KR20110035846A - Turbine flowmeter - Google Patents

Abstract

PURPOSE: A turbine flowmeter is provided to improve durability by integrating a fixed blade and a rotary shaft and to replace the fixed blade and an impeller when the flowmeter is out of order. CONSTITUTION: A turbine flowmeter comprises a body(1), an impeller(2), an inlet-side fixed blade(3a), an inlet-side stopper ring(4b), an outlet-side fixed blade(3b), and an outlet-side stopper ring(4b), a pickup coil(5), and a monitor(6). An insertion hole is formed in the top end of the body. Multiple inclined blades are consecutively formed on the outer surface of the impeller. The inlet-side fixed blade has multiple blade plates. The inlet-side stopper ring is coupled to the inlet-side fixed blade. The outlet-side fixed blade has multiple blade plates. The outlet-side stopper ring is coupled to the outlet-side fixed blade. The pickup coil is inserted into the insertion hole of the body. The monitor is coupled to the pickup coil.

Description

Turbine Flowmeters {TURBINE FLOWMETER}

The present invention relates to a turbine flow meter, and in detail, consisting of a tubular body, an impeller, a fixed blade, a pickup coil, and a monitor, the frequency by the magnetic field generated by the impeller rotating in accordance with the flow of the fluid in the body as a flow rate The present invention relates to a turbine flowmeter in which the measurement error rate is greatly reduced by the blades of the impeller tilted obliquely within a certain angular range when measured by conversion.

Turbine flow meter is a combination of electronic part and mechanical part, and it is a volumetric flow meter. The principle of measurement is that if the rotational speed increases or decreases in proportion to the impeller flow rate in the flowing fluid (liquid, gas), the flow rate of the impeller is detected by the pick-up coil and converted into an electrical frequency to convert the flow rate on the monitor. Will be displayed.

The operating principle is that the impeller in the main body connected by the magnetic force of the response signal device (pickup coil) rotates with the force of the kinetic energy caused by the fluid, and the impeller periodically changes the resistance value of the induction electric response system and changes the pickup coil. The magnetic flux through the magnetic flux changes periodically to generate an electric pulse signal, which is enlarged through an amplifier and converted into a corresponding flow value in the flow converter, and proportionally transmits the flow value through the output to the PLC or other indicators. And measurement of the accumulated flow rate.

As the magnetic field generated by the pick-up coil magnetic material facing the wing of the rotating impeller changes the frequency change according to the number of revolutions of the impeller, it changes the wing angle of the impeller when measuring the instantaneous flow and the accumulated flow of the fluid. It has been found that the measurement error rate varies with the application, so it is important to determine the wing angle of the impeller that shows the minimum measurement error rate.

The present invention has been made to improve the above-mentioned problems, the object is that the magnetic field is generated by the rotating impeller facing the pickup coil at regular intervals, due to the magnetic field generated according to the number of revolutions of the impeller The change in frequency is detected by the pick-up coil, and the measurement error rate of the instantaneous flow and the accumulated flow, which is measured by converting the change of the frequency into a flow rate on the monitor, tilts the vane angle of the impeller facing the pick-up coil at an angle with a constant value. Recognizing that it is the minimum when it is, to provide a turbine flowmeter so that the wing angle of the impeller to be minimum is in the range of 40-50 °.

Turbine flow meter of the present invention to achieve the above object, the tubular body is formed in the middle of the pipe flowing through the insertion hole is formed in the upper end; A plurality of wings continuously formed at regular intervals along the outer circumferential surface of the disk shape is obliquely inclined at an angle of 40 to 50 ° based on the central axis of the disk shape, a magnetic material is applied to the ends of the body of the body An impeller inserted into one side and having an end portion of the wing coinciding with an insertion hole of the body in the body; A plurality of wing plates are formed at regular intervals along the outer circumferential surface of the rod shape, and are connected to one side of the impeller and inserted into one side of the body, and the periphery of the end portion connected to the impeller is obliquely toward the wing of the impeller. Inclined inlet stationary wing; An inlet side fixed wing stopper ring coupled to the inlet side fixed blade at one end of the body such that the inlet side fixed blade is fixed in the body; A plurality of wing plates are formed at regular intervals along the outer circumferential surface of the rod shape, and are connected to the other side of the impeller and inserted into the other side of the body, and the periphery of the end portion connected to the impeller is obliquely toward the wing of the impeller. Inclined inlet stationary wing; An outlet side fixed blade stopper ring coupled to the other end portion of the body together with an outlet side fixed blade so that the outlet side fixed blade is fixed in the body; A pick-up coil having a rod-shaped lower portion formed of a magnetic material inserted into the insertion hole of the body to face each other with the wing end of the impeller, and having a coil embedded in the upper portion of the cylindrical shape; And a monitor coupled to the pickup coil to display the instantaneous flow rate and the accumulated flow rate.

Moreover, it is preferable that the rotating shaft of the said impeller center part is a tungsten rod.

According to the turbine flowmeter of the present invention, the measurement error rate is drastically reduced by an appropriate blade angle of the impeller, thereby increasing the reliability of the flowmeter.

In addition, it has various effects as follows.

1. Realization of localization

-. Localization of turbine flowmeter using stainless steel material 100% dependent on foreign imports such as China

-. Realization of localization shortens delivery time by more than twice the existing delivery date

2. Improved precision

-. High precision flow rate measurement by securing stability of flow rate measurement by machining impeller rotating shaft made of tungsten material

-. By developing the rotating shaft structure of the impeller, the pressure loss is considerably reduced, and the fixed shaft and the impeller's rotating shaft are integrated to increase the durability and greatly reduce the incidence of damage of the impeller frequently occurring when the overflow flows.

3. Promote user convenience and ease of maintenance

Significantly increase the service life of the flow meter

-. Fixed wing and impeller can be replaced and repaired in case of unexpected flow rate caused by applying fixed wing stopper to inflow and outlet of the flow meter itself.

1 is an exploded perspective view of a turbine flow meter according to the present invention
2 is a front view of a turbine flow meter according to the invention
3 is a longitudinal cross-sectional view of a turbine flow meter according to the present invention;
Figure 4 is a longitudinal cross-sectional view of the coupling of the turbine flow meter in accordance with the present invention
5 is a side view of an impeller in a turbine flow meter according to the present invention.
6 is a front view of an impeller in a turbine flow meter according to the present invention.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the turbine flow meter according to the present invention will be described in detail. The present invention is not limited to the embodiments disclosed below, but can be implemented in various different forms, only this embodiment to make the disclosure of the present invention complete and to those skilled in the art to fully understand the scope of the invention It is provided to inform you.

1 is an exploded perspective view of a turbine flowmeter according to the present invention, FIG. 2 is a front view of a turbine flowmeter according to the present invention, FIG. 3 is an isolated longitudinal cross-sectional view of the turbine flowmeter according to the present invention, and FIG. 4 is a turbine according to the present invention. The combined longitudinal cross-sectional view of the flow meter is shown.

1 to 4, the turbine flowmeter of the present invention includes a body 1, an impeller 2, an inlet fixed blade 3a, an inlet fixed blade stopper 4a, an outlet fixed blade 3b, It consists of an exit side fixed-wing stopper ring 4b, the pick-up coil 5, and the monitor 6.

The body (1) is made of a tubular shape is installed in the middle of the pipe through which the fluid of the liquid or gas flows, the insertion hole (H) is penetrated through the upper end, the fluid is to the left to go out to the right.

The impeller (2) inserted into the body (1) is in the shape of a disk, the rotating shaft (7) made of tungsten rod through the center is formed on both sides, a plurality of obliquely spaced at regular intervals along the outer circumferential surface of the disk. The inclined vanes 2a are continuously formed, and in the body 1, the vanes 2a of the impeller 2 are arranged to coincide with the insertion holes H of the body 1, and the respective vanes ( The magnetic body is coated on the end of 2a).

Since the impeller 2 is a rotating object, if the rotating shaft 7 is made of tungsten rod, the hardness and wear resistance are high, and in particular, the deformation of the impeller 2 is less than that of the stainless steel rod made of SUS, which is usually used as the rotating shaft. .

As shown in FIGS. 5 and 6, the blade 2a of the impeller 2 is inclined at an angle in an angle within a range of 40 to 50 ° with respect to a reference line L that intersects the center of the rotation axis 7 of the central portion. It is formed in a state.

The inlet side fixed blade 3a has a rod shape, and a wing plate 8 is formed at intervals of 90 ° along an outer circumferential surface, and the impeller is formed in a groove formed at the center of one end surface of the inlet side fixed blade 3a. Rotating shaft 7 formed on one side of (2) is inserted into one side of the body (1) in a state connected to each other, the periphery of the end of the side connected to the impeller (2) wings (2a) of the impeller (2) Tilt diagonally toward).

The inlet side fixed blade stopper ring 4a is coupled to the inlet side fixed blade 3a at one end of the body 1 to fix the inlet side fixed blade 3a so as not to escape out of the body 1. Will be

The outlet side fixed blade 3b has the same shape as the inlet fixed blade 3a and is inserted into a rotation shaft 7 formed at the other side of the impeller 2 in a groove formed at the center of one end surface thereof and connected to each other. It is inserted into the other side of (1), and since it is the same shape, the wing plate 8 is formed similarly, and the periphery of the edge part of the side connected with the said impeller 2 is inclined obliquely toward the wing 2a of the impeller 2.

The outlet side fixed blade stopper ring 4b is coupled to the other end of the body 1 together with the outlet side fixed blade 3b at the other end of the body 1 like the inlet side fixed wing stopper ring 4a. (1) It serves to fix it so that it does not come out.

In this way, the inlet fixed blade 3a, the impeller 2, and the outlet fixed blade 3b are sequentially connected from the left side in the body 1, and the inlet fixed blade 3a and the outlet fixed blade 3b are sequentially connected. Since is fixed, only the impeller 2 is rotated by the fluid passing through the body (1).

The pick-up coil 5 has a small rod-shaped lower portion of the magnetic body M, and is inserted into the body 1 through the insertion hole H of the body 1, and an upper part of the coil integrated with the magnetic body is embedded therein. The upper body (1) is erected, the lower magnetic body (M) inserted into the body (1) through the insertion hole (H) is facing the wing (2a) of the rotating impeller (2) the wing ( Since a magnetic substance is also applied to the end of 2a), a magnetic field is formed.

The monitor 6 is coupled to the upper end of the pickup coil 5, the magnetic field generated by the magnetic body (M) of the impeller 2 and the pickup coil 5 changes in frequency to the pickup coil (5) Is detected, and the change in the frequency is converted into an instantaneous flow rate and an integrated flow rate in the monitor 6 and displayed on the display portion 6a of the monitor 6.

Looking at the operating state of the turbine flow meter of the present invention configured as described above are as follows.

When the fluid flows in the form of laminar flow from one side of the body 1 through the piping 9a of the fluid, it passes between the wing plates 8 of the inlet side fixed blade 3a, and the fluid passed through the wing plate (8) and the periphery of the end portion is rotated evenly toward the blade (2a) of the impeller (2) due to the shape inclined obliquely toward the blade (2a) of the impeller (2), thereby constantly rotating the impeller (2), As such, the frequency is detected by the pickup coil 5 as a magnetic field generated by the magnetic body M facing the vanes 2a of the impeller 2 which rotates constantly.

In this way, the change in frequency is detected by the pick-up coil 5 by the magnetic field generated according to the rotational speed of the impeller 2, and the change of the frequency in the monitor 6 as the instantaneous and integrated flow rate values as described above. In this case, the fluid passing through the impeller 2 exits to the other side of the body 1 through the outlet side fixed blade 3b and flows again through the pipe 9b of the fluid.

At this time, when the oblique inclination angle of the blade 2a of the impeller 2 is within the range of 40 to 50 °, the measurement error rate of the instantaneous flow and the accumulated flow is minimum, that is, ± 0.5% in the related art, but ± 0.3%. It was confirmed through numerous experiments that the angle of inclination of the blade (2a) to 45 ° was the most preferable angle that the measurement error rate is the minimum.

If the fluid flows from the other side of the contrary to the above, the flow rate is measured by rotating the impeller 2 by the same action as described above.

As described above, the turbine flowmeter according to the present invention has been described with reference to the drawings, but the present invention is not limited to the embodiments and drawings disclosed in the present specification, and those skilled in the art within the scope of the technical idea of the present invention. Of course, various modifications can be made.

1: body 2: impeller
2a: impeller wing 3a: inlet fixed wing
3b: fixed fixed exit 4a: fixed fixed stop inlet side
4b: fixed-side fixed stop stopper 5: pick-up coil
6 monitor 6a display unit
7: rotating shaft 8: wing plate
H: Insertion hole M: Magnetic material
9a, 9b: Piping of fluid

Claims (2)

An insertion hole is formed in the upper end and the tubular body is installed in the middle of the flow pipe;
A plurality of wings continuously formed at regular intervals along the outer circumferential surface of the disk shape is obliquely inclined at an angle of 40 to 50 ° based on the central axis of the disk shape, a magnetic material is applied to the ends of the body of the body An impeller inserted into one side and having an end portion of the wing coinciding with an insertion hole of the body in the body;
A plurality of wing plates are formed at regular intervals along the outer circumferential surface of the rod shape, and are connected to one side of the impeller and inserted into one side of the body. Inclined inlet stationary wing;
An inlet side fixed wing stopper ring coupled to the inlet side fixed blade at one end of the body such that the inlet side fixed blade is fixed in the body;
A plurality of wing plates are formed at regular intervals along the outer circumferential surface of the rod shape, and are connected to the other side of the impeller and inserted into the other side of the body. Inclined inlet stationary wing;
An outlet side fixed blade stopper ring coupled to the other end portion of the body together with an outlet side fixed blade so that the outlet side fixed blade is fixed in the body;
A pick-up coil having a rod-shaped lower portion formed of a magnetic material inserted into the insertion hole of the body to face each other with the wing end of the impeller, and having a coil embedded in the upper portion of the cylindrical shape; And
A monitor which is combined with the pickup coil to display the instantaneous flow rate and the accumulated flow rate;
Turbine flow meter, characterized in that consisting of. The method of claim 1,
Turbine flow meter, characterized in that the axis of rotation of the impeller is a tungsten rod.

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