JP2021086328A - Pressure regulator - Google Patents

Abstract

To enable disassemble and pressure reset of a pressure regulator not to be required when a user replaces vent rubber.SOLUTION: A pressure regulator comprises: an upper case 1 having a spring receiving unit 101 of which one surface opens and the end surface opens to the surface opposed to one surface; a lower case 2 having one open surface; a diaphragm plate assembly 5 sandwiched between one surface of the upper case 1 and the one surface of the lower case 2; a spring 3 having one end contacted with the diaphragm plate assembly 5; a pressure adjustment screw 4 provided in the spring receiving unit 101 and connected to the other end of the spring 3; a lid part 17 attached to the end surface of the spring receiving unit 101 and having a vent hole 1702; and vent rubber 18 attached to the vent hole 1702.SELECTED DRAWING: Figure 2

Description

The present invention relates to a pressure regulator provided between the primary side pipe and the secondary side pipe to reduce the pressure in the secondary side pipe with respect to the pressure in the primary side pipe.

A pressure regulator is a device that reduces the pressure in the secondary pipe (secondary pressure) with respect to the pressure in the primary pipe (primary pressure), regardless of changes in the flow rate of the fluid flowing through the secondary pipe. It has a function of keeping the next pressure constant (see, for example, Patent Document 1).

As shown in FIG. 5, in the pressure regulator, the atmospheric pressure chamber 1b communicating with the vent 101b through which air (atmosphere) flows in and out, and the pressure sensing chamber 2b in which a part of the fluid flowing through the secondary side piping flows in and out. Is provided so as to sandwich the diaphragm plate assembly 3b. The spring accommodating portion 102b of the atmospheric pressure chamber 1b is provided with a spring 5b for urging the plate 4b of the diaphragm plate assembly 3b toward the pressure sensing chamber 2b and a pressure adjusting screw 6b for adjusting the urging force by the spring 5b. Has been done. Then, the plate 4b moves due to the change in the secondary pressure in the pressure sensing chamber 2b, so that the plug 7b that opens and closes the flow path between the primary side pipe and the secondary side pipe moves. As a result, the amount of outflow from the primary side pipe to the secondary side pipe is adjusted, and the secondary pressure is kept constant.

Further, the pressure regulator shown in FIG. 5 is provided with a vent hole 103b at the back of the vent 101b, and a vent rubber 104b is attached to the vent hole 103b. The vent rubber 104b is a damper mechanism for adjusting the flow rate of air flowing in and out of the atmospheric pressure chamber 1b.

Patent No. 3691012

In the pressure regulator shown in FIG. 5, a vent rubber 104b is attached to the back of the vent 101b. In this configuration, the user needs to disassemble the pressure regulator when replacing the vent rubber 104b for maintenance or the like, which makes the work very complicated.

On the other hand, a pressure regulator in which the pressure adjusting screw is provided with a vent hole is also known. In this configuration, when replacing the vent rubber for maintenance or the like, the user only needs to remove the lid portion attached to the end face of the spring storage portion, so that the pressure regulator does not need to be disassembled. On the other hand, the pressure adjusting screw is a component for setting the urging force (pressure of the pressure regulator) by the spring by being moved in the spring accommodating portion. Therefore, the pressure adjusting screw may be located deep in the spring housing. In such a case, the user needs to loosen the pressure adjusting screw and move it toward the front side, and then replace the vent rubber. Then, in this case, the user needs to reset the pressure of the pressure regulator after replacing the vent rubber, which complicates the work.

The present invention has been made to solve the above problems, and provides a pressure regulator that does not require disassembly of the pressure regulator and resetting of the pressure of the pressure regulator when the user replaces the vent rubber. I am aiming.

The pressure regulator according to the present invention includes a first case having a spring accommodating portion having an open end surface on a surface facing the one surface, a second case having an open end surface, and one surface of the first case. A diaphragm plate assembly sandwiched between one side of the second case, a spring whose one end is in contact with the diaphragm plate assembly, a pressure adjusting screw provided in the spring housing and to which the other end of the spring is connected, and a spring storage. It is characterized by having a lid portion attached to the end surface of the portion and having a vent hole, and a vent rubber attached to the vent hole.

According to the present invention, since it is configured as described above, it is not necessary to disassemble the pressure regulator and reset the pressure of the pressure regulator when the user replaces the vent rubber.

It is sectional drawing which shows the structural example of the pressure regulator which concerns on Embodiment 1. FIG. It is sectional drawing which shows the structural example of the vent mechanism in Embodiment 1. FIG. It is a top view which shows the structural example of the lid part in Embodiment 1. FIG. It is a top view which shows the structural example of the bent rubber in Embodiment 1. FIG. It is sectional drawing which shows the structural example of the conventional pressure regulator.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
Embodiment 1.
FIG. 1 is a cross-sectional view showing a configuration example of the pressure regulator according to the first embodiment.
The pressure regulator is provided between the primary side pipe (not shown) and the secondary side pipe (not shown), and the pressure in the secondary side pipe (secondary) is relative to the pressure in the primary side pipe (primary pressure). It is a device that reduces the pressure). This pressure regulator has a function of keeping the secondary pressure constant regardless of the change in the flow rate of the fluid flowing through the secondary side pipe. Examples of the fluid include gas and water.

As shown in FIG. 1, the pressure regulator includes an upper case (first case) 1, a lower case (second case) 2, a spring 3, a pressure adjusting screw 4, a diaphragm plate assembly 5, a pipe connecting portion 6, and an orifice 7. It includes a lever 8, a plunger 9, a plug 10, and a vent mechanism 11.

The upper case 1 is a box-shaped member having an open lower surface (one surface). The upper case 1 is provided with a spring accommodating portion 101 on the upper surface (the surface facing the one surface).
The spring accommodating portion 101 is a cylindrical member having an open upper surface (end surface), and accommodates the spring 3. A female screw is formed on the inner peripheral surface of the spring accommodating portion 101.

The lower case 2 is a box-shaped member having an open upper surface (one surface). The lower case 2 is provided with a plunger guide 201 on the side surface. Further, the lower case 2 is provided with a support portion 202 and an inflow port 203 on the lower surface (the surface facing the one surface).

The plunger guide 201 guides the movement of the plunger 9. The plunger guide 201 is provided with a hole 2011. The hole 2011 is provided between the pressure sensing chamber 13 side described later and the opening 602 side described later of the pipe connecting portion 6, and is a hole into which the plunger 9 can be inserted.

The lower surface of the upper case 1 and the upper surface of the lower case 2 face each other with the diaphragm plate assembly 5 interposed therebetween, and are connected by bolts or the like.

The space formed by the upper case 1 and the diaphragm plate assembly 5 becomes an atmospheric pressure chamber 12. Air (atmosphere) flows in and out of the atmospheric pressure chamber 12 via the vent mechanism 11.
The space formed by the lower case 2 and the diaphragm plate assembly 5 becomes the pressure sensing chamber 13. A part of the fluid flowing through the secondary side pipe flows in and out of the pressure sensing chamber 13 via the inflow port 203.

The spring 3 is a spring member housed in the spring accommodating portion 101, one end of which is in contact with the upper surface of the diaphragm plate assembly 5 (plate 15 described later), and the other end of which is connected to the lower surface of the pressure adjusting screw 4. The spring 3 urges the plate 15 toward the pressure sensing chamber 13.

The pressure adjusting screw 4 is a disk-shaped screw member having a male screw formed on the outer peripheral surface and screwed into the female screw of the spring accommodating portion 101. The pressure adjusting screw 4 is screwed by the user to move in the spring accommodating portion 101 in the axial direction of the pressure adjusting screw 4. Then, the user can adjust the urging force (pressure of the pressure regulator) by the spring 3 by moving the pressure adjusting screw 4.

The diaphragm plate assembly 5 has a diaphragm 14 and a plate 15.
The diaphragm 14 is a hollow disk-shaped elastic member, and its outer peripheral portion is sandwiched and supported by the upper case 1 and the lower case 2. The diaphragm 14 elastically deforms according to the relationship between the urging force of the spring 3 in the atmospheric pressure chamber 12 and the secondary pressure in the pressure sensing chamber 13.
The plate 15 is a disk-shaped member provided at a substantially central position of the diaphragm 14, and is attached to the upper surface of the diaphragm 14. The plate 15 moves in the axial direction of the plate 15 as the diaphragm 14 elastically deforms. Further, the plate 15 has a stem 16 at a substantially central position.

The stem 16 is a rod-shaped member, and is attached to the plate 15 so as to face the axial direction of the plate 15. The stem 16 is provided with a hole 1601 on the tip end side (the end facing the lower case 2). The hole 1601 is a hole that penetrates in a direction perpendicular to the axial direction of the stem 16. The hole 1601 has a cross-sectional shape in which the upper surface and the lower surface are mountain-shaped. The stem 16 moves in the axial direction of the stem 16 as the plate 15 moves.

The pipe connecting portion 6 is a cylindrical member with both end faces open, and the primary side pipe is connected to one end and the secondary side pipe is connected to the other end. Further, the pipe connecting portion 6 is provided with a mounting portion 601 for mounting the orifice 7 inside. Further, the pipe connecting portion 6 is provided with an opening 602 on the side surface on one end side of the mounting portion 601. The pipe connecting portion 6 is connected to the side surface of the lower case 2 by a bolt or the like, and the opening 602 communicates with the hole 2011 of the plunger guide 201.

The orifice 7 is a cylindrical member with both end faces open, and is attached to the attachment portion 601. The orifice 7 constitutes a flow path at the boundary between the primary side pipe side and the secondary side pipe side in the pipe connecting portion 6.

The lever 8 is a plate-shaped member having a protrusion 801 at the apex portion. The protrusion 801 is inserted into the hole 1601 of the stem 16. Further, the lever 8 is provided with a fulcrum portion 802 on one end side of the bottom portion. The fulcrum portion 802 is rotatably connected to the support portion 202 of the lower case 2 and serves as a rotation fulcrum of the lever 8. Further, the lever 8 is provided with a cam portion 803 on the other end side of the bottom portion. One end of the plunger 9 is connected to the cam portion 803, and the plunger 9 is moved as the lever 8 rotates.

When the protrusion 801 is pushed down by the stem 16 moving downward, the lever 8 rotates about the fulcrum portion 802, and the cam portion 803 pulls the plunger 9 toward the front along with this rotation. Move to. On the other hand, when the protrusion 801 is pushed up by the stem 16 moving upward, the lever 8 rotates about the fulcrum portion 802, and the cam portion 803 moves the plunger 9 to the back with this rotation. Move it to push it out.

The plunger 9 is inserted into the hole 2011 of the plunger guide 201, one end (the end on the pressure sensing chamber 13 side) is connected to the cam portion 803, and the plug 10 is attached to the other end (the end on the pipe connecting portion 6 side). It is connected. The plunger 9 moves in the axial direction of the plunger 9 along the hole 2011 as the lever 8 rotates.

The plug 10 is a valve connected to the other end of the plunger 9, and is arranged so as to face one end of the orifice 7 so as to be in contact with the plug 10. That is, the plug 10 moves with the movement of the plunger 9 to open and close the orifice 7. The plug 10 adjusts the opening degree of the flow path between the primary side pipe and the secondary side pipe, adjusts the flow rate from the primary side pipe to the secondary side pipe, and adjusts the secondary pressure in the secondary side pipe. Is adjusted.

The vent mechanism 11 is provided at the end of the spring accommodating portion 101, and is a mechanism for allowing air to flow in and out of the atmospheric pressure chamber 12. As shown in FIG. 2, the vent mechanism 11 includes a lid portion 17, one or more vent rubbers 18, a vent configuration plate 19, a vent adjusting screw 20, and a vent control plate 21.

The lid portion 17 is attached to the end surface of the spring accommodating portion 101. A male screw is formed on a part of the outer peripheral surface of the lid portion 17, and the lid portion 17 is screwed into the female screw of the spring accommodating portion 101. The lid 17 is provided with a groove 1701 at substantially the center of the upper surface. The groove 1701 allows the end of the vent adjusting screw 20 to be inserted. Further, the lid portion 17 is provided with one or more vent holes 1702. The lid 17 shown in FIG. 3 is provided with four vent holes 1702. Further, the lid portion 17 is provided with a plurality of spacer screws 1703 on the upper surface thereof. The lid 17 shown in FIG. 3 is provided with four spacer screws 1703.

The vent hole 1702 is composed of a large diameter portion 17021 and a small diameter portion 17022. The large diameter portion 17021 is provided on the upper surface side of the lid portion 17, and the small diameter portion 17022 is provided on the lower surface side of the lid portion 17. The large diameter portion 17021 and the small diameter portion 17022 form a step portion 17023.

The shape, number, and position of the vent holes 1702 are not limited to the shape, number, and position shown in FIG. Further, the number and position of the spacer screws 1703 are not limited to the number and position shown in FIG.

The vent rubber 18 is an elastic member having a cut, and is attached to the vent hole 1702 (step portion 17023). The vent rubber 18 is a damper mechanism for adjusting the flow rate of air flowing in and out of the atmospheric pressure chamber 12. The vent rubber 18 is a maintenance part that needs to be replaced regularly.

The vent rubber 18 is provided with holes 1801, cuts 1802, and cuts 1803, for example, as shown in FIG. The hole 1801 is a hole provided at substantially the center of the vent rubber 18. The cut 1802 is a cut provided in a cross shape around the hole 1801 in the bent rubber 18. The cut 1803 is a cut provided in the bent rubber 18 in a straight line in a direction perpendicular to the direction of the cut 1802 with the end portion of the cut 1802 as a substantially center.

The shape of the cut formed in the vent rubber 18 is not limited to the shape shown in FIG.

The vent configuration plate 19 is a plate-shaped member mounted on the spacer screw 1703 included in the lid portion 17. The vent configuration plate 19 is provided with a hole 1901 in which a female screw is formed at substantially the center. The space formed by the vent configuration plate 19 and the lid 17 becomes a vent 22 that communicates with the outside (atmosphere).

The vent adjusting screw 20 is screwed into the female screw of the vent forming plate 19.

The vent control plate 21 is a plate-shaped member attached to the end of the vent adjusting screw 20 screwed into the female screw of the vent forming plate 19 and arranged so as to face the vent hole 1702 so as to be in contact with the vent hole 1702. The vent control plate 21 moves in the axial direction of the vent adjusting screw 20 when the vent adjusting screw 20 is screwed by the user. Then, by moving the vent control plate 21, the user can adjust the flow rate of the air flowing in and out of the atmospheric pressure chamber 12 via the vent rubber 18.

As described above, in the pressure regulator according to the first embodiment, the vent hole 1702 is provided in the lid portion 17 attached to the end surface of the spring accommodating portion 101. Here, the lid portion 17 is separate from the pressure adjusting screw 4, and is arranged outside the pressure adjusting screw 4. As a result, the user can work without loosening the pressure adjusting screw 4 when replacing the vent rubber 18 for maintenance or the like. That is, the user can replace the vent rubber 18 while maintaining the set pressure of the pressure regulator. The user does not need to disassemble the pressure regulator when replacing the vent rubber 18 for maintenance or the like.

Further, in a configuration in which the pressure adjusting screw is provided with a vent hole as in a conventional pressure regulator, the flow rate of air flowing in and out of the atmospheric pressure chamber cannot be adjusted.
On the other hand, the pressure regulator according to the first embodiment has a hole 1901 in which a female screw is formed, and is mounted on the spacer screw 1703 to form a vent 22 between the pressure regulator and the lid 17. Ventilation that is attached to the end of the plate 19, the vent adjusting screw 20 screwed into the female screw, and the vent adjusting screw 20 screwed into the female screw, and is arranged so as to face the vent hole 1702 so as to be in contact with the vent hole 1702. It is provided with a mouth control plate 21. As a result, the user can adjust the gap between the vent control plate 21 and the vent hole 1702 by the vent adjusting screw 20, and the flow rate of the air flowing in and out of the atmospheric pressure chamber 12 through the vent rubber 18 can be adjusted. It becomes adjustable.

Note that FIGS. 1 and 2 show a case where the pressure regulator is provided with the vent configuration plate 19, the vent adjusting screw 20, and the vent control plate 21. However, not limited to this, the pressure regulator may not be provided with the vent configuration plate 19, the vent adjusting screw 20, and the vent control plate 21. In this case, the lid portion 17 does not need to be provided with the groove 1701 and the spacer screw 1703.

Further, the pressure regulator is not limited to the configuration shown in FIG. 1, and may be appropriately changed as long as the lid portion 17 attached to the end surface of the spring accommodating portion 101 is provided with a vent hole 1702.

As described above, according to the first embodiment, the pressure regulator has an upper case 1 having an open end surface and a spring accommodating portion 101 having an open end surface on the surface facing the one surface, and one surface is open. The diaphragm plate assembly 5 sandwiched between the lower case 2, one surface of the upper case 1 and one surface of the lower case 2, a spring 3 having one end abutted against the diaphragm plate assembly 5, and a spring storage portion 101 are provided. A pressure adjusting screw 4 to which the other end of the spring 3 is connected, a lid portion 17 attached to the end surface of the spring accommodating portion 101 and having a vent hole 1702, and a vent rubber 18 attached to the vent hole 1702 are provided. As a result, in the pressure regulator according to the first embodiment, it is not necessary to disassemble the pressure regulator and reset the pressure of the pressure regulator when the user replaces the vent rubber 18.

In the present invention, it is possible to modify any component of the embodiment or omit any component of the embodiment within the scope of the invention.

1 Upper case (1st case)
2 Lower case (second case)
3 Spring 4 Pressure adjustment screw 5 Diaphragm plate assembly 6 Piping connection 7 Orchid 8 Lever 9 Plunger 10 Plug 11 Vent mechanism 12 Atmospheric pressure chamber 13 Pressure sensing chamber 14 Diaphragm 15 Plate 16 Stem 17 Lid 18 Vent rubber 19 Vent configuration plate 20 Vent adjustment screw 21 Vent control plate 22 Vent 101 Spring storage 201 Plunger guide 202 Support part 203 Inflow outlet 601 Mounting part 602 Opening 801 Protrusion part 802 Support point part 803 Cam part 1601 Hole 1701 Groove 1702 Vent hole 1703 Spacer screw 1801 Hole 1802 Cut 1803 Cut 1901 Hole 2011 Hole 17021 Large diameter part 17022 Small diameter part 17023 Step part

Claims (3)

A first case having a spring accommodating portion having an open end surface on one surface and an open end surface on the surface facing the one surface.
The second case with one side open and
A diaphragm plate assembly sandwiched between one side of the first case and one side of the second case,
A spring with one end abutted against the diaphragm plate assembly,
A pressure adjusting screw provided in the spring accommodating portion and to which the other end of the spring is connected,
A lid that is attached to the end face of the spring housing and has a vent hole,
A pressure regulator with a vent rubber attached to the vent hole. The pressure regulator according to claim 1, wherein a plurality of sets of the vent holes and the vent rubbers are provided. The lid portion has a plurality of spacer screws and has a plurality of spacer screws.
A vent configuration plate having a hole in which a female screw is formed and being mounted on the spacer screw to form a vent between the lid and the lid.
The vent adjustment screw screwed into the female screw,
1 or claim 1, wherein the vent control plate is attached to the end of the vent adjusting screw screwed into the female screw and is arranged so as to face the vent hole so as to be in contact with the vent hole. 2. The pressure regulator according to 2.

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