KR101381700B1 - A water gauge - Google Patents

Abstract

The present invention relates to a water gauge and, more specifically, to a water gauge enabling water to be concentrated to one side by installing a filter to correspond to the inflow direction of the water on the side to which the water is supplied. The water gauge includes a casing (30); an inlet mounting member (100) which is formed in a pipe shape to be mounted on an inlet unit (31) of the casing; and a flow area changing member (200).

Description

A water gauge with improved flow measurement accuracy and freeze protection

The present invention relates to a water meter, which belongs to the technical field of the water meter in which a filter is installed on the side of the water supply side corresponding to the inflow direction of water.

The meter for measuring the flow amount of the fluid is a case for passing the fluid therein, the drive unit rotates by the flow of the fluid flowing through the inside of the case, and the rotational force is rotated by receiving the rotational force of the drive unit It can be divided into the weighing part which shows the measured quantity corresponding to the outside. The drive unit includes a vane that rotates by friction with the fluid while locked in the flow field. The amount of rotation of the vanes is proportional to the flow rate and the flow rate of the fluid. Therefore, the more the flow rate passing through the drive unit, the vane rotates at a higher speed, and when the water flows very slowly, for example, vanes rotate slowly as much. However, since the meter has a principle of measuring the flow rate using the friction between the vane and the fluid, when the flow rate of the fluid is below a certain threshold, the vane does not rotate, it may not be able to measure the flow rate. That is, the flow rate of the fluid passing through the meter gradually slows down and becomes slower than any critical point, and the spinning vanes stop and fail to measure the flow rate of the fluid passing thereafter. For example, if the faucet is locked but the internal packing of the faucet is worn, for example, if a drop of water leaks at a flow rate lower than the minimum flow rate that the meter can read, the meter can check the flow rate of the leaking water through the meter. It is not there. For this reason, the amount of water discarded without metering amounts to 10% of normal metering quantity in Korea. This undisclosed water is not only a waste of water resources, but also leads to enormous revenue loss.

Publication No. 10-2012-0094596 (Water meter with stopper)

In the present invention, the water flow area variable member is installed at the inlet of the water meter to induce the flow amount to be eccentric in one direction, thereby effectively rotating the rotor vane of the meter in one direction, and at the same time, the water flow area variable member has a low thermal conductivity. The purpose of this study is to propose a water meter structure that can contribute to winter meter freeze prevention using materials.

The configuration of the present invention for solving the above problems is as follows.

That is, the casing 30 of the water meter; An inlet mounting member 100 formed in a pipe shape to be mounted to the inlet portion 31 of the casing; It is mounted on the inside of the inlet mounting member, the oil surface area variable member 200 having a cross-section is gradually widened from one end to the other end; Including, but the shape of the bottom portion 250 of the flow area variable member is formed in the form of a portion cut out of the fan shape is formed so that the incoming water is deflected left or right with respect to the inlet direction.

It is formed to correspond to the size and shape of the inner surface of the inlet mounting member 100 of the outer surface 210, the shape of the bottom portion 250 of the flow area variable member is formed in the form of a part of the circle cut out fan shape, Protruding fastening means (260,261) are formed in the body of the flow area variable member 200, respectively, and correspondingly accommodated in the body of the inlet mounting member 100 in the form of a groove for receiving the fastening means (260,261) (110,142) are formed.

In addition, a plurality of holes are formed in the side portion 120 of the inlet mounting member, and a plurality of holes are formed in the lower portion 140 of the inlet mounting member, so that foreign substances of tap water are filtered through the holes.

In the present invention, a flow area variable member is installed at the inlet of the water meter to induce the flow amount to be eccentric in one direction, and induces the rotary vane of the meter to be effectively turned in one direction to improve the measurement accuracy of the flow rate. The area-variable member uses materials with low thermal conductivity, which can contribute to winter meter freezing prevention.

1 is a photograph representing the casing, the metering member and the housing for the metering member (prior art)
Figure 2 is a photograph of a conventional inlet portion of the casing (prior art)
Figure 3 is a side cross-sectional view equipped with a flow area variable member of the present invention
FIG. 4 is a state view from the same direction as in FIG. 2 in a state in which the flowing area variable member is mounted as shown in FIG.
5 is a perspective view of the inlet mounting member 100.
6 is a perspective view immediately before the engagement of the inlet mounting member and the flowing area variable member;
7 is a perspective view of the members of FIG. 6 combined;
8 is a view for explaining the fastening means for coupling the inlet mounting member and the flow area variable member;
9 is a view of FIG. 8 from a different angle
10 is a view showing the lower portion 140 of the inlet mounting member cut for convenience, showing a receiving portion for receiving the fastening means.
11 is a state diagram before mounting the inlet mounting member as shown in FIG.
12 is a perspective view of the flow area variable member.

Hereinafter, preferred embodiments of the present invention will be described in detail.

However, the scope of the present invention should be understood from the claims without being limited to the following examples.

In summary, the present invention is as follows.

That is, the casing 30 of the water meter; An inlet mounting member 100 formed in a pipe shape to be mounted to the inlet portion 31 of the casing; It is mounted on the inside of the inlet mounting member, the oil surface area variable member 200 having a cross-section is gradually widened from one end to the other end; Including, but the shape of the bottom portion 250 of the flow area variable member is formed in the form of a portion cut out of the fan shape is formed so that the incoming water is deflected left or right with respect to the inlet direction.

It is formed to correspond to the size and shape of the inner surface of the inlet mounting member 100 of the outer surface 210, the shape of the bottom portion 250 of the flow area variable member is formed in the form of a part of the circle cut out fan shape, Protruding fastening means (260,261) are formed in the body of the flow area variable member 200, respectively, and correspondingly accommodated in the body of the inlet mounting member 100 in the form of a groove for receiving the fastening means (260,261) (110,142) are formed.

In addition, a plurality of holes are formed in the side portion 120 of the inlet mounting member, and a plurality of holes are formed in the lower portion 140 of the inlet mounting member, so that foreign substances of tap water are filtered through the holes.

1 is a picture showing the casing, the metering member and the housing for the metering member, FIG. 2 is a photograph of a typical inlet portion of the casing, FIG. 3 is a perspective view of the inlet mounting member 100 and FIG. 6 is a perspective view of the inlet mounting member 100 and the inlet mounting region 100 and the inlet mounting member 100. Figure 7 is a perspective view of the combination of the members of Figure 6, Figure 8 is a view for explaining the fastening means for the combination of the inlet mounting member and the flow area variable member, Figure 9 is a view of Figure 8 from a different angle, Figure 10 is FIG. 11 is a view illustrating the lower portion 140 of the inlet mounting member for convenience, showing a receiving unit accommodating the fastening means, FIG. 11 is a state diagram before mounting the inlet mounting member, and FIG. 12 is variable in flow area. Isometric of absence A.

1 and 2 show a conventional water meter type.

Referring to Figure 1, there is shown a conventional water meter, the tap water flows out and out, the casing 30 including the flow rate metering member 20 is shown on the far left, the metering member 20 on the right side The housing 10 is inserted into the casing, and on the far right side is shown a metering member 20 equipped with several gear structures for checking the flow rate of tap water.

The tap water passes through the hole 32 of the inlet part 31 and rotates the rotary vane (not shown) mounted inside the housing, and the rotary vane is connected to the gear structure of the metering member 20 so that the flow rate of tap water is read. .

After the tap water passes through the hole 32, the tap water passes through the inlet hole 15 of the housing. The inlet hole is slightly eccentrically formed to one side such as the F1 and F2 directions so that the tap water naturally rotates inside the casing 35. It is induced to.

By the way, when looking at the shape of the hole 32 in the inlet portion in the front direction (FIG. 2) through which tap water flows, the shape of the hole in the inlet portion as shown in A of FIG. 2 is not formed so that the tap water can rotate in one direction. The left and right sides are symmetrical, like a circular or elliptical shape. Due to this shape, the tap water passing through the inlet part does not naturally pass through the inlet hole 15 of the housing when it collides with the housing 10 of FIG. 1, which does not solve the problem even though there is a problem that prevents accurate measurement of the water consumption. I wasn't.

That is, in order to induce the natural rotation of the tap water in the form of the hole 32 in the inlet as shown in Fig. 2 is a large error in measuring the water consumption, in view of this advantage in the present invention, the tap water naturally in the hole 32 in the inlet Into the housing 10 in the direction of F1, F2, characterized in that configured to rotate the rotor blades therein.

In order to achieve this purpose, the flow area variable member 200 is mounted so that water passing through the inlet part 31 naturally flows into the inlet hole 15 of the housing.

Since the flow rate variable member 200 (FIG. 6) may be difficult to mount on the inlet portion 31, the flow rate variable member 200 is fastened to the inlet mounting member 100 as shown in FIG. 6 and assembled in the state of FIG. 7. Next, the method of fitting it into the inlet part 31 is preferable.

3 illustrates a state in which the water flow area variable member 200 and the inlet mounting member 100 are mounted to the inlet portion 31 in the above manner.

5 is a view showing in different directions in a state where the water flow area variable member 200 and the inlet mounting member 100 are combined. 12 shows a perspective view of the flowing area variable member 200, the thickness of one side is relatively thin as t, and gradually increases in thickness. (Shape can also be seen in Figure 6)

The thickness t is a portion of the hole shown in FIG. This prevents the tap water from passing through only the area part of the fan shape.

When the tap water is deflected to one side as shown in FIG. 5, the tap water passes naturally into the inlet hole 15 of the housing 10 shown in FIG. 1, so that the meter reading member 20 is carried out even when a small amount of tap water flows. The rotational force is effectively transmitted to the gear structure of the, and the precision of the water consumption meter reading is improved.

When a large amount of tap water flows into the casing 30, when tap water passes through the inlet hole 32 of FIG. 2 according to the prior art, the tap water strongly hits the outer side part of the housing, resulting in a large pressure loss. Of course, as the cause of the power loss of the pump, as described above, adversely affects the flow rate measurement accuracy of the metering member 20, so as to one side as in the flow area variable member 200 as in the present invention (Fig. 4). In this case, the tap water is guided to the right side, and the direction of tap water is induced, thereby improving the accuracy of the flow meter reading.

4 is a schematic view of the inlet part viewed from the front of the inlet part, the tap water enters into a relatively large area of the hole 32 and is deflected to the right due to the shape characteristic of the flowing area variable member 200. The direction of water is guided through 50). Also in FIG. 5, the narrow hole part 50 can be grasped | ascertained.

The flow area variable member will be described in more detail.

Referring to FIG. 6, the thickness of one side is relatively thin and gradually thickens to the other side. In addition, the inner side surface 220 is a part directly contacting the main stream of the incoming water, which is curved to minimize the pressure loss of the water.

And it is formed similar to the surface of the cylinder of the outer surface 210, which is the opposite side of the inner surface 220 should be formed corresponding to the size and shape of the inner surface of the inlet mounting member 100.

The bottom portion 250 of the flowing area variable member is preferably formed as a part of a circle cut out of a fan shape.

The water flow area variable member 200 is preferably mounted while being accommodated in the inlet mounting member 100. As shown in FIG. 8, fastening means 260 and 261 having a protrusion shape are formed in the body of the water flow area variable member 200, respectively. Correspondingly, accommodating parts 110 and 142 are formed in the body of the inlet mounting member 100 in the form of a groove accommodating the fastening means 260 and 261. The fastening means and the groove of the accommodating portion may be coupled to each other to combine the flow area variable member and the inlet mounting member, but there may be various coupling methods in the ordinary skilled person's level. 9 is a view seen from a direction different from that of FIG. 8.

FIG. 10 is a view showing the lower portion 140 of the inlet mounting member for convenience, showing a receiving portion accommodating the fastening means.

Part S of FIG. 11 illustrates a space in which the inlet mounting member and the oil / water area variable member are mounted.

On the other hand, the side of the inlet mounting member is shown as a hole is formed, there may be no hole in this portion, the micro hole is formed in the side portion 120 so that the inlet mounting member can perform the role of a filter and also the inlet mounting Of course, micro holes (not shown) may be formed in the lower part 140 of the member. When performing the role of such a filter it is necessary to periodically replace the inlet mounting member periodically.

In the present invention, a flow area variable member is installed at the inlet of the water meter to induce the flow amount to be eccentric in one direction, and induces the rotary vane of the meter to be effectively turned in one direction to improve the measurement accuracy of the flow rate. The area-variable member uses materials with low thermal conductivity, which can contribute to winter meter freezing prevention.

10: housing 15: flowing hole
20: metering member 30: casing
31: Inlet part 32: Hole 35: Casing inside
38: exit part 50: narrow hole part
100: entrance mounting member
110: accommodation
120: Inlet mounting member side
140: lower part of the inlet fitting member
142: accommodation
200: flow area variable member
250: bottom of the variable member
260,261: Tightening means
220: Inside

Claims (4)

A casing 30 of the water meter;
An inlet mounting member 100 formed in a pipe shape to be mounted to the inlet portion 31 of the casing;
It is mounted on the inside of the inlet mounting member, the oil surface area variable member 200 having a cross-section is gradually widened from one end to the other end;
, ≪ / RTI &
The bottom portion 250 of the oil / water area variable member is formed in a portion of a circle cut out of a fan shape so that the incoming water is deflected to the left or the right with respect to the inflow direction.
Water meter with improved flow measurement accuracy and freeze protection A casing 30 of the water meter;
An inlet mounting member 100 formed in a pipe shape to be mounted to the inlet portion 31 of the casing;
It is mounted on the inside of the inlet mounting member, the oil surface area variable member 200 having a cross-section is gradually widened from one end to the other end;
Including
Water meter with improved flow measurement accuracy and freeze protection The method according to claim 1 or 2,
It is formed in correspondence with the size and shape of the inner surface of the inlet mounting member 100 of the water surface area variable member (outside surface 210 of 2000), the shape of the bottom portion 250 of the oil surface area variable member is a circle cut out Formed in some form of
Protruding fastening means (260,261) are formed in the body of the flow area variable member 200, respectively, and correspondingly accommodated in the body of the inlet mounting member 100 in the form of a groove for receiving the fastening means (260,261) (110,142) formed,
Water meter with improved flow measurement accuracy and freeze protection The method of claim 3,
A plurality of holes are formed in the side portion 120 of the inlet mounting member,
A plurality of holes are formed in the lower portion 140 of the inlet mounting member
Characterized in that the foreign material of the tap water is filtered through the hole
Water meter with improved flow measurement accuracy and freeze protection

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