KR102260862B1 - Manifold assembly in which assembility is improved - Google Patents

Abstract

The present invention relates to a manifold assembly with improved ease of assembly and, more particularly, to a manifold assembly with improved ease of assembly, which supports a solenoid valve assembly by including a plurality of base blocks arranged in parallel to be connected in a front-rear direction, and first and second end blocks respectively installed on the front and rear of the connected base blocks. The base blocks and the first and second end blocks are coupled by shafts fitted into insertion holes formed on the left and right edges thereof. The base block has a protrusion formed on the front surface thereof and has a recess formed on the rear surface thereof to insert the protrusion, a positioning protrusion is formed on the circumference of a front insertion hole of the base block, and a positioning groove into which the positioning protrusion is inserted is formed on the circumference of a rear insertion hole of the base block. The first end block has a recess formed on the rear surface thereof to insert the protrusion of the base block, and a positioning groove into which the positioning protrusion of the base block is inserted is formed on the circumference of a rear insertion hole of the first end block. The second end block has a protrusion formed on the front surface thereof and inserted into the recess of the base block, and a positioning protrusion inserted into the positioning groove of the base block is formed on the circumference of a front insertion hole of the second end block. Therefore, the base block and the first and second end blocks can be easily and accurately assembled.

Description

Manifold assembly in which assembility is improved}

The present invention relates to a manifold assembly with improved assemblability, and more particularly, to a manifold assembly with improved assembling property that can be easily and accurately assembled by preventing several blocks connected to each other from moving in vertical and horizontal directions. .

In general, a solenoid valve for controlling an air cylinder or an actuator is used in the manufacturing process of automobiles and industrial machines.

In a fluid control system using a plurality of solenoid valves such as pneumatic or hydraulic pressure, the connection pipe between each solenoid valve and the driving device or control device is very complicated. The valve is installed and used.

The manifold assembly used in this way consists of a required number of solenoid valves, a plurality of base blocks that are individually mounted and connected to each other, and a plurality of base blocks installed on the outermost side of the base block to supply and discharge compressed air through the inside of the base block. Includes end blocks.

Such a conventional manifold assembly has a problem in that it is not easy to assemble between a plurality of base blocks and the end blocks installed on both sides of the base blocks.

Registered Utility Model: 20-0458450 (Application No.: 20-2009-0013107, Designation: Base Block Combination Structure of Manifold Type Solenoid Valve Assembly)

The present invention has been devised to solve the problems of the prior art, and assembling is easy and accurate by coupling a plurality of base blocks and end blocks installed on both sides of the base blocks in a relationship between the protrusions and the grooves into which the protrusions are inserted. An object of the present invention is to provide a manifold assembly with improved assemblability.

The manifold assembly with improved assembly according to the present invention for solving the above problems includes a plurality of base blocks arranged in parallel to be connected in the front and rear directions, and first and second end blocks respectively installed in front and rear of the connected base blocks. As supporting the solenoid valve assembly, including; The base block and the first and second end blocks are coupled by a shaft fitted into the insertion hole formed on the left and right edges; The base block has a protrusion formed on the front side and a concave portion into which the protrusion is inserted is formed on the rear side, a positioning protrusion is formed around the insertion hole of the front side, and a positioning groove into which the positioning protrusion is inserted is an insertion hole on the back side formed around; The first end block has a recessed portion into which the protrusion of the base block is inserted, and a positioning groove into which the positioning protrusion of the base block is inserted is formed around the insertion hole on the rear side; In the second end block, a protrusion to be inserted into the recess of the base block is formed on the front surface, and a positioning protrusion to be inserted into the positioning groove of the base block is formed around the insertion hole of the front side.

Here, the positioning protrusion of the base block and the positioning protrusion of the second end block are formed in a semicircular shape convex inward while extending in the vertical direction.

In addition, the protrusion and the concave portion of the base block, the concave portion of the first end block and the protrusion of the second end block have inclined surfaces inclined in the front-rear direction.

The manifold assembly of the present invention having the improved assemblability of the present invention configured as described above can easily and accurately assemble the base block and the first and second end blocks simply by inserting the protrusion into the concave portion and the positioning protrusion into the positioning groove. there is an advantage

In addition, inserting the protrusion into the recess can prevent the base block and the first and second end blocks from moving in the left and right directions, and inserting the positioning protrusion into the positioning groove causes the base block and the first and second end blocks to move up and down. There is an advantage that it can prevent movement in the direction.

In addition, since the positioning protrusion is formed to protrude in a semicircular shape around the insertion hole, there is an advantage in that the base block and the first and second end blocks can be efficiently prevented from moving in the vertical direction without interfering with the insertion hole.

In addition, since the protrusion and the concave portion have an inclined surface inclined in the front-rear direction, if the base block and the first and second end blocks are properly placed and then pushed toward each other, the base block and the first and second end blocks slide on the inclined surface to ensure an accurate position There are advantages to being located in

1 to 3 are views showing a manifold assembly with improved assembly according to the present invention.
4 is a view showing the base block of the manifold assembly with improved assembly according to the present invention.
5 is a view showing a first end block of the manifold assembly with improved assembly according to the present invention.
6 is a view showing a second end block of the manifold assembly with improved assembly according to the present invention.

Hereinafter, an embodiment of a manifold assembly having improved assembly according to the present invention will be described in detail with reference to the accompanying drawings.

1 to 3 are views showing a manifold assembly with improved assembly according to the present invention.

4 is a view showing a base block of a manifold assembly with improved assembly according to the present invention, FIG. 5 is a view showing a first end block of a manifold assembly with improved assembly according to the present invention, and FIG. 6 is a view showing a second end block of the manifold assembly with improved assembly according to the present invention.

The manifold assembly with improved assembly according to the present invention is for supporting the solenoid valve assembly (not shown) installed on the upper surface, and includes a plurality of parallel-arranged base blocks 10 and parallel-arranged base blocks 10 . It is configured to include a first end block 20 installed in the front, and a second end block 30 installed in the rear of the base block 10 arranged in parallel.

At this time, the plurality of base blocks 10 and the first end block 20 and the second end block 30 are coupled to each other by the shaft 40 fitted into the insertion holes 10a, 20a, 30a respectively formed on the left and right edges. is fixed

In more detail, the plurality of base blocks 10 and the first end block 20 and the second end block 30 are each formed with insertion holes 10a, 20a, 30a penetrating in the front and rear directions, and the base When the block 10 and the first end block 20 and the second end block 30 are connected to each other, the insertion holes 10a, 20a, and 30a formed in each communicate with each other. The shaft 40 is installed in the insertion holes 10a, 20a, and 30a, and the cover bolts 41 are screwed to both ends of the shaft 40 and tightened, so that the base block 10 and the first end block 20 are tightened. ) and the second end block 30 are firmly coupled.

And, the shaft 40 is selected and used to correspond to the overall length of the manifold assembly, which varies depending on the number of base blocks 10 installed in parallel. It is possible to use the shaft 40 by cutting what remains after being used in other operations to an appropriate length, and there is no need to use a specially manufactured one for the present invention.

The base block 10 has a plurality of fluid passages 10b formed in the front and rear directions, and the plurality of fluid passages 10b are arranged in parallel so that they can be connected to each other in the front and rear directions.

In the base block 10, the protrusion 11 is formed, the concave portion 12 is formed, the positioning protrusion 13 is formed, and the positioning groove 14 is formed.

The protrusions 11 are vertically elongated, one at the left and right ends of the front surface of the base block 10 . This protrusion 11 has an inclined surface 11a inclined in the front-rear direction.

The concave portion 12 is formed to be elongated in the vertical direction, one at the left and right ends of the rear surface of the base block 10, and the protrusions 11 of the other base block 10 adjacent to the concave portion 12 are inserted. . At this time, since the depth of the recess 12 and the height of the protrusion 11 are the same, and the formation positions of the recess 12 and the protrusion 11 are the same at both ends, the protrusion 11 may have been inserted into the recess 12. The front and rear surfaces of the base block 10 that are installed adjacent to each other are firmly in close contact.

And, the recessed portion 12 has an inclined surface 12a inclined in the front-rear direction. Therefore, when the base block 10 is pushed from both sides toward each other in order to bring the two base blocks 10 into close contact, the base blocks 10 on both sides are the inclined surface 11a of the protrusion 11 and the inclined surface of the concave portion 12 . Sliding on (12a) to easily hold it in place.

The positioning protrusion 13 is formed to protrude around the insertion hole 10a of the front surface of the base block 10 . These positioning protrusions 13 are formed in a semicircular shape convex inward while extending in the vertical direction. In other words, the positioning protrusion 13 starts from the upper side of the insertion hole 10a and is formed convexly inside the base block 10 and then extends to the lower side of the insertion hole 10a.

The positioning groove 14 is formed around the insertion hole 10a of the rear surface of the base block 10, and the positioning protrusion 13 is inserted. Since the positioning protrusion 13 is inserted, the positioning groove 14 is also formed in a semicircular convex shape while extending in the vertical direction.

The first end block 20 is installed in front of the base block 10 installed in connection, that is, installed in the front of the base block 10 installed in the front of a plurality of base blocks installed in parallel, through the inside of the base block 10 . Compressed air is supplied and discharged.

The first end block 20 has a rear surface, that is, a concave portion 21 and a positioning groove 22 are formed on the surface facing the base block (10).

The concave portion 21 of the first end block 20 is vertically elongated, one at the left and right ends of the rear surface of the first end block 20 , and the base block 10 adjacent to the concave portion 21 . ) of the protrusion 11 is inserted. At this time, the depth of the concave portion 21 of the first end block 20 and the height of the protrusion 11 of the base block 10 are formed to be the same.

And, the concave portion 21 of the first end block 20 has an inclined surface 21a inclined in the front-rear direction. Therefore, when the first end block 20 and the base block 10 are pushed from both sides in the horizontal direction toward each other to bring them into close contact, the first end block 20 and the base block 10 are separated from the first end block 20 . It slides on the inclined surface 21a of the groove 21 and the inclined surface 11a of the protrusion 11 of the base block 10 to easily hold the position.

The positioning groove 22 of the first end block 20 is formed around the insertion hole 20a of the rear surface of the first end block 20, and the positioning protrusion 13 of the base block 10 is inserted. . Since the positioning protrusion 13 of the base block 10 extends in the vertical direction and is formed in a convex semicircle inward, the positioning groove 22 of the first end block 20 also extends in the vertical direction and is inwardly convex semicircle. is formed with

The second end block 30 is installed in the rear of the base block 10 installed in connection, that is, installed in the rear of the base block 10 installed at the rearmost among a plurality of base blocks connected to each other through the inside of the base block 10 . Compressed air is supplied and discharged.

The second end block 30 has a front surface, that is, a protrusion 31 and a positioning protrusion 32 formed on the surface facing the base block 10 .

The protrusions 31 of the second end block 30 are vertically elongated, one at the left and right ends of the front surface of the second end block 30, and the protrusions 31 are adjacent to the base block 10. It is inserted into the recess (12). At this time, the height of the protrusion 31 of the second end block 30 and the depth of the recess 12 of the base block 10 are formed to be the same.

And, the protrusion 31 of the second end block 30 has an inclined surface 31a inclined in the front-rear direction. Therefore, when the second end block 30 and the base block 10 are pushed from both sides in the horizontal direction toward each other in order to be in close contact, the second end block 30 and the base block 10 are formed by the second end block 30 protrusion. (31) by sliding on the inclined surface (31a) of the base block (10) and the inclined surface (12a) of the recessed portion (12) to easily hold the position.

The positioning protrusion 32 of the second end block 30 is formed to protrude around the insertion hole 30a of the front surface of the second end block 30 and is inserted into the positioning groove 14 of the base block 10 . do. The positioning protrusion 32 of the second end block 30 is formed in a semicircular shape convex inward while extending in the vertical direction.

Meanwhile, between the first end block 20 and the base block 10 , between the base block 10 and the base block 10 , and between the base block 10 and the second end block 30 , a gasket (not shown) It is installed to improve the airtightness.

10: base block 10a: insertion hole
10b: fluid flow path 11: protrusion
11a: inclined surface 12: groove part
12a: inclined surface 13: positioning projection
14: positioning groove 20: first end block
20a: insertion hole 21: recess
21a: inclined surface 22: positioning groove
30: second end block 30a: insertion hole
31: protrusion 31a: inclined surface
32: positioning projection 40: shaft
41: cover bolt

Claims (3)

A plurality of base blocks 10 are arranged in parallel to be connected in the front and rear direction, and the first and second end blocks 20 and 30 respectively installed in front and rear of the connected base block 10 to support the solenoid valve assembly. In the manifold assembly to
The base block 10 and the first and second end blocks 20 and 30 have cover bolts at both ends of the shaft 40 after the shaft 40 is inserted into the insertion holes 10a, 20a, 30a formed at the left and right edges. (41) is helically bonded,
The base block 10 has a protrusion 11 formed on the front side and a concave portion 12 into which the protrusion portion 11 is inserted is formed on the rear side, and a positioning protrusion 13 around the insertion hole 10a of the front side. is formed and a positioning groove 14 into which the positioning projection 13 is inserted is formed around the insertion hole 10a on the rear side,
The first end block 20 has a recess 21 into which the protrusion 11 of the base block 10 is inserted, and a positioning protrusion 13 into which the positioning protrusion 13 of the base block 10 is inserted. A groove 22 is formed around the insertion hole 20a on the rear side,
The second end block 30 has a protrusion 31 that is inserted into the recess 12 of the base block 10 is formed on the front side, and is positioned to be inserted into the positioning groove 14 of the base block 10 . The protrusion 32 is formed around the front insertion hole 30a,
The positioning protrusion 13 of the base block 10, the positioning protrusion 32 of the second end block 30, the positioning groove 14 of the base block 10, and the first end block ( The positioning groove 22 of 20) is formed in a semicircle convex inward while extending in the vertical direction,
The protrusion 11 and the concave portion 12 of the base block 10, the concave portion 21 of the first end block 20 and the protrusion 31 of the second end block 30 are in the front-rear direction. It is formed to have inclined inclined surfaces 11a, 12a, 21a, and 31a, and when the first end block 20 and the base block 10 are pushed from both sides in the horizontal direction, the first end block 20 and the base block 10 ) slides on the inclined surface 21a of the concave portion 21 of the first end block 20 and the inclined surface 11a of the protrusion 11 of the base block 10, and the second end block 30 and the base block When (10) is pushed from both sides in the horizontal direction, the second end block 30 and the base block 10 are formed by the inclined surface 31a of the protrusion 31 of the second end block 30 and the recessed portion of the base block 10 ( 12) A manifold assembly with improved assembly, characterized in that it slides on the inclined surface 12a. delete delete

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