Liquid purification device

Abstract

The invention belongs to liquid predominantly to water purification devices which are used as off line units in household, outdoors, in the village and service departments. Particularly the given invention is in the filed of pressure off-line units.

The invention can be used for water purification and other liquids of household use, in medicine and other branches of industry.

Liquid purification device, operating under gas pressure and containing raw liquid vessel with the spout, lid, filtration cartridge, purified liquid vessel, output purified liquid means, the gas injection block, connected to raw liquid vessel, and containing gas injection means, control panel and power supply, characterized in that the liquid purification device is capable of at least two stage opening of the lid and the pressure relief down to atmospheric is on the first stage.

Claims

1. Liquid purification device, operating under gas pressure and containing raw liquid vessel with the spout, lid, filtration cartridge, purified liquid vessel, output purified liquid means, the gas injection block, connected to raw liquid vessel, and containing gas injection means, control panel and power supply, characterized in that the liquid purification device is capable of at least two stage opening of the lid and the pressure relief down to atmospheric is on the first stage.

2. The liquid purification device according to claim 1, characterized in that the lid contains the base and the upper part, placed in the body frame.

3. The liquid purification device according to claim 1, characterized in that it contains the closure member.

4. The liquid purification device according to claim 3, characterized in that closure member may be formed when spout and lid are connected.

5. The liquid purification device according to claim 1, characterized, in that there is a screw-thread on the spout of the raw liquid vessel.

6. The liquid purification device according to claim 5, characterized in that there is at least one ledge on each turn of thread, the length of the ledge is at least a part of the length of the turn of thread.

7. The liquid purification device according to claim 2, characterized in that the upper part of the lid can be made as flip-top.

8. The liquid purification device according to claim 7, characterized in that flip-top is made with the clamping device.

9. The liquid purification device according to claim 3, characterized in that the closure member may be formed by at least one ledge made in the base of the lid and at least one projection, made on the flip top clamping device.

10. The liquid purification device according to claim 2, characterized in that the clamping device may be formed by the latches, made on the lower surface of the flip top and the grooves, made in the base of the lid.

11. The liquid purification device according to claim 2, characterized in that the spring valve is made in the flip-top, the spring valve is connected to the raw liquid vessel.

12. The liquid purification device according to claim 4, characterized in that lid may be equipped with lift velocity restriction means, acting as microlift and made as a joint, connecting the upper part of lid with its base.

13. The liquid purification device according to claim 4, characterized in that there is a disk in the upper part of lid, the disk is equipped with the sealing element.

14. The liquid purification device according to claim 1, characterized in that it is equipped with the gas injection means switch made as the level sensor contacting with control panel.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0016] FIG. 1 depicts the liquid purification device.

[0017] FIG. 2 depicts the spout of the raw liquid vessel and the lid.

[0018] FIG. 3 depicts the lid with rotating disk in the upper part.

[0019] FIG. 4 depicts the lid with the closure member, formed by flip-top and the base of the lid.

[0020] Note: by the term flip-top it is understood the flap edging part of the lid.

[0021] FIG. 5 depicts the closure element, formed by the ledge of the flip-top clamping device and the protrusion of the base of the lid.

[0022] FIG. 6 depicts lift velocity restriction means.

[0023] FIG. 7 depicts the closure member formed by spring valve, flip-top latches and grooves of the base of the lid.

DESCRIPTION

[0024] The liquid purification device 1 contains raw liquid vessel 2, lid 3, purified liquid vessel 4, filtration cartridge 5, output purified liquid means 7, the gas injection block (not presented in the figures), connected to raw liquid vessel 2 (FIG. 1).

[0025] Also the device 1 may be equipped with handle 6 (FIG. 1). Also cavities, located symmetrically from each other on the side walls of the purified liquid vessel 4 can be used as a handle (not presented in the figures).

[0026] The vessel 2 for the raw liquid is made with the spout 8. There is a screw-thread on the spout (FIGS. 1 and 2). Each of at least three turns 9 of the screw-thread has at least one ledge 10. The length of the ledge 10 is at least a part of the length of the turn 9 of thread (FIG. 2). The vessel 2 for the raw liquid is connected with the lid 3, through the channel 39 (FIGS. 1, 3, 4, 7).

[0027] Lid 3 is made as removable part and consists of the frame 14, base 11 and the upper part 12 (FIGS. 2 and 3). The screw thread 13 is made along the perimeter of the side wall of the upper part 12 of the lid 3. Inner upper wall 15 of the upper part 12 may be made for example as a disk. On the inner wall 15 there is sealing element 16, made for example in the form of the gasket. The part of the frame of the lid 3 maybe made as a flip-top a 14 (FIG. 4).

[0028] The liquid purification device 1 is made with the closure element. Indicated closure element is necessary to ease the depressurization of the liquid purification device on the first step of the opening of the lid.

[0029] The closure member maybe formed when the lid 3 and the spout 8 of the raw liquid vessel 2 are connected together (FIG. 2). As it was said before, on the turns 9 of the screw thread of the spout 8 there are ledges 10 (FIG. 2), on the inner side wall of the lid 3 there is a screw thread 13 (FIG. 3). Because of such construction of the upper part 12 of the lid 3 the disk is capable to rotate. This is necessary when the lid 3 is opened and closed the gasket 16 will not dislodge and undergo the friction.

[0030] In case when the part of the frame 14 of the lid 3 is made in the form of flip-top 14, the lid 3 maybe equipped with the lift velocity restriction means 20. The indicated means 20 maybe formed in the spot where the flip-top 14 is connected to the base 11 of the lid 3. There is a horizontal pillar in the base 11 of the lid 3. The pillar is placed in the case 22, the length of the case 22 is 22 somewhat less, then the length of the pillar 21. The case 22 envelopes the central part of the pillar 21, leaving the ledges at both sides. The flip-top 14 is set on these ledges. So the joint is formed between flip-top 14 and the base 11 of the lid 3. The lift velocity restriction means 20 of the lid 3 acts as a microlift due to the springs 23, set in a pillar 22 (FIG. 5).

[0031] The closure element may be also formed by at least one ledge 17, made in the base 11 of the lid 3, and at least, one protrusion 18, made in the clamping device 19 of the flip top 14 (FIG. 5 A-C).

[0032] Also the closure member maybe formed by the latches 32, made on the lower part of the flip-top 14 and grooves 33, made on the base 11 of the lid 3. (FIG. 7). At the same time there is a spring valve on the flip-top 14. The spring valve is placed in the case 34 and has a pillar 35, and the sealing ring 36 set on the pillar 36 and the spring 37. There is a button 38 on a flip-top 14. The case 35 of the valve is made so that the inner space of the valve is connected with the channel 39, and so with the raw liquid vessel 2.

[0033] The gas injection block includes gas injection means 24, the control panel 25 and power supply 26 (FIGS. 1 and 3). The gas injection block may be placed in a lid 3 in its base 11 of the lid 3, or partly in the base 11 of the lid 3 and partly in a flip-top 14. For example, the gas injection means 24 may be placed in a case 22 of the lid 3 lift velocity restriction means 20, and the control panel 25 under the frame 14 of the flip top 14 (FIG. 4). All other elements are placed in base 11 of the lid 3 (FIG. 1, 3, 4). The gas injection means 24 may be made as pneumatic pressurizer 24, for example, microcompressor, connected through the joint element to the raw liquid vessel. Gas injection means 24 is connected to the gas supply means, for example, to the ambient air.

[0034] Also the gas injection means 24 may be made as a manually controlled pump, for example, pomp or displacement pump (not depicted in the figures).

[0035] The control panel 25, may be made as microcontroller, containing volatile memory, realtime counter and evaluator. Control panel 25 may be placed under the frame 14 on the base 11 of the lid 3 (FIG. 1, 2,) or in the handle 6 (not depicted in the figures) of the liquid purification device.

[0036] In case, if the gas injection means 24 is made as manually controlled pump, the control panel 25 may be made as a piston or as a button to pump the air inside the raw liquid vessel 2.

[0037] The power supply 26 maybe placed for example in the base 11 (FIGS. 1 and 3) or in the handle 6 (not depicted in the figures) of the liquid purification device 1. The power supply 26 can be the for example battery power or accumulator battery.

[0038] The connection between elements of the gas injection block is the following. The power supply 26 is connected to the input of the control panel 25, the output of the control panel 25 is connected to the gas injection means 24, the output of which is connected to the raw liquid vessel 2.

[0039] The filtration cartridge 5 consists of the body 28 (FIG. 1) where at least one filtration element is placed (not depicted in the figures). Filtration element may be a thick sorbent mixture on the bases of highly effective finely dispersed adsorbents, for example, powdered activated carbon, ion exchange resins of different dispersion, ion exchange fibers, activated carbon fibers. In addition filtration element may include porous microfilter or net with the pore size from 0.4 to 20 mkm to protect water from particles with diameter from 0.4 to 20 mkm, for example, bacteriaEscherichia coli, Shigella dysenteriae, cyst of lamblia.

[0040] Or for example two additional filtration elements may be placed inside the filtration element 5 body 28. One of them can be placed inside the filtration element with the sorbtion mixture, and can be for example a hollow fiber module or carbon element. The third filtration element may be placed in the bottom of the second filtration element to avoid the infection of the hollow fiber module. The third filter element may be filled with for example activated carbon.

[0041] In this case the filtration element 5 may have the tube 27 for purified water output. The tube 27 is placed in the upper part of the filtration cartridge 5. above the purified liquid level in the purified liquid vessel 4 after the filtration of liquid is finished. (FIG. 1).

[0042] The tube 27, may be molded as a part of body 28 of the filtration cartridge 5 (FIG. 1).

[0043] Also the claimed liquid purification device 1 is equipped with the switch button (not depicted in the figures), which maybe placed in the base 11 or in the frame 14 of the lid 3, or in the handle 6.

[0044] The claimed liquid purification device 1 is equipped with the gas injection block cut-off means. The cut-off means may be made as a level sensor 29, contacting with the control panel 25, where the immovable sensor 30 is placed. The level sensor 29 may be a float sensor. The immovable sensor 30 may be for example a Hall sensor or reed switch.

[0045] The liquid purification device 1 functions as follows.

[0046] The lid 3 is opened. The raw liquid is poured through the spout 8 into the raw liquid vessel 2. Then the lid 3 is closed. The device 1 is switched with the switch button (not depicted in the figures). The gas injection block begins to inject gas into raw liquid vessel 2: if the gas injection device 24 is a pneumatic pressurizer, this is done automatically, if it is a manually operated pump or a piston this is done manually. Under gas positive pressure liquid starts to flow into filtration cartridge 5. Purified liquid is collected in the purified liquid vessel 4. In case when the gas injection means 24 is a pneumatic pressurizer when liquid level in the raw liquid vessel 2 falls down to its minimal value contact between float-type sensor 29 and immovable sensor 30 is closed and at the same time the control panel 25 sends switches off the pneumatic pressurizer 24.

[0047] The pressure in the liquid purification device 1 falls to the atmospheric. The lid 3 maybe easily put off from the raw liquid vessel. But there are some cases when user has to put the lid 3 off when the device 1 is under pressure, for example, during filtration process or when the control panel 25 will not be able to switch off the gas injection block. To open the lid 3 when the device 1 is under pressure may be dangerous as the lid 3 can be thrown away and can hurt the user. Compared to the closest analogue the claimed device let the user put the lid 3 off safely, even when the device 1 is under pressure.

[0048] The opening of the lid 3 is done in two steps. On the first step the device 1 is depressurized. It is possible due to the closure member or the lid 3 lift velocity restriction means 20. When the closure member is formed by ledges 10 on the turns 9 of the screw thread of the spout 8 and screw thread 13 made in the lid 3 and the lid 3 is turned. At first the surface of the turn of the lid 3 slides along the surface of the turn 9 of the spout of the lid 3 gradually opening the raw liquid vessel 2. The pressure is reduced, but the turn 9 of the lid 3 is engaged with the protrusion 10, made on the turn on the spout 8, so the lid 3 is retained on the spout 8, and the user can easily and safely open the lid 3 on the second stage. The same process takes place if the closure member is formed by the ledge 17 on the inner wall of the base 8 of the lid 3 and projection 18 on the flip-top 14 clamping 19. When the button (not depicted in the figures), which is in the outer wall of the flip-top 14, the ledge 18 of the clamping device 19 moves out of the clamp of the projection 18 of the base 8. The lid 3 lift velocity restriction means 20 act as a microlift. When user pushes the button (not depicted in the figures) the lid 3 lift velocity restriction means 20 gradually opens the flip-top 14, so the pressure is gradually decreased within a certain period of time.

[0049] When there is a spring valve in the flip-top 14 user presses the button 38 and latches 32 move out of the grooves 33 and the side wall of the button 38 begins to press the pillar 36, compressing the spring 37, the sealing ring 36 moves away from the frame, opening the hole for the air outlet. So depressurization of the liquid purification device takes place on the first stage. After this the user may easily, safely and fully open the lidthe second stage of the lid opening.

[0050] From what has been said it is seen that the lid 3 opening and the depressurization, is done safely for the user. Construction of the lid 3 is easy to use. Besides the lid 3 can be taken off together with the gas injection means, where the microcontroller and micropump are placed. So the raw liquid purification vessel 2 can be washed without damaging the control panel 25 and pneumatic pressurizer 26.

[0051] In the description of the invention the preferable embodiment is given. The invention maybe changed, but within the limits of the present claims. This gives the possibility of its common use.