Method of metered water supply through water tap head provided with reciprocal valve mechanism

FIELD: sanitary equipment, particularly adapted for domestic or public use, as well as for railroad transport, production departments and service rooms as well as for hospitals.

SUBSTANCE: water is supplied through head having rod-provided reciprocal valve mechanism, body and return spring installed in inner cavity coaxially to the body, wherein the spring cooperates with water dose. Method involves lifting the rod, opening orifice providing water discharge during valve opening; accumulating water dose in the head; lowering the rod; closing orifice adapted for water discharge during valve closing and blocking water dose discharge. Constant magnet field is created inside the head with the use of annular magnet along with silver ionization, magnetization and charging of each water dose. The rod is produced of magnetic material including silver or silver coating. The rod may cooperate with conical normally partly compressed spring. Each water dose inside the head is magnetized and electrically charged by applying constant magnetic and alternate current fields thereto.

EFFECT: extended functional capabilities and increased operational reliability.

2 cl, 2 dwg

 

The invention relates to processes of domestic sanitary purposes and can also be used in passenger rail transport, in bathrooms administrative buildings, production halls and offices, in hospitals.

Known methods of supplying water from the tap, in which, by means of special nozzles tap water is sprayed[1, 2, 3, 4]. In these ways when spraying (dispersion) increases the hydraulic resistance to the flow of water and thereby reduce its consumption.

The disadvantages of these methods as analogues is the inability to provide portions of the water supply.

One analogy is the way portion of the water contained in the materials [5]. In this way the nozzle contains a ball-and-rod valve mechanism with manual transmission. Clicking on the rod up, he lifts the ball which opens the drain hole. In a free state, the rod releases the ball and the last covers the ball.

This method provides greater water savings in comparison with analogues. The main disadvantage of this method is its low functionality. The method is not ensured hygienic preparation of water does not improve its hygienic properties. In addition, the implementation of this method unreliable. This nenadi the awn is determined as follows:

1. The ball due to the large contact angle of the funnel stream (stream of water) can be pushed aside from the blocked holes. In this case, the flow of water will not allow the ball to roll down into the hole and cover it.

2. The flow of water enters into the cavity to stock all kinds of microscopic particles of dirt. They accumulate on the walls of the cavity and prevent the movement of the rod down in a free state under the influence of water pressure.

The closest technical solution (prototype) is the way portions of the water flow from the faucet through a nozzle with a reciprocating valve mechanism with the valve body and installed in its internal cavity coaxial to the housing return spring that interacts with a portion of water, comprising the sequential operation of the lifting rod, opening holes for water flow when the valve opens, set portions of water, lowering the stem, overlapping holes to drain when closing the valve, stopping the flow of portions of water, with each portion of water ionize silver (see 2080152, B 01 D 27/00, 27.05.1997) .

Object of the invention is to enhance the functionality of the method portion of the water supply and improving the reliability of its functioning.

This technical result is achieved in that in the method of portion the th water flow from the faucet through a nozzle with a reciprocating valve mechanism with the rod, with case and installed in its internal cavity coaxial to the housing return spring that interacts with the portion of water containing sequential lifting rod, opening holes for water flow when the valve opens, set portions of water, lowering the stem, overlapping holes to drain when closing the valve, stopping the flow of portions of water, with each portion of water ionize silver, inside the tip of the ring magnet create a constant magnetic field and each portion of water supplied simultaneously with the specified ionization silver Magnificat and electrically charged by performing stem from like material, springs from the like and electrically conductive material containing silver or silver-plated, with the possibility of interaction with the rod, conical, normally partially compressed.

In addition, each portion of the water inside the nozzle Magnificat and electrically charged, acting simultaneously constant and variable magnetic electromagnetic fields.

The essence of the invention is illustrated by drawings, in which figures 1 and 2 show the device (adapter)that implements the method.

In figures 1 and 2 indicated:

1 - water faucet;

2 attachment portions of the water supply;

3 - elastic coupling of the nozzle 2;

4 - reginae ring coupling 3;

5 - the body of the nozzle is not namagnichivayushchego material, such as bronze, brass;

6 - removable cover of not namagnichivayushchego material, such as bronze, brass;

7 - magnetic ring;

8 - rod of like material, for example of steel.

9 - normally partially compressed conical spring of the like and electrically conductive material containing silver or silver-plated;

10 - stop the ball from like material, for example of steel.

In the apparatus of the way the housing 5 with the cover 6, the ring 7, shaft 8, a spring-loaded by a spring 9, and with the ball 10 by the clutch 3 and the ring 4 is secured in position on the spout faucet 1.

The method is implemented as follows.

When you open the valve 1, the water pressure pushes the ball 10 to the walls of the openings in the housing 5, blocking the hole. Magnetic ring 7 creates a constant magnetic field. This field magnetizes the rod 8, the upper part acting on the ball 10, denser drawing him toward the wall of the bore. Normally partially compressed spring 9, in an effort to spring up, presses the flange (on the drawing is not designated) of the rod 8 to the walls of the holes (on the drawing is not indicated) in a removable cover 6.

Clicking on the rod 8 up (e.g., hand) rod 8 moves upward, compressing the spring 9, raises the ball 10 and separates at the same time the VA through holes (in the drawings are not marked) in the housing 7 and the removable cover 6. Tap water 1 follows from the nozzle 2, leaking into the cavity of the housing 5 and the cover 6, between the coils of the spring 9, washing magnetized rod 8, the coils of silver springs 9, the magnetic ring 7. Washing the coils of the spring 9, the water captures the silver ions from the loop and flowing in the self-magnetic field of the ring 7 and the induced magnetic field of the rod 8, the water magnetivity. At the time of movement of the RAM 8 as a conductor in a magnetic field of the ring 7 is a weak electric current in the magnetized rod 8. Electric and magnetic field of a moving rod 8 induce in the spring 9, as in the coil inductance weak electric and magnetic currents. Compressive and rasathi coils of a magnetic and electrically conductive springs are moved in the magnetic field of the ring 7 and the rod 8, crossing the magnetic lines of force of these fields. Therefore, during these cycles the EMF induction in the spring creates a weak electric current flowing between the spring 9 and the shaft 8 through the weakly conductive water.

This current is caused by electrode potentials [6] spring 9 and shaft 8. Silver ions moving to the rod 9, is captured by flowing water.

This is a new technical result in one of the solutions tasks portions of the proposed method of water supply, namely the expansion of its functionality.

When releasing the rod 8 from the effort of extending the nogo up the water pressure lowers it down. Spring 9 provides strict move down to the complete overlap of the holes in the lid 6. The ball 10 is rolled on the conical surface of the housing 5, blocking the hole in it. Magnetic force rod 8, the induced magnetic ring 7, picks up the ball 10, providing a snug fit to the edges of the hole.

Thus, the spring pressure rod 8 and the magnetic clip ball 10 ensure the achievement of other technical result of the invention: improving the reliability of the method portion of the water supply.

The usefulness minichannel, electrically charged and ion-containing silver water has long been known. In the present invention this result is obtained at the same time.

Sources of information

1. USSR author's certificate No. 155639, E S WITH 1/04, 1962

2. USSR author's certificate No. 1818491, E S WITH 1/04, 1993

3. U.S. patent No. 4345719, 1982

4. Patent of Russia No. 2155255, E S WITH 1/04, publ. 27.08.2000.

5. Gavrilov "Saving attachment", J. "Inventor, innovator", 1990., No. 4, page 15.

6. D. Glinka "General chemistry", Ed. "Chemistry", LO, 1974, cf. 280-285.

1. The method portion of the water flow from the faucet through a nozzle with a reciprocating valve mechanism with the valve body and installed in its internal cavity cook the constraints to housing return spring, interacting with a portion of water containing sequential lifting rod, opening holes for water flow when the valve opens, set portions of water, lowering the stem, overlapping holes to drain when closing the valve, stopping the flow of portions of water, with each portion of water ionize silver, characterized in that the inside of the nozzle ring magnet create a constant magnetic field and each portion of water supplied simultaneously with the specified ionization silver Magnificat and electrically charged by performing stem from like material, springs from the like and electrically conductive material containing silver or silver-plated, with ability to interact with rod, conical, normally partially compressed.

2. The method according to claim 1, characterized in that each portion of the water inside the nozzle Magnificat and electrically charged, acting simultaneously constant and variable magnetic electromagnetic fields.



 

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