KR20210039229A - Accumulator - Google Patents

Abstract

The present invention discloses an assembly type accumulator. The disclosed assembly type accumulator comprises: a housing in which a gas filling space unit is provided therein; a cylinder movably installed in the housing and moved in accordance with a change in inner pressure; a bottom flange formed of a material same as the housing and assembled to the housing the seal the housing; and a hydraulic fluid sealing unit having a dual sealing structure to seal a portion between the cylinder and the bottom flange. Accordingly, the assembly type accumulator can be lightweight and can stably maintain balanced pressure inside the housing in accordance with an operation of a piston by manufacturing the housing filled with gas and the bottom flange assembled to seal the housing with titanium (Ti) and coupling the housing and the bottom flange to each other in an assembly manner.

Description

Assembly accumulator {ACCUMULATOR}

The present invention relates to a prefabricated accumulator, and more specifically, a housing filled with gas and a bottom flange assembled to seal the housing are each made of titanium (Ti), and the piston is operated while reducing the weight by prefabricating it. It relates to a prefabricated accumulator capable of stably maintaining the pressure balance inside the housing according to the.

In general, a high-pressure injection system is used to inject the fuel used at high pressure in a driving device or a launch vehicle using an engine, and an accumulator that accumulates the fuel at high pressure in the high-pressure injection system and guides the fuel to the combustion chamber through an injection valve. Is installed.

This accumulator is a device that stores pressure to protect hydraulic devices by absorbing pulsating pressure or impact pressure, or to supply instantaneous hydraulic pressure to hydraulic devices without operating the hydraulic pump. It is installed in the hydraulic pipe to reduce the pulsation of the hydraulic pressure in the hydraulic pipe and to secure control precision.

That is, the accumulator stores pressure and instantly supplies fluids of various flow rates to a hydraulic system, or is applied to a hydraulic system in which a hydraulic pump or a compressor is used, and is used to absorb pulsating pressure or impact pressure to protect the hydraulic system.

In addition, accumulators can be classified into piston-type accumulators, bladder-type accumulators, and resonator-type accumulators, etc., depending on their structure, and enlargement is essential when used in aviation systems such as launch vehicles.

However, when the accumulator of the prior art as described above is manufactured in a large size, its weight is increased, and since the components are joined through welding, durability is remarkably deteriorated.

Therefore, there is a need to improve this.

On the other hand, Korean Patent Registration No. 10-0618204 (Registration Date: 2006.08.23) discloses "accumulator using double bellows".

The present invention was created by the above necessity, and the gas-filled housing and the bottom flange that seals the housing are each made of titanium (Ti), and then assembled in a prefabricated manner to reduce the weight and simplify the manufacturing process. It is an object of the present invention to provide a prefabricated accumulator capable of improving the durability of the bellows by stably maintaining the pressure balance inside the housing according to the operation of the piston.

In order to achieve the above object, the assembly type accumulator according to an aspect of the present invention includes a housing having a gas filling space therein, and is movably installed inside the housing, and moves according to a change in the internal pressure of the housing. And a bottom flange formed of the same material as the housing and assembled to the housing to seal the housing, and a hydraulic oil sealing part sealing between the cylinder and the bottom flange in a double sealing structure. do.

In addition, in the present invention, the housing is formed of titanium (Ti) so that a gas port for inflow and discharge of gas is formed in the center of the upper end, and the bottom flange is assembled by opening the lower end.

In addition, in the present invention, the bottom flange is formed of titanium (Ti) so that a hydraulic oil port for inflow and discharge of hydraulic oil is formed in the central portion, and the housing is screwed.

In addition, in the present invention, the hydraulic oil sealing part is coupled between the bottom flange and the cylinder to expand and contract according to the movement of the cylinder, and an operation sealing member sealing between the bottom flange and the cylinder, and the bottom flange and the cylinder are It characterized in that it comprises a contact sealing member for sealing the contact portion between the cylinder and the bottom flange so as to attenuate the pressure transmitted to the operating sealing member according to the contact.

In addition, in the present invention, the operation sealing member includes a first fixing ring coupled to the cylinder, a second fixing ring coupled to the bottom flange, one end fixed to the first fixing ring, and the other end fixed to the second fixing ring. It characterized in that it comprises a bellows fixed to the ring.

In addition, in the present invention, the operation sealing member further includes an auxiliary sealing member sealing between the first fixing ring and the bottom flange.

In addition, in the present invention, the auxiliary sealing member includes an auxiliary O-ring member coupled to one of the second fixing ring and the bottom flange, and the second fixing ring and the other one of the bottom flange so as to be in contact with the auxiliary O-ring member. It characterized in that it comprises a secondary sealing surface to be formed.

In addition, in the present invention, the contact sealing member includes an O-ring member coupled to one of the bottom flange and the cylinder, and a sealing protrusion protruding from the other of the bottom flange and the cylinder so as to contact the O-ring member. It is characterized by that.

As described above, the prefabricated accumulator according to one aspect of the present invention has a housing and cylinder double sealing structure unlike the prior art, so that not only can the sealing effect be improved, but also the hydraulic oil sealing portion is It has the effect of preventing damage.

In addition, in the prefabricated accumulator according to the present invention, since the housing and the bottom flange sealing the housing are made of titanium (Ti) and are coupled by a screw assembly method, the weight can be reduced as well as the manufacturing and assembly process can be simplified. It has an effect that can be.

In addition, the prefabricated accumulator according to the present invention has an effect of improving durability by reducing the transfer of the operating pressure generated by the operation of the piston to the compressed bellows.

1 is an exploded perspective view illustrating an assembly type accumulator according to an embodiment of the present invention.
2 is a perspective view for explaining a prefabricated accumulator according to an embodiment of the present invention.
3 is a partial cross-sectional perspective view for explaining a prefabricated accumulator according to an embodiment of the present invention.
4 is a cross-sectional view illustrating a prefabricated accumulator according to an embodiment of the present invention.
5 is an enlarged view of a main part for explaining a hydraulic oil sealing part according to an embodiment of the present invention.

Hereinafter, a preferred embodiment of the prefabricated accumulator according to the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of components shown in the drawings may be exaggerated for clarity and convenience of description.

In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of users or operators. Therefore, definitions of these terms should be made based on the contents throughout the present specification.

1 is an exploded perspective view for explaining a prefabricated accumulator according to an embodiment of the present invention, Figure 2 is a perspective view for explaining the prefabricated accumulator according to an embodiment of the present invention, Figure 3 is an embodiment of the present invention It is a partial cross-sectional perspective view for explaining the assembly type accumulator according to the embodiment.

In addition, FIG. 4 is a cross-sectional view illustrating a prefabricated accumulator according to an embodiment of the present invention, and FIG. 5 is an enlarged view illustrating a hydraulic oil sealing part according to an embodiment of the present invention.

The prefabricated accumulator 100 according to an embodiment of the present invention with reference to FIGS. 1 to 5 is applied to the fuel or hydraulic system of a launch vehicle and an aircraft to prevent damage to parts due to operating pressure while instantaneously reducing fuel and hydraulic pressure. Will be supplied.

The prefabricated accumulator 100 according to the present embodiment includes a housing 110 for storing pressure, a cylinder 120 movably installed in the housing 110, and a bottom sealing the housing 110. It includes a flange 130 and a hydraulic oil sealing portion 140 for sealing the inside of the housing 110.

The housing 110 is divided into a gas filling space 111 and a hydraulic oil receiving space 113 according to the insertion of the cylinder 120, and as the cylinder 120 moves therein, the gas filling space 111 and the As the volume of the hydraulic oil accommodation space 113 is varied, the pressure is adjusted.

The upper end of the housing 110 is formed in a semicircular shape, the lower surface is opened to form an accommodation space, and the bottom flange 130 is screwed to the inner surface of the open lower end to be coupled. At this time, a female thread is formed on the inner surface of the lower end of the housing 110 to assemble the bottom flange 130.

In addition, the housing 110 has a gas port 115 for introducing and discharging gas at the center of the upper end thereof.

In particular, the housing 110 is formed of titanium (Ti) so as to reduce the weight and improve the bonding force of the bottom flange 130.

The bottom flange 130 is formed of titanium (Ti), which is the same material as the housing 110, and is assembled and fixed on the inner surface of the lower end of the housing 110. The bottom flange 130 has a male screw portion formed on the outer surface of the bottom flange 130 so as to be fastened to the female screw portion of the housing 110.

In addition, the bottom flange 130 has a hydraulic oil port 131 for introducing and discharging hydraulic oil in a central portion, and a portion assembled with the housing 110 is stably sealed by the hydraulic oil sealing part 140.

In particular, the bottom flange 130 according to the present embodiment is the hydraulic oil sealing part 140 by the flow pressure of the hydraulic oil discharged from the hydraulic oil receiving space 113 to the hydraulic oil port 131 as the cylinder 120 descends. The hydraulic oil first guide surface 133 is formed to prevent damage.

The hydraulic oil first guide surface 133 is formed to have a curvature so as to attenuate the transfer of the flow pressure to the portion where the hydraulic oil sealing part 140 is coupled.

The cylinder 120 is installed to be movable inside the housing 110 and moves up and down in the cylinder 120 according to the pressure change of the hydraulic oil flowing into and discharged from the hydraulic oil receiving space 113. The cylinder 120 is formed in a semicircular shape so that its outer circumferential surface is in contact with the inner surface of the housing 110, and the lower surface thereof is selectively contacted with the upper surface of the bottom flange 130 as it moves.

In addition, in the cylinder 120, the guide contact portion 121 is extended from the outer circumferential surface so that the hydraulic oil sealing portion 140 is stably installed and moved in the housing 110, and the housing 110 and the guide contact portion 121 Bushing-type pressure ring 123 for sealing of is combined.

In addition, the cylinder 120 is formed to have a curvature on the lower outer surface of the hydraulic oil second guiding surface 125 to guide the discharge of the hydraulic oil in correspondence with the hydraulic oil first guiding surface 133.

The hydraulic oil sealing part 140 prevents the hydraulic oil flowing into the hydraulic oil accommodation space 113 from leaking between the housing 110 and the bottom flange 130, as well as the hydraulic oil discharged from the hydraulic oil receiving space part 113 to mutually It prevents leakage between the cylinder 120 and the bottom flange 130 in contact. That is, the hydraulic oil sealing unit 140 is configured in a double sealing structure of different types, so that it seals the cylinder 120 and the bottom flange 130 stably and tightly.

Specifically, the hydraulic oil sealing unit 140 includes an operating sealing member 141 for sealing between the cylinder 120 and the bottom flange 130 when the cylinder 120 is moved, and the cylinder 120 and the bottom flange 130 in contact with each other. ) And a contact sealing member 143 for sealing between.

The operating sealing member 141 expands and contracts according to the movement of the cylinder 120 to prevent the hydraulic oil flowing into and out of the hydraulic oil receiving space 113 from leaking to the assembly portion of the housing 110 and the bottom flange 130. do.

To this end, the operating sealing member 141 includes a first fixing ring 141a coupled to the guide contact portion 121 of the cylinder 120, a second fixing ring 141b coupled to the bottom flange 130, an upper end, and An auxiliary sealing member 145 for sealing between the lower end portion of the bellows 141c coupled to the first fixing ring 141a and the second fixing ring 141b, and the second fixing ring 141b and the bottom flange 130 Includes.

The second fixing ring 141b is formed in a ring shape and is coupled to the bottom flange 130 in a screw-fastening manner.

The bellows 141c has an upper end fixed to the first fixing ring 141a and a lower end fixed to the second fixing ring 141b, and is formed of metal to ensure sufficient durability. This bellows (141c) is expanded and contracted according to the movement of the cylinder (120).

The auxiliary sealing member 145 includes an auxiliary O-ring member 145a and an auxiliary sealing surface 145b to seal between the second fixing ring 141b and the bottom flange 130. The auxiliary O-ring member 145a is inserted into and coupled to the auxiliary O-ring groove 145c formed in one of the second fixing ring 141b and the bottom flange 130, and is in close contact with the auxiliary sealing surface 145b.

The auxiliary sealing surface 145b is formed on the other of the second fixing ring 141b and the bottom flange 130 so that the auxiliary O-ring member 145a is in close contact.

For example, in the auxiliary sealing member 145, the auxiliary sealing surface 145b is formed on the upper edge of the bottom flange 130, and the auxiliary O-ring groove 145c is formed on the auxiliary sealing surface 145b, so that the auxiliary O-ring member ( 145a) is combined.

The contact sealing member 143 is formed of the cylinder 120 and the bottom flange 130 to attenuate the pressure transmitted to the bellows 141c of the operating sealing member 141 as the cylinder 120 is in contact with the bottom flange 130. The contact area is sealed.

To this end, the contact sealing member 143 includes an O-ring member 143a coupled to one of the bottom flange 130 and the cylinder 120, and the bottom flange 130 and the cylinder 120 so as to be in contact with the O-ring member 143a. It includes a sealing protrusion (143b) protruding from the other one. In addition, the contact sealing member 143 has an O-ring fixing groove 143c formed in one of the bottom flange 130 and the sealing protrusion 143b so that the O-ring member 143a is stably inserted and fixed.

For example, in the contact sealing member 143, the sealing protrusion 143b protrudes from the lower surface of the cylinder 120, and the O-ring fixing groove 143c is formed on the upper surface of the bottom flange 130 to which the sealing protrusion 143b contacts. Is formed.

In the prefabricated accumulator 100 according to the present invention configured as described above, the O-ring member 143a of the sealing protrusion 143b contacts the bottom flange 130 as the cylinder 120 moves to the lower side of the housing 110. As it seals between the cylinder 120 and the bottom flange 130, it is possible to prevent leakage of hydraulic oil. That is, since the hydraulic oil in the hydraulic oil accommodation space 113 can be completely isolated, the reliability of the product can be improved.

In addition, the prefabricated accumulator 100 according to the present invention includes a hydraulic oil first guiding surface 133 formed on the upper surface of the bottom flange 130 and a hydraulic oil second guiding surface 125 formed on the outer surface of the cylinder 120. By guiding the discharge of the hydraulic oil discharged from the hydraulic oil receiving space 113 to the hydraulic oil port 131, it is possible to attenuate the transfer of the operating pressure to the contracted bellows 141c according to the discharge of the hydraulic oil. Therefore, it is possible to prevent the bellows (141c) from being damaged by the operating pressure.

In addition, in the prefabricated accumulator 100 according to the present invention, since the cylinder 120 and the bottom flange 130 are sealed through a double sealing structure, not only can the sealing effect be improved, but also the housing 110 and the housing ( Since the bottom flange 130 sealing 110) is made of the same titanium (Ti) and coupled by a screw assembly method, the weight can be reduced, and the housing 110 and the bottom flange 130 can be easily assembled. .

In addition, the prefabricated accumulator according to the present invention has an effect of improving durability by reducing the transfer of the operating pressure generated by the operation of the piston to the compressed bellows.

The present invention has been described with reference to the embodiments shown in the drawings, but these are only exemplary, and those of ordinary skill in the field to which the technology pertains, various modifications and other equivalent embodiments are possible. I will understand.

Therefore, the true technical protection scope of the present invention should be determined by the claims.

100: prefabricated accumulator 110: housing
111: gas filling space part 113: hydraulic oil accommodation space part
115: gas port 120: cylinder
121: guide contact part 123: pressure ring
125: hydraulic oil second guide surface 130: support flange
131: hydraulic oil port 133: hydraulic oil first guide surface
140: hydraulic oil sealing portion 141: operating sealing member
141a: first fixing ring 141b: second fixing ring
141c: bellows 143: contact sealing member
143a: O-ring member 143b: sealing protrusion
143c: O-ring fixing groove 145: auxiliary sealing member
145a: auxiliary O-ring member 145b: auxiliary sealing surface
145c: auxiliary O-ring groove

Claims (6)

A housing having a gas filling space therein;
A cylinder installed to be movable inside the housing and moving according to a change in internal pressure of the housing;
A bottom flange formed of the same material as the housing and assembled to the housing to seal the housing; And
A hydraulic oil sealing part sealing between the cylinder and the bottom flange in a double sealing structure;
Prefabricated accumulator comprising a.
The method of claim 1,
The housing is formed of titanium (Ti) so that a gas port is formed at the center of the upper end for inflow and discharge of gas, and the lower end is opened to assemble the bottom flange,
The bottom flange is formed of titanium (Ti), a hydraulic oil port for introducing and discharging hydraulic oil is formed at a central portion, and the housing is screwed into the assembly type accumulator.
The method according to claim 1 or 2,
The hydraulic oil sealing unit may include an operating sealing member coupled between the bottom flange and the cylinder, expanding and contracting according to the movement of the cylinder, and sealing between the bottom flange and the cylinder; And
A contact sealing member sealing a contact portion between the cylinder and the bottom flange so as to attenuate the pressure transmitted to the operation sealing member as the bottom flange and the cylinder are in contact;
Prefabricated accumulator comprising a.
The method of claim 3,
The operation sealing member may include a first fixing ring coupled to the cylinder;
A second fixing ring coupled to the bottom flange; And
A bellows having one end fixed to the first fixing ring and the other end fixed to the second fixing ring;
Prefabricated accumulator comprising a.
The method of claim 4,
The operation sealing member further includes an auxiliary sealing member sealing between the second fixing ring and the bottom flange,
The auxiliary sealing member may include an auxiliary O-ring member coupled to one of the second fixing ring and the bottom flange; And
An auxiliary sealing surface formed on the other of the second fixing ring and the bottom flange to contact the auxiliary O-ring member;
Prefabricated accumulator comprising a.
The method of claim 3,
The contact sealing member may include an O-ring member coupled to one of the bottom flange and the cylinder; And
A sealing protrusion protruding from the other one of the bottom flange and the cylinder so as to be in contact with the O-ring member;
Prefabricated accumulator comprising a.

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