KR102135721B1 - Supporting jig of rubber matrix and supporting method of the same - Google Patents

Abstract

Support jig according to an embodiment of the present invention is inserted into the inner wall of the rubber matrix, the outer cylindrical portion contacting the inner wall and supporting the inner wall; And an inner cylindrical portion inserted into the outer cylindrical portion, in contact with the outer cylindrical portion, and further supporting the inner wall, wherein the outer cylindrical portion, when the inner cylindrical portion is inserted into the outer cylindrical portion, the rubber It may contact the lower wall extending from the inner wall of the matrix and support the lower wall of the rubber matrix.

Description

Support jig of rubber matrix and its support method {SUPPORTING JIG OF RUBBER MATRIX AND SUPPORTING METHOD OF THE SAME}

Embodiments of the present invention relates to a support fixture for a rubber matrix and a method for supporting the rubber matrix, in particular, to prevent the expansion deformation of the rubber matrix storing a propellant in a slurry state, and a support fixture that can be easily coupled and separated from the rubber matrix and It is about how to support it.

The shape of a rocket's solid propellant is an important design factor affecting specific thrust, combustion pressure, and range. Therefore, it is very important that the propellant in the slurry state is preserved without deformation in a hard outer wall from the filling to the curing. When the propellant in the slurry state is filled into the inner space formed by the rubber matrix, a support fixture is needed to prevent the bulging of the rubber matrix due to the weight of the propellant in the slurry state.

Conventionally, after inserting various parts into the rubber matrix, the filling process of the propellant has been performed as a step of assembling the parts and collecting the rubber matrix. However, there are problems in that the work process is complicated and work stability is not secured.

The problem to be solved by the present invention is to prevent expansion deformation of the rubber matrix storing a propellant in a slurry state, and to provide a support fixture and a support method thereof that can be easily coupled and separated from the rubber matrix.

In order to achieve the above object, the support jig according to an embodiment of the present invention is inserted into the inner wall of the rubber matrix, is in contact with the inner wall, an outer cylindrical portion for supporting the inner wall; And an inner cylindrical portion inserted into the outer cylindrical portion, in contact with the outer cylindrical portion, and further supporting the inner wall, wherein the outer cylindrical portion, when the inner cylindrical portion is inserted into the outer cylindrical portion, the rubber It may contact the lower wall extending from the inner wall of the matrix and support the lower wall of the rubber matrix.

In the present invention, the outer cylindrical portion, has a cylindrical shape, is in contact with the inner wall outer cylindrical body for supporting the inner wall; A hinge located at the first end of the outer cylindrical body; And it may include at least one support plate that rotates with respect to the axis of the hinge.

In the present invention, the outer cylindrical portion, located at a second end different from the first end of the outer cylindrical body, may further include an outer fixing clasp for fixing the outer cylindrical body to the inner wall.

In the present invention, the inner cylindrical portion, has a cylindrical shape, is in contact with the outer cylindrical portion, the inner cylindrical body further supporting the inner wall; And a wedge structure located at the first end of the inner cylindrical body.

In the present invention, the inner cylindrical portion, located at a second end different from the first end of the inner cylindrical body, may further include an inner fixing clasp for fixing the inner cylindrical body to the outer cylindrical portion.

In the present invention, when the inner cylindrical portion is inserted into the outer cylindrical portion, the wedge structure may push a portion of the at least one support plate.

In the present invention, when the inner cylindrical portion is inserted into the outer cylindrical portion, the wedge structure may be combined with the hinge.

In the present invention, when the inner cylindrical portion is inserted into the outer cylindrical portion, the at least one support plate may be unfolded in a funnel shape.

In the present invention, when the inner cylindrical portion is inserted into the outer cylindrical portion, the at least one support plate may contact the lower wall.

In the present invention, the at least one support plate may include six support plates having a curved surface corresponding to the lower wall.

In order to achieve the above object, a method of supporting a jig according to an embodiment of the present invention includes the steps of inserting an outer cylindrical portion into the inner wall of the rubber matrix; And an inner cylindrical portion being inserted into the outer cylindrical portion, wherein the outer cylindrical portion is in contact with the lower wall extending from the inner wall of the rubber matrix when the inner cylindrical portion is inserted into the outer cylindrical portion. The lower wall of the matrix can be supported.

In the present invention, the outer cylindrical portion is in contact with the inner wall and supports the inner wall, and the inner cylindrical portion is in contact with the outer cylindrical portion and can further support the inner wall.

In the present invention, the outer cylindrical portion, has a cylindrical shape, is in contact with the inner wall outer cylindrical body for supporting the inner wall; A hinge located at the first end of the outer cylindrical body; An outer fixing clasp located at a second end different from the first end of the outer cylindrical body and fixing the outer cylindrical body to the inner wall; And it may include at least one support plate that rotates with respect to the axis of the hinge.

In the present invention, the inner cylindrical portion, has a cylindrical shape, is in contact with the outer cylindrical portion, the inner cylindrical body further supporting the inner wall; A wedge structure located at the first end of the inner cylindrical body; It may be located at a second end different from the first end of the inner cylindrical body, and may include an inner fixing clasp for fixing the inner cylindrical body to the outer cylindrical portion.

In the present invention, when the inner cylindrical portion is inserted into the outer cylindrical portion, the wedge structure may push a portion of the at least one support plate.

The support jig according to an embodiment of the present invention and a method for supporting the same can prevent the expansion deformation of the rubber matrix storing the propellant in a slurry state.

In addition, the support jig according to an embodiment of the present invention and its support method can be easily coupled and separated from the rubber matrix.

The effects obtainable in the present invention are not limited to the above effects, and other effects not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a view showing a binder in the filling process of the propellant according to an embodiment of the present invention.
2 is a cross-sectional view showing a support fixture according to an embodiment of the present invention.
3 is a cross-sectional view showing a rubber matrix according to an embodiment of the present invention.
4A and 4B are cross-sectional views showing an outer cylindrical portion according to an embodiment of the present invention.
5 is a cross-sectional view showing an inner cylindrical portion according to an embodiment of the present invention.
6 is a view showing a method of supporting a jig for a rubber matrix according to an embodiment of the present invention.
7 is a view showing in detail the step of inserting the outer cylindrical portion according to an embodiment of the present invention.
8 is a view showing in detail the step of inserting the inner cylindrical portion according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention and other matters necessary for those skilled in the art to easily understand the contents of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention can be implemented in a variety of different forms within the scope of the claims, so the embodiments described below are merely exemplary, regardless of whether they are expressed.

The same reference numerals refer to the same components. In addition, in the drawings, the thickness, ratio, and dimensions of the components are exaggerated for effective description of technical content. “And/or” can include any combination of one or more that the associated configurations can define.

Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from other components. For example, the first component may be referred to as a second component without departing from the scope of the present invention, and similarly, the second component may be referred to as a first component. Singular expressions may include plural expressions unless the context clearly indicates otherwise.

In addition, terms such as "below", "below", "above", "above", etc. are used to describe the relationship between the components shown in the drawings. The terms are relative concepts and are explained based on the directions indicated in the drawings.

The terms "include" or "have" are intended to indicate the presence of a feature, number, step, operation, component, part, or combination thereof described in the specification, one or more other features, numbers, or steps. It should be understood that it does not preclude the existence or addition possibility of the operation, components, parts or combinations thereof.

That is, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms. In the following description, when a part is connected to another part, it is directly connected. In addition, it may also include a case in which other elements are electrically connected in between. In addition, it should be noted that the same components in the drawings are denoted by the same reference numbers and symbols as possible, even if they are displayed on different drawings.

1 is a view showing a binder 10 in the filling process of the propellant 300 according to an embodiment of the present invention. For convenience of description, in FIG. 1, the assembly 10 is briefly illustrated, but the present invention is not limited thereto.

Referring to FIG. 1, the assembly 10 may include a housing 100, a rubber matrix 200, a propellant 300, and a support fixture 400. In addition, a central portion 500 that is an empty space may be formed in the center of the coupling body 10 of the propellant 300.

The housing 100 may protect components of the assembly 10 in the filling process of the propellant 300 from the outside. In addition, the housing 100 contacts the outer wall of the rubber matrix 200 and can support the outer wall of the rubber matrix 200. Depending on the embodiment, the housing 100 may be omitted from the assembly 10 in the filling process of the propellant 300.

The rubber matrix 200 may store the propellant 300. For example, the propellant 300 may be filled into the interior space of the rubber matrix 200. The rubber matrix 200 may be made of a material having elasticity so that the propellant 300 is filled. Depending on the embodiment, the rubber matrix 200 may be made of natural rubber or synthetic rubber. However, the present invention is not limited thereto, and a rubber material having elasticity to achieve the object of the present invention can be applied to the rubber matrix 200 of the present invention.

The propellant 300 may be stored in the interior space of the rubber matrix 200. For example, the propellant 300 may be filled along the first direction D1 in the interior space of the rubber matrix 200 in a slurry state. Then, after the propellant 300 is filled, the propellant 300 in a slurry state may be cured over time.

The support jig 400 is disposed inside the inner wall of the rubber matrix 200 and can support the rubber matrix 200. That is, in the filling process in which the propellant 300 is filled into the inner space of the rubber matrix 200, in order to prevent the expansion deformation of the rubber matrix 200 due to the weight of the propellant 300, the support jig 400 is rubber It is disposed inside the inner wall of the matrix 200, and the rubber matrix 200 can be supported therein.

2 is a cross-sectional view showing a support fixture 400 according to an embodiment of the present invention. For convenience of description, in FIG. 2, the rubber matrix 200 and the propellant 300 are shown together with the support fixture 400.

In Fig. 2, a cross section of the support fixture 400 along the straight line I1-I1' shown in Fig. 1 is shown.

Referring to FIG. 2, the support jig 400 may include an outer cylindrical portion 410 and an inner cylindrical portion 420.

The outer cylindrical portion 410 may be inserted into the inner wall of the rubber matrix 200. Accordingly, the inserted outer cylindrical portion 410 may contact the inner wall of the rubber matrix 200. The outer cylindrical portion 410 may support the inner wall of the rubber matrix 200. For example, the outer cylindrical portion 410 may prevent expansion deformation of the rubber matrix 200 by supporting the inner wall of the rubber matrix 200 when the propellant 300 is filled into the inner space of the rubber matrix 200. have.

In addition, the outer cylindrical portion 410 may support the lower wall of the rubber matrix 200 through a support plate located on one side. For example, the outer cylindrical portion 410 may prevent expansion deformation of the rubber matrix 200 by supporting the lower wall of the rubber matrix 200 when the propellant 300 is filled into the inner space of the rubber matrix 200. have. Details related to this will be described in detail in FIGS. 4A to 8.

The inner cylindrical portion 420 may be inserted into the outer cylindrical portion 410. Accordingly, the inserted inner cylindrical portion 420 may contact the outer cylindrical portion 410. The inner cylindrical portion 420 may further support the inner wall of the rubber matrix 200 by supporting the outer cylindrical portion 410 from the inside.

The inner cylindrical portion 420 may be combined with the outer cylindrical portion 410 through a wedge structure located on one side. In addition, the inner cylindrical portion 420 may rotate a portion of the supporting plate based on the hinge by pushing a portion of the supporting plate of the outer cylindrical portion 410 through the wedge structure. Accordingly, the rotated support plate may contact the lower wall of the rubber matrix 200. As a result, the outer cylindrical portion 410 can support the lower wall of the rubber matrix 200. Details related to this will be described in detail in FIGS. 4A to 7.

3 is a cross-sectional view showing a rubber matrix 200 according to an embodiment of the present invention.

Referring to FIG. 3, the rubber matrix 200 may include an inner wall 201, a lower wall 202 and an outer wall 203.

The inner wall 201 may have a cylindrical shape. According to an embodiment, the length along the first direction D1 of the inner wall 201 may be set shorter than the length along the first direction D1 of the outer wall 203. At this time, the first direction D1 may indicate the height direction of the cylinder.

The lower wall 202 may have an inclined donut shape. That is, the lower wall 202 may have a shape of a portion of a conical fan-shaped surface. For example, the lower wall 202 may have an area closer to the inner wall 201 and a higher height than an area closer to the outer wall 203. Here, the height refers to a length along the first direction D1, and may mean that the height is higher toward the opposite direction to the first direction D1.

The lower wall 202 may have a structure extending from the inner wall 201 and the outer wall 203. The lower wall 202 is disposed between the inner wall 201 and the outer wall 203, and connects the inner wall 201 and the outer wall 203 to make the rubber matrix 200 together with the inner wall 201 and the outer wall 203. It can be implemented integrally.

The outer wall 203 may have a cylindrical shape. According to an embodiment, the upper surface of the outer wall 203 may be set higher than the upper surface of the inner wall 201. Further, the lower surface of the outer wall 203 may be set lower than the lower surface of the inner wall 201.

The inner space defined by the inner wall 201, the lower wall 202, and the outer wall 203 of the rubber matrix 200 is filled with the propellant 300 shown in FIG. 2 and may be stored by curing.

4A and 4B are cross-sectional views illustrating an outer cylindrical portion 410 according to an embodiment of the present invention.

2, 3, 4A and 4B, the outer cylindrical portion 410 includes an outer cylindrical body 411, an outer fixing clasp 412, a hinge 413, and at least one support plate 414 can do.

The outer cylindrical body 411 may have a cylindrical shape. The outer cylindrical body 411 contacts the inner wall of the rubber matrix 200 and can support the inner wall 201 of the rubber matrix 200.

The outer fixing clasp 412 may be located at the first end of the outer cylindrical body 411. For example, the first end may mean the upper end of the outer cylindrical body 411. The external fixing clasp 412 may refer to a clasp portion extending from the outer cylindrical body 411 in the outer direction. The outer fixing clasp 412 can fix the outer cylindrical body 411 to the inner wall 201 of the rubber matrix 200. For example, the outer fixing clasp 412 may be engaged with the upper surface of the inner wall 201 of the rubber matrix 200 while locking and fixing the outer cylindrical body 411 to the rubber matrix 200.

The hinge 413 may be located at a second end different from the first end of the outer cylindrical body 411. For example, the second end may mean the lower end of the outer cylindrical body 411. The hinge 413 may hinge the outer cylindrical body 411 and the support plate 414 with each other. The hinge 413 includes a hinge axis, and may be formed in a structure that can be combined with a wedge structure.

At least one support plate 414 may be coupled to the outer cylindrical body 411 through the hinge 413. For example, the at least one support plate 414 may rotate with respect to the hinge 413.

As shown in FIG. 4B, the at least one support plate 414 may include six support plates each having a curved surface corresponding to the lower wall 202. However, the present invention is not limited thereto, and according to an embodiment, at least one support plate 414 may include one or more to five or less or seven or more support plates.

At least one support plate 414 is rotated relative to the hinge 413 as an external force is applied, so that one surface contacts the lower wall 202 of the rubber matrix 200 and can support the lower wall 202. have.

As shown in FIG. 4B, the at least one support plate 414 may have a shape corresponding to the bottom surface of the lower wall 202 having a shape of a portion of a conical fan-shaped surface. That is, the at least one support plate 414 is formed to have a curved surface corresponding to the lower wall 202, and thus can be in full contact with the bottom surface of the lower wall 202.

5 is a cross-sectional view showing an inner cylindrical portion 420 according to an embodiment of the present invention.

2 to 5, the inner cylindrical portion 420 may include an inner cylindrical body 421, an inner fixing clasp 422, and a wedge structure 423.

The inner cylindrical body 421 may have a cylindrical shape. The inner cylindrical body 421 contacts the outer cylindrical portion 410 and may further support the inner wall 201 of the rubber matrix 200.

The inner fixing clasp 422 may be located at the first end of the inner cylindrical body 421. For example, the first end may mean an upper end portion of the inner cylindrical body 421. The inner fixing clasp 422 may mean a clasp portion extending from the inner cylindrical body 421 to the outside. The inner fixing clasp 422 may fix the inner cylindrical body 421 to the outer cylindrical portion 410. For example, the inner fixing clasp 422 may be locked to the outer cylindrical portion 410 while being in contact with the upper surface of the outer cylindrical portion 410.

The wedge structure 423 may be located at a second end different from the first end of the inner motive body 421. For example, the second end may mean the lower end of the inner cylindrical body 421. The wedge structure 423 may be combined with the hinge 413 of the outer cylindrical portion 410.

Wedge structure 423 is coupled to the hinge 413, it is possible to push a portion of the at least one support plate (414). Accordingly, the at least one support plate 414 is rotated relative to the hinge 413, so that one surface is in contact with the lower wall 202 of the rubber matrix 200 and can support the lower wall 202.

According to an embodiment, the at least one support plate 414 rotated may be unfolded in a funnel shape.

6 is a view showing a method of supporting the support jig 400 for the rubber matrix 200 according to an embodiment of the present invention. 7 is a view showing in detail the step (S10) of inserting the outer cylindrical portion 410 according to an embodiment of the present invention. 8 is a view showing in detail the step (S20) of inserting the inner cylindrical portion 420 according to an embodiment of the present invention.

1 to 8, the support method of the support jig 400 for the rubber matrix 200 includes the steps of inserting the outer cylindrical portion 410 (S10) and inserting the inner cylindrical portion 420 ( S20).

First, the outer cylindrical portion 410 of the support jig 400 may be inserted along the first direction D1 into the inner wall 201 of the rubber matrix 200 (S10).

The outer cylindrical portion 410 may contact the inner wall 201 of the rubber matrix 200 and support the inner wall 201. At this time, the outer cylindrical portion 410 may be fixed to the rubber matrix 200 through the outer fixing clasp 412. That is, the outer cylindrical portion 410 is not further inserted in the first direction D1 through the outer fixing clasp 412 hanging on the upper surface of the inner wall 201 of the rubber matrix 200, and can be fixed at a desired position. have.

Next, the inner cylindrical portion 420 of the support jig 400 may be inserted along the first direction D1 into the outer cylindrical portion 410 (S20).

The inner cylindrical portion 420 is in contact with the outer cylindrical portion 410, and may further support the inner wall 201. At this time, the inner cylindrical portion 410 may be fixed to the outer cylindrical portion 410 through the inner fixing clasp 422. That is, the inner cylindrical portion 420 may be fixed to a desired position without further inserting the first direction D1 through the inner fixing clasp 422 that is caught on the upper surface of the outer cylindrical portion 410.

In addition, the wedge structure 423 of the inner cylindrical portion 420 may be combined with the hinge 413 of the outer cylindrical portion 410. Wedge structure 423 is coupled to the hinge 413, it is possible to push a portion of the at least one support plate (414). Accordingly, the at least one support plate 414 is rotated relative to the hinge 413, so that one surface is in contact with the lower wall 202 of the rubber matrix 200 and can support the lower wall 202.

Through the above-described method, the support jig according to the embodiment of the present invention and its support method can prevent the expansion deformation of the rubber matrix storing the propellant in a slurry state.

In addition, the support jig according to an embodiment of the present invention and its support method can be easily coupled and separated from the rubber matrix.

In the above, it has been described with reference to preferred embodiments of the present invention, but those skilled in the art or those of ordinary skill in the art will depart from the spirit and technical scope of the present invention described in the claims below. It will be understood that various modifications and changes may be made to the present invention without departing from the scope.

Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification, but should be defined by the claims.

10: conjugate
100: housing
200: rubber matrix
300: propellant
400: support fixture
410: external cylindrical portion
420: internal cylindrical portion
500: center

Claims (15)

An outer cylindrical portion inserted into the inner wall of the rubber matrix, in contact with the inner wall and supporting the inner wall; And
It is inserted into the outer cylindrical portion, and includes an inner cylindrical portion in contact with the outer cylindrical portion and further supporting the inner wall,
The outer cylindrical portion, when the inner cylindrical portion is inserted into the outer cylindrical portion, a support fixture characterized in that it contacts the lower wall extending from the inner wall of the rubber matrix and supports the lower wall of the rubber matrix. According to claim 1,
The outer cylindrical portion,
An outer cylindrical body having a cylindrical shape and contacting the inner wall and supporting the inner wall;
A hinge located at the first end of the outer cylindrical body; And
Support jig, characterized in that it comprises at least one support plate that rotates with respect to the axis of the hinge. According to claim 2,
The outer cylindrical portion,
Supporting fixture, characterized in that it further comprises an external fixing clasp which is located at a second end different from the first end of the outer cylindrical body, and which fixes the outer cylindrical body to the inner wall. According to claim 2,
The inner cylindrical portion,
An inner cylindrical body having a cylindrical shape and contacting the outer cylindrical portion and further supporting the inner wall; And
And a wedge structure located at the first end of the inner cylindrical body. According to claim 4,
The inner cylindrical portion,
And a second fixing end located at a second end different from the first end of the inner cylindrical body, and further comprising an inner fixing clasp for fixing the inner cylindrical body to the outer cylindrical portion. According to claim 4,
When the inner cylindrical portion is inserted into the outer cylindrical portion, the support fixture, characterized in that the wedge structure pushes a portion of the at least one support plate. According to claim 4,
When the inner cylindrical portion is inserted into the outer cylindrical portion, the support jig, characterized in that the wedge structure is coupled to the hinge. According to claim 4,
When the inner cylindrical portion is inserted into the outer cylindrical portion, the support fixture, characterized in that the at least one support plate is expanded in a funnel shape. According to claim 4,
When the inner cylindrical portion is inserted into the outer cylindrical portion, the at least one support plate is in contact with the lower fixture. According to claim 4,
The at least one support plate, characterized in that it comprises six support plates having a curved surface corresponding to the lower wall. The outer cylindrical portion is inserted into the inner wall of the rubber matrix; And
Including the step of inserting the inner cylindrical portion of the outer cylindrical portion,
The outer cylindrical portion, when the inner cylindrical portion is inserted into the outer cylindrical portion, contacting the lower wall extending from the inner wall of the rubber matrix and supporting the support jig, characterized in that for supporting the lower wall of the rubber matrix. The method of claim 11,
The outer cylindrical portion is in contact with the inner wall and supports the inner wall,
The inner cylindrical portion is in contact with the outer cylindrical portion, the supporting method of the support fixture, characterized in that further supporting the inner wall. The method of claim 12,
The outer cylindrical portion,
An outer cylindrical body having a cylindrical shape and contacting the inner wall and supporting the inner wall;
A hinge located at the first end of the outer cylindrical body;
An outer fixing clasp located at a second end different from the first end of the outer cylindrical body and fixing the outer cylindrical body to the inner wall; And
And at least one support plate that rotates with respect to the axis of the hinge. The method of claim 13,
The inner cylindrical portion,
An inner cylindrical body having a cylindrical shape and contacting the outer cylindrical portion and further supporting the inner wall;
A wedge structure located at the first end of the inner cylindrical body;
And an inner fixing clasp positioned at a second end different from the first end of the inner cylindrical body and fixing the inner cylindrical body to the outer cylindrical portion. The method of claim 14,
When the inner cylindrical portion is inserted into the outer cylindrical portion, the method of supporting a jig, characterized in that the wedge structure pushes a portion of the at least one support plate.

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