CN219218361U - Cap embroidery X-direction driving device for computerized embroidery machine - Google Patents

Abstract

The utility model discloses a cap embroidery X-direction transmission device of a computerized embroidery machine, which consists of an X-direction guide rail seat left cushion block, an X-direction guide rail seat, a fixing screw, an X-direction driven wheel seat, a tensioning shaft, an X-direction driven wheel, an X-direction guide rail bar, a sliding block, a mounting plate, an X-direction synchronous belt pressing plate, an X-direction induction metal sheet, an X-direction driving wheel, an X-direction synchronous belt, an integrated motor, a motor mounting plate, an X-direction guide rail seat right cushion block, an X-direction guide rail driving frame, an induction switch I, an X-direction limit switch seat I, an induction switch II and an X-direction limit switch seat II; the integrated motor is fixed on the X-shaped guide rail seat through a motor mounting plate; the sliding block is embedded on the X-shaped guide rail; the front end of the X-direction transmission device is connected with the front end of the embroidery frame component through a mounting block. Through the design of the utility model, the device is convenient to install and low in cost, the assembly time of personnel is saved, the stability of the embroidery machine is improved, and the cost is reduced.

Description

Cap embroidery X-direction driving device for computerized embroidery machine

Technical Field

The utility model belongs to the field of textile industry, and is mainly applied to a cap embroidery machine of a computerized embroidery machine, in particular relates to an X-direction transmission device of the cap embroidery machine of the computerized embroidery machine.

Background

Along with the continuous development of the computer embroidery industry, the requirements of people on the computer embroidery machine are also higher and higher. In mass production in the computerized embroidery industry, labor intensity and large production capacity are achieved, and the high-efficiency and convenient transmission mode is applied in mass production, so that production efficiency and product quality can be improved. Most X-direction transmission devices of computer embroidery machines in the current market are positioned below a bedplate, and the computer embroidery machine is complex in structure, inconvenient to maintain, large in occupied space, high in cost and not suitable for the transmission of cap embroidery machines with small X-stroke. The X-direction transmission device is positioned above the bedplate for transmission, has simple structure and convenient maintenance, meets the actual use requirement of the cap embroidery machine, reduces the occupied area of machine production, has short production period and small production investment, greatly improves the production efficiency and has obvious economic benefit.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, and provides the cap embroidery X-direction transmission device of the computerized embroidery machine, which meets the use requirement of the computerized embroidery machine, reduces the vibration amplitude of an X-direction transmission seat, prevents the running position and is a stable, efficient and reliable X-direction transmission device; compared with other X-direction transmission devices of embroidery machines, the device has the advantages of simple structure, low cost, small occupied space and easy debugging and maintenance.

The utility model aims at realizing the following technical scheme:

a cap embroidery X-direction transmission device of a computerized embroidery machine, comprising: the X-direction guide rail seat left cushion block, the X-direction guide rail seat, a fixing screw, an X-direction driven wheel seat, a tensioning shaft, an X-direction driven wheel, an X-direction guide rail strip, a sliding block, a mounting plate, an X-direction synchronous belt pressing plate, an X-direction induction metal sheet, an X-direction driving wheel, an X-direction synchronous belt, an integrated motor, a motor mounting plate, an X-direction guide rail seat right cushion block, an X-direction guide rail driving frame, a first induction switch, a first X-direction limit switch seat, a second induction switch and a second X-direction limit switch seat.

The X-shaped guide rail seat is arranged on the stand through a screw;

the integrated motor is fixed on the X-shaped guide rail seat through a motor mounting plate;

the X-direction driving wheel is fixed on a motor shaft through an inner hexagon screw, so that the coaxiality is ensured;

the X-direction driven wheel is connected with the X-direction driving wheel through an X-direction synchronous belt;

the fixing screw is connected with the X-direction driven wheel seat, and the X-direction synchronous belt runs smoothly by adjusting the fixing screw;

the sliding block is embedded on the X-direction guide rail bar and can slide in the X-direction;

the X-direction guide rail driving frame is fixedly connected to the mounting plate through screws;

the X-direction synchronous belt pressing plate is connected with the X-direction guide rail driving frame through a screw, and presses the X-direction synchronous belt between the X-direction guide rail driving frame and the X-direction synchronous belt pressing plate, so that the X-direction guide rail driving frame and the mounting plate are driven to move in the X direction;

the X-direction induction metal sheet is fixed on the X-direction guide rail driving frame through a screw;

the X-direction limiting switch seat I is fixed on the X-direction guide rail seat through a screw;

the first inductive switch and the second inductive switch are respectively arranged on the first X-direction limit switch seat and the second X-direction limit switch seat, so that the moving range in the X-direction is controlled;

the front end of the X-direction transmission device is connected with the front end of the embroidery frame component through a mounting block.

Compared with the prior art, the utility model has the advantages that:

the utility model solves the problem of X-direction frame transmission of the light cap embroidery machine and the problem of limited space under the bedplate due to small embroidering area of the light cap embroidery machine. Through the design of the utility model, the device which is convenient to install, good in fixing effect, low in cost and convenient to maintain is provided, the device saves the assembly time of personnel, improves the stability and reliability of the embroidery machine, ensures the quality of the machine and simultaneously controls the cost.

Drawings

FIG. 1 is an axial side view of an X-direction transmission;

FIG. 2 is an X-direction transmission front view;

fig. 3 is an isometric view of the X-direction drive on the machine.

The left cushion block of the X-type guide rail seat 2. X-type guide rail seat 3. X-type driven wheel seat 5. Tension shaft 6.X. X-type driven wheel 8.X. Guide rail 9. Slider 10. Installation block 11. Installation plate 12. X-type synchronous belt pressing plate 13. X-type induction metal sheet 14. X-type driving wheel 15. X-type synchronous belt 16. Integrated motor 17. Motor installation plate 18. X-type guide rail seat right cushion block 19. X-type guide rail driving frame 20. Induction switch I21. X-type limit switch I22. Induction switch II 23. X-type limit switch II.

Detailed Description

The cap embroidery X-direction transmission device of the computerized embroidery machine consists of a left cushion block 1 of an X-direction guide rail seat, a 2 of the X-direction guide rail seat, a fixing screw 3, an X-direction driven wheel seat 4, a tensioning shaft 5, an X-direction driven wheel 6, an X-direction guide rail bar 8, a sliding block 9, a mounting block 10, a mounting plate 11, an X-direction synchronous belt pressing plate 12, an X-direction induction metal sheet 13, an X-direction driving wheel 14, an X-direction synchronous belt 15, an integrated motor 16, a motor mounting plate 17, a right cushion block 18 of the X-direction guide rail seat, an X-direction guide rail driving frame 19, a first induction switch 20, a first X-direction limit switch seat 21, a second induction switch 22 and a second X-direction limit switch seat 23.

The X-shaped guide rail seat 2 is arranged on the stand through screws;

the integrated motor 16 is fixed on the X-guide rail seat 2 through a motor mounting plate 17;

the X-direction driving wheel 14 is fixed on a motor shaft through an inner hexagon screw to ensure coaxial center;

the X-direction driven wheel 6 is connected with the X-direction driving wheel 14 through an X-direction synchronous belt 15;

the fixing screw 3 is connected with the X-direction driven wheel seat 4, and the fixing screw 3 is adjusted to enable the X-direction synchronous belt 15 to run smoothly;

the sliding block 9 is embedded on the X-direction guide rail bar 8 and can slide in the X-direction;

the X-ray guide driving frame 18 is fixed to the mounting plate 11 by screw connection.

The X-direction synchronous belt pressing plate 12 is connected with the X-direction guide rail driving frame 19 through screws, and presses the X-direction synchronous belt 15 between the X-direction guide rail driving frame 19 and the X-direction synchronous belt pressing plate 12, so that the X-direction guide rail driving frame 19 and the mounting plate 11 are driven to move in the X direction.

The X-direction induction metal sheet 13 is fixed on the X-direction guide rail driving frame 19 through screws.

The first X-direction limit switch seat 21 and the second X-direction limit switch seat 23 are fixed on the X-direction guide rail seat 2 through screws.

The first and second inductive switches 20 and 22 are respectively arranged on the first and second X-direction limit switch seats 21 and 23, so as to control the movement range in the X-direction.

The front end of the X-direction transmission device is connected with the front end of the embroidery frame component through a mounting block 10.

After all the parts are fixed by fasteners such as screws, the X-direction transmission device (figure 1) is connected to the cap embroidery machine (figure 3), and the installation process of the X-direction transmission device is completed by adjusting the position of the X-direction transmission device (figure 1) in the Y direction. After the installation is completed, the integrated motor 16 rotates and drives the X-direction driving wheel 14 to rotate at the same time, then the X-direction driving wheel 14 rotates and drives the X-direction synchronous belt 15 to rotate, and the X-direction synchronous belt 15 simultaneously drives the X-direction driven wheel 6 and the X-direction guide rail driving frame 18, the X-direction synchronous belt pressing plate 12 and the X-direction induction metal sheet 13 which are fixed on the synchronous belt to move along the X-direction guide rail 8 through the sliding block 9, so that the embroidery frame which is installed on the installation block 10 is driven to do linear parallel movement, X-direction transmission in the embroidery process is completed, and the X-direction limit switch seat I20 and the X-direction limit switch seat II 22 are fixed on the X-direction guide rail seat 2 to limit the transmission travel range of the embroidery frame in the X direction, so that the expected travel range is reached. The parallel movement of the device in the X direction is realized by the rotation of the program control integrated motor 16, and the X-direction transmission action is completed.

Claims (5)

1. A cap embroidery X-direction transmission device of a computerized embroidery machine, comprising: the X-direction guide rail seat left cushion block, the X-direction guide rail seat, a fixing screw, an X-direction driven wheel seat, a tensioning shaft, an X-direction driven wheel, an X-direction guide rail bar, a sliding block, a mounting plate, an X-direction synchronous belt pressing plate, an X-direction induction metal sheet, an X-direction driving wheel, an X-direction synchronous belt, an integrated motor, a motor mounting plate, an X-direction guide rail seat right cushion block, an X-direction guide rail driving frame, a first induction switch, a first X-direction limit switch seat, a second induction switch and a second X-direction limit switch seat; the method is characterized in that: the X-shaped guide rail seat is arranged on the stand through a screw; the integrated motor is fixed on the X-shaped guide rail seat through a motor mounting plate; the X-direction driving wheel is fixed on a motor shaft through an inner hexagon screw, so that the coaxiality is ensured; the X-direction driven wheel is connected with the X-direction driving wheel through an X-direction synchronous belt; the fixing screw is connected with the X-direction driven wheel seat, and the X-direction synchronous belt runs smoothly by adjusting the fixing screw; the sliding block is embedded on the X-direction guide rail bar and can slide in the X-direction; the X-direction guide rail driving frame is fixedly connected to the mounting plate through screws; the X-direction synchronous belt pressing plate is connected with the X-direction guide rail driving frame through a screw, and presses the X-direction synchronous belt between the X-direction guide rail driving frame and the X-direction synchronous belt pressing plate, so that the X-direction guide rail driving frame and the mounting plate are driven to move in the X direction; the X-direction induction metal sheet is fixed on the X-direction guide rail driving frame through a screw; the X-direction limit switch seat I is fixed on the X-direction guide rail seat through a screw.

2. The computerized embroidery machine cap embroidery X-direction transmission device according to claim 1, wherein: the front end of the X-direction transmission device is connected with the front end of the embroidery frame component through a mounting block.

3. The computerized embroidery machine cap embroidery X-direction transmission device according to claim 1, wherein: the integral motor rotates under program control so as to realize the parallel movement of the device in the X direction and complete the X-direction transmission action.

4. The computerized embroidery machine cap embroidery X-direction transmission device according to claim 1, wherein: the X-direction transmission device is positioned above the bedplate for transmission, and has simple structure and convenient maintenance.

5. The computerized embroidery machine cap embroidery X-direction transmission device according to claim 1, wherein: the first inductive switch and the second inductive switch are respectively arranged on the first X-direction limit switch seat and the second X-direction limit switch seat, so that the moving range in the X-direction is controlled.

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