KR100743686B1 - A water meter assembly - Google Patents

Abstract

A water meter assembly is provided to measure water flow even when a minute amount of tap water flows by making the direction-changed tap water impacted onto a protrusion rib. A water meter assembly includes a water meter body(110), top and bottom inner boxes(140,150), an impeller assembly, and a water calculating device(170). The water meter body includes the top inner box and the bottom inner box. The bottom inner box has a flowing hole(130a) and a discharging hole(130b) and is connected to water supply lines to have flowing passages of water between the flowing hole and the discharging hole. The top inner box is coupled with a top of the bottom inner box to hermetically seal with the bottom inner box. The impeller assembly has an impeller axis(162) as one body coupled with the impeller and a center of the impeller. The water calculating device is installed on a top of the top inner box inside of a top outer box(120) and includes a gear assembly(171), a counting unit(174), and a transparent plate(175).

Description

Water meter assembly

1 is a side cross-sectional view schematically showing a conventional water meter.

2 is an exploded cross-sectional view showing the vane assembly shown in FIG. 1;

Figure 3 is an exploded perspective view showing the blade assembly and lower inner shell shown in Figure 1,

4 is an assembled cross-sectional view of FIG.

Figure 5 is a side cross-sectional view schematically showing a water meter according to a preferred embodiment of the present invention.

6 is a sectional view of main parts of the water meter shown in FIG. 5;

7 is an exploded perspective view of the blade assembly and lower inner shell of the present invention assembly,

8 is an exploded cross-sectional view of the blade assembly and lower inner shell of the present invention assembly.

<Description of Symbols for Major Parts of Drawings>

110; water meter body 120, 130; upper and lower outer shell

140,150; upper and lower inner 155; train control film

160; vane assembly 161; vane

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water meter assembly, and more particularly, to a water meter assembly whose structure has been improved to measure a small amount of tap water and to easily adjust train control without a separate tool.

In general, the water meter is to measure the amount of water supplied for a certain period of time by accurately measuring the flow rate of the constant water supplied to the user, such as home or factory, it is installed separately in the water supply line connected to the user side.

Conventional water meter, as shown in Figure 1, includes the upper and lower outer shell 10, 20, upper and lower inner shell 30, 40, vane assembly 50 and the counting device 60. .

The lower outer shell 20 has an inlet 20a and an outlet 20b and is connected to a water supply line. The inlet 20a is provided with a strainer 21 for preventing foreign matter from flowing into the water meter.

The upper outer shell 10 is installed to be closed with the lower outer shell 20 on the upper portion of the lower outer shell 20. The upper portion of the upper outer shell 10 is opened, and the open portion is opened and closed by a cap 11 pivotally coupled to the upper outer shell 10.

The lower inner shell 40 is installed between the inlet 20a and the outlet 20b inside the lower outer shell 20. A plurality of inflow holes 40a are formed in the lower outer periphery of the lower inner shell 40, and a plurality of outflow holes 40b are formed in the upper outer periphery of the lower inner shell 40.

As shown in Figure 2 and 3, the center of the lower inner shell 40 is provided with a support shaft 43 for rotatably supporting the blade assembly (50).

The upper inner shell 30 is installed on the lower outer shell 20 to seal the open upper portion of the lower inner shell 40. An insertion hole 30a is formed in an approximately center portion of the upper inner shell 30, and a plurality of guide ribs 31 are installed at the lower portion of the upper inner shell 30 to protrude.

The vane assembly 50 includes a vane 51 and a vane shaft 52 coupled to the vane 51 and having a gear part 52a formed at an upper end thereof. The blade 51 is rotatably installed in the lower inner shell 40, and the blade shaft 52 protrudes into the upper inner shell 30 through the insertion hole 30a of the upper inner shell 30.

The counting device 60 includes a plurality of gears 61, 62, a counting unit 63, and a transparent plate 64. One gear 61 of the plurality of gears 61 and 62 is gear-connected with the gear portion 52a of the blade axle 52. The counting unit 63 is operated by a plurality of gears 61, 62 that cooperate with the vane assembly 50.

On the other hand, when the tap water is discharged through the outlet hole 40b while rotating the blade car 51 through the inlet hole 40a, the tap water measuring device 60 measures the amount of tap water used. The difference between the passages indicated at 60 is called a train.

As shown in FIG. 1, an adjustment screw 45 is assembled to the lower inner shell 40 so as to adjust the size of the hole of the inflow hole 40a as a configuration for adjusting the train.

However, such adjustment screw 45 is usually formed of a metal material, not only causes rust after long-term use, causing contamination, and also requires a separate tool such as a driver to control the train.

Also, referring to FIG. 4, since the vane 51 has a rectangular planar structure, a small amount of tap water flows in through the inlet 40a even when the end of the vane 51 is positioned at the inlet 40a. In this case, the introduced tap water is discharged through the outlet hole 40b as it is without rotating the vane 51. As a result, when a small amount of tap water is opened by opening the faucet in a small amount, it becomes a cause of tap water.

The present invention has been made to solve the above problems, an object of the present invention is to provide a water meter assembly that can be rotated even if a small amount of tap water is introduced by improving the structure of the tea.

Another object of the present invention is to provide a water meter assembly whose structure is improved to simplify train control.

The water meter assembly of the present invention which achieves the above object comprises: a water meter body having a lower outer shell having an inlet and an outlet outlet through which water is introduced, and an upper outer shell which is coupled to the lower outer shell;

A lower inner shell installed on a flow path of water in the water meter body and having a plurality of inflow holes through which water flows in the lower portion of the water meter and a plurality of outflow holes in the outer portion of the water meter;

An upper inner shell coupled to an upper portion of the lower outer shell such that a lower surface thereof seals an open upper portion of the lower inner shell;

A vane assembly having a plurality of vanes and axle shafts of a predetermined interval rotatably installed by the inflow of water into the lower inner shell;

A counting device operated by the rotation of the vane assembly;

And train control means for adjusting a train generated between an inflow amount of water through the inflow hole and a passage amount displayed in the counting device.

The inlet hole is formed in a plurality at a predetermined interval on the lower inner shell is formed at least one more than the number of the tea,

Protruding ribs protruding from the free end of each vane to have an opposing surface opposed to the outlet of the inlet hole are formed long in the vertical direction, so that water introduced through the inlet hole collides with the opposing surface to provide rotational force to the vane. It is characterized in that the grant.

In addition, the assembly of the present invention, the protruding rib is formed on the side opposite to the inflow hole which is the lower end side of the free end of the blade, the protruding rib is not formed on the side opposite to the outflow hole which is the upper end side of the free end of the blade,

The turning jaw is formed on the sidewall surface of the inflow hole, so that some tap water introduced through the inflow hole collides with the turning jaw and is turned toward the center of rotation of the vane assembly.

The train control means is characterized in that the guide grooves are formed in each of the upper and lower sides of the lower inner shell inlet hole, is coupled to the guide groove slidably and provided with a film for controlling the train to open and close the inlet hole.

According to the above characteristics of the present invention, the water meter assembly of the present invention is formed with a protruding rib at the end of the blade is opposed to the outlet hole so that even if a small amount of tap water is introduced, the blade can be rotated, and also the train control film can be slid to the lower inner shell This makes it easy to adjust trains without any tools.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the water meter assembly of the present invention.

The water meter assembly according to the embodiment of the present invention enables the rotation of the van even when a small amount of tap water is introduced, thereby preventing tap water and simplifying train control.

Referring to Figure 5 showing the water meter assembly of the embodiment of the present invention, it includes a water meter body 110, upper / lower inner shell 140, 150, vane assembly 160 and the counting device 170.

Water meter body 110 is composed of an upper outer shell 120 and a lower outer shell 130.

The lower outer shell 130 has an inlet 130a and an outlet 130b, and is connected to the water supply line so that a flow path of water is formed between the inlet 130a and the outlet 130b. A strainer 131 is installed at the inlet 130a. The strainer filters out foreign substances contained in the water flowing through the inlet 130a to prevent foreign substances from flowing into the water meter body 110.

In addition, the lower outer shell 130 is formed with a blocking rib 130c to which the lower inner shell 150 is coupled to separate and separate the inlet hole 150a and the outlet hole 150b of the lower inner shell 150 from the outside, and Tap water is introduced into the lower inner shell 150 through the inlet hole 150a and discharged to the outlet 130b through the outlet hole 150b.

The upper outer shell 120 is coupled to the lower outer shell 130 and sealed to the upper portion of the lower outer shell 130. The upper portion of the upper outer shell 120 is open, the cap 121 is pivotally coupled to one side of the upper outer shell 120. The cap 121 opens and closes the open upper portion of the upper outer shell 120.

A plurality of inflow holes 150a are formed at the outer periphery of the lower inner shell 150, and a plurality of outflow holes 150b are formed at the upper outer periphery of the lower inner shell 150. Water introduced through the inlet 130a of the lower outer shell 130 is guided to the inlet hole 150a of the lower inner shell 150 and introduced into the lower inner shell 150. The water introduced into the lower inner shell 150 is discharged through the outlet hole 150b while driving the vane assembly 160.

A support shaft 165 for rotatably supporting the blade assembly 160 is installed at the center of the lower inner shell 150.

The upper inner shell 140 is coupled to an upper portion of the lower outer shell 130 so that its lower surface seals the open upper portion of the lower inner shell 150. Insertion holes 140a are provided at the center of the upper inner shell 140, and a plurality of guide plates 141 are disposed around the insertion holes 140a at approximately equal intervals.

5 and 8, the blade assembly 160 is composed of a blade 161 and an integral blade shaft 162 coupled to a center of the blade 161. The blade 161 is rotatably installed inside the lower inner shell 150, and the blade shaft 162 protrudes upward through the insertion hole 140a of the upper inner shell 140. A gear portion 162a is formed at the upper end of the blade shaft 162.

The counting device 170 is installed above the upper inner shell 140 inside the upper outer shell 120, and includes a gear assembly 171, a counting unit 174, and a transparent plate 175. The gear assembly 171 includes a plurality of gears 172 and 173, and the gear part 162a of the axle shaft 162 is geared to any one gear 172 among the plurality of gears 172 and 173. Connected. The counting unit 174 is connected to and interlocked with the gear assembly 171. When the blade assembly 160 is rotated by the water flowing in the lower inner shell 150, the counting unit 174 is operated in conjunction with this. The transparent plate 175 is installed to cover the counting unit 174 and to be exposed to the open upper portion of the upper outer shell 120.

Meanwhile, referring to FIGS. 6 and 7, a plurality of inflow holes 150a of the lower inner shell 150 are formed at a predetermined angle interval, and the blade 161 is formed at a plurality of predetermined angles, but the inflow hole 150a is formed. Is formed less than the number of. Therefore, the tap water flowing from the inlet holes 150a may collide the at least one vane 161 at a close position.

That is, as shown in FIG. 6, when the number of the inlet holes 150a is greater than the number of the blade wheels 161, the blade wheels 161 are positioned in the advancing direction of the tap water passing through the at least one inlet hole 150a. It is possible to smooth the rotation of the vane (161).

In addition, the protruding ribs 161a are formed at the free end of each vane 161 in the vertical direction, and the protruding ribs 161a are formed at 30 to 30 to the cross-sectional area of the outlet 150c side of the inlet hole 150a. It occupies 60% and has the opposing surface 161b which opposes the outlet 150c of the inflow hole 150a.

Water introduced through the inlet hole 150a collides with the opposing surface 161b to impart rotational force to the vane 161. In this case, even though a small amount of tap water is introduced through the inlet hole 150a, the protruding rib 161a is opposed to the inlet hole 150a. That is, the protruding rib 161a is positioned on the flow path of the tap water. Enable rotation of 161.

In addition, as shown in FIG. 7, the protruding rib 161a is formed at a side opposite to the inflow hole 150a which is the lower end side of the free end of the vane 161, and an upper end of the free end of the vane 161. The protruding rib 161a is not formed at the side of the side opposite to the outlet hole 150b. In this case, even if a small amount of tap water is introduced through the inlet hole (150a), while a small amount of tap water interferes with the protruding ribs (161a) to allow the rotor blade 161 to rotate, and the blade car on the side opposite to the outlet hole (150b). Since the protruding ribs 161a are not formed at 161, the tap water can be discharged smoothly.

Meanwhile, referring to FIG. 6, a direction change jaw 150d is formed at the sidewall surface of the inflow hole 150a so that some tap water introduced through the inflow hole 150a collides with the direction change jaw 150d. The direction of rotation of the vane assembly 160 toward the center of rotation.

In this case, the diverted tap water collides with the protruding rib 161a, so that the measured tap water can be measured even if a small amount of tap water is introduced.

5, 7 and 8, the train control means for adjusting the train generated between the inflow of water through the inlet hole (150a) and the passage amount displayed in the counting device 170 is the lower inner shell (150) guide grooves 151 and 152 are respectively formed on the upper and lower sides of the inlet hole 150a, and are slidably coupled to the guide grooves 151 and 152 to open and close the inlet hole 150a. The adjustment film 155 is provided. The train control film 155 is provided with a protrusion 155a to prevent slipping when pushing by hand.

The train control film 155 is controlled by opening and closing the inlet hole 150a while slidingly moving the guide grooves 151 and 152 clockwise or counterclockwise. At this time, it can be easily adjusted without a separate tool such as a conventional screwdriver.

Operation of the water meter according to a preferred embodiment of the present invention made of such a configuration is as follows.

As shown in FIG. 5, water passing through the inlet 130a of the lower outer shell 130 connected to the water supply line is introduced into the lower outer shell 130 through the strainer 131. Water filtered by the strainer 131 is introduced into the lower inner shell 150 through the inlet hole 150a of the lower inner shell 150. The water introduced into the lower inner shell 150 rotates the blade wheel 161 of the blade assembly 160 while forming a vortex in the lower inner shell 150. When the vane assembly 160 is rotated, the gear assembly 171 and the counting unit 174 of the counting device 170 are operated in conjunction with the vane assembly 160. Since the blade assembly 160 rotates in proportion to the flow rate of the water passing through the lower inner shell 150, the amount of water introduced through the inlet 130a of the lower outer shell 130 is measured through the counting unit 174.

The water that rotates the blade car 161 inside the lower inner shell 150 exits through the outlet hole 150b of the lower inner shell 150, and then is discharged to the outlet 130b of the lower outer shell 130.

In particular, even when a small amount of tap water is introduced through the inlet hole (150a) is impinged on the protruding ribs (161a) of the vane (161) it is possible to rotate the vane (161).

In addition, before assembling the water meter, when a train is generated between the inflow through the inlet 150a and the measured amount measured by the counting unit 174, the train control film 155 can be moved and conveniently adjusted. .

The water meter assembly of the present invention as described above is provided with a protruding rib at the end of the blade to face the outflow hole, so that even if a small amount of tap water is introduced, the blade can be rotated to prevent water.

In addition, the protruding rib 161a is formed at a side of the vane 161 opposite to the inflow hole 150a at the lower end of the free end of the vane 161, and the outlet hole at the upper end of the free end of the vane 161. The protrusion rib 161a is not formed on the side opposite to 150b, so that the blade 161 can be rotated even when a small amount of tap water is introduced, and the blade 161 on the side opposite to the outlet 150b. ), The protruding ribs 161a are not formed so that the tap water can be discharged smoothly.

In addition, by increasing the number of the inlet hole (150a) than the number of blade 161, the blade 161 is positioned in the advancing direction of the tap water passing through the at least one inlet (150a), the blade 161 Make it possible to smooth the rotation of.

In addition, the train control film is installed to be slidable on the lower inner shell, so that the train control can be easily performed without any tools.

Claims (3)

A water meter body (110) having a lower outer shell (130) having an inlet (130a) into which water is introduced and an outlet (130b) discharged therefrom, and an upper outer shell (120) coupled to the lower outer shell (130); The lower portion is provided on the flow path of the water inside the water meter body 110 and a plurality of inlet holes 150a through which water flows in the lower portion of the water meter is passed, and a plurality of outlet holes 150b are formed in the upper portion of the outer circumference. Inner shell 150; An upper inner shell 140 coupled to an upper portion of the lower outer shell 130 so that its lower surface seals the open upper portion of the lower inner shell 150; A vane assembly 160 having a plurality of vanes 161 and vanes 162 of a predetermined interval rotatably installed by the inflow of water into the lower inner shell 150; A counting device (170) operated by the rotation of the vane assembly (160); And train control means for controlling a train generated between an inflow amount of water through the inflow hole 150a and a passage amount displayed by the counting device 170, The inlet hole (150a) is formed in a plurality at a predetermined interval on the lower inner shell 150 is formed at least one more than the number of the blade 161, The protruding ribs 161a protruding from the free ends of the vanes 161 to protrude to have opposing surfaces 161b opposed to the outlets 150c of the inflow holes 150a are formed in the vertical direction, and the inflow holes ( The water meter assembly, characterized in that the water flowing through the 150a) impinges the opposing surface (161b) to impart rotational force to the vane (161). According to claim 1, wherein the protruding rib (161a) is formed on the side facing the inlet hole (150a) that is the lower end side of the free end of the vane 161, the upper end side of the free end of the vane (161) The protruding rib 161a is not formed at the side opposite to the outlet hole 150b, The turning jaw 150d is formed on the sidewall surface of the inflow hole 150a, Tap water introduced through the inlet hole (150a) hit the direction change jaw (150d) is a water meter assembly, characterized in that to be turned toward the center of rotation of the blade assembly (160). According to claim 1 or 2, The train control means is formed with guide grooves (151, 152) on the upper and lower sides of the lower inner shell 150, the inlet hole (150a), The water meter assembly, which is coupled to the guide grooves (151, 152) slidably, opens and closes the inflow hole (150a) and has a train control film (155) formed with a non-slip protrusion (155a).

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