CN112743961A

CN112743961A - Method for manufacturing anti-freezing velvet shoes

Info

Publication number: CN112743961A
Application number: CN202110017077.XA
Authority: CN
Inventors: 荣文龙; 范文祥
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-07
Filing date: 2021-01-07
Publication date: 2021-05-04

Abstract

The invention relates to a manufacturing method of an anti-freezing velvet shoe, which relates to the technical field of composite cloth production processes. According to the invention, the winding frame, the gluing device and the pressing device are used for continuously gluing and pressing the cloth, so that the manual intervention degree is reduced, the working efficiency is accelerated, and the effects of reducing the labor intensity of operators and improving the working efficiency are further realized; the gluing device enables the adhesive glue to be evenly coated on the cloth, and the pressing device enables the cloth to be fully extruded, so that the effect of fully and evenly bonding the cloth is achieved.

Description

Method for manufacturing anti-freezing velvet shoes

Technical Field

The invention relates to the technical field of composite cloth production processes, in particular to a manufacturing method of an anti-freezing down-added shoe.

Background

The anti-freezing down-added shoes are also called warm-keeping shoes, which are shoe products made of natural or artificial synthetic materials, have the first function of cold resistance and warm keeping, and have proper decoration.

In the production process of the cloth of the existing velvet-added shoes, the cloth on the outer side of the shoes is mainly spread manually, then a brush is used for coating adhesive glue on one side of the cloth, then the velvet-added cloth is spread manually on the side, containing the adhesive glue, of the cloth on the outer side, and finally the cloth is pressed together under the action of a plurality of squeezing rollers.

The above prior art solutions have the following drawbacks: the manual intervention degree is high, and the operation content is more, so that the labor intensity is high and the working efficiency is low in the actual production; the cloth is difficult to be uniformly brushed manually, and in the process of pressing, the full bonding of the cloth is difficult to be realized only by depending on the squeezing rollers, so that the bonding between the cloth is not uniform enough and not sufficient enough.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide the method for manufacturing the anti-freezing down-added shoes, which has the effects of reducing the labor intensity of operators, improving the working efficiency and enabling the adhesion between the cloth materials to be more sufficient and uniform in the process of down-added shoe cloth production.

The above object of the present invention is achieved by the following technical solutions:

a manufacturing method of anti-freezing velvet shoes uses manufacturing equipment of the anti-freezing velvet shoes, and the manufacturing equipment comprises a bottom plate, a supporting frame, supporting columns, a mounting frame, a gluing device, a pressing device and a winding frame, wherein the bottom plate is arranged on the ground, the supporting frame, a plurality of supporting columns and the mounting frame are sequentially arranged on the bottom plate, the plurality of winding frames are arranged on the supporting frame, and the winding frame on one side is far away from the bottom plate;

the coating device comprises a supporting roller, a coating box, a coating roller, a v-21274, a shape frame and spring rods, wherein the coating box is arranged between the support frames and is far away from the bottom plate, the coating roller is arranged between the support frames and is in contact with one end, close to the bottom plate, of the coating box, the Contraband shape frame is connected with the supports through the spring rods, the openings of the Contraband shape frame are upwards arranged, and the supporting roller is arranged between the Contraband shape frames and is close to the coating roller;

the laminating device comprises heating touch blocks, extrusion rollers, a heat gathering box, a moving mechanism and a lifting mechanism, wherein the heat gathering box is arranged at one side where a plurality of support columns are close to each other;

the process for manufacturing the anti-freezing down-added shoes by using the equipment comprises the following steps:

s1: equipment inspection, namely inspecting the running of the equipment before starting the anti-freezing velvet shoe manufacturing equipment;

s2: placing and gluing, namely attaching the velvet adding cloth and the outer side cloth on the plurality of winding frames to one side of the pressing device through a traction cloth, and penetrating the velvet adding cloth and the outer side cloth through the pressing device;

s3: gluing and fitting, namely starting a moving mechanism to enable a plurality of cloth materials to move slowly, coating glue on the cloth material on the lower side by a coating roller, and abutting and fitting the cloth material on the upper side at the moving mechanism;

s4: heating and pressing, namely adjusting a lifting mechanism to enable a plurality of heating abutting blocks to be close to each other, so that the flannelette adding cloth and the outer side cloth are abutted at high temperature, and the cloth on the upper side and the cloth on the lower side are completely bonded together;

s5: and (4) cutting and sewing, wherein after the bonded cloth is moved out of the pressing device, the cloth is cut by related equipment, cut and sewn, and finally placed on a mold to be integrally connected and molded in the sole molding process.

As a preferred technical scheme of the invention, the lifting mechanism comprises lifting screw rods, lifting blocks and a lifting motor, the lifting blocks are symmetrically arranged on two sides of the heating contact block in two groups, the lifting blocks which are close to each other are penetrated and matched with the lifting screw rods in a threaded manner, two ends of each lifting screw rod are rotatably penetrated and arranged in the heat collection box, the same ends of the lifting screw rods are in transmission connection in a synchronous belt wheel and synchronous belt manner, the lifting motor is arranged on one side of the heat collection box, and an output shaft is coaxially connected with the lifting screw rods on one side.

As a preferable technical scheme, the moving mechanism comprises rotating rollers, a belt, synchronous gears and a driving motor, the rotating rollers are symmetrically arranged on the mounting frame and the support frame in two groups, the rotating rollers which are symmetrically arranged are in transmission connection through the belt, one end of each group of rotating rollers is connected with the synchronous gears, the synchronous gears are meshed, the driving motor is arranged on one side of the mounting frame and one side of the support frame, and an output shaft of the driving motor is coaxially connected with the synchronous gears on one side.

As a preferred technical scheme, the heating abutting block comprises a hot pressing block and a fixing block, the hot pressing block and the fixing blocks are arranged between the two groups of lifting blocks, and one ends of the fixing blocks are connected with the hot pressing block.

As a preferred technical scheme, the heat collecting box comprises a clip-shaped cylinder and a penetrating plate, the clip-shaped cylinder is arranged on one side of a plurality of supporting columns which are close to each other, and two ends of the clip-shaped cylinder are arranged on the penetrating plate for the belt to penetrate through.

As the preferable technical scheme of the invention, the material receiving rollers are arranged between the mounting frames and are far away from the support frame.

In summary, the invention includes at least one of the following beneficial technical effects:

1. according to the invention, the winding frame, the gluing device and the pressing device are used for continuously gluing and pressing the cloth, so that the manual intervention degree is reduced, the working efficiency is accelerated, and the effects of reducing the labor intensity of operators and improving the working efficiency are further realized;

2. according to the invention, the adhesive glue can be uniformly coated on the cloth through the gluing device, and the plurality of cloth can be sufficiently extruded through the pressing device, so that the effect of more sufficient and uniform adhesion among the cloth is realized;

3. according to the invention, in the process of pressing a plurality of cloth materials through the lifting mechanism, higher-precision control can be carried out, so that the operability of equipment and the cloth pressing precision are improved;

4. according to the invention, the moving mechanism is used for abutting and extruding the cloth and moving the cloth, and meanwhile, the fabric is extruded under the action of the heating abutting block, so that the heating abutting block is prevented from being in direct contact with the cloth, and the safety and the stability of the equipment are improved.

Drawings

FIG. 1 is a process flow diagram of the present invention.

Fig. 2 is a schematic diagram of the main structure of the present invention.

Fig. 3 is a schematic structural view of the glue application device.

Fig. 4 is a schematic structural diagram of the moving mechanism and the lifting mechanism.

FIG. 5 is a schematic view of a heated anvil and squeeze roll configuration.

Fig. 6 is a schematic structural view of the heat accumulating box.

Fig. 7 is a schematic structural view of the synchronizing gear and the winding frame.

Fig. 8 is a schematic structural diagram of the mounting frame and the material receiving roller.

FIG. 9 is a schematic view of the structure of the belt and the rotating roller.

In the figure, 1, a bottom plate; 2. a support frame; 3. a support pillar; 4. a mounting frame; 5. a gluing device; 6. a pressing device; 7. a winding frame; 51. a touch roller; 52. a paint cartridge; 53. a paint roller; 54. contraband form rack; 55. a spring lever; 61. heating the contact block; 62. a squeeze roll; 63. a heat collecting box; 64. a moving mechanism; 65. a lifting mechanism; 651. a lifting screw rod; 652. a lifting block; 653. a lifting motor; 641. a rotating roller; 642. a belt; 643. a synchronizing gear; 644. a drive motor; 611. hot pressing blocks; 612. a fixed block; 631. a clip-shaped cylinder; 632. penetrating a plate; 8. a material receiving roller.

Detailed Description

The present invention is described in further detail below with reference to figures 1-9.

The invention relates to a method for manufacturing anti-freezing down added shoes, which uses anti-freezing down added shoe manufacturing equipment, and the equipment comprises a bottom plate 1, a support frame 2, support columns 3, an installation frame 4, a gluing device 5, a pressing device 6 and winding frames 7, wherein the bottom plate 1 is arranged on the ground, the support frame 2, a plurality of support columns 3 and the installation frame 4 are sequentially arranged on the bottom plate 1, the winding frames 7 are arranged on the support frame 2, the winding frame 7 on one side is far away from the bottom plate 1, and the winding frame 7 on the other side is far away from the support columns 3 and is horizontally arranged; in this embodiment, wait that the bonded adds the flannelette and outside cloth twines respectively on winding frame 7, and the cloth that is close to the setting of bottom plate 1 is in the horizontality, and winding frame 7's both ends are in with support frame 2 to rotate and are connected the setting, and rubber coating device 5 locates the cloth that support frame 2 went up and contradict the level and set up, and evenly scribbles the one side of cloth with glue.

The gluing device 5 comprises a contact roller 51, a paint box 52, a paint roller 53, a v-shaped frame 54 and a spring rod 55, wherein the paint box 52 is arranged between the support frames 2 and is far away from the bottom plate 1, and the upper end of the paint box is communicated with the lower end of the paint box; the coating roller 53 is arranged between the support frames 2 and is abutted against one end of the coating box 52 close to the bottom plate 1, the Contraband-shaped frame 54 is connected with the support through a plurality of spring rods 55, the opening of the Contraband-shaped frame is upwards arranged, and the abutting roller 51 is arranged between the Contraband-shaped frames 54 and is close to the coating roller 53, so that the cloth is abutted against the coating roller 53; in this embodiment, the coating roller 53 is composed of a metal roller and an annular brush sleeved outside, the annular brush is used for adsorbing a certain amount of glue, and the coating roller 53 abuts against the bottom opening end of the coating cartridge 52 when not rotating; when the cloth is moved by the moving mechanism 64, the coating roller 53, which is arranged to abut against the cloth, also starts to rotate and presses the glue in the coating cartridge 52 onto the cloth, which also makes the glue application more uniform due to the more uniform extrusion, reduces the manual intervention and improves the degree of automation.

The pressing device 6 comprises heating contact blocks 61, extrusion rollers 62, a heat accumulation box 63, a moving mechanism 64 and a lifting mechanism 65, the heat accumulation box 63 is arranged on one side of the support columns 3 close to each other, the moving mechanism 64 is arranged on one side of the mounting frame 4 close to each other and one side of the support frame 2 close to each other and is positioned on two sides of the heat accumulation box 63, the lifting mechanism 65 is arranged on one side of the heat accumulation box 63 close to each other, the heating contact blocks 61 are symmetrically arranged between the lifting mechanisms 65, and the extrusion rollers 62 are uniformly arranged on one side of the heating contact blocks 61 close to each other and far away from the gluing device 5; in this embodiment, the cloth with glue on one side and the cloth on the other side are extruded and attached at the rotating roller 641 of the moving mechanism 64, the attached cloth is driven by the moving mechanism 64 to move slowly, after the cloth is moved into the heat collecting box 63, the lifting mechanism 65 adjusts the heating contact blocks 61 to approach each other, so that the belts 642 on both sides approach each other and extrude the cloth on both sides, and meanwhile, the heating contact blocks 61 have a certain temperature, and finally, the extruding rollers 62 symmetrically arranged roll and extrude the cloth on both sides, so that the glue bonds the cloth on both sides more sufficiently and uniformly.

The lifting mechanism 65 comprises lifting screw rods 651, lifting blocks 652 and a lifting motor 653, the lifting blocks 652 are symmetrically arranged on two sides of the heating contact block 61 in two groups, the lifting screw rods 651 are arranged on the lifting blocks 652 which are close to each other in a penetrating manner and are in threaded fit, two ends of each lifting screw rod 651 are rotatably arranged in the heat accumulation box 63 in a penetrating manner, the same ends of the lifting screw rods 651 are in transmission connection in a synchronous belt pulley and synchronous belt manner, the lifting motor 653 is arranged on one side of the heat accumulation box 63, and an output shaft is coaxially connected with the lifting screw rods 651 on one side; in this embodiment, a lead screw nut is adopted so as to realize more precise adjustment and control, when the lifting lead screw 651 rotates, the two lifting blocks 652 on the lifting lead screw 651 simultaneously approach and separate from each other, and when the lifting lead screw 651 stops rotating, the lifting blocks 652 are kept in a relatively fixed state.

The moving mechanism 64 comprises rotating rollers 641, a belt 642, synchronizing gears 643 and driving motors 644, wherein the rotating rollers 641 are symmetrically arranged on the mounting frame 4 and the support frame 2 in two groups, the rotating rollers 641 which are symmetrically arranged are in transmission connection through the belt 642, one end of each group of rotating rollers 641 is connected with the synchronizing gears 643, the synchronizing gears 643 are arranged in a meshed manner, the driving motors 644 are arranged on one sides of the mounting frame 4 and the support frame 2, and output shafts of the driving motors 644 are coaxially connected with the synchronizing gears 643 on one side; in this embodiment, the driving motor 644 drives the two engaged synchronizing gears 643 to rotate, so as to rotate the rotating roller 641, and the belt 642 is driven by the rotating roller 641 to move, and because the rotating roller 641 has power, the belt 642 is mainly used for driving the cloth to move, and is extruded by the heating abutting block 61, so as to extrude two layers of adhered cloth.

The heating contact block 61 comprises a hot pressing block 611 and fixing blocks 612, the hot pressing block 611 and the fixing blocks 612 are arranged between the two groups of lifting blocks 652, and one ends of the fixing blocks 612 are connected with the hot pressing block 611; the heat collecting box 63 comprises a clip tube 631 and a penetrating plate 632, the clip tube 631 is arranged at one side of the support columns 3, which are close to each other, and two ends of the clip tube 631 are arranged on the penetrating plate 632 through which the belt 642 penetrates; in this embodiment, the hot pressing block 611 can generate heat, and heat is transferred through the belt 642 during operation, and the heat collecting box 63 makes heat not easy to lose, so as to prevent glue from being prematurely condensed or being difficult to uniformly disperse, and further cause the adhesion of the cloth to be not uniform enough.

Be equipped with between the mounting bracket 4 and receive material roller 8 to keep away from support frame 2 and set up, the cloth is drawn again and is tailor and sew up into shoes form to other equipment after passing receiving material roller 8, plays the conflict extrusion to the cloth, does not influence the operation of moving mechanism 64.

s2: placing and gluing, namely attaching the velvet adding cloth and the outer side cloth on the plurality of winding frames 7 to one side of the pressing device 6 through a traction cloth, and arranging the velvet adding cloth and the outer side cloth to penetrate through the pressing device 6;

s3: gluing and attaching, namely starting a moving mechanism 64 to enable a plurality of cloth materials to move slowly, coating the lower side of the cloth materials with glue by a coating roller 53, and abutting and attaching the lower side of the cloth materials with the upper side of the cloth materials at the position of the moving mechanism 64;

s4: heating and pressing, namely adjusting the lifting mechanism 65 to enable the plurality of heating and abutting blocks 61 to be close to each other, so that the flannelette added cloth and the outer side cloth are abutted at high temperature, and the cloth on the upper side and the cloth on the lower side are completely adhered together;

s5: and (4) cutting and sewing, wherein after the bonded cloth is moved out from the pressing device 6, the cloth is cut by related equipment, cut and sewn, and finally placed on a mold to be integrally connected and molded in the sole molding process.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims

1. A method for manufacturing anti-freezing down-added shoes is characterized in that: the anti-freezing velvet shoe manufacturing equipment comprises a bottom plate (1), a supporting frame (2), supporting columns (3), an installation frame (4), a gluing device (5), a pressing device (6) and winding frames (7), wherein the bottom plate (1) is arranged on the ground, the supporting frame (2), a plurality of supporting columns (3) and the installation frame (4) are sequentially arranged on the bottom plate (1), the winding frames (7) are arranged on the supporting frame (2), and the winding frame (7) on one side is far away from the bottom plate (1);

the coating device (5) comprises a contact roller (51), a coating box (52), a coating roller (53), a coating 21274, a shape frame (54) and spring rods (55), wherein the coating box (52) is arranged between the support frames (2) and far away from the bottom plate (1), the coating roller (53) is arranged between the support frames (2) and is in contact with one end, close to the bottom plate (1), of the coating box (52), the Contraband shape frame (54) is connected with a support through a plurality of spring rods (55), the opening of the Contraband shape frame is upwards arranged, and the contact roller (51) is arranged between the Contraband shape frames (54) and is close to the coating roller (53);

the laminating device (6) comprises heating contact blocks (61), squeezing rollers (62), a heat collecting box (63), a moving mechanism (64) and a lifting mechanism (65), the heat collecting box (63) is arranged on one side, close to each other, of the support columns (3), the moving mechanism (64) is arranged on one side, close to each other, of the mounting frame (4) and one side, close to each other, of the support frame (2) and is positioned on two sides of the heat collecting box (63), the lifting mechanism (65) is arranged on one side, close to each other, of the heat collecting box (63), the heating contact blocks (61) are symmetrically arranged between the lifting mechanism (65), and the squeezing rollers (62) are uniformly arranged on one side, close to each other, of the heating contact blocks (61) and are far away from the gluing device (5);

s2: placing and gluing, namely attaching the velvet-added cloth and the outer side cloth on the plurality of winding frames (7) to one side of the pressing device (6) through a traction cloth, and arranging the velvet-added cloth and the outer side cloth through the pressing device (6);

s3: gluing and attaching, namely starting a moving mechanism (64) to enable a plurality of cloth materials to move slowly, coating the glue on the cloth material on the lower side by a coating roller (53), and abutting and attaching the glue on the cloth material on the upper side at the position of the moving mechanism (64);

s4: heating and pressing, namely adjusting a lifting mechanism (65) to enable a plurality of heating contact blocks (61) to be close to each other, so that the flannelette added cloth and the outer side cloth are contacted at a high temperature, and the cloth on the upper side and the cloth on the lower side are completely bonded together;

s5: and (4) cutting and sewing, wherein after the bonded cloth is moved out from the pressing device (6), the cloth is cut by related equipment, cut and sewn, and finally placed on a mold to be integrally connected and formed in the sole molding process.

2. The method for manufacturing the anti-freezing velvet shoes according to claim 1, wherein the method comprises the following steps: elevating system (65) are including lift lead screw (651), elevator (652) and elevator motor (653), and are a plurality of elevator (652) divide two sets of symmetries to locate the both sides of heating and supporting touch pad (61), wear to establish and screw-thread fit has lift lead screw (651) on a plurality of elevator (652) that are close to each other, and the both ends of lift lead screw (651) rotate and wear to locate and gather hot case (63) setting, and the same one end of a plurality of lift lead screws (651) is connected with the mode transmission of synchronous pulley and hold-in range, one side of gathering hot case (63) is located to elevator motor (653), and output shaft and lift lead screw (651) coaxial coupling of one side.

3. The method for manufacturing the anti-freezing velvet shoes according to claim 1, wherein the method comprises the following steps: the moving mechanism (64) comprises rotating rollers (641), a belt (642), synchronous gears (643) and a driving motor (644), the rotating rollers (641) are symmetrically arranged on the mounting frame (4) and the support frame (2) in two groups, the rotating rollers (641) are in transmission connection through the belt (642), one end of each group of rotating rollers (641) is connected with the synchronous gear (643), the synchronous gears (643) are arranged in a meshed mode, the driving motor (644) is arranged on one side of the mounting frame (4) and one side of the support frame (2), and an output shaft of the driving motor (644) is coaxially connected with the synchronous gear (643) on one side.

4. The method for manufacturing the anti-freezing suede shoes according to claim 2, wherein the method comprises the following steps: the heating contact block (61) comprises a hot pressing block (611) and fixing blocks (612), the hot pressing block (611) and the fixing blocks (612) are arranged between the two groups of lifting blocks (652), and one ends of the fixing blocks (612) are connected with the hot pressing block (611).

5. The method for manufacturing the anti-freezing velvet shoes according to claim 3, wherein the method comprises the following steps: gather hot case (63) including returning a shape section of thick bamboo (631) and wearing board (632), return a shape section of thick bamboo (631) and locate the one side that a plurality of support columns (3) are close to each other, return the both ends of a shape section of thick bamboo (631) and locate and supply board (632) that wear to establish of belt (642).

6. The method for manufacturing the anti-freezing velvet shoes according to claim 1, wherein the method comprises the following steps: and a material receiving roller (8) is arranged between the mounting frames (4) and is far away from the support frame (2).