JP2007130560A - Liquid trap apparatus for gas - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a liquid trap for gas having high liquid trapping performance. <P>SOLUTION: This liquid trap for gas comprises a trap housing 5 having a gas inlet 14 and a gas outlet 15 at an upper part, and a liquid filter 6 provided with a cylindrical filter element 20 having the inside communicating with the gas inlet 14 and disposed in the trap housing 5. The gas outlet 15 is opened to the inside of the trap housing 5 outside the liquid filter 6. By an eccentric cylinder 27 with a closed upper end and an opened lower end, the outer periphery of the liquid filter 6 is enclosed with a space, and the gas passing through the filter element 20 is induced toward the lower part of the filter element 20. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention comprises a trap housing having a gas inlet and a gas outlet in the upper part, and a liquid filter provided inside the trap housing with a cylindrical filter element communicating with the gas inlet inside. The gas outlet is opened inside the trap housing outside the filter, and when the gas flowing from the gas inlet toward the gas outlet passes through the filter element, the liquid contained in the gas is captured by the filter element. The present invention relates to an improvement of the liquid trap device for gas.

For example, an automobile equipped with an engine using natural gas as a fuel is equipped with a fuel tank in which natural gas is compressed and stored, and when the engine is operating, the high-pressure gaseous fuel derived from the fuel tank is reduced to a predetermined pressure and supplied to the engine. To do. By the way, when natural gas is compressed and stored in the fuel tank, the lubricating oil in the compressor used for compressing the natural gas is mixed in the compressed fuel. When supplying fuel to the engine, it is necessary to capture the mixed oil from the gaseous fuel. The gas liquid trap apparatus is used to capture the mixed liquid from the gas as described above, and is already known as disclosed in, for example, Patent Document 1 below.
JP 7-328364 A

  Conventionally, in this type of gas liquid trap apparatus, since the opening provided in the upper end wall of the liquid filter is opened in the upper part in the filter element, the opening and the gas outlet are relatively close to each other. Because of this, most of the gas flowing into the filter element from the opening tends to pass through the upper part of the filter element, so that the upper part of the filter element is in a locally saturated state where it is clogged with liquid trapped from the gas. As a result, the liquid trapping performance at the top of the filter element is extremely reduced. In addition, if liquid oozes out from the saturated part of the filter element, the liquid rides on the gas flow that has passed through the filter element and travels to the gas outlet, where it may be mixed into the gas again. Liquid capture performance will be reduced.

  The present invention has been made in view of such circumstances, and an object thereof is to provide the gas liquid trap apparatus having a high liquid trapping performance.

  In order to achieve the above object, the present invention comprises a trap housing having a gas inlet and a gas outlet at the top and a cylindrical filter element that communicates with the gas inlet inside the trap housing. The gas outlet is formed inside the trap housing outside the liquid filter, and the gas flowing from the gas inlet toward the gas outlet is included in the gas when passing through the filter element. In a gas liquid trap apparatus in which liquid is trapped by the filter element, the outer periphery of the liquid filter is surrounded at intervals by a deflection cylinder whose upper end is closed and lower end is opened, and passes through the filter element. The first feature is that the gas is guided below the filter element. That.

  The present invention also includes a pressure regulating valve for reducing the pressure of the high-pressure gas from the high-pressure passage to a predetermined value at the lower end of a pressure regulator provided at the center of the regulator body, and traps the mixed liquid from the reduced-pressure gas. A gas liquid trap device comprising a trap housing coupled to a lower end of the regulator body and a liquid filter provided with a cylindrical filter element and disposed in the trap housing. A communication passage provided in the regulator main body is communicated with the filter element so that the gas that has been passed through one side of the pressure regulating valve, while a gas that communicates with the low pressure passage within the trap housing outside the filter element. An outlet is provided in the upper part of the trap housing and flows from the communication passage toward the gas outlet. In this configuration, when the gas passes through the filter element, the liquid contained in the gas is captured by the filter element. The trap housing has an axis that is higher than the axis of the communication passage. The second feature is that the gas inlet opening in the filter element is connected to the communication passage through a radially extending inlet passage.

  In addition to the second or third feature of the present invention, a deflection cylinder having an upper end and an outer peripheral surface of the liquid filter that are open at the lower end is disposed in the trap housing, and passes through the filter element. A third feature is that the gas is guided to the lower side of the liquid filter by the deflection cylinder.

  In addition to the second feature of the present invention, the trap housing has a cover plate coupled to the lower end of the regulator body, and the cover plate is provided with the inlet passage. A fourth aspect is that a portion extending in the radial direction of the inlet passage is formed by a groove formed on one of the upper and lower surfaces of the lid plate and part of the open surface closed by an adjacent member joined to the one surface. Features.

  According to the first aspect of the present invention, since the deflection cylinder, which is open only at the lower end, is disposed on the outer periphery of the filter element at an interval, the induced gaseous fuel that has flowed into the filter element from the gas inlet is provided. Is diffused throughout the filter element and filtered through the entire filter element, and local saturation of the filter element can be prevented, so that the service life of the filter element can be extended.

  Moreover, since the flow direction of the gaseous fuel that has passed through the filter element is changed to the open end of the deflection cylinder, that is, below the filter element, by the inner peripheral surface of the deflection cylinder, oil trapped by the filter element oozes out. When it collides with the inner peripheral surface of the deflection cylinder together with the gaseous fuel, the oil adheres to the inner peripheral surface of the deflection cylinder and is separated from the gaseous fuel, thereby improving the liquid trapping performance of the gas liquid trap device. .

  According to the second aspect of the present invention, it is possible to arrange the pressure regulator and the gas liquid trap device substantially coaxially with each other by communicating between the communication passage and the gas inlet which are largely offset from each other, and the assembly thereof can be made compact. At the same time, the gap between the filter element and the trap housing can be secured, and the gas outlet can be easily provided at the top of the trap housing while being separated from the filter element and the trap housing. This contributes to prevention of oil outflow to the gas outlet and can improve the liquid trapping performance of the gas liquid trap device.

  According to the third aspect of the present invention, since the deflection cylinder, which is open only at the lower end, is disposed on the outer periphery of the filter element at an interval, the induced gaseous fuel that has flowed into the filter element from the gas inlet is provided. Is diffused throughout the filter element and filtered through the entire filter element, and local saturation of the filter element can be prevented, so that the service life of the filter element can be extended. Moreover, since the flow direction of the gaseous fuel that has passed through the filter element is changed to the open end of the deflection cylinder, that is, below the filter element, by the inner peripheral surface of the deflection cylinder, oil trapped by the filter element oozes out. When it collides with the inner peripheral surface of the deflection cylinder together with the gaseous fuel, the oil adheres to the inner peripheral surface of the deflection cylinder and is separated from the gaseous fuel. Accordingly, the assembly of the pressure regulator and the oil filter can be made compact, and the liquid trapping performance of the gas liquid trap apparatus can be improved.

  According to the fourth feature of the present invention, the inlet passage can be formed at the same time when the lid plate is formed by die casting, injection molding, or the like, and the manufacture is facilitated.

  Embodiments of the present invention will be described below on the basis of preferred embodiments of the present invention shown in the accompanying drawings.

  1 is a longitudinal sectional view of a pressure regulator integrally including a gas liquid trap device according to an embodiment of the present invention, FIG. 2 is a sectional view taken along line 2-2 in FIG. 1, and FIG. 3 is a sectional view taken along line 3-3 in FIG. FIG.

  First, in FIG. 1, natural gas is compressed and stored in the fuel tank F as gaseous fuel. When the high-pressure gaseous fuel in the fuel tank F is used, the gaseous fuel is sent to the pressure regulator R through the high-pressure fuel passage 1 in order to reduce the pressure to a predetermined value.

  The pressure regulator R includes a substantially prismatic regulator body 3 having a high pressure port 1a and a low pressure port 2a on one side. The high pressure port 1a has a downstream end of the high pressure fuel passage 1, and the low pressure port 2a has a low pressure port 2a. The upstream end of the low pressure fuel passage 2 connected to the fuel injection valve 24 of the engine E is connected to each other.

  As shown in FIGS. 1 and 2, a pressure regulating valve 4 for reducing the pressure of the gaseous fuel introduced into the high pressure port 1a to a predetermined value is provided at the central portion of the regulator body 3, and the pressure regulating valve 4 reduces the pressure. The regulator main body 3 is provided with a plurality of communication passages 16, 16... That extend in the vertical direction along the circumferential direction of the pressure regulating valve 4 so that the gaseous fuel passes through one side of the pressure regulating valve 4.

  A gas liquid trap device T is attached to the lower end surface of the regulator body 3. This gas liquid trap device T captures and removes the mixed oil from the gaseous fuel introduced from the communication passages 16, 16... And sends clean gaseous fuel to the low pressure port 2 a of the regulator body 3. The gas liquid trap apparatus T will be described in detail with reference to FIGS.

  The gas liquid trap apparatus T includes a trap housing 5 attached to the lower surface of the regulator body 3 of the pressure regulator R and an oil filter 6 disposed in the trap housing 5 as main components.

  The trap housing 5 includes a cylindrical housing body 10 having a mounting flange 10a and a ceiling wall 10b at the upper end, a cup body 11 that is removably screwed to the lower end of the housing body 10, and an upper surface of the mounting flange 10a. The lid plate 12 and the mounting flange 10a are fixed to the lower surface of the regulator body 3 of the pressure regulator R with bolts 13. On the lower end surface of the cup body 11, a hexagonal bolt head-shaped tool engaging portion 11a for integrally attaching and detaching the cup body 11 is integrally formed.

  The oil filter 6 includes an upper end wall 17, a lower end wall 18 disposed below the upper end wall 17, and a cylindrical filter element 20 that connects the upper end wall 17 and the lower end wall 18. The filter element 20 has a function of permitting the passage of gaseous fuel and capturing a liquid such as lubricating oil. An opening 17 a is provided at the center of the upper end wall 17.

  The trap housing 5 and the oil filter 6 are arranged so that the axis A1 thereof is closer to the axis A1 of the pressure regulating valve 4 than the axis A3 of each communication passage 16. That is, the distance L1 between the axis A3 of the trap housing 5 and the oil filter 6 and the axis A1 of the pressure regulating valve 4 is set to be much smaller than the distance L2 between the axis A2 of the trap housing 5 and each communication passage 16. The Thus, the gas liquid trap device T is arranged substantially coaxially with the pressure regulator R.

  A gas inlet 14 is provided in the central portion of the ceiling wall 10b of the housing body 10, and an inlet passage 25 (in the radial direction extending to the cover plate 12) is connected to the plurality of communication passages 16, 16,. 2) is provided. A portion extending in the radial direction of the inlet passage 25 is formed as a groove on the lower surface of the cover plate 12, and an open surface of the groove is closed by the ceiling wall 10 b of the housing body 10 except for a portion connected to the gas inlet 14. . The inlet passage 25 configured in this way can be formed at the same time when the lid plate 12 is molded by casting, injection molding or the like, so that the lid plate 12 with the inlet passage 25 can be easily manufactured.

  The gas inlet 14 opens into the filter element 20 through the inflow guide tube 7 that is connected to the gas inlet 14 and passes through the opening 17 a, and the upper end wall 17 is a seal member that is in close contact with the outer peripheral surface of the inflow guide tube 7. 22 is mounted.

  On the other hand, the lower end wall 18 is integrally formed with a column 18a that protrudes from the lower surface thereof and is supported at the bottom of the cup body 11. Accordingly, the entire oil filter 6 is supported by the cup body 11 through the support column 18a.

  In the trap housing 5, a deflection cylinder 27 that surrounds the outer periphery of the oil filter 6 with a space is disposed. The deflection cylinder 27 has a cylindrical shape with the upper end closed and the lower end opened, and guides the gaseous fuel that has passed through the filter element 20 to the lower side of the oil filter 6. The deflection cylinder 27 is supported by the housing body 10 by fixing its upper end to the ceiling wall 10 b of the housing body 10 or the inflow guide tube 7.

  As shown in FIGS. 1 and 3, a notch 10 c is provided on one side of the ceiling wall 10 b of the housing body 10, and the lid plate 12 has a portion corresponding to the notch 10 c at the outside of the deflection cylinder 27. A plurality of gas outlets 15, 15... Opening in the housing main body 10 are provided. The plurality of gas outlets 15, 15... Are arranged in an arc shape along the circumferential direction of the trap housing 5 and communicated with the low-pressure port 2 a through a collecting chamber 21 formed on the lower surface of the regulator body 3. The

  Next, the operation of this embodiment will be described.

  When the gaseous fuel depressurized to a predetermined pressure by the pressure regulator R reaches the gas inlet 14 of the cover plate 12 of the oil filter 6, it is guided into the filter element 20 by the inflow guide tube 7, and is filtered by the filter element 20 while diffusing. In other words, the oil mixed in the gaseous fuel is captured, but the deflection cylinder 27 having only the lower end is disposed on the outer periphery of the filter element 20 with a gap therebetween, so that it is guided into the filter element 20. Gaseous fuel diffuses throughout the filter element 20 and is filtered by the entire filter element 20. Therefore, local saturation of the filter element 20 can be prevented, so that the service life of the filter element 20 can be extended. it can.

  Moreover, the gaseous fuel that has passed through the filter element 20 is trapped by the filter element 20 because the direction of the flow is changed by the inner peripheral surface of the deflection cylinder 27 to the open end of the deflection cylinder 27, that is, below the filter element 20. When oil oozes out and collides with the inner peripheral surface of the deflection cylinder 27 together with the gaseous fuel passing through the filter element 20, the oil adheres to the inner peripheral surface of the deflection cylinder 27 and is separated from the gaseous fuel.

  Then, only the gaseous fuel flowing out from the open end of the deflection cylinder 27 is reversed upward and directed to the gas outlets 15, 15... And passes through the gas outlets 15, 15. The fuel is injected from the fuel injection valve 24 of the engine E through the low pressure fuel passage 2.

  As described above, it is difficult for a local saturated portion to occur in the filter element 20, and the oil that has oozed out of the filter element 20 is captured by the inner surface of the deflection cylinder 27, so that the oil trapping performance of the gas liquid trap device T is obtained. Can be greatly improved.

  The oil captured by the filter element 20 and the deflection cylinder 27 gradually falls as droplets, and the oil accumulates at the bottom of the cup body 11. Therefore, if the cup body 11 is detached from the housing body 10, it can be cleaned. Also, the dirty oil filter 6 can be cleaned or replaced with a new one.

By the way, in the pressure regulator R, a pressure regulating valve 4 is disposed at the center of the regulator body 3, and communication passages 16, 16... Are provided so that gaseous fuel decompressed by the pressure regulating valve 4 passes through one side of the pressure regulating valve 4. A gas liquid trap device T is attached to the lower end of the regulator body 3. At that time, the trap housing 5 and the oil filter 6 are arranged so that their axis A3 is closer to the axis A1 of the pressure regulating valve 4 than the axis A2 of each connecting passage 16, and the inflow opening into the filter element 20 A guide pipe 7 is connected to the communication passages 16, 16... Via the radial inlet passage 25, and a gas outlet 15 communicating with the low pressure port 2 a in the trap housing 5 outside the filter element 20 is provided in the trap housing 5. Since the cover plate 12 is provided, the pressure regulator R and the gas liquid trap device T can be arranged substantially coaxially while communicating between the communication passages 16 and the gas inlet 14 which are largely offset from each other. Compactness can be achieved. At the same time, the gap between the opposing peripheral surfaces of the filter element 20 and the trap housing 5 is secured, and the gas outlet 15 provided in the cover plate 12 can be easily separated from the filter element 20, and the separation distance is set sufficiently. In this case, it is possible to prevent the oil that has oozed out of the filter element 20 from flowing out to the gas outlet 15 without using the deflection cylinder 27.

  As mentioned above, although the Example of this invention was described, this invention is not limited to it, A various design change is possible in the range which does not deviate from the summary.

It is a longitudinal cross-sectional view of a pressure regulator provided integrally with a liquid trap device for gas according to an embodiment of the present invention. FIG. 2 is a sectional view taken along line 2-2 of FIG. FIG. 3 is a sectional view taken along line 3-3 in FIG. 1.

Explanation of symbols

R: Pressure regulator T ... Gas liquid trap device 1 ... High pressure passage 2 ... Low pressure passage 4 ... Pressure regulating valve 5 ... Trap Housing 6 ... Liquid filter (oil filter)
12 .... Cover plate 14 ... Gas inlet 15 ... Gas outlet 16 ... Communication passage 20 ... Filter element 25 ... Inlet passage 27 ... Deflection cylinder

Claims (4)

The trap housing (5) includes a trap housing (5) having a gas inlet (14) and a gas outlet (15) at an upper portion, and a cylindrical filter element (20) communicating with the gas inlet (14) inside. A liquid filter (6) disposed inside, and the gas outlet (15) is opened inside the trap housing (5) outside the liquid filter (6) and from the gas inlet (14). In the gas liquid trap apparatus, wherein the gas flowing toward the gas outlet (15) passes through the filter element (20), the liquid contained in the gas is captured by the filter element (20).
The deflection cylinder (27) whose upper end is closed and whose lower end is opened surrounds the outer periphery of the liquid filter (6) with a space therebetween, and the gas passing through the filter element (20) is allowed to pass through the filter element (20). A liquid trap device for gas, characterized by being guided downward. A pressure regulating valve (4) for reducing the pressure of the high-pressure gas from the high-pressure passage (1) to a predetermined value is attached to the lower end of the pressure regulator (R) provided at the center of the regulator body (3), and the pressure is reduced. A gas trap apparatus for trapping mixed liquid from gas, comprising a trap housing (5) coupled to a lower end of the regulator body (3), and a tubular filter element (20). 5) A liquid filter (6) disposed in the regulator body (3), and provided in the regulator body (3) so that the gas decompressed by the pressure regulating valve (4) passes through one side of the pressure regulating valve (4). The communication passage (16) communicated with the filter element (20), while the low pressure passage (2) passes through the trap housing (5) outside the filter element (20). A communicating gas outlet (15) is provided at the top of the trap housing (5), and when the gas flowing from the communication passage (16) toward the gas outlet (15) passes through the filter element (20), A liquid contained in a gas is captured by the filter element (20).
The trap housing (5) is arranged such that its axis (A3) is closer to the axis (A1) of the pressure regulating valve (4) than the axis (A2) of the communication passage (16), and the filter A gas liquid trap device, characterized in that a gas inlet (14) opening into the element (20) is connected to the communication passage (16) via a radially extending inlet passage (25). The liquid trap apparatus for gas according to claim 2 or 3,
In the trap housing (5), a deflection cylinder (27) covering the upper end and outer peripheral surface of the liquid filter (6) and opening the lower end is disposed, and the gas passing through the filter element (20) is deflected. A liquid trap apparatus for gas, wherein the cylinder (27) is guided to a position below the liquid filter (6). In the gas liquid trap apparatus of Claim 2,
The trap housing (5) has a cover plate (12) coupled to the lower end of the regulator body (3), and the cover plate (12) is provided with the inlet passage (25), A portion extending in the radial direction of the inlet passage (25) is closed by an adjacent member (10b) formed on one of the upper and lower surfaces of the lid plate (12) and part of the open surface joined to the one surface. A liquid trap device for gas, characterized by comprising a groove that can be formed.

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