CN111011966A - Clothing material processing system - Google Patents

Abstract

The application discloses clothing material processing system relates to the technical field of clothing production. The clothing material processing system comprises a bonding module, a feeding module and a receiving module, wherein the bonding module is used for bonding clothing materials and comprises a feeding hole and a discharging hole; the feeding module is arranged on one side of the feeding hole and comprises a bracket and at least one roller, and the roller can be rotatably arranged on the bracket around the axis of the roller; the material receiving module is arranged on one side of the discharge port and comprises a material receiving rotating shaft and a material receiving driving piece, and the material receiving driving piece is in transmission connection with the material receiving rotating shaft and is used for driving the material receiving rotating shaft to be in transmission connection. Therefore, the automatic degree of the automatic feeding device is high, the labor cost is low, and the working efficiency is high.

Description

Clothing material processing system

Technical Field

The application relates to the technical field of clothing production, in particular to a clothing material processing system.

Background

The binding machine is a textile clothing mechanical system, and is suitable for binding the fabric and the lining, and the binding lining and the lining in clothing production.

In the actual production process, two clothes materials to be bonded need to be cut first, then at least 1 person is needed to manually stack the two clothes materials to be bonded at a feed inlet of a bonding machine and place the two clothes materials on a bonding machine belt, the two clothes materials are conveyed to a heating main body of the bonding machine by the bonding machine belt, the heating main body heats the two clothes materials to enable the two clothes materials to be bonded together, the two bonded clothes materials are conveyed out of a discharge port, at least 1 person is needed to arrange the two clothes materials at the discharge port, the degree of automation of the bonding machine is low, the labor cost is high, and the working efficiency is low.

Then, the two bonded garment materials need to be transferred to other working places, and are sewn manually by a common sewing machine or stitched, so that the automation degree is low, the labor cost is high, the working efficiency is low, and the sewing and stitching precision is low.

Disclosure of Invention

The application aims to provide a clothing material processing system, degree of automation is higher, and the cost of labor is lower, and work efficiency is higher.

The embodiment of the application is realized as follows:

a clothing material processing system comprises an adhesion module, a feeding module and a receiving module, wherein the adhesion module is used for adhering clothing materials and comprises a feeding hole and a discharging hole; the feeding module is arranged on one side of the feeding hole and comprises a support and at least one roller arranged on the support; the material receiving module is arranged on one side of the discharge port and comprises a material receiving rotating shaft and a material receiving driving piece, and the material receiving driving piece is in transmission connection with the material receiving rotating shaft and is used for driving the material receiving rotating shaft to be in transmission connection.

In an embodiment, the clothing material processing system includes a material guiding module, and the material guiding module is disposed at the feeding port and is used for guiding the clothing material.

In an embodiment, the material guiding module includes a feeding pulling barrel having at least one feeding guide groove, and two ends of the feeding guide groove face the feeding module and the feeding hole, respectively.

In one embodiment, a plurality of feeding modules, a plurality of material guiding modules and a plurality of material receiving modules are arranged; one bonding module is arranged; the feeding module, the material guiding module and the material receiving module form a clothing material processing assembly line, and each clothing material processing assembly line passes through the bonding module.

In one embodiment, a sewing module is arranged on at least one clothing material processing flow line and is arranged between the discharge port and the material receiving module for sewing.

In one embodiment, the sewing module comprises a workbench, a sewing needle head and a sewing driving piece, wherein the sewing needle head is arranged above the workbench; the sewing driving piece is in transmission connection with the sewing needle head and is used for driving the sewing needle head to move.

In an embodiment, the sewing module includes a sewing pull cylinder, the sewing pull cylinder is disposed on the workbench and has at least one discharging guide slot, and two ends of the discharging guide slot respectively face the discharging port and the sewing needle.

In one embodiment, the sewing module includes a sewing sensor, and the sewing sensor is disposed between the discharge port and the sewing needle for controlling the sewing driving member.

In an embodiment, the material receiving module includes a material receiving sensor, and the material receiving sensor is disposed between the discharge port and the material receiving rotation shaft and used for controlling the material receiving driving member.

In an embodiment, the material receiving module includes a first limiting structure, and the first limiting structure is disposed on the material receiving rotating shaft and used for limiting the movement of the clothing material.

In an embodiment, the first limiting structure includes two cover plates and a positioning sleeve, and the two cover plates are arranged at an interval to form a space for clamping the clothing material; the positioning sleeve is detachably connected to the material receiving rotating shaft and used for limiting the movement of the cover plate.

In one embodiment, the material receiving module comprises a material receiving rack and a second limiting structure, and the material receiving rotating shaft and the material receiving driving member are both arranged on the material receiving rack; the second limiting structure is arranged on the material receiving rack, is positioned between the discharge port and the material receiving rotating shaft and is used for limiting the movement of the clothing materials.

In an embodiment, the second position-limiting structure includes a plurality of position-limiting rods, and the position-limiting rods are arranged in an array.

In one embodiment, the position-limiting rods include a plurality of first position-limiting rods located at a first predetermined height, and a plurality of second position-limiting rods located at a second predetermined height, and the first position-limiting rods and the second position-limiting rods are arranged in a staggered manner.

Compared with the prior art, the beneficial effect of this application is: this application places through feed module and treats adhesive clothing material to will treat adhesive clothing material and guide to the feed inlet of bonding module, see off from the discharge gate after the bonding, receive the receipts material pivot guide of material module and roll up, accomplish and receive the material, degree of automation is higher, and the cost of labor is low, and work efficiency is high.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

Fig. 1 is a schematic structural diagram of a garment material handling system according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of a garment material handling system according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of a second limiting structure system according to an embodiment of the present application;

FIG. 4 is a schematic diagram of a garment material handling system according to an embodiment of the present application;

FIG. 5 is a schematic diagram of a garment material handling system according to an embodiment of the present application;

fig. 6 is a schematic structural diagram of a garment material processing system according to an embodiment of the present application.

Icon: 900-garment materials processing system; 910-materials for clothing; 200-bonding a module; 210-a bonding body; 220-a material receiving platform; 221-support plate; 230-a feed inlet; 240-discharge hole; 300-a feed module; 310-a scaffold; 320-a roller; 400-a material receiving module; 410-a material receiving rotating shaft; 420-receiving a material driving member; 430-a material receiving rack; 440-a material receiving sensor; 450-a first limit structure; 451-cover plate; 452-a positioning sleeve; 460-a second limit structure; 461-first stop lever; 462-a second stop bar; 463-a sliding sleeve; 464-a limiting block; 465-a fixed plate; 500-a material guiding module; 510-a feed draw drum; 511-a feed chute; 600-a sewing module; 610-a sewing machine frame; 620-a workbench; 630-sewing needle; 640-sewing drive; 650-sewing a pull cylinder; 651-discharge chute; 660-a sewing sensor; 700-a master control module; 710-a voltage regulation unit; 720-temperature adjusting unit; 730-a speed regulating unit; 800-power supply module.

Detailed Description

The terms "first," "second," "third," and the like are used for descriptive purposes only and not for purposes of indicating or implying relative importance, and do not denote any order or order.

Furthermore, the terms "horizontal", "vertical", "overhang" and the like do not imply that the components are required to be absolutely horizontal or overhang, but may be slightly inclined. For example, "horizontal" merely means that the direction is more horizontal than "vertical" and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

In the description of the present application, it should be noted that the terms "inside", "outside", "left", "right", "upper", "lower", and the like indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings or orientations or positional relationships that are conventionally arranged when products of the application are used, and are used only for convenience in describing the application and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the application.

In the description of the present application, unless expressly stated or limited otherwise, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements.

The technical solution of the present application will be clearly and completely described below with reference to the accompanying drawings.

Please refer to fig. 1, which is a schematic structural diagram of a garment material processing system 900 according to an embodiment of the present application. A dress material processing system 900 comprises an adhering module 200, a feeding module 300 and a receiving module 400, wherein the adhering module 200 is used for adhering dress materials 910 (please refer to FIG. 3), and the adhering module 200 comprises a feeding port 230 and a discharging port 240; the feeding module 300 is arranged at one side of the feeding hole 230, the feeding module 300 comprises a bracket 310 and at least one roller 320, and the roller 320 is arranged on the bracket 310 in a manner of rotating around the axis of the roller 320; the material collecting module 400 is disposed at one side of the material outlet 240, the material collecting module 400 includes a material collecting rotating shaft 410 and a material collecting driving member 420, and the material collecting driving member 420 is in transmission connection with the material collecting rotating shaft 410 for driving the material collecting rotating shaft 410 to be in transmission connection.

The clothing material 910 (see fig. 3) includes a fabric or an adhesive interlining. The bonding module 200 may be a interlining machine (i.e., a bonder), which may be an existing molding machine, such as: NHJ-Q600 bonder, or other retrofit or self-made machine. The bonding module 200 includes a bonding body 210, a feed inlet 230 and a discharge outlet 240 are provided on the bonding body 210, the bonding body 210 has a heating element and a roller, the roller can move the clothing 910 between the feed inlet 230 and the discharge outlet 240 of the bonding body 210, and at the same time, heat is applied by the heating element, so that the hot melt adhesive is melted, and the clothing 910 to be bonded are bonded together.

In one operation, the clothing material 910 to be bonded is rolled or the dough and auxiliary materials are cut into a plurality of narrower rolls of clothing material 910 according to the size, the narrower rolls of clothing material 910 are placed on the roller 320 of the feeding module 300, the clothing material 910 is guided to the feeding port 230, the clothing material 910 is advanced toward the discharging port 240 by the roller of the bonding main body 210, and heated by the heating element in the bonding main body 210, so that the hot melt adhesive melts, the clothing material 910 to be bonded is bonded together, the bonded clothing material 910 is guided to the receiving rotating shaft 410 of the receiving module 400, and the receiving driving member 420 drives the receiving rotating shaft 410 to rotate so that the bonded clothing material 910 is guided to be rolled up to form a new roll of clothing material 910. Wherein, during the processing of the garment material 910, the roller 320 at the feeding module 300 is passively rotated, so that the roll-type garment material 910 is continuously pulled out. Therefore, the automatic degree of the present embodiment is high, the labor cost is low, and the working efficiency is high. In one embodiment, the strip-shaped garment material 910 can be bonded first and then cut, and the garment material 910 can be rolled for storage, thereby saving the cost for cutting and cutting. The embodiment can be used for gluing collars, sewing the middle line of cuffs, manufacturing sleeve tabs, manufacturing trousers tabs and the like.

Please refer to fig. 2, which is a schematic structural diagram of a garment material processing system 900 according to an embodiment of the present application. The clothing material processing system 900 includes a material guiding module 500, and the material guiding module 500 is disposed at the feeding hole 230 for guiding the clothing material 910. The material guide module 500 includes a feeding draw tube 510, and the feeding draw tube 510 has at least one feeding guide slot 511, and both ends of the feeding guide slot 511 face the feeding module 300 and the feeding hole 230, respectively.

When a fabric needs to be folded inwards and bonded, such as a sleeve tab and a trousers tab, the feeding pull cylinder 510 is provided with a feeding guide groove 511, the cross section of the feeding pull cylinder 510 can be similar to a square, and the groove width of the feeding guide groove 511 is gradually reduced, so that the fabric is folded after passing through, and correspondingly, the support 310 is provided with a corresponding roller 320 for placing the rolled fabric.

When it is desired to bond a facestock and a bonding liner together, feed draw tube 510 has two feed channels 511, and the cross-section of feed draw tube 510 may resemble a "zig-zag" shape. The two feeding guide grooves 511 are used for the fabric and the adhesive interlining to pass through respectively, so that the fabric and the adhesive interlining are pulled flat and overlapped after passing through, and correspondingly, two rollers 320 which are arranged up and down at intervals are arranged on the bracket 310 and are used for the roll fabric and the roll adhesive interlining to be placed respectively.

When it is desired to bond three panels together, feed draw tube 510 has three feed channels 511, and the cross-section of feed draw tube 510 may resemble a "mu" shape. The three feeding guide grooves 511 are used for the three fabrics to pass through respectively, so that the three fabrics are pulled flat and overlapped after passing through, and correspondingly, the bracket 310 is provided with three corresponding rollers 320 which are arranged at intervals up and down and are used for the three roll fabrics to be placed respectively.

The bonding module 200 includes a material receiving platform 220, and the material receiving platform 220 is a conveying assembly composed of a bonding machine belt, a roller or a belt pulley, and the like, and is disposed at the material inlet 230 and the material outlet 240 for receiving and conveying the clothing material 910. In another embodiment, the receiving platform 220 is only disposed at the discharging opening 240.

The material receiving platform 220 is provided with a support plate 221, and the material feeding pull cylinder 510 is fixed on the support plate 221 through bolts, bonding, welding and the like.

The receiving module 400 includes a first limiting structure 450, and the first limiting structure 450 is disposed on the receiving shaft 410 for limiting the movement of the clothing 910. In the embodiment, the first limiting structure 450 includes two cover plates 451, the two cover plates 451 are spaced from each other to form a space for clamping the clothing material 910, and in the embodiment, the two cover plates 451 are circular plate pieces, which may be both fixedly connected to the material receiving rotating shaft 410, or both detachably connected to the material receiving rotating shaft 410, or may be fixed and movable. In another embodiment, the receiving shaft 410 is provided with a limiting groove matching with the cover plate 451.

The first position-limiting structure 450 includes a positioning sleeve 452, and the positioning sleeve 452 is detachably connected to the material-receiving rotating shaft 410 for limiting the movement of the cover plates 451, so that the clothing material 910 with different widths can be matched by adjusting the distance between the two cover plates 451. In one embodiment, the receiving shaft 410 is provided with an external thread, and the positioning sleeve 452 is a nut having a first internal thread matching the first external thread.

In one operation, when the bonded clothing 910 is fed from the feeding hole 240, one of the cover plates 451 is removed, the clothing 910 is wound around the receiving shaft 410, the removed cover plate 451 is sleeved back on the receiving shaft 410 and abuts against the clothing 910, the positioning sleeve 452 is screwed to fix the cover plate 451, and when the receiving driving member 420 drives the receiving shaft 410 to rotate, the clothing 910 can be rolled into a roll in the space between the two cover plates 451.

The material receiving module 400 comprises a material receiving rack 430 and a second limiting structure 460, wherein the material receiving rotating shaft 410 and the material receiving driving member 420 are both arranged on the material receiving rack 430; the second position-limiting structure 460 is disposed on the receiving frame 430 and located between the discharging opening 240 and the receiving shaft 410 for limiting the movement of the clothing 910. The material receiving drive 420 may be an electric motor, hydraulic motor, or the like.

The second limiting structure 460 includes a plurality of limiting rods, which are arranged in an array. The limiting rod comprises a plurality of first limiting rods 461 at a first preset height and a plurality of second limiting rods 462 at a second preset height, wherein the first limiting rods 461 and the second limiting rods 462 are arranged in a staggered manner. Wherein the first preset height is higher than the second preset height. The first and second position-limiting rods 461 and 462 are fixed to the material-receiving frame 430 by a fixing plate 465.

In an operation process, when the bonded clothing materials 910 are conveyed from the discharge port 240, the clothing materials 910 pass through the limiting rods and then are conveyed to the receiving rotating shaft 410, and the clothing materials 910 can be leveled by the limiting rods.

Please refer to fig. 3, which is a schematic structural diagram of a second limiting structure 460 system according to an embodiment of the present application. The number of the first limiting rods 461 and the number of the second limiting rods 462 are three, and a sliding sleeve 463 and a limiting block 464 are sleeved on the second limiting rod 462 positioned in the middle. The stop 464 may be a nut. When the clothing material 910 is inserted between the limiting rods, the sliding sleeve 463 can be driven by the clothing material 910 to rotate, and the limiting block 464 can be abutted against the clothing material 910, so that the clothing material 910 is prevented from being separated from the second limiting structure 460. The fixing plate 465 and the limiting block 464 are respectively positioned at two sides of the sliding sleeve 463.

Please refer to fig. 4, which is a schematic structural diagram of a garment material processing system 900 according to an embodiment of the present application. A plurality of feeding modules 300, a plurality of material guiding modules 500 and a plurality of material receiving modules 400 are arranged; one bonding module 200 is provided; wherein, a feeding module 300, a guiding module 500, and a receiving module 400 form a garment material processing assembly line, and each garment material processing assembly line passes through the bonding module 200. In this embodiment, there are 3 feeding modules 300, 3 guiding modules 500, and 3 receiving modules 400.

The garment material handling system 900 may process multiple garment materials 910 simultaneously in parallel in multiple garment material handling pipelines.

The sewing module 600 is arranged on at least one clothing material processing production line and is arranged between the discharge port 240 and the material receiving module 400 for sewing. The sewing module 600 includes a sewing machine, such as a single needle chain machine.

The sewing module 600 can be used for sewing or stitching the garment material 910 which is just subjected to bonding treatment, and has the advantages of no need of turnover, higher automation degree, lower labor cost and higher working efficiency.

Please refer to fig. 5, which is a schematic structural diagram of a garment material processing system 900 according to an embodiment of the present application. The clothing material processing system 900 includes a main control module 700 and a power supply module 800, the main control module 700 includes a processor, and the main control module 700 is electrically connected with the material receiving module 400 and the bonding module 200 for control. The power supply module 800 includes a control switch, and the power supply module 800 is electrically connected to the main control module 700, the material receiving module 400 and the bonding module 200 for supplying power. The power supply module 800 may be a battery or an external power supply.

The main control module 700 includes a pressure regulating unit 710, a temperature regulating unit 720, and a speed regulating unit 730, and is used for controlling the pressure of the bonding main body 210 in the bonding module 200, the temperature regulating unit 720 is used for controlling the temperature of the heating unit in the bonding main body 210, and the speed regulating unit 730 is used for controlling the rotating speed of the roller in the bonding main body 210 and the conveying speed of the bonding machine belt in the receiving platform 220.

The material receiving module 400 includes a material receiving sensor 440, wherein the material receiving sensor 440 may be a proximity sensor, and is disposed between the material outlet 240 and the material receiving rotation shaft 410 for detecting whether the clothing material 910 passes through, and transmitting a signal to the main control module 700, and the main control module 700 controls the material receiving driving member 420 to be turned on or off. In one embodiment, the material receiving sensor 440 is fixed to the material receiving frame 430 by a rod.

The sewing module 600 includes a sewing sensor 660, the sewing sensor 660 may be a proximity sensor, and is disposed between the discharge port 240 and the sewing needle 630, and is configured to detect whether the clothing material 910 passes through, and transmit a signal to the main control module 700, and the main control module 700 controls the sewing driving member 640 to be turned on or off. In one embodiment, the sewing sensor 660 is secured to the sewing machine frame 610 by a strut.

Please refer to fig. 6, which is a schematic structural diagram of a garment material processing system 900 according to an embodiment of the present application. The sewing module 600 includes a sewing machine frame 610, a table 620, a sewing needle 630 and a sewing drive 640, the table 620 being provided on the sewing machine frame 610. The sewing needle 630 is arranged above the workbench 620; the sewing driving member 640 is in transmission connection with the sewing needle 630 and is used for driving the sewing needle 630 to move.

The sewing module 600 includes a sewing draw tube 650, the sewing draw tube 650 is disposed on the working table 620, and has at least one discharging guide channel 651, and two ends of the discharging guide channel 651 face the discharging hole 240 and the sewing needle 630, respectively. After the clothing material 910 passes through the discharging guide groove 651, the clothing material 910 can be smoothed, so that the sewing is smoother. In this embodiment, the sewing cylinder 650 has a discharging guide 651, and the cross section of the sewing cylinder 650 is similar to a "square" shape, and the sewing cylinder can be used for sewing or stitching the garment material 910 which has just been subjected to the bonding treatment. In another embodiment, the sewing draw tube 650 has a plurality of discharge guide slots 651, and the cross-section of the sewing draw tube 650 is similar to a "sun" or "mu" shape, so that other garment materials 910 can be sewn together with the garment material 910 which has just been subjected to the bonding process.

When the clothing material 910 needs edge stitching treatment, the groove widths of the discharging guide grooves 651 are sequentially decreased, so that the clothing material 910 is gathered and folded after passing through. And when the clothing material 910 does not need edge stitching treatment, the groove width of the discharging guide groove 651 is not changed.

The sewing machine frame 610 and the material receiving machine frame 430 are spaced from the material outlet 240. As the garment material 910 is transported through the intervals, a cooling process may be performed. The sewing machine frame 610 and the receiving machine frame 430 in the plurality of garment material processing lines may be integrally formed or separately arranged as required.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. A garment material handling system, comprising:

the bonding module is used for bonding the clothing materials and comprises a feeding hole and a discharging hole;

the feeding module is arranged on one side of the feeding hole and comprises a support and at least one roller arranged on the support; and

the material receiving module is arranged on one side of the discharge port and comprises a material receiving rotating shaft and a material receiving driving piece, wherein the material receiving driving piece is in transmission connection with the material receiving rotating shaft and is used for driving the material receiving rotating shaft to be in transmission connection.

2. The garment material handling system of claim 1, comprising:

the material guide module is arranged at the feed inlet and used for guiding the clothing materials;

the material guide module comprises a feeding pull cylinder, the feeding pull cylinder is provided with at least one feeding guide groove, and two ends of the feeding guide groove face the feeding module and the feeding hole respectively.

3. The garment material processing system according to claim 2, wherein a plurality of the feeding modules, the material guiding modules and the material receiving modules are provided; one bonding module is arranged;

the feeding module, the material guiding module and the material receiving module form a clothing material processing assembly line, and each clothing material processing assembly line passes through the bonding module.

4. The garment material handling system of claim 3, wherein at least one of the garment material handling lines is provided with:

the sewing module is arranged between the discharge port and the material receiving module and used for sewing.

5. The garment material handling system of claim 4, wherein the sewing module comprises:

a working table is arranged on the upper portion of the machine body,

the sewing needle head is arranged above the workbench; and

the sewing driving piece is in transmission connection with the sewing needle head and is used for driving the sewing needle head to move.

6. The garment material handling system of claim 5, wherein the sewing module comprises:

the sewing pull cylinder is arranged on the workbench and provided with at least one discharging guide groove, and two ends of the discharging guide groove respectively face the discharging port and the sewing needle head.

7. The garment material handling system of claim 5, wherein the sewing module comprises:

the sewing sensor is arranged between the discharge port and the sewing needle head and used for controlling the sewing driving piece.

8. The garment material handling system of any one of claims 1 to 7, wherein the material receiving module comprises:

and the material receiving sensor is arranged between the discharge port and the material receiving rotating shaft and used for controlling the material receiving driving piece.

9. The garment material handling system of claim 8, wherein the receiving module comprises:

the first limiting structure is arranged on the material receiving rotating shaft and used for limiting the movement of the clothing material;

wherein, first limit structure includes:

the two cover plates are arranged at intervals to form a space for clamping the clothing material;

the positioning sleeve is detachably connected to the material receiving rotating shaft and used for limiting the movement of the cover plate.

10. The garment material handling system of claim 8, wherein the receiving module comprises:

the receiving rotating shaft and the receiving driving piece are arranged on the receiving rack; and

the second limiting structure is arranged on the material receiving rack, is positioned between the discharge port and the material receiving rotating shaft and is used for limiting the movement of the clothing materials;

the second limiting structure comprises a plurality of limiting rods, the limiting rods are arranged in an array mode, the limiting rods comprise a plurality of first limiting rods located at a first preset height, and a plurality of second limiting rods located at a second preset height, and the first limiting rods and the second limiting rods are arranged in a staggered mode.

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