KR101111525B1 - Discharge pressure gauge of pump - Google Patents

Abstract

The present invention relates to a pressure gauge for measuring the discharge pressure of various liquid pumps used in sewage treatment plants, wastewater treatment plants or water purification plants, comprising: a compressed air supply device for generating compressed air; An air header 4 for distributing compressed air to the air cylinder 8 of each pressure gauge 9; A connecting air line 6 for connecting the air header 4 and the air box 8; An air reservoir (8) having a pressure reducing orifice tube (8-2) at the inlet portion, an air pressure gauge (9) attached to the upper portion, and installed on the air reservoir support (13) through a spring (15); A pressure gauge 9 installed in a sealed structure on the reservoir 8; A transparent hose 10 for connecting between the air cylinder 8 and the pressure tab 11 installed in the discharge pipe; A fastener inserted into the discharge pipe and fixed by the fixing screw 14, a support rod 13-1 extending horizontally from the fastener, and an end of the support rod 13-1, and having an opening groove 13- at one end thereof. A reservoir holder 13 including a reservoir holder plate 13-2 having a 3); A dustproof pad 16 installed on the reservoir support plate 13-2 of the reservoir holder 13; A coil-shaped spring 15 installed on the dustproof pad 16; And a reservoir flange 8-2 of the reservoir 8 installed on the spring 15, and is spike-shaped with a high frequency and a large amplitude without being affected by the vibration appearing on the discharge side of various liquid pumps. The pressure change can be eliminated to measure the correct pressure and prevent clogging of the pressure gauge.

Pump pressure gauge, reservoir, dust support, spring, anti vibration, anti clogging, trouble free.

Description

Discharge pressure gauge of pump

The present invention relates to a discharge pressure gauge of a pump for accurately measuring the discharge side pressure of a liquid pump, such as a sewage treatment plant, a wastewater treatment plant, a water treatment plant, and more specifically, in our registered utility model No. 20-0183853 "pump discharge pressure gauge" ( 2000.03.17).

A pump that transfers liquid such as purified water, sewage, wastewater, or sludge from sewage treatment plant, wastewater treatment plant, manure, livestock wastewater treatment plant or water treatment plant is the most important mechanical equipment and supplies the necessary amount for each process like human heart. Plays an important role.

However, when the pressure on the discharge side of the pump is measured, the rapid vibratory pressure change of the fluid and the vibration of the mechanical device are transmitted to the pressure gauge, causing the needle to vibrate violently, causing a breakdown, and the sewage, wastewater, manure, livestock wastewater, etc. In this case, in addition to the rapid vibrational pressure change and mechanical vibration of the fluid, contaminants, solids, and the like enter the inside of the pressure gauge and become solid, resulting in clogging or frequent failure of the pressure gauge.

Since the pump's operation standard is usually operated based on the discharge side pressure, it is difficult to check whether the pump is in normal operation if the pressure gauge fails, and as a result, it is easy to operate in an abnormal operation state. Causing undesirable consequences such as changing.

Although our registered utility model No. 20-0183853 solved this problem, it was possible to measure the correct pressure, but because of the installation of a separate stand, the cost increases, and there are many cases where the installation location is restricted. The use of an air flowmeter to send a small amount of air, the cost increases, there is a problem such as the need for manpower to maintain the air flowmeter.

Therefore, there is a need for a discharge pressure gauge of a pump that is inexpensive and easy to maintain without being restricted by location.

It is an object of the present invention to provide a discharge pressure gauge for a pump that eliminates sudden fluctuations in pressure occurring at the discharge side of the pump, prevents clogging caused by contaminants, and is easy to install and maintain.

In order to achieve the above object, the discharge pressure gauge of the pump according to an aspect of the present invention comprises an air compressor (1), a connecting pipe (2) and a dehumidifier (3) is a compressed air supply device for generating compressed air; An air header 4 for distributing compressed air to the air cylinder 8 of each pressure gauge 9; A connecting air line 6 for connecting the air header 4 and the air box 8; An air reservoir (8) having a pressure reducing orifice tube (8-2) at the inlet portion, an air pressure gauge (9) attached to the upper portion, and installed on the air reservoir support (13) through a spring (15); A pressure gauge 9 installed in a sealed structure on the reservoir 8; A transparent hose 10 for connecting between the air cylinder 8 and the pressure tab 11 installed in the discharge pipe; A fastener inserted into the discharge pipe and fixed by the fixing screw 14, a support rod 13-1 extending horizontally from the fastener, and an end of the support rod 13-1, and having an opening groove 13- at one end thereof. A reservoir holder 13 including a reservoir holder plate 13-2 having a 3); A dustproof pad 16 installed on the reservoir support plate 13-2 of the reservoir holder 13; A coil-shaped spring 15 installed on the dustproof pad 16; And an air cylinder flange 8-2 of the air cylinder 8 installed on the spring 15.

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As described above, according to various aspects of the present invention, it eliminates sudden fluctuations in pressure generated at the discharge side of the pump, prevents clogging caused by contaminants, prevents trouble, and is easy to install and maintain. In addition, by accurately measuring the discharge pressure of the pump to operate the pump at the optimum operating point, there is an effect to increase the efficiency of the pump and save power.

An embodiment of the present invention will be described in detail with reference to the accompanying drawings.
1 is a configuration of the discharge pressure gauge of the pump according to an embodiment of the present invention, Figure 2 is a cross-sectional view AA of FIG.
As shown in Fig. 1, the expansion pipe (B) is installed at the discharge port of the pump (A) to reduce the vibration of the pump from being transmitted to the discharge pipe (C) on the discharge port side.

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A check valve (D) and a pressure control valve (E) are installed in the discharge pipe (c) on the discharge port side of the pump to prevent backflow of liquid and to accurately adjust the operating pressure of the pump.

In the discharge pipe (C) on the discharge port side, the pressure tab (11) is installed to penetrate the discharge pipe (C), the fastener portion of the air cylinder holder (13) is inserted, and the fastening screw (14) is tightened, so that the air cylinder holder (13). ) Is installed so as to be horizontal, and the dustproof pad 16 as shown in FIG. 1 on the air support plate 13-2 formed by connecting to a supporting rod 13-1 extending horizontally as shown in FIG. 2. The coil 15 is placed on the prevention pad 16, and then the air flange 8-1 of the air cylinder 8 is installed on the spring 15. As shown in FIG.

The opening groove 13-3 formed in the reservoir support plate 13-2 is formed to a size through which the transparent hose 10 can pass, so that it can be installed or separated without removing the transparent hose 10 from the reservoir 8. To help.

Between the center of the lower end of the air reservoir 8 and the shutoff valve 12 connected to the pressure tab 11 is connected by a transparent hose 10 which is bent freely.

In the air cylinder 8, the flange 8-1 is integrally formed at the upper 3/4 to 4/5 positions, and the pressure reducing orifice tube 8-2 is formed in the wall on the flange in the horizontal direction. The pressure gauge connector 8-3 is installed at the upper center of the air reservoir 8, the on-off valve 8-4 is connected to the pressure gauge connector 8-3, and the pressure gauge 9 is connected to the valve. Connect.

The pressure gauge 9 may be any type of pressure gauge such as a tube pressure gauge, a diaphragm pressure gauge, or an electrical transmission pressure gauge.

The lower center of the air reservoir (8) forms a hole that can be connected to the transparent hose (10).

The orifice of the reduced pressure orifice tube 8-2 is formed by blocking one end of the reduced pressure orifice tube with a plate and then drilling a small circular hole so that the amount of air does not affect the measured pressure little by little.

A check valve (7) is provided in the pressure reducing orifice tube (8-2) to prevent air from flowing back from the reservoir (8), and between the check valve (7) and the branch valve (5) branched from the air header (4). Connect with connecting air line (6).

The connecting air pipe 6 is preferably made of a hose or a pipe material that bends freely.

Compressed air supply device is composed of an air compressor (1), a connecting pipe (2) and a dehumidifier (3) for compressing air.

Compressed air from the compressed air supply is compressed air dehumidified and dehumidified by the dehumidifier (3), which does not generate condensate in response to changes in ambient temperature, the maximum pressure is higher than the maximum pressure in the tube to be measured, and the air header (4 ) Is supplied from the branch valve (5) to each of the air reservoirs (8) through the connecting air pipe (6).

If the diameter of the reservoir is D and the diameter of the transparent hose 10 is d, the ratio of the cross-sectional area of the reservoir and the transparent hose is (d / D) ² , and the magnitude of the pressure change on the pump discharge side is (d / D) ² and Depending on the size of the volume of the reservoir, a damping and buffering action occurs in the air in the reservoir, and the frequency and magnitude of the pressure change are drastically reduced to maintain a stable pressure without fluctuations. Since the value is accurate and there is no change in pressure, the needle of the pressure gauge is stable without shaking, resulting in an accurate and trouble-free pressure gauge.

For example, if d is 10 mm and D is 100 mm, (d / D) ² is 1/100, and if the pressure change range of the pump discharge fluid is 1 kg / cm 2, the change in pressure in the reservoir is 1/100 of this value, 0.01 attenuated to kg /

Therefore, the amplitude of the pressure indicator needle of the pressure gauge connected to the air reservoir is reduced to 0.01kg / ㎠ and the frequency of vibration is also reduced so that the pressure indicator needle does not vibrate, the pressure indication value is accurate, and the failure caused by vibration is prevented.

Since a small amount of air is always supplied through the decompression orifice tube 8-2 in the reservoir 8, this air flows into the discharge pipe C through the transparent hose 10 in the lower part of the reservoir. Air pollutants, transparent hoses and pressure taps 11 are not blocked by the contaminants.

On the other hand, the mechanical vibration of the pump can be transmitted through the pipe to the pump outlet port, but such mechanical vibration is damped by the vibration pad 16 and the coil-shaped spring 15 installed on the reservoir support plate 13-2. The mechanical vibration is attenuated by the action and thus is not transmitted to the pressure gauge 9, so that the mechanical vibration is not affected.

3 is a block diagram of a discharge pressure gauge of a pump according to another embodiment of the present invention.

The embodiment of FIG. 3 differs in the method of fixing the air cylinder 8 in comparison with the embodiment described above with reference to FIGS. The connecting support 17 is formed by connecting and installed, the connecting support flange 17-1 is formed integrally on the upper side of the connecting support 17, the upper end of the connecting support 17 is a coil Connect the spring shape to the transparent hose 10, the upper end of the transparent hose 10 is connected to the lower center of the reservoir (8).

A vibration pad 16 is placed on the connecting support flange 17-1, a coil-shaped spring 15 is placed on the vibration pad 16, and an upper part of the spring 15 is an air cylinder flange 8-1. )
Insert the supporting screw rod 18 between the connecting support flange 17-1 and the air cylinder flange 8-1 and fix it with the set screw 18 to prevent the air cylinder 8 from swaying sideways and Attenuate the mechanical vibrations transmitted to (8).

This embodiment is characterized by a simple component for supporting the reservoir.

1 is a block diagram of a discharge pressure gauge of a pump according to an embodiment of the present invention.

FIG. 2 is a cross-sectional view illustrating the A-A cross section of FIG. 1. FIG.

3 is a block diagram of a discharge pressure gauge of a pump according to another embodiment of the present invention.

Claims (2)

Compressed air supply device for generating compressed air composed of an air compressor (1), a connecting pipe (2) and a dehumidifier (3); An air header 4 for distributing compressed air to the air cylinder 8 of each pressure gauge 9; A connecting air line 6 for connecting the air header 4 and the air box 8; An air reservoir (8) having a pressure reducing orifice tube (8-2) at the inlet portion, an air pressure gauge (9) attached to the upper portion, and installed on the air reservoir support (13) through a spring (15); A pressure gauge 9 installed in a sealed structure on the reservoir 8; A transparent hose 10 for connecting between the air cylinder 8 and the pressure tab 11 installed in the discharge pipe; A fastener inserted into the discharge pipe and fixed by the fixing screw 14, a support rod 13-1 extending horizontally from the fastener, and an end of the support rod 13-1, and having an opening groove 13- at one end thereof. A reservoir holder 13 including a reservoir holder plate 13-2 having a 3); A dustproof pad 16 installed on the reservoir support plate 13-2 of the reservoir holder 13; A coil-shaped spring 15 installed on the dustproof pad 16; And Discharge pressure gauge of a pump, characterized in that it comprises a reservoir flange (8-2) of the reservoir (8) installed on the spring (15). delete

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