JP2869598B2 - Equipment piping pressure test equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pressure test apparatus for equipment piping.

[0002]

2. Description of the Related Art In general, in equipment piping for buildings,
If a water leakage accident occurs after the completion of a building, interior finishing materials, various facilities such as OA equipment installed in the room, products, exhibits, etc. will be ruined, and the damage will be enormous.

For this reason, in accordance with the progress of plumbing work, water or air is injected into the completed plumbing equipment at predetermined intervals, and static pressure or dynamic pressure is applied to check for leaks. If there is, the piping equipment is further evacuated and a negative pressure is applied to perform various withstand pressure tests, to find defective connection points in the equipment piping, to repair the pipes, retighten connection hardware, and the like.

However, conventionally, in order to perform a pressure test for applying a static pressure, a pressure test for applying a dynamic pressure, a pressure test for applying a negative pressure, and the like, an air compressor, a water pump,
Since a plurality of different pressure sources such as vacuum pumps were separately prepared, the whole apparatus became very large and expensive.

[0005]

SUMMARY OF THE INVENTION The present invention has been made in consideration of the above points, and an object of the present invention is to use one pressure source to reduce static pressure, dynamic pressure, and negative pressure. An object of the present invention is to provide a compact and versatile pressure test apparatus for equipment piping capable of performing various pressure test tests.

[0006]

Means for Solving the Problems Technical means adopted by the present invention to achieve the object to solve the above problems are as follows. That is, the pressure test apparatus for equipment piping according to the present invention has a suction connection part and a first stop valve at one end, and a discharge connection part and a second stop valve at the other end. A first one-way valve for preventing a flow to the suction connection side is interposed in a pipe portion between the pump and the suction connection portion, connected to a cylinder type pump, and the pump and the discharge connection portion. A second one-way valve for blocking the flow to the pump side is interposed in the pipe portion between the first and second pumps, and a bypass pipe bypassing the second one-way valve is provided. The feature is that the valve is interposed.

[0007]

When the above-mentioned apparatus is used, for example, various pressure tests of equipment piping can be performed as follows.

Pressure test by static pressure (water pressure) A hose connected to a discharge connection is connected to the other end of the equipment pipe having one end closed, and the other end of the hose connected to the suction connection is connected to a water tank. insert within the first stop valve and the second stop valve open, in a state where the third stop valve V ₃ and the closed, driving the cylinder pump. When a negative pressure is generated in the cylinder chamber due to the piston movement in one direction of the cylinder pump, the water in the water tank becomes first.
Is drawn into the cylinder chamber via a one-way valve. When the pressure in the cylinder chamber increases due to the piston movement in the opposite direction, the water in the cylinder chamber is supplied to the equipment piping through the second one-way valve, the discharge connection, and the hose connected to the discharge connection. You. Since the pressure in the equipment piping gradually increases,
When the set value is reached, stop the pump and
Close the stop valve and confirm whether the pressure drop in the equipment piping over time is observed.

[0009] By performing the above-mentioned pumping operation with one end of the equipment pipe open, water can be filled into the equipment pipe in an empty state. It is desirable to fill the pipe with water in advance to quickly perform the pressure test.

Withstand pressure test by static pressure (air pressure) The same operation as above is performed with the other end of the hose having one end connected to the suction connection portion exposed to the air.

Withstand pressure test by dynamic pressure (water pressure) When water is filled in the equipment piping and a predetermined water pressure is reached, the first stop valve is closed, and the piping system is closed.
Thereafter, the cylinder pump is driven with the third stop valve opened. When the pressure in the cylinder chamber rises due to the piston movement of the cylinder pump, water in the cylinder chamber is sent to the equipment piping through the third stop valve, and when the pressure in the cylinder chamber becomes negative, water in the equipment piping becomes the third. Flows through the stop valve to the cylinder chamber side, so that pressure fluctuation (pulsation) corresponding to the piston movement of the cylinder type pump is given to the equipment piping.

Pressure test by negative pressure (pneumatic pressure) A first stop valve and a second stop valve are connected to the other end of the equipment pipe whose one end is closed, and the other end of a hose having one end connected to a suction connection portion. Is opened, the third stop valve is closed, and the cylinder type pump is driven in a state where the discharge connection portion is opened to the atmosphere. As a result, the air in the equipment piping is moved to the first position due to the piston movement of the cylinder pump.
Through the one-way valve and the second one-way valve, the gas is discharged from the discharge connection portion into the atmosphere, so that a negative pressure can be generated in the equipment piping.

[0012]

FIG. 1 shows an example of an apparatus for testing the pressure resistance of equipment piping according to the present invention. In the figure, 1 is a cylinder pump,
2 is a hydraulic cylinder device that constitutes a drive mechanism of the pump 1, P is a hydraulic pump that drives the hydraulic cylinder device 2, A is a control panel, B is a recorder of test results, and C and D are hoses. It is mounted on a trolley (not shown). E is an attachment interposed between the equipment pipe and the pressure test device as required, F is a water tank, and G is a pressure sensor for sending a measurement signal to the control panel A.

Reference numeral 3 denotes a solenoid valve for switching the flow path of the pressure oil.
When the operating piece 4 connected in a linked state with the key a kicks the two limit switches L ₁ and L ₂ provided on the reciprocating path, the solenoid of the solenoid valve 3 is excited or demagnetized, and the flow path is changed. It is configured to switch. Reference numerals 5a and 5b denote checked throttles for adjusting the speed of the expansion / contraction operation of the hydraulic cylinder device 2. Reference numeral 6 denotes a relief valve, 7 denotes a hydraulic gauge, and 8 denotes a pressure switch. The pressure switch automatically stops the hydraulic pump P when the pressure in the hydraulic system exceeds a normal use range.

[0014] The cylinder pump 1 has at one end a suction connection 9 the first stop valve V _1, the discharge connection 10 on the other end side pipe having a second stop valve V ₂ Connected in the middle of 11. First one-way valve CV ₁ is interposed, the pump 1 and the discharge connecting portion for blocking the flow of the suction connecting portion 9 side to the pipe portion 11a between the pump 1 and the suction connection 9 the piping 11b between the 10 second one-way valve CV ₂ are interposed to prevent the flow of the pump 1 side. 12 is a bypass pipe that bypasses the second one-way valve CV _2, a third stop valve V ₃ is interposed in the bypass pipe 12.

[0015] In the illustrated embodiment, bypass piping portion 11a and the third stop valve V ₃ discharge connecting portion 10 side than between the first stop valve V ₁ and the first one-way valve CV ₁ and the branch pipe 13 is provided over the pipe portion 12a, but the third one-way valve CV ₃ is interposed to prevent the flow of the suction connecting portion 9 side to the branch pipe 13, these branch pipe 13 and the third one-way valve CV ₃ may be implemented omitted. Branch pipe 13 and third one-way valve CV ₃
When providing the a, a third one-way valve CV _3, configured to operate open in the first one-way valve CV ₁ and second weaker pressure than the one-way valve CV ₂ or, at least, a first one-way valves CV ₁ and as the resistance of the second flow than when flowing through both of the one-way valve CV ₂ is configured to be smaller.

The piping section 11b near the _second stop valve V2 and the piping of the attachment E are provided with valves 14a and 14b for connecting pressure sensors, respectively. It is configured to selectively connect to 14b. 15a and 15b are connection portions provided at both ends of the hose C, 16 is a connection portion provided at one end of the hose D, 17a and 15b.
Reference numeral 17b denotes connection portions provided at both ends of the pipe of the attachment E. The connection portions 15a, 15b, 16, 17a, 17b, the suction connection portion 9 and the discharge connection portion 10 include:
It is desirable to use a one-touch coupler or the like that is easy to connect. V ₄ is the fourth stop valve provided in the middle pipe attachment E.

Next, a method of using the above device will be described. Pressure test by static pressure (water pressure) As shown in FIG. 2, one end of a hose C is connected to the other end of the facility pipe H having one end closed via the attachment E, and the other end of the hose C is used for discharge. Connect to connection unit 10.
One end of a hose D is connected to the suction connection portion 9, and the other end of the hose D is inserted into the water tank F. Then, with the first stop valve V ₁ , the second stop valve V ₂ , the fourth stop valve V ₄ opened, and the third stop valve V ₃ closed, the hydraulic pump P is operated to The cylinder pump 1 is driven via the cylinder device 2.

When a negative pressure is generated in the cylinder chamber by the piston movement in one direction of the cylinder type pump 1, water in the water tank F is sucked into the cylinder chamber via the _first one-way valve CV1. When the pressure in the cylinder chamber increases due to the piston movement in the opposite direction, the water in the cylinder chamber is supplied to the equipment pipe H via the second one-way valve CV ₂ , the discharge connection 10, the hose C, and the attachment E. You.

When the pressure in the facility pipe H gradually increases and reaches a set value, the cylinder pump 1 is stopped.
In this state, closing the second stop valve V _2, the valve 14a
Or the equipment piping H with the pressure sensor G connected to 14b
It is checked whether or not a time-dependent pressure drop is observed.

Incidentally, with one end of the equipment pipe H open,
By performing the above-described pumping operation, it is possible to fill the empty equipment pipe H with water. However, it is necessary to connect the equipment pipe H to a water pipe and fill the equipment pipe H with water in advance. However, it is desirable to perform a pressure resistance test quickly. In this case, since in the above embodiment is provided with a branch pipe 13 provided with a third one-way valve CV ₃ operating opening with a weak pressure,
By connecting a water pipe (water supply) to the suction connection 9, the tap water flows to the discharge connection 10 via the branch pipe 13, and the water pressure in the water pipe easily and quickly allows the water to flow into the equipment pipe H. Can be filled with water.

Withstand pressure test by static pressure (air pressure) The same operation as above is performed with the other end of the hose D having one end connected to the suction connection portion 9 exposed to the air.

The filled water in dynamic pressure (water pressure) due to pressure test equipment pipe H, at the time when a predetermined pressure, close the first stop valve V _1, and closing the piping system, and thereafter, driving the cylinder pump 1 in a third stop state of the valve V ₃ opened. When the pressure in the cylinder chamber increases due to the piston movement of the cylinder pump 1, water in the cylinder chamber is supplied to the equipment pipe H through the _third stop valve V3. Flows to the cylinder chamber side via the third stop valve V ₃ , so that pressure fluctuations (pulsations) corresponding to the piston movement of the cylinder type pump 1 are given to the equipment piping H.

Pressure test by negative pressure (air pressure) As shown in FIG. 3, one end of a hose C is connected to the other end of the facility pipe H having one end closed via the attachment E, and the other end of the hose C is connected to the other end. Is connected to the discharge connection portion 9.
Then, the first stop valve V ₁ and the second stop valve V ₂ are opened, the third stop valve V ₃ is closed, and the discharge connection 10 is opened to the atmosphere. Drive. Thus, with the piston movement of the cylinder pump 1, air Piping H is discharged from the first one-way valve CV _1, second discharge connection 10 via the one-way valve CV ₂ into the atmosphere Therefore, a negative pressure can be generated in the equipment pipe H.

[0024]

Since the present invention has the above-described structure,
Using one pressure source, it is possible to perform various pressure resistance tests in which a static pressure, a dynamic pressure, or a negative pressure is applied, and a compact and versatile pressure resistance test apparatus for equipment piping can be realized.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram of a pressure test apparatus for equipment piping according to the present invention.

FIG. 2 is a piping diagram for explaining a method of using the pressure resistance test apparatus.

FIG. 3 is a piping diagram for explaining a method of using the pressure resistance test device.

[Description of Signs] 1 ... Cylinder pump, 9 ... Connection for suction, 10 ... Connection for discharge, 11 ... Pipe, 11a ... Pipe, 11b ... Pipe, 12 ... Detour pipe, V ₁ ... First Stop valve, V ₂
... second stop valve, V ₃ ... third stop valve, CV ₁ ... the first one-way valve, CV ₂ ... second one-way valve.

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. ⁶ , DB name) F17D 5/02 E03B 7/02

Claims (1)

(57) [Claims] 1. A cylinder type pump is connected in the middle of a pipe having a suction connection portion and a first stop valve on one end side and a discharge connection portion and a second stop valve on the other end side. A first one-way valve for preventing a flow toward the suction connection portion is provided in a pipe portion between the pump and the suction connection portion, and a pipe portion between the pump and the discharge connection portion is provided in the pipe portion between the pump and the discharge connection portion. A second one-way valve that prevents flow to the pump side is interposed, a bypass pipe that bypasses the second one-way valve is provided, and a third stop valve is interposed in the bypass pipe. A pressure test device for equipment piping.