KR20140147749A - Water gauge - Google Patents

Abstract

The present invention relating to a water meter includes: an outer housing; a first inner housing; a second inner housing; and a lower pad. The first outer housing with the top open includes an inlet where fluid is introduced, and an outlet where fluid is discharged, and the fluid flows in one direction within the first outer housing. The first inner housing is accommodated inside the outer housing and accommodates a water turbine rotated by the flow of the fluid in one direction. The second inner housing is accommodated inside the outer housing to be in contact with the upper part of the first inner housing, and accommodates a gear unit rotating in accordance with the rotation of the water turbine. The lower pad is accommodated inside the outer housing to be in contact with the lower part of the first inner housing. The outer housing includes a first wall and a second wall spaced from the first wall.

Description

WATER GAUGE

The present invention relates to a water meter, and more particularly, to a water meter for preventing freezing of a frother capable of sufficiently absorbing a volume expansion caused by freezing of a fluid flowing into a meter from a water pipe during the winter season.

Generally, a water meter is used to measure the amount of fluid used, and is installed outside a house, a villa, or an apartment. Thus, the water meter is easily frozen due to the falling temperature in winter. Even if there is no use of the water, the water inside the water meter, specifically the space inside the housing freezes, and the volume expands by about 20%. At this time, the space inside the housing is limited for volume expansion. Therefore, when the water is frozen, the volume expansion occurs to cause a gap between the components, so that the glass window is broken or the upper and lower parts of the outer housing are separated from each other, or the outer housing, the upper inner housing and the lower inner housing Separately, the water meter is broken and eventually the function of the water meter is lost. Accordingly, in the winter, the water meter is wrapped and warmed by using clothes, styrofoam, vinyl, etc. in the water meter, but the water meter is bad in appearance and insufficient in thermal insulation.

Therefore, in order to solve the above problems, there have been many attempts, such as installing a hot wire around the water meter and installing an air bag cushion inside the water meter.

However, in order to install a hot wire in the vicinity of the water meter, electric power must be supplied to the water meter, which increases the volume of the water meter. On the other hand, when the airbag cushion is installed, the durability of the airbag cushion is low, for example, air leaks from the airbag cushion due to repeated changes in water and ice, and the cost has increased because the airbag cushion must be inserted separately.

In addition, in the case of a product in which a silicone implant is attached to an inner housing or the like to absorb the amount of volume expansion due to the change of ice with water by elasticity of silicon, the cost is increased not only by the expensive injection method but also by the repeated change in the durability. There is a risk that a malfunction of the meter function may occur due to the separation or displacement of the silicon.

An object of the present invention is to provide a water meter for preventing freezing of frost which can sufficiently absorb the volume expansion caused by freezing of a fluid introduced into a meter from a water pipe during the winter season.

The present invention relates to an outer housing having an upper opening and an outlet through which fluid flows and a fluid outlet through which fluid flows in one direction; A first inner housing accommodated in the outer housing and accommodating therein aberration which is rotated by a one-way flow of the fluid; A second inner housing accommodated in the outer housing so as to abut the upper portion of the first inner housing and accommodating therein a gear portion rotating in accordance with the rotation of the aberration; And a lower pad received within the outer housing to abut a lower portion of the first inner housing, the entirety of the outer housing including a first wall and a second wall spaced apart from the first wall To provide a water meter.

Here, the lower pad may include a first hollow portion formed therein.

The second inner housing may include a second hollow portion formed in the bottom portion.

Further, the water meter includes a counting unit accommodated in the second inner housing, the counting unit indicating a fluid consumption amount measured by rotation of the gear unit; And a viewing window disposed above the outer housing for identifying the counting unit. At this time, the viewing window may include a first transparent plastic plate; A second transparent plastic plate disposed below the first transparent plastic plate and thinner than the first transparent plastic plate; And a rubber packing inserted in a peripheral portion between the first transparent plastic plate and the second transparent plastic plate.

According to another aspect of the present invention, there is provided an air conditioner comprising: an outer housing having an upper portion opened and including a fluid inlet and a fluid outlet; A first inner housing accommodated in the outer housing and accommodating therein aberration which is rotated by a one-way flow of the fluid; A second inner housing accommodated in the outer housing so as to abut the upper portion of the first inner housing and accommodating therein a gear portion rotating in accordance with the rotation of the aberration; And a lower pad received within the outer housing to abut a lower portion of the first inner housing, wherein the lower pad includes a first hollow portion formed therein, and the second inner housing is formed in the bottom portion And a second hollow portion.

According to another aspect of the present invention, there is provided an internal combustion engine comprising: an outer housing having an upper portion opened and including a fluid inlet and a fluid outlet; A gear portion accommodated in the outer housing so as to be in contact with an upper portion of the first inner housing and rotating in accordance with the rotation of the aberration, A second inner housing for accommodating a counting portion indicating the amount of fluid used; A lower pad received in the interior of the outer housing to be in contact with a lower portion of the first inner housing; And a viewing window disposed above the outer housing for identifying the counting unit, wherein the viewing window comprises a first transparent plastic plate; A second transparent plastic plate disposed below the first transparent plastic plate and thinner than the first transparent plastic plate; And a rubber packing inserted in a peripheral portion between the first transparent plastic plate and the second transparent plastic plate.

Since the water meter according to the present invention includes an outer housing formed of double walls (first wall and second wall), it can sufficiently absorb the volume expansion caused by freezing of the fluid introduced therein, And damage such as breakage can be prevented.

The water meter according to the present invention includes a lower pad having a first hollow portion formed therein and a second inner housing having a second hollow portion formed at a bottom portion thereof. Accordingly, a volume expansion caused by freezing of the fluid introduced into the inside of the water meter It is possible to prevent damage such as cracking due to freezing of the fluid.

In the water meter according to the present invention, by inserting the rubber packing between the first transparent plastic plate and the second transparent plastic plate having a thickness thinner than the first transparent plastic plate, the volume generated by the freezing of the fluid introduced into the inside The expansion can be sufficiently absorbed, and damage such as breakage due to freezing of the fluid can be prevented.

In addition, since the water meter according to the present invention includes the lower pad, the volume of the fluid stagnated inside the outer housing is reduced compared with that of the conventional water meter, so that the amount of volume expansion caused by freezing is fundamentally reduced. It is possible to prevent damage such as breakage caused by the above.

In addition, since the water meter according to the present invention is manufactured by hollow injection molding the outer housing, the second inner housing and the lower pad, the productivity and stretchability of the water meter can be improved.

1 is an exploded perspective view of a water meter according to an embodiment of the present invention.
2 is a longitudinal sectional view of a water meter according to an embodiment of the present invention.
3 is an operational state diagram of a water meter according to an embodiment of the present invention.

Hereinafter, the present invention will be described with reference to the drawings.

≪ Embodiment 1 >

The water meter according to the first embodiment of the present invention includes an outer housing 10, a first inner housing 20, a second inner housing 30, and a lower pad 40. The water meter according to the first embodiment of the present invention will now be described with reference to FIGS. 1 and 2. FIG.

The outer housing 10 included in the water meter according to the first embodiment of the present invention has an upper opening and includes a water inlet 10a through which the fluid flows and a water outlet 10b through which the fluid exits. The fluid flowing into the outer housing 10 through the inlet 10a and the outlet 10b flows in one direction. The entire outer housing 10 is provided with a double wall. Specifically, the entire outer housing 10 includes a first wall 11 and a second wall 12 spaced apart from the first wall 11 by a space. The first wall 11 and the second wall 12 are separated from each other to form the third hollow portion 13 so that the fluid introduced into the outer housing 10 is frozen and sealed to the outer housing 10 (I.e., empty space) between the first wall 11 and the second wall 12 accommodates the expanded volume even though the inner volume of the outer housing 10 Can be prevented from being damaged. Here, an example of the fluid is water, and the same applies hereinafter.

Unlike a conventional outer housing made of brass casting, the outer housing 10 is preferably made by hollow injection molding with a resin including ABS (Acrylonitrile Butadiene Styrene) resin. Specifically, after the resin is injected into the mold so as to occupy 70 to 80% of the total volume of the product, the outer housing 10 is injected with gas to secure a space in the outer housing 10 like a balloon , Recovering the injected gas and sealing the gas inlet may be used. The outer housing 10 manufactured by the hollow injection molding in this way can maintain the elasticity of the outer housing 10 by keeping the pressure in the inner space equal to the atmospheric pressure.

The first inner housing 20 included in the water meter according to the first embodiment of the present invention is accommodated in the outer housing 10 and an aberration 50 which is rotated by a one-way flow of fluid is accommodated therein . The first inner housing 20 includes a first inner housing bottom portion 21 and a first inner housing bottom portion 21 so as to be concave in cooperation with the first inner housing bottom portion 21. [ And a first inner housing side wall portion 22 bent from the peripheral edge of the first inner housing side wall portion 22. The first inner housing side wall portion 22 has an inlet guide and an outlet guide. Preferably, the first inner housing 20 is formed by injection molding with a resin including ABS (Acrylonitrile Butadiene Styrene) resin.

The structure of the aberration 50 accommodated in the first inner housing 20 is not particularly limited, but may include a shaft, a shaft gear formed at the upper end of the shaft, and a rotary blade disposed at a lower portion of the shaft and coupled to the shaft.

The second inner housing 30 included in the water meter according to the first embodiment of the present invention is received inside the outer housing 10 so as to abut the upper portion of the first inner housing 20. Inside the second inner housing 30, a gear portion 60 that rotates in accordance with the rotation of the aberration 50 is accommodated. The second inner housing 30 includes a second inner housing bottom 31 having a through hole H for receiving the shaft of the aberration 50 and a second inner housing bottom 31, And a second inner housing side wall portion 32 formed to be bent from the peripheral edge portion of the second inner housing bottom portion 31 so as to cooperate and form a concave shape.

Meanwhile, it is preferable that a second hollow portion 33 is formed in the bottom portion 31 of the second inner housing 31 to accommodate expansion (increase) of the internal volume due to freezing of the fluid. When the fluid introduced into the outer housing 10 is frozen to expand the inner volume, the expanded volume is accommodated by the space in the second hollow portion 33 formed in the second inner housing bottom portion 31, It is possible to prevent the first inner housing 10 and / or the second inner housing 30 from being damaged. At this time, the structure of the second hollow portion 33 is not particularly limited, but is preferably divided into four hollow portions.

The second inner housing 30 is preferably formed by hollow injection molding with a resin including ABS (Acrylonitrile Butadiene Styrene) resin. Specifically, the second inner housing 30 is injected into the mold so as to occupy 70 to 80% of the total volume of the product, and then the gas is injected into the second inner housing 30 (specifically, A portion of the gas inlet 31 is secured (provided), and then the injected gas is recovered and the gas inlet is sealed. The second inner housing 30 manufactured by the hollow injection molding in this way can keep the pressure in the inner space equal to the atmospheric pressure, thereby securing the elasticity.

On the other hand, the structure of the gear portion 60 accommodated in the second inner housing 30 is not particularly limited, but may be a gear upper support plate and a gear lower support plate arranged side by side, And a gear protector for filling a space between the reduction gear and the reduction gear.

The lower pad 40 included in the water meter according to the first embodiment of the present invention is accommodated in the outer housing 10 so as to abut the lower portion of the first inner housing 20. [ This lower pad 40 fills the space between the outer housing 10 and the first inner housing 20 to reduce the amount of fluid received within the outer housing 10, Thereby reducing the internal volume expansion (increase) of the outer housing 10 due to freezing of the fluid.

It is preferable that a first hollow portion 41 is formed in the lower pad 40 to accommodate an increase in internal volume due to freezing of the fluid. When the fluid introduced into the outer housing 10 is frozen and the internal volume is expanded, the expanded volume is accommodated by the space in the first hollow portion 41 formed in the lower pad 40, This is because damage can be prevented.

It is preferable that the lower pad 40 is made by hollow injection molding with a resin including ABS (Acrylonitrile Butadiene Styrene) resin. Specifically, after the resin is injected into the mold so as to occupy 70 to 80% of the total volume of the product, the lower pad 40 is injected with gas to secure a space in the lower pad 40 like a balloon, And recovering the injected gas and sealing the gas inlet may be used. The lower pad 40 manufactured by the hollow injection molding in this way can keep the pressure in the inner space equal to the atmospheric pressure, thereby securing the elasticity.

The water meter according to the first embodiment of the present invention may further include a counting unit 70 and a viewing window 80.

The counting unit 70 further included in the water meter according to the first embodiment of the present invention is an amount of fluid received inside the second inner housing 30 and measured by rotation of the gear unit 60. [ The structure of the counting unit 70 is not particularly limited, but may be composed of counting unit gears, counting units connected to the counting unit gears to count the number of revolutions of the counting unit gears, and a supporting plate for supporting the counting units.

The viewing window 80, which is further included in the water meter according to the first embodiment of the present invention, is disposed on the top of the outer housing 10 and is provided for identifying the counting unit 70. The structure of the viewing window 80 is not particularly limited, but preferably comprises a first transparent plastic plate 81, a second transparent plastic plate 82, and a rubber packing 83.

Specifically, the viewing window 80 includes a first transparent plastic plate 81, a second transparent plastic plate 81 disposed below the first transparent plastic plate 81 and thinner than the first transparent plastic plate 81, And a rubber packing 83 inserted in a peripheral portion between the first transparent plastic plate 81 and the second transparent plastic plate 82. [ The transparent window 80 is formed by inserting the rubber packing 83 in the peripheral portion between the first transparent plastic plate 81 and the second transparent plastic plate 82 so that the first transparent plastic plate 81, A fourth hollow 84 is provided between the plates 82 which receives the internal volume expansion due to freezing of the fluid introduced into the outer housing 10, The outer housing 80 and / or the outer housing 10 can be prevented from being damaged.

The ratio of the thickness of the first transparent plastic plate 81 and the second transparent plastic plate 82 included in the viewing window 80 is not particularly limited and the ratio of the thickness of the second transparent plastic plate 81 The thickness 82 is adjusted to be thin. However, since the first transparent plastic plate 81 is provided to the second transparent plastic plate 82 in order to easily absorb the internal volume expansion due to the freezing of the fluid and to absorb the external impact to maintain the life of the transparent window 80, Is preferably 1: 2 to 3, more preferably 1: 2.5 to 3. Specifically, the thickness ratio of the first transparent plastic plate 81 to the second transparent plastic plate 82 is 3: 1 or 5: 2.

The material of the first transparent plastic plate 81 and the second transparent plastic plate 82 is not particularly limited, but is preferably polycarbonate that is more flexible than glass and can readily accommodate internal volume expansion due to freezing of fluid Do.

The water meter according to the first embodiment of the present invention may further include a cover 90 detachably coupled to the upper portion of the outer housing 10 to fix the transparent window 80. The lid 90 may include a ring hole 91 formed with a through opening and a housing nut 92 provided at a peripheral edge of the ring groove 91. [

The operation of the water meter according to the first embodiment of the present invention will be described with reference to FIG.

Normally, the water meter according to the first embodiment of the present invention measures the fluid (e.g. More specifically, the fluid introduced through the inlet 10a of the outer housing 10 moves to the first inner housing 20, and when the moved fluid rotates the rotary vane of the aberration 50, The number of revolutions of the reduction gear is displayed on the counter of the counting unit 70, and the amount of fluid used (specifically, the amount of water used) is displayed. Then, the fluid that has passed through the aberration 50 is operated by the process of going out through the outflow opening 10b of the outer housing 10.

On the other hand, when the temperature drops below zero, the fluid introduced into the water meter according to the first embodiment of the present invention is frozen and the internal volume is expanded (increased), the third hollow portion 13 between the double walls of the outer housing 10 The second hollow portion 33 of the second inner housing bottom portion 31, the first hollow portion 41 of the lower pad 40, and the fourth hollow portion 84 of the sight window 80, (I.e., the first wall 11, the second inner housing bottom 31, the lower pad 40, and the second transparent plastic plate are flexible in the direction of the dotted arrow in Fig. 3) To accommodate the expanded volume). Accordingly, the water meter according to the first embodiment of the present invention is prevented from damage such as breakage due to freezing of the fluid.

The water meter according to the first embodiment of the present invention minimizes the empty space inside the outer housing 10 by the gear guard of the lower pad 40 and the gear portion 60, The internal volume expansion rate due to the freezing of the fluid is basically reduced.

≪ Embodiment 2 >

The water meter according to the second embodiment of the present invention includes an outer housing 10 having an upper opening and a water inlet 10a through which fluid flows and a water outlet 10b through which fluid flows, A first inner housing 20 accommodated in the outer housing 10 and accommodating therein an aberration 50 which is rotated by a fluid flowing in one direction, A second inner housing 30 accommodated in the outer housing 10 and accommodating therein a gear portion 60 rotatable in accordance with rotation of the aberration 50, And a lower pad (40) accommodated in the outer housing (10) so as to be in contact with the lower portion, wherein the lower pad (40) includes a first hollow portion (41) (30) includes a second hollow portion (33) formed in the bottom portion (31).

The water meter according to the second embodiment of the present invention includes a counting unit 70 housed inside the second inner housing 30 and indicating the amount of fluid used as measured by the rotation of the gear unit 60, And may further include a viewing window 80 disposed at an upper portion of the outer housing 10 and allowing the counting unit 70 to be identified. Here, the viewing window 80 includes a first transparent plastic plate 81, a second transparent plastic plate 82 disposed below the first transparent plastic plate 81 and thinner than the first transparent plastic plate 81, And a rubber packing 83 inserted in a peripheral portion between the first transparent plastic plate 81 and the second transparent plastic plate 82. [

The description of each constitution and operating state of the tap water meter according to the second embodiment of the present invention is the same as that described in the first embodiment, and thus will not be described.

≪ Third Embodiment >

The water meter according to the third embodiment of the present invention includes an outer housing 10 having an upper opening and an inlet 10a through which fluid flows and an outlet 10b through which fluid flows, A first inner housing 20 accommodated in the outer housing 10 and accommodating therein an aberration 50 which is rotated by a one-way flow of the fluid, A gear portion 60 accommodated in the outer housing 10 and rotating in accordance with the rotation of the aberration 50 and a counting portion 70 indicating a used amount of fluid measured by the rotation of the gear portion 60 A lower pad 40 received in the outer housing 10 so as to be in contact with a lower portion of the first inner housing 20, And is provided with a viewing window (70) for identifying the counting unit (70) Wherein the transparent window plate 80 comprises a first transparent plastic plate 81 and a second transparent plastic plate 81 disposed below the first transparent plastic plate 81, A transparent plastic plate 82 and a rubber packing 83 inserted in a peripheral portion between the first transparent plastic plate 81 and the second transparent plastic plate 82.

The construction and operating state of the tap water meter according to the third embodiment of the present invention are the same as those described in the first embodiment, and thus will not be described.

10: outer housing
11: first wall
12: second wall
13: third hollow portion
20: first inner housing
21: first inner housing bottom
22: first inner housing side wall portion
30: second inner housing
31: second inner housing bottom
32: second inner housing side wall portion
33: second hollow portion
40: Lower pad
41: first hollow portion
50: aberration
60: gear portion
70:
80: view window
81: First transparent plastic plate
82: second transparent plastic plate
83: Rubber packing
84: fourth hollow portion
90: Cover
91: Ringing
92: Housing nut

Claims (10)

An outer housing having an upper portion opened and including an inlet through which the fluid flows and an outlet through which the fluid flows, the outer housing through which the fluid flows in one direction;
A first inner housing accommodated in the outer housing and accommodating therein aberration which is rotated by a one-way flow of the fluid;
A second inner housing accommodated in the outer housing so as to abut the upper portion of the first inner housing and accommodating therein a gear portion rotating in accordance with the rotation of the aberration; And
And a lower pad received within the outer housing to abut the lower portion of the first inner housing,
Wherein the entirety of the outer housing comprises a first wall and a second wall spaced apart from the first wall. The method according to claim 1,
Wherein the outer housing is manufactured by hollow injection molding with a resin including ABS (Acrylonitrile Butadiene Styrene) resin. The method according to claim 1,
Wherein the lower pad comprises a first hollow portion formed therein. The method according to claim 1,
Wherein the second inner housing comprises a second hollow portion formed within the bottom portion. The method according to claim 3 or 4,
Wherein the lower pad and the second inner housing are each formed by hollow injection molding with a resin including ABS (Acrylonitrile Butadiene Styrene) resin. The method according to claim 1,
The water meter
A counting unit accommodated in the second inner housing, the counting unit indicating a fluid consumption amount measured by rotation of the gear unit; And
Further comprising a viewing window disposed above the outer housing for identifying the counting unit,
The viewing window
A first transparent plastic plate;
A second transparent plastic plate disposed below the first transparent plastic plate and thinner than the first transparent plastic plate; And
And a rubber packing inserted in a peripheral portion between the first transparent plastic plate and the second transparent plastic plate. The method according to claim 6,
Wherein the thickness ratio of the first transparent plastic plate to the second transparent plastic plate is 1: 2 to 3. An outer housing having an upper portion opened and including an inlet through which the fluid flows and an outlet through which the fluid flows, the outer housing through which the fluid flows in one direction;
A first inner housing accommodated in the outer housing and accommodating therein aberration which is rotated by a one-way flow of the fluid;
A second inner housing accommodated in the outer housing so as to abut the upper portion of the first inner housing and accommodating therein a gear portion rotating in accordance with the rotation of the aberration; And
And a lower pad received within the outer housing to abut the lower portion of the first inner housing,
Wherein the lower pad includes a first hollow portion formed therein,
And the second inner housing includes a second hollow portion formed within the bottom portion. 9. The method of claim 8,
The water meter
A counting unit accommodated in the second inner housing, the counting unit indicating a fluid consumption amount measured by rotation of the gear unit; And
Further comprising a viewing window disposed above the outer housing for identifying the counting unit,
The viewing window
A first transparent plastic plate;
A second transparent plastic plate disposed below the first transparent plastic plate and thinner than the first transparent plastic plate; And
And a rubber packing inserted in a peripheral portion between the first transparent plastic plate and the second transparent plastic plate. An outer housing having an upper portion opened and including an inlet through which the fluid flows and an outlet through which the fluid flows, the outer housing through which the fluid flows in one direction;
A first inner housing accommodated in the outer housing and accommodating therein aberration which is rotated by a one-way flow of the fluid;
A second housing accommodated in the outer housing so as to abut on the upper portion of the first inner housing and having a gear portion rotatable in accordance with the rotation of the aberration and a second housing portion accommodating a counting portion indicating the amount of fluid used, An inner housing;
A lower pad received in the interior of the outer housing to be in contact with a lower portion of the first inner housing; And
And a viewing window disposed above the outer housing for identifying the counting unit,
The viewing window
A first transparent plastic plate;
A second transparent plastic plate disposed below the first transparent plastic plate and thinner than the first transparent plastic plate; And
And a rubber packing inserted in a peripheral portion between the first transparent plastic plate and the second transparent plastic plate.

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