CN111112849A - Belt processing technology - Google Patents

Abstract

The invention discloses a belt processing technology, which comprises the following steps: s1, selecting materials, and selecting leather with flat surface and uniform thickness; step S2, cutting, namely cutting the leather into required breadth specifications according to requirements and size specifications; step S3, positioning the teeth, and planning the positions of the teeth to be arranged on the leather; step S4, performing laser grooving, and cutting teeth on the planned position of the leather through a laser cutting machine; and step S5, edging and packaging. According to the leather belt machining process, the steps are simple to set, the laser cutting machine is adopted to directly cut the leather into the teeth, plastic tooth pressing is not needed to be additionally machined, the leather belt is more environment-friendly, labor cost is saved, the leather belt machining process is simple to manufacture, the laser cutting machine is adopted to cut the leather belt, the plastic teeth do not need to be additionally sewn or bonded, the surface of the leather belt is flat and smooth, the leather belt is attractive and practical, and the leather belt can be made of leather and artificial leather.

Description

Belt processing technology

Technical Field

The invention belongs to the technical field of leather processing, and particularly relates to a belt processing technology.

Background

The belt is more and more extensive in daily life, and at present, the belt on the market mostly all is equipped with the tooth, makes things convenient for the automatic fastening of belt.

However, when the belt is processed, the belt and the plastic part with the teeth are usually processed separately, the teeth are processed and then sewn on the belt, and the glue cannot be adhered, so that the surface of the processed belt is uneven, the upper part and the lower part of the belt protrude out of the beauty, the preparation is troublesome, the cost is high, the sewn product is not durable, and the process of adopting multilayer adhesion is complicated, the environment is not protected, and the glue is easy to crack.

As in patent application No. CN02237966.5, a multifunctional waist belt for police is disclosed. The multifunctional police waistband comprises a belt body, a buckle head and a belt fixing mechanism which is assembled on two side faces of the buckle head body and connected with the belt body, wherein two sides of the belt body are respectively provided with a ratchet tooth groove. The buckle head can be positioned at any position of the belt body, the buckle head is divided into two channels for penetrating and conveying the belt body by a partition plate, the belt fixing mechanism is assembled on two side surfaces of the buckle body at the end part of one side of any channel, a hollow pin shaft penetrating through the channel is arranged on two side surfaces of the buckle body in the middle of the other channel, and a ratchet which is the same with the belt feeding direction, extends along the axial tangent line and is matched with the ratchet tooth groove is fixedly arranged on the hollow pin shaft.

However, the ratchet tooth socket in the waistband disclosed by the invention is additionally sewn, so that the surface of the processed waistband is uneven, protrudes upwards and downwards, is not attractive, is troublesome to prepare, has high cost and affects use.

Disclosure of Invention

In order to solve the problems, the invention aims to provide a belt processing technology which is simple in step setting, adopts a laser cutting machine to directly cut teeth on leather, does not need to additionally process plastic teeth pressure, is more environment-friendly, saves labor cost, is simple to manufacture, adopts a laser machine to cut, does not need to additionally sew or bond the plastic teeth, and is level and smooth in surface, attractive and practical.

In order to achieve the purpose, the invention provides a belt processing technology, which comprises the following steps:

s1, selecting materials, and selecting leather with flat surface and uniform thickness;

step S2, cutting, namely cutting the leather into required breadth specifications according to requirements and size specifications;

step S3, positioning the teeth, and planning the positions of the teeth to be arranged on the leather;

step S4, performing laser grooving, and cutting teeth on the planned position of the leather through a laser cutting machine;

and step S5, edging and packaging.

According to the leather belt machining process, the steps are simple to set, the laser cutting machine is adopted to directly cut the leather into the teeth, plastic tooth pressing is not needed to be additionally machined, the leather belt is more environment-friendly, labor cost is saved, the leather belt machining process is simple to manufacture, the laser cutting machine is adopted to cut the leather belt, the plastic teeth do not need to be additionally sewn or bonded, the surface of the leather belt is flat and smooth, the leather belt is attractive and practical, and the leather belt can be made of leather and artificial leather.

Further, the teeth are rectangular. In the invention, the shape of the tooth cut by the laser cutting machine can be adjusted according to the requirement, so that the manufactured belt can be used for multifunctional purposes such as automatic buckle, pin buckle, plate buckle and the like.

Further, in step S4, after the leather is cut into teeth by the laser cutting machine, the surface treatment of the teeth may be performed to increase the strength and hardness. In the invention, the surface treatment of the teeth can increase the strength and hardness of the teeth, thereby being more convenient for the use of the belt.

Further, the surface treatment of the teeth is specifically to perform surface treatment on the teeth by chemical raw materials. According to the invention, the chemical raw materials can be used for conveniently carrying out surface reinforcement treatment on the teeth, and meanwhile, other parts of the belt are not influenced, and the overall performance of the belt is not influenced.

Furthermore, the chemical raw materials comprise acrylic acid and an adhesive. According to the invention, the acrylic acid and the adhesive can be used for surface strengthening treatment of teeth, and meanwhile, other parts of the belt are not affected, and the overall performance of the belt is not affected.

Furthermore, the acrylic acid accounts for 90-99 wt%, and the adhesive accounts for 1-10 wt%. In the invention, the hardness and strength of the teeth can be better improved by the acrylic acid and the adhesive through the limited range of the content of the components, and simultaneously, other parts of the belt cannot be influenced, and the integral performance of the belt cannot be influenced.

Further, the acrylic acid accounts for 95% by weight, and the adhesive accounts for 5% by weight. In the invention, the hardness and the strength of the teeth can be better improved by the acrylic acid and the adhesive through the limitation of the content of the components, and meanwhile, other parts of the belt cannot be influenced, and the integral performance of the belt cannot be influenced.

Further, in step S4, after the leather is cut into teeth by the laser cutting machine, holes may be punched in the leather as required. In the invention, the leather can be punched according to the needs, so that the leather punching machine is convenient to use.

Further, after the leather is cut into teeth by the laser cutting machine, holes may be punched in the leather by the cutter. In the present invention, the tool may be customized to a shaped "Contraband" tool to punch out the shape.

Further, in step S5, the edging package further includes the following steps:

step S51, the tail of the leather is punched, specifically, the tail is punched by a V-shaped or U-shaped tool for cutting the belt tail;

step S52, cutting the leather with a knife or grinding with sand paper, chamfering the leather edge with an edge cutter or a blade, scalding or cutting the burr place with a soldering iron or red chopsticks or burning with a lighter, and then polishing the leather edge with thinner sand paper, wherein the transverse section of the leather edge is arc;

step S53, dyeing the places where the color of the leather edge is lighter than the leather surface or the color difference of the multilayer leather edges or the leather edges are prominent, repeatedly dyeing for many times, and then coating the edge material; when the leather edge is polished, one of toothpicks, cotton swabs, toothbrushes, mascara brushes, painting brushes or round edge ring tools can be selected according to the thickness of the leather edge and the edge sealing material, and the polished edge material is smeared on the leather edge to be modified;

step S54, air-drying after leveling, polishing with fine and finer sand paper in sequence, repeating the coating and polishing for several times, and finally coating beeswax and rubbing with flannelette or broken leather back to be glossy;

step S55, compounding, namely compounding the leather processed in the step S54 by compounding equipment;

step S56, performing oil edge, namely firstly, priming, smearing milky base material on the exposed part of the compounded edge, drying, polishing, performing oil edge oiling, performing oil oiling again after the skin edge is completely dried, and repeating the oil oiling for 2-5 times to obtain a semi-finished product;

and step S57, wiping the semi-finished product with the oil edge, printing characters and packaging the finished product for storage.

According to the invention, the manufactured belt has better quality and is convenient to use through the processing steps.

The invention has the beneficial effects that: compared with the prior art, the processing technology has the advantages that the steps are simple to set, the sawtooth-shaped teeth are directly cut on the leather by the laser cutting machine, plastic tooth pressure does not need to be additionally processed, the environment is more environment-friendly, labor cost is saved, the manufacturing is simple, the plastic teeth do not need to be additionally sewn or bonded by cutting the leather by the laser machine, the surface of the belt is flat and smooth, the leather belt is attractive and practical, and real leather and artificial leather can be manufactured.

Drawings

FIG. 1 is a flow chart of the steps of a belt manufacturing process of the present invention.

FIG. 2 is a schematic view of example 1 of a belt made by a belt process of the present invention.

FIG. 3 is a schematic view of an embodiment 2 of a belt made by a belt process of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-3, the present invention provides a belt processing process, comprising the steps of:

s1, selecting materials, and selecting leather 1 with flat surface and uniform thickness;

step S2, cutting, namely cutting the leather 1 into required breadth specifications according to requirements and size specifications;

step S3, positioning the teeth, and planning the positions of the teeth 11 on the leather 1;

step S4, performing laser grooving, and cutting teeth 11 on the planned position of the leather 1 by a laser cutting machine;

and step S5, edging and packaging.

According to the invention, the processing steps are simple, the teeth 11 are directly cut on the leather 1 by adopting the laser cutting machine, plastic tooth pressure is not required to be additionally processed, the environment is more protected, the labor cost is saved, the manufacturing is simple, the plastic teeth do not need to be additionally sewn or bonded by adopting the laser cutting machine, the surface of the belt is flat and smooth, the belt is attractive and practical, and the leather and artificial leather can be adopted for manufacturing.

Wherein, tooth 11 is rectangular. In the invention, the shape of the tooth 11 cut by the laser cutting machine can be adjusted according to the requirement, so that the manufactured belt can be used for multifunctional purposes such as automatic buckle, pin buckle, plate buckle and the like.

In step S4, after the leather 1 is cut into the teeth 11 by the laser cutting machine, the teeth 11 may be surface-treated to increase the strength and hardness. In the invention, the surface treatment of the teeth 11 can increase the strength and hardness of the teeth, thereby facilitating the use of the belt.

The surface treatment of the teeth 11 is specifically to perform surface treatment on the teeth 11 by using chemical raw materials. According to the invention, the chemical raw materials can be used for conveniently carrying out surface reinforcement treatment on the teeth 11, and meanwhile, other parts of the belt are not influenced, and the overall performance of the belt is not influenced.

Wherein, the chemical raw materials comprise acrylic acid and adhesive. In the invention, the acrylic acid and the adhesive can be used for carrying out surface strengthening treatment on the teeth 11, and meanwhile, other parts of the belt cannot be influenced, and the overall performance of the belt cannot be influenced.

Wherein, the acrylic acid accounts for 90-99 percent by weight, and the adhesive accounts for 1-10 percent by weight. In the invention, the hardness and the strength of the teeth 11 can be better improved by the acrylic acid and the adhesive through the limited range of the content of the components, and meanwhile, other parts of the belt cannot be influenced, and the overall performance of the belt cannot be influenced.

Wherein, the percentage by weight of acrylic acid is 95%, and the percentage by weight of adhesive is 5%. In the invention, the hardness and the strength of the acrylic acid and the adhesive can be better improved by limiting the content of the components, and other parts of the belt cannot be influenced, so that the overall performance of the belt cannot be influenced.

In step S4, after the leather 1 is cut into the teeth 11 by the laser cutting machine, holes may be punched in the leather 1 as required. In the invention, the leather 1 can be punched to form the pinholes 12 according to the needs, thereby being convenient for use.

Wherein, after the leather 1 is cut into the teeth 11 by the laser cutting machine, the leather 1 can be punched by the cutter. In the present invention, the tool may be customized to a shaped "Contraband" tool to punch out the shape.

Wherein, in step S5, the edging package further comprises the following steps:

step S51, the tail 13 of the leather 1 is punched, specifically, the tail is punched by a V-shaped or U-shaped tool for cutting the belt tail;

step S52, cutting the leather 1 with a knife or grinding with sand paper, chamfering the leather edge with an edge cutter or a blade, scalding or cutting the burr place with a soldering iron or red chopsticks or burning with a lighter, and then polishing the leather edge with thinner sand paper, wherein the transverse section of the leather edge is arc;

step S53, dyeing the places where the color of the leather edge is lighter than the leather surface or the color difference of the multilayer leather edges or the leather edges are prominent, repeatedly dyeing for many times, and then coating the edge material; when the leather edge is polished, one of toothpicks, cotton swabs, toothbrushes, mascara brushes, painting brushes or round edge ring tools can be selected according to the thickness of the leather edge and the edge sealing material, and the polished edge material is smeared on the leather edge to be modified;

step S54, air-drying after leveling, polishing with fine and finer sand paper in sequence, repeating the coating and polishing for several times, and finally coating beeswax and rubbing with flannelette or broken leather back to be glossy;

step S55, compounding, namely compounding the leather 1 processed in the step S54 by compounding equipment;

step S56, performing oil edge, namely firstly, priming, smearing milky base material on the exposed part of the compounded edge, drying, polishing, performing oil edge oiling, performing oil oiling again after the skin edge is completely dried, and repeating the oil oiling for 2-5 times to obtain a semi-finished product;

and step S57, wiping the semi-finished product with the oil edge, printing characters and packaging the finished product for storage.

According to the invention, the manufactured belt has better quality and is convenient to use through the processing steps.

The invention has the beneficial effects that: compared with the prior art, the processing technology has the advantages that the steps are simple to set, the sawtooth-shaped teeth are directly cut on the leather by the laser cutting machine, plastic tooth pressure does not need to be additionally processed, the environment is more environment-friendly, labor cost is saved, the manufacturing is simple, the plastic teeth do not need to be additionally sewn or bonded by cutting the leather by the laser machine, the surface of the belt is flat and smooth, the leather belt is attractive and practical, and real leather and artificial leather can be manufactured.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A belt processing technology is characterized by comprising the following steps:

s1, selecting materials, and selecting leather with flat surface and uniform thickness;

step S2, cutting, namely cutting the leather into required breadth specifications according to requirements and size specifications;

step S3, positioning the teeth, and planning the positions of the teeth to be arranged on the leather;

step S4, performing laser grooving, and cutting teeth on the planned position of the leather through a laser cutting machine;

and step S5, edging and packaging.

2. The belt processing of claim 1, wherein said teeth are rectangular.

3. The belt processing process as claimed in claim 1, wherein in step S4, after the leather is cut into teeth by the laser cutting machine, the surface treatment of the teeth is further performed.

4. A belt processing technique as claimed in claim 3, characterized in that the surface treatment of the teeth is carried out by chemical raw materials.

5. The process of claim 4, wherein the chemical materials include acrylic acid and adhesive.

6. The belt processing process as claimed in claim 5, wherein the acrylic acid accounts for 90-99 wt%, and the adhesive accounts for 1-10 wt%.

7. The belt processing process as claimed in claim 6, wherein the acrylic acid is 95 wt%, and the adhesive is 5 wt%.

8. The belt processing process as claimed in claim 1, wherein in step S4, after the leather is cut into teeth by the laser cutting machine, holes can be punched on the leather as required.

9. The belt processing process as claimed in claim 8, wherein the leather is punched by the cutter after the teeth are cut by the laser cutter.

10. The belt processing process of claim 1, wherein in step S5, the edging package further comprises the steps of:

step S51, the tail of the leather is punched, specifically, the tail is punched by a V-shaped or U-shaped tool for cutting the belt tail;

step S52, cutting the leather with a knife or grinding with sand paper, chamfering the leather edge with an edge cutter or a blade, scalding or cutting the burr place with a soldering iron or a red iron chopstick or burning with a lighter, and then grinding the leather edge with thin sand paper, wherein the transverse section of the leather is arc;

step S53, dyeing the leather edge in the place where the color of the leather edge is lighter than the leather surface or the color difference of the multilayer leather edge or the leather edge is prominent, repeatedly dyeing for many times, and then coating the edge material; when the leather edge is polished, one of toothpicks, cotton swabs, toothbrushes, mascara brushes, painting brushes or round edge ring tools is selected according to the thickness of the leather edge and the edge sealing material, and the polished edge material is smeared on the leather edge to be modified;

step S54, air-drying after leveling, polishing with fine and finer sand paper in sequence, repeating the coating and polishing for several times, and finally coating beeswax and rubbing with lint or broken leather until the back is glossy;

step S55, compounding, namely compounding the leather processed in the step S54 by compounding equipment;

step S56, performing oil edge, namely firstly, priming, smearing milky base material on the exposed part of the compounded edge, drying, polishing, performing oil edge oiling, performing oil oiling again after the skin edge is completely dried, and repeating the oil oiling for 2-5 times to obtain a semi-finished product;

and step S57, wiping the semi-finished product with the oil edge, printing characters and packaging the finished product for storage.

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