KR101595863B1 - Apparatus for making donut type gas tank and donut type gas tank made by the same - Google Patents

Abstract

A manufacturing device for a doughnut-type gas tank, according to the present invention comprises: a liner rotating unit which allows a doughnut-type liner to rotate on the axis thereof; a fiber winding unit which rotates around the outer surface of the doughnut-type liner in a direction meeting at right angles to the rotating direction of the doughnut-type liner while the liner rotating unit rotates the doughnut-type liner to wind a reinforced fiber on the outer surface of the doughnut-type liner; and a fiber supply unit which is installed in the fiber winding unit and supplies the reinforced fiber.

Description

TECHNICAL FIELD [0001] The present invention relates to a donut-shaped gas tank manufacturing apparatus and a donut-shaped gas tank,

The present invention relates to an apparatus for manufacturing a toroidal type gas tank.

Generally, the cylindrical gas tank of the LPG vehicle is mounted on the trunk. As a result, trunk space is reduced.

In order to solve the problem of reducing the trunk space, a donut-shaped gas tank which can be installed in the spare tire space has been developed. If you use a donut-shaped gas tank, you can use the trunk space as it is.

On the other hand, a general cylindrical gas tank is installed deep inside the trunk. On the other hand, the donut type gas tank is installed in the spare tire space. Therefore, at the time of a rear-end collision, the toroidal-type gas tank receives a greater impact than the cylindrical-shaped gas tank, thereby causing a problem in safety.

To solve this safety problem, the thickness of the toroidal gas tank can be made thicker, but in this case another problem arises in that the weight increases.

Korean Patent Publication No. 10-2010-0090732

An object of the present invention is to provide an apparatus which can easily make a donut-shaped gas tank which is light and has a high strength.

Another object of the present invention is to provide a donut-shaped gas tank which is light and has high strength.

In order to achieve the above object, a toroidal type gas tank manufacturing apparatus includes:

A liner rotating unit for rotating the toroidal liner;

The liner rotating unit rotating around the outer circumferential surface of the toroidal liner in a direction perpendicular to the direction of rotation of the toroidal liner while the liner rotating unit rotates the fiber to wind the reinforcing fiber on the outer circumferential surface of the toroidal liner, A winding unit; And

And a fiber supply unit installed in the fiber winding unit and supplying the reinforcing fiber.

Further, the above-

Donut type liner;

A reinforcing fiber wound around an outer peripheral surface of the donut type liner; And

And a hardened resin impregnated in the reinforcing fiber.

The use of the apparatus for manufacturing a donut-shaped gas tank according to the present invention enables the reinforcing fiber to be quickly wound around the toroidal liner, thereby shortening the time for producing the toroidal-shaped gas tank.

In the toroidal gas tank of the present invention, reinforcing fibers are wound around a plastic or thin metal liner. The donut-shaped gas tank thus made is light and safe even when installed in the spare tire space, in the event of a rear-end collision.

1 is a view showing a donut-shaped gas tank manufacturing apparatus according to an embodiment of the present invention and a donut-shaped liner waiting for a fiber winding operation in the manufacturing apparatus.
2 is an exploded perspective view of the rotor shown in Fig.
Fig. 3 is a view showing a state in which reinforcing fibers are wound around the outer circumferential surface of the toroidal liner using the toroidal type gas tank producing apparatus shown in Fig. 1. Fig.
Fig. 4 is a view showing a state in which a donut-shaped liner in which all the reinforcing fibers are wound is taken out from the toroidal-type gas tank producing apparatus shown in Fig. 1;

Hereinafter, the apparatus for manufacturing a donut-shaped gas tank of the present invention will be described in detail.

1 is a view showing a donut-shaped gas tank manufacturing apparatus according to an embodiment of the present invention and a donut-shaped liner waiting for a fiber winding operation in the manufacturing apparatus.

In order to avoid the complication of the drawing, a configuration (frame, cover, etc.) that does not become a substantial part of the donut-shaped gas tank manufacturing apparatus 1 in FIG. 1 is omitted.

The toroidal liner 3 is made of plastic, a thin metal, or a fiber reinforced composite (FRP). The inside of the donut type liner 3 is empty so that the gas can be charged.

1, an apparatus 1 for manufacturing a donut-shaped gas tank according to an embodiment of the present invention comprises a liner rotating unit 10, a fiber winding unit 20, and a fiber supply unit 30 .

The liner rotating unit 10 rotates the toroidal liner 3.

The liner rotating unit 10 is composed of a first liner roller 11, a second liner roller 12, and a liner driving unit 13.

Two first liner rollers 11 come into contact with the outer peripheral surface of the toroidal liner 3. The first liner roller 11 is rotatably installed in a frame (not shown). Of course, more than two first liner rollers 11 may be rotatably mounted on a frame (not shown).

Two second liner rollers 12 support the lower surface of the toroidal liner 3. The second liner roller 12 is rotatably installed in a frame (not shown). Of course, more than two second liner rollers 12 may be rotatably mounted on the frame (not shown).

The liner drive unit 13 is composed of a liner drive roller 13a, a liner drive motor 13b, and a control unit (not shown).

The liner drive roller 13a is in frictional contact with the outer circumferential surface of the toroidal liner 3 to rotate the toroidal liner 3. In order to increase the frictional force between the liner drive roller 13a and the toroidal liner 3, the liner drive roller 13a is made of a rubber material. Alternatively, the liner drive roller 13a may be made of a metal material, and its surface may be coated with a rubber material.

The liner drive motor 13b rotates the liner drive roller 13a.

The control unit (not shown) adjusts the speed at which the liner drive motor 13b rotates the liner drive roller 13a.

The fiber winding unit 20 is wound around the outer peripheral surface of the donut type liner 3 in the direction perpendicular to the rotating direction of the donut type liner 3 while the liner rotating unit 10 rotates the donut type liner 3 The reinforcing fibers F are wound around the outer circumferential surface of the donut type liner 3.

The fiber winding unit 20 is composed of a rotor 21, a rotor roller 22, and a rotor driving unit 23.

2 is an exploded perspective view of the rotor shown in Fig.

As shown in Figs. 1 and 2, the rotor 21 is annular.

The rotor 21 is composed of a first piece 21a, a second piece 21b and a third piece 21c.

Of course, the rotor 21 can be made up of more pieces.

Grooves 21aa are provided on both side surfaces of the first piece 21a.

On both side surfaces of the second piece 21b, a projection 21bb inserted into the groove 21aa of the first piece 21a is provided.

A projection 21ca inserted into the groove 21aa of the first piece 21a is provided on one side surface of the third piece 21c and the projection 21ca of the second piece 21b is provided on the other side of the third piece 21c. And a groove 21cb into which the groove 21bb is inserted. Of course, the coupling methods of the first piece 21a, the second piece 21b, and the third piece 21c may be various.

When the first piece 21a, the second piece 21b and the third piece 21c are coupled, an annular rotor 21 is produced.

The reason why the rotor 21 is composed of the detachable pieces 21a, 21b and 21c is that the rotor 21 is disassembled so that the center hole 3a of the donut- To insert the center hole 21d.

The rotor 21 rotates about the outer peripheral surface of the toroidal liner 3 in a direction perpendicular to the direction of rotation of the toroidal liner 3. The rotor 21 is positioned between the three rotor rollers 22 so that the rotor 21 can rotate.

The three rotor rollers 22 are rotatably installed in a frame (not shown). Of course, more than three rotor rollers 22 may be rotatably mounted in a frame (not shown).

The rotor roller 22 which contacts the upper surface of the first piece 21a of the three rotor rollers 22 is fixed to a frame (not shown) to separate the first piece 21a from the rotor 21, As shown in Fig.

The rotor drive unit 23 includes a rotor drive roller 23a, a rotor drive motor 23b, and a control unit (not shown).

The rotor driving roller 23a is in frictional contact with the outer circumferential surface of the rotor 21 to rotate the rotor 21. [ In order to increase the frictional force between the rotor driving roller 23a and the rotor 21, the rotor driving roller 23a is made of a rubber material. Alternatively, the rotor driving roller 23a may be made of a metal material, and its surface may be coated with a rubber material.

The rotor drive motor 23b rotates the rotor drive roller 23a.

A control unit (not shown) adjusts the speed at which the rotor drive motor 23b rotates the rotor drive roller 23a.

The fiber supply unit (30) is installed in the fiber winding unit (20). The fiber supply unit 30 supplies the reinforced fibers F wound on the outer circumferential surface of the toroidal liner 3.

The fiber supply unit 30 is composed of a bobbin shaft 31 and a bobbin body 32.

The bobbin shaft 31 is provided on the inner peripheral surface of the rotor 21. More specifically, on the inner peripheral surface of the third piece 21c.

The bobbin body 32 is rotatably installed on the bobbin shaft 31.

The reinforcing fiber (F) is wound on the bobbin body (32). The type of the reinforcing fibers (F) is glass fiber or carbon fiber.

When the rotor 21 rotates around the outer circumferential surface of the toroidal liner 3, the bobbin body 31 also rotates about the bobbin shaft 32. At this time, the reinforcing fibers F wound on the bobbin body 31 are unwound and wound on the outer circumferential surface of the donut-shaped liner 3.

A tension unit for adjusting the tension of the reinforcing fibers F may be further added to the fiber supply unit 30 when the reinforcing fibers F wound on the bobbin body 31 are unwound.

Hereinafter, a method for winding reinforcing fibers in a toroidal liner using a donut-shaped gas tank producing apparatus according to an embodiment of the present invention will be described.

Fig. 3 is a view showing a state in which reinforcing fibers are wound around the outer circumferential surface of the toroidal liner using the toroidal type gas tank producing apparatus shown in Fig. 1. Fig. Fig. 4 is a view showing a state in which a donut-shaped liner in which all the reinforcing fibers are wound is taken out from the toroidal type gas tank producing apparatus shown in Fig. 1;

Referring to Figs. 3 and 4, the rotor roller 22, which is in contact with the upper surface of the first piece 21a of the three rotor rollers 22, is separated from the frame (not shown).

Thereby separating the first piece 21a from the rotor 21. [

The center hole 21d of the rotor 21 is inserted into the center hole 3a of the toroidal liner 3 through the separated portion of the first piece 21a.

The donut type liner 3 is placed on the second liner roller 12. Then, the first liner roller 11 contacts the outer peripheral surface of the toroidal liner 3, and the second liner roller 12 supports the lower surface of the toroidal liner 3.

And the first piece 21a is engaged with the rotor 21. [

The rotor roller 22, which contacts the upper surface of the first piece 21a, is assembled to a frame (not shown).

The liner drive motor 13b rotates the liner drive roller 13a. The liner drive roller 13a is in frictional contact with the outer circumferential surface of the donut type liner 3 to rotate the toroidal liner 3. [

And the rotor drive motor 23b rotates the rotor drive roller 23a. The rotor drive roller 23a is in frictional contact with the outer circumferential surface of the rotor 21 to rotate the rotor 3. [

Then, while the toroidal liner 3 is rotating, the rotor 3 rotates around the outer circumferential surface of the toroidal liner 3 in a direction perpendicular to the direction of rotation of the toroidal liner 3.

When the rotor 3 rotates, the bobbin body 32 also rotates about the bobbin shaft 31 to release the reinforcing fibers F.

The reinforcing fibers F released from the bobbin body 32 are wound on the outer circumferential surface of the toroidal liner 3.

When the operation of winding the reinforcing fibers F on the outer circumferential surface of the donut type liner 3 is completed,

And separates the rotor roller 22, which contacts the upper surface of the rotor 21, from the frame (not shown). Thereby separating the first piece 21a from the rotor 21. The donut-shaped liner 3 in which the reinforcing fibers are wound is pulled out through the separated portion of the first piece 21a.

A resin-impregnated toroidal liner (3) with reinforcing fibers (F) wound thereon is cured.

A filler for filling the gas is filled in the outer circumferential surface of the toroidal liner 3, and a filling valve (not shown) is installed in the filling port. Then, the donut-shaped gas tank is completed.

1: Donut type gas tank making device 3: Donut type liner
10: liner rotating unit 20: fiber winding unit
21: rotor 21a: first piece
21b: second piece 21c: third piece
22: Rotor roller 23: Rotor driving part
30: fiber supply unit 31:
32: Bobbin body F: Fiber

Claims (5)

delete A liner rotating unit for rotating the toroidal liner;
The liner rotating unit rotating around the outer circumferential surface of the toroidal liner in a direction perpendicular to the direction of rotation of the toroidal liner while the liner rotating unit rotates the fiber to wind the reinforcing fiber on the outer circumferential surface of the toroidal liner, A winding unit; And
And a fiber supply unit installed in the fiber winding unit and supplying the reinforcing fiber,
The liner rotating unit includes:
A first liner roller in contact with an outer circumferential surface of the toroidal liner;
A second liner roller for supporting a lower surface of the toroidal liner; And
A liner drive unit configured to rotate the liner drive roller, a liner drive motor configured to rotate the liner drive roller, and a control unit configured to adjust a speed at which the liner drive motor rotates the liner drive roller,

The fiber winding unit comprises:
Rotor;
A rotor roller contacting the outer circumferential surface of the rotor; And
A rotor driving unit configured to rotate the rotor, a rotor driving motor configured to rotate the rotor driving roller, and a controller configured to adjust a rotating speed of the rotor driving roller by the rotor driving motor. Respectively,

The fiber supply unit includes:
A bobbin shaft provided on an inner peripheral surface of the rotor; And
And a bobbin body rotatably installed on the bobbin and wound with the reinforcing fiber. 3. The method of claim 2,
Wherein the rotor is comprised of detachable pieces. 3. The method of claim 2,
Wherein the liner drive roller or the rotor drive roller is made of a rubber material or is made of a metal material and the surface thereof is coated with a rubber material. delete

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