CN215161256U

CN215161256U - Water magnetizing device

Info

Publication number: CN215161256U
Application number: CN202121188375.7U
Authority: CN
Inventors: 李宗明
Original assignee: Ying Yi Green Polytron Technologies Inc
Current assignee: Ying Yi Green Polytron Technologies Inc
Priority date: 2021-05-31
Filing date: 2021-05-31
Publication date: 2021-12-14
Anticipated expiration: 2031-05-31

Abstract

A water magnetizing device comprises a shell unit, a magnetizing unit and a sleeve unit. The shell unit comprises an outer pipe wall, a shell cover arranged on the outer pipe wall in a covering mode, a water inlet piece arranged on the shell cover, a water outlet end wall connected to the outer pipe wall, and a water outlet piece connected to the water outlet end wall, the magnetizing unit comprises a magnetizing pipe defining a magnetic pipe channel, a plurality of magnets and a guide plate spirally arranged on the magnetizing pipe in a surrounding mode, the sleeve unit comprises an inner pipe wall defining an outer flow channel with the outer pipe wall, the inner pipe wall, the magnetizing pipe and the guide plate define an inner flow channel, and water can flow through the outer flow channel, the inner flow channel and the magnetic pipe channel in sequence through the water inlet piece and then flows out of the water outlet piece. The water flows spirally when flowing in the inner flow channel, so that the time of the water staying in the water magnetizing device can be prolonged, and the magnetizing effect is improved.

Description

Water magnetizing device

Technical Field

The utility model relates to a magnetizer, in particular to a water magnetizer.

Background

Referring to fig. 1, a conventional magnetizing apparatus 9 includes an outer sleeve 91, a magnetic tube 92 disposed in the outer sleeve 91 and surrounding a flow passage 921, an inner sleeve 93 disposed in the outer sleeve 91 and surrounding the magnetic tube 92, and a detachable cover 94 covering the top of the outer sleeve 91. The cover 94 has a water inlet 941 communicating between the outer sleeve 91 and the inner sleeve 93, and the outer sleeve 91 has a water outlet 911 at the bottom communicating with the bottom of the flow passage 921. The surrounding area at the bottom of the inner sleeve 93 is communicated with the water outlet 911, the surrounding area at the top of the magnetic tube 92 is communicated with the inner sleeve 93 and the area between the magnetic tubes 92, and after water flows into the outer sleeve 91 and the inner sleeve 93 through the water inlet 941, the water sequentially passes through the inner sleeve 93 and the magnetic tubes 92 and flows out of the water outlet 911 through the flow passage 921.

The speed of the object is the displacement of the object in unit time, when the object moves at the same speed, the speed of the object can be obtained by dividing the displacement of the object by the elapsed time, so the path distance through which water flows is divided by a flow rate to obtain the residence time of the water in the magnetizing device 9, therefore, the longer the path distance is, the longer the residence time of the water in the magnetizing device 9 is, assuming that the flow rate of the water is constant. In the conventional magnetizing apparatus 9, a path from the surrounding area between the bottom of the magnetic tube 92 and the inner sleeve 93 to the surrounding area between the top of the magnetic tube 92 and the inner sleeve 93 is a linear distance, a path from the top of the flow passage 921 to the bottom of the flow passage 921 is a linear distance, and a shortest distance between two points is a straight line, so that the retention time of water between the magnetic tube 92 and the inner sleeve 93 and the flow passage 921 is short, and the shorter the retention time of water is, the shorter the time of magnetization is, and thus the magnetizing apparatus 9 has a disadvantage of poor water magnetizing effect.

Disclosure of Invention

An object of the utility model is to provide a water magnetization device that water magnetization effect is good.

The water magnetizer of the utility model is used for magnetizing water, and comprises a shell unit, a magnetization unit and a sleeve unit, wherein the shell unit comprises an outer pipe wall surrounding an axis, a shell cover which can be disassembled and is arranged at the top of the outer pipe wall along the axis cover, a water inlet piece which is arranged on the shell cover and is provided with a water inlet channel, a water outlet end wall which is connected with the outer pipe wall and is opposite to one side of the shell cover, and a water outlet piece which is connected with the water outlet end wall and is provided with a water outlet channel, the magnetization unit comprises a magnetization pipe which is arranged in the outer pipe wall and surrounds the axis, a plurality of magnets and spirals which are arranged in the magnetization pipe, a guide plate which is arranged on the magnetization pipe, and a connecting piece which surrounds the axis and is connected with the bottom end of the magnetization pipe and the water outlet piece, the magnetization pipe defines a magnetic pipe channel which runs through the axis and is communicated with the bottom of the water outlet channel, the sleeve unit comprises an inner pipe wall surrounding the magnetizing pipe and positioned in the outer pipe wall, and a flow dividing part connected to the top of the inner pipe wall and connected with the water inlet piece, wherein the flow dividing part is provided with at least one flow dividing hole communicated with the water inlet channel and between the inner pipe wall and the outer pipe wall, the inner pipe wall and the outer pipe wall define an outer flow channel, and the inner pipe wall, the magnetizing pipe and the flow guide plate define an inner flow channel, wherein when water flows into the water inlet channel and flows into the outer flow channel through the at least one flow dividing hole, the water sequentially flows through the inner flow channel, passes through the flow guide plate, and then flows out of the water outlet piece after passing through the magnetic pipe channel and the water outlet channel.

Water magnetization unit, each magnet be the loop type just magnet follows the extending direction interval of axis set up in the magnetization pipe, the guide plate certainly the top of magnetization pipe extends to the bottom of magnetization pipe.

Water magnetization unit, magnet with arrange the equidistant set up in magnetization pipe, the guide plate has and is less than arrange the screw thread interval of interval.

The water magnetizing device, the flow dividing part is provided with two intercommunications the water inlet channel and the flow dividing hole of the outer flow channel.

Water magnetization unit, reposition of redundant personnel portion have around the axis is located go into water course and spiro union in go into the spiro union section of water spare, connect the reposition of redundant personnel end wall on interior pipe wall top, and center on the axis connect in the reposition of redundant personnel section of reposition of redundant personnel end wall and this spiro union section, the reposition of redundant personnel hole form in the reposition of redundant personnel section.

Water magnetization unit, go out the water spare and penetrate go out the water end wall and have the neighbouring the external screw thread face of magnetization pipe, but the connecting piece be the nut and spiro union in the external screw thread face.

The beneficial effects of the utility model reside in that: through the spiral guide plate, water flows spirally when flowing in the inner flow channel, the flowing distance of the water in the water magnetizing device is increased, compared with the existing magnetizing device, the water magnetizing device can prolong the time of the water staying in the water magnetizing device at the same flow speed, and the magnetizing effect is improved.

Drawings

FIG. 1 is a cross-sectional view of a prior art magnetizing apparatus;

fig. 2 is an exploded perspective view of an embodiment of the water magnetizing apparatus of the present invention;

fig. 3 is a sectional view of this embodiment.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

Referring to fig. 2 and 3, an embodiment of the water magnetizing apparatus of the present invention is used for magnetizing water, and the water magnetizing apparatus includes a housing unit 1, a magnetizing unit 2, and a sleeve unit 3.

The housing unit 1 includes an outer tube wall 11 surrounding an axis L, a coupling portion 12 surrounding and coupled to the outer tube wall 11, a cover 13 detachably covering the top of the outer tube wall 11 along the axis L, a coupling ring wall 14 surrounding the cover 13 and detachably fastened to the coupling portion 12, a water inlet member 15 penetrating the cover 13 and having a water inlet channel 151, a water outlet end wall 16 coupled to the outer tube wall 11 on a side opposite to the cover 13, and a water outlet member 17 coupled to the water outlet end wall 16 and having a water outlet channel 171. The combining portion 12 has an combining external thread 121, the combining annular wall 14 has an combining internal thread 141 corresponding to the combining external thread 121, when the combining annular wall 14 is locked to the combining portion 12, the combining annular wall 14 pushes the housing cover 13 toward the top of the outer tube wall 11 to make the housing cover 13 tightly abut against the top of the outer tube wall 11. The outlet member 17 penetrates the outlet end wall 16 and has an externally threaded surface 172 adjacent to the magnetizing tube 21.

The magnetizing unit 2 includes a magnetizing tube 21 disposed in the outer tube wall 11 and surrounding the axis L, a plurality of magnets 22 disposed inside the magnetizing tube 21, a guide plate 23 spirally surrounding the magnetizing tube 21 and extending from the top of the magnetizing tube 21 to the bottom of the magnetizing tube 21, and a connecting member 24 surrounding the axis L and connecting the bottom of the magnetizing tube 21 and the water outlet member 17, wherein the magnetizing tube 21 defines a magnetic tube passage 211 penetrating along the axis L and having a bottom communicating with the water outlet channel 171. In this embodiment, the connecting member 24 is a nut and can be threaded onto the externally threaded surface 172.

Each magnet 22 is ring-shaped, the magnets 22 are disposed at intervals on the magnetizing tube 21 along the extending direction of the axis L, the magnets 22 are disposed at equal intervals on the magnetizing tube 21 at an arrangement distance D1, and the flow guide plate 23 has a thread pitch D2 smaller than the arrangement distance D1. Since the thread pitch D2 is smaller than the arrangement pitch D1, the number of turns of the baffle 23 around the magnetizing tube 21 can be increased, so that water can be magnetized by the adjacent magnet 22 while rotating around the magnetizing tube 21 through the baffle 23 to increase the magnetizing effect.

The sleeve unit 3 includes an inner pipe wall 31 surrounding the magnetizing pipe 21 and located inside the outer pipe wall 11, and a branch portion 32 connected to the top of the inner pipe wall 31 and connected to the water inlet member 15.

The flow dividing portion 32 has a threaded section 321 surrounding the axis L and located in the water inlet channel 151 and threaded to the water inlet member 15, a flow dividing end wall 322 connecting the top end of the inner pipe wall 31, and a flow dividing section 323 surrounding the axis L and connecting the flow dividing end wall 322 and the threaded section 321. The screw segment 321 has an outer screw surface 325 and is screwed to the water inlet member 15, and the flow dividing segment 323 has two flow dividing holes 324 communicating the water inlet channel 151 with the inner pipe wall 31 and the outer pipe wall 11.

The inner pipe wall 31 and the outer pipe wall 11 define an outer flow channel 18, and the inner pipe wall 31, the magnetizing pipe 21 and the flow guiding plate 23 define an inner flow channel 33.

The flow direction of water in the water magnetizing device is shown by arrows in fig. 3: when water flows into the water inlet channel 151 and flows into the outer flow channel 18 through the diversion holes 324, the water sequentially flows through the inner flow channel 33 and spirally flows through the guide plate 23, and then flows out of the water outlet member 17 through the magnetic tube passage 211 and the water outlet channel 171, thereby achieving the effect of magnetizing the water.

To sum up, the utility model discloses water magnetization unit, through the heliciform guide plate 23, make water in spiral flow during the interior runner 33 increases water in the distance that flows in the water magnetization unit compares in current magnetization unit 9, can prolong under the same velocity of flow water stop in time in the water magnetization unit promotes the magnetization effect, so can reach the purpose of the utility model.

Claims

1. A water magnetizing apparatus for magnetizing water; the method is characterized in that:

the water magnetizing device comprises a shell unit, a magnetizing unit and a sleeve unit, wherein the shell unit comprises an outer pipe wall surrounding an axis, a shell cover which can be detached and is arranged at the top of the outer pipe wall along the axis in a covering manner, a water inlet piece which is arranged on the shell cover and is provided with a water inlet channel, a water outlet end wall which is connected to one side of the outer pipe wall opposite to the shell cover, and a water outlet piece which is connected to the water outlet end wall and is provided with a water outlet channel, the magnetizing unit comprises a magnetizing pipe which is arranged in the outer pipe wall and surrounds the axis, a plurality of magnets which are arranged in the magnetizing pipe, a guide plate which is spirally wound on the magnetizing pipe, and a connecting piece which surrounds the axis and is connected with the bottom end of the magnetizing pipe and the water outlet piece, the magnetizing pipe defines a magnetic pipe channel which penetrates along the axis and is communicated with the water outlet channel at the bottom, and the sleeve unit comprises an inner pipe wall which surrounds the magnetizing pipe and is arranged in the outer pipe wall, and the flow dividing part is connected to the top of the inner pipe wall and connected with the water inlet piece, the flow dividing part is provided with at least one flow dividing hole communicated with the water inlet channel and the space between the inner pipe wall and the outer pipe wall, the inner pipe wall and the outer pipe wall define an outer flow channel, and the inner pipe wall, the magnetizing pipe and the flow guide plate define an inner flow channel, wherein when water flows into the water inlet channel and flows into the outer flow channel through the at least one flow dividing hole, the water sequentially flows through the inner flow channel and the flow guide plate, and then flows out of the water outlet piece through the magnetic pipe channel and the water outlet channel.

2. The water magnetizing apparatus according to claim 1, wherein: each magnet is the ring type just magnet edge the extending direction interval of axis sets up in the magnetization pipe, the guide plate is certainly the top of magnetization pipe extends to the bottom of magnetization pipe.

3. The water magnetizing apparatus according to claim 2, wherein: the magnets are arranged on the magnetizing tube at equal intervals at an arrangement interval, and the guide plate has a thread interval smaller than the arrangement interval.

4. The water magnetizing apparatus according to claim 1, wherein: the flow dividing part is provided with two flow dividing holes which are communicated with the water inlet channel and the outer flow channel.

5. The water magnetizing apparatus according to claim 4, wherein: the flow dividing part is provided with a threaded section which surrounds the axis, is positioned in the water inlet channel and is threaded on the water inlet piece, a flow dividing end wall which is connected with the top end of the inner pipe wall, and a flow dividing section which surrounds the axis and is connected with the flow dividing end wall and the threaded section, and the flow dividing hole is formed in the flow dividing section.

6. The water magnetizing apparatus according to claim 1, wherein: the water outlet piece penetrates through the water outlet end wall and is provided with an external thread surface adjacent to the magnetizing pipe, and the connecting piece is a screw cap and can be screwed on the external thread surface.