body 10, a first cavity 15 with an opening facing one side is arranged in the machine body 10, a first chute 11 is communicated with the top end of the first cavity 15, a first rotating shaft 22 is arranged on one side of the bottom end of the first cavity 15, a numerical control sewing machine 34 is fixedly arranged on the other side of the first cavity, a first sliding plate 13 is slidably arranged in the first chute 11, a first spring 12 is fixedly connected to the top surfaces of the first sliding plate 13 and the first chute 11, an installation cavity 20 is arranged in the lower wall of the first cavity 15, a first rotating shaft 22 is rotatably arranged between the installation cavity 20 and the first cavity 15, a rotary loading and unloading device 91 is arranged in the first rotating shaft 22, a first fixing block 18 is fixedly arranged at the tail end of the first rotating shaft 22, a first holding handle 17 is fixedly arranged at one end of the first fixing block 18, the other end of the first fixing block 18 is rotatably provided with a hand-shaped die 29, the top end of the first sliding groove 11 is communicated with a glue groove 40, a glue supplementing device 90 is arranged between the glue groove 40 and the first sliding plate 13, and an extrusion dispensing device 92 is arranged between the first sliding groove 11 and the hand-shaped die 29.

Next, a specific implementation manner for realizing the extrusion dispensing device 92 will be described in detail, the extrusion dispensing device 92 includes the first chute 11, the first chute 11 is provided with a third rotating shaft 37 in rotation with the outside of the machine body 10, the third rotating shaft 37 is provided with a first torsion spring 36, one end of the third rotating shaft 37 is provided with a second handle 35, the top end of the first chute 11 is provided with a third cavity 39 in a communicating manner, the third rotating shaft 37 in the first chute 11 is provided with a cam 38 in the third cavity 39 in a fixed manner, the cam 38 is in contact with the first sliding plate 13, a second torsion spring 23 is provided between the hand mold 29 and the first fixing block 18, a first rubber tube 25 is provided in the hand mold 29, the first rubber tube 25 is provided with a communicating groove 24 in an upward penetrating manner, one side of the first cavity 15 is provided with a T-shaped through hole 33 in a communicating manner, t type through-hole 33 is followed hand type mould 29 surface sets up, hand type mould 29 top is slided and is equipped with first slider 27, first slider 27 one side intercommunication is equipped with second spout 51, slide in second spout 51 be equipped with first slider 27 fixed connection's second slider 50, second slider 50 with second spout 51 bottom surface fixedly connected with second spring 49, first slider 27 bottom mounting is equipped with and is located second slide 26 in the first rubber tube 25, hand type mould 29 is fixed from top to bottom and is equipped with first permanent magnet 32, first permanent magnet 32 adsorbable is equipped with second permanent magnet 30, second permanent magnet 30 with thermal insulation material 31 can be centre gripping between the first permanent magnet 32.

Next, referring to fig. 1, the rotating assembly and disassembly device 91 of the present application is described in detail, the rotating assembly and disassembly device 91 includes the first rotating shaft 22, the third permanent magnet 21 is fixedly disposed at two ends of the first rotating shaft 22 in the installation cavity 20, the fourth permanent magnet 19 attracted to the third permanent magnet 21 is fixedly disposed at two ends of the installation cavity 20, the top end of the first fixing block 18 is provided with a groove 16 with an upward opening, and the bottom surface of the first sliding plate 13 is fixedly provided with a rectangular block 14 capable of extending into the groove 16.

Beneficially, as shown in fig. 1 and fig. 3, the glue supplementing device 90 includes the glue groove 40, a third sliding groove 48 is communicated with two ends of the glue groove 40, an inclined block 46 is slidably disposed in the third sliding groove 48, an inclined plane of the inclined block 46 faces to the front side and the rear side, a third spring 47 is fixedly connected between the inclined block 46 and an end surface of the third sliding groove 48, a fourth cavity 43 penetrating up and down is disposed on one side of the first sliding plate 13, a second rotating shaft 41 is rotatably disposed in the fourth cavity 43, a third torsion spring 42 is connected between the second rotating shaft 41 and an end wall of the fourth cavity 43, a second fixing block 45 is fixedly disposed on the second rotating shaft 41, the second fixing block 45 can extend into the glue groove 40, and a second glue tube 44 penetrating up and down is disposed in the second fixing block 45.

The applicant will now describe in detail an insulated glove sewing apparatus of the present application with reference to the accompanying figures 1-3 and the specific composition of an insulated glove sewing apparatus of the present application described above:

firstly, in the initial state, the rectangular block 14 does not extend into the groove 16, the cam 38 does not press the first sliding plate 13, the second rubber tube 44 is always communicated with the rubber groove 40, and the numerical control sewing machine 34 is in a static state.

When the material is clamped, the first handle 17 is pushed to drive the first rotating shaft 22 to rotate, so that the hand mold 29 is positioned outside the machine body 10, after the third permanent magnet 21 and the fourth permanent magnet 19 are attracted, the heat insulation material 31 is clamped between the first permanent magnet 32 and the second permanent magnet 30, and then the hand mold 29 is pushed into the first cavity 15;

when dispensing is performed, the second grab handle 35 is swung downwards, the second grab handle 35 drives the cam 38 to extrude the first sliding plate 13, the first sliding plate 13 slides downwards to enable the rectangular block 14 to enter the groove 16, at the moment, the first rotating shaft 22 is locked and cannot rotate, the first sliding plate 13 continues to slide downwards to extrude the first sliding block 27, the first sliding block 27 drives the second sliding plate 26 to extrude the first rubber tube 25 downwards, the rubber in the first rubber tube 25 is extruded to drip into one end of the heat insulation material 31 through the T-shaped through hole 33, and after dispensing is completed, the numerical control sewing machine 34 is started to sew;

after dispensing is completed, the second holding handle 35 is released, the second holding handle 35 returns to the initial position under the elastic force of the first torsion spring 36, the first sliding plate 13 slides upwards under the elastic force of the first spring 12 to return to the initial position, the first sliding block 27 returns to the initial position under the elastic force of the second spring 49, the first sliding block 27 drives the second sliding plate 26 to slide upwards, the first rubber tube 25 supplements glue with the second rubber tube 44 through the communicating groove 24, and after the rectangular block 14 extends out of the groove 16, the first holding handle 17 is rotated again, and the sewn heat insulation material 31 is taken out.

In conclusion, the heat-insulating glove sewing equipment is high in kinetic energy utilization rate, sensitive in response and simple to operate; meanwhile, the device has the advantages of high dispensing efficiency, simple maintenance and strong practicability.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims

1. A heat insulation glove sewing device comprises a machine body, a first cavity with an opening towards one side is arranged in the machine body, a first sliding groove is communicated with the top end of the first cavity, a first rotating shaft is arranged on one side of the bottom end of the first cavity, a numerical control sewing machine is fixedly arranged on the other side of the bottom end of the first cavity, a first sliding plate is arranged in the first sliding groove in a sliding manner, a first spring is fixedly connected with the top surface of the first sliding groove through the first sliding plate, an installation cavity is arranged in the lower wall of the first cavity, a first rotating shaft is rotatably arranged between the installation cavity and the first cavity, a rotating assembling and taking device is arranged in the first rotating shaft, a first fixed block is fixedly arranged at the tail end of the first rotating shaft, a first grab handle is fixedly arranged at one end of the first fixed block, a hand-shaped die is rotatably arranged at the other end of the first fixed, a glue supplementing device is arranged between the glue groove and the first sliding plate, and an extrusion dispensing device is arranged between the first sliding groove and the hand-shaped die;

the method is characterized in that: the rotary loading and unloading device loads and unloads the materials, the extrusion glue dispensing device dispenses glue on the inner side of the heat insulation material layer, and the glue supplementing device can supplement the glue loss after dispensing.

2. The heat-insulating glove sewing device according to claim 1, wherein the extrusion dispensing device comprises the first chute, a third rotating shaft is rotatably arranged between the first chute and the outer side of the machine body, a first torsion spring is fixedly arranged on the third rotating shaft, a second handle is fixedly arranged at one end of the third rotating shaft, a third cavity is communicated with the top end of the first chute, a cam positioned in the third cavity is fixedly arranged on the third rotating shaft in the first chute, the cam is in contact with the first sliding plate, a second torsion spring is arranged between the hand-shaped mold and the first fixed block, a first rubber tube is arranged in the hand-shaped mold, a communicating groove is upwards formed in the first rubber tube in a penetrating manner, a T-shaped through hole is communicated with one side of the first cavity, the T-shaped through hole is arranged along the outer surface of the hand-shaped mold, and a first sliding block is slidably arranged at the top end of the hand-shaped mold, a second sliding groove is communicated with one side of the first sliding block, a second sliding block fixedly connected with the first sliding block is arranged in the second sliding groove in a sliding mode, a second spring is fixedly connected with the bottom surfaces of the second sliding block and the second sliding groove, a second sliding plate located in the first rubber tube is fixedly arranged at the bottom end of the first sliding block, a first permanent magnet is fixedly arranged on the upper portion and the lower portion of the hand-shaped die, a second permanent magnet is arranged on the first permanent magnet in an adsorption mode, and a heat insulation material can be clamped between the second permanent magnet and the first permanent magnet;

the method is characterized in that: the colloid in the first rubber tube enters one end of the heat insulation material through the T-shaped through hole by extruding the first sliding block.

3. The sewing machine for heat-insulating gloves according to claim 1, wherein the rotary loading and unloading device comprises the first rotating shaft, a third permanent magnet is fixedly arranged at two ends of the first rotating shaft in the installation cavity, a fourth permanent magnet attracted with the third permanent magnet is fixedly arranged at two ends of the installation cavity, a groove with an upward opening is arranged at the top end of the first fixed block, and a rectangular block capable of extending into the groove is fixedly arranged at the bottom surface of the first sliding plate;

the method is characterized in that: and rotating the first handle to enable the hand-shaped mold to rotate outside the machine body, so as to finish the loading and unloading of the heat insulation material.

4. The heat-insulating glove sewing device according to claim 1, wherein the glue supplementing device comprises the glue groove, a third sliding groove is formed in two ends of the glue groove in a communicated manner, an inclined block is arranged in the third sliding groove in a sliding manner, the inclined surface of the inclined block faces to the front side and the rear side, a third spring is fixedly connected between the inclined block and the end surface of the third sliding groove, a fourth cavity penetrating up and down is formed in one side of the first sliding plate, a second rotating shaft is rotatably arranged in the fourth cavity, a third torsion spring is connected between the second rotating shaft and the end wall of the fourth cavity, a second fixed block is fixedly arranged on the second rotating shaft, the second fixed block can extend into the glue groove, and a second rubber tube penetrating up and down is arranged in the second fixed block;

the method is characterized in that: the first rubber tube absorbs the colloid in the rubber groove through the communicating groove and the second rubber tube to complete the colloid supplement.