KR20150107084A - Water Gauge - Google Patents

Abstract

The present invention relates to a water meter. The present invention comprises: a meter lower body unit having a lower body floor unit and a lower body side unit; a meter body unit having an upper body ceiling unit and an upper meter body unit; a see-through window installed in the meter body unit; a water wheel holder having a water wheel holder floor unit and a water wheel holder side unit; a deceleration gear holder having a deceleration gear holder floor unit and a deceleration gear holder side unit; a deceleration gear unit having an upper gear support plate and a lower gear support plate and having a deceleration gear; a counting unit having a counting unit gear and a counting device; a water wheel having a water wheel shaft and a rotary wing; and a torque transmission unit. The deceleration gear unit comprises: an upper space contraction member; and a lower space contraction member. Therefore, the present invention is capable of reducing freezing availability of the deceleration gear unit when water inside the meter body unit is frozen and stably maintaining an initial installation state of the deceleration gear.

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 installed in an area where the temperature of water drops below zero.

Water meters are installed in water pipes to measure tap water usage, and these water meters are also installed in the suburban areas where water is introduced into the water pipes.

Fig. 11 is a perspective view of a conventional tap water meter, Fig. 12 is an exploded perspective view of a conventional tap water meter, Fig. 13 is a sectional view of a conventional tap water meter, Fig. 14 is a perspective view showing a speed reducer portion of a conventional tap water meter, A lower support plate of the water meter and a reduction gear.

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 and aberrations 180 and aberrations 180 provided in the metering device body 110, And a rotation force transmission portion 193 for transmitting the rotation force of the reduction gear unit 160 to the reduction gear unit 160. [

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 mounted to the meter body 110 to seal the viewing opening 131a with the aid of the support ring 194.

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 holder 150 having such a configuration is installed at the upper end of the aberration holder 140 so that the reduction gear holder bottom surface portion 151 is opposed to the aberration holder bottom surface portion 141.

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 reduction gear holder 150 having such a configuration is installed such that the gear lower support plate 162 is disposed in parallel with the reduction gear holder bottom surface portion 151 inside the reduction gear holder 150

The counting unit 170 includes a counting unit gear 171 and a counter 172 connected to the counting unit gear 171 for counting the number of revolutions of the counting unit gear 171 to display the counted number of revolutions of the counting unit gear 171, And a support plate 173.

The counting unit 170 having such a configuration is installed so that the counting unit gear 171 is engaged with the reduction gear 163 and is able to see the counter 172 through the sight window 191. [

The aberration 180 has an airstream axis 181 and a rotary vane 183 coupled to the airstream axis 181 so as to be disposed below the airstream axis gear 182.

The aberration 180 having such a configuration allows the aberration shaft 181 to pass through the airstream axis guide hole 151a and the rotary vane 183 to be disposed inside the aberration holder 140, And the upper end of the airstream axle 181 is supported by the upper gear support plate 161. The upper end of the axle shaft 181 is supported by the upper gear support plate 161.

The rotational force transmitting portion 193 is composed of an airstream shaft gear 193a formed at the upper end of the airstream axis 181. [

The aberration gear 193a is engaged with the reduction gear 163 when the aberration 180 is installed. Thus, the rotational force of the aberration 180 can be transmitted to the reduction gear 163.

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 counter gear 171 so that the counter gear 171 rotates.

The amount of tap water to be used is displayed by the counting unit 170 corresponding to the number of rotations of the counting gear 171.

When the water inside the meter body 110 is frozen, the pressure due to the volume expansion of the water is applied to the reduction gear unit 160.

The conventional water meter having the above-described configuration corresponds to the conventional technology confirmed by the inventor that the water meter is being used in the field.

However, according to the conventional tap water meter, there is a possibility that the space between the gear upper support plate 161 and the gear lower support plate 162 is coincided with the pressure reduction due to the volume expansion of the water generated when the water is frozen There is a problem that the initial mounting state of the reduction gear 163 may be disturbed. When the initial state of the reduction gear 163 is disturbed, the amount of water used can not be accurately measured (if the initial state of the reduction gear is disturbed, the rotational force of the reduction gear is not properly transmitted to the counter gear).

SUMMARY OF THE INVENTION It is an object of the present invention to provide a water meter which can reduce the possibility of freezing of the water reducer unit when the water inside the meter body is frozen and stably maintain the initial installation state of the reduction gear.

According to an aspect of the present invention, there is provided a lower body having a lower body bottom surface portion and a lower body bottom surface portion bent in a circumferential edge portion of the lower body bottom surface portion in a concave shape in cooperation with the lower body bottom surface portion, A metering device upper body portion having a metering lower body portion having a side portion and an upper body ceiling surface portion having a metering opening and being detachably coupled to the metering lower body portion such that the metering opening is opposed to the lower body bottom portion A metering device body, a viewing window installed in the metering device body to close the metering opening, and a bending portion extending from a circumferential edge of the bottom portion of the aberration holder in a concave shape in cooperation with a bottom portion of the aberration holder and a bottom portion of the aberration holder, And an aberration holder side surface portion in which an intake guide hole and an outflow guide hole are formed, A lower portion of the lower body, a lower portion of the lower body, a lower portion of the lower body, and a lower portion of the lower body; A reduction gear holder provided on an upper end of the aberration holder such that a bottom surface of the reduction gear holder is opposed to the aberration holder bottom surface portion, the reduction gear holder having a side surface portion bent from the peripheral edge portion of the surface portion; A gear reducer provided with a gear lower support plate, a reduction gear provided between the gear upper support plate and the gear lower support plate and the gear lower support plate arranged in parallel with the reduction gear holder bottom in the reduction gear holder, A sub-gear connected to the counting gear, A counting unit having a counter for counting and displaying said counting gear so as to be engaged with said reduction gear and to be able to see said counter through said sight window; And a rotary force transmitting portion for transmitting the rotational force of the aberration to the reduction gear, wherein the upper surface of the metering gear portion has an upper surface and a lower surface, An upper space reducing member provided between the upper gear support plate and the lower gear support plate so as to be in contact with the lower surface of the upper gear support plate so that the upper surface contacts the lower surface of the upper space reducing member and the lower surface contacts the upper surface of the lower gear support plate A lower space reducing portion provided between the upper space reducing member and the lower gear supporting plate, In that it comprises a are achieved by a water meter according to claim.

Here, in order to further reduce the possibility of freezing of the reduction gear unit when water inside the meter body is frozen and to maintain the initial installation state of the reduction gear more stably, the lower surface of the upper space reducing member and the upper surface of the lower space reducing member And the upper space reducing member and the lower space reducing member are installed such that the reduction gear is seated in the gear accommodating space.

Therefore, according to the present invention, since the reduction gear unit includes the upper space reducing member and the lower space reducing member installed between the gear upper support plate and the gear lower support plate, the possibility of freezing of the reducer fisher unit when water inside the meter body unit is frozen And the initial installation state of the reduction gear can be stably maintained.

Since the spacing between the upper gear support plate and the lower gear support plate is more stably maintained by the upper space reducing member and the lower space reducing member, it is possible to prevent the initial mounting state of the reduction gear from being disturbed by an external impact.

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 a water meter according to an embodiment of the present invention,
4 is an exploded perspective view of a reduction gear unit of a water meter according to an embodiment of the present invention,
FIG. 5 is a perspective view showing an upper space reducing member of the water meter according to the embodiment of the present invention, FIG.
FIG. 6 is a perspective view showing a lower space reducing member of the water meter according to the embodiment of the present invention, FIG.
7 is an exploded perspective view of a reduction gear unit of a water meter according to an embodiment of the present invention,
8 is a perspective view showing a water-holder of a water meter according to an embodiment of the present invention,
9 is a perspective view showing a reduction gear holder of a water meter according to an embodiment of the present invention,
10 is a perspective view showing a counting unit according to an embodiment of the present invention,
11 is a perspective view of a conventional tap water meter,
12 is an exploded perspective view of a conventional water meter,
13 is a cross-sectional view of a conventional tap water meter,
14 is a perspective view showing a reduction gear unit of a conventional water meter,
15 is a perspective view showing a gear lower support plate and a reduction gear of a conventional tap water meter.

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

FIG. 1 is a perspective view of a water meter according to an embodiment of the present invention, FIG. 2 is an exploded perspective view of a water meter according to an embodiment of the present invention, FIG. 3 is a sectional view of a water meter according to an embodiment of the present invention, 4 is an exploded perspective view of a reduction gear unit of a water meter according to an embodiment of the present invention, FIG. 5 is a perspective view showing an upper space reducing member of a water meter according to an embodiment of the present invention, FIG. 7 is a perspective view of the reduction gear unit of the water meter according to the embodiment of the present invention, and FIG. 8 is a perspective view of the water meter holder of the water meter according to the embodiment of the present invention. And FIG. 9 is a perspective view showing a reduction gear holder of the water meter according to the embodiment of the present invention.

The water meter according to the embodiment of the present invention includes a meter lower body portion 20 and a meter upper body portion 30 detachably coupled to the meter lower body portion 20, A metering body 10 and a viewing window 91, aberration holder 40, a reduction gear holder 50, a reduction gear unit 60, a counting unit 70, and aberration 80 installed in the meter body 10, And a torque transmitting portion 93 for transmitting the rotational force of the aberration 80 to the reduction gear unit 60. [

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 includes aberration holder bottom surface portion 41 and aberration holder side surface portion 42 formed by bending from the circumferential edge portion of the aberration holder bottom surface portion 41 so as to be concave in cooperation with the aberration holder bottom surface portion 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 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 includes 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, (65) and a lower space reducing member (66).

The gear upper support plate 61 is formed with support pillars 61a on the side adjacent regions of the bottom surface thereof.

The gear lower support plate 62 is engaged with the gear upper support plate 61.

The upper space reducing member 65 is formed with an upper gear accommodating space 65a and an upper support groove 65b.

The upper gear accommodating space 65a is formed so as to accommodate a gear body constituting the reduction gear 63 and a part of the gear shaft.

The upper support groove 65b is formed to correspond to the support column 61a.

The upper space reducing member 65 has an upper shaft hole 65c and an alignment groove 65d.

The above-described upper space reducing member 65 is installed so that its upper surface is in contact with the lower surface of the gear upper support plate 61. Thus, the upper space reducing member 65 partially occupies the space between the reduction gears 63.

The upper space reducing member 65 is installed such that the reduction gear 63 is partially seated in the upper gear accommodating space 65a and the supporting column 61a partially enters the upper retaining groove 65b. Here, the installation of the upper space reducing member 65 is made such that the axis of the reduction gear 63 passes through the upper shaft hole 65c.

The lower space reducing member 66 is formed with a lower gear accommodating space 66a and a lower support groove 66b.

The lower gear accommodating space 66a is formed to accommodate the gear body constituting the reduction gear 63 and the rest of the gear shaft.

The lower support groove 66b is formed to correspond to the support column 61a.

The lower space reducing member 66 is formed with a lower shaft hole 66c and an alignment pin 66d.

The above-described lower space reducing member 66 has an upper space reducing member 65 and a lower gear supporting plate 62 so that the upper surface thereof contacts the lower surface of the upper space reducing member 65 and the lower surface thereof contacts the upper surface of the gear lower supporting plate 62 . Thus, the lower space reducing member 66 partially occupies the space between the reduction gears 63. The installation of the lower space reducing member 66 is made such that the alignment pin 66d enters the alignment groove 65d.

The lower space reducing member 66 is installed such that the reduction gear 63 is partially seated in the lower gear accommodating space 66a and the supporting column 61a partially enters the lower supporting groove 66b. Here, the installation of the lower space reducing member 66 is made such that the axis of the reduction gear 63 passes through the lower shaft hole 66c.

The reduction gear unit 60 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 an airstream axis 81 and a rotary vane 83 coupled to the airstream axis 81 so as to be disposed below the airstream axis gear 82.

The aberration 80 having such a configuration is configured such that the aberration axis 81 passes through the airstream axis guide hole 51a and the rotary vane 83 is disposed inside the aberration holder 40 and the lower end And the upper end of the airstream axle 81 is supported by the upper gear support plate 61.

The rotational force transmitting portion 93 is constituted by an airstream shaft gear 93a formed at the upper end of the airstream axis 81. [

The aberration gear 93a is engaged with the reduction gear 63 when the aberration 80 is installed. Accordingly, the rotational force of the aberration 80 can be transmitted to the reduction gear 63.

The operation of the water meter according to the embodiment of the present invention having such a configuration will be described below.

First, the tap water flowing through the inlet 22a flows into the inside of the aberration holder 40 through the 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. [

When the water in the meter body 10 is frozen, the pressure due to the volume expansion of the water is applied to the reduction gear 63. However, the space between the reduction gear upper support plate 61 and the gear lower support plate 62, The pressure applied to the reduction gear unit 60 is reduced and the possibility of freezing of the reduction gear unit 60 is reduced because it is reduced by the space reducing member 65 and the lower space reducing member 66. [ When the pressure applied to the reduction gear unit 60 is reduced as described above, the initial state of the reduction gear 63 can be stably maintained, and the amount of water used can be more accurately measured.

In the above-described embodiment, the gear accommodating spaces 65a and 66a are formed in the upper space reducing member 65 and the lower space reducing member 66 so that the reduction gear 63 is seated in the gear accommodating spaces 65a and 66a. The upper space reducing member 65 and the lower space reducing member 66 may be provided in the peripheral region of the reduction gear 63 by omitting the gear accommodating spaces 65a and 66a, The present invention can be practiced by forming a space reducing member and a lower space reducing member.

In the embodiment described above, the aberrational axis gear 93a is formed at the upper end of the aberrational axis 81 and the rotational force of the aberration 80 is transmitted to the reduction gear 81 by using the state in which the aberrational axis gear 93a and the reduction gear 63 are engaged. The rotational force transmitting portion 93 is configured to transmit the rotational force of the aberration 80 to the reduction gear 63 by using the following electronic method as is well known in the art Can be configured.

That is, the auger shaft guide groove is formed on the bottom surface of the reduction gear holder bottom surface portion 51 along the height direction of the reduction gear holder side portion 52.

An aberration magnet is installed on the upper end of the aberration axis and the aberration 80 is installed inside the aberration holder 40 so that the aberration magnet enters the aberration axis guide groove.

And the rotor support shaft is formed to protrude from the gear support plate 62.

The rotor having the rotor gear and the rotor magnet is installed so that the rotor magnet is opposed to the aberration magnet and the rotor gear is engaged with the reduction gear 63 and supported by the rotary shaft support shaft.

When the aberration 80 is rotated in the state where the rotor is installed, the rotor rotates due to the interaction between the rotor magnet and the aberration magnet, so that the rotational force of the aberration 80 is transmitted to the reduction gear 63 through the rotor gear .

As described above, according to the embodiment of the present invention, the reduction gear unit 65 includes the upper space reduction member 65 and the lower space reduction member 66 installed between the gear upper support plate 61 and the gear lower support plate 62 60, it is possible to reduce the possibility that the reduction gear unit 60 is frozen when the water inside the meter body 10 is frozen, and the initial state of the reduction gear 63 can be stably maintained. When the initial state of the reduction gear 63 is stably maintained, the amount of water used can be accurately measured. (When the initial state of the reduction gear is stably maintained, the rotation force of the reduction gear is properly transmitted to the counter gear.

Since the spacing between the gear upper support plate 61 and the gear lower support plate 62 is more stably maintained by the upper space reducing member 65 and the lower space reducing member 66, It is possible to prevent the initial installation state of the battery pack from being disturbed.

A reduction gear 63 is installed on one of the upper space reducing member 65 and the lower space reducing member 66 and then the reduction gear 65 is provided on the other of the upper space reducing member 65 and the lower space reducing member 66 63, the assembling performance of the reduction gear 63 can be improved.

The upper space reducing member 65 and the lower space reducing member 66 are provided with gear accommodating spaces 65a and 66a and the upper space reducing member 66 is formed so that the reduction gear 63 is seated in the gear accommodating spaces 65a and 66a. It is possible to further reduce the possibility of freezing of the reduction gear unit 60 when the water inside the meter body 10 is frozen by installing the lower space reducing member 66 and the lower space reducing member 66, (The area occupied by the upper space reducing member and the lower space reducing member in the space between the gear upper support plate and the gear lower support plate can be increased).

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 65: upper space reduction member
66: lower space reducing member 70, 170:
71, 171: Counter gear 72, 172:
80, 180: aberration 81, 181:
83, 183: Rotating blades 91, 191:
92, 193:

Claims (2)

And a lower body side part having a lower body side surface part and a lower body side part bent from a peripheral edge part of the lower body bottom surface part in a concave shape in cooperation with the lower body bottom surface part and having an inlet and an outlet port, A metering body having a metering body upper portion having an upper body ceiling face portion having a through opening formed therein and detachably coupled to the lower body portion of the metering body such that the through opening faces the lower body bottom portion; A water window installed on the meter body to close the water meter holder, a water window formed on the bottom surface of the water tube holder and a bottom surface of the water tube holder to be bent from a circumferential edge of the bottom surface of the water tube holder, And the aberration holder bottom surface portion is formed on the lower body bar A gear holder provided in the lower body portion of the metering device so as to face the surface portion of the reduction gear holder and a lower surface portion of the reduction gear holder and a bottom surface portion of the reduction gear holder, A reduction gear holder provided on the upper end of the aberration holder such that a bottom surface of the reduction gear holder faces the bottom surface of the aberration holder, and a gear upper support plate and a gear lower support plate arranged side by side, A reduction gear unit provided between the support plate and the lower support plate of the gear and having a lower gear support plate disposed in parallel with the lower surface of the reduction gear holder in the reduction gear holder, And a counter for counting the rotational speed of the counting gear The counting gear is engaged with the reduction gear and is provided so as to be able to see the counter through the sight window, and a rotation blade coupled to the water-shaft and the water-shaft, the water- An aberration provided so that the rotary vane is disposed inside the aberration holder and a rotation force transmitting portion for transmitting a rotational force of the aberration to the reduction gear,
An upper space reducing member provided between the upper gear support plate and the lower gear support plate such that the upper surface of the reduction gear unit contacts the lower surface of the upper gear support plate; And a lower space reducing member installed between the upper space reducing member and the lower gear supporting plate to come into contact with the upper surface of the lower supporting plate. The method according to claim 1,
A gear accommodating space is dividedly formed on a bottom surface of the upper space reducing member and an upper surface of the lower space reducing member, and the upper space reducing member and the lower space reducing member are installed to receive the reduction gear in the gear accommodating space Features a water meter.

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