CN108295381B

CN108295381B - Automatic change optic fibre and have not pulled Lan Guangtan braiding equipment

Info

Publication number: CN108295381B
Application number: CN201810315376.XA
Authority: CN
Inventors: 肖云生
Original assignee: Guangzhou Ganyun Medical Technology Co ltd
Current assignee: Guangzhou Ganyun Medical Technology Co ltd
Priority date: 2018-04-10
Filing date: 2018-04-10
Publication date: 2024-03-22
Anticipated expiration: 2038-04-10
Also published as: CN108295381A

Abstract

An automatic change optic fibre does not have equipment of weaving of pulling Lan Guangtan, is provided with support body and does not have optical fiber feeding mechanism of pulling the effect to optic fibre, and optical fiber feeding mechanism assembles in the support body, and optical fiber feeding mechanism carries the optic fibre to the weaving position. The optical fibers of the blue light blanket woven by the weaving equipment are weft yarns, and the fish silk yarns are warp yarns. The optical fibers are vertically blown into the weaving position of the fish wire by compressed gas through the optical fiber feeding mechanism positioned at the top of the frame body in the process of weaving the blue light blanket, and the optical fibers do not need to be subjected to any pulling action, so that the blue light blanket woven by the weaving equipment has the advantages of no optical fiber tear mark or no break, and the light performance of the blue light blanket is greatly improved.

Description

Automatic change optic fibre and have not pulled Lan Guangtan braiding equipment

Technical Field

The invention belongs to the field of medical equipment, and particularly relates to automatic fiber pulling-free Lan Guangtan braiding equipment.

Background

Lan Guangtan the principle of the inventive device is that light energy is transmitted to infant skin along optical fiber without attenuation, so that light source can contact treatment part at zero distance, and therapeutic effect is enhanced. Lan Guangtan the blanket surface is formed by closely arranging and weaving fiber heads, the light energy is released uniformly, and all parts of the baby can receive enough and sufficient therapeutic light. Thereby enhancing the therapeutic effect. The soft blanket surface design can not only directly contact the skin of the back of the infant, but also wrap the infant with the blanket surface to increase the irradiation area, thereby enhancing the phototherapy effect. Lan Guangtan is a cold light source, and has no side effect of heat radiation on infants, so that dehydration side effect is greatly reduced.

In the technical route of automatic programming of the blue light blanket, the problem that the optical fiber is easy to break is mainly affected. Lan Guangtan in the weaving process, because the weaving equipment has a pulling effect on the optical fiber, the optical fiber is easy to produce a tear mark, and even the optical fiber is broken, so that the light energy conduction is greatly influenced. Therefore, how to avoid breakage during the optical fiber conveying process becomes a technical bottleneck limiting the automatic preparation of the blue light blanket.

It is therefore necessary to provide automated fiber pull-less Lan Guangtan braiding apparatus to address the deficiencies of the prior art.

Disclosure of Invention

The invention aims to avoid the defects of the prior art and provides an automatic fiber pulling-free Lan Guangtan braiding device. The automatic fiber pulling-free Lan Guangtan braiding device can realize automatic conveying in a pulling-free mode and can automatically compile a blue light blanket.

The above object of the present invention is achieved by the following technical measures:

the automatic fiber pulling-free Lan Guangtan braiding equipment is provided with a frame body and a fiber feeding mechanism which has no pulling action on the fiber, wherein the fiber feeding mechanism is assembled on the frame body, and the fiber feeding mechanism conveys the fiber to a braiding position from the top in an airflow blowing mode.

Preferably, the optical fiber feeding mechanism is provided with an optical fiber wheel for placing the optical fibers, an air pressure device for accelerating the optical fibers to vertically fall down and a cutting device for hot-melting the optical fibers, wherein the optical fiber wheel, the air pressure device and the cutting device are respectively assembled on the frame body, and the air pressure device is positioned at the top of the frame body.

The automatic fiber pulling-free Lan Guangtan braiding equipment is further provided with a staggered wire mechanism, a wire pressing mechanism, a fishing wire feeding mechanism, a wire dividing mechanism for equidistantly distributing fishing wires, a wire tightening mechanism for compacting the fishing wires, a wire pressing mechanism and a material receiving mechanism for compacting the fibers, wherein the direction of the fishing wires entering the braiding equipment is defined as the front, and the fishing wire feeding mechanism, the wire dividing mechanism, the wire tightening mechanism, the staggered wire feeding mechanism, the wire pressing mechanism and the material receiving mechanism are sequentially assembled on the frame body from front to back.

Preferably, the above-mentioned dislocation line mechanism is provided with first dislocation line board, the second dislocation line board and the first moving mechanism that are used for making the crisscross of fish silk thread, and first dislocation line board and second dislocation line board respectively movable assembly in first moving mechanism, and first moving mechanism fixed assembly is in the support body.

Preferably, the first moving mechanism moves the first wire-dislocation plate and the second wire-dislocation plate in opposite directions along a slide rail mounted on the first moving mechanism.

Preferably, the first wire-staggering plate is provided with a plurality of first wire grooves and a plurality of first wire holes, the first wire grooves and the first wire holes are evenly distributed on the first wire-staggering plate, the first wire grooves and the first wire holes are vertically staggered on the first wire-staggering plate, the first wire holes are vertically adjacent to the first wire grooves, and the first wire grooves are vertically adjacent to the first wire holes.

Preferably, the second wire-staggering plate is provided with a plurality of second wire grooves and a plurality of second wire holes, the second wire grooves and the second wire holes are uniformly distributed and are vertically staggered with the second wire-staggering plate, the second wire holes are vertically adjacent to the second wire grooves, and the second wire grooves are vertically adjacent to the second wire grooves.

The horizontal plane is taken as the bottom surface, the first wire grooves with the same vertical height are opposite to the second wire holes, and the first wire holes with the same vertical height are opposite to the second wire grooves.

Preferably, the wire pressing mechanism is provided with a wire pressing plate and a second moving mechanism for driving the wire pressing plate to reciprocate between the wire staggering mechanism and the material receiving mechanism, the second moving mechanism is fixedly assembled on the frame body, and the wire pressing plate is movably assembled on the second moving mechanism.

Preferably, the branching mechanism is provided with a first branching plate and a second branching plate, the first branching plate is fixedly assembled on the frame body and located in front of the wire tightening mechanism, and the second branching plate is fixedly assembled on the frame body and located behind the wire tightening mechanism.

Preferably, the first branching plate and the second branching plate are respectively provided with a plurality of branching grooves for evenly distributing in the vertical direction.

Preferably, the above-mentioned tight thread mechanism is provided with two tight bobbins that mutually support, and tight bobbins assemble respectively in the support body and are provided with the gap that is used for the fish silk thread to pass through between two tight bobbins.

The invention relates to automatic fiber pulling-free Lan Guangtan braiding equipment, which is provided with a frame body and a fiber feeding mechanism which has no pulling action on the fiber, wherein the fiber feeding mechanism is assembled on the frame body, and the fiber feeding mechanism conveys the fiber to a braiding position from the top in an airflow blowing mode. The optical fibers of the blue light blanket woven by the weaving equipment are weft yarns, and the fish silk yarns are warp yarns. The optical fibers are vertically blown into the weaving position of the fish wire by compressed gas through the optical fiber feeding mechanism positioned at the top of the frame body in the process of weaving the blue light blanket, and the optical fibers do not need to be subjected to any pulling action, so that the blue light blanket woven by the weaving equipment has the advantages of no optical fiber tear mark or no break, and the light performance of the blue light blanket is greatly improved.

Drawings

The invention is further illustrated by the accompanying drawings, which are not to be construed as limiting the invention in any way.

Fig. 1 is a schematic structural diagram of an automatic fiber pulling-free Lan Guangtan braiding apparatus according to the present invention.

Fig. 2 is a front view of fig. 1.

Fig. 3 is a schematic structural diagram of the misalignment mechanism of fig. 1.

Fig. 4 is a schematic structural diagram of the wire pressing mechanism in fig. 1.

Fig. 5 is a schematic cross-sectional view of an optical fiber as it is added.

Fig. 6 is a schematic cross-sectional view of the wire pressing mechanism in operation.

In fig. 1 to 6, the method includes:

a frame body 1,

A fishing line feeding mechanism 2,

An optical fiber feeding mechanism 3, an optical fiber wheel 31, an air pressure device 32, a cutting device 33,

A branching mechanism 4, a first branching plate 41, a second branching plate 42,

A wire tightening mechanism 5,

A wire-staggering mechanism 6,

A first dislocation plate 61, a first line groove 611, a first line hole 612,

A second wire dislocation plate 62, a second wire slot 621, a second wire hole 622,

A first moving mechanism 63,

A wire pressing mechanism 7, a wire pressing plate 71, a second moving mechanism 72,

The device comprises a receiving mechanism 8, a fishing line 9 and an optical fiber 10.

Detailed Description

The technical scheme of the invention is further described with reference to the following examples.

Example 1.

An automatic change optic fibre does not have and pulls formula Lan Guangtan braiding machine, as shown in figures 1 through 4, be provided with support body 1 and the optic fibre feeding mechanism 3 that does not have to pull the effect to optic fibre 10, optic fibre feeding mechanism 3 assembles in support body 1, and optic fibre feeding mechanism 3 carries optic fibre 10 to braiding the position with the air current blowing mode.

The optical fiber feeding mechanism 3 is provided with an optical fiber wheel 31 for placing the optical fiber, an air pressure device 32 for accelerating the optical fiber to drop vertically, and a cutting device 33 for hot-melt the optical fiber, the optical fiber wheel 31, the air pressure device 32, and the cutting device 33 are assembled to the frame body 1, respectively, and the air pressure device 32 is located at the top of the frame body 1.

The air pressure device 32 is used for directionally blowing out the compressed air to accelerate the vertical falling speed of the optical fiber 10, thereby improving the working efficiency of the braiding apparatus.

The automatic fiber pulling-free Lan Guangtan braiding equipment is further provided with a staggered wire mechanism 6, a wire pressing mechanism 7, a fishing wire feeding mechanism 2, a wire dividing mechanism 4 for equidistantly distributing fishing wires, a wire tightening mechanism 5 for compacting the fishing wires 9, a wire pressing mechanism 7 and a material receiving mechanism for compacting the optical fibers 10, which are corresponding to the fiber feeding mechanism 3, wherein the direction of the fishing wires entering the braiding equipment is defined as the front, and the fishing wire feeding mechanism 2, the wire dividing mechanism 4, the wire tightening mechanism 5, the staggered wire mechanism 6, the wire pressing mechanism 7 and the material receiving mechanism 8 are sequentially assembled on the frame body 1 from front to back.

The yarn-staggering mechanism 6 is provided with a first yarn-staggering plate 61 for staggering the fishing yarns 9, a second yarn-staggering plate 62 matched with the first yarn-staggering plate 61, and a first moving mechanism 63, wherein the first yarn-staggering plate 61 and the second yarn-staggering plate 62 are respectively movably assembled on the first moving mechanism 63, and the first moving mechanism 63 is fixedly assembled on the frame body 1.

The first moving mechanism 63 moves the first wire-dislocation plate 61 and the second wire-dislocation plate 62 in opposite directions along the slide rail mounted to the first moving mechanism 63, respectively.

The first wire-staggering plate 61 is provided with a plurality of first wire grooves 611 and a plurality of first wire holes 612, the first wire grooves 611 and the first wire holes 612 are evenly distributed on the first wire-staggering plate 61, the first wire grooves 611 and the first wire holes 612 are vertically staggered on the first wire-staggering plate 61, the first wire holes 612 are only the first wire grooves 611 up and down, and the first wire grooves 611 are only the first wire holes 612 up and down.

The second wire misplacement plate 62 is provided with a plurality of second wire grooves 621 and a plurality of second wire holes 622, the second wire grooves 621 and the second wire holes 622 are evenly distributed on the second wire misplacement plate 62, the second wire grooves 621 and the second wire holes 622 are vertically staggered on the second wire misplacement plate 62, the second wire holes 622 are only the second wire grooves 621 up and down, and the second wire grooves 621 are only the second wire holes 622 up and down.

The first wire grooves 611 and the second wire holes 622 are opposite to each other with the horizontal plane as the bottom surface, and the first wire holes 612 and the second wire grooves 621 are opposite to each other.

The wire pressing mechanism 7 is provided with a wire pressing plate 71 and a second moving mechanism 72 for driving the wire pressing plate 71 to reciprocate between the wire staggering mechanism 6 and the material receiving mechanism 8, the second moving mechanism 72 is fixedly assembled on the frame body 1, and the wire pressing plate 71 is movably assembled on the second moving mechanism 72.

The branching mechanism 4 is provided with a first branching plate 41 and a second branching plate 42, the first branching plate 41 is fixedly assembled on the frame body and located in front of the wire tightening mechanism 5, and the second branching plate 42 is fixedly assembled on the frame body and located behind the wire tightening mechanism 5. The first branching plate 41 and the second branching plate 42 are respectively provided with a plurality of branching grooves for being evenly distributed in the vertical direction.

The tightening mechanism 5 is provided with two mutually matched tightening shafts, the tightening shafts are respectively assembled on the frame body 1, and a gap for the fish wire 9 to pass through is arranged between the two tightening shafts.

The working principle of the automatic fiber pulling-free Lan Guangtan braiding equipment is as follows: firstly, a fish thread coil is installed in a fish thread feeding mechanism 2, each coil of fish thread 9 is led into a branching groove of a previous branching plate, one fish thread 9 correspondingly passes through one branching groove, and then all the fish threads 9 pass through a gap for the fish thread 9 to pass through after passing through two tightening shafts, and then correspondingly pass through the branching groove of the next branching plate. For example, the fishing line 9 is numbered from top to bottom, each single fishing line 9 is sequentially passed through the first line hole 612 and then through the second line slot 621, each double fishing line 9 is respectively passed through the first line slot 611 and then through the second line slot 621, each of the first line hole 612, the second line hole 622, the first line slot 611 and the second line slot 621 corresponds to one fishing line, and vice versa, and finally all the fishing lines 9 are respectively fixed to the receiving mechanism. Starting the braiding apparatus, the material collecting mechanism rotates and pulls the fishing line 9, the first wire staggering plate 61 and the second wire staggering plate 62 move away from each other to stagger the fishing line 9, a space is formed between the singular fishing line 9 and the even fishing line 9, as shown in fig. 5, meanwhile, the optical fiber feeding mechanism 3 vertically drops the optical fiber 10 to a preset length at the space, the cutting device 33 melts the optical fiber 10, then the first wire staggering plate 61 and the second wire staggering plate 62 are weighed to coincide along the approaching direction, the wire pressing mechanism 7 pushes the optical fiber 10 to the corresponding position of the material collecting mechanism 8, as shown in fig. 6, the optical fiber 10 is locked by the fishing line 9, braiding of one optical fiber 10 is completed, and so on.

The automatic fiber pulling-free Lan Guangtan braiding device is provided with a frame body 1 and a fiber feeding mechanism 3 which has no pulling action on the fiber 10, wherein the fiber feeding mechanism 3 is assembled on the frame body 1, and the fiber feeding mechanism 3 conveys the fiber 10 to a braiding position. The optical fibers 10 of the blue blanket woven by the weaving device are weft yarns, and the fishing threads 9 are warp yarns. The optical fiber 10 is vertically blown into the weaving position of the fishing line 9 by compressed gas through the optical fiber feeding mechanism 3 positioned at the top of the frame body 1 in the process of weaving the blue light blanket, and the optical fiber does not need to be subjected to any pulling action, so that the blue light blanket woven by the weaving equipment has the advantage that the optical fiber 10 has no tear mark or is not broken, and the light performance of the blue light blanket is greatly improved.

Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present invention may be modified or substituted equally without departing from the spirit and scope of the technical solution of the present invention.

Claims

1. An automatic change optic fibre and have not pulled Lan Guangtan braiding machine, its characterized in that: the optical fiber feeding mechanism is assembled on the frame body and conveys the optical fibers to the weaving position from the top in an airflow blowing mode;

the device is characterized by further comprising a wire staggering mechanism, a wire pressing mechanism, a fish wire feeding mechanism, a wire distributing mechanism for equidistantly distributing fish wires, a wire tightening mechanism for compacting the fish wires, a wire pressing mechanism and a material receiving mechanism, wherein the wire staggering mechanism, the wire pressing mechanism, the fish wire feeding mechanism, the wire distributing mechanism, the wire tightening mechanism, the wire staggering mechanism, the wire pressing mechanism and the material receiving mechanism are corresponding to the optical fiber feeding mechanism, the direction of the fish wires entering the braiding equipment is defined as the front, and the fish wires feeding mechanism, the wire distributing mechanism, the wire tightening mechanism, the wire pressing mechanism and the material receiving mechanism are sequentially assembled on the frame body from front to back.

2. An automated fiber optic pull-less Lan Guangtan braiding apparatus according to claim 1, wherein: the optical fiber feeding mechanism is provided with an optical fiber wheel for placing optical fibers, an air pressure device for accelerating the optical fibers to vertically fall down and a cutting device for hot-melting the optical fibers, the optical fiber wheel, the air pressure device and the cutting device are respectively assembled on the frame body, and the air pressure device is positioned at the top of the frame body.

3. An automated fiber optic pull-less Lan Guangtan braiding apparatus according to claim 2, wherein: the first line staggering plate and the second line staggering plate are respectively movably assembled on the first moving mechanism, and the first moving mechanism is fixedly assembled on the frame body;

the first moving mechanism enables the first wire dislocation plate and the second wire dislocation plate to move in opposite directions along the sliding rail assembled on the first moving mechanism.

4. An automated fiber optic pull-less Lan Guangtan braiding apparatus according to claim 3, wherein: the first wire-staggering plate is provided with a plurality of first wire grooves and a plurality of first wire holes, the first wire grooves and the first wire holes are evenly distributed in the first wire-staggering plate, the first wire grooves and the first wire holes are vertically staggered in the first wire-staggering plate, the first wire holes are vertically adjacent to the first wire grooves, and the first wire grooves are vertically adjacent to the first wire holes.

5. An automated fiber optic pull-less Lan Guangtan braiding apparatus according to claim 4, wherein: the second wire-staggering plate is provided with a plurality of second wire grooves and a plurality of second wire holes, the second wire grooves and the second wire holes are evenly distributed and are perpendicular to the second wire-staggering plate, the second wire grooves are vertically adjacent to the second wire holes and are only the second wire grooves, and the second wire grooves are vertically adjacent to the second wire holes and are only the second wire holes.

6. An automated fiber optic pull-less Lan Guangtan braiding apparatus according to claim 5, wherein: the horizontal plane is taken as the bottom surface, the first wire grooves with the same vertical height are opposite to the second wire holes, and the first wire holes with the same vertical height are opposite to the second wire grooves.

7. An automated fiber optic pull-less Lan Guangtan braiding apparatus according to claim 6, wherein: the wire pressing mechanism is provided with a wire pressing plate and a second moving mechanism for driving the wire pressing plate to reciprocate between the wire staggering mechanism and the material receiving mechanism, the second moving mechanism is fixedly assembled on the frame body, and the wire pressing plate is movably assembled on the second moving mechanism.

8. An automated fiber optic pull-less Lan Guangtan braiding apparatus according to claim 7, wherein: the wire dividing mechanism is provided with a first wire dividing plate and a second wire dividing plate, the first wire dividing plate is fixedly assembled on the frame body and positioned in front of the wire tightening mechanism, and the second wire dividing plate is fixedly assembled on the frame body and positioned behind the wire tightening mechanism;

the first branching plate and the second branching plate are respectively provided with a plurality of branching grooves which are evenly distributed in the vertical direction.

9. An automated fiber optic pull-less Lan Guangtan braiding apparatus according to claim 8, wherein: the wire tightening mechanism is provided with two mutually matched wire tightening shafts, the wire tightening shafts are respectively assembled on the frame body, and a gap for the fish wire to pass through is formed between the two wire tightening shafts.