KR20040083254A - electronic flow meter - Google Patents

Abstract

PURPOSE: An electronic flow meter is provided to prevent a swirl flow from being generated in a chamber by adjusting a direction of a fluid inlet and a fluid outlet as required by a user. CONSTITUTION: An electronic flow meter(10) includes a lower body(18) formed at one side thereof with an inlet(16). A chamber is formed at a center of the lower body(18). An upper portion of the chamber is opened. An upper body(26) is coupled to the lower body(18) such that the upper body(26) covers the chamber of the lower body(18). The upper body has an outlet(18). An impeller(22) is aligned at a center of the chamber. The impeller(22) has a magnet(32) connected to a hall sensor(12) mounted on a predetermined portion of the upper body(26). Four protrusions(20) are formed at upper edges of the lower body(18).

Description

Electronic flow meter

The present invention relates to an electronic flow meter, and more particularly, the horizontal position of the inlet and the outlet is not only different, and the direction of the inlet and the outlet can be arbitrarily adjusted, and the vortex phenomenon formed in the chamber by the flow rate can be prevented. An electronic flow meter capable of measuring a more accurate flow rate.

In general, the flow meter (flow meter) is a device for measuring the flow rate of the liquid or gas, the representative is to install the impeller (impeller) in the liquid flow path and to measure the flow rate passed by the number of revolutions of the impeller.

1 shows an electronic flow meter according to the prior art as described above, and as shown in the drawing, the flow meter 100 includes a base body 102 having a chamber 112 having an open top at a central portion thereof, and the body. It is composed of a cover 104 to seal the chamber 112 of the hall sensor (hall sensor) is mounted.

In addition, an impeller 112 connected to a hall sensor mounted on the cover 104 is installed at the center of the chamber 112, and the impeller 112 has a collinear inlet 108 formed on the base body 102. And the flow rate flowing through the outlet 110.

Looking at the operation of the flow meter 100 according to the configuration as described above is the fluid flowing from the inlet 108 is to flow out through the outlet 110 through the chamber 112 formed in the base body 102, The operation information of the impeller 106 operated by the fluid is sensed by the Hall sensor by a magnet attached to the impeller 106 to measure the flow rate.

However, in the flowmeter according to the prior art as described above, the fluid flowing from the inlet 108 is introduced into the chamber 112, the vortex phenomenon is generated by the flow rate is empty space in the upper center of the chamber 112 Since this was formed there was a problem that can not measure the exact flow rate.

In addition, since the positions of the inlet 108 and the outlet 110 formed in the base body 102 are formed in a straight shape, when the amount of the fluid flowing in the inlet 108 is small, the amount of the fluid flowing out of the outlet 110 is small. Since it is not possible to measure the exact flow rate as well as the position of the inlet 108 and outlet 110 is fixed, the workability and arrangement of the user is reduced.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, the object of the present invention is not only the horizontal position of the inlet and outlet of the fluid is different, but also the direction of the inlet and outlet in the user's arbitrary 90 ° angle unit The present invention provides an electronic flowmeter that can measure flow rates more precisely because it is adjustable and can prevent eddy currents formed in the chamber by the flow rate.

1 is a schematic cross-sectional view of an electronic flow meter according to the prior art.

Figure 2 is a schematic exploded perspective view of the main portion of the electronic flow meter according to the present invention.

3 is a sectional view of the electronic flow meter according to FIG. 2;

4 is a schematic plan view illustrating arbitrarily setting the directions of the inlet and outlet of the electromagnetic flowmeter according to FIG.

Explanation of symbols on the main parts of the drawings

10: flow meter, 12: Hall sensor,

14: baffle projection 16: the entrance,

18: lower body, 20: locking jaw,

22: impeller, 24: locking groove,

26: upper body, 28: outlet,

30: chamber, 32: magnet

Electronic flowmeter according to the present invention for realizing such an object, the lower body is formed with an inlet protruding to the outside on one side, the chamber is open at the top of the center, and the chamber of the lower body is sealed to the lower It includes an upper body having an outlet formed to protrude outwardly on one side so that the flow rate flowing from the body to the outside, and an impeller positioned in the center of the chamber and connected to the hall sensor mounted on a certain portion of the upper body It is characterized by.

In this case, four locking jaws are formed at the upper edge of the lower body, and the same number of locking grooves are formed at the lower edge of the upper body, the locking jaws are inserted and moved by a predetermined distance, and the lower portion of the upper body At least one baffle protrusion formed in the radial direction is preferably formed at the center portion.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a schematic exploded perspective view of an electronic flow meter according to the present invention, FIG. 3 is a cross-sectional view of the electronic flow meter according to FIG. 2, and FIG. 4 is an arbitrary setting of the inlet and outlet directions of the electronic flow meter according to FIG. 2. It is a schematic plan view showing.

As shown in the figure, the electronic flowmeter according to the present invention, which is indicated by reference numeral 10, has an inlet 16 protruding outwardly on one side, and a chamber 30 having an upper portion open in the center thereof (see FIG. 3). The lower body 18 is formed, and the outlet 28 is formed to protrude to the outside on one side so that the flow rate flowing from the lower body 18 to the outside by sealing the chamber 30 of the lower body 18 Is provided with an upper body 26, and a magnet 32 which is located at the center of the chamber 30 and connected to the hall sensor (12) mounted on a predetermined portion of the upper body 26 Impeller 22.

In addition, four locking jaws 20 are formed at the upper edge of the lower body 18, and the locking jaws 20 are inserted at the lower edge of the upper body 26 and moved and fixed by a predetermined distance. The same number of engaging grooves 24 are formed.

In addition, three baffle protrusions 14 are formed in the lower central portion of the upper body 26 in the radial direction.

According to the configuration of the present invention, the fluid flowing from the inlet 16 of the lower body 18 is discharged to the outside through the outlet 28 of the upper body 26 via the chamber 30 The operation information of the impeller 22 operated by the fluid is sensed by the Hall sensor 12 by the magnet 32 attached to the impeller 22 to measure the flow rate.

At this time, the vortex phenomena generated in the chamber 30 at the flow rate of the fluid is prevented by the baffle protrusion 14, and the horizontal position of the inlet 16 through which the fluid is introduced and the outlet 28 through which the fluid is discharged are different. If the amount of fluid flowing through the inlet 16 is small, the impeller 22 does not operate, and the fluid is filled in the chamber 30, so that the impeller 22 is operated so that the flow rate can be easily measured even if a small amount flows. Will be.

In addition, when the direction of the blemish of the fluid is not made in a straight line, as shown in Figure 4, the user can arbitrarily change the direction of the outlet 28, which is after removing the upper body 26 from the lower body 18 Set the direction of the exit 28 to a predetermined position and insert the locking jaw 20 of the lower body into the locking groove 24 of the upper body, and then rotate the upper body 26 in a predetermined direction to easily exit ( 28 can be reversed.

According to the configuration and operation of the flow meter according to the present invention as described above, not only the horizontal position of the inlet and outlet of the fluid is different, but also the direction of the inlet and outlet can be arbitrarily adjusted by the user and is formed in the chamber by the flow rate. Vortex phenomena can be prevented and more accurate flow rates can be measured.

The present invention is not limited to the above embodiments, and various changes can be made by any person having ordinary knowledge in the field of the present invention without departing from the gist of the present invention as claimed in the following claims. It will be said that there is a technical spirit of the present invention to the extent.

Claims (3)

A lower body having an inlet protruding outwardly on one side thereof and having a chamber open at an upper portion in a central portion thereof; An upper body having an outlet protruding outwardly on one side to seal the chamber of the lower body so that the flow rate flowing from the lower body flows out; And And an impeller having a magnet positioned at a center of the chamber and connected to a hall sensor mounted at a predetermined portion of the upper body. The method of claim 1, wherein four locking jaws are formed at the upper edge of the lower body, and the same number of locking grooves are formed at the lower edge of the upper body and the locking jaws are inserted and moved by a predetermined distance. Electronic flowmeter The electronic flow meter of claim 1, wherein at least one baffle protrusion formed in a radial direction is formed at a lower center portion of the upper body.