CN214693436U - Ion water treatment ware with high stability - Google Patents

Ion water treatment ware with high stability Download PDF

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Publication number
CN214693436U
CN214693436U CN202120957495.2U CN202120957495U CN214693436U CN 214693436 U CN214693436 U CN 214693436U CN 202120957495 U CN202120957495 U CN 202120957495U CN 214693436 U CN214693436 U CN 214693436U
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reaction plate
water
shell
shield
anode
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CN202120957495.2U
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Chinese (zh)
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张文波
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Taizhou Senyeli New Energy Technology Co ltd
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Taizhou Senyeli New Energy Technology Co ltd
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Abstract

An ion water processor with high stability comprises a shell, a water inlet joint arranged on the left side of the shell and a water outlet joint arranged on the right side of the shell, wherein the upper end of the shell is in threaded connection with a mounting seat, a circuit board is arranged on the mounting seat, a sealing cover is in threaded connection with the outside of the mounting seat, the circuit board is connected with an electric wire, the electric wire penetrates out of the sealing cover, electrode columns are arranged on the front side and the rear side of the lower surface of the circuit board, an anode reaction plate positioned in the shell is arranged at the lower end of a front side electrode column, and a cathode reaction plate positioned in the shell is arranged at the lower end of a rear side electrode column; a water-passing gap is arranged between the anode reaction plate and the cathode reaction plate; the water inlet joint and the water outlet joint are opposite to the water passing gap. The utility model discloses an ionic water treater with high stability can effectively guarantee the stability when negative pole reaction plate and anode reaction plate decompose the sea water, effectively avoids negative pole reaction plate and anode reaction plate to receive the cracked condition that appears after the sea water flows and assaults, prolongs the life of ionic water treater.

Description

Ion water treatment ware with high stability
Technical Field
The utility model relates to an ionic water treater, in particular to an ionic water treater with high stability.
Background
The solar energy ion water treatment device can effectively kill algae, fungi, bacteria and other substances in the swimming pool by utilizing the sodium hypochlorite without utilizing effective chlorine contained in disinfectant, realizes no chlorine in the swimming pool, and ensures the personal health of swimming personnel.
The water treatment device is characterized in that the water treatment device is matched with a water suction pump when in use, so that the seawater is conveyed, the water outlet end of the water suction pump is connected with the water inlet connector of the ionic water treatment device, when the water suction pump sucks the seawater through the water inlet end of the water suction pump, the seawater can sequentially flow through the water outlet end of the water suction pump and the water inlet connector of the ionic water treatment device into the shell of the ionic water treatment device, the shell of the ionic water treatment device is internally provided with a cathode reaction plate and an anode reaction plate, and under the condition of electrification, the cathode reaction plate and the anode reaction plate can decompose sodium chloride in the seawater into sodium hypochlorite, so that the effective sterilization effect is achieved.
In the process of conveying seawater into the ionic water treatment device and outputting the seawater to the outside of the ionic water treatment device, the seawater flows by the pressure of the water pump, so the seawater flowing through the ionic water treatment device has a certain pressure, the pressure can directly impact the cathode reaction plate and the anode reaction plate, the upper ends of the cathode reaction plate and the anode reaction plate are connected to the electrode column, and under the impact of long-term water flow, the situation of fracture between the cathode reaction plate and the electrode column and between the anode reaction plate and the electrode column is easily caused, so that the anode reaction plate and the cathode reaction plate can not play a role in decomposing the seawater any more, and the service life of the ionic water treatment device is short.
Disclosure of Invention
The to-be-solved technical problem of the utility model is to provide an ionic water treater with high stability, stability when it can effectively guarantee negative pole reaction board and anode reaction board and decompose the sea water effectively avoids negative pole reaction board and anode reaction board to appear cracked condition after receiving the sea water flow to strike, prolongs the life of ionic water treater.
The utility model provides a technical scheme that above-mentioned technical problem adopted does:
the utility model discloses an ionic water treater with high stability, including the casing, locate the left water supply connector of casing and locate the water connectors on casing right side, the spiro union has the mount pad on the casing, is equipped with the circuit board on the mount pad, and the external spiro union of mount pad has sealed lid, and the circuit board is connected with the electric wire, and the electric wire is worn out outside sealed lid, its characterized in that: the front side and the rear side of the lower surface of the circuit board are provided with electrode columns, the lower end of the front side electrode column is provided with an anode reaction plate positioned in the shell, and the lower end of the rear side electrode column is provided with a cathode reaction plate positioned in the shell; a water-passing gap is arranged between the anode reaction plate and the cathode reaction plate; the water inlet joint and the water outlet joint are opposite to the water passing gap; a supporting plate is arranged between the mounting seat and the shell; the front side of the supporting plate is provided with an anode through hole, and the anode reaction plate passes through the anode through hole; the lower surface of the supporting plate is provided with a front shield corresponding to the position of the anode perforation, and the front shield encloses the anode reaction plate; the outer walls of the front side and the rear side of the front shield are provided with a plurality of anode reaction holes communicated with the inner space of the front shield; the rear side of the supporting plate is provided with a cathode through hole, and the cathode reaction plate passes through the cathode through hole; the lower surface of the supporting plate is provided with a rear shield corresponding to the position of the cathode perforation, and the rear shield encloses the cathode reaction plate; the outer walls of the front side and the rear side of the rear shield are provided with a plurality of cathode reaction holes communicated with the inner space of the rear shield.
The outer walls of the left sides of the front shield and the rear shield are provided with a left guide strip, the cross section of the left guide strip is in an isosceles triangle shape, and the width of the left guide strip is gradually decreased from right to left; the right outer walls of the right sides of the front shield and the rear shield are provided with a right guide strip, the cross section of the right guide strip is in an isosceles triangle shape, and the width of the right guide strip is gradually decreased from left to right; the outer wall of the lower side of the front shield and the outer wall of the lower side of the rear shield are provided with lower guide strips, the cross sections of the lower guide strips are isosceles triangles, and the width of the lower guide strips is gradually decreased from top to bottom.
An annular limiting step is arranged on the inner wall of the upper end port of the shell; a limiting pipe matched with the limiting step extends upwards from the outer edge of the supporting plate; a clamping part positioned between the upper end surface of the shell and the lower surface of the mounting seat extends outwards from the outer edge of the upper end of the limiting pipe; and a screwed pipe extends downwards from the outer edge of the lower surface of the mounting seat, and the screwed pipe is screwed outside the upper end of the shell.
The water inlet joint is arranged on the left side of the upper end of the shell; the water outlet joint is arranged on the right side of the lower end of the shell.
The utility model has the advantages that:
compared with the prior art, the ion water processor with high stability adopting the structure of the utility model protects the anode reaction plate and replaces the anode reaction plate to bear pressure, the water pressure actually borne by the anode reaction plate can be almost ignored, meanwhile, the cathode reaction plate can be protected and replaces the cathode reaction plate to bear pressure through the rear shield, the water pressure actually borne by the cathode reaction plate can be almost ignored, the water inlet joint and the water outlet joint are opposite to the water passage gap, when seawater enters the shell through the water inlet joint, water flow can directly rush into the water passage gap, the direct impact of the seawater can be effectively avoided by the anode reaction plate and the cathode reaction plate, thereby effectively avoiding the situation that the anode reaction plate and the cathode reaction plate directly bear the impact of the seawater and shaking and breaking easily occurs, and reducing the influence of the seawater pressure on the anode reaction plate and the cathode reaction plate to the maximum extent, effectively guarantee the high stability when anode reaction board and cathode reaction board use, avoid appearing cracked condition, effectively prolong the life of ion water treatment ware.
Drawings
FIG. 1 is a schematic view of an angle of the high stability ion water treatment apparatus of the present invention;
FIG. 2 is a schematic view showing another aspect of the high stability ion water treatment apparatus of the present invention.
Detailed Description
The invention is described in further detail below with reference to the following figures and detailed description:
referring to fig. 1 and 2, the present invention provides an ionized water processor with high stability, which includes a housing 1, a water inlet connector 2 disposed on the left side of the housing 1, and a water outlet connector 3 disposed on the right side of the housing 1, wherein the upper end of the housing 1 is screwed with a mounting seat 4, the mounting seat 4 is provided with a circuit board 5, the mounting seat 4 is externally screwed with a sealing cover 6, the circuit board 5 is connected with an electric wire 7, the electric wire 7 penetrates out of the sealing cover 6, electrode posts 8 are disposed on the front and rear sides of the lower surface of the circuit board 5, an anode reaction plate 9 disposed in the housing 1 is disposed at the lower end of the front electrode post 8, and a cathode reaction plate 10 disposed in the housing 1 is disposed at the lower end of the rear electrode post 8; a water-passing gap 11 is arranged between the anode reaction plate 9 and the cathode reaction plate 10; the water inlet joint 2 and the water outlet joint 3 are opposite to the water passing gap 11; a supporting plate 12 is arranged between the mounting seat 4 and the shell 1; an anode through hole 13 is arranged at the front side of the supporting plate 12, and the anode reaction plate 9 passes through the anode through hole 13; the lower surface of the supporting plate 12 is provided with a front shield 14 corresponding to the position of the anode through hole 13, and the anode reaction plate 9 is enclosed by the front shield 14; the outer walls of the front side and the rear side of the front shield 14 are provided with a plurality of anode reaction holes 15 communicated with the inner space of the front shield; the back side of the support plate 12 is provided with a cathode through hole 16, and the cathode reaction plate 10 passes through the cathode through hole 16; the lower surface of the supporting plate 12 is provided with a rear shield 17 corresponding to the position of the cathode through hole 16, and the cathode reaction plate 10 is enclosed by the rear shield 17; the outer walls of the front side and the rear side of the rear shield 17 are provided with a plurality of cathode reaction holes 18 communicated with the inner space of the rear shield.
The outer walls of the left sides of the front shield 14 and the rear shield 17 are provided with a left guide strip 19, the cross section of the left guide strip 19 is in an isosceles triangle shape, and the width of the left guide strip 19 is gradually decreased from right to left; the right outer walls of the front shield 14 and the rear shield 17 are provided with a right guide strip 20, the cross section of the right guide strip 20 is in an isosceles triangle shape, and the width of the right guide strip 20 is gradually decreased from left to right; the outer walls of the lower sides of the front shield 14 and the rear shield 17 are provided with a lower guide strip 21, the cross section of the lower guide strip 21 is in an isosceles triangle shape, and the width of the lower guide strip 21 is gradually decreased from top to bottom.
An annular limiting step 22 is arranged on the inner wall of the upper end port of the shell 1; a limit pipe 23 matched with the limit step 22 extends upwards from the outer edge of the support plate 12; a clamping part 24 positioned between the upper end surface of the shell 1 and the lower surface of the mounting seat 4 extends outwards from the outer edge of the upper end of the limiting pipe 23; and a screwed pipe 25 extends downwards from the outer edge of the lower surface of the mounting seat 4, and the screwed pipe 25 is screwed outside the upper end of the shell 1.
The water inlet connector 2 is arranged on the left side of the upper end of the shell 1; the water outlet joint 3 is arranged on the right side of the lower end of the shell 1.
The utility model discloses a use method as follows:
when the water pump conveys seawater into the shell 1 of the ionic water treatment device through the water inlet connector 2, as the water passing gap 11 between the anode reaction plate 9 and the cathode reaction plate 10 is opposite to the water inlet connector 2, the seawater directly rushes into the water passing gap 11 between the anode reaction plate 9 and the cathode reaction plate 10 along with the seawater entering into the shell 1, and finally the seawater fills the inner space of the whole shell 1 along with the continuous entering of the subsequent water flow after the seawater fills the inner space of the whole shell 1, the water pressure inside the shell 1 is increased, the front shield 14 protects the anode reaction plate 9, the water pressure can effectively replace the anode reaction plate 9 to bear, the rear shield 17 protects the cathode reaction plate 10, the water pressure effectively replaces the cathode reaction plate 10 to bear, and a part of the seawater entering into the shell 1 enters the front shield 14 through the anode reaction hole 15 to be connected with the electrified anode reaction plate 9 Touch, another part of seawater entering the casing 1 can enter the back shield 17 through the cathode reaction hole 18 and contact with the electrified cathode reaction plate 10, the anode reaction plate 9 and the cathode reaction plate 10 can decompose the seawater contacting with the anode reaction plate and the cathode reaction plate, after decomposing sodium hypochlorite, the seawater finally flows out through the water outlet connector 3 and takes out the sodium hypochlorite, and the effect of disinfection and sterilization is achieved.
In conclusion, the anode reaction plate 9 is protected by the front protective cover 14 and the anode reaction plate 9 is replaced by the front protective cover 14, so that the water pressure actually borne by the anode reaction plate 9 can be almost ignored, meanwhile, the cathode reaction plate 10 is protected by the rear protective cover 17 and the cathode reaction plate 10 is replaced by the rear protective cover 17, so that the water pressure actually borne by the cathode reaction plate 10 can be almost ignored, the water inlet connector 2 and the water outlet connector 3 are both opposite to the water passage gap 11, when seawater enters the casing 1 through the water inlet connector 2, the water flow can directly rush into the water passage gap 11, the anode reaction plate 9 and the cathode reaction plate 10 can effectively avoid the direct impact of the seawater, thereby effectively avoiding the situation that the anode reaction plate 9 and the cathode reaction plate 10 directly bear the impact of the seawater and are easy to shake and break, and reducing the influence of the seawater pressure on the anode reaction plate 9 and the cathode reaction plate 10 to the maximum extent, effectively ensures the high stability of the anode reaction plate 9 and the cathode reaction plate 10 when in use, avoids the fracture condition and effectively prolongs the service life of the ionic water treatment device.
The left guide strips 19 are arranged on the outer walls of the left sides of the front shield 14 and the rear shield 17, the cross sections of the left guide strips 19 are in an isosceles triangle shape, the width of the left guide strips 19 is gradually decreased from right to left, the left guide strips 19 can effectively cut and guide seawater flowing from left to right, the seawater is enabled to be distributed to the front side and the rear side of the front shield 14 and the rear shield 17, and the pressure actually born by the front shield 14 and the rear shield 17 is effectively reduced; the right side outer walls of the front shield 14 and the rear shield 17 are provided with right guide strips 20, the cross sections of the right guide strips 20 are in an isosceles triangle shape, the width of the right guide strips 20 is gradually decreased from left to right, the right guide strips 20 can cut and guide seawater flowing from right to left due to the blocking of the right side inner wall of the shell 1, so that the seawater is divided to the front side and the rear side of the front shield 14 and the rear shield 17, and the pressure actually born by the front shield 14 and the rear shield 17 can be effectively reduced; the outer walls of the lower sides of the front shield 14 and the rear shield 17 are provided with lower guide strips 21, the cross sections of the lower guide strips 21 are isosceles triangles, the widths of the lower guide strips 21 are gradually decreased from top to bottom, the lower guide strips 21 can cut and guide seawater flowing upwards from bottom to top due to the blocking of the inner wall of the lower side of the shell 1, so that the seawater is shunted to the front side and the rear side of the front shield 14 and the rear shield 17, the actual bearing pressure of the front shield 14 and the rear shield 17 is effectively reduced, the actual bearing pressure of the anode reaction plate 9 and the cathode reaction plate 10 is reduced under the condition that the actual bearing pressure of the front shield 14 and the rear shield 17 is reduced, and the stability of the anode reaction plate 9 and the stability of the cathode reaction plate 10 are further improved.
The inner wall of the port at the upper end of the shell 1 is provided with an annular limiting step 22, the outer edge of the supporting plate 12 upwards extends out of a limiting pipe 23 matched with the limiting step 22, the outer edge of the upper end of the limiting pipe 23 outwards extends out of a clamping part 24 positioned between the upper end surface of the shell 1 and the lower surface of the mounting seat 4, the outer edge of the lower surface of the mounting seat 4 downwards extends out of a screwed pipe 25, the screwed pipe 25 is screwed outside the upper end of the shell 1, the shell 1 is favorably assembled and disassembled by the fixing mode, the parts are convenient to replace and maintain, and the front protective cover 14 and the rear protective cover 17 are favorably cleaned.
The water inlet connector 2 is arranged on the left side of the upper end of the shell 1, the water outlet connector 3 is arranged on the right side of the lower end of the shell 1, the water inlet connector 2 and the water outlet connector 3 are not on the same axis, the flow stroke between the water inlet connector 2 and the water outlet connector 3 can be effectively prolonged, and the anode reaction plate 9 and the cathode reaction plate 10 can be guaranteed to have enough time for decomposing seawater.

Claims (4)

1. The utility model provides an ionic water treater with high stability, includes the casing, locates the left water supply connector of casing and locates the play water connector on casing right side, and casing upper end spiro union has the mount pad, is equipped with the circuit board on the mount pad, and the outer spiro union of mount pad has sealed lid, and the circuit board is connected with the electric wire, and its characterized in that is worn out outside sealed lid to the electric wire: the front side and the rear side of the lower surface of the circuit board are provided with electrode columns, the lower end of the front side electrode column is provided with an anode reaction plate positioned in the shell, and the lower end of the rear side electrode column is provided with a cathode reaction plate positioned in the shell; a water-passing gap is arranged between the anode reaction plate and the cathode reaction plate; the water inlet joint and the water outlet joint are opposite to the water passing gap; a supporting plate is arranged between the mounting seat and the shell; the front side of the supporting plate is provided with an anode through hole, and the anode reaction plate passes through the anode through hole; the lower surface of the supporting plate is provided with a front shield corresponding to the position of the anode perforation, and the front shield encloses the anode reaction plate; the outer walls of the front side and the rear side of the front shield are provided with a plurality of anode reaction holes communicated with the inner space of the front shield; the rear side of the supporting plate is provided with a cathode through hole, and the cathode reaction plate passes through the cathode through hole; the lower surface of the supporting plate is provided with a rear shield corresponding to the position of the cathode perforation, and the rear shield encloses the cathode reaction plate; the outer walls of the front side and the rear side of the rear shield are provided with a plurality of cathode reaction holes communicated with the inner space of the rear shield.
2. A water treatment apparatus according to claim 1, wherein: the outer walls of the left sides of the front shield and the rear shield are provided with a left guide strip, the cross section of the left guide strip is in an isosceles triangle shape, and the width of the left guide strip is gradually decreased from right to left; the right outer walls of the right sides of the front shield and the rear shield are provided with a right guide strip, the cross section of the right guide strip is in an isosceles triangle shape, and the width of the right guide strip is gradually decreased from left to right; the outer wall of the lower side of the front shield and the outer wall of the lower side of the rear shield are provided with lower guide strips, the cross sections of the lower guide strips are isosceles triangles, and the width of the lower guide strips is gradually decreased from top to bottom.
3. A water treatment apparatus according to claim 1, wherein: an annular limiting step is arranged on the inner wall of the upper end port of the shell; a limiting pipe matched with the limiting step extends upwards from the outer edge of the supporting plate; a clamping part positioned between the upper end surface of the shell and the lower surface of the mounting seat extends outwards from the outer edge of the upper end of the limiting pipe; and a screwed pipe extends downwards from the outer edge of the lower surface of the mounting seat, and the screwed pipe is screwed outside the upper end of the shell.
4. A water treatment apparatus according to claim 1, wherein: the water inlet joint is arranged on the left side of the upper end of the shell; the water outlet joint is arranged on the right side of the lower end of the shell.
CN202120957495.2U 2021-05-07 2021-05-07 Ion water treatment ware with high stability Active CN214693436U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202120957495.2U CN214693436U (en) 2021-05-07 2021-05-07 Ion water treatment ware with high stability

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202120957495.2U CN214693436U (en) 2021-05-07 2021-05-07 Ion water treatment ware with high stability

Publications (1)

Publication Number Publication Date
CN214693436U true CN214693436U (en) 2021-11-12

Family

ID=78551439

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202120957495.2U Active CN214693436U (en) 2021-05-07 2021-05-07 Ion water treatment ware with high stability

Country Status (1)

Country Link
CN (1) CN214693436U (en)

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