KR101274600B1 - Water gauge - Google Patents

Abstract

PURPOSE: A water gauge is provided to increase the amount of offset for volume expansion caused by the reduction of a gear holder elastomer and the amount of offset for volume caused by a gauge body elastomer. CONSTITUTION: A water gauge comprises a body unit, a transparent window(91), a water wheel holder(40), a reduction gear holder(50), a reduction gear unit(60), a counter unit(70), and a water wheel(80). The body unit includes a lower body unit(20) and an upper body unit(30). The transparent window is installed in the body unit in order to seal a transparent opening(31a). The water wheel holder is installed inside the lower body unit so that a water wheel holder bottom surface unit(41) faces a lower body bottom surface unit(21). The reduction gear holder is installed on the upper part of the water wheel holder so that a reduction gear holder bottom surface unit(51) faces the water wheel bottom surface unit. The reduction gear unit includes a gear upper supporting plate, a gear lower supporting plate(62), and a reduction gear(63). The counter unit includes a counter gear(71) and a counter(72).

Description

Water Gauge

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water meter, and more particularly, to a water meter having a means capable of preventing damage to the meter accessories due to volume expansion occurring when water flowing in from the water pipe is frozen.

In order to measure the amount of water used, water is introduced into the water meter installed in the water pipe, and the water is frozen when the temperature falls below zero.

A water meter is provided which has means for preventing water meter accessories from being damaged due to volume expansion caused by freezing of water inside the water meter.

As a means for preventing the meter accessories from being damaged when the water inside the water meter is frozen, there has been used a method of disposing an elastic body for canceling the volumetric expansion caused when the water is frozen.

11 is a perspective view of a conventional water meter, and FIG. 12 is a sectional view of a conventional water meter.

The conventional water meter comprises a meter body 110 having a meter lower body part 120 and a meter upper body part 130 detachably coupled to the meter lower body part 120, A reduction gear holder 150, a reduction gear unit 160, a counting unit 170, an aberration 180, a reduction gear holder elastic body 160, and a reduction gear holder elastic body 170. The transmission window 191, the aberration holder 140, (192) and a meter body elastic body (193).

The meter lower body portion 120 includes a lower body bottom surface portion 121 and a lower body side surface portion 121 bent in a circumferential edge portion of the lower body bottom surface portion 121 so as to be concave in cooperation with the lower body bottom surface portion 121. [ (Not shown).

The lower body bottom surface portion 121 is formed in a concave shape.

The lower body side part 122 is formed with a water inlet 122a and a water outlet 122b.

The meter upper body portion 130 includes an upper body ceiling surface portion 131 formed with a sight opening 131a and an upper body ceiling surface portion 131 formed to cooperate with the upper body ceiling surface portion 131, And an upper body side portion 132 formed to be bent from the peripheral edge portion of the upper body.

The metering device upper body part 130 having such a configuration is screwed or detachably screwed to the metering lower body part 120 such that the metering opening 131a faces the lower body bottom part 121.

The viewing window 191 is installed in the meter body 110 to seal the viewing opening 131a.

The aberration holder 140 includes aberration holder bottom surface portion 141 and aberration holder side surface portion 142 formed by bending from the circumferential edge portion of the aberration holder bottom surface portion 141 so as to be concave in cooperation with the aberration holder bottom surface portion 141 ).

The aberration holder side surface portion 142 is formed with an intake guide hole 142a and an outlet guide hole 142b.

The aberration holder 140 having such a configuration is installed inside the metering lower body part 120 such that the aberration holder bottom surface part 141 is opposed to the lower body bottom surface part 121.

The reduction gear holder 150 includes a reduction gear holder bottom surface portion 151 formed at the center thereof with an axle shaft guide hole 151a and a reduction gear holder bottom surface portion 151 formed coaxially with the reduction gear holder bottom surface portion 151, And a reduction gear holder side portion 152 bent from the peripheral edge portion of the holder bottom surface portion 151.

The reduction gear unit 160 has a gear upper support plate 161 and a gear lower support plate 162 arranged side by side and a reduction gear 163 provided between the gear upper support plate 161 and the gear lower support plate 162 .

The counting unit 170 is installed to be visible through the viewing window 191.

The aberger 180 includes an aberrational axis 181 and an aberrational axis gear 182 formed at the upper end of the aberrational axis 181 and a rotary blade 182 coupled to the aberrational axis 181 to be disposed below the aberrational axis gear 182. [ (Not shown).

The aberrational axis 180 having such a configuration allows the aberration shaft 181 to pass through the airstream axis guide hole 151a and the aberrational axis gear 182 to be meshed with the reduction gear 163, (140).

The reduction gear holder elastic body 192 is formed in a plate shape and is made of an elastic material such as silicon, polyurethane, rubber, or the like.

The reduction gear holder elastic body 192 having such a configuration is provided on the upper surface of the reduction gear holder bottom surface portion 151.

The meter body elastic body 193 is formed in a plate shape and is made of an elastic material such as silicon, polyurethane, rubber, or the like.

The meter body elastic body 193 having such a configuration is installed on the upper surface of the lower body bottom surface portion 121.

The operation of the conventional water meter having such a configuration will be described below.

First, the tap water flowing through the inlet 122a flows into the aberration holder 140 through the inlet guide 142a.

Next, the water introduced into the aberration holder 140 is discharged to the outlet port 122b through the outlet guide 142b after rotating the aberration 180. [

When the aberration 180 is rotated, a rotational force is transmitted to the reduction gear 163 via the aberration shaft gear 182.

The rotational force transmitted to the reduction gear 163 is transmitted to the counting unit 170, and the amount of the tap water is displayed by the counting unit 170.

On the other hand, when the water inside the metering device body 110 is frozen, pressure is applied to the upper surface of the reduction gear holder elastic body 192 due to the volume expansion of the water.

When the pressure due to the volume expansion of water is applied to the upper surface of the reduction gear holder elastic body 192 and applied to the upper surface of the meter body elastic body 193, the volume of the water by the shrinkage of the meter body elastic body 193 and the reduction gear holder elastic body 192 The expansion is canceled.

A conventional water meter having the above-described configuration is disclosed in Utility Model Application No. 10686 (name of design: water meter equipped with a frost protection function) in 2001.

However, according to the conventional water meter, the meter body elastic body 193 is installed on the bottom body bottom 121, the body of the meter when the water in the space between the aberration holder bottom 141 and the bottom body bottom 121 freezes Since the pressure due to the volume expansion of water is applied only to the upper surface of the elastic body 193, there is a problem that the volume expansion offset amount due to the meter body elastic body 193 is reduced.

In addition, the reduction gear holder elastic body 192 is installed to contact the reduction gear holder bottom surface 151, and the reduction gear holder bottom surface 151 transmits the pressure according to the volume expansion of water to the bottom surface of the reduction gear holder elastic body 192. Since a separate structure is not provided, when the water inside the reduction gear holder 150 freezes, a pressure due to volume expansion is applied only to the upper surface of the reduction gear holder elastic body 192, and accordingly, the reduction gear holder elastic body 192 is There was a problem that the amount of volume expansion offset by

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide a water meter which is capable of increasing the amount of volume expansion offset caused by the elastic body installed to offset the volume expansion caused by water freezing.

According to the present invention, the lower body is formed from the circumferential edge of the lower body bottom surface portion to form a concave in cooperation with the lower body bottom surface portion and the lower body bottom surface portion, the lower body is formed inlet and outlet The lower body part having a side part and the upper body ceiling part where the sight opening is formed and the upper body side part bent from the circumferential edge of the upper body ceiling part to cooperate with the upper body ceiling part to form a concave shape. And a meter body portion having a meter upper body portion detachably coupled to the meter lower body portion so that the see-through opening faces the lower body bottom surface portion, and a see-through window provided in the meter body portion to seal the see-through opening. The water so that the aberration holder bottom part and the aberration holder bottom part cooperate to form a concave shape. Aberration holder which is bent from the circumferential edge of the bottom portion of the holder and has an aberration holder side portion having an inlet guide and an outlet guide, and is provided inside the meter lower body so that the aberration holder bottom face is opposite to the lower body bottom face. And a reduction gear holder side surface bent from a circumferential edge of the reduction gear holder bottom surface portion so as to form a concave shape in cooperation with the reduction gear holder bottom surface portion having an aberration shaft guide hole formed at the center thereof. And a reduction gear holder provided at an upper end of the aberration holder so that the reduction gear holder bottom surface portion faces the aberration holder bottom portion, a gear upper support plate and a gear lower support plate, the gear upper support plate, and the gear upper support plate disposed in parallel with each other. The gear lower support plate has a reduction gear installed between the support plates. A reduction gear part installed to be arranged in parallel with the reduction gear holder bottom surface inside the reduction gear holder, and a counter connected to the counter gear and the counter gear to count and display the number of revolutions of the counter gear; A counter unit is installed so that a counter gear is engaged with the reduction gear and the counter is viewed through the see-through window, the axle shaft formed at the top of the axle shaft and the axle shaft, and the axle shaft gear is disposed below the axle shaft gear. A water wheel having a rotary blade coupled to the aberration shaft, the aberration shaft passing through the aberration shaft guide hole, the aberration shaft gear being engaged with the reduction gear, and the rotation blade being disposed inside the aberration holder; In the meter, the reduction gear holder pressure transmission hole is formed in the bottom portion of the reduction gear holder; It is made of elastic material and has a reduction gear holder elastic plate formed with aberration shaft through hole, and the bottom surface of the reduction gear holder elastic plate is in contact with the upper surface of the reduction gear holder bottom surface and the aberration shaft is through the aberration shaft hole. The aberration holder pressure transmission hole is formed in the water meter or the aberration holder bottom surface, characterized in that it comprises a reduction gear holder elastic body installed to pass therethrough; It is achieved by a water meter, which is made of an elastic material and has a meter body elastic plate, the meter body elastic body including a meter body elastic body which is installed so that the upper surface of the meter body elastic plate is in contact with the bottom surface of the bottom surface of the aberration holder.

Wherein the reduction gear holder elastic body is allowed to enter the reduction gear holder pressure transfer hole so that the initial installation state of the reduction gear holder elastic body can be stably maintained and the volume expansion offset amount of the reduction gear holder elastic body can be increased. It is preferable to further include a reduction gear holder elastic protrusion protruding from one surface of the holder elastic plate, wherein the reduction gear holder elastic protrusion enters the reduction gear holder pressure transfer hole.

And the reduction gear holder elastic body further includes a counting part protection wall portion extending from the reduction gear holder elastic plate such that an inner surface thereof comes into surface contact with the counting part so as to reduce the pressure applied to the counting part when water freezes. desirable.

In addition, in order to maintain the initial installation state of the meter body elastic body and increase the volume expansion offset amount of the meter body elastic body, the meter body elastic body is one surface of the meter body elastic plate to enter the aberration holder pressure transfer hole It is preferable to further include a meter body elastic protrusion protruding from the meter body, the meter body elastic protrusion is installed to enter the aberration holder pressure transfer hole.

In addition, when the shape of the bottom surface of the aberration holder is concave, the meter body elastic body is separated from the circumferential edge of the meter body elastic plate so as to effectively offset the volume expansion of water in the space between the aberration holder bottom part and the lower body bottom part. Preferably it further comprises a meter body offset reinforcement hill protruding from the bottom of the meter body elastic plate.

In addition, it is preferable that a gear support plate pressure transfer hole is formed in the gear lower support plate so that the volume expansion of the frozen water at the upper side of the gear lower support plate can be canceled by the reduction gear holder elastic body.

Therefore, according to the present invention, the reduction gear holder pressure transmission hole is formed at the bottom of the reduction gear holder or the aberration holder pressure transmission hole is formed at the bottom of the aberration holder, thereby increasing the volume expansion offset by the reduction gear holder elastic body. Alternatively, the volume expansion offset amount due to the meter body elastomer can be increased.

1 is a perspective view of a water meter according to an embodiment of the present invention;
2 is an exploded perspective view of a water meter according to an embodiment of the present invention;
3 is a cross-sectional view of the water meter according to an embodiment of the present invention;
Fig. 4 is a perspective view of the aberration holder shown in Fig. 2,
Fig. 5 is a perspective view of the reduction gear unit shown in Fig. 2,
FIG. 6 is a perspective view of the counting unit shown in FIG. 2,
7 is a perspective view of the reduction gear holder elastic body shown in FIG. 2;
8 and 9 are perspective views of the meter body elastic body respectively shown in FIG.
10 is a perspective view showing a state in which the meter body elastic body is coupled to the aberration holder shown in FIG.
11 is a perspective view of a conventional water meter,
12 is a sectional view of a conventional water meter.

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

1 is a perspective view of a water meter according to an embodiment of the present invention, Figure 2 is an exploded perspective view of the water meter according to an embodiment of the present invention, Figure 3 is a cross-sectional view of the water meter according to an embodiment of the present invention, Figure 4 is a perspective view of the aberration holder shown in FIG. 2, FIG. 5 is a perspective view of the reduction gear part shown in FIG. 2, FIG. 6 is a perspective view of the counter part shown in FIG. 2, and FIG. 7 is a reduction gear shown in FIG. 8 and 9 are perspective views of the meter body elastic body shown in FIG. 2, and FIG. 10 is a perspective view showing a state in which the meter body elastic body is coupled to the aberration holder shown in FIG.

Water meter according to an embodiment of the present invention, as shown in these figures, having a meter upper body portion 30 detachably coupled to the meter lower body portion 20 and the meter lower body portion 20 The meter body part 10 and the sight glass 91 installed in the meter body part 10, the aberration holder 40, the reduction gear holder 50, the reduction gear part 60, the counter part 70, and the aberration 80 And a reduction gear holder elastic body 92 and a meter body elastic body 93.

The meter lower body portion 20 includes a lower body bottom surface portion 21 and a lower body side surface portion 21 formed by bending from a peripheral edge portion of the lower body bottom surface portion 21 so as to be concave in cooperation with the lower body bottom surface portion 21. [ (22).

The lower body bottom surface portion 21 is formed in a concave shape.

The lower body side portion 22 is formed with a water inlet 22a and a water outlet 22b.

The metering device upper body 30 includes an upper body ceiling surface portion 31 having a through opening 31a formed therein and an upper body ceiling surface portion 31 cooperating with the upper body ceiling surface portion 31 to form a concave shape. And an upper body side portion 32 bent from the peripheral edge of the upper body.

The meter upper body portion 30 having such a configuration is screwed or detachably screwed to the meter lower body portion 20 such that the sight opening 31a faces the lower body bottom portion 21. [

The viewing window 91 is installed in the meter body 10 to seal the sight opening 31a with the aid of the support ring 94. [

The aberration holder 40 cooperates with the aberration holder bottom part 41 and the aberration holder side part 42 bent from the circumferential edge of the aberration holder bottom part 41 to form a concave shape in cooperation with the aberration holder bottom part 41. Has

The aberration holder pressure transfer hole 41a is formed in the aberration holder bottom surface 41.

The aberration holder side surface portion 42 is formed with an intake guide hole 42a and an outlet guide hole 42b.

The aberration holder 40 having such a configuration is installed in the metering lower body portion 20 such that the aberration holder bottom surface portion 41 is opposed to the lower body bottom surface portion 21. [

The reduction gear holder 50 includes a reduction gear holder bottom surface portion 51 having an aft axis guide hole 51a formed at the center thereof and a reduction gear holder bottom surface portion 51 having a reduction gear holder bottom surface portion 51 formed coaxially with the reduction gear holder bottom surface portion 51, And a reduction gear holder side portion 52 bent from the peripheral edge portion of the holder bottom surface portion 51.

The reduction gear holder pressure transmission hole 51b is formed in the reduction gear holder bottom surface 51.

The reduction gear holder 50 having such a configuration is installed at the upper end of the aberration holder 40 so that the reduction gear holder bottom surface portion 51 faces the aberration holder bottom surface portion 41.

The reduction gear unit 60 has a gear upper support plate 61 and a gear lower support plate 62 arranged side by side and a reduction gear 63 provided between the gear upper support plate 61 and the gear lower support plate 62 .

A gear support plate pressure transfer hole 62a is formed in the gear lower support plate 62.

The reduction gear holder 50 having such a configuration is installed such that the gear lower support plate 62 is disposed in parallel with the reduction gear holder bottom surface portion 51 in the reduction gear holder 50

The counting unit 70 includes a counting unit gear 71 and a counter 72 connected to the counting unit gear 71 for counting the number of rotations of the counting unit gear 71 and displaying the counted number of revolutions, And a support plate 73.

The counting unit 70 having such a configuration is installed so that the counting unit gear 71 is engaged with the reduction gear 63 and can see the counting unit 72 through the sight window 91. [

The aberration 80 has aberration shaft 81, aberration shaft gear 82 formed at the top of the aberration shaft 81, and a rotary blade coupled to the aberration shaft 81 to be disposed below the aberration shaft gear 82 Has 83

In the aberration 80 having such a configuration, the aberration shaft 81 passes through the aberration shaft guide hole 51a and the reduction gear holder elastic plate 92a described later, and the aberration shaft gear 82 is connected to the reduction gear 63. Engaging, the rotary blade 83 is disposed inside the aberration holder 40, the lower end of the aberration shaft 81 is supported by the support shaft 95 and the upper end of the aberration shaft 81 is the gear upper support plate 61 It is installed to be supported on.

The reduction gear holder elastic member 92 is formed from the reduction gear holder elastic plate 92a, the reduction gear holder elastic protrusion 92b protruding from one surface of the reduction gear holder elastic plate 92a, and the reduction gear holder elastic plate 92a. It has an extended counter part protection wall part 92c.

An aberration shaft through hole 93d is formed in the reduction gear holder elastic plate 92a.

The reduction gear holder elastic protrusion 92b is formed to enter the reduction gear holder pressure transmission hole 51b.

The counter protection wall 92c is formed in the reduction gear holder elastic plate 92a such that the inner surface thereof is in surface contact with the counter 70.

The reduction gear holder elastic body 92 is made of an elastic material such as silicone, polyurethane, rubber, or the like.

In the reduction gear holder elastic body 92 having such a configuration, the reduction gear holder elastic protrusion 92b enters the reduction gear holder pressure transmission hole 51b, and the bottom surface of the reduction gear holder elastic plate 92a is the reduction gear holder bottom surface portion. In contact with the upper surface of 51, the inner surface of the counter protection wall 92c is in surface contact with the counter 70, and the aberration shaft 81 is provided so as to pass through the aberration shaft passing hole 93d.

The meter body elastic body 93 includes a meter body elastic plate 93a, a meter body elastic protrusion 93b protruding from one surface of the meter body elastic plate 93a, and a meter body protruding from the bottom of the meter body elastic plate 93a. It has a body offset reinforcement hill part 93c.

The meter body elastic protrusion 93b is formed in the meter body elastic plate 93a so as to enter the aberration holder pressure transfer hole 41a.

The meter body offset reinforcement hill 93c is formed on the meter body elastic plate 93a at a distance from the circumferential edge of the meter body elastic plate 93a.

 The meter body elastic body 93 is made of an elastic material such as silicone, polyurethane, rubber, or the like.

In the meter body elastic body 93 having such a configuration, the meter body elastic protrusion 93b enters the aberration holder pressure transfer hole 41a, and the upper surface of the meter body elastic plate 93a is the bottom surface of the aberration holder bottom surface 41. It is installed to contact. The upper surface of the meter body elastic plate 93a can be brought into contact with the aberration holder bottom surface 41 by bonding or the like.

Referring to the operation of the water meter according to an embodiment of the present invention having such a configuration as follows.

First, the tap water flowing through the water inlet 22a is introduced into the aberration holder 40 through the water inlet guide 42a.

The water introduced into the aberration holder 40 is then discharged to the outlet 22b through the outlet guide 42b after rotating the aberration 80. [

When the aberration 80 is rotated, a rotational force is transmitted to the reduction gear 63 through the aberrational shaft gear 82.

The rotational force transmitted to the reduction gear 63 is transmitted to the counter gear 71, which causes the counter gear 71 to rotate.

The amount of tap water to be used is displayed by the counting unit 70 corresponding to the number of revolutions of the counting gear 71. [

On the other hand, when the water inside the meter body 10 freezes, the volume of water is expanded on the upper surface of the reduction gear holder elastic plate 92a as well as on the lower surface of the reduction gear holder elastic plate 92a through the reduction gear holder pressure transmission hole 51b. The pressure is applied to the upper surface of the meter body elastic plate (93a) as well as the bottom surface of the meter body elastic plate (93a) through the aberration holder pressure transfer hole (41a) according to the volume expansion of the water.

When the pressure due to the volume expansion of water is applied to the upper and lower surfaces of the reduction gear holder elastic plate 92a and the upper and lower surfaces of the meter body elastic plate 93a, the meter body elastic body 93 and the reduction gear holder elastic body 92 are The volumetric expansion of water is canceled by the contracting action of.

As described above, according to the embodiment of the present invention, the reduction gear holder pressure transmission hole 51b is formed in the reduction gear holder bottom surface 51 or the aberration holder pressure transmission hole 41a is formed in the aberration holder bottom surface 41. In this case, the volume expansion offset amount due to the reduction gear holder elastic body 92 can be increased or the volume expansion offset amount due to the meter body elastic body 93 can be increased (lower surface and upper surface of the reduction gear holder elastic plate). And the pressure due to the volume expansion of water is applied to the bottom and top of the meter body elastic plate).

The reduction gear holder elastic body 92 is formed to further include a reduction gear holder elastic protrusion 92b protruding from one surface of the reduction gear holder elastic plate 92a so as to enter the reduction gear holder pressure transmission hole 51b. In addition, it is possible to stably maintain the initial installation state of the reduction gear holder elastic body 92 and to increase the volume expansion offset amount of the reduction gear holder elastic body 92.

And by configuring the reduction gear holder elastic body 92 so that the counter part protection wall part 92c may be further included, the pressure applied to the counter part 70 can be reduced.

In addition, the meter body elastic body 93 is formed by forming the meter body elastic body 93 so as to further include a meter body elastic protrusion 93b protruding from one surface of the meter body elastic plate 93a to enter the aberration holder pressure transfer hole 41a. It is possible to stably maintain the initial installation state of the 93 and increase the volume expansion offset amount of the meter body elastic body 93.

In addition, the meter body elastic body 93 is configured to further include a meter body offset reinforcement hill projecting from the bottom of the meter body elastic plate 93a at a distance from the circumferential edge of the meter body elastic plate 93a, thereby providing a bottom of the aberration holder. When the shape of the surface portion 41 is concave, the volume expansion of the water in the space between the aberration holder bottom surface portion 41 and the lower body bottom surface portion 21 can be effectively canceled.

Further, by forming the gear support plate pressure transfer hole 62a in the gear lower support plate 62, the volume expansion of the water frozen on the upper side of the gear lower support plate 62 can be canceled by the reduction gear holder elastic body 92.

10, 110: Meter body part 20, 120: Meter lower body part
21, 121: lower body bottom face portion 22, 122: lower body side face portion
30, 130: Meter upper body part 31, 131: Upper body ceiling surface
32, 132: upper body side portion 40, 140: aberration holder
41, 141: aberration holder bottom surface portion 42, 142: aberration holder side surface portion
50, 150: Reduction gear holder 51, 151: Reduction gear holder bottom surface
52, 152: reduction gear holder side portion 60, 160: reduction gear unit
61, 161: gear upper support plate 62, 162: gear lower support plate
63, 163: reduction gear 70, 170:
71, 171: Counter gear 72, 172:
80, 180: aberration 81, 181:
82, 182: Aux axle gears 83, 183: Rotary blades
91, 191: sight window 92, 192: reduction gear holder elastic body
93, 193: Meter body elastomer

Claims (7)

A meter lower body part having a lower body side part which is bent from the circumferential edge of the lower body bottom part so as to form a concave shape in cooperation with the lower body bottom part and the lower body bottom part; An upper body ceiling portion having a viewing opening formed thereon and an upper body side portion bent from a circumferential edge of the upper body ceiling surface portion so as to form a concave shape in cooperation with the upper body ceiling surface portion, and the viewing opening has the lower portion. A meter body part having a meter upper body part detachably coupled to the meter bottom body part so as to face the body bottom part, a see-through window provided in the meter body part to seal the see-through opening, aberration holder bottom part and the aberration holder To the peripheral edge of the aberration holder bottom surface part to cooperate with the bottom surface part to form a concave shape An aberration holder having a side of the aberration holder which is bent and formed with an inlet guide and an outlet guide, and is provided inside the meter lower body so that the bottom surface of the aberration holder faces the bottom body bottom, and an aberration shaft in the center thereof. The reduction gear holder side portion bent from the circumferential edge of the reduction gear holder bottom portion so as to form a concave shape in cooperation with the reduction gear holder bottom surface portion where the guide hole is formed and the reduction gear holder bottom surface portion; Reduction gear holder provided on the top of the aberration holder so that a bottom surface thereof faces the aberration holder, a gear upper support plate and a gear lower support plate arranged in parallel with each other, and a reduction gear provided between the gear upper support plate and the gear lower support plate. The gear lower support plate has an upper portion inside the reduction gear holder. A reduction gear part installed to be arranged in parallel with the reduction gear holder bottom surface, and a counter connected to the counter gear and the counter gear to count and display the number of revolutions of the counter gear, and the counter gear is the reduction gear. A counter coupled to the axle shaft, the counter unit being installed to view the counter through the see-through window, the axle shaft and the axle shaft gear formed at the top of the axle shaft, and the axle shaft gear to be disposed below the axle shaft gear. In the water meter having an aberration so that the aberration shaft passes through the aberration shaft guide hole, the aberration shaft gear is engaged with the reduction gear and the rotary blade is disposed inside the aberration holder,
A reduction gear holder pressure transfer hole is formed in the bottom portion of the reduction gear holder;
It is made of elastic material and has a reduction gear holder elastic plate formed with aberration shaft through hole, and the bottom surface of the reduction gear holder elastic plate is in contact with the upper surface of the reduction gear holder bottom surface and the aberration shaft is through the aberration shaft hole. Water meter, characterized in that it comprises a reduction gear holder elastic body installed to pass through. The method of claim 1,
The reduction gear holder elastic body further includes a reduction gear holder elastic protrusion protruding from one surface of the reduction gear holder elastic plate to enter the reduction gear holder pressure transfer hole, and the reduction gear holder elastic protrusion includes the reduction gear holder. Water meter, characterized in that installed to enter the pressure transfer hole. The method of claim 1,
And the reduction gear holder elastic body further includes a counter part protection wall portion extending from the reduction gear holder elastic plate such that an inner surface thereof is in surface contact with the counter part. A meter lower body part having a lower body side part which is bent from the circumferential edge of the lower body bottom part so as to form a concave shape in cooperation with the lower body bottom part and the lower body bottom part; An upper body ceiling portion having a viewing opening formed thereon and an upper body side portion bent from a circumferential edge of the upper body ceiling surface portion so as to form a concave shape in cooperation with the upper body ceiling surface portion, and the viewing opening has the lower portion. A meter body part having a meter upper body part detachably coupled to the meter bottom body part so as to face the body bottom part, a see-through window provided in the meter body part to seal the see-through opening, aberration holder bottom part and the aberration holder To the peripheral edge of the aberration holder bottom surface part to cooperate with the bottom surface part to form a concave shape An aberration holder having a side of the aberration holder which is bent and formed with an inlet guide and an outlet guide, and is provided inside the meter lower body so that the bottom surface of the aberration holder faces the bottom body bottom, and an aberration shaft in the center thereof. The reduction gear holder side portion bent from the circumferential edge of the reduction gear holder bottom portion so as to form a concave shape in cooperation with the reduction gear holder bottom surface portion where the guide hole is formed and the reduction gear holder bottom surface portion; Reduction gear holder provided on the top of the aberration holder so that a bottom surface thereof faces the aberration holder, a gear upper support plate and a gear lower support plate arranged in parallel with each other, and a reduction gear provided between the gear upper support plate and the gear lower support plate. The gear lower support plate has an upper portion inside the reduction gear holder. A reduction gear part installed to be arranged in parallel with the reduction gear holder bottom surface, and a counter connected to the counter gear and the counter gear to count and display the number of revolutions of the counter gear, and the counter gear is the reduction gear. A counter coupled to the axle shaft, the counter unit being installed to view the counter through the see-through window, the axle shaft and the axle shaft gear formed at the top of the axle shaft, and the axle shaft gear to be disposed below the axle shaft gear. In the water meter having an aberration so that the aberration shaft passes through the aberration shaft guide hole, the aberration shaft gear is engaged with the reduction gear and the rotary blade is disposed inside the aberration holder,
An aberration holder pressure transfer hole is formed at the bottom of the aberration holder;
The water meter, which is made of an elastic material, has a meter body elastic plate, and includes a meter body elastic body installed so that an upper surface of the meter body elastic plate is in contact with a bottom surface of the bottom surface of the aberration holder. 5. The method of claim 4,
The meter body elastic body further includes a meter body elastic protrusion protruding from one surface of the meter body elastic plate to enter the aberration holder pressure transfer hole, and the meter body elastic protrusion enters the aberration holder pressure transfer hole. Water meter, characterized in that installed. 5. The method of claim 4,
The meter body elastic body further comprises a meter body offset reinforcement hill protruding from the bottom surface of the meter body elastic plate at a distance from the circumferential edge of the meter body elastic plate. 7. The method according to any one of claims 1 to 6,
The water meter of the gear lower support plate is characterized in that the gear support plate pressure transfer hole is formed.

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