KR200259846Y1 - Flow measuring element - Google Patents

Abstract

The present invention relates to a flow measurement element, the voltage flow path and the positive pressure flow path is formed in the longitudinal direction on both sides of the rod body, a plurality of inflow holes are formed in communication with the voltage flow path and the constant pressure flow path on the outer peripheral surface of the rod, respectively A gauge connector having an outlet hole communicating with the voltage passage and the constant pressure passage is connected to the upper end of the rod.

The present invention forms a voltage flow path and a positive pressure flow path in the longitudinal direction, and a plurality of inflow holes communicating with the voltage flow path and the constant pressure flow path are formed on the outer circumferential surface, respectively, and the gauge connector is connected to the upper end of the bar. It is very simple, simple, and can be produced by the very simple operation of processing the flow path and inlet hole in the rod and welding the gauge connector, so that it is excellent in productivity as well as small quantity productivity. Is always kept constant so that the accuracy of the flow measurement is kept uniform.

Description

Flow measurement element {FLOW MEASURING ELEMENT}

The present invention relates to a flow measurement element, in particular, by forming a voltage flow path and a static pressure flow path integrally in the rod body, the structure is very simple, simplified, productivity can be improved, accuracy and uniformity can be improved, It relates to a flow measurement element that can be advantageously used.

The tubular flow measurement element, which can measure voltage and static pressure in the pipe through which the fluid flows, can be inserted into the flow of the fluid to be measured to find the flow rate using the dynamic pressure (voltage-static pressure) detected by the measurement element. The BERNOULI equation allows the flow rate to be converted to flow rate.

As such, the flow measurement element measures the flow rate and flow rate of various gases and liquids such as air, dust, water, and chemicals in various factories such as various chemical plants and steel mills, and water and sewage treatment plants. It is used to measure.

As a conventional flow measurement element having such a function, the most common one is called a pitot tube as shown in FIG. 6. The pitot tube is defined by the flow rate measuring unit A to measure the flow rate. "Because it is formed as a ruler and has a structure in which only one fluid inlet (B) through which fluid flows is provided at the tip of the flow rate measuring part, the flow of fluid flowing along the pipe using this pitot tube is accurately measured. The disadvantage is that you can't.

This problem is generally caused by the fluid flowing along the inside of the tube, because the friction with the tube wall causes the central portion of the tube to be the fastest and the flow rate decreases toward the tube wall. It is because the measured flow rate is different depending on the position to insert into the tube.

In order to solve this problem, a flow measuring device called ANNUBAR is provided with a plurality of fluid inlets, and by averaging the flow rates of the fluids measured through each of these fluid inlets, a relatively accurate flow rate of the fluid can be obtained. Unlike the pitot tube, the apparatus has a flow rate measuring part inserted into a pipe flowing through a fluid in a vertical direction, and a plurality of fluid inlets are formed along the length direction of the flow rate measuring part. By averaging the flow velocity of the fluid measured through the fluid inlet, there is an advantage that the flow velocity in the pipe can be measured relatively accurately.

The flow measurement element called anyubar has a structure in which two triangular pipes (D) are arranged to face each other inside the rectangular cylindrical tube (C), as shown in the cross-section of the flow rate measuring unit in FIG. 7. A plurality of fluid inlets are formed at the front and rear edges of the rectangular cylindrical tube (C), respectively, and measure the voltage and the static pressure of the fluid through the fluid inlets formed in front and rear of the rectangular cylindrical tube (C). I can do it.

By the way, the above-mentioned flow measurement element called anyubar has a structure in which the triangular pipes face each other in the rectangular cylindrical tube, so that the parts are not generally ready-made, but are special parts that are separate for this device. There was a manufacturing problem because it must be processed.

Particularly, in order to form the above-mentioned triangular pipe, not only a separate special mold is required, but also defects such as bursting occur at corners depending on the material when drawing through the mold, thereby limiting the material. There is a disadvantage that does not meet the requirements of the various materials required in the field.

In addition, the thickness of the material is also limited, the hunting of vibration caused by high pressure or high-speed fluid, as well as molds are required for each size at the time of manufacture, and because it is a reality that can not be prepared on a small scale when preparing such materials, It is suitable for production. Therefore, there is a problem that the productivity is low in the small-volume production system due to the defect that the inventory burden increases and the unit price becomes expensive.

The present invention was devised to solve the above-mentioned defects and problems, and the structure is very simple, simplified, productivity is improved, accuracy and uniformity by integrally forming a voltage flow path and a constant pressure flow path in the rod body. This can be improved, and to provide a flow measurement element that can be advantageously used for high pressure.

In order to achieve the above object, the flow rate measuring element of the present invention has a voltage flow path and a constant pressure flow path formed at both sides of the rod in a longitudinal direction, and a plurality of inflow holes communicating with the voltage flow path and the constant pressure flow path at the outer circumferential surface of the rod, respectively. It is formed, the upper end of the rod is connected to the gauge connector having a discharge hole in communication with the voltage passage and the constant pressure passage.

The rod is formed of a square rod, a circular supporter is welded to a portion of the upper side, and the upper end of the rod and the gauge connector are connected by welding, and the upper and lower portions of the rod are connected to the pipe to be measured. The joint means and the lower joint means are respectively configured to be coupled.

1 to 5 are views of the flow measurement element of the present invention,

1 is a perspective view of a flow measurement element according to the present invention.

Figure 2 is a cross-sectional view of the flow measurement element according to the present invention.

3 is an enlarged view of a portion “A” of FIG. 2.

4 is a cross-sectional view taken along the line B-B in FIG.

5 is a partial cross-sectional view showing a state in which the flow measurement element according to the present invention is coupled to the pipe.

6 is a schematic view of a pitot tube of one of the conventional flow measuring apparatus.

Figure 7 is a schematic cross-sectional view of the avenue bar, another one of the conventional flow measuring apparatus.

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

100: rod 101,102: inlet hole

103: screw rod 110: supporter

200: gauge connector 201,202: discharge hole

300: upper joint means 310: fitting member

320: fitting socket 330: gasket

340: sleeve 400: lower joint means

410: Gasket 420: Nut

Hereinafter, with reference to the accompanying drawings, the present invention as described in detail as follows.

1 is a perspective view of a flow measurement element according to the present invention, Figure 2 is a cross-sectional view of the flow measurement element according to the present invention, respectively, Figure 3 is an enlarged view "A" of Figure 2, Figure 4 is a view 2 is a cross-sectional view taken along the line BB, and as shown therein, a voltage flow path F1 and a constant pressure flow path F2 are formed in the longitudinal direction at both sides of the rod 100, and the outer peripheral surface of the rod 100 is formed in the longitudinal direction. A plurality of inflow holes 101 and 102 communicating with the voltage flow path F1 and the constant pressure flow path F2 are formed, respectively, and the voltage flow path F1 and the constant pressure flow path F2 are formed at the upper end of the rod 100. Gauge connector 200 having a discharge hole 201, 202 in communication with the configuration is connected

The upper and lower joint parts 300 and the lower joint means 400 are respectively coupled to upper and lower parts of the rod 100 to measure a pipe to be measured.

The upper joint means 300 includes a fitting member 310 and a fitting socket 320 coupled to the rod 100; A gasket 330 inserted between the fitting member 310 and the outer circumferential surface of the rod 100; The sleeve 340 is inserted into the fitting socket 320.

The lower joint means 400 includes a gasket 410 inserted into a screw rod 103 provided at the insertion end of the rod 100; The nut 420 is fastened to the end of the screw rod 113.

The rod 100 is formed as a square rod, the circular supporter 110 is welded to a portion of the upper side, the upper end of the rod 100 and the gauge connector 200 is connected by welding. The threaded rod 103 provided at the lower end of the rod 100 is integrally formed with the rod 100 or fixed by welding. In the figure, the symbol "w" shows the welded portion.

As described above, the flow rate measuring element according to the present invention is coupled to the pipe 500 of the oil feed line, for example, to measure the flow rate and flow rate of the oil feed.

When the flow measurement element of the present invention is connected to the pipe 500, the connection pipes 510 and 520 communicating with the inside of the pipe 500 are fixed to the upper and lower portions of the main wall of the pipe 500 by welding. Insert the rod 100 of the flow measurement element into the upper connector 510 so that the screw rod 103 fixed to the lower end of the rod 100 is projected to the outside through the lower connector 520 of the pipe 500. Then, the upper joint means 300 is fastened to the upper connection pipe 510 of the pipe 500, and the lower joint 400 is installed to the lower connection pipe 520 of the pipe 500. And a gauge is connected to the gauge connector 200.

In the present invention flow measurement element installed as described above, the fluid flowing inside the pipe 500 flows through the front inlet hole 101 and the rear inlet hole 102 of the rod 100 to act as a voltage and a positive pressure, The silver flows into the gauge through the voltage flow path F1 of the rod body 100 and the voltage discharge path 201 of the connector 200, and the positive pressure passes through the positive pressure discharge path F 202 of the positive pressure path F2 and the connector 200. Through the gauge, the flow rate and flow rate through the pipe 500 is measured by the difference in voltage and static pressure in the gauge.

The present invention as described above forms a voltage flow path and a positive pressure flow path in the longitudinal direction, and a plurality of inflow holes communicating with the voltage flow path and the constant pressure flow path are formed on the outer circumferential surface, respectively, and a gauge connector is connected to the upper end of the bar. It is very simple and simple to construct, and it can be produced by a very simple operation that processes the flow path and inlet hole on the rod and welds the gauge connector. The flow path and the constant pressure flow path are always kept constant, which has the advantage that the accuracy of the flow measurement is kept uniform.

In addition, the flow measurement element according to the present invention does not need to process a separate special part, and the entire component can be used as it is by cutting or processing the existing ones on the market, which is advantageous in that it is suitable for small quantity production. will be. Therefore, it is possible to improve the value and competitiveness of the product, there is an effect that can be used very advantageously as a low pressure flow measurement element.

Although the embodiments of the present invention have been described so far, the present invention is not limited thereto, and various embodiments which can be modified and changed within the true spirit and scope of the principles described and claimed are within the protection scope of the present invention. You will have to understand.

Claims (4)

A plurality of voltage passages F1 and a constant pressure passage F2 are formed at both sides of the rod 100 in a longitudinal direction, and communicate with the voltage passage F1 and the constant pressure passage F2 at the outer circumferential surface of the rod 100. Two inlet holes 101 and 102 are formed, respectively, and having a discharge hole 201 and 202 communicating with the voltage passage F1 and the constant pressure passage F2 at an upper end of the rod 100. Flow measurement element, characterized in that the connector 200 is configured to be connected. According to claim 1, wherein the rod 100 is formed of a square rod, the upper portion of the circular supporter 110 is welded, the upper end of the rod 100 and the gauge connector 200 is configured by welding Flow measuring element, characterized in that. The flow measuring element according to claim 1, wherein the upper and lower parts of the rod body 100 are coupled to the upper joint means 300 and the lower joint means 400 for connecting to the pipe to be measured. According to claim 1, wherein the upper joint means 300 and the fitting member 310 and the fitting socket 320 is coupled to the rod 100; A gasket 330 inserted between the fitting member 310 and an outer circumferential surface of the rod 100; Comprising a sleeve 340 is inserted into the fitting socket 320, the lower joint means 400 is a gasket 410 is inserted into the screw rod 103 provided at the lower end of the rod 100 and Flow rate element, characterized in that consisting of a nut 420 is fastened to the end of the screw rod (113).