CN112853727A

CN112853727A - Cloth cutting system and using method

Info

Publication number: CN112853727A
Application number: CN202110002986.6A
Authority: CN
Inventors: 庄婉卿
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-09-28
Filing date: 2018-09-28
Publication date: 2021-05-28
Also published as: CN109371657B; CN109371657A

Abstract

The invention discloses a cloth cutting system and a use method thereof, the structure of the cloth cutting system comprises a movable grid, a movable placing groove, an observation window, a running operation box and a redundant outlet end, wherein the redundant outlet end penetrates through the inside of one end of the running operation box and is communicated with the inside, the running operation box comprises a slide rail, a handle, an extrusion fixing group, an extrusion control box, a main control box, a rotary cutting edge sealing device, a cutting hot sealing device, a protective shell, a grid to be processed and a hollow grid, the hollow grid is arranged under the rotary cutting edge sealing device, the handle penetrates through the inside of the protective shell, the device can immediately seal the edge when a watchband is placed in the inside, when a hole is drilled, the blade carries out rotary cutting on the cutting blade, the periphery of the cutting blade is pressed by the auxiliary body, so that the cutting blade is not influenced by the part being cut, after the cutting, the cut part is slightly heated, so that the inner wall of the cutting tool can be bonded and cannot be scattered.

Description

Cloth cutting system and using method

The invention relates to a divisional application of a cloth cutting device for preventing woven watchbands from being easily scattered and processed, wherein the application date of the device is 2018, 9, 28 and the application number of the device is CN201811138912.

Technical Field

The invention belongs to the field of watch watchband processing, and particularly relates to a cloth cutting system and a using method.

Background

At present, the watch band is very common, the watch band has various types, such as chains, belts, ceramics, woven cloth bands and the like, the woven cloth bands are more personalized, a larger part of manufacturing procedures are manually made, and the belts are also longer in labor and time consumption and are deeply loved by the masses.

Based on the findings of the inventor, the conventional watchband cloth cutting device mainly has the following defects, for example:

1. the woven cloth belt is formed by weaving a single weaving wire, when the woven cloth belt is preliminarily manufactured, the woven cloth belt is subsequently sheared and drilled, when the end of the woven cloth belt is sheared, the weaving wire is easy to disperse, the woven cloth belt loses original limited force after being cut by a knife, the woven cloth belt is dispersed, the woven cloth belt is difficult to combine and fix, and the appearance is also influenced after being combined.

2. As above, the watchband needs to be drilled out of the fixing hole, the watchband which is woven by the rotor of a common drill belt and the like is easy to penetrate through a woven gap, the drilled watchband is easy to be different in size, the hole in the watchband is also easy to scatter from the middle of the woven belt, and the woven rope in the watchband is not easy to process and is easy to scrap in a whole strip.

Therefore, it is necessary to provide a cloth cutting system and a method of using the same

Disclosure of Invention

In order to solve the problem that the periphery of the woven watchband is easily scattered after the cutting is finished, and the watchband is easily drilled into a woven gap when being drilled, so that the drilled holes are different in size and are easily scattered after being drilled.

The invention relates to a cloth cutting system and a use method thereof, and the purpose and the effect are achieved by the following specific technical means:

the structure of the device comprises a movable grid, a movable placing groove, an observation window, an operation box and a redundant outlet end.

The movable grids are arranged at the bottom end inside the operation box, the movable placing grooves are located in the movable grids and are movably connected, the two observation windows are arranged and embedded into two ends of the operation box, and the redundant outlet ends penetrate through the inside of one end of the operation box and are communicated with each other.

The operation box comprises a slide rail, a handle, an extrusion fixing group, an extrusion control box, a main control box, a rotary cutting edge sealing device, a cutting hot sealing device, a protective shell, to-be-processed grids and hollow grids, wherein the hollow grids are arranged under the rotary cutting edge sealing device, the bottom ends of the to-be-processed grids are installed in a slide rail inner groove and movably connected, the handle is perpendicularly welded to one end face of the to-be-processed grids, one end of the extrusion fixing group penetrates through the inside of the extrusion control box and movably connected, the extrusion control box is provided with two blocks and located at two ends of the main control box, one end of the rotary cutting edge sealing device is installed in the inside of the main control box and movably connected, the cutting hot sealing device and the rotary cutting edge sealing device are located in the same inner groove, and.

As a further improvement of the invention, the cutting, ironing and sealing device comprises a triangular blade, a fixed body, an ironing device, a hollow connecting body, a lead, a PTC heating body and a heat conductor, wherein the triangular blade is welded at the bottom end of the fixed body, the two heat conductors penetrate through two ends of the PTC heating body, one end of the heat conductor, which is far away from the PTC heating body, is connected with the ironing device, one end of the lead is positioned inside the hollow connecting body, the triangular blade is in a right-angled triangle structure, and an insulator is arranged on the outer ring of the PTC heating body.

As a further improvement of the invention, the rotary cutting edge sealing device comprises a blade, a micro heating body, a limiting end, an auxiliary body, a friction-resistant layer, a rotating shaft, a stress releasing device and a blank, wherein the blank is positioned inside the micro heating body, the blade is installed at the bottom end of the micro heating body, the limiting end is installed at one end of the micro heating body far away from the blade, the friction-resistant layer is attached to the inner wall of the auxiliary body, the stress releasing device is installed between the rotating shaft and the limiting end, the blade is of a triangular structure and surrounds in a circular ring shape, and the inclination of the limiting end is 45 degrees.

As a further improvement of the ironing device, the ironing device comprises an insulating layer, an energy collecting body, a heat-conducting friction layer, energy transmission strips and a collecting end, wherein the collecting end is positioned inside the insulating layer, three energy transmission strips are in a group and are in penetrating connection with the energy collecting body, one end, far away from the energy collecting body, of each energy transmission strip is connected with the heat-conducting friction layer, and 11 energy collecting bodies are arranged in total and are in a group with the three energy transmission strips.

As a further improvement of the present invention, the force-receiving releasing device includes a force-receiving plate, a force-receiving shaft, an arc-shaped spring, and an auxiliary rotating body, wherein the force-receiving shaft penetrates through one end of the force-receiving plate and is hinged thereto, one end of the arc-shaped spring is connected to the auxiliary rotating body, the arc-shaped spring is in an arc-shaped structure, and the bottom end of the auxiliary rotating body is welded to the force-receiving plate to form an inverted T-shaped structure.

Compared with the prior art, the invention has the following beneficial effects:

this equipment can be placed when inside at the watchband, fix its both ends through the fixed group of extrusion, scald seal equipment and rotatory cutting banding device through falling down and cut by the cutting, its cutting scalds seal equipment and irones it by the heat conduction frictional layer when cutting finishes, make its banding at once, when drilling, its blade carries out the rotation cutting to it, the periphery is withheld by the accessory body, make it can not receive the influence of cutting part, its cutting finishes the back, carry out the micro-heating in the position that the cutting finishes, make its inner wall can bond and live and can not scatter.

Drawings

FIG. 1 is a schematic structural diagram of a cloth cutting system and a method of using the same according to the present invention.

Fig. 2 is a schematic view of the internal structure of an operation box according to the present invention.

Fig. 3 is a schematic view of the internal structure of the cutting and ironing apparatus according to the present invention.

Fig. 4 is a schematic view of the internal structure of a rotary cutting and edge sealing apparatus according to the present invention.

Fig. 5 is an enlarged internal structure of an ironing apparatus according to the present invention.

FIG. 6 is an enlarged view of the interior of a force release device according to the present invention.

In the figure: a movable grid-1, a movable placing groove-2, an observation window-3, a running operation box-4, an unnecessary outlet end-5, a slide rail-41, a handle-42, an extrusion fixing group-43, an extrusion control box-44, a main control box-45, a rotary cutting and edge sealing device-46, a cutting and ironing sealing device-47, a protective shell-48, a grid-49 to be processed, a hollow grid-410, a triangular blade-471, a fixing body-472, an ironing device-473, a hollow connecting body-474 and a lead-475, PTC heating body-476, heat conductor-477, blade-461, micro heating body-462, limit end-463, auxiliary body-464, antifriction layer-465, rotation axis-466, stress release device-467, blank space-468, insulating layer-4731, energy collector-4732, heat conduction friction layer-4733, energy transmission bar-4734, collection end-4735, stress plate-4671, stress shaft-4672, arc spring-4673 and auxiliary rotator-4674.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in figures 1 to 6:

the invention provides a cloth cutting system and a using method thereof, and the structure of the cloth cutting system comprises a movable grid 1, a movable placing groove 2, an observation window 3, an operation box 4 and a redundant outlet end 5.

The movable grid 1 is arranged at the bottom end inside the operation box 4, the movable placing grooves 2 are located in the movable grid 1 and movably connected, the two observation windows 3 are embedded into two ends of the operation box 4, and the redundant outlet ends 5 penetrate through the inside of one end of the operation box 4 and are communicated with each other.

The operation box 4 comprises a sliding rail 41, a handle 42, an extrusion fixing group 43, an extrusion control box 44, a main control box 45, a rotary cutting and edge sealing device 46, a cutting and ironing sealing device 47, a protective shell 48, a lattice 49 to be processed and a hollow lattice 410, wherein the hollow lattice 410 is arranged under the rotary cutting and edge sealing device 46, the bottom end of the lattice 49 to be processed is arranged in an inner groove of the sliding rail 41 and movably connected, the handle 42 is vertically welded on one end surface of the lattice 49 to be processed, one end of the extrusion fixing group 43 penetrates through the inside of the extrusion control box 44 and movably connected, the extrusion control box 44 is provided with two parts and is located at two ends of the main control box 45, one end of the rotary cutting and edge sealing device 46 is arranged in the inside of the main control box 45 and movably connected, the cutting and ironing sealing device 47 and the rotary cutting and edge sealing device 46 are located in the same inner groove.

The cutting ironing and sealing equipment 47 comprises a triangular blade 471, a fixing body 472, an ironing device 473, a hollow connection body 474, a lead 475, a PTC heating body 476 and a heat conductor 477, wherein the triangular blade 471 is welded at the bottom end of the fixing body 472, the heat conductor 477 is provided with two heat conductors penetrating through two ends of the PTC heating body 476, one end of the heat conductor 477, which is far away from the PTC heating body 476, is connected with the ironing device 473, one end of the lead 475 is positioned inside the hollow connection body 474, the triangular blade 471 is in a right-angled triangle structure, an insulator is arranged on the outer ring of the PTC heating body 476, the PTC heating body 476 can be heated quickly after being electrified, open fire cannot be generated, and the heat conductor 477 is made of a quick temperature conducting material and can quickly transfer heat energy to a required position.

Wherein, the rotary cutting edge sealing device 46 comprises a blade 461, a micro heating body 462, a limiting end 463, an auxiliary body 464, a friction-resistant layer 465, a rotating shaft 466, a stress release device 467 and a blank 468, the blank 468 is located inside the micro heating body 462, the blade 461 is installed at the bottom end of the micro heating body 462, the limiting end 463 is installed at one end of the micro heating body 462 far away from the blade 461, the friction-resistant layer 465 is attached to the inner wall of the auxiliary body 464, the force release device 467 is installed between the rotation axis 466 and the limiting end 463, the blade 461 is a triangle structure and is circularly surrounded, the inclination of the limiting end 463 is 45 degrees, the micro heating body 462 is in a circular structure, the blank 468 is formed by combining two semicircles into a whole, which can be separated by the force of the restraining end 463, the axis of rotation 466 moves synchronously with the auxiliary body 464, which auxiliary body 464 will abut against the object.

Wherein, ironing device 473 includes insulating layer 4731, energy collection body 4732, heat conduction frictional layer 4733, energy transmission bar 4734, collection end 4735 is located inside insulating layer 4731, energy transmission bar 4734 three is a set and with energy collection body 4732 through connection, the one end that energy transmission bar 4734 kept away from energy collection body 4732 is connected with heat conduction frictional layer 4733, energy collection body 4732 is equipped with 11 altogether and with three energy transmission bar 4734 be a set, energy collection body 4732 is with its heat energy homodisperse, heat conduction frictional layer 4733 is heated evenly, and the dispersion is fast, insulating layer 4731 plays the guard action to collection end 4735.

The stress releasing device 467 comprises a stress plate 4671, a stress shaft 4672, an arc-shaped spring 4673 and an auxiliary rotating body 4674, wherein the stress shaft 4672 penetrates through one end of the stress plate 4671 and is connected with the auxiliary rotating body 4674, the arc-shaped spring 4673 is of an arc-shaped structure, the bottom end of the auxiliary rotating body 4674 is welded with the stress plate 4671 to form a reverse T structure, the stress plate 4671 rotates along the auxiliary rotating body 4674, and the arc-shaped spring 4673 is in an extrusion state at the beginning.

The specific use mode and function of the embodiment are as follows:

in the invention, the watchband is placed on the hollow space 410, the extrusion fixing group 43 is pushed downwards by the extrusion control box 44 to fix the watchband, the main control box 45 fixes the rotary cutting edge sealing device 46 and the cutting hot sealing device 47, the cutting hot sealing device 47 cuts the end of the watchband by the triangular blade 471, the lead 475 conducts electricity to the PTC heating body 476 to make the PTC heating body 476 start to run and heat quickly, the heat conductor 477 conducts the heat energy to the collecting end 4735, the energy collecting body 4732 disperses to the energy transmission bar 4734 to make the heat conduction friction layer 4733 heated to conduct the heat energy to the outer body to make the end of the outer body slightly condensed and fixed, the rotary shaft 466 thereof drives the blade 461 to rotate and cut off, the periphery of the outer body is fixed by the auxiliary body 464 at the same time of cutting, the inner wall of the outer body is ironed by the micro 462 to make the inner wall of the outer body condensed, the cut residue is positioned in the hollow space 468, when the object reaches the limiting end 463, the blank 468 has moved out of the limit of the inner wall of the friction-resistant layer 465, and the bearing plate 4671 is pushed by the arc-shaped spring 4673 to one side along the auxiliary rotating body 4674, so that the object falls into the grid 49 to be processed and returns.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. A cloth cutting device for preventing woven watchbands from being scattered and difficult to process structurally comprises a movable grid (1), a movable placing groove (2), an observation window (3), a running operation box (4) and a redundant outlet end (5); the method is characterized in that:

the movable grids (1) are arranged at the bottom end inside the operation box (4), the movable placing grooves (2) are positioned in the inner grooves of the movable grids (1) and are movably connected, two observation windows (3) are arranged and embedded into the two ends of the operation box (4), and the redundant outlet ends (5) penetrate through the inside of one end of the operation box (4) and are communicated with each other;

the operation box (4) comprises a sliding rail (41), a handle (42), an extrusion fixing group (43), an extrusion control box (44), a main control box (45), a rotary cutting edge sealing device (46), a cutting and ironing sealing device (47), a protective shell (48), a to-be-processed lattice (49) and a hollow lattice (410), wherein the hollow lattice (410) is arranged under the rotary cutting edge sealing device (46), the bottom end of the to-be-processed lattice (49) is arranged in an inner groove of the sliding rail (41) and is movably connected with the inner groove, the handle (42) is vertically welded on one end surface of the to-be-processed lattice (49), one end of the extrusion fixing group (43) penetrates through the interior of the extrusion control box (44) and is movably connected with the extrusion control box (44), the extrusion control box (44) is provided with two parts and is positioned at two ends of the main control box (45), one end of the rotary cutting edge sealing device (46) is, the cutting, ironing and sealing equipment (47) and the rotary cutting and sealing device (46) are positioned in the same inner groove, and the handle (42) penetrates through the inner part of the protective shell (48);

the cutting ironing and sealing equipment (47) comprises a triangular blade (471), a fixing body (472), an ironing device (473), a hollow connecting body (474), a conducting wire (475), a PTC heating body (476) and a heat conductor (477), wherein the triangular blade (471) is welded at the bottom end of the fixing body (472), the heat conductor (477) is provided with two parts and penetrates through two ends of the PTC heating body (476), one end, far away from the PTC heating body (476), of the heat conductor (477) is connected with the ironing device (473), and one end of the conducting wire (475) is located inside the hollow connecting body (474).

2. The cloth cutting system and the use method thereof according to claim 1, wherein: the rotary cutting edge sealing device (46) comprises a blade (461), a micro heating body (462), a limiting end (463), an auxiliary body (464), a friction-resistant layer (465), a rotating shaft (466), a stress release device (467) and a blank (468), wherein the blank (468) is positioned inside the micro heating body (462), the blade (461) is installed at the bottom end of the micro heating body (462), the limiting end (463) is installed at one end, far away from the blade (461), of the micro heating body (462), the friction-resistant layer (465) is attached to the inner wall of the auxiliary body (464), and the stress release device (467) is installed between the rotating shaft (466) and the limiting end (463).

3. The cloth cutting system and the use method thereof according to claim 1, wherein: ironing device (473) includes insulating layer (4731), energy collection body (4732), heat conduction frictional layer (4733), defeated energy strip (4734), collection end (4735), it is inside to collect end (4735) to be located insulating layer (4731), defeated energy strip (4734) three be a set of and with energy collection body (4732) through connection, defeated energy strip (4734) keep away from the one end of energy collection body (4732) and be connected with heat conduction frictional layer (4733).

4. The cloth cutting system and the use method thereof according to claim 2, wherein: the stress release device (467) comprises a stress plate (4671), a stress shaft (4672), an arc-shaped spring (4673) and an auxiliary rotating body (4674), wherein the stress shaft (4672) penetrates through one end of the stress plate (4671) and is connected with a hinge, and one end of the arc-shaped spring (4673) is connected with the auxiliary rotating body (4674).

5. The cloth cutting system and method of use of any one of claims 1-4, wherein:

in the invention, a watchband is placed on a hollow space (410), an extrusion fixing group (43) of the watchband is pushed downwards through an extrusion control box (44), so that the watchband is fixed, a main control box (45) of the watchband fixes a rotary cutting edge sealing device (46) and a cutting and ironing sealing device (47), and the cutting and ironing sealing device (471) cuts the end of the watchband through a triangular blade (471);

the PTC heater (476) is electrically conducted by a lead (475), so that the PTC heater (476) starts to operate and heat quickly, the heat conductor (476) conducts heat energy to the collecting end (4735), the heat energy is dispersed to the energy transmission bar (4734) through the energy collecting body (4732), so that the heat conduction friction layer (4733) is heated to conduct the heat energy to the outer body, the end head of the heat conduction friction layer is slightly condensed and fixed, and the rotating shaft (466) drives the blade (461) to rotate and cut off and cut;

the periphery of the auxiliary body (464) is fixed, the inner wall of the auxiliary body is ironed by the micro heating body (462) to be coagulated, the cut off residues are positioned in the blank spaces (468), when the cut off residues abut against the limiting end (463), the blank spaces (468) are already moved out of the limitation of the inner wall of the friction-resistant layer (465), the stress plate (4671) is pushed to one side by the arc-shaped spring (4673) along the auxiliary rotating body (4674), and the object falls into the grid (49) to be processed and then returns.