KR200406469Y1 - Freeze Protection Meter - Google Patents

Abstract

The present invention relates to a freeze-preventing meter, and when the temperature decreases during the cold season, the water introduced into the meter freezes and the volume expands, so that the meter is freezed with a buffer for naturally absorbing pressure due to the expansion of the volume. In providing a structure that can prevent the present invention is a structure that is formed in the bottom portion of the existing meter, the elastic rubber for receiving the valve and the valve inside the bottom portion is formed in the space portion up and down, The elastic rubber center has a structure in which the lower cover is closed in a state in which a pedestal for supporting the inner body is configured.

This has the effect that can be used efficiently without temperature changes and changes in existing flow rates.

Water, Meter, Freeze Water Meter, Freeze, Freeze Meter

Description

Freeze Protection Meters {omitted}

Figure 1 is a cross-sectional view of a conventional meter in the conventional embodiment.

<Figure 2> is a cross-sectional view of the lower body of the present invention.

<Figure 3> is sectional drawing of the water flow state.

Figure 4 is a cross-sectional view of the expansion state received during freezing.

Figure 5 is a cross-sectional view of the valve movement state due to expansion during freezing.

Figure 6 is a cross-sectional view of the valve movement state upon restoration upon thawing.

<Figure 7> is a perspective view of a conventional meter.

※ Explanation of codes for main parts of drawing

10: instruction meter

20: outside body

210: strain 220: measurement chamber 230: impeller 240: flow inlet

250: flow outlet 260: transmission gear

30: valve 310: valve O-ring groove 320: valve hole

40: Elastic rubber 410: Rubber groove 420: Air hole

50: stand 510: stand groove 520: stand O-ring

60: lower cover 610: cover O-ring 620: O-ring groove

[Documentation information of the prior art]

[Document 1] Practical Use: 20-2002-0302399

[Document 2] Practical Use: 20-2004-0016923

The present invention relates to a freeze-preventing meter, and when the temperature decreases during the cold season, the water introduced into the meter freezes and the volume expands, so that the meter is freezed with a buffer for naturally absorbing pressure due to the expansion of the volume. In providing a structure that can prevent the present invention is a structure that is formed in the bottom portion of the existing meter, the elastic rubber for receiving the valve and the valve in the inner side of the bottom portion is formed in the space portion to move up and down the space portion The elastic rubber center integrally taking this possible structure relates to a freeze protection meter of a structure, characterized in that the lower cover is closed in a state where a pedestal for supporting the inner body is configured.

For example, in the publication of 20-2002-0302399, a sealing member is used inside the bottom part, and the lower cover is closed with the elastic spring inserted into the supporting part. The product of the state in which the exhaust opening which escapes is formed is described.

In addition, as a kind of improved freeze protection in the conventional meter:

20-2004-0016923 describes a product in which a tube-type airbag can be inserted to cushion the expansion of frozen water.

In addition, various techniques for freezing prevention have been expressed, but only a representative conventional product will be compared and described.

In the above-mentioned conventional meter for preventing freezing, the publication of 20-2002-0302399 uses a sealing member and inserts an elastic spring at the bottom to close the lower cover, and the meter is inflated when water inside the meter freezes. Since this becomes large, the sealing member is pushed.

In this case, since the implementation is narrow in a limited space of the mirror slide between the sealing member it can not be pushed horizontally to the expansion pressure.

In this state, since the lower elastic spring does not cope uniformly with the expansion pressure of the flow rate, the sealing member may be inclined.

In addition, in order to solve the problem of restoring elasticity to configure the spring to withstand inflation pressure, the free field, the wire diameter and the outer diameter of the elastic spring must be increased, so the protrusion of the lower part of the meter is so large that it is large in appearance and therefore the meter is used in a limited space. That is, it may not be installed because it is replaced in the meter box.

And the air exhaust port of the lower cover can be restored to its original state after freezing only if the internal air pressure is maintained in a non-perforated state, but the exhaust port configuration should not be completely restored because it must be restored only by the elastic spring force.

Therefore, if the problems are not improved, there is a problem that can not play a role as a water meter for the actual freeze protection.

In the above-mentioned conventional meter for preventing freezing, the freezing can be prevented by inserting a tube airbag of 20-2004-0016923 into the flow valve space.

However, the internal air pressure injected into the air bag should be constant to reduce the flow rate error of the water meter, but in reality, accurate internal air injection is difficult.

In addition, even if the injected internal air is constant, the lower part of the inside of the meter is configured to have different pressure difference in the pipe and the water pressure of the water varies accordingly. Accurate weighing is not possible.

The conventional method of installing a heater in the prior art has a problem that is inefficient because of the characteristics of the meter, because a separate power supply must be installed.

Accordingly, the present invention is configured to solve the conventional problems as described above, so that when the temperature is lowered in the cold weather and water introduced into the meter freezes, it is possible to naturally absorb the pressure due to the expansion of the volume It is provided with a buffer unit to prevent the meter from freezing and to provide a structure of the meter to restore the metering of the water accurately without changing the volume during thawing.

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

<Figure 1> is a cross-sectional view using a conventional guide meter for the embodiment of the present invention <Fig. 2> is a cross-sectional view of the lower body according to an embodiment of the present invention.

As shown in FIG. 2, a cross-sectional view of <Figure 2> according to an embodiment of the present invention is described in detail. There is a strainer 210 and the one side where the water is drained is formed with a flow outlet 250.

In addition, the impeller 230 provided with the metering chamber 220 in a state in which the guide meter 10 of <Fig. 1> is provided inside the outer body 20 includes a transmission gear 260 of the guide meter 10. It is a product that is configured to show the water usage in the indicator according to each gear ratio.

Here, the valve 30 configured to maintain the same volume of water in the cross-sectional view of the lower body 20, which is improved to prevent freezing of the present invention, is formed in the valve oring groove 310 to prevent water leakage. The pedestal 50 is inserted into the valve o-ring 330 in the inserted state and the valve hole 320 in the center of the valve 30.

The pedestal 50 has a pedestal o-ring 520 inserted into the pedestal groove 510 in order to prevent water leakage. The pedestal 50 is supported by the valve hole 320 of the valve 30. The lower side is supported by the rubber groove 410 of the elastic rubber 40.

And the elastic rubber 40 is a state in which the upper side receives the valve 30, the lower side is supported by the lower cover 60 and the lower cover 60 is inserted into the O-ring groove 620 cover O ring 610 The inner threaded portion of the lower cover 60 is assembled with the outer threaded portion of the outer body 20.

Here, the state of water flow is shown in <Figure 3> to help understand the embodiment of the present invention.

Here, the cross-sectional view of <Figure 4> according to an embodiment of the present invention represents the total pressure received inside the meter by expanding the volume as the water freezes when water is not used.

When the water inside the meter freezes, it expands by about 8 to 12%, which causes a large volume to destroy relatively weak parts, thereby causing freezing.

Therefore, as shown in Fig. 5, the valve moves from the existing distance L0 to L1 to buffer the expansion by freezing and expresses the buffering role due to the expansion of the water.

At this time, the valve O-ring 330 and the pedestal O-ring 520 is preferably in a state in which water is separated from the air layer in the space of the elastic rubber 40 together with the role of sealing the water so as not to pass to the support of the elastic rubber 40.

When the water expands during the freezing and pushes the valve 30, the air layer changes to a pressurized state, and in the embodiment of <Fig. 6>, L1 is the elastic force of the elastic rubber 40 together with the air pressure compressed at the bottom during thawing. This is because it serves to restore the original state by pushing the valve 40 to L0.

And the pedestal 50 is to prevent the change in the volume is pushed to the bottom because the expansion of the water in the metering chamber 220 can be concentrated in the center of the lower plane of the center.

At this time, if the lower part of the metering chamber 220 is deformed, since the radial shape may be deformed at the center, the deformed lower part during thawing may not be returned, and thus the volume of water may change, and thus accurate metering may not be possible.

If the above conditions are provided, the meter naturally absorbs the pressure due to the expansion of the volume, thereby preventing the meter from freezing.

The present invention is provided with a buffer unit to naturally absorb the pressure due to the expansion of the volume when the water flows inside the meter due to the temperature drop in the cold weather to prevent the meter from freezing and also thaw It has the effect that water metering is accurate without changing the volume of time.

In addition, the lower cover side is configured to be fixed and detachable, so that various parts provided on the inside can be easily replaced, thereby making it easy to repair the product.

Claims (2)

In the meter provided with the outer body 20, the space portion communicated to the lower portion of the outer body 20, The valve 30 structure is provided to be capable of raising and lowering up and down in the space portion, An elastic rubber structure in which the outer body surface is in close contact with the inner circumferential surface of the valve 30 and the lower surface thereof is elastically supported; Pedestal 50 structure having a valve hole 320 in communication with the center of the valve 30 to support the metering chamber 220, A freeze-preventing meter, characterized in that the buffer unit 80 is provided by the separation of water and air layer by the structure. The method of claim 1, The lower cover 60 is a freeze protection meter, characterized in that it is provided to be fixed to and separated from the lower portion of the outer body (20).

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