KR20190009591A - Water saving type faucet - Google Patents

Abstract

The present invention relates to a water saving type faucet having a water amount adjustment function, which comprises: a body (100) having a predetermined space to allow water to stay therein, and including an inlet (110) through which water is introduced to the space, an outlet (130) to discharge the introduced water to the outside, and a distribution port (120) to distribute the introduced water; and a flow rate adjuster (130) having a hollow vessel shape to be rotated in the body (100) while communicating with the outlet (130), and having a guide hole (222) formed on a side surface to change the direction of the water introduced from the inlet (110) so as to guide the water to the outlet (130). According to the present invention, the flow rate adjuster (200) is rotated to adjust a distance that the water introduced from the inlet (110) reaches the guide hole (222) so as to adjust resistance applied to a flow of the water, thereby adjusting the flow rate of the water discharged to the outlet (130).

Description

Water saving type faucet with quantity control function

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water inlet, and more particularly, to a water-saving water inlet that can be applied to a multi-stage branched water supply system to realize water saving and water control.

Generally, a water supply system that supplies water supplied from a water supply or a boiler to a building, such as a bathroom, a veranda, or a sink, is essential. One of the most commonly used methods is a one-to-one method of supplying water to a desired point through a single distributor installed in the piping.

One-to-one method is a method in which water supplied from a water supply source is distributed to a sink, a washing machine, a bathtub, a wash bowl, a toilet, etc., through which the water is used through a single distributor. However, in the case of using the one-to-one type distributor as described above, since the distributor and each end-use place are directly connected to each other, piping becomes complicated, which makes construction difficult and causes various problems such as interference with other structures.

In order to solve the problem of the one-on-one type water supply system, a technique for a multi-stage branched water supply system capable of supplying water in multiple stages has been proposed. As shown in FIG. 9, the multi-stage branch type water supply system is configured such that a plurality of water receiving openings 10a, 10b, and 10c are sequentially connected from a water supply destination so that water can be branched and supplied in multiple stages.

Korean Patent Publication No. 1456616 (published on October 31, 2014)

In the multi-stage branched water supply system as described above, when a plurality of electric bulbs connected in multiple stages are used at the same time, the amount of water discharged from the water supply destination is decreased as the distance is far from the water supply destination. This is due to the difference in frictional resistance between water pressure and pipe length. Therefore, it is necessary to solve this problem so that water pressure can be maintained relatively uniformly at all water supply destinations. Furthermore, the discharge amount of water is adjusted according to the frequency of use so that the amount of discharged water is sufficient for the water bulb which is frequently used, such as the wash bowl, and the amount of water is reduced in the water bulb So that water can be discharged to a necessary degree for each water discharge hole so that the water saving function can be realized as a result.

The present invention is characterized in that a fixed space in which water remains is formed, a body having an inlet through which the water flows into the space, a discharge port through which the introduced water is discharged to the outside, and a distribution port through which the introduced water is distributed, And a flow rate adjuster provided on a side surface of the flow rate adjuster so as to be rotatable in the body in a state of being communicated with the discharge port and having a guide hole for switching the direction of the water flowing in the inlet port and guiding the water to the discharge port, There is provided a water saving type water outlet having a water quality control function for controlling a flow rate of water discharged to an outlet by adjusting a resistance applied to a flow of water by adjusting a distance of water flowing from an inlet to the guide hole, To achieve the purpose of.

According to the present invention

1 is an exploded view of a water-saving type water bulb according to the present invention,
Figure 2 is an illustration of a flow rate controller according to the present invention,
3 is a cross-sectional view of a flow rate controller according to the present invention,
4 is a cross-sectional view showing the flow of water in the water-saving type water bulb according to the present invention,
FIG. 5 is an exemplary view showing a method of controlling the flow rate of water with the flow rate controller according to the present invention,
6 is an exemplary view showing a process of separating the coupling tube according to the present invention from the body,
FIG. 7 is an exemplary view showing a fastening nut being loosened by a coupling tube according to the present invention. FIG.
Fig. 8 is a view showing the use state of the water-saving type water bulb according to the present invention,
9 is an illustration of a multi-stage branched water supply system;

In the present invention, in order to realize the water saving function as a result of adjusting water discharge to a necessary degree for each water outlet in the multi-stage water outlet,

A body having a predetermined space in which the water stays and formed with an inlet through which the water flows into the space, a discharge port through which the introduced water is discharged to the outside, and a distribution port through which the introduced water is distributed; A flow rate adjuster installed at a side surface of the body so as to be rotatable in the body in a state of being hollow and having an inner hollow shape and communicating with the discharge port and having a guide hole for guiding water to the discharge port by changing the direction of the water flowing in the inlet; A volume control function for controlling the flow rate of the water discharged to the discharge port by adjusting the resistance applied to the flow of the water by controlling the distance of the water flowed from the inlet to the guide hole by rotating the flow rate controller The present invention proposes a water saving type water bulb.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings.

As shown in the figure, the water-saving type water bulb according to the present invention includes a flow rate controller 200 to control the amount of water discharged to the flow rate controller 200. The flow rate regulator 200 is installed inside the body 100 of the water-saving type water outlet having a constant space in which the water remains. The body 100 includes an inlet 110 through which water flows into the space, A water outlet 120 for discharging water to the outside and a water outlet 120 for distributing the introduced water are provided in the water outlet 120 of the water outlet 110 ) To form a multi-stage branch-type water supply system.

The flow rate regulator 200 has a hollow cylindrical shape and is rotatably installed in the body 100 in a state of being communicated with the discharge port 130. A guide hole 222 is formed on a side surface of the flow rate regulator 200. [ The guide hole 222 guides the water to the discharge port 130 by changing the direction of the water flowing into the internal space of the body 100 through the inlet 110.

The flow rate controller 200 may include a first body 210 and a second body 220. The diameter of the first body 210 is larger than that of the second body 220. This configuration is related to the configuration of the outlet 130. That is, since the first body 210 is accommodated in the discharge port 130, the first body 210 is accommodated in the discharge port 130 so that the flow rate controller 200 is rotatably installed . In this configuration, the guide hole 222 is formed in the second body 220. Accordingly, when the first body 210 is fitted into the discharge port 130, the second body 220 is naturally accommodated in the inner space of the body 100.

As described above, the flow rate controller 200 is formed in the inner space of the body 100, thereby increasing resistance applied to the flow of the water flowing into the discharge port 130 through the inlet 110. The guide hole 222 is formed on the side surface of the flow rate regulator 200 so that the water flowing through the inlet port 110 is rapidly diverted toward the discharge port 130 through the guide hole 222, The resistance of the flow of water is given. As a result, the flow velocity and the flow rate decrease.

Since the flow rate controller 200 according to the present invention is installed so as to be rotatable, the distance between the inlet holes 110 and the guide holes 222 can be adjusted by rotating the flow rate adjuster 200 as necessary as shown in FIG. 6 . The distance of the water introduced from the inlet 110 to the guide hole 222 can be controlled through the distance adjustment. As a result, the resistance applied to the flow of the water can be controlled, The flow rate of the water can be adjusted.

Meanwhile, a guide passage 224 is formed in the flow rate regulator 200. The second body 220 has a tubular shape having a predetermined length and is formed in a direction parallel to the second body 220 within the second body 220, and has a tubular shape having a constant length. The inlet is opened and communicates with the first body 210. The outer circumferential surface of the guide hole 222 is formed in a vertically upward direction and downwardly convex. The guide path 224 changes the direction of the water introduced through the guide hole 222 and guides the water to the first body 210. The water flowing into the second body 220 through the guide hole 222 is struck on the outer circumferential surface of the guide passage 224 and spreads to both sides and then flows into the guide passage 224. [ Accordingly, the buffering phenomenon occurs naturally, so that the water remains in the second body 220 for a certain period of time and is discharged again along the guide path 224. [ As a result, the water is discharged from the inner space of the body 100 while causing the buffering phenomenon once again inside the second body 220, and as a result, the flow velocity is reduced.

The water-saving water bulb according to the present invention, which can control the flow rate of the water discharged to the discharge port 130 as described above, can be applied to the multi-stage branched water supply system so that the water can be relatively uniformly discharged for each water source have. As the distance to the water supply source increases, the resistance applied to the water increases. As the distance increases, the discharge amount of water decreases. When the resistance applied to the water is increased by the flow rate adjuster 200 at a nearby water source, As the discharge of water from the water source is increased, the discharge of the water is uniformly adjusted in this manner. Further, the discharge amount of the water can be adjusted according to the frequency of use for each water supply destination. By controlling the discharge amount in various ways, it becomes possible to appropriately supply the necessary amount of water in the necessary water supply destination, .

Meanwhile, the water-saving type water bulb according to the present invention further includes means for connecting the faucet to the discharge port 130. The coupling pipe 300 connected to the body 100 through the outlet 130 is connected to the coupling pipe 300 by a detachable connection or by being formed integrally with the faucet and discharged to the discharge port 130 The water is discharged to the faucet.

The coupling pipe 300 is connected to the first body 210 in the discharge port 130. And is inserted into the first body 210. Therefore, water flowing through the second body 220 is discharged through the coupling pipe 300.

A grip ring 330 is installed inside the first body 210. The grapple ring 330 has a ring-like shape, and teeth projecting toward the center are formed. The teeth are inclined toward the second body 220. The coupling pipe 300 pushes the teeth while passing through the grip ring 330 when the coupling pipe 300 is fitted in the first body 210. The teeth of the engaging pipe 300 are not separated by pushing the teeth of the teeth on the outer circumferential surface of the engaging pipe 300 while the teeth of the engaging pipe 300 penetrate the engaging pipe 300. In contrast, The coupling pipe 300 can be separated. Here, the grooves may be formed on the outer circumferential surface of the coupling tube 300 for more stable engagement.

A coupling nut (400) is fastened to the discharge port (130). And is screwed to the inlet of the discharge port 130 and fastened. The coupling nut 400 has a double pipe structure in which two pipes having different diameters are formed in a double pipe structure so that the end of the inner pipe presses the grapple ring 330 installed inside the coupling pipe 300, Thereby preventing escape. The coupling pipe 300 is inserted into the first body 210 through the inner pipe and penetrates the grip ring 330.

The operation of expanding the grip ring 330 for separation of the coupling tube 300 is accomplished by the push ring 320. The compression ring 320 is formed in a pipe shape and has a predetermined length, and is detachably installed on the outer circumference of the coupling pipe 300. A screw thread is formed on the outer periphery of the coupling pipe 300 so that the compression ring 320 is fastened in a screw coupling manner. When the compression ring 320 is fitted to the first body 210 located inside the discharge port 130 while being fastened to the coupling pipe 300, the compression ring 320 is naturally inserted into the first body 210 will be.

When the pushing ring 320 fastened to the coupling pipe 300 is advanced as described above, the tip of the pushing ring 320 pushes the teeth formed on the grip ring 330. Accordingly, the gear ring 330 is expanded as the teeth are pushed, and the coupling pipe 300 can be pulled out in this state.

The thread formed on the coupling tube 300 is formed such that when the coupling tube 300 is rotated in a direction opposite to the tightening direction of the coupling nut 260, the pressing ring 320 can be tightened. For example, if the coupling nut 400 is rotated in the clockwise direction and is tightened to the discharge port 130, the compression ring 320 is also rotated in the clockwise direction in the coupling pipe 300 so as to be tightly knocked. The outer periphery of the compression ring 320 is formed to be engaged with the inner periphery of the coupling nut 400. The projecting groove structure is formed on the outer periphery of the compression ring 320 and the inner periphery of the coupling nut 400 and is engaged with each other.

6, in the state where the compression ring 320 is fastened to the coupling pipe 300, the coupling pipe 300 is rotated in the direction to tighten the coupling nut 400 to the inlet of the discharge port 130 The pushing ring 320 is advanced along the coupling pipe 300 to expand the grip ring 330 to separate the coupling pipe 300. Conversely, when the coupling pipe 300 is rotated in the direction in which the coupling nut 400 is loosened, the pressing ring 320 is retracted along the coupling pipe 300. When the coupling ring 300 is retreated to the end and fully tightened, The clamping nut 400 engaged with the compression ring 320 is released while being rotated. Accordingly, the faucet can be easily installed on the water-saving type water outlet according to the present invention by simply inserting the faucet instead of the fastening method, and the faucet can be separated only by the operation of holding the faucet with a hand without a separate tool. And the convenience of the separation operation is improved.

100: body, 110: inlet,
120: a volleyball, 130: an outlet,
200: flow rate regulator, 210: first body,
220: second body, 222: guide ball,
224: guide passage, 300: coupling pipe,
320: compression ring, 330: grappling ring,
400: Fastening nut.

Claims (3)

A body 100 with a predetermined space in which the water stays therein is formed with an inlet 110 through which the water flows into the space, a discharge port 130 through which the introduced water flows to the outside, and a distribution port 120 through which the introduced water is distributed. );
And the water is guided to the discharge port 130 by switching the direction of the water flowing in the inlet port 110. The discharge port 130 is connected to the discharge port 130, And a flow regulator (200) having a guide hole (222) formed on a side surface thereof,
The flow rate controller 200 is rotated to adjust the distance of the water introduced from the inlet 110 to the guide hole 222 so as to adjust the resistance applied to the flow of the water so that the flow rate of the water discharged to the outlet 130 A water saving bulb having a volume control function for controlling the volume of water. The method according to claim 1,
The flow rate controller 200 includes a first body 210 accommodated in the discharge port 130 and a second body 220 connected to the first body 220 and accommodated in the space, Wherein the guide hole (222) is formed. 3. The method of claim 2,
And a coupling pipe 300 connected at one end to the first body and discharging water to the faucet within the discharge port 130. The coupling pipe 300 is connected to the first body 210, Is not separated by the ring 330,
A coupling nut 400 which is fastened to the discharge port 130 and tightened or loosened according to the rotation of the coupling pipe 300 and whose inner pipe prevents the grapple ring 330 from coming off, And a pushing ring 320 fitted to the first body 210 and engaged with the coupling nut 400,
When the coupling pipe 300 rotates in the direction in which the coupling nut 400 is loosened, the compression ring 320 is tightened by the coupling pipe 320 and retracted. However, when the coupling ring 300 is rotated in the opposite direction,
When the compression ring 320 is coupled to the coupling pipe 300 and the coupling pipe 300 is rotated in the direction in which the coupling nut 400 is tightened, the compression ring 320 is advanced along the coupling pipe 300 When the coupling pipe 300 is rotated in the direction in which the coupling nut 400 is loosened, the pressing ring 320 moves to the coupling pipe 300 And the tightening nut (400) is loosened while being rotated by engaging with the fastening nut (400).

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