ITTO20090105U1 - DEVICE TO SAVE WATER - Google Patents

Description

Water saving device

FIELD OF THE INVENTION

The present invention relates to a device and a method used in showers / taps to prevent the flow of water from rapidly increasing and the water not being used promptly.

STATE OF THE TECHNIQUE

The use of water in a reasonable manner so as not to waste it is a duty of every person. The traditional outlet device usually only has a simple valve and the water flow depends on the diameter of the pipe, as the diameter of the water pipe is usually much larger, and therefore a lot of water will be sprayed out when the valve is opened . As a result, more water is wasted. Thus various water saving devices have been invented and manufactured by people in the field, such as a water saving seal for a faucet, described in CN2846943, which is a protruding seal having a flow restrictor hole in the middle portion, the effective area of said flow restrictor hole is 5 - 80 mm <2>, and the preferred area is 10 - 50 mm <2>. However, this gasket simply reduces the outlet diameter so as to reduce the flow, but it cannot regulate the flow and make the flow even.

THE INVENTION

The object of the present invention is to provide a new device for saving water which has the function of reducing the speed of the rapidly increasing flow, and can regulate the flow of a shower, faucet, etc., to make the flow uniform.

This aim is achieved by providing:

a water saving device comprising a sleeve and an elastomer secured in said sleeve, said elastomer having at least one uniform flow hole, a throttle hole and a projection for arranging said uniform flow hole and / or said throttle hole therein; said uniform flow hole is a hole that still maintains an open state after a pressure distortion, said throttle hole is a hole that will close approximately after the pressure distortion to block the flow.

In the aforementioned water-saving device, said uniform flow hole is a round hole or a hole having at least one support angle, said throttle hole is an ellipse or strip-shaped hole.

In the aforementioned device for saving water, said hole of uniform flow is selected from the group comprising: square hole, triangular hole, hole with regular polygon, hole in the form of a constriction or sliding hole.

The aforementioned water device also comprises a sleeve for said elastomer disposed therein to facilitate the attachment of said device to save water to the outlet device to adapt the device to save water to a different diameter of the installation hole.

In the aforementioned device to save water, the thickness of said elastomer is configured according to the elasticity of the material used, the situation of use and the flow of water that passes through it. In general, the stronger the elasticity of the material, the more sensitive it is to distortion after being pressed, and thus the greater thickness can be used. According to the household shower or faucet, the preferred thickness varies between 0.8mm and 8mm.

In the aforementioned water saving device, the shape of said elastomer can be any possible shape such as round, square, ellipse, semi-round or trefoil, etc.

In the aforementioned water saving device, in order to facilitate the transfer of pressure around the protrusion to the uniform flow hole or the throttle hole, the area of said protrusion cannot be too large, consequently several protrusions, and each protrusion has a uniform flow hole or a throttle hole; the shape of the protrusion is commonly round, without limitation, and other shapes can also be used. Of course, different amounts of uniform flow holes or throttle holes can be established in a projection.

In the aforementioned water saving device, said elastomer made of flexible material such as rubber, foam rubber, etc. in particular, it can be made of natural rubber, synthetic rubber, neoprene, SBR (Styrene Rubber - Butadiene), cis1, 4-polybutadiene rubber, NBR (Nitrile Rubber - Butadiene), styrene rubber, fluoro rubber, or polysulfide rubber .

In the above mentioned water saving device, the quantity and size of the uniform flow hole and throttle hole arranged in the elastomer can be established according to the different specification of the water saving device to be made, and the water saving device can be used in any device that requires flow control.

The water saving device of the present invention has both the uniform flow hole and the throttle hole, therefore, when the water flow increases, the current can be controlled by the distortion of the uniform flow hole and the throttle hole, so the flow will not increase rapidly, whereas when the flow decreases, the flow can also be added by restoring the uniform flow hole and the throttle hole, so the flow will not decrease rapidly, and therefore the flow will be controlled at a uniform level.

BRIEF DESCRIPTION OF THE DRAWINGS

Figure 1 is a perspective view of the elastomer of the present invention in an embodiment 1;

Figure 2 is a perspective view of the water saving device of the present invention in Embodiment 1;

Figure 3 illustrates the state of use of the device for saving water of the present invention in embodiment 1;

Figure 4 illustrates another state of use of the device for saving water of the present invention in embodiment 1;

Figure 5 is a top view of the elastomer of the present invention in embodiment 1 in the natural state;

Figure 6 is a top view of the elastomer of the present invention in embodiment 1 after the distortion; Figure 7 is a sectional view taken along the line UN-UN of Figure 5;

Figure 8 is a diagram illustrating the relationship between pressure and flow rate of the device with the water saving device of the present invention and the device without the water saving device.

Figure 9 is a diagram illustrating the relationship between the pressure and the flow velocity of the throttle hole and the uniform flow hole respectively and the synthetic effect of both the throttle hole and the uniform flow hole.

In these figures: 1 elastomer; 12 round ledge; 13 choke-shaped hole; 14 ellipse hole, 2 sleeve; 3 suspended shower; 4 portable shower.

DESCRIPTION OF THE PREFERRED EMBODIMENT FORM OF EMBODIMENT 1

Referring to Figure 1 and Figure 2, the water saving device comprises an elastomer 1 made of natural rubber with a thickness of 5 mm, the upper portion of the elastomer 1 has three round protrusions 12, two of the round protrusions 12 have a throat-shaped hole 13, respectively, the throat-shaped hole 13 is with two major ends and a median with an L-shaped support angle, the other round protrusion 12 has an ellipse hole 14, and the edge of the elastomer 1 extends downward to form a cylinder.

The elastomer 1 is fixed to the sleeve 2 by means of said cylinder. With reference to Figure 3 and Figure 4, the water saving device can be fixed to the entrance of a suspended shower 3 or a portable shower 4 in order to regulate the flow of the suspended shower 4 or of the portable shower 4.

When activating the valve of the suspended shower 3 or the portable shower 4, since the flow passing through the throat-shaped hole 13 or the ellipse hole 14 is small, according to the Bernoulli equation, here the pressure pushing on the the edge of the throat-shaped hole 13 or the ellipse hole 14 is approximately equal to the pressure pushing on the projection 12, and the shape of the throat-shaped hole 13 or the ellipse hole 14 arranged on the water saving device remains unchanged, the flow passing through both the throat-shaped hole 13 and the ellipse hole 14 increasing in various degrees respectively.

By activating the valve continuously, the flow passing through the throat-shaped hole 13 or the ellipse hole 14 increases, according to the Bernoulli equation, an increase in the velocity of the fluid occurs simultaneously with a decrease in pressure, and therefore the pressure pushing on the edge of the constriction-shaped hole 13 or the ellipse hole 14 decreases, while the velocity of the flow passing through the two sides of the projection 12 is approximately the velocity of before; thus, the pressure pushing on the two sides of the projection 12 is far greater than the pressure pushing on the edge of the throat-shaped hole 13 or the ellipse hole 14 such that the constriction-shaped hole 13 or the ellipse hole 14 is distorted by pressure. Referring to Figure 5 and Figure 6, as the flow increases, the ellipse hole 14 forms a gradually closed line after the pressure distortion, consequently, the flow passing through the ellipse hole 14 gradually decreases, the choke-shaped hole 13 forms two roughly round holes with a contraction between them, the flow increases with increasing flow (the rate of increase is slightly less than the rate of increase of the normal hole). Figure 7 illustrates the pressure differential between the projection 12 and the throat-shaped hole 13 or the ellipse hole 14.

Therefore, through the cooperation of the choke-shaped hole 13 and the ellipse hole 14, when the water passing through the water-saving device increases, the flow can be decreased by the distortion of the choke-shaped hole 13 or the hole ellipse 14 so that the flow will not increase rapidly; while when the water decreases, the flow can be increased by restoring the choke-shaped hole 13 or the ellipse hole 14 so that the flow will not decrease rapidly, and thus the flow will remain at a uniform level.

Figure 8 is a diagram illustrating the relationship between pressure and flow rate of the device with the water saving device of the present invention and the device without the water saving device.

Figure 9 is a diagram illustrating the relationship between the pressure and the flow velocity of the throttle hole and the uniform flow hole respectively and the synthetic effect of both the throttle hole and the uniform flow hole.

In the other embodiments, the throat-shaped hole 13 can be replaced by a round hole or a square hole or a sliding hole.

Taking into account the foregoing, it will be understood that several features and aspects of the described embodiment can be combined with others or replaced by others to conform in alternative ways to the embodiment of the water saving device. Thus, it is understood that the protective field of the present invention is not limited by the particular embodiment which has been described above, but rather said protective field is to be defined by a reasonable reading of the following claims.

Claims (8)

CLAIMS 1. A water saving device comprising a sleeve (2), wherein the device further comprises: an elastomer (1) fixed in said sleeve (2), said elastomer (1) having at least a uniform flow hole (13), a throttle hole (14) and a projection (12) to arrange said uniform flow hole ( 13) and / or said throttling hole (14); said uniform flow hole (13) is a hole which still maintains an open state after pressure distortion, said throttle hole (14) is a hole which will approximately close after pressure distortion to block flow. A water saving device according to claim 1, wherein said uniform flow hole (13) is a round hole or a hole having at least one support angle, said throttle hole (14) is an ellipse or a borehole strip shape. A water saving device according to claim 2, wherein said uniform flow hole (13) is selected from the group comprising: square hole, triangular hole, regular polygon hole, throat shaped hole or slide hole. Water saving device according to claim 3, wherein the thickness of said elastomer (1) is between 0.8 mm and 8 mm. A water saving device according to claim 4, wherein several protrusions (12) are configured on the elastomer (1), and each protrusion (12) has a uniform flow hole (13) or a throttle hole (14) . A water saving device according to claim 5, wherein said projection (12) is round. Water saving device according to claim 1 or 2 or 3 or 4 or 5 or 6, wherein said elastomer (1) is made of flexible material. 8. Water saving device according to claim 7, wherein said flexible material is selected from the group comprising: natural rubber, synthetic rubber, neoprene, SBR (Styrene-Butadiene rubber), cis1, 4-polybutadiene rubber, NBR (Rubber of Nitrile - Butadiene), styrene rubber, fluoro rubber or polysulfide rubber.