CN217948459U - Laser structure of laser sewing machine and laser sewing machine - Google Patents

Abstract

The utility model relates to a make up equipment technical field, disclose a laser sewing machine's laser structure and laser sewing machine, mounting panel (10) before the laser, install laser on mounting panel (10) before the laser and cross bare metal (11), install aspiration channel (12) on the laser perpendicularly before mounting panel (10) in the laser, the lower tip of aspiration channel (12) is installed and is induced drafted mounting panel (13) on the laser, the lower extreme that laser crossed bare metal (11) is also installed on the mounting panel (13) that induced drafts, aspiration channel (12) and laser cross bare metal (11) parallel arrangement on the laser. The laser front mounting plate is used as a reference, so that the upper suction pipe of the laser is vertically mounted on the laser front mounting plate, and then the laser collimator is locked in an auxiliary manner through the air suction mounting plate, so that the upper suction pipe of the laser is mounted in parallel with the laser collimator, the inclination and deviation of the laser collimator are reduced, and the mounting efficiency of workers is improved.

Description

Laser structure of laser sewing machine and laser sewing machine

Technical Field

The utility model relates to a make up equipment technical field, especially relate to a laser sewing machine's laser structure and laser sewing machine.

Background

When the collimator of the laser sewing machine is closer to the needle hole, the collimator may be inclined and deviated due to overlong length, workers are required to correct and adjust the collimator for many times, and the installation efficiency of the laser sewing machine is reduced. In order to solve the above problems, in the prior art, a guide rod is installed to ensure the perpendicularity of the laser passing pipe, for example, a laser sewing machine with application number 201920097503.3, so that although the phenomenon of oblique deviation caused by overlong passing pipe can be solved, the number of internal parts of the sewing machine is larger, the manufacturing cost of the laser sewing machine is increased, and the size of the laser sewing machine is larger.

SUMMERY OF THE UTILITY MODEL

The utility model provides a laser structure and laser sewing machine of laser sewing machine to the shortcoming among the prior art.

In order to solve the technical problem, the utility model discloses a following technical scheme can solve:

a laser structure of a laser sewing machine comprises a laser front mounting plate, wherein a laser collimator is mounted on the laser front mounting plate, an upper laser air suction pipe is vertically mounted on the laser front mounting plate, an air suction mounting plate is mounted at the lower end of the upper laser air suction pipe, the lower end of the laser collimator is also mounted on the air suction mounting plate, and the upper laser air suction pipe and the laser collimator are arranged in parallel. The laser front mounting plate is used as a reference, the laser upper air suction pipe is vertically mounted on the laser front mounting plate, the laser collimator is locked in an auxiliary mode through the air suction mounting plate, the upper laser upper air suction pipe and the laser collimator can be mounted in parallel, the oblique deviation of the laser collimator is reduced, and the mounting efficiency of workers is improved.

Preferably, a first through hole for the laser light passing tube to pass through is formed in the laser front mounting plate, a laser adjusting seat arranged right above the first through hole is arranged on the laser front mounting plate, a laser adjusting assembly is arranged on the laser adjusting seat, and the laser light passing tube passes through the first through hole and the laser adjusting assembly.

Preferably, a laser locking pipe is arranged between the laser adjusting assembly and the laser light passing pipe. The laser locking pipe is vertically arranged on the laser front mounting plate, and the distance of the laser collimator can be adjusted up and down by adjusting the tightness of the laser locking pipe.

Preferably, the bottom end of the laser light passing pipe is provided with a light passing pipe joint, and the light passing pipe joint is provided with an air blowing joint.

Preferably, the air suction mounting plate is provided with a second through hole and a third through hole for the laser collimator and the upper air suction pipe of the laser to pass through respectively, the air suction mounting plate is provided with an air suction sleeve, and the laser collimator extends into the air suction sleeve through the second through hole. The second through hole and the third through hole in the air suction mounting plate are processed by adopting through holes, and the upper air suction pipe and the laser collimator pipe of the laser are processed by adopting tubular structures. Therefore, when the distance between the two through holes of the air suction mounting plate is the same as the distance between the upper laser air suction pipe and the laser collimator, the upper laser air suction pipe and the laser collimator can be parallel and fixed through the air suction mounting plate. The air suction sleeve is made of soft materials, so that the situation that auxiliary devices such as a clamp touch the air suction sleeve and are not easy to deform in the movement process can be guaranteed, the light passing pipe joint and the air blowing joint can be indirectly protected, and the air suction effect is increased while air suction is carried out.

Preferably, the laser upper suction pipe is provided with a smoke exhaust joint communicated with the laser upper suction pipe. The smoke exhaust joint can be connected with a smoke exhaust pipe to realize the smoke exhaust function.

A laser sewing machine includes a laser structure of the laser sewing machine.

The utility model discloses owing to adopted above technical scheme, have apparent technological effect:

the laser front mounting plate is used as a reference, the laser upper air suction pipe is vertically mounted on the laser front mounting plate, the laser collimator is locked in an auxiliary mode through the air suction mounting plate, the upper laser upper air suction pipe and the laser collimator can be mounted in parallel, the oblique deviation of the laser collimator is reduced, and the mounting efficiency of workers is improved.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of the exploded structure of fig. 1.

Fig. 3 is a schematic structural view in another position state of fig. 1.

The names of the parts indicated by the numerical references in the above figures are as follows:

10-laser front mounting plate, 101-first through hole

11-laser collimator

12-laser upper aspiration channel, 121-smoke discharging joint

13-air suction mounting plate, 131-second through hole, 132-third through hole

14-laser regulating base

15-laser regulating assembly

16-laser locking tube

17-light passing pipe joint

18-blowing joint

19-air suction sleeve

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings 1-3 and examples.

Example 1

The utility model provides a laser structure of laser sewing machine, mounting panel 10 before the laser, install laser on the mounting panel 10 before the laser and cross bare fiber 11, install aspiration channel 12 on the laser perpendicularly on the mounting panel 10 before the laser, the lower terminal surface of mounting panel 10 before the laser is passed through the bolt-up on the top of aspiration channel 12, the mounting panel 13 that induced drafts is installed to the lower tip of aspiration channel 12 on the laser, aspiration channel 12 and induced draft mounting panel 13 on the laser are connected through hexagon socket head cap screw, the lower extreme of laser cross bare fiber 11 is also installed on the mounting panel 13 that induced drafts, cross bare fiber 11 and induced draft mounting panel 13 between through hexagon socket head cap screw connection, aspiration channel 12 and laser cross bare fiber 11 parallel arrangement on the laser. By taking the laser front mounting plate 10 as a reference, the laser upper air suction pipe 12 is vertically mounted on the laser front mounting plate 10, and then the laser collimator 11 is locked in an auxiliary manner through the air suction mounting plate 13, so that the upper laser air suction pipe 12 and the laser collimator 11 can be mounted in parallel, the oblique offset of the laser collimator 11 is reduced, and the mounting efficiency of workers is improved.

The laser front mounting plate 10 is provided with a first through hole 101 for the laser collimator 11 to pass through, the laser front mounting plate 10 is provided with a laser adjusting seat 14 arranged right above the first through hole 101, the laser adjusting seat 14 is provided with a laser adjusting component 15 through a bolt, and the laser collimator 11 passes through the first through hole 101 and the laser adjusting component 15.

The bottom end of the laser light passing pipe 11 is provided with a light passing pipe joint 17, and the light passing pipe joint 17 is provided with an air blowing joint 18.

The air suction mounting plate 13 is provided with a second through hole 131 and a third through hole 132 through which the laser collimator 11 and the upper laser suction pipe 12 pass respectively, the air suction mounting plate 13 is provided with an air suction sleeve 19, and the laser collimator 11 extends into the air suction sleeve 19 through the second through hole 131. The second through hole 131 and the third through hole 132 in the air suction mounting plate 13 are processed by through holes, and the upper laser suction pipe 12 and the laser collimator 11 are processed by tubular structures. Therefore, the distance between the two through holes of the air suction mounting plate 13 is the same as the distance between the upper laser air suction pipe 12 and the laser collimator 11, and the upper laser air suction pipe 12 and the laser collimator 11 can be parallel and fixed through the air suction mounting plate 13. The air suction sleeve 19 is made of soft materials, so that the situation that auxiliary devices such as a clamp touch the air suction sleeve in the movement process and are not easy to deform can be guaranteed, the light passing pipe joint 17 and the air blowing joint 18 can be indirectly protected, and the air suction effect is increased while air suction is performed.

The laser upper suction pipe 12 is provided with a smoke exhaust joint 121 communicated with the laser upper suction pipe 12, the smoke exhaust joint 121 is vertically arranged on the side wall of the laser upper suction pipe 12, and the smoke exhaust joint 121 can be connected with a smoke exhaust pipe to realize the smoke exhaust effect.

Example 2

Embodiment 2 has substantially the same features as embodiment 1 except that a laser locking pipe 16 is installed between the laser adjusting assembly 15 and the laser transit pipe 11. The laser locking pipe 16 is vertically arranged on the laser front mounting plate 10, and the distance of the laser light passing pipe 11 can be adjusted up and down by adjusting the tightness of the laser locking pipe 16.

Example 3

A laser sewing machine comprising the laser structure of the laser sewing machine of embodiment 1 or 2.

Claims (7)

1. The utility model provides a laser structure of laser sewing machine, mounting panel (10) before the laser, install laser on mounting panel (10) before the laser and cross light pipe (11), its characterized in that: an upper laser air suction pipe (12) is vertically arranged on the front laser mounting plate (10), an air suction mounting plate (13) is arranged at the lower end part of the upper laser air suction pipe (12), the lower end of a laser light passing pipe (11) is also arranged on the air suction mounting plate (13), and the upper laser air suction pipe (12) and the laser light passing pipe (11) are arranged in parallel.

2. The laser structure of a laser sewing machine according to claim 1, characterized in that: be equipped with on mounting panel (10) before the laser and supply first through-hole (101) that the light pipe (11) of crossing of laser passed through, install on mounting panel (10) before the laser and adjust seat (14) directly over first through-hole (101), install laser adjusting part (15) on laser adjusting seat (14), light pipe (11) are crossed to the laser is through first through-hole (101) and laser adjusting part (15).

3. The laser structure of a laser sewing machine according to claim 2, characterized in that: a laser locking pipe (16) is arranged between the laser adjusting component (15) and the laser light passing pipe (11).

4. The laser structure of a laser sewing machine according to claim 1, characterized in that: the bottom end of the laser light passing pipe (11) is provided with a light passing pipe joint (17), and the light passing pipe joint (17) is provided with an air blowing joint (18).

5. The laser structure of a laser sewing machine according to claim 4, characterized in that: the air suction mounting plate (13) is provided with a second through hole (131) and a third through hole (132) which are respectively used for the laser collimator (11) and the laser upper air suction pipe (12) to pass through, the air suction mounting plate (13) is provided with an air suction sleeve (19), and the laser collimator (11) extends into the air suction sleeve (19) through the second through hole (131).

6. The laser structure of a laser sewing machine according to any one of claims 1 to 5, wherein: the laser upper aspiration channel (12) is provided with a smoke discharge joint (121) communicated with the laser upper aspiration channel.

7. A laser sewing machine characterized in that: laser structure comprising a laser sewing machine according to any of claims 1-6.

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