CN216663577U - Glass fiber cloth connects cloth device - Google Patents

Abstract

The utility model discloses a glass fiber cloth splicing device, which comprises: the cloth guide rods are arranged in parallel, the two cloth guide rods are arranged along the horizontal direction, and the two cloth guide rods are arranged oppositely; the two fixed needle plates are arranged below the cloth guide rod and can be close to or far away from each other in an operable manner; the sewing machine is arranged close to the fixed needle plate; the automatic cutter is arranged below the fixed needle plate; and the cloth feeding roller group is arranged above the cloth guide rods and conveys the glass fiber cloth group to a position between the two cloth guide rods. By applying the device, the glass fiber cloth stretching and sewing device is provided, the glass fiber cloth is uniformly stressed and is not easy to crease in the sewing process under the matching of the cloth guide rod, the fixed needle plate and the cloth feeding roller set, the glass fiber cloth clamped by the fixed needle plate is cut by the automatic cutter, the edge of a joint is ensured to be neat, and the cloth receiving quality of the glass fiber cloth is improved.

Description

Glass fiber cloth connects cloth device

Technical Field

The utility model relates to the technical field of glass fiber cloth processing, in particular to a glass fiber cloth connecting device.

Background

With the rapid development of the electronic grade glass fiber cloth industry, the requirements on the appearance and the like of the glass fiber cloth are gradually improved, and in the production process of the glass fiber cloth, a former roll of glass fiber cloth and a latter roll of glass fiber cloth need to be connected. The existing glass fiber cloth connects cloth suturing device is in sewing up the connection in-process, the phenomenon that the edge is crooked, the irregularity is uneven, the shape is not uniform appears because of cloth tail and cloth head align neatly inadequately easily to seriously influence the quality of sewing up of glass fiber cloth, and simultaneously, operating personnel need manual adjustment from time to time in order to guarantee the surperficial parallel and level of glass fiber cloth, but operating personnel manual adjustment can't ensure that the atress of glass fiber cloth is even, produce the crease on the glass fiber cloth easily, influence the quality of glass fiber cloth.

SUMMERY OF THE UTILITY MODEL

In view of the above, in order to solve the above problems, the present invention provides a glass fiber cloth splicing apparatus, comprising:

the two cloth guide rods are arranged in parallel, are arranged along the horizontal direction and are oppositely arranged;

two fixed needle plates, each fixed needle plate is arranged below one cloth guide rod, and the two fixed needle plates can be operated to mutually approach or mutually depart;

the sewing machine is arranged close to the fixed needle plate;

the automatic cutter is arranged below the fixed needle plate;

and the cloth feeding roller group is arranged above the cloth guide rods and can be used for conveying the glass fiber cloth group to a position between the two cloth guide rods.

In another preferred embodiment, the glass cloth set comprises: first glass fiber cloth and second glass fiber cloth, the one end of first glass fiber portion and the one end of second glass fiber cloth all can be operateed from top to bottom and pass in proper order between two cloth guide rod, set up between two fixed fallers.

In another preferred embodiment, each fixed needle plate is provided with a needle surface, a plurality of needle bodies are uniformly arranged on each needle surface, the plurality of needle bodies are arranged perpendicular to the needle surface, and the two needle surfaces are oppositely arranged.

In another preferred embodiment, the method further comprises: two air spray rods, each air spray rod is arranged below one fixed needle plate.

In another preferred embodiment, both air jets comprise: spray lance main part and a plurality of shower nozzle, spray lance main part have a cavity, and a plurality of shower nozzles set up on spray lance main part, and a plurality of shower nozzles set gradually along the axial of spray lance main part, and each shower nozzle all connects the cavity.

In another preferred embodiment, the method further comprises: and the two cavities are both connected with the air supply device.

In another preferred embodiment, the feed roll group comprises: the cloth feeding device comprises a first cloth feeding roller, a second cloth feeding roller and a roller seat, wherein the roller seat is arranged between the first cloth feeding roller and the second cloth feeding roller, and the first cloth feeding roller and the second cloth feeding roller are both connected with the roller seat.

In another preferred embodiment, a rotating arm is rotatably mounted on the roller seat, and a first cloth feeding roller and a second cloth feeding roller are respectively mounted at two ends of the rotating arm.

In another preferred embodiment, the rotating arm carries one of the first feed roller and the second feed roller over the other.

In another preferred embodiment, the method further comprises: the cloth guide device comprises a sending roller, the sending roller is arranged above the cloth guide rod, and the first cloth feeding roller is arranged on one side of the sending roller.

Due to the adoption of the technical scheme, compared with the prior art, the utility model has the following positive effects: by applying the device, the glass fiber cloth stretching and sewing device is provided, the glass fiber cloth is uniformly stressed and is not easy to crease in the sewing process under the matching of the cloth guide rod, the fixed needle plate and the cloth feeding roller set, the glass fiber cloth clamped by the fixed needle plate is cut by the automatic cutter, the edge of a joint is ensured to be neat, and the cloth receiving quality of the glass fiber cloth is improved.

Drawings

FIG. 1 is a first schematic view of a glass fiber cloth splicing device according to the present invention;

FIG. 2 is a second schematic view of a glass fiber cloth joining apparatus according to the present invention;

FIG. 3 is a schematic view of the holding of the fixing needle plate of the glass fiber cloth splicing apparatus of the present invention.

In the drawings: 1. a cloth guide bar; 2. fixing the needle plate; 3. a sewing machine; 4. an automatic cutter; 5. a first glass fiber cloth; 6. a second glass fiber cloth; 7. a needle body; 8. an air spray rod; 9. a first cloth feed roller; 10. a second cloth feed roller; 11. a roller base; 12. a rotating arm; 13. a delivery roller.

Detailed Description

The utility model is further described with reference to the following drawings and specific examples, which are not intended to be limiting.

As shown in fig. 1 to 3, there is shown a glass fiber cloth connecting device of a preferred embodiment, including:

the cloth guide device comprises two cloth guide rods 1, wherein the two cloth guide rods 1 are arranged in parallel, the two cloth guide rods 1 are arranged along the horizontal direction, and the two cloth guide rods 1 are arranged oppositely;

two fixed needle plates 2, each fixed needle plate 2 is arranged below one cloth guide rod 1, and the two fixed needle plates 2 can be operated to mutually approach or mutually depart;

a sewing machine 3, wherein the sewing machine 3 is arranged close to the fixed needle plate 2;

the automatic cutter 4 is arranged below the fixed needle plate 2;

and the cloth feeding roller group is arranged above the cloth guide rods 1 and can be used for conveying the glass fiber cloth group to a position between the two cloth guide rods 1.

In the actual use process, in the initial state, the roller seat 11 drives the first cloth feeding roller 9 to the upper side through the rotating arm 12, one end of the first glass fiber cloth 5 on the first cloth feeding roller 9 is wound on the sending roller 13, one end of the second glass fiber cloth 6 on the second cloth feeding roller 10 penetrates between the two cloth guide rods 1, between the two fixed needle plates 2 and between the two air spray rods 8, when the first glass fiber cloth 5 on the first cloth feeding roller 9 is conveyed, the first glass fiber cloth 5 between the first cloth feeding roller 9 and the sending roller 13 is cut off, one end of the first glass fiber cloth 5 on the sending roller 13 penetrates between the two cloth guide rods 1, between the two fixed needle plates 2 and between the two air spray rods 8, then the two air spray rods 8 spray compressed air, one end of the first glass fiber cloth 5 is attached to one end of the second glass fiber cloth 6, and one end of the first glass fiber cloth 5 and one end of the second glass fiber cloth 6 are blown to move downwards together for a distance So as to tension the first glass fiber cloth 5 and the second glass fiber cloth 6 in the vertical direction, and after the above-mentioned tension is completed, the two fixed needle plates 2 are close to each other, one end of the first glass fiber cloth 5 and one end of the second glass fiber cloth 6 are clamped and fixed, the automatic cutting knife 4 cuts off the redundant cloth ends at the seaming position of the first glass fiber cloth 5 and the second glass fiber cloth 6, and then, the sewing machine 3 starts to work, one end of the first glass fiber cloth 5 and one end of the second glass fiber cloth 6 are sewed, after the sewing is finished, during sewing, the new glass fiber cloth bundle is replaced on the first cloth feeding roller 9, after sewing is completed, the roller seat 11 drives the rotating arm 12 to rotate clockwise, the second cloth feeding roller 10 is driven to the upper side, the first cloth feeding roller 9 is driven to the lower side, and the process is repeated, so that the glass fiber cloth is continuously connected.

Further, as a preferred embodiment, the glass fiber cloth set includes: first glass fiber cloth 5 and second glass fiber cloth 6, the one end of first glass fiber portion and the one end of second glass fiber cloth 6 all operably from top to bottom pass in proper order and set up between two cloth guide rod 1, between two fixed faller 2.

Further, as a preferred embodiment, the other end of the first glass cloth 5 is wound around the first cloth feeding roller 9, and the other end of the second glass cloth 6 is wound around the second cloth feeding roller 10.

Further, as a preferred embodiment, each fixed needle plate 2 has a needle surface, a plurality of needle bodies 7 are uniformly arranged on each needle surface, the plurality of needle bodies 7 are arranged perpendicular to the needle surface, and the two needle surfaces are arranged opposite to each other.

Further, as a preferred embodiment, the method further comprises: the linear driving mechanism is provided with a moving part, the sewing machine 3 is arranged on the moving part, the linear driving mechanism can be used for operably driving the sewing machine 3 to move along the width direction of the first glass fiber cloth 5, and the moving part can be used for operably driving the sewing machine 3 to move along the horizontal direction; further, two fixed fallers 2 have all seted up a sewing hole along the width direction of first glass fiber cloth 5, and when tailorring the completion back, sewing machine 3 moves to tailorring the end, and sewing end of sewing machine 3 is close to the sewing hole, and linear drive mechanism drives sewing portion of sewing machine 3 and moves along the width direction of first glass fiber cloth 5, cuts the end and sews up cutting.

Further, as a preferred embodiment, the method further comprises: the backing plate, the backing plate set up in automatic cut-off knife 4 keeps away from one side of sewing machine 3, and the backing plate sets up between fixed faller 2 and air spray lance 8, and the backing plate is just right to setting up with automatic cut-off knife 4 mutually, has seted up a sword groove on the backing plate, and furtherly, when tailorring, the one end that the blade of automatic cut-off knife 4 stretched out and drove first glass fiber cloth 5 and the one end of second glass fiber cloth 6 are close to the backing plate, support into the sword inslot and accomplish and cut off with the one end of first glass fiber cloth 5 and the one end of second glass fiber cloth 6 until.

Further, as a preferred embodiment, the method further comprises: two air spray bars 8, each air spray bar 8 is arranged below a fixed needle plate 2.

Further, as a preferred embodiment, both air lances 8 include: spray lance main part and a plurality of shower nozzle, spray lance main part have a cavity, and a plurality of shower nozzles set up on spray lance main part, and a plurality of shower nozzles set gradually along the axial of spray lance main part, and each shower nozzle all connects the cavity.

Further, as a preferred embodiment, the air spraying direction of the nozzles on one air spraying rod 8 faces to the lower side of the other air spraying rod 8, and the air spraying direction of the nozzles on the other air spraying rod 8 faces to the lower side of the one air spraying rod 8, and the air sprayed from the nozzles on the two air spraying rods 8 can drive one end of the first glass fiber cloth 5 and one end of the second glass fiber cloth 6 to vertically move downwards.

Further, as a preferred embodiment, the method further comprises: and the two cavities are both connected with the air supply device.

Further, as a preferred embodiment, the feed roller group includes: the cloth feeding device comprises a first cloth feeding roller 9, a second cloth feeding roller 10 and a roller seat 11, wherein the roller seat 11 is arranged between the first cloth feeding roller 9 and the second cloth feeding roller 10, and the first cloth feeding roller 9 and the second cloth feeding roller 10 are both connected with the roller seat 11.

Further, as a preferred embodiment, the lower end of the outer edge of the second cloth feeding roller 10 is in the same plane with the upper end of the outer edge of one cloth guide bar 1, and the one cloth guide bar 1 is disposed close to the second cloth feeding roller 10 relative to the other cloth guide bar 1.

Further, as a preferred embodiment, a rotating arm 12 is rotatably mounted on the roller base 11, and the first cloth feeding roller 9 and the second cloth feeding roller 10 are respectively mounted at two ends of the rotating arm 12.

Further, as a preferred embodiment, the method further comprises: the driving motor is installed on the roller seat 11, an output shaft of the driving motor is connected with the rotating arm 12, the rotating arm 12 can rotate clockwise around the roller seat 11, namely the rotating arm 12 can drive the first cloth feeding roller 9 and the second cloth feeding roller 10 to rotate clockwise.

Further, as a preferred embodiment, the rotating arm 12 carries one of the first feed roll 9 and the second feed roll 10 over the other.

Further, as a preferred embodiment, the method further comprises: a delivery roller 13, wherein the delivery roller 13 is arranged above the cloth guide bar 1, and the first cloth delivery roller 9 is arranged at one side of the delivery roller 13.

Further, as a preferred embodiment, the sending roller 13 is disposed right above one cloth guide bar 1, and the one cloth guide bar 1 is disposed close to the second cloth feeding roller 10 relative to the other cloth guide bar 1, so as to ensure the bending degree of the first glass fiber cloth 5.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope and the implementation manner of the present invention.

The present invention also has the following embodiments in addition to the above:

in a further embodiment of the present invention, the method further comprises: two limiting plates, two cloth guide rods 1, two fixed fallers 2, automatic cut-off knife 4 and two air spray bars 8 all set up between two limiting plates, and two limiting plates are just right to be set up, guarantee that first glass fiber cloth 5 and second glass fiber cloth 6 align, and further, the medial surface setting of two limiting plates of axis perpendicular to of cloth guide rod 1.

While the utility model has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the utility model.

Claims (10)

1. The utility model provides a glass fiber cloth connects cloth device which characterized in that includes:

the two cloth guide rods are arranged in parallel, are arranged along the horizontal direction and are oppositely arranged;

the two fixing needle plates are arranged below one cloth guide rod and can be close to or far away from each other in an operable manner;

a sewing machine disposed proximate to the fixed needle plate;

the automatic cutter is arranged below the fixed needle plate;

the cloth feeding roller group is arranged above the cloth guide rods and can convey the glass fiber cloth group to a position between the two cloth guide rods in an operable mode.

2. The fiberglass cloth splicing device of claim 1, wherein the fiberglass cloth assembly comprises: first glass fiber cloth and second glass fiber cloth, the one end of first glass fiber portion with the one end of second glass fiber cloth all operationally from top to bottom passes two in proper order between the fabric guide rod, two set up between the fixed faller.

3. The glass fiber cloth splicing apparatus according to claim 1, wherein each of the fixed needle plates has a needle surface, a plurality of needle bodies are uniformly arranged on each of the needle surfaces, the plurality of needle bodies are arranged perpendicular to the needle surfaces, and the two needle surfaces are arranged opposite to each other.

4. A fiberglass cloth splicing device according to claim 1, further comprising: and each air spray rod is arranged below one fixed needle plate.

5. A fiberglass cloth splicing device according to claim 4, wherein both of said air spray bars comprise: the spray rod comprises a spray rod main body and a plurality of spray heads, wherein the spray rod main body is provided with a cavity, the plurality of spray heads are arranged on the spray rod main body, the plurality of spray heads are arranged along the axial direction of the spray rod main body in sequence, and each spray head is connected with the cavity.

6. The fiberglass cloth splicing apparatus of claim 5, further comprising: and the two cavities are connected with the air supply device.

7. A fiberglass cloth splicing device according to claim 1, wherein said feed roller set comprises: the cloth feeding device comprises a first cloth feeding roller, a second cloth feeding roller and a roller seat, wherein the roller seat is arranged between the first cloth feeding roller and the second cloth feeding roller, and the first cloth feeding roller and the second cloth feeding roller are both connected with the roller seat.

8. The glass fiber cloth receiving device according to claim 7, wherein a rotating arm is rotatably mounted on the roller base, and the first cloth feeding roller and the second cloth feeding roller are respectively mounted at two ends of the rotating arm.

9. The fiberglass cloth splicing apparatus of claim 8, wherein said rotating arm drives one of said first feed roll and said second feed roll above the other.

10. A fiberglass cloth splicing device according to claim 7, further comprising: the cloth guide device comprises a sending roller, wherein the sending roller is arranged above the cloth guide rod, and the first cloth feeding roller is arranged on one side of the sending roller.

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