KR20230065487A - Jig for installing impact-resistant reinforcing member of gas tank and installation method thereof - Google Patents

Abstract

The present invention relates to a jig for installation of an impact-resistant reinforcement member of a gas tank that allows an impact-resistant reinforcement member capable of protecting the relatively vulnerable knuckle area of a gas tank to be reliably attached at an accurate location, and a method of installing the same. The jig for installation, which is for mounting an impact-resistant reinforcement member on the boss or knob portion of a gas tank, may comprise: a jig body having a bolt hole formed in the center and including a disk-shaped wing portion in contact with the impact-resistant reinforcement member; and a bolt unit which includes a head portion mounted on the bolt hole of the jig body and formed with a diameter larger than the diameter of the bolt hole, and a threaded portion screwed to the boss portion or knob portion of a dome part.

Description

Jig for installing impact-resistant reinforcing member of gas tank and its mounting method

The present invention relates to an impact-resistant reinforcing member mounting jig for a gas tank and a method for installing the same for mounting the impact-resistant reinforcing member to improve the impact-resistant performance of a gas tank wound with a composite material.

The inventors of the present invention applied a method of attaching an impact-resistant reinforcing member made of foamed resin to the outside of the tank for the purpose of mitigating the impact resistance of the gas tank. The impact resistance of the gas tank was enhanced by attaching a hollow thimble-type impact-resistant reinforcing member to the outer surface of the composite material wound around the gas tank.

When installing the impact-resistant reinforcing member, it is necessary to maintain the correct position of the impact-resistant reinforcing member, and to continuously apply pressure toward the gas tank until the adhesive applied to the adhesive surface adhered to the gas tank takes effect.

At this time, when the impact-resistant reinforcing member is installed manually without a separate jig or the like, problems such as eccentricity occur during the attachment process. In addition, if compression is not performed immediately after attaching the impact-resistant reinforcing member to the gas tank, there is a high possibility that the impact-resistant reinforcing member will leak out of the existing bonding position depending on the composition and curing degree of the adhesive.

In order to solve the above problem, it is necessary to manufacture and attach a large device capable of fixing the entire product including the gas tank, which may be inefficient in terms of size and cost during mass production of the product.

Republic of Korea Patent Publication No. 10-2021-0065403 (published on June 6, 2021)

An object of the present invention is to provide an impact-resistant reinforcing member mounting jig for a gas tank and an installation method thereof, which can reliably attach an impact-resistant reinforcing member capable of protecting a relatively weak knuckle portion in a gas tank to an accurate position. is in

A first aspect of the present invention for solving the above problems relates to an impact-resistant reinforcing member mounting jig for a gas tank. The mounting jig is a mounting jig for mounting an impact-resistant reinforcing member on a dome portion formed with a boss or a knob of a gas tank, a bolt hole is formed in the center, and a disc shape contacting the impact-resistant reinforcing member A jig body including a wing of the; and a bolt unit including a head portion mounted on the bolt hole of the jig body and having a larger diameter than the bolt hole diameter, and a screw portion screwed into the boss portion or the knob portion of the dome portion.

According to an embodiment of the present invention, the impact-resistant reinforcing member includes a through hole in which the boss portion or knob portion of the dome portion is disposed, and a cone-shaped portion extending from an outer circumference of the through hole along the dome portion, and an inner surface of the It is formed in contact with the container body of the gas tank, the jig body covers the through hole, and the wing portion of the jig body may come into contact with the cone-shaped portion of the impact-resistant reinforcing member.

According to the embodiment of the present invention, on the lower surface of the wing of the jig body, a projection is formed to be inserted into the insertion space between the impact-resistant reinforcing member and the boss or knob of the dome, and the projection is the shock-resistant When mounting on the reinforcing member, the through hole of the mounting jig may be formed at a position corresponding to the hollow threaded portion of the boss or knob.

According to an embodiment of the present invention, the bolt hole of the jig body may be formed with the same diameter as the hollow threaded hollow of the boss portion or knob portion of the dome portion.

A second aspect of the present invention relates to a method for mounting an impact-resistant reinforcing member of a gas tank. The mounting method is a method of mounting an impact-resistant reinforcing member on a dome portion formed with a boss or knob of a gas tank, a) applying an adhesive to the joint surface of the impact-resistant reinforcing member in contact with the gas tank ; b) evaporating the solvent of the adhesive and mounting the impact-resistant reinforcing member on the dome of the gas tank; c) pressing the impact-resistant reinforcing member by fastening the mounting jig to the boss part or the knob part through screw coupling; and d) removing the mounting jig from the impact-resistant reinforcing member after curing the adhesive.

According to an embodiment of the present invention, the mounting jig has a projection fitted into an insertion space between the impact-resistant reinforcing member and the boss or knob of the dome, and the projection is formed so that the mounting jig is placed on the impact-resistant reinforcing member. During mounting, the through hole of the mounting jig is formed at a position corresponding to the hollow threaded portion of the boss or knob, and in step (b), the protrusion of the mounting jig is inserted into the insertion space to A step of making the through hole correspond to the hollow in which the thread of the boss or knob is formed may be included.

According to an embodiment of the present invention, the mounting jig includes a jig body that presses the impact-resistant reinforcing member, and a bolt unit formed to be able to press the jig body and screwed to the boss or knob of the dome, In step c), the bolt unit may be rotated so that the mounting jig presses the impact-resistant reinforcing member.

According to the present invention, an impact-resistant reinforcing member capable of protecting a relatively weak knuckle portion of a gas tank can be reliably attached to an accurate position.

1 (a) and (b) are cross-sectional views showing a state in which the jig body of the gas tank impact-resistant reinforcing member mounting jig according to the present invention is installed on the boss portion and the knob portion of the dome portion of the gas tank.
(a) and (b) of FIG. 2 are cross-sectional views showing states in which bolt units are mounted on the jig body in the boss and knob portions of FIG. 1, respectively.
3 shows an installation process of a mounting jig for mounting an impact-resistant reinforcing member on the dome of a gas tank according to the present invention.

Hereinafter, specific details for the practice of the present invention will be described with reference to the accompanying drawings. And, in the description of the present invention, if it is determined that the related known function may unnecessarily obscure the subject matter of the present invention as an obvious matter to those skilled in the art, the detailed description thereof will be omitted.

1 (a) and (b) are cross-sectional views showing a state in which the jig body of the gas tank impact-resistant reinforcing member mounting jig according to the present invention is installed on the boss portion and the knob portion of the dome portion of the gas tank. (a) and (b) of FIG. 2 are cross-sectional views showing states in which bolt units are mounted on the jig body in the boss and knob portions of FIG. 1, respectively.

Referring to FIGS. 1 and 2 , the gas tank includes a container body 10 , and the container body 10 has a cylinder portion 11 and dome portions 12 formed at both ends of the cylinder portion 11 . The cylinder part 11 has a cylindrical shape and extends along the longitudinal direction of the container body 10, and the dome part 12 extends from the cylinder part 11 and is formed in a dome shape at both ends of the cylinder part 11. A boss portion 12a is formed on one dome portion 12 based on the cylinder portion 11, and a knob portion 12b is formed on the other dome portion 12.

A composite layer 20 is provided on the surface of the container body. The composite layer 20 is formed by continuously winding a composite material composed of carbon fibers and glass fibers. The composite layer 20 is formed in such a way that a composite winder moves around the container body and winds the composite material around the container body.

The impact-resistant reinforcing member 30 is formed to cover at least a portion of the composite material layer 20 on the dome portion 12 of the composite material layer 20 . The inner surface of the impact-resistant reinforcing member 30 is formed in contact with the composite material layer 20 on the container body 10 . An adhesive is applied to the inner surface of the impact-resistant reinforcing member 30, and the impact-resistant reinforcing member 30 is attached to the container body 10 by pressing the impact-resistant reinforcing member 30 toward the container body 10. The impact-resistant reinforcing member 30 is formed of an expanded polypropylene (EPP) composition in the form of a lightweight foam with excellent impact resistance. Since the expanded polypropylene (EPP) composition has a higher elongation than general plastics, it is possible to secure a high energy absorption area in the stress-strain curve.

The impact-resistant reinforcing member 30 includes a through hole 31, a cone-shaped first part, and a cylindrical second part. A boss part 12a or a knob part 12b is disposed in the through hole 31 . The impact-resistant reinforcing member 30 is inserted into the dome portion 12 of the container body 10 during installation, and the boss portion 12a or the knob portion 12b is exposed to the outside through the through hole 31 . The cone-shaped first portion extends from the outer periphery of the through hole 31 along the dome portion 12 . A cylindrical second portion extends along the cylindrical portion 11 from the first portion.

The portion covered by the impact-resistant reinforcing member includes a knuckle point having the thinnest thickness among the composite material layers 20 . In the filament winding process applied to the gas tank, the composite material layer 20 is formed by winding the composite material around the container body 10, and the process follows the following design for improving durability of the gas tank. The composite material wound around the boss portion 12a becomes thicker than the cylinder portion 11 due to folding and overlapping. In addition, in order to reduce the high load generated on the cylinder part 11 of the largest diameter, hoop winding is performed to reinforce only the cylinder part 11. Accordingly, the composite material layer 20 has a relatively thinner thickness at the knuckle point than at the cylinder portion 11 and the boss portion 12a. Typically, the composite layer wound around the container body 10 is formed to a thickness of about 25 mm at the cylinder portion 11, 10 to 15 mm at the knuckle point, and 40 mm at the dome portion 12. This knuckle point is evaluated as the most vulnerable part to impact when the gas tank is dropped at 45°.

The first part and the second part of the impact-resistant reinforcing member 30 are divided by the normal line l of the curved surface on the knuckle point of the dome part 12 . The normal line (l) may be designed to form a 45° angle with respect to the longitudinal axis (x) of the gas tank. The first part and the second part of the impact-resistant reinforcing member 30 are formed to increase in thickness as they get closer to the normal line l. Accordingly, for example, when the gas tank is dropped by 45°, the largest amount of pressure is generated, so that the knuckle portion, which is most vulnerable to impact, can be effectively reinforced.

The impact-resistant reinforcing member mounting jig 100 of the gas tank according to the present invention is for mounting the impact-resistant reinforcing member 30 as described above to the dome portion 11 of the gas tank. The mounting jig 100 includes a jig body 110 and a bolt unit 120.

The jig body 110 covers the through hole 31 of the impact-resistant reinforcing member 30 and has a bolt hole 111 formed in the center. In addition, the jig body 110 includes a disk-shaped wing portion 112 contacting the cone-shaped first portion of the impact-resistant reinforcing member 30 . The boss part 12a or the knob part 12b of the dome part 12 has a hollow in which a screw thread (not shown) is formed to which the bolt unit 120 is screwed. The bolt hole 111 of the jig body 110 may have the same diameter as the threaded hollow of the boss part 12a or the knob part 12b.

Meanwhile, an insertion space is formed between the impact-resistant reinforcing member 30 and the boss portion 12a or knob portion 12b of the dome portion 11 . A protrusion 113 inserted into the insertion space may be formed on the lower surface of the wing portion 112 of the jig body 110. When the mounting jig 100 is mounted on the impact-resistant reinforcing member 30, the protrusion 113 corresponds to the through-hole 31 of the mounting jig 100 corresponding to the hollow threaded portion of the boss portion 12a or knob portion 12b. It can be formed in a position to be. That is, when the protrusion 113 is inserted into the insertion space, the through hole 31 of the mounting jig 100 is located on the hollow threaded portion of the boss portion 12a or knob portion 12b so that the bolt unit 120 It forms a continuous passage that can be penetrated.

The bolt unit 120 is mounted on the bolt hole 111 of the jig body 110 and has a head portion 121 formed with a diameter larger than the diameter of the bolt hole 111, and a boss portion of the dome portion 11 ( 12a) or a threaded portion 122 screwed to the knob portion 12b. When the bolt unit 120 rotates, the screw part 122 is screwed into the thread of the boss part 12a or the knob part 12b, and accordingly, the mounting jig 100 presses and fixes the impact-resistant reinforcing member 30 .

3 shows an installation process of a mounting jig for mounting an impact-resistant reinforcing member on the dome of a gas tank according to the present invention.

3, the installation method of the mounting jig includes an adhesive application step (s10), an impact-resistant reinforcing member mounting step (s20), a mounting jig fastening and pressing step (s30), and a mounting jig removal step (s40). . Each of the above steps may be performed manually or through a separate mounting jig installation device.

The adhesive application step (s10) is a step of applying an adhesive to the bonding surface of the impact-resistant reinforcing member 30 in contact with the gas tank. The adhesive is a spray-type, specially modified synthetic rubber-based adhesive, and may be of a liquid type. As the adhesive application method, both a spray or direct application method can be applied.

The impact-resistant reinforcing member mounting step (s20) is a step of mounting the impact-resistant reinforcing member 30 to the dome portion 11 of the gas tank after evaporating the solvent of the adhesive. At this time, the projection 113 of the mounting jig is inserted into the insertion space formed between the impact-resistant reinforcing member 30 and the boss portion 12a or knob portion 12b of the dome portion 11 so that the through hole 31 of the mounting jig is the boss portion (12a) or the knob portion (12b) to correspond to the hollow in which the thread is formed. Through this, it is possible to fix the impact-resistant reinforcing member 30 to an accurate position on the dome portion 11 of the gas tank, and at the same time form a continuous passage through which the bolt unit 120 can pass.

The mounting jig fastening and pressing step (s30) is a step of pressurizing the impact-resistant reinforcing member 30 by fastening the mounting jig to the boss portion 12a or the knob portion 12b through screw coupling. At this time, the user or the mounting jig installation device may rotate the bolt unit 120 so that the mounting jig presses the impact-resistant reinforcing member 30 .

The mounting jig removal step (s40) is a step of removing the mounting jig from the impact-resistant reinforcing member 30 after the adhesive applied in the adhesive application step (s10) is cured.

The results of comparing the eccentricity of the impact-resistant reinforcing member 30 attached using the mounting jig as described above and the eccentricity of the impact-resistant reinforcing member 30 attached without using the mounting jig are shown in Table 1 below.

<Table 1>

In Table 1, Examples 1 and 2 are cases in which mounting jigs are applied to the boss and knob portions, respectively, and Comparative Examples 1 to 4 are cases in which mounting jigs are not applied to the same portions. The eccentricity of the impact-resistant reinforcing member was obtained by measuring the distance between the inner circumferential surface of the impact-resistant reinforcing member 30 and the outer circumferential surfaces of the boss and knob. In the case of Examples 1 and 2, the eccentricity, which is the maximum-minimum distance deviation, is 0, and it can be confirmed that the impact-resistant reinforcing member 30 is attached to the same position in all directions. On the other hand, in Comparative Examples 1 to 4, as a result of randomly attaching the impact-resistant reinforcing member 30 without using a mounting jig, it can be confirmed that the eccentricity occurs up to 4 mm to 10 mm.

The scope of protection in this field is not limited to the descriptions and expressions of the embodiments explicitly described above. In addition, it is added once again that the protection scope of the present invention cannot be limited due to obvious changes or substitutions in the technical field to which the present invention belongs.

10: container body 11: cylinder part
12: dome part 12a: boss part
12b: Knob 20: Composite layer
30: impact-resistant reinforcing member 31: through hole
100: mounting jig 110: jig body
111: bolt groove 112: wing
113: protrusion 120: bolt unit
121: head part 122: screw part
l: Normal of the curved surface on the knuckle point of the dome
x: the longitudinal axis of the gas tank

Claims (7)

A mounting jig for mounting an impact-resistant reinforcing member to a dome portion formed with a boss portion or a knob portion of a gas tank,
A jig body having a bolt hole formed in the center thereof and including a disc-shaped wing part contacting the impact-resistant reinforcing member; and
A head portion mounted on the bolt hole of the jig body and having a larger diameter than the bolt hole diameter, and a bolt unit including a screw portion screwed into the boss portion or knob portion of the dome portion Gas characterized in that it comprises a Tank's impact-resistant reinforcing member installation jig.
According to claim 1,
The impact-resistant reinforcing member includes a through hole in which the boss portion or knob portion of the dome portion is disposed, and a cone-shaped portion extending from an outer circumference of the through hole along the dome portion, and an inner surface is formed in contact with the container body of the gas tank. becomes,
The jig body covers the through hole, and the wing portion of the jig body is in contact with the cone-shaped portion of the impact-resistant reinforcing member for the gas tank.
According to claim 1,
A projection is formed on the lower surface of the wing of the jig body to be inserted into the insertion space between the impact-resistant reinforcing member and the boss or knob of the dome, and the projection is formed when the mounting jig is mounted on the impact-resistant reinforcing member. The shock-resistant reinforcing member mounting jig of the gas tank, characterized in that the through-hole of the jig is formed at a position corresponding to the hollow threaded portion of the boss or knob.
According to claim 1,
The bolt hole of the jig body is formed to have the same diameter as the hollow threaded hollow of the boss portion or the knob portion of the dome portion.
A method of mounting an impact-resistant reinforcing member on a dome portion formed with a boss portion or a knob portion of a gas tank,
a) applying an adhesive to the bonding surface of the impact-resistant reinforcing member in contact with the gas tank;
b) evaporating the solvent of the adhesive and mounting the impact-resistant reinforcing member on the dome of the gas tank;
c) pressing the impact-resistant reinforcing member by fastening the mounting jig to the boss part or the knob part through screw coupling; and
d) after curing the adhesive, removing the mounting jig from the impact-resistant reinforcing member.
According to claim 5,
The mounting jig has a projection fitted into an insertion space between the impact-resistant reinforcing member and the boss or knob of the dome, and the projection forms a through-hole of the mounting jig when the mounting jig is mounted on the impact-resistant reinforcing member. It is formed at a position corresponding to the hollow in which the screw thread of the boss or knob is formed,
The step (b) includes a step of inserting the protrusion of the mounting jig into the insertion space so that the through hole of the mounting jig corresponds to the hollow threaded portion of the boss or knob. Impact resistance reinforcing member mounting method of
According to claim 5,
The mounting jig includes a jig body that presses the impact-resistant reinforcing member, and a bolt unit formed to be able to press the jig body and screwed to the boss or knob of the dome,
In the step (c), the bolt unit is rotated so that the mounting jig presses the impact-resistant reinforcing member.

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