CN207681770U - The feeding mechanism of laser machine - Google Patents

Abstract

The utility model is related to a kind of feeding mechanisms of laser machine.The feeding mechanism of this laser machine includes chassis,The side stand component being vertically arranged is equipped on chassis,It is equipped with two first let off roll set up and down in side stand component one end,It is equipped with two second let off roll set up and down at the middle part of side stand component,It is equipped at least two in the other end of side stand component and in third let off roll setting up and down two-by-two,The spacing being smaller than between two second let off roll between two first let off roll,The spacing being smaller than between two third let off roll between two second let off roll,One end that third let off roll is equipped in chassis also unreels driven roller with two,Any one unreels driven roller and is connect with driving unit,The first guide rod being located between two the first let off roll is equipped on chassis,The second guide rod being located between two the second let off roll is equipped on chassis,The third guide rod being additionally provided on chassis between two third let off roll.

Description

The feeding mechanism of laser machine

Technical field

The utility model belongs to laser machine technical field more particularly to a kind of feeding mechanism of laser machine.

Background technology

CAB dust covers, are generally process using non-woven fabrics.

During processing, need to be cut using laser machine.

Current laser machine, charging generally draw material using manual type, and which not only reduces production efficiencys, and work Intensity is also higher.

Therefore, based on above-mentioned technical problem, be badly in need of designing a feeding mechanism that can be to solve the above technical problems or Person's device.

Utility model content

The purpose of this utility model is in view of the above-mentioned problems, providing a kind of charging for the laser machine that can improve production efficiency Mechanism.

In order to achieve the above objectives, the utility model uses following technical proposal：The feeding mechanism of this laser machine includes bottom Frame is equipped with the side stand component being vertically arranged on chassis, is unreeled equipped with two set up and down first in side stand component one end Roller is equipped with two second let off roll set up and down at the middle part of side stand component, is equipped at least in the other end of side stand component Two and in third let off roll setting up and down two-by-two, between two first let off roll be smaller than two second let off roll it Between spacing, the spacing being smaller than between two third let off roll between two second let off roll is equipped with third in chassis One end of let off roll also has two and unreels driven roller, and any one unreels driven roller and connect with driving unit, is set on chassis There is the first guide rod between two the first let off roll, second be located between two the second let off roll is equipped on chassis Guide rod, the third guide rod being additionally provided on chassis between two third let off roll.

The synergistic effect of above structure can further increase production efficiency, but also can further decrease labour Intensity is more in line with the production requirement of current enterprise.

In the feeding mechanism of above-mentioned laser machine, first guide rod has two and in setting up and down；Described Second guide rod has two and in setting up and down；The third guide rod has two and in setting up and down.

In the feeding mechanism of above-mentioned laser machine, the distance between two first guide rods are equal to two second guide rods The distance between；The distance between two second guide rods are equal to the distance between two third guide rods.

In the feeding mechanism of above-mentioned laser machine, two first guide rods and two second guide rods are symmetrical arranged.

In the feeding mechanism of above-mentioned laser machine, two second guide rods and two third guide rods are symmetrical arranged.

In the feeding mechanism of above-mentioned laser machine, on first let off roll, the second let off roll and third let off roll It is connected separately with magnetic powder tension controller.

In the feeding mechanism of above-mentioned laser machine, there are two the side stand components and is symmetrical arranged.

In the feeding mechanism of above-mentioned laser machine, the driving unit includes driving motor, the driving motor Driven roller is unreeled by belt drive structure with any one to connect.

In the feeding mechanism of above-mentioned laser machine, the driving motor and magnetic powder tension controller respectively with electric appliance control Cabinet connection processed.

Compared with prior art, the advantages of feeding mechanism of this laser machine, is：

1, production efficiency can be further increased, but also labor intensity can be further decreased, is more in line with current enterprise The production requirement of industry.

2, simple in structure.

Description of the drawings

Fig. 1 is structural schematic diagram provided by the utility model.

Fig. 2 is provided by the utility model to unreel status architecture schematic diagram.

In figure, chassis 1, side stand component 2, the first let off roll 3, the second let off roll 4, third let off roll 5, unreel driven roller 6, First guide rod 7, the second guide rod 8, third guide rod 9, magnetic powder tension controller 10, driving motor 11, electric control cabinet 12.

Specific implementation mode

It is the specific embodiment of utility model and in conjunction with attached drawing below, the technical solution of the utility model is made further Description, but the utility model is not limited to these examples.

As shown in Figs. 1-2, the feeding mechanism of this laser machine includes chassis 1, and chassis 1 includes two longitudinal beams and is connected to two Several transverse beams between root longitudinal beam.

Longitudinal beam is made of square pipe interception；

Transverse beam is made of square pipe interception.

Be equipped with the side stand component 2 that is vertically arranged on chassis 1, prioritization scheme, the side stand component 2 of the present embodiment there are two and It is symmetrical arranged.

Two first let off roll 3 set up and down are equipped in 2 one end of side stand component, are equipped at the middle part of side stand component 2 Two second let off roll 4 set up and down are equipped at least two and in setting up and down two-by-two in the other end of side stand component 2 Third let off roll 5, the spacing being smaller than between two second let off roll 4 between two first let off roll 3, two second put The spacing being smaller than between two third let off roll 5 between winding up roller 4 also has in one end that chassis 1 is equipped with third let off roll 5 There are two to unreel driven roller 6, any one unreels driven roller 6 and connect with driving unit.

It is arranged nonwoven fabric roll respectively on every first let off roll 3, the second let off roll 4 and third let off roll 5, drive at this time Moving cell, which is opened then to drive, unreels the rotation of driven roller 6, and the non-woven fabrics that multi-layered thickness may be implemented under the action of frictional force is cut Processing is cut, not only increases production efficiency, and also reduce labor intensity.

It is equipped with the first guide rod 7 being located between two the first let off roll 3 on chassis 1, is equipped on chassis 1 and is located at two The second guide rod 8 between a second let off roll 4, the third being additionally provided on chassis 1 between two third let off roll 5 are led To bar 9.

Specifically, first guide rod 7 of the present embodiment has two and in setting up and down；Second guide rod 8 has two Root and in setting up and down；The third guide rod 9 has two and in setting up and down.

Two first let off roll 3 unreel after non-woven fabrics its respectively pass through the first guide rod 7；Two second let off roll 4 are put Non-woven fabrics after volume its respectively pass through the second guide rod 8；

Two third let off roll 5 unreel after non-woven fabrics its respectively pass through third guide rod 9, or be directly entered to two It unreels between driven roller 6.

The distance between two first guide rods 7 are equal to the distance between two second guide rods 8；Two second guide rods The distance between 8 are equal to the distance between two third guide rods 9.

Two first guide rods 7 and two second guide rods 8 are symmetrical arranged.

Two second guide rods 8 and two third guide rods 9 are symmetrical arranged.

It is connected separately with magnetic powder tension controller 10 on the first let off roll 3, the second let off roll 4 and third let off roll 5.

Specifically, the driving unit of the present embodiment includes driving motor 11, and the driving motor 11 passes through V belt translation knot Structure unreels driven roller 6 with any one and connect.

Secondly, driving motor 11 and magnetic powder tension controller 10 are connect with electric control cabinet 12 respectively.

The raising of efficiency is realized by above-mentioned hardware structure, further improves the automation journey of equipment simultaneously Degree, design is more reasonable and practicability is stronger.

The specific embodiments described herein are merely examples of the spirit of the present invention.The utility model institute Belonging to those skilled in the art can make various modifications or additions to the described embodiments or using similar Mode substitute, but without departing from the spirit of the present application or beyond the scope of the appended claims.

Claims (9)

1. the feeding mechanism of laser machine, including chassis (1) are equipped with the side stand component (2) being vertically arranged on chassis (1), special Sign is that the side stand component (2) one end is equipped with two first let off roll (3) set up and down, in side stand component (2) Middle part is equipped with two second let off roll (4) set up and down, is equipped at least two in the other end of side stand component (2) and is in two Two third let off roll (5) setting up and down, between two first let off roll (3) be smaller than two second let off roll (4) it Between spacing, the spacing being smaller than between two third let off roll (5) between two second let off roll (4), in chassis (1) Also there are two to unreel driven roller (6) for one end equipped with third let off roll (5), and any one unreels driven roller (6) and driving list Member connection, the first guide rod (7) being located between two the first let off roll (3) is equipped on chassis (1), is set on chassis (1) There is the second guide rod (8) between two the second let off roll (4), is additionally provided on chassis (1) and is unreeled positioned at two thirds Third guide rod (9) between roller (5).

2. the feeding mechanism of laser machine according to claim 1, which is characterized in that first guide rod (7) has two Root and in setting up and down；Second guide rod (8) has two and in setting up and down；The third guide rod (9) has two Root and in setting up and down.

3. the feeding mechanism of laser machine according to claim 2, which is characterized in that between two first guide rods (7) Distance is equal to the distance between two second guide rods (8)；The distance between two second guide rods (8) are led equal to two thirds To the distance between bar (9).

4. the feeding mechanism of laser machine according to claim 3, which is characterized in that two first guide rods (7) and two Second guide rod (8) is symmetrical arranged.

5. the feeding mechanism of laser machine according to claim 3, which is characterized in that two second guide rods (8) and two Third guide rod (9) is symmetrical arranged.

6. the feeding mechanism of laser machine according to claim 1, which is characterized in that first let off roll (3), second It is connected separately with magnetic powder tension controller (10) on let off roll (4) and third let off roll (5).

7. the feeding mechanism of laser machine according to claim 1, which is characterized in that there are two the side stand components (2) And it is symmetrical arranged.

8. the feeding mechanism of laser machine according to claim 6, which is characterized in that the driving unit includes driving electricity Machine (11), the driving motor (11) unreel driven roller (6) with any one by belt drive structure and connect.

9. the feeding mechanism of laser machine according to claim 8, which is characterized in that the driving motor (11) and magnetic powder Tension controller (10) is connect with electric control cabinet (12) respectively.