CN113526708A

CN113526708A - Water filter for water tower

Info

Publication number: CN113526708A
Application number: CN202110887681.8A
Authority: CN
Inventors: 游象扬
Original assignee: Kangde Nanotech Co ltd
Current assignee: Kangde Nanotech Co ltd
Priority date: 2021-08-03
Filing date: 2021-08-03
Publication date: 2021-10-22

Abstract

A water tower water filtration device comprising: a foot rest and a filter tube assembled in the foot rest. This water tower water filtering device installs in a water tower, and this foot rest opens the inside of propping up in this water tower, and this chimney filter is worn to overlap in this foot rest, and a inlet tube is connected at the top of this chimney filter, and this inlet tube is introduced water in this chimney filter, and the aperture of following this pore section of thick bamboo wall of this chimney filter after filtering through this filter media is released to this water tower and is stored. The water is pre-filtered by a first filter element and a second filter element before entering the water tower, and is subjected to a third filtering by the filter pipe arranged in the water tower, so that the water is subjected to the last purification and optimized modification to be nano quantum energy water with high energy, high oxygen content, high mineral substances, super activity, super permeability and no harmful substances. The water released from the water tower to the households has large flow and the water used by all the households is filtered and optimized, so that the water can be supplied to the fields of restaurants, markets, agricultural water-ploughing irrigation, fishery culture, livestock raising and the like which need a large amount of water.

Description

Water filter for water tower

Technical Field

The present invention relates to a water filtering device, and more particularly, to a water filtering device installed in a water tower.

Background

At present, civil, agricultural and industrial water is mainly tap water and underground water. In consideration of water pressure of building floors, water source is introduced from a low position, is pumped to a water tower on the top of a building for storage by matching with a water pumping motor, and is introduced into a household room by a water pipe and is controlled by a tap switch for use. In recent years, water sources have been directly or indirectly contaminated due to environmental pollution. In order to ensure the safety of water, tap water is supplied from a water purification plant after being previously cleaned and disinfected, and the tap water has a strong chemical smell due to chemical disinfection. However, this is only a preliminary treatment, and many pollutants and bacteria are still present in the tap water, and cannot be directly drunk. However, the area under the ground water is not subjected to water purification treatment, so that the area contains higher amounts of soil, impurities, germs, pollutants and the like. The water is stored in the water tower and then provided for the household, a lot of dirt is easily deposited in the water tower, and a great concern is generated for the safety angle of the household water for a long time.

If the water is used for drinking, a filtering system with a multi-channel water filter is required to be installed at the taking end, although the expected filtering effect can be achieved, a large amount of waste water is wasted in the water filtering process, the multi-channel filter element filters water, the water outlet quantity is reduced, the flow speed is low, the water filter is only suitable for small-unit households to drink and is not suitable for washing and bathing, and the water filter cannot be used in places such as restaurants, markets, agricultural water tillage irrigation, fishery culture, livestock raising and the like which need a large amount of water.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the invention provides a whole-house type filtering system scheme, namely, the water filtering operation is carried out from the end of a water tower, and the safety of the water for all the houses is improved.

In order to solve the technical problems, the invention adopts the technical scheme that:

a water tower water filtration device comprising:

a foot rest, which comprises an upper lantern ring and a lower lantern ring; the upper lantern ring is hinged with a plurality of column feet, the lower lantern ring is hinged with a plurality of supporting rods, and the supporting rods are respectively hinged with the middle parts of the column feet;

the filter tube comprises a cylinder body, an upper positioning ring and a lower positioning ring which are arranged outside the cylinder body; the cylinder body is provided with an opening at the upper end and a closed bottom, and the cylinder wall of the cylinder body is divided into a pore cylinder wall and a solid cylinder wall; the wall of the pore space cylinder is fully distributed with small pores; the porous cylinder wall is positioned at the lower section part and the bottom part of the cylinder body, and the solid cylinder wall is positioned at the upper section part of the cylinder body; the inside of the cylinder body is provided with a filter material; the upper positioning ring is arranged at the upper section of the cylinder body, and the ring diameter of the upper positioning ring is larger than that of the upper lantern ring; an upper ring-through part is respectively arranged at the corresponding position of 180 degrees below the upper positioning ring; the lower positioning ring is fixed at the lower section part of the cylinder body, and the ring diameter of the lower positioning ring is larger than that of the lower lantern ring; a lower positioning ring is respectively fixed on the outer wall of the cylinder body below the lower positioning ring at the corresponding position of 180 degrees;

the filter tube penetrates through the upper sleeve ring and the lower sleeve ring of the foot rest by the cylinder body, the filter tube is clamped on the lower sleeve ring by the lower positioning ring, the lower ring positioning block penetrates into the lower sleeve ring, and the lower ring positioning block contacts with the inner wall of the lower sleeve ring; the filter tube is clamped on the upper lantern ring by the upper positioning ring, and the upper penetrating part penetrates into the upper lantern ring;

this water tower water filtering device installs in a water tower, and this foot rest opens the inside of propping up in this water tower, and this filter tube wears to overlap in this foot rest, and a inlet tube is connected at the top of this filter tube, and this inlet tube introduces water in this filter tube, and the aperture of this pore section of thick bamboo wall from this filter tube after filtering through this filter media is released to this water tower and is stored.

Preferably, the rear end of the water inlet pipe is connected with the filter pipe, and the front end of the water inlet pipe is provided with a first filter element and a second filter element according to the water inlet direction, so that water introduced into the filter pipe is filtered in advance.

The invention has the beneficial effects that: the water is pre-filtered by a first filter element and a second filter element before entering the water tower, and the first filter element intercepts and filters impurities, dirt, silt, suspended matters, scale, rust, organic matters, algae … and the like in the water; the second filter element helps to absorb and filter heavy metals, chemical substances and organic substances (such as residual chlorine, peculiar smell, pesticides, lead, trihalomethane … and the like), then the water is subjected to the third filtration through the filter tube arranged in the water tower, the water is subjected to the last purification and optimization, the residual chlorine is eliminated, the peculiar smell is removed, organic mineral substances in the water are retained, nitrate nitrogen, nitrite nitrogen, sulfate, chloride, pathogen … and the like in the water are filtered, and hydrogen bonds of water molecules are broken through the wall breaking effect and the ion exchange reaction in the filter device, so that the water is modified into nano quantum energy water with high energy, high oxygen content, high mineral substances, water molecule refinement, super activity, super permeability and no harmful substances.

Because the filtering device is arranged in the water tower, the water entering the water tower can be continuously and continuously optimized and modified 24 hours a day by the functions of soaking, refluxing, exchanging and the like besides the third filtering and purifying by the filtering device.

The water filtering system of the invention optimizes the water quality stored in the water tower, releases water to households from the water tower, has large flow and filters and optimizes the water for the whole household, is suitable for small-unit households to drink, wash and bath, and can be used in restaurants, markets, agricultural water-ploughing irrigation, fishery culture, livestock raising and other fields requiring large water consumption. Particularly, the water filtering system used in the fields of agriculture, fishery, livestock raising and the like can optimize, regulate and stabilize water quality and soil, increase soil activity, balance acidity and alkalinity, prevent water pathogen transmission, improve the health and quality of crops and cultured objects and increase yield.

Drawings

FIG. 1 is a front view of the foot rest of the filtration apparatus of the present invention, illustrating the foot rest in an open position.

Fig. 2 is a front view of the foot rest of the filtering device of the present invention, illustrating the foot rest in a collapsed state.

Fig. 3 is a front view of a filter cartridge of the filter assembly of the present invention.

Fig. 4 is a sectional view of IV-IV in fig. 3.

Fig. 5 is a front view of the foot rest and filter cartridge assembly of the filter assembly of the present invention.

Fig. 6 is a cross-sectional view VI-VI in fig. 5.

Fig. 7 is a sectional view along VII-VII in fig. 5.

Fig. 8 is a sectional view taken along line VIII-VIII in fig. 5.

Fig. 9 is a cross-sectional view IX-IX in fig. 5. .

FIG. 10 is a schematic view of the filter apparatus of the present invention installed in a water tower.

FIG. 11 is a second schematic view of the filtering apparatus of the present invention installed in a water tower.

FIG. 12 is a third schematic view of the filtering apparatus of the present invention installed in a water tower.

Description of reference numerals:

10. foot rest 11, upper lantern ring

12. Upper hinge joint 13, lower collar

14. Lower hinge joint 15, column base

16. Foot body articulated joint 17 and support rod

20. Filter tube 21 and cylinder

22. Flange 23, pore cylinder wall

24. Solid cylindrical wall 25, filter medium

251. Mixing of nano quantum porous energy stone and porous coconut shell activated carbon

252. Nanometer quantum quadrivalence energy cotton 253 and nanometer quantum porous energy stone

26. Influent buffer 261 and flange plate

262. Water inlet joint 263 and buffer cylinder

265. A water stop washer 266, a buffer cotton.

30. Upper positioning ring 31 and attachment stopping screw

32. Separate positioning ring 33, upper piercing sleeve part

34. Upper ring positioning block 40 and lower positioning ring

42. Lower ring locating block

50. Water tower 51, opening

52. Water inlet pipe 53, first filter element

54. Second filter element

Detailed Description

In order to explain technical contents, achieved objects, and effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 5, the water filtering device for a water tower of the present invention includes a stand 10 and a filtering pipe 20 installed on the stand 10.

Referring to fig. 1 and 2, the stand 10 includes an upper ring 11 and a lower ring 13. The outer ring wall of the upper lantern ring 11 is provided with three upper hinged joints 12 at equal intervals, each upper hinged joint 12 is hinged with the top end of a column base 15, the column base 15 can be opened and closed by the hinged joint of the upper hinged joint 12, and the bottom ends of the three column bases 15 are supported on a solid surface when the three column bases 15 are opened. The outer annular wall of the lower collar 13 is provided with three lower joints 14 at equal angular intervals, and each lower joint 14 is hinged to a first end of a support rod 17. A body joint 16 is provided at the middle of the column base 15 for hinging the second end of the support rod 17. Accordingly, when the lower collar 13 is pushed away from the upper collar 11, the supporting rod 17 will expand the column base 15 outward until the supporting rod 17 is horizontal and the column base 15 is at the maximum angle of expansion. A large virtual circle is drawn through the open three-column foot 15, the diameter of which is about 1.3 meters. Conversely, pulling the lower collar 13 towards the upper collar 11, the support will drive the column foot 15 to fold inwards. A small virtual circle is drawn through the collapsed three-legged leg 15, the diameter of the small virtual circle being about 30 cm.

Referring to fig. 3 and 4, the filter tube 20 includes a cylinder 21, an upper positioning ring and a lower positioning ring 40 disposed outside the cylinder 21.

The cylinder 21 is closed at the top end with an open bottom, a flange 22 is arranged at the top end opening of the cylinder 21, and the cylinder wall of the cylinder 21 is divided into a pore cylinder wall 23 and a solid cylinder wall 24. The pore cylinder wall 23 is full of small holes. The porous cylinder wall 23 is located at the lower section and the bottom of the cylinder 21, and the solid cylinder wall 24 is located at the upper section of the cylinder 21. The inside of the cylinder 21 is provided with a filter material 25, and the filter material 25 is composed of a mixture 251 of a nano-quantum porous energy stone and porous coconut shell activated carbon, a nano-quantum tetravalent element energy cotton 252, a nano-quantum porous energy stone 253 and a nano-quantum tetravalent element energy cotton 252 in sequence from top to bottom. The filter material 25 is a special technique of the present invention, but is not a main technical feature of the present invention, and is not described herein.

The flange 22 of the barrel 21 is combined with a water inlet buffer 26, the water inlet buffer 26 comprises a flange 261, a water inlet joint 262 is arranged on the flange 261, a buffer cylinder 263 is arranged under the flange 261, the buffer cylinder 263 is hollow inside and porous in the side wall and the bottom, the buffer cylinder 263 is communicated with the water inlet joint 262, the periphery of the buffer cylinder 263 is completely coated with buffer cotton 266, and the buffer cotton 266 has the functions of buffering and filtering. The water inlet buffer 26 is tightly locked and combined on the flange 22 at the top end of the cylinder 21 by the flange 261 matching with the water stop washer 265, the buffer cylinder 263 enters the reserved space at the top end of the cylinder 21, and the water inlet joint 262 is screwed for connecting the water inlet pipe 52 (as shown in fig. 12).

As shown in fig. 5-8, the upper retaining ring 30 employs a conventional split retaining ring 32 with two retaining screws 31 to control the engagement and disengagement of the pair. The upper retaining ring 30 has a larger ring diameter than the upper collar 11. An upper ring-through portion 33 is disposed below the upper positioning ring 30 at a position corresponding to 180 degrees, and an upper ring positioning block 34 is protruded from an outer wall of the upper ring-through portion 33. The upper positioning ring 30 is mounted on the upper portion of the barrel 21 and can be adjusted in height along the barrel 21, and after reaching a desired height, an attachment-stopping screw 31 is tightened against the upper positioning ring 30.

The lower positioning ring 40 is a convex ring structure fixed (welded or sintered) to the lower portion of the cylinder 21, and the ring diameter of the lower positioning ring 40 is larger than that of the lower collar 13. The lower retaining ring 40 may also be a separate retaining ring that is controlled by two retaining screws to engage or disengage the pair of retaining rings as is known in the art. A lower ring positioning block 42 is fixed (welded or sintered) to the outer wall of the cylinder 21 below the lower positioning ring 40 at a position corresponding to 180 degrees.

As shown in fig. 5 and 9, the filter tube 20 passes through the upper collar 11 and the lower collar 13 with the cylinder 21. The filtering tube 20 is clamped on the lower collar 13 by the lower positioning ring 40, the lower ring positioning block 42 penetrates into the lower collar 13, and the lower ring positioning block 42 contacts the inner wall of the lower collar 13, so that the lower section of the filtering tube 20 is fixedly sleeved in the lower collar 13 without shaking gaps. The filtering tube 20 is locked on the upper ring 11 by the upper positioning ring 30, the upper penetrating part 33 penetrates into the upper ring 11, the upper positioning block 34 contacts the inner wall of the upper ring 11, so that the upper section of the filtering tube 20 is fixed in the upper ring 11 without shaking gap.

As shown in fig. 10 to 12, the water filtering device of the water tower 50 of the present invention is installed in the water tower 50. The method comprises the steps of separating the foot stand 10 and the filter tube 20 into independent bodies, and folding the three column feet 15 of the foot stand 10, so that the foot stand 10 can smoothly pass through the opening 51 at the top of the water tower 50 and enter the water tower 50. After the foot stand 10 enters the water tower 50, the lower collar 13 is pushed downward, and the column foot 15 is opened to stand on the inner bottom surface of the water tower 50 through the support rod 17.

Next, the filter tubes 20 are vertically passed through the openings 51 of the water tower 50 and are threaded and positioned on the upper collar 11 and the lower collar 13 in the manner described above, thereby combining the filter tubes 20 with the foot rest 10.

The water inlet pipe 52 is connected to the water inlet joint 262 of the water inlet buffer 26. The water inlet pipe 52 introduces water into the filter pipe 20, slows down the water pressure and filters through the buffer cylinder 263 and the buffer cotton 266, and guides the inlet water to be distributed to the inner circumference of the filter pipe 20, so that the inlet water can be uniformly filtered through the filter material 25 and becomes nano quantum energy water, and then is released from the holes of the pore cylinder wall 23 of the filter pipe 20 to the water tower 50 for storage, and the water released from the water tower 50 to the household is filtered and optimized at a large flow rate.

The inlet pipe 52 is pre-filtered with a first filter element 53 and a second filter element 54 before introducing water into the filter tube 20. The first filter element 53 intercepts and filters impurities, filth, silt, suspended substances, scale, rust, organic matters, algae …, etc. in the water. The second filter element 54 helps to adsorb and filter heavy metals, chemicals, organics (such as residual chlorine, odors, pesticides, lead, trihalomethanes …, etc.) and then to perform a final purification and optimization of the water to nano-quantum energy water via a third filtration through the filter tube 20 installed inside the water tower 50.

As shown in the following table, according to the detection result of the nano quantum energy water of the invention, the number of Escherichia coli is 0/100 ml, nitrite nitrogen is less than 0.004mg/L, nitrate nitrogen is less than 1.6mg/L, iron and oxides are less than 0.03mg/L, chloride is 6.9mg/L, total hardness (calcium and magnesium) is 96mg/L, total dissolved solid is 160mg/L, organic matter (total organic carbon) is 0.4mg/L, pH value is 7.4, no abnormal taste is caused, no abnormal odor (initial odor number) is caused, chroma (platinum-cobalt unit) is less than 1, turbidity (NTU) is less than 0.5, and dissolved oxygen is 7.2 mg/L. The detection results of the invention are all superior to the limit standards of Japan, America and European Union, and can prove the purity and optimization effect of the nano quantum energy water.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes made by using the contents of the present specification and the drawings, or applied directly or indirectly to the related technical fields are included in the scope of the present invention.

Claims

1. A water tower water filtration device comprising:

the filter tube comprises a cylinder body, an upper positioning ring and a lower positioning ring which are arranged outside the cylinder body; the cylinder body is closed at the bottom of the top end opening, and the cylinder wall of the cylinder body is divided into a pore cylinder wall and a solid cylinder wall; the wall of the pore space cylinder is fully distributed with small pores; the porous cylinder wall is positioned at the lower section part and the bottom part of the cylinder body, and the solid cylinder wall is positioned at the upper section part of the cylinder body; the inside of the cylinder body is provided with a filter material; the upper positioning ring is arranged at the upper section of the cylinder body, and the ring diameter of the upper positioning ring is larger than that of the upper lantern ring; a plurality of upper penetrating sleeve parts are arranged below the upper positioning ring; the lower positioning ring is fixed at the lower section part of the cylinder body, and the ring diameter of the lower positioning ring is larger than that of the lower lantern ring; a plurality of lower ring positioning blocks are arranged on the outer wall of the cylinder body below the lower positioning ring;

the filter tube penetrates through the upper sleeve ring and the lower sleeve ring of the foot rest by the cylinder body, the filter tube is clamped on the lower sleeve ring by the lower positioning ring, the lower ring positioning block penetrates into the lower sleeve ring, and the lower ring positioning block is attached to the inner wall of the lower sleeve ring; the filter tube is clamped on the upper lantern ring by the upper positioning ring, and the upper penetrating part penetrates into the upper lantern ring.

2. The water filtering device for water tower of claim 1, wherein the top of the barrel is combined with a water inlet buffer, the water inlet buffer is connected with a water inlet joint and a buffer cylinder, the water inlet joint is connected with a water inlet pipe, the buffer cylinder is hollow inside and has porous distribution on the side wall and the bottom, and the buffer cylinder is arranged inside the top of the barrel.

3. The water tower water filtering device according to claim 2, wherein the buffer cylinder is wrapped with buffer cotton.

4. The water tower water filtering device as claimed in claim 1, wherein the outer annular wall of the upper collar is provided with three upper hinged joints at equal intervals, each upper hinged joint is hinged to the top end of the column base; the outer ring wall of the lower lantern ring is provided with three lower hinged joints at equal intervals, and each lower hinged joint is hinged with the first end of the supporting rod; the middle part of each column base is provided with a base body hinge joint for hinging the second end of the supporting rod.

5. The water tower water filtering device of claim 1, wherein the upper ring-through portion has an upper ring-positioning block protruding from an outer wall thereof, and the upper ring-positioning block contacts an inner wall of the upper ring.

6. The water filter device for water tower of claim 2, wherein the rear end of the inlet pipe is connected to the filter tube, and the front end of the inlet pipe is provided with a first filter element and a second filter element along the water inlet direction, so as to pre-filter the water introduced into the filter tube.