JPH08240202A - Helmholtz hydraulic pressure pulsation filter of gas sealed type - Google Patents

Abstract

PURPOSE: To effectively absrob the pulsation of pressure and flow rate in a hydraulic device by disposing a Helmholtz resonator branched off from a pipeline as a pulsation filter in a hydraulic pipeline and replacing part of liquid in the Helmholtz resonator with gas. CONSTITUTION: A pulsation filter disposed as a branch in a high pressure pipeline for effective absorbing pulsation comprises a resonance room 3 (Helmholtz resonator) communicating with a pressure pipeline 1 via a neck 2 branched off from the pressure pipeline 1. The resonance room 3 includes an enclosed bag 5 which is made of soft synthetic rubber and enclosed with gas 4 and the encosed bag 5 is immersed in liquid. The fluid in the neck 2 works as kinetic mass and the fluid in the resonance room 3 works as a spring because of its compressibility and becomes a pulsation absorbing element of very low impedance in its resonance frequency but large compressibility is gotten with the small resonance room 3 because of the enclosed bag 5 therein.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to devices used to reduce pulsating surges in a pressure liquid pipe, and more particularly to a pulsating filter that absorbs pressure and flow pulsations in a hydraulic device.

[0002]

2. Description of the Related Art Conventionally, there is an in-line pulsation absorption accumulator as a means for suppressing pulsation in a hydraulic system. This is an accumulator having a structure as shown in FIG. 3. End caps (7) are attached to outer cylinder parts (6) formed in a substantially cylindrical shape, and are connected to the end caps (7) at both ends. A bulging tubular bladder (8) made of synthetic rubber is arranged, and the inside of the bladder (8) serves as a pressure fluid flow path, and the gas (4) is provided between the outer tubular portion (6) and the bladder (8). In general, an inner tube (9) having a large number of holes formed therein is arranged on the inner peripheral side of the bladder (8) in order to suppress excessive deformation of the bladder (8). It is a composition. In addition, there is also an example in which an accumulator (prada type, piston type, bellows type, which is not shown in the figure) for pressure accumulation is diverted for pulsation absorption. A hydraulic pulsation filter using a Helmholtz resonator or a branch pipe has also been developed, although it has not been put to practical use.

[0003]

However, the in-line type pulsation accumulator is excellent in pulsation absorption performance, but has a complicated structure and a high price, and it requires maintenance due to use of N ₂ high pressure gas. Practical use is limited. The same applies to the accumulators other than the piston type, and the accumulator type is inferior in pulsation absorption performance. Further, the Hertzholm resonator pulsation filter has a drawback that it becomes larger as the frequency becomes lower. In view of such drawbacks, the present invention provides a pulsation filter having a wide range of application that does not require a small size and simple structure and does not require maintenance as a pulsation filter that absorbs pulsation / surge in a liquid device. Has an aim.

[0004]

The present invention comprises the following constitutions. A pulsation filter as shown in Fig. 1 that effectively absorbs pulsation by branching into a high-pressure pipe, wherein the neck (2) is branched from the pressure conduit (1), and the resonance chamber ( 3) is arranged to configure a Hertzholm resonator. The resonance chamber (3) is characterized in that a sealing bag (5) in which a gas (4) is hermetically sealed at atmospheric pressure is placed, and the sealing bag (5) is immersed in a liquid.

The closed bag (5) placed in the resonance chamber (3) is characterized by being formed of a soft synthetic rubber bag having a gas (4) sealed therein.

[0006]

As shown in FIG. 2, the Hertzholm resonator comprises a neck (2) and a resonance chamber (3). The fluid in the neck is a moving mass, and the fluid in the resonance chamber (3) is a spring due to its compressibility. And behaves just like the spring-mass system of FIG. 3 and can be a pulsation absorbing element with very low impedance at its resonant frequency. However, when a liquid is used, its compressibility is small, so that the resonator generally becomes extremely large. As described above, the present invention makes it possible to realize a large compressibility in a small resonance chamber (3) by replacing a part of the liquid in the resonator with a gas. This means that the compressibility of a gas is 1
Since it is more than 00 times, it is noted that even if a small part of the liquid is replaced with a gas, the overall compressibility is significantly reduced.

[0007]

Embodiments of the present invention will be described in detail below with reference to the drawings. FIG. 4 shows the impedance measurement results of the actually manufactured gas-filled type Hertzholm hydraulic pressure pulsation filter. The circle is the measured value, and the reverse resonance frequency is 110H.
Z, impedance there -50db or more, -40d
A range of b or less is about 100 HZ, which is excellent performance as a pulsation filter. The structure of the pulsation filter used at this time is as shown in FIG. 5, and a hemispherical synthetic rubber bag is filled with air at atmospheric pressure.

Next, the result of an experiment in which the effect of the pulsation filter of the present invention is investigated with respect to the pulsation generated in the hydraulic circuit will be shown. Pulsations were generated using a pulsation generator in a hydraulic circuit as shown in FIG. 6, and pressure waveforms were compared between the case where a Helmholtz hydraulic pressure pulsation filter was attached downstream of the pulsation generator and the case where it was not attached. FIG. 7 shows the measured waveform. It can be seen that when the pulsation filter is attached, the pulsation disappears almost completely downstream (PC, PE).

[0009]

With the above-described structure, the following excellent effects can be obtained. Since the pulsation filter of the present invention is small, it does not easily occupy space in piping or equipment. Also, since it is used by branching, it has almost no effect on the mainstream such as replacement. Its performance is predictable because it is Helmholtz type, it can be easily designed and manufactured according to the target pulsation form, and it requires almost no maintenance. Furthermore, its pulsation absorption capability is superior to any conventional similar device.

[0010]

[Brief description of drawings]

FIG. 1 is a sectional view showing an embodiment of the present invention.

FIG. 2 is a schematic diagram showing a Hertzholm resonator.

FIG. 3 is a cross-sectional view showing a conventional example not using the present invention.

FIG. 4 shows impedance measurement results.

FIG. 5 shows the structure of a pulsation filter whose impedance is measured.

FIG. 6 shows a pulsating hydraulic circuit.

FIG. 7 shows a measurement waveform of a pulsation filter.

[Explanation of symbols]

 1 Pressure Pipeline 2 Neck 3 Resonance Chamber 4 Gas 5 Sealing Bag 6 Outer Cylinder 7 End Cap 8 Prader 9 Inner Tube

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[Procedure amendment]

[Submission date] April 17, 1995

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction content]

[Document name] Statement

[Title of Invention] Gas-filled Helmholtz hydraulic pulsation filter

[Claims]

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to devices used to reduce pulsating surges in a pressure liquid pipe, and more particularly to a pulsating filter that absorbs pressure and flow pulsations in a hydraulic device.

[0002]

2. Description of the Related Art Conventionally, there is an in-line pulsation absorption accumulator as a means for suppressing pulsation in a hydraulic system. This is an accumulator having a structure as shown in FIG. 3. End caps (7) are attached to outer cylinder parts (6) formed in a substantially cylindrical shape, and are connected to the end caps (7) at both ends. A bulging tubular bladder (8) made of synthetic rubber is arranged, and the inside of the bladder (8) serves as a pressure fluid flow path, and the gas (4) is provided between the outer tubular portion (6) and the bladder (8). In general, an inner tube (9) having a large number of holes formed therein is arranged on the inner peripheral side of the bladder (8) in order to suppress excessive deformation of the bladder (8). It is a composition. In addition, there is also an example in which an accumulator (prada type, piston type, bellows type, which is not shown in the figure) for pressure accumulation is diverted for pulsation absorption. A hydraulic pulsation filter using a Helmholtz resonator or a branch pipe has also been developed, although it has not been put to practical use.

[0003]

However, the in-line type pulsation accumulator is excellent in pulsation absorption performance, but has a complicated structure and a high price, and it requires maintenance due to use of N ₂ high pressure gas. Practical use is limited. The same applies to the accumulators other than the piston type, and the accumulator type is inferior in pulsation absorption performance. Further, the Hertzholm resonator pulsation filter has a drawback that it becomes larger as it is used for lower frequencies .
In view of such drawbacks, the present invention provides a pulsation filter that absorbs pulsations and surges in a liquid device, and has a small and simple structure.
The purpose of the present invention is to provide a pulsation filter with a wide range of application that is inexpensive and does not require maintenance.

[0004]

The present invention comprises the following constitutions. A pulsation filter as shown in Fig. 1 that effectively absorbs pulsation by branching into a high-pressure pipe, wherein the neck (2) is branched from the pressure conduit (1), and the resonance chamber ( 3) is arranged to configure a Hertzholm resonator. The resonance chamber (3) is characterized in that a sealing bag (5) in which a gas (4) is hermetically sealed at atmospheric pressure is placed, and the sealing bag (5) is immersed in a liquid.

The closed bag (5) placed in the resonance chamber (3) is characterized by being formed of a soft synthetic rubber bag having a gas (4) sealed therein.

[0006]

As shown in FIG. 2, the Hertzholm resonator comprises a neck (2) and a resonance chamber (3). The fluid in the neck is a moving mass, and the fluid in the resonance chamber (3) is a spring due to its compressibility. , And behaves just like the spring-mass system of FIG. 2 , and can be a pulsation absorbing element with extremely low impedance at its resonance frequency. However, when a liquid is used, its compressibility is small, so that the resonator generally becomes extremely large. As described above, the present invention makes it possible to realize a large compressibility in a small resonance chamber (3) by replacing a part of the liquid in the resonator with a gas. This is because the compressibility of a gas is 100 times or more that of a liquid even at 100 atm, so that even if a small part of the liquid is replaced with a gas, the entire compressibility is significantly reduced.

[0007]

Embodiments of the present invention will be described in detail below with reference to the drawings. FIG. 4 shows the impedance measurement results of the actually manufactured gas-filled type Hertzholm hydraulic pressure pulsation filter. The circles are the measured values, and the reverse resonance frequency is 110 H.
_z , impedance there -50 dB or more, -40 d
A range of B or less is about 100 _Hz, and excellent performance as a pulsation filter is obtained. The structure of the pulsation filter used at this time is as shown in FIG. 5, and a hemispherical synthetic rubber bag is filled with air at atmospheric pressure.

Next, the result of an experiment in which the effect of the pulsation filter of the present invention is investigated with respect to the pulsation generated in the hydraulic circuit will be shown. Pulsations were generated using a pulsation generator in a hydraulic circuit as shown in FIG. 6, and pressure waveforms were compared between the case where a Helmholtz hydraulic pressure pulsation filter was attached downstream of the pulsation generator and the case where it was not attached. FIG. 7 shows the measured waveform. It can be seen that when the pulsation filter is attached, the pulsation disappears almost completely downstream (PC, PE).

[0009]

With the above-described structure, the following excellent effects can be obtained. Since the pulsation filter of the present invention is small, it does not easily occupy space in piping or equipment. Also, since it is used by branching, it has almost no effect on the mainstream such as loss . Its performance is predictable because it is Helmholtz type, it can be easily designed and manufactured according to the target pulsation form, and it requires almost no maintenance. Furthermore, its pulsation absorption capability is superior to any conventional similar device.

[Brief description of drawings]

FIG. 1 is a sectional view showing an embodiment of the present invention.

FIG. 2 is a schematic diagram showing a Hertzholm resonator.

FIG. 3 is a cross-sectional view showing a conventional example not using the present invention.

FIG. 4 shows impedance measurement results.

FIG. 5 shows the structure of a pulsation filter whose impedance is measured.

FIG. 6 shows a pulsating hydraulic circuit.

FIG. 7 is a pressure measurement waveform showing the effect of a pulsation filter.
There is .

[Explanation of reference symbols] 1 pressure line 2 neck 3 resonance chamber 4 gas 5 sealed bag 6 outer cylinder part 7 end lid 8 prada 9 inner tube

Claims (2)

[Claims] 1. A pulsation absorption filter arranged in a hydraulic circuit, characterized in that a Helmholtz resonator is branched and attached to a pipe line, and a part of oil in the Helmholtz resonator is replaced with gas. Gas-filled Helmholtz fluid pressure pulsation filter. 2. The gas-filled Helmholtz fluid pressure pulsation filter according to claim 1, wherein the replacement of the oil in the Helmholtz resonator by the gas is performed by a soft synthetic rubber bag having a gas sealed therein. Tar.