CN113830940A

CN113830940A - Rich hydrogen water purification unit

Info

Publication number: CN113830940A
Application number: CN202111252418.8A
Authority: CN
Inventors: 彭伟
Original assignee: Olansi Health Industry Co ltd
Current assignee: Olansi Health Industry Co ltd
Priority date: 2021-10-27
Filing date: 2021-10-27
Publication date: 2021-12-24
Anticipated expiration: 2041-10-27
Also published as: CN113830940B

Abstract

The invention discloses hydrogen-rich water purification equipment, relates to the technical field of water treatment, and solves the problems that the existing hydrogen-rich water purification equipment needs to stop running when a filter element is replaced, so that the water purification efficiency is low, the mixing rate of hydrogen and water after electrolysis is low, and the like. The utility model provides a rich hydrogen water purification equipment, includes the rich hydrogen mechanism of electrolysis, one side fixed mounting of the rich hydrogen mechanism of electrolysis has water conservancy diversion mechanism, purification mechanism is installed at water conservancy diversion mechanism's both ends, purification mechanism is including purifying the jar body, sampling maintenance pipe, filter core change protection arc board, reposition of redundant personnel frame, design casing, filter core main part, collar, filter membrane and filtration baffle, the equal fixed mounting in both ends of reposition of redundant personnel frame has the purification jar body, the lower terminal surface that purifies the jar body is installed the filter core and is changed protection arc board. According to the invention, the operation of shunting and synchronous purification of the water body is effectively avoided, the equipment is prevented from stopping running due to the replacement of the filter element, and the mixing efficiency of the water body and the hydrogen is conveniently improved.

Description

Rich hydrogen water purification unit

Technical Field

The invention relates to the technical field of water treatment, in particular to hydrogen-rich water purification equipment.

Background

Along with the rapid development of social economy, people's standard of living constantly improves, and is also higher and higher to the quality requirement of drinking water, and hydrogen-rich purifier is a drinking water purifier, and hydrogen-rich hydroenergy activates human cell, delays ageing to can play the effect of improving the intestines and stomach, can improve human immunity, hydrogen-rich purifier need utilize the filter core to filter water when using, and the water electrolysis becomes hydrogen and mixes in water, supplies people to drink.

However, the existing hydrogen-rich water purification equipment needs to stop running when the filter element is replaced, so that the water purification efficiency is low, and the mixing rate of the electrolyzed hydrogen and the water body is low; therefore, the existing requirements are not met, and a hydrogen-rich water purification device is provided for the requirements.

Disclosure of Invention

The invention aims to provide hydrogen-rich water purification equipment to solve the problems that the existing hydrogen-rich water purification equipment needs to stop running when a filter element is replaced, the water purification efficiency is low, the mixing rate of hydrogen and water after electrolysis is low and the like in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: a hydrogen-rich water purification device comprises an electrolysis hydrogen-rich mechanism, a flow guide mechanism is fixedly arranged on one side of the electrolysis hydrogen-rich mechanism, the two ends of the flow guide mechanism are provided with purification mechanisms, each purification mechanism comprises a purification tank body, a sampling maintenance pipe, a filter element replacement protection arc plate, a flow distribution frame, a shaping shell, a filter element main body, an installation ring, a filter membrane and a filter clapboard, the two ends of the flow distribution frame are fixedly provided with purification tank bodies, the lower end surface of each purification tank body is provided with a filter element replacement protection arc plate, five sampling maintenance pipes are uniformly arranged on the upper end surface of the purification tank body, four mounting rings are arranged on the inner side of the purification tank body, the filter core is characterized in that filter membranes are arranged inside the mounting rings, filter partition plates are arranged on two sides of each filter membrane, three shaping shells are arranged on the inner sides of the four mounting rings, and filter core main bodies are arranged on the inner sides of the shaping shells.

Preferably, the supporting mechanism is including supporting base, linking bridge, drain pipe, main body cover and ventilative grid, the up end of drain pipe is installed and is supported the base, the inboard fixed mounting who supports the base has two linking bridge, the outside fixed mounting who supports the base has main body cover, one side of main body cover is provided with ventilative grid, the upper end of reposition of redundant personnel frame is installed and is precipitated the mechanism, deposit the mechanism and install the hydrogen-rich mechanism of electrolysis with the inboard of supporting mechanism.

Preferably, the water conservancy diversion mechanism includes the water-collecting tank body, connection frame, water delivery body, connects water delivery seat, supporting spring and one-way end cap, the outside fixed mounting of the water-collecting tank body has connection frame, connection water delivery seat is all installed to connection frame's both sides, the inboard of connecting water delivery seat is provided with supporting spring, one-way end cap is installed to supporting spring's inboard, the one end fixed mounting of connecting water delivery seat has the water delivery body.

Preferably, hydrogen mechanism is riched in the electrolysis is including riching the hydrogen and producing jar body, seal installation casing, drive machine, (mixing) shaft, stirring frame and electrolysis frame, the up end fixed mounting that the hydrogen of riching produces jar body has the seal installation casing, six electrolysis frames are evenly installed to the inboard of seal installation casing, six a drive machine is installed to the inboard of electrolysis frame, the (mixing) shaft is installed to drive machine's bottom, the outside fixed mounting of (mixing) shaft has the stirring frame.

Preferably, deposit the mechanism including sealed apron, deposit casing, inlet tube, separate frame and toper water conservancy diversion cover, the up end fixed mounting who deposits the casing has sealed apron, the up end of sealed apron is provided with the inlet tube, the inboard fixed mounting who deposits the casing has the separate frame, six toper water conservancy diversion covers are evenly installed to the inboard of separate frame.

Preferably, the filter element replacement protection arc plate is fixedly connected with the purification tank body through a screw, a sealing gasket is arranged on the inner side of the purification tank body and the filter element replacement protection arc plate, and the mounting ring is fixedly welded with the purification tank body.

Preferably, the inboard of collar is provided with the draw-in groove, the side of filter membrane extends to the inboard of draw-in groove, it is connected through the locating pin with the collar to filter the baffle, the surface of filter core main part is provided with miniature hole of permeating water.

Preferably, the connecting frame is fixedly connected with the water collecting tank body through screws, one end of the connecting water delivery seat penetrates through two sides of the connecting frame and is connected with the water collecting tank body through threads, one end of the water delivery pipe body is fixedly connected with the connecting water delivery seat through screws, and the connecting water delivery seat is connected with the one-way plug through a supporting spring.

Preferably, the bottom end of the stirring shaft penetrates through the seal installation shell and is connected with the stirring frame through a flat key, the upper end of the stirring shaft is connected with the seal installation shell through a bearing, the upper end of the electrolysis frame is fixedly connected with the seal installation shell through a screw, and the lower end face of the electrolysis frame is provided with a cathode electrolysis rod and an anode electrolysis rod.

Preferably, the separation frame is welded and fixed with the sedimentation shell, one end of the conical diversion sleeve is connected with the separation frame through threads, the separation frame and the sedimentation shell are filled with a water body to be purified, and the flow direction of the water body to be purified is anticlockwise.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the water body flows anticlockwise on the inner side of the precipitation shell, so that the precipitation operation of the water body can be fully carried out, the mounting ring can carry out primary filtration on the water body through the filter membrane, multiple purification operations can be carried out on the water body through the shaping shell and the filter element main body, and the water body quality can be conveniently improved;

2. according to the invention, the water body in the purification process can be sampled and monitored through the sampling maintenance pipe, the filter element can be maintained and replaced by disassembling one of the purification tank bodies and the filter element replacement protection arc plate, and the other purification tank body can still continuously operate, so that the condition that equipment stops operating due to filter element replacement is effectively avoided;

3. according to the invention, the electrolysis frame can be used for carrying out electrolysis operation on the water body on the inner side of the hydrogen-rich generating tank body so as to form hydrogen, and the transmission motor drives the stirring frame to rotate through the stirring shaft, so that the stirring frame can fully mix the hydrogen and the water body so as to form hydrogen-rich water.

Drawings

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

FIG. 2 is a schematic structural diagram of the support mechanism of the present invention;

FIG. 3 is a schematic cross-sectional view of the present invention;

FIG. 4 is a partial schematic view of the electrolytic hydrogen enrichment mechanism of the present invention;

FIG. 5 is a schematic view of a partial cross-sectional structure of the purification mechanism of the present invention;

FIG. 6 is a schematic cross-sectional view of a flow guide mechanism according to the present invention;

FIG. 7 is a schematic sectional view of the settling mechanism of the present invention.

In the figure: 1. a support mechanism; 101. a support base; 102. connecting a bracket; 103. a drain pipe; 104. a main body housing; 105. a breathable grid; 2. a purification mechanism; 201. purifying the tank body; 202. sampling a maintenance pipe; 203. the protective arc plate is replaced by the filter element; 204. a shunt frame; 205. shaping the shell; 206. a filter element main body; 207. a mounting ring; 208. filtering the membrane; 209. a filtering baffle plate; 3. a flow guide mechanism; 301. a water collection tank body; 302. a connecting frame; 303. a water delivery pipe body; 304. connecting a water delivery seat; 305. a support spring; 306. a one-way plug; 4. an electrolytic hydrogen-rich mechanism; 401. a hydrogen rich production tank; 402. a housing is hermetically mounted; 403. a drive motor; 404. a stirring shaft; 405. a stirring frame; 406. an electrolytic rack; 5. a precipitation mechanism; 501. sealing the cover plate; 502. a sedimentation shell; 503. a water inlet pipe; 504. a spacer; 505. the toper water conservancy diversion cover.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

The drive motor 403 (model YS7134) referred to in the present invention is commercially available or custom made.

Referring to fig. 1 to 7, an embodiment of the present invention includes: a hydrogen-rich water purifying device comprises an electrolytic hydrogen-rich mechanism 4, a flow guide mechanism 3 is fixedly installed on one side of the electrolytic hydrogen-rich mechanism 4, purified water is guided and conveyed conveniently through the flow guide mechanism 3, purifying mechanisms 2 are installed at two ends of the flow guide mechanism 3, each purifying mechanism 2 comprises a purifying tank body 201, a sampling maintenance pipe 202, a filter element replacement protective arc plate 203, a flow distribution frame 204, a shaping shell 205, a filter element main body 206, a mounting ring 207, a filter membrane 208 and a filtering baffle 209, purifying tank bodies 201 are fixedly installed at two ends of the flow distribution frame 204, the filter element replacement protective arc plate 203 is installed on the lower end face of the purifying tank body 201, replacement of filter elements is convenient to realize through dismounting the filter element replacement protective arc plate 203 and the purifying tank body 201, five sampling maintenance pipes 202 are uniformly arranged on the upper end face of the purifying tank body 201, four mounting rings 207 are installed on the inner side of the purifying tank body 201, the inside of collar 207 is provided with filter membrane 208, and filter baffle 209 is all installed to filter membrane 208's both sides, and three design casing 205 is installed to four collar 207's inboard, and the inboard of design casing 205 is provided with filter core main part 206, wholly through shunting and the synchronous purification operation to the water, effectively avoids causing the bring about to rest of equipment because of the renew cartridge, and is convenient for improve the mixing efficiency of water and hydrogen.

Further, the lower terminal surface fixed mounting of purification mechanism 2 has supporting mechanism 1, supporting mechanism 1 is including supporting base 101, linking bridge 102, drain pipe 103, main body cover 104 and ventilative grid 105, the up end of drain pipe 103 is installed and is supported base 101, the inboard fixed mounting that supports base 101 has two linking bridge 102, the outside fixed mounting that supports base 101 has main body cover 104, one side of main body cover 104 is provided with ventilative grid 105, the upper end of reposition of redundant personnel frame 204 is installed and is precipitated mechanism 5, it installs the hydrogen rich mechanism 4 of electrolysis with the inboard of supporting mechanism 1 to precipitate mechanism 5, be convenient for support and install overall structure through supporting mechanism 1.

Further, water conservancy diversion mechanism 3 includes water collection tank 301, connection frame 302, water delivery body 303, connect water delivery seat 304, supporting spring 305 and one-way end cap 306, water collection tank 301's outside fixed mounting has connection frame 302, connection frame 302's both sides are all installed and are connected water delivery seat 304, the inboard of connecting water delivery seat 304 is provided with supporting spring 305, one-way end cap 306 is installed to supporting spring 305's inboard, the one end fixed mounting who connects water delivery seat 304 has water delivery body 303, be convenient for carry out water conservancy diversion and transport to the water after purifying through water conservancy diversion mechanism 3.

Further, the hydrogen-rich electrolysis mechanism 4 comprises a hydrogen-rich generation tank 401, a seal installation shell 402, a transmission motor 403, a stirring shaft 404, a stirring frame 405 and an electrolysis frame 406, wherein the seal installation shell 402 is fixedly installed on the upper end face of the hydrogen-rich generation tank 401, six electrolysis frames 406 are uniformly installed on the inner side of the seal installation shell 402, one transmission motor 403 is installed on the inner sides of the six electrolysis frames 406, the stirring shaft 404 is installed at the bottom end of the transmission motor 403, the stirring frame 405 is fixedly installed on the outer side of the stirring shaft 404, and the hydrogen-rich electrolysis mechanism 4 is convenient for electrolyzing and mixing the water body.

Further, the sedimentation mechanism 5 comprises a sealing cover plate 501, a sedimentation shell 502, a water inlet pipe 503, a separation frame 504 and a conical flow guide sleeve 505, the sealing cover plate 501 is fixedly installed on the upper end face of the sedimentation shell 502, the water inlet pipe 503 is arranged on the upper end face of the sealing cover plate 501, the separation frame 504 is fixedly installed on the inner side of the sedimentation shell 502, six conical flow guide sleeves 505 are evenly installed on the inner side of the separation frame 504, and sedimentation of the water body is facilitated through the sedimentation mechanism 5.

Further, the filter core is changed and is protected arc board 203 and the purification jar body 201 fixed through the screw connection, and the purification jar body 201 is provided with sealed the pad with the inboard of the protection arc board 203 is changed to the filter core, collar 207 and the welding of the purification jar body 201, through changing the filter core protection arc board 203 and the purification jar body 201 carry out the dismouting and be convenient for realize the change to the filter core.

Further, the inboard of collar 207 is provided with the draw-in groove, and the side of filter membrane 208 extends to the inboard of draw-in groove, and filter baffle 209 passes through the locating pin with collar 207 to be connected, and the surface of filter core main part 206 is provided with miniature hole of permeating water, can carry out multiple purification operation to the water through design casing 205 and filter core main part 206, is convenient for improve water quality.

Further, the connection frame 302 is fixedly connected with the water collection tank 301 through screws, two sides of one end of the connection water delivery base 304, penetrating through the connection frame 302, are connected with the water collection tank 301 through threads, one end of the water delivery pipe 303 is fixedly connected with the connection water delivery base 304 through screws, and the connection water delivery base 304 is connected with the one-way plug 306 through the supporting spring 305, so that the diversion mechanism 3 can conduct one-way diversion on the water body.

Further, the bottom end of (mixing) shaft 404 runs through seal installation casing 402 and is connected with stirring frame 405 through the parallel key, the upper end and the seal installation casing 402 of (mixing) shaft 404 pass through the bearing and are connected, the upper end and the seal installation casing 402 of electrolysis frame 406 pass through bolted connection fixed, the lower terminal surface of electrolysis frame 406 is provided with cathode electrolysis stick and positive pole electrolysis stick for stirring frame 405 can fully mix hydrogen and water and be convenient for form hydrogen-rich water.

Further, the separating frame 504 and the sedimentation shell 502 are welded and fixed, one end of the conical guide sleeve 505 is in threaded connection with the separating frame 504, the separating frame 504 and the sedimentation shell 502 are filled with a water body to be purified, the flow direction of the water body to be purified is anticlockwise, and the water body can be fully precipitated.

The working principle is as follows: when in use, checking whether the functions of all parts are intact, switching on a power supply, connecting two purification tank bodies 201 with a precipitation shell 502 through a flow distribution frame 204, connecting a hydrogen-rich generation tank body 401 with the two purification tank bodies 201 through a flow guide mechanism 3, injecting water into the inner side of the precipitation shell 502 through a water inlet pipe 503, fixedly installing a separation frame 504 on the inner side of the precipitation shell 502, installing six conical flow guide sleeves 505 on the inner side of the separation frame 504, enabling a water body to flow anticlockwise on the inner side of the precipitation shell 502, facilitating the precipitation operation of the water body fully, conveying the precipitated water body to the inner side of the purification tank body 201 through the flow distribution frame 204, evenly installing four installation rings 207 on the inner side of the purification tank body 201, enabling the installation rings 207 to primarily filter the water body through a filter membrane 208, installing three shaping shells 205 on the inner sides of the four installation rings 207, and arranging a filter element main body 206 in the shaping shells 205, so that the water body can be purified by multiple operations through the shaping shell 205 and the filter element main body 206, the water body quality is convenient to improve, the water body in the purification process can be sampled and monitored through the sampling maintenance pipe 202, the purification tank body 201 and the filter element replacement protection arc plate 203 are connected and fixed through screws, the maintenance and replacement of the filter element can be realized through the disassembly and assembly of one of the purification tank body 201 and the filter element replacement protection arc plate 203, and the other purification tank body 201 can still continue to operate, the condition that the equipment stops operating due to the replacement of the filter element is effectively avoided, the water delivery seat 304 is connected with the purification tank body 201 through the water delivery pipe body 303, the water delivery seat 304 is connected with the one-way plug 306 through the supporting spring 305, the water guide mechanism 3 can conduct one-way water guide on the water body, and the water body purified by the two purification tank bodies 201 can be conveniently conducted the flow collection and conveyed to the inner side of the hydrogen-rich generation tank body 401 through the water collection tank body 301, be provided with cathode electrolysis stick and positive pole electrolysis stick at the lower terminal surface of electrolysis frame 406 for can carry out electrolysis operation to the inboard water of hydrogen-rich production jar body 401 through electrolysis frame 406, thereby form hydrogen, start driving motor 403, make driving motor 403 drive stirring frame 405 through (mixing) shaft 404 under the supporting role of seal installation casing 402 and rotate, make stirring frame 405 can fully mix hydrogen and water and be convenient for form hydrogen-rich water, finally discharge through drain pipe 103.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. A hydrogen-rich water purification device comprises an electrolysis hydrogen-rich mechanism (4), and is characterized in that: one side of the hydrogen-rich electrolysis mechanism (4) is fixedly provided with a flow guide mechanism (3), the two ends of the flow guide mechanism (3) are provided with purification mechanisms (2), each purification mechanism (2) comprises a purification tank body (201), sampling maintenance pipes (202), a filter element replacement protection arc plate (203), a shunt frame (204), a shaping shell (205), a filter element main body (206), a mounting ring (207), a filter membrane (208) and a filtration partition plate (209), the two ends of the shunt frame (204) are fixedly provided with the purification tank body (201), the lower end face of the purification tank body (201) is provided with the filter element replacement protection arc plate (203), the upper end face of the purification tank body (201) is uniformly provided with five sampling maintenance pipes (202), the inner side of the purification tank body (201) is provided with four mounting rings (207), and the filter membrane (208) is arranged in the mounting ring (207), the filter membrane (208) is provided with filter partition plates (209) on two sides, four three shaping shells (205) are arranged on the inner sides of the mounting rings (207), and filter element main bodies (206) are arranged on the inner sides of the shaping shells (205).

2. The hydrogen-rich water purification apparatus of claim 1, wherein: lower terminal surface fixed mounting of purification mechanism (2) has supporting mechanism (1), supporting mechanism (1) is including supporting base (101), linking bridge (102), drain pipe (103), main body cover (104) and ventilative grid (105), the up end of drain pipe (103) is installed and is supported base (101), the inboard fixed mounting that supports base (101) has two linking bridge (102), the outside fixed mounting that supports base (101) has main body cover (104), one side of main body cover (104) is provided with ventilative grid (105), deposit mechanism (5) are installed to the upper end of reposition of redundant personnel frame (204), deposit mechanism (5) and the inboard of supporting mechanism (1) and install electrolysis hydrogen enrichment mechanism (4).

3. The hydrogen-rich water purification apparatus of claim 1, wherein: water conservancy diversion mechanism (3) including catchment jar body (301), connection frame (302), water delivery body (303), connect water delivery seat (304), supporting spring (305) and one-way end cap (306), the outside fixed mounting of catchment jar body (301) has connection frame (302), connection water delivery seat (304) are all installed to the both sides of connection frame (302), the inboard of connecting water delivery seat (304) is provided with supporting spring (305), one-way end cap (306) are installed to the inboard of supporting spring (305), the one end fixed mounting of connecting water delivery seat (304) has water delivery body (303).

4. The hydrogen-rich water purification apparatus of claim 1, wherein: rich hydrogen mechanism of electrolysis (4) is including riching hydrogen and producing jar body (401), seal installation casing (402), drive motor (403), (mixing) shaft (404), stirring frame (405) and electrolysis frame (406), the up end fixed mounting of riching hydrogen production jar body (401) has seal installation casing (402), six electrolysis frames (406) are evenly installed to the inboard of seal installation casing (402), six one drive motor (403) are installed to the inboard of electrolysis frame (406), stirring shaft (404) are installed to the bottom of drive motor (403), the outside fixed mounting of stirring shaft (404) has stirring frame (405).

5. The hydrogen-rich water purification apparatus of claim 2, wherein: deposit mechanism (5) including sealed apron (501), deposit casing (502), inlet tube (503), separate frame (504) and toper water conservancy diversion cover (505), the up end fixed mounting who deposits casing (502) has sealed apron (501), the up end of sealed apron (501) is provided with inlet tube (503), the inboard fixed mounting who deposits casing (502) has separate frame (504), six toper water conservancy diversion covers (505) are evenly installed to the inboard of separating frame (504).

6. The hydrogen-rich water purification apparatus of claim 1, wherein: the filter core is changed protection arc board (203) and is passed through the screw connection with the purification jar body (201) and fix, the purification jar body (201) is provided with sealed the pad with the inboard of the protection arc board (203) is changed to the filter core, collar (207) and the welding of the purification jar body (201) are fixed.

7. The hydrogen-rich water purification apparatus of claim 1, wherein: the inboard of collar (207) is provided with the draw-in groove, the side of filter membrane (208) extends to the inboard of draw-in groove, filter baffle (209) and collar (207) are connected through the locating pin, the surface of filter core main part (206) is provided with miniature hole of permeating water.

8. The hydrogen-rich water purification apparatus of claim 3, wherein: the water-delivery pipe is characterized in that the connecting frame (302) is fixedly connected with the water-collecting tank body (301) through screws, the two sides of one end of the connecting water-delivery base (304) penetrating the connecting frame (302) are connected with the water-collecting tank body (301) through threads, one end of the water-delivery pipe body (303) is fixedly connected with the connecting water-delivery base (304) through screws, and the connecting water-delivery base (304) is connected with the one-way plug (306) through a supporting spring (305).

9. The hydrogen-rich water purification apparatus of claim 4, wherein: the bottom end of the stirring shaft (404) penetrates through the sealing installation shell (402) and is connected with the stirring frame (405) through a flat key, the upper end of the stirring shaft (404) is connected with the sealing installation shell (402) through a bearing, the upper end of the electrolysis frame (406) is fixedly connected with the sealing installation shell (402) through a screw, and the lower end face of the electrolysis frame (406) is provided with a cathode electrolysis rod and an anode electrolysis rod.

10. The hydrogen-rich water purification apparatus of claim 5, wherein: the separation frame (504) is welded and fixed with the sedimentation shell (502), one end of the conical guide sleeve (505) is connected with the separation frame (504) through threads, the separation frame (504) and the sedimentation shell (502) are filled with a water body to be purified, and the flow direction of the water body to be purified is anticlockwise.