CN214031964U - High-purity water equipment with high-efficient filter equipment - Google Patents

Abstract

The utility model discloses a high pure water equipment with high-efficient filter equipment, including equipment shell and retaining storehouse, the below of stripper plate is provided with the retaining storehouse, and the internally mounted in retaining storehouse has the osmotic membrane, the water service pipe is installed to the below in retaining storehouse, and the below of water service pipe is connected with the suction pump, the right side of suction pump is connected with the outlet pipe, and the right side of outlet pipe installs and crosses the filter bin, cross the internally mounted in filter bin and have the heating wire, and the internally mounted of heating wire has a filter core section of thick bamboo, the apron of intaking is installed to the top of a filter core section of thick bamboo, and the internally mounted who crosses a filter core section of thick bamboo has the filter screen, the apron of exhaling water is installed to the below of a filter core section of thick bamboo, and the below of exhaling water apron is connected with the delivery port. In this kind of high pure water equipment with high efficiency filter equipment, through the water service pipe that sets up, can be with the water after filtering through the osmotic membrane by the pump to the outlet pipe that draws water to make water flow out in the retaining storehouse fast, prevent that the appearance of reverse osmosis from appearing through the osmotic membrane in the water.

Description

High-purity water equipment with high-efficient filter equipment

Technical Field

The utility model relates to a pure water equipment technical field specifically is a high pure water equipment with high-efficient filter equipment.

Background

A reverse osmosis membrane technology is generally used in a water purification plant. The working principle of the device is that a certain pressure is applied to water, so that water molecules and ionic mineral elements pass through a reverse osmosis membrane, and most of inorganic salts (including heavy metals), organic matters, bacteria, viruses and the like dissolved in the water cannot permeate through the reverse osmosis membrane, so that the permeated pure water and the non-permeated concentrated water are strictly separated; the diameter of the reverse osmosis membrane is only 0.0001 micron, while the diameter of the virus is generally 0.02-0.4 micron, and the diameter of the common bacteria is 0.4-1 micron.

Current pure water equipment in use, the speed efficiency of drainage hardly matches with the efficiency of purification water, can lead to water to be detained in equipment, and water can ooze equipment through the water inlet when the purification moreover, and it is troublesome to bring unnecessary for the user equipment, can also appear rivers reverse infiltration's phenomenon when water passes through the osmotic membrane purification, and the user demand who satisfies people that can not be fine carries out technical innovation to above-mentioned condition on current pure water equipment basis.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high pure water equipment with high-efficient filter equipment to propose current pure water equipment in use in solving above-mentioned background art, the speed efficiency of drainage hardly matches with the efficiency of purification water, can lead to water to be detained in equipment, and water can ooze equipment through the water inlet when the purification moreover, can bring unnecessary trouble for the user equipment, the phenomenon that rivers reverse osmosis still can appear when water purifies through the osmotic membrane, the user demand problem of satisfying people that can not be fine.

In order to achieve the above object, the utility model provides a following technical scheme: a high-purity water equipment with a high-efficiency filtering device comprises an equipment shell and a water storage bin, wherein a thread track is arranged above the equipment shell, a sealing top cover is arranged above the thread track, a pressure pump is arranged inside the sealing top cover, an extrusion plate is arranged below the pressure pump, a water storage bin is arranged below the extrusion plate, an osmotic membrane is arranged inside the water storage bin, a water service pipe is arranged below the water storage bin, a water suction pump is connected below the water service pipe, a water outlet pipe is connected to the right side of the water suction pump, a filtering bin is arranged on the right side of the water outlet pipe, a heating wire is arranged inside the filtering bin, a filtering core barrel is arranged inside the heating wire, a water inlet cover plate is arranged above the filtering core barrel, a filtering screen is arranged inside the filtering core barrel, a water outlet cover plate is arranged below the filtering core barrel, and a water outlet is connected below the water outlet cover plate.

Preferably, threaded connection is adopted between the sealing top cover and the threaded rail, the sealing top cover forms a sealing structure with the equipment shell through the threaded rail, and the end face structure of the sealing top cover is a T-shaped structure.

Preferably, the extrusion plate and the sealing top cover form a telescopic structure through the pressure pump, and the size of the extrusion plate is matched with that of the water storage bin.

Preferably, closely laminating between osmotic membrane and the retaining storehouse inner wall, and constitute the card structure between osmotic membrane and the retaining storehouse to constitute the intercommunication structure between water service pipe and the retaining storehouse inside.

Preferably, the heating wire is spirally distributed along the inner part of the filter bin at equal intervals, a communicating structure is formed between the water outlet pipe and the filter bin, and the end surface structure of the filter bin is of a circular ring structure.

Preferably, the water inlet cover plate and the water outlet cover plate are symmetrical about the central line of the filter screen, the filter screen is in adhesive connection with the filter element cylinder, and a sliding structure is formed between the filter element cylinder and the filter bin.

Compared with the prior art, the beneficial effects of the utility model are as follows: through the arranged sealing top cover, the sealing top cover can be connected with the equipment shell through the thread track, so that the joint of the sealing top cover and the equipment shell is sealed, the water in the water storage bin is prevented from seeping out from the joint when the equipment applies pressure to the water storage bin, thereby playing a role of sealing protection, through the arranged extrusion plate, the water can be moved in the water storage bin in a telescopic way through the pressure pump, so that the pressure in the water storage bin is changed, the water in the water storage bin is extruded to pass through the permeable membrane, thereby playing a role of changing the internal pressure of the water storage bin, through the arranged water pipe, the water filtered through the permeable membrane can be pumped to the water outlet pipe by the water pump, thereby the water can rapidly flow out from the water storage bin, the appearance of reverse osmosis of the water through the permeable membrane is prevented, thereby the adverse effect of the reverse osmosis of the water backflow to the operation of the equipment is prevented, through the arranged electric heating wire, the temperature of the filter bin can be improved, thereby make the temperature of water promote, make the moisture motion aggravation to improve the efficiency of device drainage, prevent that purification speed from not matching with filter speed and leading to water to let out in the water storage storehouse and stay, through the filter screen that sets up, the drainage can get into in the filter element section of thick bamboo through the apron that intakes, when rivers flow downwards, can be filtered by the filter screen, and the water after the filtration is through going out the apron and discharging to the delivery port, thereby carries out the secondary filter purification to water.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the seal top cover of the present invention;

FIG. 3 is a schematic view of the structure of the filter cartridge of the present invention;

FIG. 4 is a schematic view of a partial enlarged structure at A in FIG. 1 according to the present invention;

fig. 5 is a schematic view of a part of the enlarged structure at B in fig. 1 according to the present invention.

In the figure: 1. an equipment housing; 2. a threaded track; 3. sealing the top cover; 4. a pressure pump; 5. a pressing plate; 6. a water storage bin; 7. a permeable membrane; 8. a water pipe; 9. a water pump; 10. a water outlet pipe; 11. a filtering bin; 12. an electric heating wire; 13. a filter cartridge; 14. a water inlet cover plate; 15. a filter screen; 16. a water outlet cover plate; 17. and (7) a water outlet.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a high-purity water equipment with a high-efficiency filtering device comprises an equipment shell 1 and a water storage bin 6, wherein a thread track 2 is arranged above the equipment shell 1, a sealing top cover 3 is arranged above the thread track 2, a pressure pump 4 is arranged inside the sealing top cover 3, an extrusion plate 5 is arranged below the pressure pump 4, the water storage bin 6 is arranged below the extrusion plate 5, an osmotic membrane 7 is arranged inside the water storage bin 6, a water pipe 8 is arranged below the water storage bin 6, a water suction pump 9 is connected below the water pipe 8, a water outlet pipe 10 is connected on the right side of the water suction pump 9, a filtering bin 11 is arranged on the right side of the water outlet pipe 10, a heating wire 12 is arranged inside the filtering bin 11, a filtering core cylinder 13 is arranged inside the heating wire 12, a water inlet cover plate 14 is arranged above the filtering core cylinder 13, a filtering screen 15 is arranged inside the filtering core cylinder 13, a water outlet cover plate 16 is arranged below the filtering core cylinder 13, and a water outlet 17 is connected below the water outlet cover plate 16.

The utility model discloses in: the sealing top cover 3 is in threaded connection with the threaded rail 2, the sealing top cover 3 forms a sealing structure with the equipment shell 1 through the threaded rail 2, and the end face structure of the sealing top cover 3 is of a T-shaped structure; the seal top cover 3 is connected with the equipment shell 1 through the thread track 2, so that the joint of the seal top cover 3 and the equipment shell 1 is sealed, and water in the water storage bin 6 is prevented from seeping out from the joint when the equipment applies pressure to the water storage bin 6.

The utility model discloses in: the extrusion plate 5 and the sealing top cover 3 form a telescopic structure through the pressure pump 4, and the sizes of the extrusion plate 5 and the water storage bin 6 are matched with each other; the extrusion plate 5 can move in the water storage bin 6 in a telescopic way through the pressure pump 4, so that the pressure in the water storage bin 6 is changed, and water in the water storage bin 6 is extruded to pass through the permeable membrane 7.

The utility model discloses in: the permeable membrane 7 is tightly attached to the inner wall of the water storage bin 6, a clamping structure is formed between the permeable membrane 7 and the water storage bin 6, and a communication structure is formed between the water pipe 8 and the interior of the water storage bin 6; the water filtered by the permeable membrane 7 is pumped to the water outlet pipe 10 from the water through pipe 8 by the water pump 9, so that the water flows out of the water storage bin 6 quickly, and the reverse osmosis of the water through the permeable membrane 7 is prevented.

The utility model discloses in: the electric heating wires 12 are spirally distributed along the interior of the filtering bin 11 at equal intervals, a communicating structure is formed between the water outlet pipe 10 and the filtering bin 11, and the end surface structure of the filtering bin 11 is a circular structure; the heating wire 12 can increase the temperature of the filter bin 11, so that the temperature of water is increased, the water movement is intensified, the efficiency of filtering water by the device is improved, and the water is prevented from leaking and remaining in the water storage bin 6 due to the fact that the purification speed and the filtering speed are not matched.

The utility model discloses in: the water inlet cover plate 14 and the water outlet cover plate 16 are symmetrical about the central line of the filter screen 15, the filter screen 15 is in adhesive connection with the filter element cylinder 13, and a sliding structure is formed between the filter element cylinder 13 and the filter bin 11; filtered water enters the filter element cylinder 13 through the water inlet cover plate 14, and when the water flows downwards, the filtered water is discharged to the water outlet 17 through the water outlet cover plate 16 after being filtered by the filter screen 15.

The working principle of the high-purity water equipment with the high-efficiency filtering device is as follows: firstly, pouring water into the water storage bin 6 from the upper part of the equipment shell 1, connecting the sealing top cover 3 with the equipment shell 1 through the threaded rail 2, connecting the sealing top cover 3 with the equipment shell 1, sealing the joint of the sealing top cover 3 and the equipment shell 1 through the threaded rail 2, and preventing the water in the water storage bin 6 from seeping out from the joint when the equipment applies pressure to the interior of the water storage bin 6; then, the pressure pump 4 is opened, the pressure pump 4 can enable the extrusion plate 5 to move in the water storage bin 6 in a stretching mode, so that the pressure in the water storage bin 6 is changed, and water in the water storage bin 6 is extruded to pass through the permeable membrane 7; meanwhile, the water suction pump 9 is started, and water filtered by the permeable membrane 7 is pumped to the water outlet pipe 10 from the water through pipe 8 by the water suction pump 9, so that the water flows out of the water storage bin 6 quickly, and the reverse osmosis of the water through the permeable membrane 7 is prevented; then, filtered water enters the filter element cylinder 13 through the water inlet cover plate 14, and when the water flows downwards, the filtered water is discharged to the water outlet 17 through the water outlet cover plate 16 after being filtered by the filter screen 15; finally, when the filtered water is discharged to the filter bin 11 through the water outlet pipe 10, the temperature of the filter bin 11 can be increased by the electric heating wire 12, so that the temperature of the water is increased, the movement of the water is aggravated, the efficiency of filtering the water by the device is improved, and the water is prevented from being leaked and reserved in the water storage bin 6 due to the fact that the purification speed and the filtering speed are not matched.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a high pure water equipment with high-efficient filter equipment, includes equipment casing (1) and retaining storehouse (6), its characterized in that: the device comprises a device shell (1), wherein a thread track (2) is arranged above the device shell (1), a sealing top cover (3) is arranged above the thread track (2), a pressure pump (4) is arranged inside the sealing top cover (3), an extrusion plate (5) is arranged below the pressure pump (4), a water storage bin (6) is arranged below the extrusion plate (5), an osmotic membrane (7) is arranged inside the water storage bin (6), a water service pipe (8) is arranged below the water storage bin (6), a water suction pump (9) is connected below the water service pipe (8), a water outlet pipe (10) is connected to the right side of the water suction pump (9), a filter bin (11) is arranged on the right side of the water outlet pipe (10), a heating wire (12) is arranged inside the filter bin (11), a filter core barrel (13) is arranged inside the water heating wire (12), a water inlet cover plate (14) is arranged above the filter core barrel (13), and a filter screen (15) is arranged in the filter element cylinder (13), a water outlet cover plate (16) is arranged below the filter element cylinder (13), and a water outlet (17) is connected below the water outlet cover plate (16).

2. The high-purity water equipment with the high-efficiency filtering device as claimed in claim 1, wherein: the sealing top cover (3) is in threaded connection with the threaded rail (2), the sealing top cover (3) forms a sealing structure with the equipment shell (1) through the threaded rail (2), and the end face structure of the sealing top cover (3) is of a T-shaped structure.

3. The high-purity water equipment with the high-efficiency filtering device as claimed in claim 1, wherein: the extrusion plate (5) forms a telescopic structure with the sealing top cover (3) through the pressure pump (4), and the sizes of the extrusion plate (5) and the water storage bin (6) are matched with each other.

4. The high-purity water equipment with the high-efficiency filtering device as claimed in claim 1, wherein: the permeable membrane (7) is tightly attached to the inner wall of the water storage bin (6), a clamping structure is formed between the permeable membrane (7) and the water storage bin (6), and a communicating structure is formed between the water through pipe (8) and the interior of the water storage bin (6).

5. The high-purity water equipment with the high-efficiency filtering device as claimed in claim 1, wherein: the heating wire (12) is spirally distributed along the inner part of the filter bin (11) at equal intervals, a communicating structure is formed between the water outlet pipe (10) and the filter bin (11), and the end surface structure of the filter bin (11) is of a circular ring-shaped structure.

6. The high-purity water equipment with the high-efficiency filtering device as claimed in claim 1, wherein: the water inlet cover plate (14) and the water outlet cover plate (16) are symmetrical about the center line of the filter screen (15), the filter screen (15) is in adhesive connection with the filter element cylinder (13), and a sliding structure is formed between the filter element cylinder (13) and the filter bin (11).

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