JPH02135635A - Pressure switch - Google Patents

Abstract

PURPOSE:To enhance reliability and reduce cost of the subject switch by using a seal diaphragm and a pressure receiving diaphragm to form a diaphragm so that it is composed of the two pieces, and welding the periphery of the seal diaphragm to a coupling and also causing it to be pressed and stuck to the coupling and a stopper for receiving the pressure receiving diaphragm. CONSTITUTION:The flange portion 24 of a coupling 22 comprises an annular channel 24b formed around the periphery of its end face 24a which is located on the side of the diaphragm 26 of an outer case 27, and the edge portion 25a of a seal diaphragm 25, which is formed with a step as is the flange portion, is welded to the bottom face of the annular channel 24b. The seal diaphragm 25 can thus be positioned more simply so as to enable easier welding work of it, and its sealing performance also is enhanced. That portion 25b of the seal diaphragm 25 which abuts against the end face 24a of the flange portion is pressed and stuck to the end face 26a of the diaphragm 26 while the stepped edge 27a of the outer case 27 is calked to the flange portion 24, and hence the structure is strengthened and also the sealing performance is further enhanced.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) This invention provides the ability to generate a signal when the pressure of a fluid exceeds a certain limit and to stop the signal when the pressure returns to within the limit. The present invention relates to a diaphragm type pressure sudge.

(Prior Art) FIG. 5 shows an example of such a diaphragm type pressure cusp inch. A flow path 3 is formed in the axial center of a joint 2, one end of which is screwed into a mounting portion 1 of a fluid device or its piping. At the other end of the joint 2, there is a 7
The flange 4 is welded by a limiter 5. A diaphragm 7 is placed between this flange 4 and a stopper 6 having the same diameter.
The peripheral edges of the three parts are sandwiched, and the three parts are integrated by welding their outer peripheral surfaces to each other. The stopper 6 has
A switch case 9 covered with a cover 8 is attached via a mounting bracket 10.

Inside the switch case 9, a movable piece 12 having a movable contact 11 is fixed to a terminal 13, and the movable piece 12 has a rod-shaped actuator that passes through the stopper 6 and the cover 8 and has one end in contact with the diaphragm 7. 14 is in contact with the other end.

A fixed contact 16 provided on another terminal 15 faces the movable contact 11, and a lead wire 17.18 is connected to each terminal 13.15. And each member is
Except for the joint 2, it is covered by an outer case 19 fixed to the flange 4 assembly.

When the pressure of the fluid introduced into the flow path 3 of the joint 2 becomes higher than the specified pressure set by the diaphragm 7, the diaphragm 7 reverses and presses the movable piece 12 via the actuator 14, causing the movable piece to move. The vJ contact 11 contacts the fixed contact 16 and the electrical circuit between the terminals 13, 15 is closed. When the pressure of the fluid falls below the specified pressure, the diaphragm 7 returns to its original position and the electrical circuit between the terminals 13, 15 is opened.

(Problems to be Solved by the Invention) Such a pressure switch is required to have high reliability in terms of performance and structure, and is also required to be inexpensive. High performance reliability means stable operation with little change in characteristics, and high structural reliability means high breakdown pressure resistance, high sealing performance, and long life. It is.

In the pressure switch shown in FIG. 5, a yellow tj4tJ joint 2 and a stainless steel flange 4 are welded with silver solder 5. Brass and silver solder have poor corrosion resistance and chemical resistance, so there is a risk that sealing performance will be reduced, and silver solder and stainless steel do not have good adhesion, so there is a risk of insufficient strength and poor sealing. Further, since the diaphragm 7 is welded between the flange 4 and the stopper 6, there is a problem that its characteristics tend to change due to expansion during welding and contraction during cooling. In addition, there is a problem that the number of parts is large and the cost is high.

SUMMARY OF THE INVENTION An object of the present invention is to provide a pressure switch that is highly reliable and can be reduced in cost.

(Means for Solving the Problems) A pressure switch according to the present invention operates a diaphragm by the pressure of fluid introduced into a joint to open and close the switch, in which the diaphragm is connected to a seal diaphragm on the joint side and a seal diaphragm on the switch side. The seal diaphragm has a two-piece configuration, and the peripheral edge of the seal diaphragm is welded to the joint and crimped between the joint and a stopper that receives the pressure diaphragm.

(Example) FIG. 1 shows an embodiment of the invention.

A stainless steel joint 22, one end of which is screwed into a mounting portion 21 of a fluid machine or its piping, has a flow path 23 formed in its axial center. The other end of the joint 22 is a large-diameter flange 24, and a stainless steel seal diaphragm 25 is welded to the periphery of the end surface. The flange portion 24 of the joint 22 is inserted into one cylindrical portion of a cylindrical outer case 27 made of stainless steel, which has a partition wall 26 in the middle thereof, and the end edge 27a of the outer case 27 is swaged. is attached to the outer case 27.

End surface 26a of the partition wall 26 of the outer case 27 on the joint 22 side
A circular recess 28 is formed in the recess 28, and a pressure receiving diaphragm 29 made of stainless steel is accommodated and supported within the recess 28.

Outer case 2 serving as a stopper for pressure receiving diaphragm 29
A hole 30 through which a rod-shaped actuator 30 passes is formed in the center of the partition wall 26 of No. 7. Partition wall 2 of outer case 27
A switch case 32 made of heat-resistant resin is inserted into the other cylindrical portion defined by 6, and the other end edge 27b of the outer case 27 is caulked to the outer stepped portion of the switch case 32, thereby converting the switch case 32 into an outer case. It is attached to 27.

The opening of the switch case 32 on the side of the partition wall 26 is covered with a cover 34 via a seal/leaf packing 33.

A guide hole 35 through which the actuator 30 passes is formed in the center of the cover 34 . A movable piece 38 is attached to the intermediate wall 36 of the switch case 32 via a terminal 37, and a movable vJ contact 39 is fixed to the tip of the movable piece 38. On both sides of this movable contact 39, fixed contacts 42, 43 fixed to terminals 40, 41 fixed to the intermediate partition wall 36 are arranged facing each other, and each terminal 37.
Lead wires 44°, 45.46 are connected to 40.41, respectively.

FIG. 2 shows details of section A in FIG. 1. The flange portion 24 of the joint 22 is connected to the partition wall 26 of the outer case 27.
An annular groove 24b is formed on the periphery of the side end surface 24a, and a seal diaphragm 25 is formed on the bottom surface of this annular groove 24b.
Similarly, a peripheral edge 25a formed with a step is welded. As shown in FIG. 3, this welding is performed by holding the peripheral edge 25a of the seal diaphragm 25174 against the bottom surface of the annular groove 24b with a pressing jig 47, and irradiating the laser beam 48 while rotating the joint 22 to join them together. Good too. Alternatively, as shown in FIG. 4, seam welding may be performed by rotating the joint 22 and the electrode 49 while pressing the peripheral edge 25a of the seal diaphragm 25 against the bottom surface of the annular groove 24b with a roller electrode 49. In this way, the peripheral edge 25 of the seal diaphragm 25 formed in a hat-shaped cross section
By inserting the seal diaphragm 25 into the annular groove 24b on the periphery of the flange portion of the joint 7 and welding it to the bottom surface thereof, the seal diaphragm 25 can be positioned reliably, making the welding work easier and improving the sealing performance. As shown in FIG.
By caulking the edge 27a of the outer case 27 to the flange portion 24 and crimping it to the end surface 26a of the partition wall 26, the structure becomes stronger and the sealing performance is further improved.

In FIG. 1, the pressure of the fluid introduced into the flow path 23 of the joint 22 first bends the seal diaphragm 25, then the seal diaphragm 25 and the pressure receiving diaphragm 2.
When the pressure exceeds a certain value defined by 9, both of them are reversed and the actuator 30 is pushed, and the movable piece 3
8 is pressed, the movable contact 39 contacts one fixed contact 4.
2 to the other fixed contact 43, and this switching is electrically taken out through the leads [1144, 45, 46]. When the pressure of the fluid introduced into the flow path 23 decreases below the specified pressure, the seal diaphragm 25 and the pressure receiving diaphragm 29 are reversed again to their original states, and the movable piece 38 returns to its original state due to its own elasticity, making it movable. The contact between the three contacts is from the other fixed contact 43 to one fixed contact 4
Switch to 2.

(Effects of the Invention) As described above, the pressure switch according to the present invention operates the diaphragm by the pressure of the fluid introduced into the joint to open and close the switch. The periphery of the seal diaphragm is welded to the joint and crimped between the joint and the stopper that receives the pressure diaphragm, so the seal of the seal diaphragm becomes double and the sealing performance is improved. In addition to further improvements, the structure becomes simple and strong, the lifespan is shortened, and costs can be reduced by reducing the number of parts and assembly man-hours. Furthermore, since it is the seal diaphragm that directly receives the pressure of the fluid, the pressure characteristics can be set by the characteristics of the pressure receiving diaphragm, and the characteristics are stabilized. Furthermore, if both the joint and the seal diaphragm are made of stainless steel, the weldability when welding the seal diaphragm to the joint will be good, and the sealing performance will be further improved.

[Brief explanation of the drawing]

FIG. 1 is a sectional view of a pressure switch showing an embodiment of the present invention, FIG. 2 is an enlarged view of part A in FIG. 1, and FIGS. FIG. 5 is a partial cross-sectional view showing how the seal diaphragm is welded to the fitting.
FIG. 2 is a sectional view showing an example of a conventional pressure switch. 21... Mounting part, 22... Joint, 23... Channel,
24... Flange portion, 25... Seal diaphragm, 26... Partition wall (stopper), 27... Outer case, 29... Pressure receiving diaphragm, 30... Operator,
32...Switch case.

Claims (1)

[Claims] In a pressure switch that operates a diaphragm to open and close the switch by the pressure of fluid introduced into the joint, the diaphragm is composed of two pieces, a seal diaphragm on the joint side and a pressure receiving diaphragm on the switch side, and the periphery of the seal diaphragm is A pressure switch, characterized in that the pressure switch is welded to the joint and crimped between the joint and a stopper that receives the pressure receiving diaphragm.