KR101124921B1 - Membrane accumulator - Google Patents

Abstract

PURPOSE: A membrane type accumulator is provided to firmly couple upper and lower cases by inserting bolts into coupling holes formed in the upper and lower cases. CONSTITUTION: A membrane type accumulator comprises an upper case(10), a lower case(20), a membrane(30), and a ring member(40). The upper case has male threads(16) on the exterior surface thereof. The lower case has female threads on the interior surface thereof to be coupled with the upper case. The membrane is fitted into a space(22) of the lower case and defines the spaces of the upper and lower cases. The ring member is located between the bottom of the upper case and the membrane and has one or more protrusions(42). One or more fitting grooves(44) corresponding to the protrusions of the ring member are formed on the interior surface of the lower case.

Description

Membrane accumulator

The present invention relates to a membrane-type accumulator, and more particularly, to a membrane-type accumulator, which enhances the coupling force between the upper case and the lowcase, and also allows the membrane to be positioned in place without being oriented in one direction during the fastening process. .

In general, when the hydraulic pressure is generated in the fluid by the operation of the hydraulic pump, such as a hydraulic generator, the fluid is delivered along the hydraulic line. By the way, the fluid moving along the hydraulic line is rapidly changed in the hydraulic pressure by the operation of the pulsating wave, the hydraulic pump or the control valve, such that the hydraulic pressure is rapidly changed, causing failure or breakage of the hydraulic device or hydraulic line.

In other words, when the kinetic energy to be transmitted to the hydraulic system changes the hydraulic pressure momentarily, this energy is changed to the pressure energy instantaneously. The sudden change in the hydraulic pressure of the fluid causes damage to the hydraulic system or the hydraulic line. Accumulators are constructed in hydraulic equipment to protect hydraulic lines and hydraulic devices in response to changes.

These accumulators are generally classified into spring loaded, gas oil, bladder and membrane types.

Here, the membrane-type accumulator is provided with a membrane having elasticity therein, and buffers the hydraulic change through the deformation of the membrane.

The prior art related to the membrane accumulator may be exemplified by Korean Patent Application Publication No. 10-2009-0010550.

The prior art includes an upper body in which an injection hole is formed, a lower body in which a fluid connector is formed and coupled to the upper body to seal the inside, and a membrane disposed between the upper body and the lower body, wherein the membrane is Formed from H-NBR material is the technical gist.

However, the prior art has a disadvantage in that the replacement of the membrane is impossible because the lower body and the upper body cannot be separated from each other by forming a body by welding the lower body and the upper body by welding. .

Prior art literature

Document 1: Korean Patent Office Publication No. 10-2009-0010550

SUMMARY OF THE INVENTION An object of the present invention for solving the above problems is to provide a membrane-type accumulator which allows the membrane to be positioned in place without being squeezed in one direction in the process of screwing the upper case and the low case. .

Another technical problem to be achieved by the present invention is to provide a membrane-type accumulator to increase the coupling force between the upper case and the low case.

The present invention for achieving the above object is an upper case formed with a male thread along the outer circumferential surface, and an internal thread formed for screwing the male thread of the upper case along the inner circumferential surface is screwed to the upper case and screwed. In the membrane-type accumulator comprising a membrane that fits into the inner space of the low case and the low case and partitions the space between the upper case and the low case, a ring member is located between the lower end of the upper case and the membrane, At least one protrusion is formed on an outer surface of the ring member, and at least one fitting groove for fitting the protrusion of the ring member is formed on an inner circumferential surface of the row case.

At least one fastening hole is formed on the outer surface of the upper case and the low case to connect vertically to each other, and a bolt is inserted into the fastening hole so as to be screwed.

The present invention forms a fastening hole in the upper case and the lower case which are screwed to each other, and inserts the bolt into the fastening hole to re-couple the upper case and the low case to slip between the upper case and the low case in use. It creates a working effect that can maintain a firm coupling state.

In addition, the present invention by inserting a ring member between the upper case and the membrane to block the direct contact between the upper case and the membrane in the process of fastening the upper case to the low case to accurately fix in place without distortion of the membrane to make a stable vertical movement Implement an effect that can be induced to lose.

1 is an exploded three-dimensional view of the configuration of a membrane accumulator according to a preferred embodiment of the present invention.
FIG. 2 shows a cross section of FIG. 1; FIG.
3 is a view showing a partial extract of the main configuration of FIG.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings. In the following detailed description, exemplary embodiments of the present invention will be described in order to accomplish the above-mentioned technical problems. And other embodiments that can be presented with the present invention are replaced by the description in the configuration of the present invention.

1 is a three-dimensional view showing the configuration of a membrane accumulator according to the present invention, Figure 2 is a view showing a cross section of the membrane accumulator shown in FIG.

As shown in FIG. 1 and FIG. 2, the membrane accumulator 100 of the present invention is provided with at least one on a fluid conduit (not shown). The upper case 10 and the low case 20 are largely installed. ) And the membrane 30.

The upper case 10 has a hemispherical shape and a space 12 is formed therein, and a lower end thereof is opened. The gas inlet 14 for injecting gas into the inner space 12 of the upper case 10 is formed at the center of the upper end of the upper case 10.

In addition, a male screw thread 16 is formed on the outer circumferential surface of the upper case 10, and the male screw thread 16 is screwed to the female screw thread 26 formed on the inner circumferential surface of the low case 20, and the upper case. 10 is fixed to the low case 20.

The lower case 20 is located below the upper case 10, and has a hemispherical shape with a space 22 formed therein, and an upper end thereof is opened. The fluid inlet 24 is formed at the center of the lower end of the low case 20 so that the fluid flowing through the fluid pipe may be injected into the inner space 22 of the low case 20.

A female thread 26 is formed on the inner circumferential surface of the low case 20, and the female thread 26 is screwed with the male screw thread 16 formed on the outer circumferential surface of the upper case 10. The case 10 and the row case 20 are fastened to each other to form one case.

The membrane 30 partitions the upper case 10 and the inner spaces 12 and 22 of the low case 20 which are fitted into the inner space 22 of the low case 20 and are fastened to each other by screwing. , Has a hemispherical shape and the outer surface is fixed by being caught by the locking step 28 formed on the inner circumferential surface of the row case 20. The membrane 30 is formed of a rubber material to fluidize through the fluid inlet 24 of the low case 20 while partitioning the inner spaces 12 and 22 of the upper and the low cases 10 and 20. When the fluid flowing through the conduit is injected, it is deformed by the fluid pressure at this time and rises upward to the center portion to buffer the pressure of the fluid, and also the gas pressure injected through the gas inlet 14 of the upper case 10. The sinking operation is performed, and this series of operations (vertical movement) stabilizes the hydraulic device by maintaining a constant pressure of the fluid flowing through the fluid line.

A stopper 34 is installed at the lower center of the membrane 30, and the stopper 34 is a fluid inlet 24 through which the stopper 34 injects a fluid when the central part of the membrane 30 sinks due to gas pressure. To prevent leakage of fluids.

On the other hand, the outer surface of the above-described upper case 10 and the outer surface of the low case 20 is formed with at least one fastening holes 50 and 52 connected to each other vertically. The fastening holes 50 and 52 are screwed to each other while the bolt 60 is fitted. That is, the upper case 10 and the low case 20 which are first screwed together are vertically moved in the membrane 30 (that is, the membrane center portion rises or sinks down due to fluid and gas pressure). Bars of the upper case 10 and the low case 20 can be slipped and released from each other due to the impact of the present invention, and the present invention reconnects the upper case 10 and the low case 20 through the bolt 60. Combining the configuration will be able to maintain a solid binding state without slipping the upper case 10 and the low case 20 even for a long time use.

On the other hand, the ring member 40 is further fitted to the inner peripheral surface of the row case 20. The ring member 40 is located between the lower end of the upper case 10 and the upper end of the outer surface 32 of the membrane 30, and when the upper case 10 is screwed to the low case 20, The lower case of the upper case 10 is in contact with the lower end of the upper case 10 and blocks the lower end of the upper case 10 from directly contacting the outer surface of the membrane 30 which is caught on the engaging jaw 28 of the low case 20. do.

The membrane 30 is not directly contacted with the upper case 10 through the ring member 40, but the upper case 10 does not rotate even when the upper case 10 is rotated to be fastened to the low case 20. It is possible to prevent the membrane 30 from warping (ie, pulling in one direction) in advance, and thus, the membrane 30 can be fixed in the correct position without deformation, so that the membrane 30 can contract and expand with the pressure of the fluid and gas. At this time, it is possible to induce to maintain the vertical movement regularly without the movement of irregular copper wire.

At least one protrusion 42 is formed on the outer surface of the ring member 40 as shown in FIG. 3, and the protrusion 42 is formed on an inner circumferential surface of the low case 20 to which the ring member 40 is fitted. At least one fitting groove 44 to be fitted is recessed so that the ring member 40 is caught by the fitting groove 44 even when the upper case 10 rotates in contact with the ring member 40. By interlocking with the protrusion 42 together, it is possible to maintain a fixed state without rotation.

Hereinafter, the operation of the membrane accumulator according to the present invention will be described with reference to FIGS.

When assembling the membrane-type accumulator 100 according to the present invention, first, the upper case 10 and the low case 20 are separately formed, and then the membrane 30 is formed in the inner space 22 of the low case 20. Next, the outer surface 32 of the membrane 30 is inserted into the locking groove 22 formed on the inner circumferential surface of the row case 20.

The ring member 40 is positioned on the membrane 30, and then the projection 42 of the ring member 40 is inserted into the fitting groove 44 formed on the inner circumferential surface of the row case 20. Let's do it.

Subsequently, the male thread 16 formed on the outer circumferential surface of the upper case 10 is formed on the inner circumferential surface of the low case 20 while the upper case 10 is positioned at the open upper end of the low case 20. The upper case 10 is fixed to the lower case 20 while being fastened to the female thread 26 by screwing.

At this time, in the process of fastening the upper case 10, the lower end of the upper case 10 does not contact the outer circumferential surface of the membrane 30, but in contact with the ring member 40 located at the upper end of the membrane 30. Even if the upper case 10 is continuously rotated to be fastened according to the fastening, the membrane 30 may remain fixed without being rotated together by the rotational force at this time, thereby fixing the membrane 30 without twisting in the fastening process. You can lock it in place.

In particular, the ring member 40 may rotate together with the upper case 10 in contact with the upper case 10, but in this case, the protrusion 42 of the ring member 40 may be a low case ( It is caught by the fitting groove 44 of the 20 to restrain the rotation of the ring member 40 will be able to maintain a fixed state without transmitting the rotation force even if the ring member 40 contacts the top of the membrane (30) .

Next, after the upper case 10 and the lower case 20 are first fastened by a screw type as described above, the outer surface of the upper case 10 and the fastening hole 50 formed in the outer surface of the low case 20 are formed. , 52) to vertically communicate with each other, and then the upper case 10 and the low case 20 are more firmly coupled by screwing the bolt 60 into the fastening holes 50 and 52. .

10: upper case 16: male thread
20: low case 26: internal thread
30: membrane 40: ring member
42: protrusion 44: fitting groove
50, 52: fastening hole 60: bolt
100: membrane accumulator

Claims (2)

An upper case 10 having a male thread 16 formed along an outer circumferential surface thereof, and a female thread 26 for fastening a male thread 16 of the upper case 10 along a inner circumferential surface thereof are formed in the upper case. It fits into the low case 20 and the low case 20 inner space 22 which is screwed to the 10 and partitions the spaces 12 and 22 of the upper case 10 and the low case 20. In the membrane type accumulator comprising a membrane 30 to make,
A ring member 40 is positioned between the lower end of the upper case 10 and the membrane 30, and at least one protrusion 42 is formed on an outer surface of the ring member 40, and the low case ( Membrane-type accumulator, characterized in that at least one fitting groove 44 for the projection 42 of the ring member 40 is formed on the inner peripheral surface of the ring member (40).
The method of claim 1,
At least one fastening hole (50, 52) is formed on the outer surface of the upper case (10) and the low case (20) to connect vertically, respectively, and the bolt (60) with the fastening holes (50, 52) Membrane accumulator, characterized in that the screw is fastened.

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