KR200418355Y1 - Pump connection piping structure - Google Patents

Abstract

The present invention relates to a very economical pump connection pipe structure because the inverter can be easily and easily installed and detached from the connection pipe, the workability is good, and only the inverter can be installed separately from the existing pump.

It forms a pipe connector 12 having a screw 11 and a pump connector 13 on both upper and lower outer surfaces, and forms an insertion hole 14 in which a pressure tank is installed on the front outer surface, and on both sides of the insertion hole 14. Body 10 and the coupling hole 15 is formed on the side;

A fastener 20 formed on the rear outer surface of the body 10 and having a fixing plate 21 formed in the horizontal direction on the upper side and the lower side, respectively, and having holes 22 on the left and right sides thereof.

Body, fixture

Description

Pump connection piping structure

1 and 2 are a perspective view and an exploded perspective view of the entire configuration of the present invention

3 is a cross-sectional view showing the overall configuration of the present invention

4 to 5 is a cross-sectional view and a perspective view showing another configuration of the pump connector according to the present invention

6 to 7 is a sectional view and a perspective view showing another configuration of the fixture according to the present invention

8 is an exemplary view in which an inverter is installed in a pipe of the present invention

9 to 10 is an exemplary view showing a use state according to the present invention

<Description of the symbols for the main parts of the drawings>

100: main body

10: body 11: screw

12: Pipe connection 13: Pump connection

14, 44: insertion hole 15: coupling hole

20: fixture 21: fixing plate

22: hole 30: inverter

31: coupling bolt 40: check valve

41: fixed shaft 42: valve

43: elastic spring 45: discharge hole

46: valve plate 50: pump

60: pressure tank 70: pressure sensor

The present invention relates to a pump connection pipe structure, and more particularly, by installing a fixing plate having a hole on one side of the body and correspondingly to form a coupling bolt at the rear of the inverter, the inverter can be easily and easily attached to the connection pipe. It is very economical because it is easy to work with and can only install an inverter separately from the existing pump.

In general, the booster pump system is an automatic water supply device that automatically supplies a stable water pressure by automatically controlling the desired water supply and pressure.In order to control the pump system, the booster pump system controls the speed of a motor (induction motor) attached to the pump. It aims to be able to reach the desired pressure.

The booster pump system usually includes a control unit for controlling pressure by performing a PID (Proportional-Integral-Differential) operation (proportional differential control), an inverter for controlling the rotation of a pump-side motor by receiving a speed command from the control unit. And, it receives the output signal of the inverter is composed of a movable pump to supply water at a constant water pressure.

In this conventional technique, the inverter is fixedly installed at one side of the pump and modularized. However, this has the problem that additional cost is generated because the inverter motor must be replaced together when the motor of the pump fails or malfunctions.

The present invention has been made in consideration of the various problems as described above, and its purpose is easy and simple to install and disconnect the inverter in the connecting pipe, so workability is good, and the inverter can be installed separately from the existing pump, which is very economical pump connection. In providing a piping structure.

In order to achieve the above object, the present invention provides a pump connection pipe structure capable of attaching and detaching an inverter to a connection pipe, which installs a fixing plate having a hole in one side of a pipe body and correspondingly coupled to the rear of the inverter. Forming a bolt is characterized in that the inverter can be easily and simply coupled to the pipe body.

Hereinafter, described in detail by the accompanying drawings a preferred embodiment of the present invention as follows.

1 to 3 are views showing the overall configuration of the present invention, the reference numeral 100 of the drawing shows the main body of the connection pipe of the present invention.

The main body 100 forms a pipe connector 12 and a pump connector 13 at the upper and lower sides, and coupling holes 15 at both sides of the insertion hole 14 and the insertion hole 14 in which a pressure tank is installed at the front outer surface. ) Is formed of a body 10 and a fixture 20 having a fixing plate 21 on the upper side and the lower side on the rear outer surface of the body 10.

The body 10 has a cylindrical shape mainly made of stainless steel (stainless steel) material and has an internal space, the upper and lower parts are open, and the upper and lower outer surfaces with screws 11, that is, a male threaded pipe connector ( 12) and the pump connector (13).

A pipe for supplying water or a fluid supplied through the pump 50 to the outside is fastened to the pipe connector 12, and the pump connector 13 is screwed to one side of the pump 50 to pump 50. Water or fluid therein is supplied into the body 10.

A circular insertion hole 14 is formed in front of the body 10, and circular coupling holes 15 are formed at both sides of the insertion hole 14. A pressure tank 60 is installed in the insertion hole 14, and a pressure sensor 70 and a dial gauge are installed in the coupling hole 15 formed at both sides.

The lower side of the inner space of the body 10 is formed with a locking step 16 to block the push out of the valve plate 46 to be described later.

In addition, as shown in the accompanying drawings, Figures 4 and 5 to form a screw (13a) to a predetermined length on the inner surface of the lower end of the pump connector 13, that is to use by forming a female screw.

In addition, the body 10 may be formed by using a titanium material, which not only prevents corrosion by various materials (oil, chemicals, pigments, etc.) moving inside, but also reduces weight.

The fastener 20 is formed in each of the fixing plate 21 in the horizontal direction in the upper and lower rear of the body 10 to form a hole 22 on both sides.

The fixing plate 21 serves to fix the inverter 30. The fixing plate 21 inserts the holes 22 of the fixing plate 21 into the coupling bolt 31 formed in the inverter 30 and is fixed using the nut 32. Therefore, it is very easy and simple to combine and disassemble.

6 and 7, the fixture 20 is formed in one plate form 25 and the holes 22 are formed on both upper and lower sides thereof.

In the internal space 17 of the pump connector 13 formed on the lower side of the body 10 as described above is provided with a check valve 40 to block the back flow of the internal material.

2 and 3, the check valve 40 has a sealing O-ring 41a formed of a rubber material under the inner space 17 of the pump connector 13, and has a fixed shaft 41 on the upper surface thereof. A circular valve 42 having a) is installed.

At this time, the sealing o-ring 41a formed at the lower side of the valve 42 is closely coupled to the inlet hole 13c into which the material of the pump connector 13 flows.

Then, the elastic spring 43 is fastened to the outer surface of the fixed shaft 41, and an insertion hole 44 is formed at the center thereof, and a semicircular discharge hole 45 is formed at both sides around the insertion hole 44. Install plate 46. At this time, the upper surface of the valve plate 46 is fixed in contact with the engaging jaw 16 formed in the body (10).

In addition, the O-ring (13b) is installed on the outer surface of the pump connector 13 when the inner body 10 is fastened to block the discharge of the internal material and at the same time the coupling is made very secure.

The check valve 40 is the inlet hole 13c is opened while the valve 42 is moved upward by the pressure of the incoming material is the inlet material through the outlet hole 45 of the valve plate 46 body ( 10) It is introduced inside.

When the supply of the inflow material stops, the valve 42, which has moved upward, moves downward by the elastic force of the elastic spring 43 to close the inflow hole 13c again, thereby preventing the internal material from flowing backward. .

The inverter 30 is a pump-only inverter, which is attached to and detached from the body 10 as a control system in which a frequency converter and a PID controller are combined into one.

This is a well-known part, and a plurality of operation buttons are installed at the front, and a display unit indicating an operation state is formed, and the PID control unit receives the current pressure from the pressure sensor, compares with the set pressure, and calculates the speed to the inverter 30. It is the part to give orders.

The inverter 30 receives the speed command from the PID controller to control the speed of the pump 50. As shown in FIG. 8, a coupling bolt 31 having a screw formed on the outer surface of both the rear upper side and the lower side is provided. ).

That is, four holes 22 of the fixing plate 21 formed in the rear of the body 10 is inserted into the coupling bolt 31 is formed, and fixed by using the nut (32).

As such, the present invention may be installed and used in the horizontal multistage pump 80 as shown in FIG. 9, which is first, the pressure tank 60 as the insertion hole 14 formed on the front outer surface of the body 10. Install and insert the coupling bolt 31 of the inverter 30 into the hole 22 of the fixing plate 21 formed on the rear outer surface and then fix and install using the nut 32. And the coupling hole 15 formed on the side of the body is used by installing a pressure sensor 70 and a dial gauge.

In such a state, the pump connector 13 formed on the lower side of the body 10 is screwed to one side of the upper surface of the pump 50 to be fastened, and the discharge pipe 75 is installed on the pipe connector 12 formed on the upper side thereof. Install an on-off valve to control the opening and closing of the discharged material.

In addition, the present invention can be installed and used in the vertical multistage pump 90 as shown in the accompanying drawings. The installation method is the same as the above.

As described in detail above, the present invention is easy and easy to install and detach the inverter in the pipe body, and easy to work, and can be installed only the inverter separately from the existing pump has a very economic advantage.

In addition, since the piping and the inverter can be attached and detached, maintenance is easy, and only the parts that are broken or damaged can be replaced without replacing the entire parts, thereby significantly reducing the maintenance cost.

Claims (4)

The pipe connector 12 and the pump connector 13 having screws 11 on both the upper and lower surfaces are formed, and an insertion hole 14 is formed on the front outer surface to install a pressure tank, and both sides of the insertion hole 14 are formed. A body 10 having a coupling hole 15 formed therein; Pump connection piping structure, characterized in that formed on the rear outer surface of the body 10 and the fixing plate 21 formed in the horizontal direction on the upper and lower sides, respectively having a hole 22 on the left and right; . The method of claim 1, The pump connector 13 is the pump connection pipe structure, characterized in that it comprises a screw (13a) formed on the inner surface. The method of claim 1, The pump connector 13 is detachably installed on the lower side of the body 10, the valve 42 having a fixed shaft 41 is installed below the inner space and the elastic spring 43 on the outer surface of the fixed shaft 41 And a check valve (40) formed by fastening a valve plate (46) having a discharge hole (45) formed on an upper surface of the spring (43). The method of claim 1, The body 10 is a pump connection pipe structure, characterized in that formed of titanium.

Images