KR100305634B1 - A meter of waterworks - Google Patents

Abstract

The present invention is also installed in the water pipe to be precisely metering the amount of water used in the water meter is rotated by the passing water pressure to prevent the foreign matter, especially fine sand is caught between the piston and the working chamber to measure the amount of use A water meter which improves performance while preventing premature wear of related parts, which is provided in the working chamber of the water meter and the piston, which is eccentrically driven in contact with the inner circumferential surface of the working chamber, flows into the working chamber on the outer circumferential surface thereof. Various foreign substances such as sand, etc., which are to be discharged in the direction of the flow velocity by water pressure, while the front end of the flow velocity direction is closed and the rear end is provided with equally spaced grooves along the circumferential direction.

Description

A meter of waterworks

The present invention relates to a water meter which is mounted on a water pipe to measure the amount of water used, and more particularly, is provided in the inside of the water meter, in particular, a variety of foreign matters between the piston and the working chamber to measure the amount of water rotated by the flow rate of water. In addition, the present invention relates to a water meter which prevents fine sand from getting stuck and improves performance while preventing premature wear of related parts.

In general, the water meter is to measure the amount of water used in each household or other places of use, which is installed at a predetermined position of the water pipe to measure the amount of water through the water pipe to be displayed in letters. According to its structure, various kinds are known and widely used in practice.

Among various water meters, the actual system meter (Positive System Meter) of the rotary piston type is a cylindrical working chamber inside the upper and housing (10) (10a) connected to the water pipe as shown in FIG. 11 is installed and at the same time the working chamber 11 of the working chamber 11 is fastened by a shutter 12 and is provided with a piston 13 which rotates eccentrically when water pressure is applied. The upper part of the chamber 11 is provided with a counter 14 to counter the rotation of the piston (13).

Therefore, the water passing through the water pipe is introduced into the interior through the lower housing (10a) and the foreign matter is caught by the strainer (15) is introduced into the interior through the inlet hole provided on the lower side of the working chamber (11) In this way, the inflow of water is to measure the amount of water through the counter machine 14 connected thereto by rotating the piston 13 provided in the working chamber 11, and is continuously discharged to the water pipe through the upper housing 10 will be.

That is, the water flowing through the water pipe is introduced into the interior through one side inlet of the working chamber 11, so that the piston 13 oscillates by its water pressure, and the piston 13 has a central axis thereof. Since it is fastened to the center guide of the working chamber 11, the central axis is supported by the shooter 12 so as to rotate in an eccentric manner, and thus a counter machine made of several gears is connected to the upper shaft of the piston 13. (14) is operated to measure the quantity.

However, the conventional water meter operated as described above contains not only various foreign substances such as fine sand in the water passing therein, but also these sands are introduced into the working chamber 11 so that the piston which is rotated in the interior thereof ( There is a problem such as causing a malfunction of 13) or the early wear of these parts, as well as damage.

That is, the piston 13 provided in the working chamber 11 is rotated eccentrically while its outer circumferential surface is in close contact with the inner circumferential surface of the working chamber 11, but when sand is caught in the part where they are in contact, this serves as a wedge. By stopping the rotation of the piston 13, there is a problem that causes a malfunction of the water meter, and when a stronger hydraulic pressure acts, the surface is damaged and the related parts are damaged. Was.

The present invention has been made to solve the conventional problems as described above, the object of which is to prevent the early wear, as well as damage of the related parts by various foreign matters, such as sand contained in the water, according to the accurate and smooth operation To provide a water meter that can improve performance.

This object is achieved by improving the structure of the piston of the water meter, that is, the outer peripheral surface of the piston is provided with a plurality of grooves at equal intervals along the circumferential direction, which is provided to open to the outside in the flow direction of the flow progressing direction and the piston Even if various foreign substances such as sand are caught in the contacting part, it is possible to easily escape to the outside by the flow rate, thereby preventing premature wear of related parts and malfunction.

1 is an exploded perspective view showing the overall configuration of the water meter to which the present invention is applied

Figure 2 is an exploded perspective view showing a configuration according to the present invention

Figure 3 is a cross-sectional view of the assembled state of the present invention Figure 2

4 is a plan view of the present invention Figure 3

5 is a plan view showing the configuration of the present invention piston

Figure 6 is a plan view of the working chamber of the present invention

7 is a front configuration diagram of the present invention Figure 5

8 is a block diagram showing another embodiment of the present invention Figure 5

9 is a block diagram showing another embodiment of the present invention Figure 5 10a to 10d is a plan view of the main portion showing a piston operating state of the present invention

* Description of the symbols for the main parts of the drawings *

10,10a: housing 11,20: working chamber 12: shooter

13, 30: piston 14: counter 15: strainer

21: Inlet 22: Information 31: Distribution

32: support plate 33: rotary shaft 34: cutting groove

35,35a, 35b: recess

Referring to the configuration and operation of the present invention in detail by the accompanying drawings as follows.

2 of the accompanying drawings, the structure according to the present invention is shown in detail. In the drawing, reference numeral 20 denotes a working chamber and at the same time, reference numeral 30 denotes a piston.

The working chamber 20 is provided in the upper and lower housings 10 and 10a of the water meter while the strainer 15 for filtering foreign matters is mounted on the lower portion of the water meter. The piston 30 is provided by 40.

The working chamber 20 is provided in a cylindrical shape having an upper opening, and the inlet 21 through which water is introduced is provided at the bottom of the inside thereof, and at the center of the bottom surface, the shaft of the piston 30 to be described later. Cylindrical guide 22 which is fastened and rotates is guided.

In addition, the piston 30 is provided in a cylindrical shape while the support plate 32 having a plurality of distribution holes 31 therein is integrally provided, the upper and lower centers of the support plate 32, respectively, the rotary shaft 33 Is provided, and also provided with a cutting groove 34 in the longitudinal direction at the outer peripheral position of the piston 30 to provide a space for the shooter 40 is fastened.

In addition, the outer circumferential surface of the piston 30 is provided with a plurality of grooves 35 at equal intervals in the circumferential direction, the grooves 35 are configured to have a structure in which the upper portion and the lower portion is closed at the same time.

On the other hand, Figure 8 of the accompanying drawings is a view showing another embodiment of the piston 30, which is a groove 35a provided on the outer circumferential surface of the piston 30, the opening portion is wider but narrower toward the closing portion It was formed in the form.

In addition, Figure 9 of the accompanying drawings is a view showing another embodiment of the piston 30, which facilitates the discharge of foreign matter by forming a groove (35b) provided in the outer peripheral surface of the piston 30 in a spiral shape will be.

Therefore, the water meter of the present invention configured as described above is to be used by mounting the lower housing 10a in the flow direction of the water flow in the water pipe as usual, and when the user opens the faucet to use water, the water pipe Water passing through is introduced into the water meter through the lower housing (10a). The water is introduced into the working chamber 20 through the inlet hole provided on the lower side of the working chamber 20 while the foreign matter is caught as much as possible by the strainer 15 therein, the working chamber 20 The water flowing into the outlet exits the discharge guide 16a of the top plate 16 while rotating the piston 30. First, a process of rotating the piston 30 while water entering through the inlet hole 21 of the working chamber 20 exits the discharge guide port 16a of the top plate 16 as described above is shown in FIGS. It demonstrates through 10b, FIG. 10c, and FIG. 10d. Even though the water has filled up the inside of the working chamber 20, the water supplied through the inflow hole 21 at the bottom of the working chamber 20 as shown in 10a is the upper side of the shooter 40 (the direction in the drawing and the same below). Bar, some water flows through the distribution hole 31 of the piston 30, but some water is filled in the upper space 20a, the water filled in the upper space 20a is shown in Figure 10b As shown in the figure, the piston 30 is moved to the left. Thus, when the piston 30 is pushed to the left and the volume of the upper space portion 20a gradually increases, the volume of the lower space portion 20b corresponding to the lower portion gradually decreases as shown in FIG. The water filled in is discharged through the discharge guide 16a of the top plate 16, and when the volume of the upper space portion 20a continues to expand to the lower portion of the lower portion, the piston 30 is again shown in FIG. 10D. To the right. And when the volume of the lower space portion 20b almost disappears, water that continues to flow begins to act on the lower portion of the piston 30, so this time the piston 30 is moved to the upper side while the piston 30 is moved to the right side. Since the shape of the incision groove 34 into which the shooter 40 is inserted is a drop shape, the position of the piston 30 is in the same state as in FIG. 10A, and the processes of FIGS. 10B, 10C, and 10D thereafter. Repeat. The piston 30 is not actually rotated because the shooter 40 is inserted into the incision groove 34, and the outer circumferential surface thereof is pushed to the left while being in close contact with the inner circumferential surface of the working chamber 20, and then again to the right. Repeatedly pushed to the process, because the incision groove 34 at this time is formed in the shape of a drop in the state pushed to the left is a slight up and down movement in parallel. Therefore, the rotary shaft 33 inserted into the center of the piston 30 is rotated along the guide 22 of the working chamber 20, the upper end of the rotary shaft 33 to rotate the top plate 16 The coupling shaft 16b arranged in the center of the shaft can be rotated, and the coupling shaft 16a can drive the counter 14.

In the water meter operated in this way, various foreign substances such as sand are contained in the water passing through the inside of the water meter, so that they are introduced into the working chamber 20 and caught between the working chamber 20 and the piston 30. This will be.

However, since a plurality of grooves 35 are formed at equal intervals on the outer circumferential surface of the piston 30, even if foreign matter such as sand is caught between the working chamber 20 and the piston 30, they are grooved by the flow rate. It is smoothly guided along (35) and is easily discharged to the outside.

That is, the groove 35 is provided at equal intervals along the circumferential direction on the outer circumference of the piston 30, but the front end is closed and the rear end is opened at the same time as the flow velocity, so that the outer circumferential surface and the working chamber 20 of the piston 30 are opened. Even if sand is caught in the contact area of the inner circumference of the body, foreign substances such as sand are easily discharged by the water pressure of the water passing through.

At this time, the groove 35 is closed at the front end and at the same time the rear end is opened to prevent the backflow of foreign matter and to be easily discharged only in the flow direction of the flow.

On the other hand, as another embodiment of the present invention, by providing the groove (35a) in a spiral along the rotational direction of the piston 30, or by forming a wide gap between the opening may be easier to discharge the foreign matter, of course. to be.

The present invention as described in detail above is to improve the structure of the piston provided in the working chamber inside the water meter, it is possible to easily discharge various foreign substances such as sand flowing into the water meter together with water to the outside, accordingly It is possible to prevent the early wear of the parts, as well as to prevent the phenomena such as damage to the parts in advance, and further has the effect of improving the performance of the water meter.

Claims (3)

In a water meter installed in the water pipe to the piston 30 in the working chamber 20 is rotated by the water pressure of the water passing through the water pipe to measure the amount of water used, The piston 30, which is provided in the working chamber 20 of the water meter and is eccentrically rotated in contact with the inner circumferential surface of the working chamber 20, receives various foreign substances such as sand introduced into the working chamber 20 on its outer circumferential surface. While discharging in the direction of the flow rate by the front end of the flow velocity direction and at the same time the rear end is provided with a groove 35 which is open at equal intervals along the circumferential direction. The water meter according to claim 1, wherein the groove (35a) of the piston (30) has a wide open portion and a narrow closed portion. The water meter according to claim 1 or 2, wherein the groove (35b) of the piston (30) is formed spirally along the rotational direction of the piston (30).