CN120736643B - Electrolytic water sterilizing device - Google Patents

Abstract

The invention belongs to the technical field of water electrolysis equipment and discloses an electrolytic water sterilization device which is technically characterized by comprising a box body, wherein a cathode rod is arranged on one side of an inner cavity of the box body, an anode rod is arranged on the other side of the inner cavity of the box body, a guide plate and a cleaning brush are arranged in the inner cavity of the box body, a positioning mechanism is arranged in the inner cavity of the box body and comprises a supporting component and a transmission component, a sedimentation cavity is arranged at the inner bottom of the box body, a collecting mechanism is arranged in the sedimentation cavity and comprises a sealing component and a guide bar component, the supporting component and the transmission component are matched with each other, the guide plate and the cleaning brush can be conveniently controlled to rotate around the cathode rod and the anode rod, the cleaning brush can carry out all-round cleaning treatment on scale attached to the surfaces of the cathode rod and the anode rod, the guide plate can accelerate the water flow speed attached to the cathode rod and the anode rod, and the electrolytic water efficiency is effectively improved.

Description

Electrolytic water sterilizing device

Technical Field

The invention relates to the technical field of water electrolysis equipment, in particular to an electrolytic water sterilization device.

Background

The generation of electrolytic sterilizing water generally refers to the process of electrifying electrodes, and the electrolytic water has sterilizing function by using the product of high free chlorine generated by positive electrode of the product obtained by the electrolytic action of electrolyte aqueous solution containing salts in an electrolytic device, comprising chlorine, hypochlorous acid molecules, hypochlorite ions, hydrochloric acid and the like.

A large amount of scale is generated during the electrolysis of water, and the scale is attached to the surfaces of the cathode and the anode, so that the effect of the electrolysis of water between the cathode and the anode is continuously reduced as the attached amount of the scale is continuously increased. In the process of water electrolysis, the water solution cannot flow effectively, so that the water solution cannot contact with the cathode and the anode in all directions, and the efficiency of water electrolysis is further reduced.

Disclosure of Invention

The invention aims to provide an electrolyzed water sterilization device which solves the problems in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

The utility model provides an electrolytic water sterilizing device, includes the box, box surface hinge installs the case lid, the case lid surface is provided with the feed liquor pipe, the box bottom is provided with the drain pipe, box inner chamber one side is provided with multiunit cathode rod that distributes side by side, box inner chamber opposite side is provided with multiunit anode rod that distributes side by side, and cathode rod and anode rod are connected with outside conducting wire respectively, the box inner chamber is provided with guide plate and cleaning brush, the box inner chamber is provided with the positioning mechanism mutually supporting with guide plate and cleaning brush, positioning mechanism is including supporting component and drive assembly, supporting component is located the box inner side wall and is connected with guide plate and cleaning brush, and supporting component is used for locating guide plate and cleaning brush in cathode rod and anode rod outside, the drive assembly is located the box inner chamber and is connected with supporting component, and the drive assembly is rotated around cathode rod and anode rod through the mode control guide plate and the cleaning brush mutually supporting component mutually supporting, the sedimentation chamber has been seted up to the bottom in the box inner bottom, the sedimentation chamber extends to the box bottom and is provided with guide plate and cleaning brush mutually supporting component, the guide plate and the sealing component are located the seal assembly and seal assembly is used for sealing the top to seal the top, seal assembly is located the seal assembly and seal assembly is sealed to the top and is located the seal assembly and is sealed to the top and is mutually supported the seal assembly.

As a further scheme of the invention, the supporting component comprises a plurality of groups of bearing rings rotatably arranged on the inner side wall of the box body, the plurality of groups of bearing rings are respectively sleeved on the outer sides of the cathode rod and the anode rod, the surfaces of the bearing rings are rotatably provided with first vertical rods, the guide plates are fixedly arranged on the surfaces of the first vertical rods, the surfaces of the bearing rings are fixedly provided with second vertical rods, and a plurality of groups of cleaning brushes are uniformly distributed on the surfaces of the second vertical rods.

As a further scheme of the invention, the transmission assembly comprises a box body inner cavity, a driving column is rotatably arranged in the box body inner cavity, one end of the driving column extends to the outer side of the box body and is connected with a motor, a plurality of groups of struts which are distributed in parallel are fixedly arranged on the surface of the driving column, an arc-shaped positioning strip is fixedly arranged at one end of each strut far away from the driving column, an arc-shaped rack is arranged on the side wall of each positioning strip, a positioning gear ring is fixedly arranged on the side wall of each bearing ring, and the positioning gear ring is meshed and matched with the racks.

As a further scheme of the invention, the sealing component comprises a sealing plate rotatably arranged on one side of a sedimentation cavity, a blocking plate positioned above the sealing plate is fixedly arranged on the other side of the sedimentation cavity, an extrusion spring is fixedly arranged on the side wall of the sedimentation cavity, and the telescopic end of the extrusion spring is connected with the sealing plate.

As a further scheme of the invention, the guide assembly comprises an arc-shaped chute arranged on the inner side wall of the box body, a positioning block is slidably arranged in the chute, the positioning block is made of magnetic materials, a return spring is fixedly arranged in the chute, the telescopic end of the return spring is connected with the positioning block, a wire slot communicated with the sedimentation cavity is inwards arranged on the side wall of the chute, a traction rope is fixedly arranged on the bottom wall of the sealing plate, one end of the traction rope, which is far away from the sealing plate, penetrates through the wire slot and is connected with the positioning block, and a magnetic block matched with the positioning block is fixedly arranged on the surface of the positioning strip.

As a further scheme of the invention, the surface of the first vertical rod is provided with a rotating part, the rotating part comprises a guiding fluted disc fixedly arranged on the surface of the first vertical rod, a plurality of groups of connecting rods are fixedly arranged on the inner side wall of the box body, a guiding gear ring is fixedly arranged on the plurality of groups of connecting rods together, and the guiding gear ring is in meshed connection with the guiding fluted disc.

As a still further proposal of the invention, the surface of the supporting rod is fixedly provided with a spoiler.

Compared with the prior art, the water electrolysis device has the beneficial effects that the supporting component and the transmission component are matched, so that the deflector and the cleaning brush can be conveniently controlled to rotate around the cathode rod and the anode rod, the cleaning brush can carry out all-round cleaning treatment on the scale attached to the surfaces of the cathode rod and the anode rod, the deflector can accelerate the water flow speed attached to the cathode rod and the anode rod, the water solution is fully contacted with the cathode rod and the anode rod, the water electrolysis efficiency is effectively improved, and the problem that the current scale can be attached to the surfaces of the cathode and the anode, and the water electrolysis effect of the cathode and the anode is continuously reduced is solved.

Through setting up guide assembly and sealing component mutually supporting, can control the incrustation scale that the box inner chamber cleared up and the aqueous solution of box inner chamber mutually separate, effectively avoid incrustation scale and aqueous solution to mix, and then improve the electrolysis water quality.

Drawings

Fig. 1 is a schematic perspective view of an electrolyzed water sterilization apparatus according to an embodiment of the present invention.

Fig. 2 is a schematic diagram of a front view of an electrolytic water sterilizing apparatus according to an embodiment of the present invention.

Fig. 3 is a schematic diagram illustrating an internal cross-sectional structure of a case in an electrolyzed water sterilization apparatus according to an embodiment of the present invention.

Fig. 4 is a schematic view of a bearing ring and a connection structure thereof in an electrolyzed water sterilization apparatus according to an embodiment of the present invention.

Fig. 5 is a schematic diagram of a driving post and a connection structure thereof in an electrolyzed water sterilization apparatus according to an embodiment of the present invention.

Fig. 6 is an enlarged schematic view of the structure of fig. 2 a.

Fig. 7 is an enlarged schematic view of the structure of fig. 2B.

The cleaning device comprises a 1-box body, a 11-box cover, a 12-liquid inlet pipe, a 13-guide and discharge pipe, a 2-cathode rod, a 3-anode rod, a 4-guide plate, a 5-cleaning brush, a 6-positioning mechanism, a 61-supporting component, a 611-bearing ring, a 612-first vertical rod, a 613-second vertical rod, a 62-transmission component, a 621-driving column, a 622-motor, a 623-supporting rod, a 624-positioning strip, a 625-rack, a 626-positioning gear ring, a 7-sedimentation cavity, a 71-sealing cover, an 8-collecting mechanism, a 81-sealing component, a 811-sealing plate, a 812-blocking plate, a 813-extrusion spring, a 82-guide and discharge component, a 821-sliding groove, a 822-positioning block, a 823-return spring, a 824-wire groove, a 825-traction rope, a 826-magnetic block, a 9-rotating part, a 91-guide fluted disc, a 92-connecting rod, a 93-guide gear ring and a 10-spoiler.

Detailed Description

It should be noted that, without conflict, the embodiments of the present invention and features of the embodiments may be combined with each other.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

As shown in fig. 1,2,3 and 4, a structure diagram of an electrolyzed water sterilization apparatus according to an embodiment of the present invention includes a case 1, a case cover 11 is hinged on a surface of the case 1, a liquid inlet pipe 12 is disposed on a surface of the case cover 11, a drain pipe 13 is disposed at a bottom end of the case 1, a plurality of groups of cathode bars 2 distributed in parallel are disposed at one side of an inner cavity of the case 1, a plurality of groups of anode bars 3 distributed in parallel are disposed at another side of the inner cavity of the case 1, the cathode bars 2 and the anode bars 3 are respectively connected with external conductive wires, a deflector 4 and a cleaning brush 5 are disposed in an inner cavity of the case 1, a positioning mechanism 6 matched with the deflector 4 and the cleaning brush 5 is disposed in an inner cavity of the case 1, the positioning mechanism 6 includes a support assembly 61 and a transmission assembly 62, the support assembly 61 is disposed on an inner side wall of the case 1 and connected with the deflector 4 and the cleaning brush 5, the supporting component 61 is used for positioning the guide plate 4 and the cleaning brush 5 outside the cathode rod 2 and the anode rod 3, the transmission component 62 is positioned at the inner cavity of the box body 1 and is connected with the supporting component 61, the transmission component 62 controls the guide plate 4 and the cleaning brush 5 to rotate around the cathode rod 2 and the anode rod 3 in a mode of being mutually matched with the supporting component 61, the sedimentation cavity 7 is arranged at the inner bottom of the box body 1, the bottom end of the sedimentation cavity 7 extends to the bottom of the box body 1 and is provided with the sealing cover 71, the collection mechanism 8 is arranged in the sedimentation cavity 7, the collection mechanism 8 comprises the sealing component 81 and the guide bar component 82, the sealing component 81 is positioned at the inner top of the sedimentation cavity 7, the sealing component 81 is used for sealing the top end of the sedimentation cavity 7, the guide bar component 82 is positioned at the inner side wall of the box body 1 and is connected with the sealing component 81, the guide-exhaust assembly 82 controls the top end of the sedimentation chamber 7 to be switched to an opening state by being matched with the sealing assembly 81.

In use, the aqueous solution is injected into the inner cavity of the box body 1 through the liquid inlet pipe 12, the sealing assembly 81 seals the sedimentation chamber 7 initially, and the supporting assembly 61 positions the guide plate 4 and the cleaning brush 5 outside the cathode rod 2 and the anode rod 3. In the process of electrolyzing water, scale produced by electrolysis can be attached to the surfaces of the cathode rod 2 and the anode rod 3, after the scale attached to the surfaces of the cathode rod 2 and the anode rod 3 reaches a certain degree, the transmission assembly 62 is matched with the supporting assembly 61, so that the deflector 4 and the cleaning brush 5 can be controlled to rotate around the cathode rod 2 and the anode rod 3, the cleaning brush 5 can clean the scale attached to the surfaces of the cathode rod 2 and the anode rod 3 in an omnibearing manner when rotating, the cleaned scale can be gradually deposited to the inner bottom of the box body 1, the flow speed of the aqueous solution outside the cathode rod 2 and the anode rod 3 can be improved when the deflector 4 rotates, and then the sufficient contact between the aqueous solution and the cathode rod 2 and the anode rod 3 can be controlled, so that the effect of electrolyzing water is effectively improved. The scale deposits to the bottom in the box 1, guide-exhaust assembly 82 and seal assembly 81 mutually support, can control the sediment chamber 7 top intermittently and switch to the open state, and the scale of bottom can further fall to the sediment intracavity 7 voluntarily in the box 1, and the scale falls to the sediment intracavity 7, and seal assembly 81 seals the processing once more to sediment chamber 7 top, effectively avoids the scale to mix with the aqueous solution of box 1 inner chamber in the stirring in-process.

As shown in fig. 1,3, 4 and 6, as a preferred embodiment of the present invention, the supporting assembly 61 includes a plurality of groups of bearing rings 611 rotatably mounted on the inner side wall of the case 1, the plurality of groups of bearing rings 611 are respectively sleeved on the outer sides of the cathode rod 2 and the anode rod 3, a first upright post 612 is rotatably mounted on the surface of the bearing rings 611, the deflector 4 is fixedly mounted on the surface of the first upright post 612, a second upright post 613 is fixedly mounted on the surface of the bearing rings 611, and the plurality of groups of cleaning brushes 5 are uniformly distributed on the surface of the second upright post 613.

The bearing ring 611 supports and positions the first upright pole 612 and the second upright pole 613 in the inner cavity of the box body 1, the first upright pole 612 positions the guide plate 4 outside the cathode rod 2 and the anode rod 3, the second upright pole 613 positions the cleaning brush 5 outside the cathode rod 2 and the anode rod 3, when the cleaning brush is used, the transmission assembly 62 controls the bearing ring 611 to rotate on the inner side wall of the box body 1, the bearing ring 611 drives the first upright pole 612 and the second upright pole 613 to synchronously rotate around the cathode rod 2 and the anode rod 3, the first upright pole 612 drives the guide plate 4 to rotate around the cathode rod 2 and the anode rod 3, and the guide plate 4 can effectively improve the water flow speed outside the cathode rod 2 and the anode rod 3 so as to control the water solution to fully contact with the anode rod 3 and the cathode rod 2. The second upright 613 drives the cleaning brush 5 to rotate around the cathode rod 2 and the anode rod 3, and the cleaning brush 5 can clean scale attached to the surfaces of the cathode rod 2 and the anode rod 3 in all directions.

As shown in fig. 1, 3, 4 and 5, as a preferred embodiment of the present invention, the transmission assembly 62 includes a driving post 621 rotatably mounted in the cavity of the case 1, one end of the driving post 621 extends to the outside of the case 1 and is connected with a motor 622, a plurality of groups of struts 623 distributed in parallel are fixedly mounted on the surface of the driving post 621, an arc-shaped positioning bar 624 is fixedly mounted on one end of the struts 623 away from the driving post 621, an arc-shaped rack 625 is disposed on a side wall of the positioning bar 624, a positioning gear ring 626 is fixedly mounted on a side wall of the bearing ring 611, and the positioning gear ring 626 is engaged with the rack 625.

When in use, the motor 622 drives the driving post 621 to rotate in the inner cavity of the box body 1, the driving post 621 and the supporting rod 623 are mutually matched to further drive the positioning bar 624 and the rack 625 to synchronously rotate in the inner cavity of the box body 1, and when the rack 625 contacts with the positioning gear ring 626 on the surface of the bearing ring 611, the rack 625 is meshed with the positioning gear ring 626 to drive the bearing ring 611 to rotate in the inner side wall of the box body 1.

As shown in fig. 2, 3 and 7, as a preferred embodiment of the present invention, the sealing assembly 81 includes a sealing plate 811 rotatably installed at one side of the settling chamber 7, a blocking plate 812 fixedly installed at the other side of the settling chamber 7 above the sealing plate 811, and a compression spring 813 fixedly installed at a side wall of the settling chamber 7, and a telescopic end of the compression spring 813 is connected with the sealing plate 811.

Initially, the pressing spring 813 applies an upward pushing force to the sealing plate 811, the blocking plate 812 further limits the sealing plate 811, the top of the sealing plate 811 is in a horizontal state in the settling chamber 7, at this time, the settling chamber 7 is in a closed state, and scale cleaned off the surfaces of the cathode rod 2 and the anode rod 3 gradually settles and falls on the surface of the sealing plate 811. When the positioning strip 624 rotates in the inner cavity of the box body 1, the guide and discharge assembly 82 and the like intermittently control the sealing plate 811 to rotate in the sedimentation cavity 7 to an inclined state, at the moment, the top end of the sedimentation cavity 7 is in an open state, scale deposited on the surface of the sealing plate 811 further falls into the sedimentation cavity 7, when the guide and discharge assembly 82 releases the limit on the sealing plate 811, the extrusion spring 813 pushes the sealing plate 811 to fully rotate to a horizontal state, at the moment, the sealing plate 811 seals the top end of the sedimentation cavity 7 again, the scale is in the sedimentation cavity 7, and the water solution in the inner cavity of the box body 1 is stirred, so that the scale can be effectively prevented from being mixed with the water solution in the inner cavity of the box body 1 in the stirring process.

As shown in fig. 2,3, 5 and 7, as a preferred embodiment of the present invention, the guide assembly 82 includes an arc-shaped chute 821 formed on the inner side wall of the case 1, a positioning block 822 is slidably mounted in the chute 821, the positioning block 822 is made of a magnetic material, a return spring 823 is fixedly mounted in the chute 821, a telescopic end of the return spring 823 is connected with the positioning block 822, a slot 824 in communication with the precipitation chamber 7 is formed in the side wall of the chute 821, a hauling rope 825 is fixedly mounted on the bottom wall of the sealing plate 811, one end of the hauling rope 825 far from the sealing plate 811 passes through the slot 824 and is connected with the positioning block 822, and a magnetic block 826 matched with the positioning block 822 is fixedly mounted on the surface of the positioning bar 624.

The positioning bar 624 drives the magnetic block 826 to synchronously rotate when rotating, when the magnetic block 826 rotates to be in contact with the positioning block 822 in the sliding groove 821, the magnetic block 826 is connected with the positioning block 822 into a whole through magnetic attraction, the magnetic block 826 drives the positioning block 822 to synchronously move in the sliding groove 821, the positioning block 822 and the pulling rope 825 are mutually matched, the sealing plate 811 can be pulled to rotate in the sedimentation cavity 7 to an inclined state, at the moment, the top end of the sedimentation cavity 7 is in an open state, after the positioning block 822 moves to a limit position in the sliding groove 821, the magnetic block 826 continuously rotates, at the moment, the magnetic block 826 and the positioning block 822 are separated from each other, the return spring 823 pushes the positioning block 822 to reversely move to the original position in the sliding groove 821, at the moment, the pulling rope 825 releases the pulling force on the sealing plate 811, the sealing plate 811 is pushed by the extrusion spring 813 to sufficiently rotate to a horizontal state, and at the moment, the top end of the sedimentation cavity 7 is sealed again.

As shown in fig. 3, 4 and 6, as a preferred embodiment of the present invention, the surface of the first upright 612 is provided with a rotating portion 9, the rotating portion 9 includes a guiding fluted disc 91 fixedly installed on the surface of the first upright 612, a plurality of groups of connecting rods 92 are fixedly installed on the inner side wall of the box 1, a guiding gear ring 93 is fixedly installed on the plurality of groups of connecting rods 92 together, and the guiding gear ring 93 is meshed with the guiding fluted disc 91.

The first upright pole 612 drives the guide fluted disc 91 to synchronously rotate when rotating around the cathode rod 2 and the anode rod 3, the guide fluted disc 91 rolls along the surface of the guide gear ring 93 so as to drive the first upright pole 612 to rotate on the surface of the bearing ring 611, and the first upright pole 612 drives the guide plate 4 to rotate while rotating around the cathode rod 2 and the anode rod 3, so that the contact effect of the aqueous solution with the cathode rod 2 and the anode rod 3 is effectively improved.

As shown in fig. 3 and 5, as a preferred embodiment of the present invention, the spoiler 10 is fixedly installed on the surface of the supporting rod 623. The supporting rod 623 drives the spoiler 10 to rotate in the inner cavity of the box body 1, and the spoiler 10 can further improve the flowing effect of the aqueous solution in the inner cavity of the box body 1.

The working principle of the invention is that when the invention is used, the water solution is injected into the inner cavity of the box body 1 through the liquid inlet pipe 12, the extrusion spring 813 initially applies upward thrust to the sealing plate 811, the blocking plate 812 further limits the sealing plate 811, the top of the sealing plate 811 in the sedimentation cavity 7 is in a horizontal state, and the sedimentation cavity 7 is in a closed state.

In the process of water electrolysis, scale produced by electrolysis is attached to the surfaces of the cathode rod 2 and the anode rod 3, when the scale attached to the surfaces of the cathode rod 2 and the anode rod 3 reaches a certain degree, the motor 622 drives the driving column 621 to rotate in the inner cavity of the box body 1, the driving column 621 and the supporting rod 623 are matched with each other to further drive the positioning bar 624 and the rack 625 to synchronously rotate in the inner cavity of the box body 1, and when the rack 625 is contacted with the positioning gear ring 626 on the surface of the bearing ring 611, the rack 625 is meshed with the positioning gear ring 626 to drive the bearing ring 611 to rotate in the inner side wall of the box body 1. The bearing ring 611 drives the first upright rod 612 and the second upright rod 613 to synchronously rotate around the cathode rod 2 and the anode rod 3, the first upright rod 612 drives the guide plate 4 to rotate around the cathode rod 2 and the anode rod 3, and the guide plate 4 can effectively improve the water flow speed at the outer sides of the cathode rod 2 and the anode rod 3, so that the water solution is controlled to be fully contacted with the anode rod 3 and the cathode rod 2. The second upright 613 drives the cleaning brush 5 to rotate around the cathode rod 2 and the anode rod 3, and the cleaning brush 5 can clean scale attached to the surfaces of the cathode rod 2 and the anode rod 3 in all directions.

The scale cleaned off the surface of the cathode rod 2 and the anode rod 3 gradually precipitates and falls on the surface of the sealing plate 811. The positioning bar 624 drives the magnetic block 826 to synchronously rotate when rotating, when the magnetic block 826 rotates to be in contact with the positioning block 822 in the chute 821, the magnetic block 826 is connected with the positioning block 822 into a whole through magnetic attraction, the magnetic block 826 drives the positioning block 822 to synchronously move in the chute 821, the positioning block 822 and the pulling rope 825 are mutually matched, the sealing plate 811 can be pulled to rotate in the sedimentation cavity 7 to an inclined state, at the moment, the top end of the sedimentation cavity 7 is in an open state, scale deposited on the surface of the sealing plate 811 further falls into the sedimentation cavity 7, when the pulling rope 825 releases the restriction on the sealing plate 811, the pressing spring 813 pushes the sealing plate 811 to fully rotate to a horizontal state, at the moment, the sealing plate 811 seals the top end of the sedimentation cavity 7 again, the scale is in the sedimentation cavity 7, and the water solution in the cavity of the box 1 can be effectively prevented from being mixed with the water solution in the cavity of the box 1 in the stirring process.

While the preferred embodiments of the present invention have been described in detail, the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (5)

1. An electrolytic water sterilization device, comprising a housing, a housing cover hingedly mounted on the surface of the housing, an inlet pipe provided on the surface of the housing cover, a drain pipe provided at the bottom of the housing, a plurality of parallel cathode rods provided on one side of the inner cavity of the housing, and a plurality of parallel anode rods provided on the other side of the inner cavity of the housing, wherein the cathode rods and anode rods are respectively connected to external conductive wires, characterized in that the inner cavity of the housing is provided with a flow guide plate and a cleaning brush; The inner cavity of the box is provided with a positioning mechanism that cooperates with the guide plate and the cleaning brush. The positioning mechanism includes a support component and a transmission component. The support assembly is located on the inner side wall of the chamber and is connected to the guide plate and the cleaning brush. The support assembly is used to position the guide plate and the cleaning brush on the outside of the cathode rod and the anode rod. The support assembly includes multiple sets of bearing rings rotatably installed on the inner side wall of the chamber. The multiple sets of bearing rings are respectively sleeved on the outside of the cathode rod and the anode rod. A first upright is rotatably installed on the surface of the bearing ring. The guide plate is fixedly installed on the surface of the first upright. A second upright is fixedly installed on the surface of the bearing ring. Multiple sets of cleaning brushes are evenly distributed on the surface of the second upright. The transmission assembly is located inside the housing and connected to the support assembly. The transmission assembly controls the rotation of the guide plate and cleaning brush around the cathode rod and anode rod by cooperating with the support assembly. The transmission assembly includes a drive column rotatably mounted inside the housing, one end of the drive column extending to the outside of the housing and connected to a motor, and multiple sets of parallel support rods fixedly mounted on the surface of the drive column. An arc-shaped positioning strip is fixedly mounted on the end of the support rod away from the drive column. An arc-shaped rack is provided on the side wall of the positioning strip. A positioning gear ring is fixedly mounted on the side wall of the bearing ring. The positioning gear ring meshes with the rack. A sedimentation chamber is provided at the bottom of the box body. The bottom end of the sedimentation chamber extends to the bottom of the box body and is provided with a sealing cover. A collection mechanism is provided inside the sedimentation chamber. The collection mechanism includes a sealing component and a guide component. The sealing assembly is located at the top of the sedimentation chamber and is used to seal the top of the sedimentation chamber. The guide assembly is located on the inner side wall of the tank and is connected to the sealing assembly. The guide assembly controls the top of the sedimentation chamber to switch to the open state by cooperating with the sealing assembly. 2. The electrolytic water sterilization device according to claim 1, characterized in that the sealing assembly includes a sealing plate rotatably installed on one side of the sedimentation chamber, a baffle plate fixedly installed on the other side of the sedimentation chamber above the sealing plate, a compression spring fixedly installed on the side wall of the sedimentation chamber, and the extension end of the compression spring being connected to the sealing plate. 3. The electrolytic water sterilization device according to claim 2, characterized in that the guide assembly includes an arc-shaped groove opened on the inner side wall of the box, a positioning block slidably installed in the groove, the positioning block being made of magnetic material, a return spring fixedly installed in the groove, the extension end of the return spring being connected to the positioning block, a groove communicating with the sedimentation chamber being opened inward on the side wall of the groove, a traction rope fixedly installed on the bottom wall of the sealing plate, the end of the traction rope away from the sealing plate passing through the groove and connected to the positioning block, and a magnetic block cooperating with the positioning block being fixedly installed on the surface of the positioning strip. 4. The electrolytic water sterilization device according to claim 1, characterized in that a rotating part is provided on the surface of the first upright, the rotating part includes a guide toothed disc fixedly installed on the surface of the first upright, multiple sets of connecting rods are fixedly installed on the inner side wall of the box, and a guide toothed ring is fixedly installed on the multiple sets of connecting rods, the guide toothed ring being meshed with the guide toothed disc. 5. The electrolytic water sterilization device according to claim 1, characterized in that a baffle plate is fixedly installed on the surface of the support rod.