JPH0433447Y2 - - Google Patents

Description

[Detailed description of the invention] [Summary] A lever is formed integrally with an intermediate block made of synthetic resin, and a hook is formed at the free end of the lever to hold the locking edge of the mounting rail. A temporary fixing hook is made of synthetic resin and is integrated with an intermediate block made of synthetic resin, so that the intermediate block can be slid smoothly while being attached to the mounting rail.

[Industrial application field]

The present invention relates to a solenoid valve connection structure in which a plurality of solenoid valves are connected and attached in one group for ease of installation, organization, and handling.

[Conventional technology]

The inventor of this invention is as of May 12, 1988.
As shown in Utility Model Application No. 59-69297, we proposed a solenoid valve connection structure that allows a desired number of solenoid valves to be securely mounted in any position with simple operation, as shown in FIGS. 1 to 5. Fig. 1 is a partial sectional view of the connecting structure of this electromagnetic valve, Fig. 2 is a perspective view showing the entire structure of the connecting structure, Fig. 3 is a sectional view of the intermediate block installed, and Fig. 4 is a sectional view of the connecting structure of the solenoid valve.
This figure is a perspective view of the same state, and FIG. 5 is a perspective view of the clamp portion of the end block.

A plurality of intermediate blocks 2 are attached to the mounting rail 1...
... are attached in close contact with each other,
An air supply end block 3 is attached to the left side of the left end intermediate block 2L, and an exhaust side end block 4 is attached to the right side of the right end intermediate block 2R.

Each intermediate block 2... has three through holes 5, 6, 7, as shown in FIG.
The center through hole 5 is an air supply path, and the two through holes 6 and 7 on both sides are exhaust paths. Usually, a plurality of intermediate blocks are arranged in close contact with each other, and the air supply passages 5 and exhaust passages 6, 7 of adjacent intermediate blocks 2 are connected to each other. For this purpose, as shown in Figure 1,
At one end of the air supply path 5 and the exhaust paths 6 and 7,
It has a cylindrical convex part 8, and an O-ring 9 at the other end.
is inserted. Therefore, as shown in FIG. 1, by sequentially inserting the cylindrical convex portions 8 of the intermediate blocks into the O-rings of adjacent intermediate blocks, the air supply passages 5 and the exhaust passages 6, 7 are connected to each other.

The left end block 3 is equipped with a communication passage 11 that is connected to a pipe 10 that connects to a pressure source such as a compressor. 2L
The cylindrical convex portion 8 is inserted. In addition, the right end block 4 is equipped with a communication path 13 that is connected to a pipe 12 that connects to an exhaust section such as a muffler.
The cylindrical convex portion disposed at the end of this communication path 13 is
It is inserted into the O-ring 9 of the right-most intermediate block 2R.

Each intermediate block 2L, 2, 2R has a solenoid valve 1.
4 is attached, and each electromagnetic valve 14 communicates with the air supply path 5 and the exhaust path 7 through communication paths 15 and 16. Furthermore, one end of the communication passage 17 opened in the intermediate block is connected to the air supply port of the solenoid valve, and the other end is connected to the piping 18.
is supplied to equipment such as actuators such as pneumatic cylinders. Note that 19 is the solenoid valve 1
This is a terminal board attached to the solenoid part of No. 4.

These intermediate blocks and end blocks are mounted and fixed on the mounting rail 1. That is, the mounting rail 1 is integrally provided with locking edges 20 and 21 formed by bending both ends of a U-shaped groove outward substantially horizontally. As shown in FIG. 3, the intermediate block 2... and the end blocks 3, 4 have a locking pawl 22 hooked onto the locking edge 20 on one side of the mounting rail 1 at a position corresponding to the locking edge 20.
It is equipped with

A clip means is provided at a position corresponding to the locking edge 21 of the intermediate block 2. This clip means has an elastic U-shaped clip fitting 23 whose both base ends are rotatably attached to the hole 24 of the intermediate block 2, and a jaw-shaped locking part 25 is formed at the tip. As shown, the jaw-like locking portion 25
When the metal fitting 23 is fitted into the lower side of the locking edge 21, both arms 26 and 27 of the metal fitting 23 are inserted into the groove 2 of the intermediate block.
8 and 29, the metal fitting 23 is stable, and the intermediate block 2 is fixed to the locking edge 21 by the jaw-shaped locking portion 25. By forcibly rotating the jaw-shaped locking portion 25 in the direction of arrow _a , both arm portions 2
6 and 27 are removed from the grooves 28 and 29, the jaw-like locking portion 25 is disengaged from the locking edge 21.

The end blocks 3, 4 are provided with clamping means at positions corresponding to the locking edges 21. 30 is a tightening fitting, which is made by bending a sheet metal into a U-shape, and a tightening screw 3 is inserted into the female thread cut at the base end.
1 are screwed together. There is a claw 3 at the tip of the metal fitting 30.
2 and 33 are formed so as to be hooked onto the locking edge 21. A U-shaped support metal fitting 34 is fixed to the end blocks 3, 4, and the tip of the tightening screw 31 is abutted against the lower arm portion 35a of the support metal fitting 34. Notch 36 formed in upper arm portion 35b
A tightening screw 31 is inserted into and supports the metal fitting 30 as a guide. A cover 37 that surrounds the support fitting 34 and the tightening fitting 30 has slits 40 and 41 into which convex portions 38 and 39 formed on both arms of the tightening fitting 30 can be fitted, as shown in FIG. .

To attach the end blocks 3, 4 to the mounting rail 1, use the locking edges 2 of the end blocks 3, 4.
With the claw 22 on the 0 side hooked, hook the claws 32 and 33 of the tightening fitting 30 onto the locking edge 21.
Then, with the protrusions 38 and 39 protruding from the slits 40 and 41 pushed in, tighten the tightening screw 3.
1, the tip of the screw hits the arm 35a, the claws 32 and 33 are caught on the locking edge 21, and the tightening fitting 30 is tightened.
The end blocks 3, 4 are clamped to the mounting rail 1.

To remove, loosen the screw 31, slide it in the slit 36 in the direction of arrow _a , and tighten the tightening fitting 30.
All you have to do is remove it from the locking edge 21 and then remove the claw 22 on the locking edge 21 side.

Intermediate block 2 and end blocks 3, 4
In the state where the claw 22 on the locking edge 20 side is hooked as described above, the intermediate block 2 is attached to the jaw-shaped locking portion 25.
and the end blocks 3 and 4 are clamped with tightening fittings 30 and screws 31. At this time, with only the claw 22 on the locking edge 20 side hooked, slide the intermediate block 2 and end blocks 3 and 4 on the mounting rail 1, and then slide the cylindrical protrusion 8 into the O-ring of the adjacent block. 9, and lock or clamp the locking edge 21 side. As shown in Fig. 4, intermediate block 2...
...and the protrusions 40 formed on the side surfaces of the end blocks 3 and 4 are fitted into recesses formed at corresponding positions in the adjacent blocks to determine the position between the adjacent blocks.

When compressed air is supplied from the piping 10 on the air supply side in the assembled state as shown in Figs. and is used to drive the actuator. In addition, the exhaust from the actuator is routed through another pipe → solenoid valve 14 → exhaust path 6,
7 → communication path 13 of end block 4 → pipe 12 and is discharged.

As described above, according to the connection structure previously proposed by the inventor of the present invention, any number of intermediate blocks and end blocks can be installed at any position on the mounting rail, making it easy to install the solenoid valve. ing. In addition, since the end blocks at both ends are firmly fixed by a clamp mechanism, the pressure of compressed air passing through the air supply and exhaust passages can deteriorate the connection between each block and cause fluid leakage. Not at all. Moreover, the intermediate block can be attached and detached with a simple one-touch operation, and the screw tightening operation only requires the clamping mechanism of the end blocks at both ends. In addition to this ease of attachment and detachment operations to the mounting rail, the ability to attach any number of intermediate blocks to any position on the mounting rail as described above allows for flexible organization and modification of the pneumatic circuit. can be done.

[The problem that the idea attempts to solve]

Incidentally, the mounting rail 1 is often made of aluminum in order to reduce weight, but the clip fittings 23 are made of spring steel and are therefore much harder than the aluminum mounting rail 1. Therefore, the clip metal fitting 23 bites into the edge of the locking edge 21 of the aluminum rail 1 due to the spring pressure, resulting in damage.

As a result, when knitting is done by sliding each intermediate block 2... and end blocks 3, 4 along the mounting rail 1, the clip fittings 23 of intermediate block 2, end blocks 3, 4 are adjusted. The claws 32, 3 of the tightening fitting 30 of No. 4
3 gets caught in the scratches and cannot slide smoothly, making it impossible to perform the knitting work smoothly.

The technical problem of the present invention is to solve such problems in the conventional solenoid valve coupling mechanism and to prevent the mounting rail from being damaged.

[Means for solving problems]

FIG. 6 is a partial sectional view corresponding to FIG. 3, showing the basic configuration of the electromagnetic valve connection structure according to the present invention. The intermediate block 2 is made by molding resin, and is integrated with the lever 42.
is formed. The lever 42 extends at right angles to a line connecting both the locking edges 21 and 22 of the mounting rail 1,
The base end 43 is integrally connected to the intermediate block 2, and the distal end is free. That is, it is a cantilevered beam, and a hook 44, like the head of a golf club, is integrally molded on the free end. This hook 44 is connected to the locking edge 2 of the guide rail.
1 has a protrusion 44a protruding from the protrusion 4.
4a is formed into a tapered shape with an upper slope 44b and a lower slope 44c. When this intermediate block 2 is attached to the mounting rail 1, the bottom surface 45 of the intermediate block 2 and the upper slope 4 of the hook 44 are connected to each other.
4b, the locking edge 21 of the guide rail 1 is sandwiched between the guide rail 1 and the guide rail 4b. Since the lever 42 is integrally molded with the intermediate block 2 made of resin, it has a spring property corresponding to its span, and when force is applied to the hook 44 side, it bends in the directions of arrows a ₃ and a ₄ . do.

[Effect]

The intermediate block 2 of the present invention is also attached to the mounting rail 1 by hooking the claw 22 onto one of the locking edges 20 and then hooking the hook 44 of the lever 42 onto the other locking edge 21. . FIG. 7 is a diagram of essential parts for explaining the operation when attaching and detaching the intermediate block 2 of the present invention to and from the mounting rail 1. When the claw 22 of the intermediate block 2 is hooked on the locking edge 20 and the hook 44 is pressed against the locking edge 21, the state shown in the figure is obtained. In this state, the lever 42 of the intermediate block 2
When pressing the side in the direction of arrow a ₅ , the lever 42
Due to the springiness of the hook 44, the hook 44 retreats in the direction of arrow _a4 , and the amount of retreat of the hook 44 reaches its maximum at the point where the tip of the protrusion 44a abuts the locking edge 21. When the tip of the protrusion 44a passes the locking edge 21 by further pressing, the hook 44 returns to its original position in the direction of arrow _a3 due to the spring properties of the lever 42, and due to the spring properties of the lever 42, the upper end of the protrusion 44a The slope 44b comes into pressure contact with the lower surface of the locking edge 21, resulting in the state shown in FIG.

In this way, with the locking edge 21 being held between the hook 44 and the bottom surface 45 of the intermediate block by the spring properties of the lever 42, the intermediate block 2 is attached to the rail 1.
When the intermediate block 2 is slid along the lever 42, the intermediate block 2 can be slid while being attached to the mounting rail 1 and temporarily fixed by the spring properties of the lever 42. Hook 44 is
Because it is made of synthetic resin and is integrally molded with the intermediate block 2,
By using a synthetic resin having a hardness lower than that of the mounting rail 1, the mounting rail 1 will not be damaged. In addition, since the hook 44 made of low hardness resin has low frictional resistance with the metal mounting rail 1,
Even if the hook 44 gets caught on the mounting rail 1, smooth movement will not be hindered.

When the lever 42 side of the intermediate block 2 is pulled and force is applied in the direction opposite to the arrow ₅ in FIG. 7 while it is attached to the guide rail 1 as shown in FIG. 6, the locking edge 21 The protrusion 44a is relatively lowered along the upper slope 44b, and the hook 44 is retreated in the direction of arrow _a4 . When the locking edge 21 passes the tip of the protrusion 44a, the hook 44 is released from the locking edge 21 and returns to its original state as shown in FIG. 7 due to its spring properties.

〔Example〕

Next, how the electromagnetic valve connection structure according to the present invention is actually implemented will be explained using examples. 8A and 8B are perspective views showing various embodiments of the lever 42. FIG. The lever 42 in A has a thickness of t and a width of l.
The upper slope 44b and the lower slope 44c of the projection 44a are also formed over the entire width l of the lever 42.

On the other hand, two levers 42a and 42b are formed on both sides of a reinforcing rib 46 formed exactly on the center line of the intermediate block 2. At the tip of each lever 42a, 42b, a projection 44 having an upper slope 44b and a lower slope 44c is provided.
a is formed. Therefore, in the case of b, 2
The locking edge 21 is held between the two hooks 44, 44 at the tips of the book levers 42a, 42b and the bottom surface 45 of the intermediate block 2.

[Effect of idea]

As described above, according to the present invention, the intermediate block 2
A hook 44 at the tip of a lever 42, which is integrally molded with resin, grips the locking edge 21 of the guide rail 1 by the spring properties of the lever 42. Therefore, the hook 44 will not damage the locking edge 21, and even if the hook 44 is slid along the guide rail 1 while being engaged with the locking edge 21,
It can slide smoothly without getting caught. Therefore, while the intermediate blocks 2 and end blocks 3 and 4 are temporarily fixed to the guide rail 1, they can be freely slid and moved to desired positions to perform knitting. Furthermore, by making the temporary fixing means of the intermediate block 2 integral with the intermediate block 2, the structure can be simplified and manufacturing costs can be reduced.

[Brief explanation of the drawing]

Figures 1 to 5 show a conventional solenoid valve connection structure that was previously proposed by the inventor of the present invention. Figure 1 is a partial sectional view, and Figure 2 is a perspective view showing the entire connection structure. 3 is a cross-sectional view of the intermediate block in the attached state, FIG. 4 is a perspective view of the same state, and FIG. 5 is a perspective view of the clamp portion of the end block. Fig. 6 is a partial sectional view showing the basic structure of the solenoid valve connection structure according to the present invention, Fig. 7 is a view of the main part explaining the operation of the connection structure, and Fig. 8 is a diagram showing various implementations of the lever section of the intermediate block. It is a principal part perspective view which shows an example. In the figure, 1 is the mounting rail, 2... is the intermediate block, 3, 4 are the end blocks, 20, 21
is a locking edge, 42, 42a, 42b are levers, 44
is a hook, 44a is a protrusion, 44b is an upper slope, 4
4c indicates the lower slope, respectively.

Claims (1)

[Claims for Utility Model Registration] One or more intermediate blocks made of synthetic resin are attached to a metal mounting rail having locking edges on both sides using the locking edges, and on both sides of the intermediate block. This is a solenoid valve connection structure in which an end block is disposed and attached using a locking edge, and at least a solenoid valve is attached to the intermediate block, and at least the intermediate block is configured to connect the solenoid valve and equipment such as an actuator. An air supply passage and an exhaust passage having a connecting passage and penetrating in a direction parallel to the mounting rail, a communication passage between the air supply passage and exhaust passage and the solenoid valve, and an air supply passage of an adjacent intermediate block. The intermediate block made of synthetic resin has a lever extending perpendicularly to the line connecting the locking edges on both sides of the mounting rail, and A hook is formed at its free end, and the hook has a shape that projects toward the mounting rail and has a tapered projection on an upper slope and a lower slope, and the upper slope and the bottom surface of the intermediate block are connected to each other. A solenoid valve connection structure characterized by having a structure in which a locking edge is sandwiched between the solenoid valves.