KR100820050B1 - Water distributer of constant flow for separate household - Google Patents

Abstract

A water distributor of constant flow for a separate household is provided to adjust flow rate supplied by water branch pipes by controlling a cartridge automatically according to water pressure of the water main pipe through compressive springs. A rotary screw block(2) is rotative by a flow rate adjusting handle(1) placed at the upper part of a flow rate adjusting housing(5). A lifting screw block(3) is lifted up and down along an inner wall of the flow rate adjusting housing to move a flow rate adjusting stem(10) supported by a first compressive spring(6) along the center shaft direction of water branch pipes(40) and to adjust the water amount supplied to each water branch pipe from water main pipes(30). A cartridge(20) is combined with the lower end of the flow rate adjusting stem and elastically moved along a projected end(41) placed on an inner peripheral surface of the water branch pipe by second and third compressive springs(11,15) mounted at the flow rate adjusting stem. At least one orifice path groove(25) is installed at a flow rate forming part(21) with a depressed shape.

Description

Household constant flow rate water dispenser {WATER DISTRIBUTER OF CONSTANT FLOW FOR SEPARATE HOUSEHOLD}

1 is a block diagram showing a generation constant flow rate water distributor according to the present invention,

2 is a cross-sectional view showing a generation constant flow rate water distributor according to the present invention;

Figure 3 is a perspective view showing a cartridge in the generation constant flow rate water distributor according to the present invention,

4 is an operational state diagram illustrating the operation of the generation constant flow rate feedwater distributor according to the present invention.

<Description of the symbols for the main parts of the drawings>

DESCRIPTION OF SYMBOLS 1 Flow control handle 2: Rotating screw block 3: Lifting screw block 5: Flow control housing 6: 1st compression spring 10: Flow adjustment stem 11: 2nd compression spring 15: 3rd compression spring 16: Disc board 17: Support Nut 20: Cartridge 30: Water main pipe 40: Water basin pipe

The present invention relates to a household constant flow rate water distributor, and more particularly, is installed at the inlet of the water supply branch pipe to adjust the flow rate supplied through the water supply pipe by moving the cartridge up and down elastically according to the water pressure of the water supply main pipe. Generation constant flow feed distributor

In general, the household water distributor divides the cold water from the water supply main pipe to the plurality of water supply pipes, and the water supply of the water supply pipes is changed as the water pressure of the water supply main pipe changes within the household.

In other words, the household water distributor divides water from the water main to each kitchen and toilet through the water basin, and the water supply of each water basin changes proportionally according to the water pressure of the water main. As the temperature decreases, the hot water adjusted to the proper temperature suddenly becomes hot.

For example, assuming that the water supply from the water supply main is first supplied to the kitchen water supply basin in the household water distribution distributor, and then water is supplied to the water supply basin such as the first toilet and the second bathroom in turn, the water pressure of the water supply main is the kitchen side. The water supply pipe is the largest and the water supply is the highest, and when water is used in the kitchen or the first bathroom while using the hot water in the second toilet, the amount of water supplied to the second toilet is naturally reduced. Problem occurs.

Accordingly, the present applicant is a generation that is configured to supply a constant flow rate through each water supply pipe by increasing the water supply of the water supply basin pipe as the water pressure of the water supply main pipe decreases while the water supply of the water supply main pipe decreases as the water pressure of the water supply main increases. A constant flow feedwater distributor was proposed.

The present invention was devised to improve the above-mentioned conventional problems, and installed at the inlet of each water supply branch pipe to adjust the flow rate supplied through the water supply branch pipe by constantly moving the cartridge up and down according to the water pressure of the water supply main pipe. The purpose is to provide a household constant flow feed distributor.

In order to achieve the above object, the present invention, when the rotating screw block is rotated by the flow adjustment handle installed on the upper portion of the flow control housing is a lifting screw block screwed with the rotary screw block is moved up and down along the inner wall of the flow control housing In the normal generation constant flow rate water distributor, the flow rate adjusting stem supported by the first compression spring is moved up and down along the direction of the center axis of the water supply branch pipe to adjust the amount of water supplied from the water supply main pipe to each water supply branch pipe. The cartridge coupled in the penetrating state to the lower end side of the flow regulating stem has a protruding step provided on the inner circumferential surface of the water supply branch pipe by second and third compression springs mounted on the flow regulating stem so as to be positioned above and below the flow regulating stem. At least one orifice flow path groove formed in the flow path forming portion constituting the outer circumferential surface of the upper and lower elastic movement along But having a negative of a predetermined depth, the orifice flow path grooves will provide a constant flow generation water dispenser, characterized in that the middle portion consisting of sanghyeop expansion shaft portion, and portion which gradually narrows toward the top of the circumferential width.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention;

1 is a block diagram showing a generation constant flow rate water dispenser according to the present invention, Figure 2 is a cross-sectional view showing a generation constant flow rate water supply distributor according to the present invention, Figure 3 is a cartridge in the generation constant flow rate water supply distributor according to the present invention 4 is a perspective view showing the operation of the generation constant flow rate water distributor according to the present invention.

According to one embodiment of the generation constant flow rate water supply distributor according to the present invention, as shown in Figs. 1 and 2, the flow regulating handle 1 externally mounted on the upper part of the flow regulating housing 5 has a flow regulating housing 5 It is installed to be rotatable with the rotary screw block (2) built in the upper part of the).

At this time, the lifting screw block (3) embedded in the flow control housing (5) to be located on the lower side of the rotary screw block (2) is screwed with the rotary screw block (2) without idling according to the rotation direction of the rotary screw block It is configured to move up and down.

In addition, the water supply main pipe 30 in which the fluid moves in the left and right direction is installed in the upper side of the flow rate adjusting housing 5 while the water supply branch pipe 40 is screwed to have the same central axis as the flow rate adjusting housing. Are combined.

In particular, the flow regulating stem 10 is provided along the central axis direction of the flow regulating housing 5 and penetrates the water supply main pipe 30 in the radial direction, and is provided to be embedded in the water supply branch pipe 40 in the central axis direction. It is.

In particular, the water supply branch pipe 40 is provided with the protruding step 41 in the circumferential direction along the interruption side of the inner circumferential surface, and the cartridge 20 is configured to move up and down along the protruding step 41.

Here, the flow regulating stem 10 is upwardly elastically moved by the first compression spring 6 embedded in the flow regulating housing 5 while the upper end thereof is located at the lower side of the elevating screw block 3. In other words, the upper end is pushed down by the elevating screw block (3) to move downward, it is configured to move upward elastic movement in accordance with the rising movement of the elevating screw block.

In addition, the second compression spring 11 is inserted into the middle portion of the flow rate adjusting stem 10 in a radial direction through the water supply main pipe 30, and a cylindrical portion is formed at the lower end of the flow rate adjustment tube 10 through the central axis of the water supply branch pipe 40. Cartridge 20 is inserted in the penetrated state.

At this time, the third compression spring 15 is installed to be embedded in the cartridge 20 while being fitted to the lower end of the flow regulating stem 10, the disk plate 16 and the support nut 17 fixed to the lower end of the flow regulating stem (17). It is supported by) to act to move the cartridge up and down elastic flow along the flow control system.

In detail, the cartridge 20 moves up and down elastically along the lower end of the flow regulating stem 10, and is vertically elastic due to the interaction of the external second compression spring 11 and the built-in third compression spring 15. You will move.

Then, the cartridge 20 is composed of the flow path forming portion 21 and the stepped portion 22, as shown in Figure 3, the stepped portion located at the lower side is formed larger than the outer diameter of the flow path forming portion water supply basin pipe 40 It acts to limit the upward movement while being caught by the protruding step 41 of the), one or more orifice flow path groove 25 is formed in a recessed shape of a predetermined depth along the outer circumferential surface of the flow path forming portion.

At this time, the orifice flow path groove 25 has an intaglio depth of the upper narrow portion 25-1, the intermediate expansion portion 25-2 and the lower portion 25-3 along the outer circumferential surface of the flow path forming portion 21 has a constant depth It is formed.

Here, the upper narrow portion 25-1 of the orifice flow passage 25 is located on the upper side of the outer circumferential surface of the flow path forming portion 21 and has a relatively narrow circumferential width, and the middle expansion portion 25-. 2) is located on the intermediate side of the flow path forming portion 21 to gradually extend the circumferential width of the upper narrow portion to reach the lower portion 25-3, the lower portion is formed to have a relatively wider circumferential width.

And, the orifice flow path groove 25 is divided into the inlet and the outlet of the water supply by the protruding step 41 of the water supply branch pipe 40, the upper water supply portion 25-1 Or through the inlet of the water supply (located at the upper end of the protruding step) formed at the upper portion of the upper narrow portion and the intermediate expansion portion 25-2, and the lower portion of the intermediate expansion portion and the lower portion 25-3, or the lower portion It is configured to flow into the water supply branch pipe 40 through the outlet of the water supply (located below the projection step) formed in the.

Therefore, the generation constant flow rate water distributor according to the present invention pushes the cartridge 20 in the water supply branch pipe 40 to the lower side as the water supply water pressure of the water supply main pipe 30 becomes larger, and thus, the water supply branch pipe 40 Instead of the water inlet of the water supply located in the upper part of the protruding step 41 becomes smaller and smaller, the outlet of the water supply located in the lower part of the protruding step 41 of the water supply basin tube 40 becomes larger and larger so that the amount of water discharged to the water supply basin is constant. Adjusted.

In the same principle, the smaller the water supply pressure of the water supply main pipe 30 is, the smaller the cartridge 20 in the water supply branch pipe 40 is raised to the upper side by the third compression spring 15, and thus the water supply branch pipe ( The amount of water discharged to the water supply basin tube is gradually reduced as the outlet of the water supply located at the lower part of the projection step 41 of the water supply basin tube 40 becomes smaller than the inlet of the water supply located on the upper part of the projection step 41. It is adjusted to be constant.

At this time, the orifice flow path groove 25 is formed in an intaglio shape of a certain depth along the outer circumferential surface of the flow path forming portion 21 to induce a fluid flow of laminar flow to generate noise and vibration during water supply. Will not.

Referring to the operation of the present invention constituted as described above, when the rotary screw block 2 is turned by using the flow adjusting handle 1, the lifting screw block 3 is moved in accordance with the rotation direction.

At this time, when the elevating screw block 3 is raised, the flow regulating stem 10 is raised by the elastic force of the first compression spring 6, and when the elevating screw block 3 is lowered, the flow regulating stem 10 is also made. One compression spring 6 is lowered while compressing.

Here, the position of the disk plate 16 fixedly assembled at the lower end side of the flow regulating stem 10 is moved, whereby the second compression spring 11 and the third compression spring 15 having the same vertical length As the elastic force changes, the position of the cartridge 20 is determined, and the opening amount of the orifice flow path groove 25 is adjusted according to the position of the cartridge.

And, Figure 4 shows the up-and-down displacement of the cartridge 20 according to the water pressure of the water supply main pipe 30, in the case shown in Figure 4a, the water pressure of the water supply main pipe 30 is the largest, such a case The cartridge 20 is lowered while compressing the third compression spring 15 by the hydraulic pressure and the second compression spring 11, and the inlet of the water supply located above the protruding end 41 of the water supply branch pipe 40. Instead of getting smaller and smaller, the outlet of the water supply located at the lower part of the protruding step 41 of the water supply branch pipe 40 is gradually increased, so that the amount of water discharged to the water supply branch pipe is constant.

In addition, b to 4 d of FIG. 4 is a state in which the water pressure of the water supply main pipe 30 gradually decreases, and in this case, the cartridge 20 is sequentially raised by the elastic force of the third compression spring 15. Instead of the water inlet of the water supply located above the protruding step 41 of the water supply branch pipe 40 gradually increasing, the outlet of the water supply located below the protruding step 41 of the water supply basin pipe 40 gradually decreases. The amount of water discharged to the branch pipe is adjusted to be constant.

In short, the generation constant flow rate water distributor according to the present invention is installed at the inlet of the water supply basin pipe 40 to move the cartridge 20 up and down elastically in accordance with the water pressure of the water supply main pipe 30 to control the amount of inlet and outlet opening of the orifice flow path groove. There will be a technical feature to adjust the flow rate discharged through each water supply pipe to be constant.

As described above, in the detailed description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention.

Therefore, the substantial scope of the present invention should not be limited by the above-described embodiment, but should be defined by the same structure as the claims as well as the claims described below.

The present invention configured as described above in the generation constant flow rate water distribution distributor can automatically maintain the water supply discharged to each water supply branch pipe by automatically adjusting the cartridge of each water supply branch pipe according to the water pressure of the water supply main pipe, whereby the water pressure for each generation It is possible to prevent the interruption of water supply or decrease the amount of water supply according to the reduction of water, thereby changing the water temperature of the hot water, thereby providing the effect of using a stable water.

Claims (1)

When the rotating screw block 2 is rotated by the flow adjusting handle 1 installed at the upper portion of the flow regulating housing 5, the lifting screw block 3 screwed with the rotating screw block 2 is connected to the flow regulating housing ( 5) the flow rate adjusting stem 10 supported by the first compression spring 6 while being moved up and down along the inner wall of the water supply pipe 30 by moving up and down elastically along the direction of the central axis of the water supply branch pipe 40. In the normal household constant flow rate water supply distributor configured to adjust the amount of water supplied to the water supply branch pipe 40, The cartridge 20 coupled to the lower end side of the flow regulating stem 10 is connected to the second and third compression springs 11 and 15 mounted on the flow regulating stem 10 so as to be positioned at an upper and lower side thereof. One or more orifice flow path grooves 25 are formed in the flow path forming portion 21 forming the outer circumferential surface while being configured to move up and down elastically along the protruding step 41 provided on the inner circumferential surface of the water supply branch pipe 40. It is provided with an intaglio, but the orifice flow path groove 25 is composed of the upper narrow portion 25-1, the middle expansion portion 25-2, the lower portion 25-3, the width of the circumferential direction narrows toward the upper side Generation constant flow rate water distributor.

Images