RU2150987C1 - Liquid filtering process, cock, and device - Google Patents

Abstract

FIELD: cleaning liquid (water) under domestic conditions. SUBSTANCE: liquid to be cleaned is conveyed from delivery pipeline to filter by turning on dirty- liquid shutoff valve. Hydraulic pressure is built up across filter inlet, liquid is passed through the latter, and clean liquid is discharged through special pipeline. The latter is provided with additional dirty-liquid shutoff valve. During initial filtering cycle, clean-liquid valve is the first to be opened and then dirty-liquid shutoff valve is turned on. At the end of cycle, dirty- liquid shutoff valve is the first to close and then clean-liquid shutoff valve is turned off. Filtering-device cock has body, liquid delivery and discharge pipes, dirty-liquid shutoff valve, actuator of the latter, clean-liquid delivery and discharge pipes, and clean liquid shutoff valve. Dirty- liquid shutoff valve actuator is coupled with clean-liquid shutoff valve for its advanced forced opening when dirty-liquid shutoff valve is turned on in the beginning of filtering cycle followed by forced closing of clean-liquid valve by the moment of closing dirty-liquid valve at the end of filtering cycle. Dirty-liquid shutoff valve is made in the form of ball incorporating appropriate saddle and in the form of two ceramic disks with holes. Device has filter, dirty-liquid delivery pipeline running to filter, clean-liquid discharge pipeline , and cock with shutoff valve designed in compliance with Clause 5-15. EFFECT: simplified design and reduced cost of device; improved quality of filtered liquid. 14 cl, 13 dwg

Description

 The invention relates to the purification of liquids, mainly drinking water, in domestic conditions, by attaching a filter to a pressure water supply network.

 The need for quick and high-quality purification of drinking water in domestic conditions is relevant and obvious.

 A typical final water treatment system is a cartridge filter connected to the water supply network, which ensures the purification of the liquid when it is filtered through the filter under the influence of excess pressure of the water supply network and the collection of purified liquid.

 The most widespread in practice are portable filters connected to a water distribution valve. At the beginning of the filtration cycle, a filter is attached to the tap and the tap is opened. Water is filtered under pressure from the water supply network through a filter and freely drains into a container of purified liquid. At the end of the filtration cycle, the valve is closed and the filter is removed from it.

 The disadvantage of this method is the need for regular installation and removal of the filter from the tap and the inability to use a water tap for its intended purpose during water treatment.

 Stationary filtration systems are known that are connected to the water supply system with a filter installed outside the working area (under the sink, countertop, etc.) and a separate faucet installed on the sink and always ready for use.

 In this case, two methods of organizing the filtering process are used: according to the first, by supplying the purified water to the filter from the water supply with a tap installed on the outlet line of the filter on the purified liquid, and by the second, by supplying the purified water from the water supply through the tap to the filter and free flow of purified water through the pipe on this tap.

 The most common is the first method with installing a tap after the filter. For example, in US patent N 5127427 a method of filtering with the supply of purified water from the water supply to the filtration system located outside the working area, by means of a special tap on the outlet line of purified water.

 The disadvantage of filtering the liquid being cleaned with the installation of a tap after the filter is that in this case all the elements of the filter system in the intervals between filtering cycles are under pressure from the water supply network. This requires increased filter strength and special technical means and devices to maintain its integrity, which increases the cost and complexity of water treatment. With the growing need for increased cleaning performance and increasing filter dimensions, this becomes a serious technical problem.

 The disadvantage of the second method of connecting the filter to the water supply network with a tap in front of the filter is the prolonged leakage of purified liquid from the filter at the end of the filtering cycle with the connecting tap closed.

 The closest in technical essence and achieved by using the result (prototype) is a three-pipe tap for filtering water purification of drinking water manufactured by Touch-Flo (Burbank, California, USA), designed for filtration systems operating according to the second method of cleaning.

 Filtration cleaning using this faucet is performed by supplying tap water from the network to the filter through the first faucet tube with a shut-off valve that opens by pressing the corresponding key, supplying purified water with the valve open to the filter through the second tube, creating hydraulic pressure at the filter inlet, filtering the water returning the purified water through the third faucet tube and the free flow of purified water through the purified water discharge pipe installed on the tap.

 With this method of organizing filtration cleaning, the filter housing, the pipes for supplying purified water from the tap to the filter and drainage of purified water from the filter to the tap in the intervals between filtering cycles are disconnected from the pressure of the water supply network, and when filtering, they are under pressure determined by the own hydraulic resistance of the filtering system at specific fluid flow rate. This operating pressure is significantly less than the network pressure of the water supply. In particular, the hydraulic resistance of the filter is from 2 to 3 ati at a network pressure of up to 14 ati.

 This method of organizing the filtering process greatly simplifies and reduces the cost of cleaning, however, it also has certain technical disadvantages.

 Firstly, after closing the valve in the tap, draining the purified liquid from the spout on the tap does not stop immediately after closing the valve. This is due to the fact that water between the valve and the filter gradually leaks through the filter due to overpressure. This time depends on the elasticity of the inlet cavity of the filter and the supply tube to the filter and is approximately 5-15 seconds.

 Secondly, after the supply of purified water to the filter ceases, individual drops of water from the drain pipe on the tap leak. This is due to the expansion of the air-water mixture in the filter when it is heated from the temperature of the water supply to room temperature. The duration of this period is tens of minutes, which reduces the consumer properties of the entire water treatment system as a whole.

 The main objective of the invention (the required technical result achieved by using the invention) is the ability to quickly and conveniently clean the liquid (drinking water) in the home due to the optimal organization of the liquid filtration mode while simplifying and cheapening the design of the filter and filter device and reducing the unit cost of cleaning generally.

 The goal and the required technical result when using the inventions are achieved by the fact that by the method of filtering the liquid, mainly water in the home, by supplying the liquid to be cleaned from the pressure pipe to the filter by opening the shut-off valve of the liquid to be cleaned, creating a hydraulic pressure at the inlet of the filter, filtering the liquid in the filter under the influence of pressure drop and discharge of the purified liquid through the pipeline of the purified liquid according to the invention to the pipeline e the discharge of the purified liquid is additionally installed shut-off valve of the cleaned liquid, and the shut-off valve of the cleaned liquid is made in the form of a ball and its corresponding seat or in the form of two ceramic disks with holes.

 At the beginning of the filtration cycle, the shut-off valve of the purified liquid is first forcibly opened, and then the shut-off valve of the cleaned liquid is opened, at the end of the filtration cycle, the shut-off valve of the cleaned liquid is first closed, and then the shut-off valve of the cleaned liquid is closed, and the preventive opening of the shut-off valve of the cleaned liquid and subsequent opening of the shut-off valve the valve of the liquid to be cleaned at the beginning of the filtering cycle, as well as the proactive closing of the shut-off valve of the liquid to be cleaned and subsequent closing of the valve polar valve purified liquid at the end of the cycle is carried out through a single filtration means forced driving the shut-off valves, disposed, for example, inside corresponding tap structure and made, for example, as a rotary shaft.

 At the same time, the shutoff valve of the cleaned liquid is performed with the additional possibility of fulfilling the function of a safety valve by allowing it to open automatically when the pressure of the cleaned liquid is higher than the set pressure, and means for monitoring the means of sealing the cleaned liquid are additionally placed in the means for forcing the shutoff valves, for example in the form of corresponding holes in the housing.

 The goal and the required technical result when using the inventions are also achieved by the fact that in a tap for a filtering device for purifying liquids, mainly water in a domestic environment, comprising a body, nozzles for supplying and discharging the liquid to be cleaned, a shut-off valve for the cleaned liquid, means for bringing the shut-off valve for the cleaned liquid into the movement and nozzles for supplying and discharging purified liquid according to the invention, the valve further comprises a shut-off valve for the purified liquid, means for bringing the shut-off valve about the valve of the liquid being cleaned in motion is made interfaced with a shut-off valve of the purified liquid with the possibility of providing a proactive forced opening of the valve of the purified liquid when the shut-off valve of the liquid to be cleaned is opened at the beginning of the filtering cycle and the corresponding subsequent forced closing of the valve of the purified liquid with respect to the moment of closing the valve of the liquid being cleaned at the end filtering cycle, and the shutoff valve of the liquid being cleaned is made in the form of a ball and its corresponding la or in the form of two ceramic disks with holes.

 To simplify the design of the valve, the means for bringing the shut-off valve of the liquid to be cleaned into motion is made in the form of a rotary rod, which is configured to force the shut-off valves to move when the rod is rotated about its axis, for which the rod is equipped with a handle for turning it.

 For reliable opening and closing of the tap, the means for driving the shut-off valve of the liquid to be cleaned in motion further comprises means for limiting the amplitude of movement of the shut-off valve of the liquid to be cleaned in motion, made, for example, in the form of a pin installed in the housing and a corresponding groove in the rod.

 To ensure compulsory timely opening of the shutoff valve of the cleaned liquid, the means for setting the shutoff valve of the cleaned liquid in motion is made in the form of a protrusion with a flat on the end of the stem and a corresponding protrusion on the shutoff valve of the cleaned liquid or in the form of a pin protruding downward from the end of the stem, offset downward relative to the axis of the stem , and its corresponding protrusion on the shutoff valve of the purified liquid.

 To ensure the integrity of the filter in case of an accidental increase in pressure in it, the shutoff valve of the cleaned liquid is made with the additional possibility of providing the function of a safety valve by the possibility of its automatic opening when the pressure of the cleaned liquid exceeds a predetermined value.

 The valve further comprises sealing means, made, for example, in the form of sealing gaskets, and further comprises a sealing control means, made, for example, in the form of corresponding holes in the valve body.

 To simplify the design and simplify installation, the valve body is additionally equipped with a base with means for attaching to it nozzles for supplying and discharging the cleaned liquid and a nozzle for supplying purified liquid.

 The goal and the required technical result when using the inventions are also achieved by the fact that in the device for filtering liquid purification, containing a filter, a pipe for supplying the liquid to be cleaned to the filter, a pipe for removing the purified liquid and a valve with a shut-off valve, according to the invention, the filter device contains a valve of the above construction .

The invention is illustrated by drawings:
in FIG. 1 shows a general view of a basic embodiment of a device for filtering liquid purification with a tap according to the invention and, accordingly, a diagram of an implementation of a new method of filtering purification;
in FIG. 2 and 3 show a General view of the crane in front and side;
in FIG. 4 is a sectional view of the crane along the plane AA in FIG. 3;
in FIG. 5, 6 and 7 are cross-sections of individual structural components of the crane along the BB, B-B and G-D planes in FIG. 4;
in FIG. 8 and 9 show a general front and side view of an embodiment of a crane;
in FIG. 10 is a cross-sectional view of the crane along the DD plane in FIG. nine;
in FIG. 11, 12 and 13 are sections of individual structural units of the embodiment of the crane along the planes EE, II and IJ in FIG. ten.

 A method of filtering liquid purification is implemented, and the crane and device for filtering liquid purification operate as follows (Fig. 1). To the pressure pipe 1 is connected the pipe of the liquid being cleaned 2, which in turn is connected to the pipe for supplying the liquid to be cleaned 3 on the faucet 4, which is installed on the sink 9 (Fig. 1).

 When the tap 4 is opened, the liquid to be cleaned through the pipe for supplying the liquid to be cleaned 3, the shut-off valve of the liquid to be cleaned, the pipe for discharge of the purified liquid 5 enters the filter 6 under the influence of the pressure of the water supply system, is filtered in the filter and is freely drained into the container through the pipes of the supply 7 and drain 8 collecting purified liquid placed in the sink (sink) 9 (Fig. 1).

 At the same time, ordinary water distribution means (mixers, uncleaned liquid discharge pipes) 10 with the corresponding ordinary water taps 11 can be used for their intended purpose in the usual mode of water use.

 The faucet 4 is mounted on the sink (sink) 9 (Fig. 1, 2, 3, 8, 9), and all other elements of the filter system are located under the sink (sink) 9.

 For ease of manufacture and installation of the crane 4, the crane body 12 is made collapsible and provided with a crane base 13 connected to the crane body 12 with screws (not shown in the drawings). On the basis of the tap 13 there is attached a pipe 3 for supplying purified water to a tap 4 (FIG. 2), a pipe for removing cleaned liquid 5 to a filter 6, a pipe 7 for supplying purified liquid 7. A pipe for removing (pouring) purified liquid 8 is installed in the valve body 12.

 Inside the crane 4, a rotary rod 16 is installed with sealing gaskets (rubber rings) 21, 22 and 23 and a handle 17 (Fig. 4, 7).

 On the left end of the rod 16 there is a protrusion 19 with a flat (Fig. 4, 7).

 In the middle part of the rod 16 there is a flange 18 (Figs. 4 and 6) and a figured groove 30 (Fig. 5), in which a part of the pin 29 is located, which is installed in the hole of the crane body 12.

 Between the body of the crane 12 and the base of the valve 13, directly above the nozzle for supplying the liquid to be cleaned, a shut-off valve for the liquid to be cleaned is installed 14, made, for example, in the form of a ball 14 (Fig. 3) and its corresponding seat 24 or in the form of two ceramic plates 34 and 36 (Fig. . 10, 13).

 In the opening of the valve body 12 there is a protrusion 20 and pressed with its seal to the seat 25, the shutoff valve of the cleaned liquid 15 with a spring 27 resting against one end of the valve and the other end into the fitting 26, screwed with a seal into the valve body 12.

 The nozzle 26 is inserted with a seal pipe outlet of the purified fluid 8.

 In the housing of the crane 12 between the seals 22 and 23, a drainage hole 28 is made.

 The crane in FIG. 1-11 is shown in the closed position.

 Bringing the shut-off valves of the cleaned 14 and cleaned 15 fluid into the forced movement is provided by turning the rod 16 by means of the handle 17.

 The movement of the shutoff valve of the cleaned liquid 14 is provided, for example, due to the corresponding flat (notch) 18 on the rotary rod 16. At the same time, at the beginning of the rotation of the rod 16, the right side of the flat on the protrusion 19 reaches the protrusion 20 on the valve of the cleaned liquid 15 and, overcoming the resistance springs 27, begins to lift the valve of the cleaned liquid 15 above the seat 25. With a further turn of the handle 17, the flat 18 on the rod 16 is above the ball 16 and under the influence of water flow the ball rises above the seat 24 and water along the flat 18, boring and drilling in the housing 12 is sent through the pipe 5 to the inlet of the filter 6. After filtering, water is sent through the pipe 7 to the tap 4 and through the open valve of the purified liquid 15, through its radial holes and spring 27 through the pipe of the outlet of the purified liquid 8 is drained (poured) into the tank for purified water (Fig. 1).

 At the end of the filtering cycle, the handle 17 of the rod 16 is turned back to a horizontal position. At the same time, at the beginning of the turn, the flange 18 of the rod 16 leaves the ball 14 and it is pressed by the cylindrical surface of the rod 16 to the seat 24, thereby blocking the fluid supply from the network to the filter, and then the flange on the protrusion 19 of the rod 16 moves away from the protrusion 20 on the valve purified liquid and it is under the action of the spring 27 is pressed by its seal to the seat 25 of the valve body 12.

 Since the force of the spring 27 is designed in such a way that the valve of the purified liquid 15 in the closed position withstands the residual pressure at the inlet of the filter 6 (as well as the pressure of the water-air mixture during the temperature expansion of the water), the flow of purified water from the outlet pipe of the purified liquid 8 stops almost immediately and no subsequent leakage of water droplets from the outlet pipe of the purified liquid 8 is not observed. In this case, after closing the tap 4, the network pressure of the water supply network does not affect the filter.

 Thus, the design of the faucet 4 provides a solution to the tasks - pressure relief from the filter in between filtering cycles and the absence of dripping water from a closed tap.

 Proactive forced opening of the shut-off valve of the cleaned liquid 15 with respect to the moment of opening the shut-off valve of the cleaned liquid 14 at the beginning of the filtering cycle, as well as the corresponding proactive forced closure of the shut-off valve of the cleaned liquid 14 at the end of the filtering cycle is provided by the corresponding projection with the flat 19 on the end face of the rotary rod 16 and the corresponding protrusion 20 on the shutoff valve of the purified liquid 15 (Fig. 4,6,7).

 To seal the rotary rod 16, a sealing gasket 21 is installed on it from the side of the handle 17. The integrity of this sealing gasket 21 can be controlled by leakage of fluid on the valve body 12 from the side of the handle 17.

 To seal the areas of valve location of the cleaned and purified liquid from each other and to exclude the possibility of untreated liquid entering the purified liquid, two sealing gaskets 22 and 23 are installed on the rotary rod 16.

 To control the integrity of the strip 22 in the valve body, a through hole 28 is made.

 Sealing the shut-off valve of the liquid being cleaned in the closed position is ensured by the corresponding sealing gasket 24. If the integrity of the seal 24 is violated, untreated water can enter the filter and, having passed it and overcoming the resistance of the safety spring 20 of the valve of the purified liquid 15, will merge through the outlet of the purified liquid 8. Thus Thus, the outflow of purified liquid with a closed tap indicates a violation of the integrity of the gasket 24. In this case, the pressure in the filter is automatically maintained below network pressure.

 The sealing of the shut-off valve of the cleaned liquid 15 in the closed position is provided by the corresponding sealing gasket installed on it and interacting with the seat 15 of the housing 12.

 The shutoff valve of the cleaned liquid 15 is installed on the cylindrical neck of the fitting 26, which also has a pipe for removing the cleaned liquid 8 and a sealing gasket.

 To enable the shut-off valve of the purified liquid 15 to function as a safety valve and to ensure that the valve opens automatically when the pressure of the cleaned liquid is higher than the set inside the shut-off valve of the cleaned liquid 15, a spring 27 is installed, and through holes are made in the side of the cleaned liquid valve (Fig. 4 , 7).

 To limit the degree of rotation of the rod 16 and the corresponding restriction of the movement of the valves in the rod 16, a movement restriction means is made in the form of a figured groove 30 and a pin 29 installed in the opening of the valve body 12 (Fig. 4, 5).

 Features of the crane design provide for the proactive opening of the shut-off valve of the cleaned liquid 15 with respect to the moment of opening the shut-off valve of the cleaned liquid 14 at the beginning of the filtering cycle, as well as the corresponding pre-emptive closing of the shut-off valve of the cleaned liquid 14 at the end of the filtering cycle, and the safety valve can be completely eliminated the possibility of increasing the pressure in the filter, which in turn increases the reliability of the design of the device and guarantees Bathing the quality of its operation.

 Due to the limited life of traditional rubber seals, the crane design provides diagnostic tools for all seal elements.

 If the seal is damaged on the valve of the cleaned liquid 15 after closing the tap, phenomena characteristic of its prototype, a Touch-Flo tap, will be observed, that is, after closing the tap (if the seal is damaged), subsequent outflow and dropping from the outlet of the cleaned liquid 8 is possible.

 If the seal 21 is damaged on the stem 16, fluid leakage will occur on the surface of the stem 16 to the outside of the valve.

 If the seal 22 is damaged on the stem 16, which serves to separate the cavities of the cleaned and purified liquid, the penetration of the crude liquid into the cleaned liquid is excluded by the presence of the second seal 23 and a special drain hole 28 in the valve body 12, from which in this case the liquid will leak out and thereby signal damage to the seal.

 Damage to the gasket 23 causes the same consequences.

 Thus, the design features of the crane allow the consumer to control possible malfunctions of the wear seals, which increases the reliability of the entire filtration cleaning system.

 In FIG. Figures 8 and 9 show an embodiment of the crane, in which, while maintaining the basic principles of the construction functioning described above, the housing 31, the base of the housing 32 are contained, and the shut-off valve of the liquid being cleaned is made in the form of two ceramic disks - stationary 34 and movable 36 (Fig. 10 ), pressed along the end by an elastic ring 35.

 The rotation of the movable disk 36 through the elastic drive washer 37 is carried out by the rod 33 with a handle installed in the housing 31 and having sealing rings 38, 39, 40 and a shaped groove with a pin 44 installed in the hole of the housing 31 and locking the rod 33 relative to the housing in the axial direction and restricting the angle of rotation of the rod 33 (Fig. 12).

 In addition, a step is made on the stem 33 to control the valve of the purified liquid 42, which is affected by the spring 43 (Fig. 11).

 The use of ceramic pairs in the shutoff valve of the liquid being cleaned increases the reliability and durability of the filtration system.

 Specific dimensions and individual design parameters of the filter, tap, and means for connecting the filter and tap to the water main can be selected by specialists depending on the purpose and performance of the filtration treatment device and design and operational features of the water supply network.

 Practically any materials known and used in filtration technology, as well as well-known assembly and installation technologies, can be used as structural materials.

 The above detailed descriptions of the design of the crane and the individual structural elements of the filtering device as a whole leave no doubt about their feasibility - the materials and individual structural elements are known to specialists and are well-mastered by modern engineering and technology.

 Thus, there is every reason to assert that the inventions of the group meet all the requirements of the eligibility criteria, and the analysis also shows that all the general and particular features of the inventions are essential, since each of them is necessary, and together they are not only sufficient to achieve the goal inventions, but also allow you to implement the invention in an industrial way.

 In addition, the set of essential features of the inventions of the group and the uniform technical result achieved by using them shows the presence of a single inventive concept, the close and inextricable connection between the inventions of the group and the intended use of the crane for a filtering liquid purification device, as well as their intended use directly for implementing the filtering liquid purification method. This allows you to combine the three inventions in one application.

Sources of information
1. US patent N 5127427.

 2. Catalog of the company "Touch-Flo" (Burbank, California, USA) (prototype).

Claims (14)

 1. The method of filtration purification of a liquid, mainly water in a domestic environment, by supplying a liquid to be cleaned from the pressure pipe to the filter by opening the shut-off valve of the liquid to be cleaned, creating a hydraulic pressure at the inlet of the filter and draining the purified liquid, characterized in that the drainage pipe for the purified liquid is additionally the purified liquid shut-off valve is installed, at the beginning of the filtration cycle, the purified liquid shut-off valve is first opened and then the shut-off valve is opened th valve of the liquid to be cleaned, at the end of the filtration cycle, first close the valve of the liquid to be cleaned, and then close the valve of the liquid to be cleaned, and to prevent the opening of the valve of the liquid to be cleaned and then open the valve of the liquid to be cleaned at the beginning of the filtering cycle, as well as to prevent the closing of the valve of the liquid being cleaned liquid and the subsequent closing of the shutoff valve of the purified liquid at the end of the filtering cycle is carried out by means of a single means of forced actuating the shut-off valves located inside the crane of the corresponding design and made in the form of a rotary rod.  2. The method according to claim 1, characterized in that the shut-off valve of the purified liquid is performed with the additional possibility of performing the function of a safety valve by allowing it to automatically open when the pressure of the purified liquid is higher than a predetermined value.  3. The method according to claim 1, characterized in that the means for forcing the shut-off valves to move additionally place means for monitoring the sealing means of the liquid being cleaned, made, for example, in the form of corresponding holes in the housing.  4. A crane for a filtering device for purifying a liquid, mainly water in a domestic environment, comprising a housing, nozzles for supplying and discharging a liquid to be cleaned, a shut-off valve for a liquid to be cleaned, means for bringing a shut-off valve for a liquid to be cleaned into motion, and nozzles for supplying and discharging a purified liquid, characterized in that the valve further comprises a shut-off valve of the purified liquid and means for driving it, and a means of bringing the shut-off valve of the liquid to be cleaned in motion is made mating with the shut-off valves m valve of cleaned liquid with the ability to provide proactive forced opening of the valve of cleaned liquid when opening the shutoff valve of the cleaned liquid at the beginning of the filtering cycle and the corresponding subsequent forced closing of the cleaned liquid valve with respect to the moment of closing the valve of cleaned liquid at the end of the filtering cycle.  5. The tap according to claim 4, characterized in that the shutoff valve of the liquid being cleaned is made in the form of a ball and its corresponding seat or in the form of two ceramic disks with holes.  6. The crane according to claim 4, characterized in that the means for bringing the shut-off valve of the liquid to be cleaned into motion is made in the form of a rod, configured to force the shut-off valves to move when the rod is rotated about its axis.  7. The crane according to claim 6, characterized in that the rod is equipped with a handle made with the possibility of rotation of the rod in the working position.  8. The crane according to claims 4 to 7, characterized in that the means for bringing the shut-off valve of the liquid to be cleaned into motion further comprises means for limiting the amplitude of movement of the shut-off valve of the liquid to be cleaned in motion, made, for example, in the form of a pin installed in the housing and a corresponding groove in the rod .  9. The crane according to claims 4 to 7, characterized in that the means for bringing the purified liquid shut-off valve into motion is made in the form of a protrusion with a flat on the end of the rod and a corresponding protrusion on the purified liquid shut-off valve or in the form of a pin protruding from the end of the rod, displaced downward relative to the axis of the rod, and the corresponding protrusion on the shutoff valve of the purified liquid.  10. The tap according to claims 4 to 9, characterized in that the purified liquid shut-off valve is made with the additional possibility of ensuring that the safety valve functions as it opens automatically when the pressure of the purified liquid exceeds a predetermined value.  11. The crane according to paragraphs. 4 to 10, characterized in that it further comprises a means of sealing, made, for example, in the form of gaskets.  12. The crane according to claim 11, characterized in that it further comprises sealing control means, made, for example, in the form of corresponding holes in the valve body.  13. The tap according to claims 4-12, characterized in that the tap body is further provided with a base with means for attaching to it nozzles for supplying and discharging the liquid to be cleaned and a nozzle for supplying the purified liquid.  14. A device for filtering liquid purification, comprising a filter, a pipeline for supplying a liquid to be cleaned to the filter, a pipeline for removing purified liquid and a tap with a shut-off valve, characterized in that the filtering device comprises a tap according to claims 4 to 13.

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