KR200168529Y1 - A sleeve for reducing the fluid-pressure of a tube - Google Patents

Abstract

The present invention forms a separate water discharge passage on one side of the water discharge compartment constituting the pressure reducing sleeve, so that water can be easily discharged into the pressure reduction compartment even if one or more of the first to tenth water discharge holes are not perforated. This invention relates to a pressure reducing sleeve of a water conduit that can minimize the defective rate of and reduce the cost of water inspection by enabling partial sampling inspection.

In the pressure reduction sleeve is formed pressure reducing compartment (1) including a water passage compartment (4) in which the first to tenth water discharge holes (411 to 420) are drilled; One side of the first to tenth water discharge holes 411 to 420 formed in the water passage compartment 2 is formed with a water discharge passage 41 having a rear opening, and one side of the water discharge passage 41. The inner partition 42 is characterized in that it is formed.

Description

A sleeve for reducing the fluid-pressure of a tube

The present invention relates to a pressure reducing sleeve of a water pipe, and in more detail, by forming a separate water discharge passage on one side of the water discharge compartment constituting the pressure reducing sleeve, one or more of the first to ten water discharge holes are perforated. It is related to a pressure reducing sleeve of a water pipe that can reduce the cost of water inspection by minimizing the defective rate of the product by allowing the water to be discharged, and by enabling the partial sampling inspection.

The general water conduit refers to a tube for ejecting water, and consists of a tube through which water passes and a plurality of ejection holes are formed, and a pressure reducing sleeve mounted on the inner diameter of the tube to reduce water pressure.

Hereinafter, the pressure reducing sleeve will be described in detail with reference to FIG. 3.

A pressure reducing compartment 1 including a water passage compartment 2 is formed in the middle of the outer diameter, and water passing through the water passage compartment 2 and the pressure reduction compartment 1 on both sides of the pressure reduction compartment 1 has a low pressure. The water discharge compartment (3) for discharging is formed.

Particularly, FIG. 4 illustrates a state in which one end of the pressure reducing sleeve is cut and developed virtually. In the pressure reducing compartment 1, the front partition 11 and the rear partition wall having an opening 111 formed on one side thereof ( 12) and both side bulkheads 13 are formed, and a plurality of horizontal bulkheads 14 are formed in the horizontal direction, the opening part 142 and one or more decompression wings 141 are formed, and the side bulkhead of one end is formed. An inner partition 15 having an opening 151 is formed in the front of the inner part 13, and a first to tenth water discharge hole 211 ˜ ~ is formed between the side partition 13 and the inner partition 15. The water passage compartment 2 in which 220 is formed is formed.

The water discharge compartment 3 is formed between both side partitions 13 of the decompression compartment 1 and both end partitions 31 formed at both ends, and the water is formed in the tube 100. It is to play a role to be ejected through the water discharge hole (101).

However, in manufacturing the conventional pressure reducing sleeve configured as described above, when forming the first to tenth water discharge holes (211 ~ 220) formed in the water passage compartment (2) by using a thin drill pin Although a pressure reducing sleeve was manufactured through an injection process, a defect in which the water discharge compartment 3 was clogged due to frequent breakage of the puncture pins.

Therefore, it is necessary to perform sampling inspection on the entire amount of the pressure reducing sleeve, which causes a problem of waste of inspection cost.

The present invention is designed to solve the above problems, one or more of the first to ten water discharge holes by forming a flow path on one side of the first to ten water discharge holes formed in the water discharge compartment constituting the sleeve It is an object of the present invention to provide a pressure reducing sleeve of a water conduit that enables partial sampling inspection by minimizing a defective rate of a product by allowing water to be easily discharged even if no abnormality is punctured.

The present invention for achieving the above object is, in a conventional pressure reducing sleeve is formed a pressure reducing compartment including a water passage compartment in which the first to tenth water discharge hole is drilled; One side of the first to the tenth water discharge hole formed in the water passage compartment is formed with a water discharge passage having a rear opening, characterized in that the inner partition is formed on one side of the water discharge passage.

1 is a perspective view showing a pressure reducing sleeve of the water pipe of the present invention.

Figure 2 is a plan perspective view that is developed by cutting a reduced pressure sleeve according to the present invention.

3 is a perspective view showing a pressure reducing sleeve of a conventional water pipe.

Figure 4 is a plan perspective view of the conventional pressure-reducing sleeve is cut virtually deployed.

Explanation of symbols for main parts of the drawings

1: decompression compartment

3: water discharge compartment

4: water passage compartment

41: water discharge passage

42: inner bulkhead

411 ~ 420: 1st water discharge hole ~ 10th water discharge hole

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a pressure reducing sleeve of the present invention, Figure 2 is a plan perspective view of the pressure reducing sleeve according to the present invention is developed by cutting virtually, as follows.

The front bulkhead 11, the rear bulkhead 12, and the two side bulkheads 13, in which the opening part 111 is formed at one side, are formed, and are formed in the horizontal direction, and the opening part 142 and the one or more decompression wings 141 are formed. A plurality of horizontal partition walls 14 are formed, and a water passage compartment 4 in which the first to tenth water discharge holes 411 to 420 are formed is formed inside the side partition wall 13 at one end. A pressure reducing compartment 1; In a conventional pressure reducing sleeve consisting of a water discharge compartment (3) formed between the two side partitions (13) and the two end partitions (31) of the pressure reduction compartment (1);

A water discharge passage 41 is formed at one side of the first to tenth water discharge holes 411 to 420 formed in the water passage compartment 2, and an inner partition wall is formed at one side of the water discharge passage 41. 42) is formed.

In addition, the rear side of the side partition wall 13 and the inner partition wall 42 formed on one side of the decompression compartment 1 are opened, so that the water discharge passage 411 is not perforated. Water passed through the second to tenth water discharge holes 412 to 420 through 41 may be introduced into the decompression compartment 1.

Reference numeral 100 denotes a tube, and 101 denotes a water discharge hole formed in the tube 100.

Hereinafter, the water flow of the pressure reducing sleeve configured as described above is as follows.

As shown in FIG. 2, water passing through the inner diameter of the tube 100 is first passed through the first to tenth water discharge holes 411 to 420, and the passed water passes through the first water passage compartment 2. After the pressure is reduced while moving to the decompression compartment (1), it is introduced into the discharge compartment (3) is to be ejected to the outside from the water discharge hole 101 formed in the tube (100).

Meanwhile, even when one or more of the drilling pins (not shown) for drilling the first to tenth water discharge holes 411 to 420 are broken during the manufacture of the pressure reducing sleeve, the discharged water is not drilled. The water passing through the ball is moved to the decompression compartment 1 through the water discharge passage 41 formed at one side of the water passage compartment 4, so that one of the first to tenth water discharge holes 411 to 420 is provided. Alternatively, even if no more is punctured, defects as a product are not generated.

The present invention as described above, by forming a separate water discharge passage on one side of the water discharge compartment constituting the pressure reducing sleeve, so that the water can be discharged even if one or more of the first to ten water discharge holes are not perforated Minimizing the defective rate of the product, as well as enabling the partial sampling inspection of the product has the effect of reducing the cost of full inspection.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible.

Claims (1)

The front bulkhead 11, the rear bulkhead 12, and both side bulkheads 13, in which the opening part 111 is formed at one side, are formed in the horizontal direction, and the opening part 142 and one or more decompression blades ( A plurality of horizontal bulkheads 14 having 141 formed therein are formed, and a water passage compartment 4 in which first to tenth water discharge holes 411 to 420 are formed is formed inside the side partition wall 13 at one end. A pressure reducing compartment 1; In a conventional pressure reducing sleeve consisting of a water discharge compartment (3) formed between the two side partitions (13) and the two end partitions (31) of the pressure reduction compartment (1); One side of the first to tenth water discharge holes 411 to 420 formed in the water passage compartment 2 is formed with a water discharge passage 41 having a rear opening, and one side of the water discharge passage 41. Decompression sleeve of the water pipe, characterized in that the inner partition 42 is formed.