CN108978065B - Embroidery tufting machine and embroidery tufting method - Google Patents

Abstract

The invention provides an embroidery tufting machine and an embroidery tufting method. The embroidery tufting machine is used for processing yarns and comprises a needle plate, a plurality of embroidery needle devices, a yarn feeding device, a hook knife and a straight knife. The needle plate is movably arranged in both a first direction and a second direction. Each embroidery needle device is movably arranged in a first direction and comprises a needle rod and an embroidery needle, and the embroidery needle is detachably arranged in the needle rod. The yarn feeding device is used for feeding yarns into the embroidery needles. The hooking knife and the straight knife are both arranged on one side of the needle plate, and the embroidery needle device and the yarn feeding device are both arranged on the other side of the needle plate. The first direction is perpendicular to the plane of the needle plate, and the second direction is parallel to the plane of the needle plate.

Description

Embroidery tufting machine and embroidery tufting method

Technical Field

The invention relates to the technical field of knitting, in particular to an embroidery tufting machine and an embroidery tufting method.

Background

The existing embroidery machine works with a single needle, and the embroidery pattern is exquisite but the yield is too low. Furthermore, the prior art tufting process involves mechanically tufting a pile on a backing fabric with a row of needles to produce a loop or cut pile product. Therefore, although the output of the tufting machine is high, the pattern can only depend on thread burying, and the pattern is single. Secondly, the pattern has no layering, so that the tufted carpet is lack of beauty and cannot adapt to the increasingly improved aesthetic requirements of people.

Disclosure of Invention

The invention aims to provide an embroidery tufting machine and an embroidery tufting method which can be used for manufacturing exquisite and high-yield embroidery tufting.

In order to solve the above technical problems, the present invention provides an embroidery tufting machine for processing a yarn, the embroidery tufting machine comprising:

a needle plate movably arranged in both a first direction and a second direction;

the embroidery needle device comprises a plurality of embroidery needle devices, a plurality of embroidery needle devices and a controller, wherein each embroidery needle device is movably arranged in a first direction and comprises a needle rod and an embroidery needle, and the embroidery needle is detachably arranged in the needle rod;

the yarn feeding device is used for feeding yarns into the embroidery needles; and

the hooking knife and the straight knife are arranged on one side of the needle plate, and the embroidery needle device and the yarn feeding device are arranged on the other side of the needle plate;

the first direction is perpendicular to the plane of the needle plate, and the second direction is parallel to the plane of the needle plate.

Optionally, the yarn feeding device includes a first motor and a plurality of thread blocking rods, the first motor provides a power source for transferring the yarn, the relative positions of the plurality of thread blocking rods are adjustable, and the yarn passes through each thread blocking rod in an S shape after passing through the first motor.

Optionally, the yarn feeding device further includes a take-up lever and a hook structure, both the take-up lever and the hook structure have a through hole, the other end of the take-up lever is connected to the needle bar, the take-up lever is movable in a first direction along with the embroidery needle device, the through hole at one end of the take-up lever and the through hole of the hook structure have a height difference, and the height direction is parallel to the first direction.

Optionally, each embroidery needle device further comprises a spring, the embroidery tufting machine further comprises a frame, one end of the spring is connected with the needle rod, the other end of the spring is connected with the frame, and each embroidery needle device and the yarn feeding device are arranged on the frame.

Optionally, the embroidery tufting machine further comprises a workbench and a cloth moving device, the needle plate is arranged on the workbench, the cloth moving device comprises a cloth rolling cylinder, a sliding block, a second motor and a screw rod, the second motor is connected with the cloth rolling cylinder and used for controlling the needle plate to move in the first direction, and the screw rod is connected with the sliding block so as to control the workbench to move in the second direction.

Optionally, the needle plate is comb-shaped, the needle plate has mutually parallel comb teeth, the needle plate has a comb tooth opening end and a comb tooth closed end, and the comb teeth are perpendicular to the second direction.

Optionally, the embroidery tufting machine further comprises an intelligent control system, electromagnetic valves and cylinders, each embroidery needle device is connected with the cylinders, the intelligent control system is electrically connected with each electromagnetic valve to control the electromagnetic valves, and the electromagnetic valves are connected with the cylinders to control the movement of the embroidery needles.

Optionally, the needle bar is provided with a notch, the cylinder is arranged in the notch, and one section of the needle bar is L-shaped.

In another aspect of the present invention, there is provided an embroidery tufting method, in which an embroidery tufting machine operates using an embroidery tufting method, the embroidery tufting method comprising:

a yarn feeding step: feeding the yarn to an embroidery needle;

a ring making step: lowering the embroidery needle to feed yarn, withdrawing the hook knife and the straight knife, lowering the embroidery needle to the lowest point, finishing withdrawing the hook knife and the straight knife, lifting the embroidery needle, advancing the hook knife to hook the yarn, and looping the yarn; and

a step of cutting lines: when the yarn is in a circle, the straight knife cuts the yarn on the hook knife.

According to another aspect of the invention, the embroidery tufting method further comprises a yarn tension adjusting step, the yarn tension adjusting step is positioned before the yarn feeding step, and the yarn tension adjusting step is used for adjusting the tension of the fed yarn so that the hook knife avoids yarn remaining.

In summary, the present invention provides an embroidery tufting machine having a plurality of embroidery needle devices, and each embroidery needle device is movably arranged in a first direction to control and arrange free single needles of the embroidery machine together. Meanwhile, the fixed needle arrangement of the tufting machine is changed into free up-and-down movement of each needle, the advantages of the embroidery machine and the tufting machine are combined, and the tufting machine has high yield and exquisite patterns. The base cloth moves left and right in the up-and-down movement of the embroidery needle, the base cloth moves left and right along with the needle plate, and the embroidery needle can reach each position of the base cloth and carry out embroidery. Meanwhile, the needle plate can move up and down, so that the height of the final finished product tufting can be adjusted to meet different tufting requirements.

Drawings

FIG. 1 is a schematic view of an embroidery tufting machine provided in embodiments of the present invention;

FIG. 2 is a schematic view of a cylinder and needle bar provided by an embodiment of the present invention;

fig. 3 is a schematic view of a yarn feeding device according to an embodiment of the invention.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Please refer to fig. 1 to fig. 3. The invention provides an embroidery tufting machine which is used for processing yarns 11 and comprises a needle plate 16, a plurality of embroidery needle devices 18, a yarn feeding device 17, a hook knife 9 and a straight knife 10. The needle board 16 is movably disposed in both the first direction and the second direction. Each embroidery needle device 18 is movably arranged in a first direction, each embroidery needle device 18 comprises a needle bar 6 and an embroidery needle 8, and the embroidery needle 8 is detachably arranged in the needle bar 6. The yarn feeding device 17 is used to feed the yarn 11 to the embroidery needle 8. The hook knife 9 and the straight knife 10 are both arranged on one side of the needle plate 16, and the embroidery needle device 18 and the yarn feeding device 17 are both arranged on the other side of the needle plate 16. Wherein the first direction is perpendicular to the plane of the needle board 16 and the second direction is parallel to the plane of the needle board 16. The plane of the needle board 16 refers to the plane perpendicular to the plane of the needle board shown in fig. 1 and passing through the line a.

The first direction movement in this embodiment means an up-down movement, the needle plate 16 being movable in the first direction means that the needle plate 16 is movable up and down, the needle plate 16 being movable in the second direction means that the needle plate 16 is movable left and right, and each embroidery needle device 18 being movable in the first direction means that each embroidery needle device 18 is movable up and down.

The invention relates to a working method of an embroidery tufting machine, which comprises the following steps: the base fabric is placed on a needle plate 16, a yarn feeding device 17 feeds the yarn 11 into an embroidery needle 8, the embroidery needle 8 drives the yarn 11 to move downwards, the embroidery needle 8 descends to feed the yarn 11, the hook withdrawing knife 9 and the straight knife 10 retreat, the embroidery needle 8 descends to the lowest point, the hook withdrawing knife 9 and the straight knife 10 retreat, the embroidery needle 8 ascends, the hook withdrawing knife 9 advances to hook the yarn 11, and the yarn 11 is looped. When the yarn 11 makes one turn, the straight knife 10 cuts the yarn 11 on the hook knife 9. The base fabric can move left and right only by cutting one circle without leaving a loop, so that the needle can be controlled to be inserted at the position needing embroidery. Embroidery needle 8 is detachably arranged in needle bar 6, the up-and-down movement of embroidery needle 8 is controlled by needle bar 6, and embroidery needle 8 is convenient to replace when being broken due to detachable design.

The existing tufting machine uses row needles to mechanically plant the pile on the base fabric, thereby producing the loop pile or cut pile product, and the row needles move up and down simultaneously in the pile planting process, thereby being incapable of controlling each embroidery needle device, and having output but not delicate. The existing embroidery machine works for a single needle, and has low yield but is exquisite. The embroidery tufting machine of the invention is provided with a plurality of embroidery needle devices 18, each embroidery needle device 18 can be movably arranged in a first direction, free single needles of the embroidery machine are controlled to be arranged together, fixed needle arrangement of the tufting machine is changed into free up-and-down movement of each needle, and the advantages of the embroidery machine and the tufting machine are combined, thereby having both yield and exquisite patterns. And the base fabric moves left and right along with the needle plate 16 when the embroidery needle moves up and down and the needle plate 16 moves left and right, and the embroidery needle 8 can reach each position of the base fabric and carry out embroidery. At the same time, the needle board 16 can be moved up and down, so that the height of the tufts in the final product can be adjusted to suit different tufting requirements.

However, the tension of the yarn 11 in the embroidery tufting machine has a large influence on the quality of the product. Therefore, the embroidery tufting method often further includes a yarn 11 tension adjusting step, the yarn 11 tension adjusting step is located before the yarn feeding step, and the yarn 11 tension adjusting step is used for adjusting the tension of the fed yarn 11 so that the hook knife 9 avoids thread retention. When the tension of the yarn 11 fed is larger or smaller than the yarn clamping force of the base fabric, troubles such as yarn breakage occur.

In this embodiment, the yarn feeding device 17 includes a first motor 1 and a plurality of thread blocking rods 2, the first motor 1 provides a power source for transferring the yarn 11, the relative positions of the plurality of thread blocking rods 2 are adjustable, and the yarn 11 passes through the first motor 1 and then bypasses each thread blocking rod 2 in an "S" shape. The radian and the distance of the S shape are adjusted by adjusting the relative position between the thread blocking rods 2, so that the tension of the yarn 11 is adjusted.

In this embodiment, the yarn feeding device 17 further includes a thread take-up lever 4 and a hook structure 3, wherein one end of the thread take-up lever 4 and the hook structure 3 are both provided with a through hole, the other end of the thread take-up lever 4 is connected with the needle bar 6, the thread take-up lever 4 is movable along with the embroidery needle device 18 in a first direction, the through hole at one end of the thread take-up lever 4 and the through hole of the hook structure 3 have a height difference, and the height direction is parallel to the first direction. As shown in fig. 2, in the process that the thread take-up lever 4 moves up with the embroidery needle device 18, the yarn 11 is pulled down by the difference in height between the perforation at the end of the thread take-up lever 4 and the perforation of the hook structure 3, and after the thread take-up lever 4 moves down with the embroidery needle device 18, a section of yarn having a length equal to the height between the perforation at the end of the thread take-up lever 4 and the perforation of the hook structure 3 is pulled down, and the section of yarn is fed to the embroidery needle. The heights of the through hole at one end of the thread take-up lever 4 and the through hole of the thread hooking structure 3 in the embodiment can be adjusted.

In this embodiment, each embroidery needle device 18 further comprises a spring 7, the embroidery tufting machine further comprises a frame, one end of the spring 7 is connected with the needle bar 6, the other end of the spring 7 is connected with the frame, and each embroidery needle device 18 and the yarn feeding device 17 are arranged on the frame. When the needle bar 6 moves downwards, the deformation and the extension of the spring are utilized to provide power for the needle bar 6 to restore the original position.

In this embodiment, the embroidery tufting machine further comprises a workbench and a cloth moving device, wherein the needle plate 16 is arranged on the workbench, the cloth moving device comprises a cloth winding drum 12, a slide block 15, a second motor 13 and a screw rod 14, the second motor 13 is connected with the cloth winding drum 12 and used for controlling the needle plate 16 to move in a first direction, and the screw rod 14 is connected with the slide block 15 so as to control the workbench to move in a second direction. In the present embodiment, there are two cloth winding drums 12, two sliders 15, and two screws 14, but the number of the cloth winding drums 12, the sliders 15, and the screws 14 is not limited in the present invention. The two cloth winding drums 12, the sliding blocks 15 and the screw rods 14 are distributed on two sides of the needle plate 16 in two sets. The left and right movement of the slide block 15 is adjusted by the adjusting screw 14, thereby controlling the left and right movement of the workbench. The second motor 13 is controlled to control the rotation of the cloth winding drum 12, thereby controlling the up-and-down movement of the needle plate 16.

In the present embodiment, the needle plate 16 is comb-shaped, the needle plate 16 has comb teeth parallel to each other, the needle plate 16 has open ends of the comb teeth and closed ends of the comb teeth, and the comb teeth are perpendicular to the second direction. The needle plate 16 can assist in the flattening of the bottom of the area to be embroidered, while the mutually parallel teeth of the comb contribute to the spacing of the embroidery needle 8. When the embroidery tufting machine breaks down and changes the embroidery needle 8 as required, the embroidery needle 8 can also move from the closed end of the comb teeth to the open end of the comb teeth for disassembly, which is more convenient.

In this embodiment, the embroidery tufting machine further comprises an intelligent control system, solenoid valves and cylinders 5, each embroidery needle device 18 is connected with the cylinder 5, the intelligent control system is electrically connected with each solenoid valve to control the solenoid valves, and the solenoid valves are connected with the cylinders 5 to control the movement of the embroidery needles 8. And intelligent control is adopted, so that convenience and high efficiency are realized.

In this embodiment, the needle bar 6 has a notch, the cylinder 5 is disposed in the notch, and one of the cross sections of the needle bar 6 has an "L" shape. The L-shaped needle bar 6 is provided with a vertical section and a horizontal section, the vertical section is designed to be beneficial to the up-and-down movement of the needle bar 6, and the horizontal section is beneficial to the installation of the embroidery needle 8.

It will be understood by those skilled in the art that in the present disclosure, the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships that are based on those shown in the drawings, which are merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and thus the above-described terms should not be construed as limiting the invention.

Although the present invention has been described with reference to the preferred embodiments, it should be understood that various changes and modifications can be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (9)

1. An embroidery tufting machine for processing yarn, comprising:

a needle plate movably arranged in both a first direction and a second direction;

a plurality of embroidery needle devices each controlled by a separate solenoid valve so as to be freely movably arranged in the first direction, each embroidery needle device including a needle bar and an embroidery needle each detachably provided in the needle bar;

the yarn feeding device is used for feeding the yarns into the embroidery needles; and

the hooking knife and the straight knife are arranged on one side of the needle plate, and the embroidery needle device and the yarn feeding device are arranged on the other side of the needle plate;

the first direction is perpendicular to the plane where the needle plate is located, and the second direction is parallel to the plane where the needle plate is located;

the yarn feeding device comprises a first motor and a plurality of yarn blocking rods, wherein the first motor provides a power source for transferring yarns, the relative positions of the plurality of yarn blocking rods are adjustable, and the yarns pass through each yarn blocking rod in an S shape after passing through the first motor.

2. The embroidery tufting machine as claimed in claim 1, wherein said yarn feeding device further comprises a thread take-up lever and a hook structure, both of said thread take-up lever having a perforation at one end thereof and said hook structure, said thread take-up lever being connected at the other end thereof to said needle bar, said thread take-up lever being movable in said first direction along with said embroidery needle device, said perforation at one end thereof and said perforation of said hook structure having a height difference, the height direction being parallel to said first direction.

3. The embroidery tufting machine of claim 1 and each of said embroidery needle devices further comprising a spring, said embroidery tufting machine further comprising a frame, one end of said spring being connected to said needle bar and the other end of said spring being connected to said frame, said each embroidery needle device and said yarn feeding device being disposed on said frame.

4. The embroidery tufting machine of claim 1 and further comprising a table on which said needle plate is disposed and a cloth transfer device comprising a cloth drum, a slide, a second motor coupled to said cloth drum for controlling movement of said needle plate in said first direction and a screw coupled to said slide for controlling movement of said table in said second direction.

5. The embroidery tufting machine of claim 1 and wherein said needle plate is comb-shaped, said needle plate having mutually parallel comb teeth, said needle plate having open and closed comb teeth ends, said comb teeth being perpendicular to said second direction.

6. The embroidery tufting machine of claim 1, further comprising an intelligent control system, solenoid valves and cylinders, each embroidery needle unit being connected to each cylinder, each embroidery needle unit comprising an embroidery needle, the intelligent control system being electrically connected to each solenoid valve to control the solenoid valve, the solenoid valves being connected to the cylinders to control the movement of each embroidery needle.

7. The embroidery tufting machine of claim 6 and wherein said needle bar has a notch and said cylinder is disposed in said notch, one of said needle bar sections being "L" shaped.

8. An embroidery tufting method for embroidery tufting using the embroidery tufting machine as claimed in any one of claims 1 to 7, comprising:

a yarn feeding step: feeding the yarn to an embroidery needle;

a ring making step: lowering the embroidery needle to feed yarn, withdrawing the hook knife and the straight knife, lowering the embroidery needle to the lowest point, finishing withdrawing the hook knife and the straight knife, lifting the embroidery needle, advancing the hook knife to hook the yarn, and looping the yarn; and

a step of cutting lines: when the yarn is in a circle, the straight knife cuts the yarn on the hook knife.

9. The embroidery tufting method as claimed in claim 8, further comprising a yarn tension adjusting step for adjusting tension of the yarn fed to prevent the hook cutter from remaining the yarn, the yarn tension adjusting step being located before the yarn feeding step.

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