CN216129680U - Sealing structure of terminal connector of electrolytic module - Google Patents

Abstract

The utility model discloses a sealing structure of an electrolytic assembly terminal connector, which comprises a shell and an electrolytic pole piece, wherein the shell comprises a first shell and a second shell which are arranged from front to back, the first shell comprises a first lead half-shell channel and a first pole piece half-shell groove which are arranged from top to bottom, the second shell comprises a second lead half-shell channel and a second pole piece half-shell groove which are arranged from top to bottom, and the electrolytic cathode piece and the electrolytic anode piece comprise an extended pole piece end, a lead, a PVC sleeve and a through hole. According to the utility model, the connecting holes of the first lead half-shell channel and the second lead half-shell channel are also filled with silica gel or high-viscosity resin, and the connecting parts of the extending pole piece end and the lead passing through the coated PVC sleeve are respectively arranged in the first pole piece end hole groove and the second pole piece end hole groove, and the lead respectively extends into the connecting holes of the first lead half-shell channel and the second lead half-shell channel, so that the sealing structure of the terminal connector of the electrolytic assembly, which has good sealing property, can prevent water seepage and oxidation and has a compact structure, is provided for users.

Description

Sealing structure of terminal connector of electrolytic module

Technical Field

The utility model relates to the technical field of terminals, in particular to a sealing structure of a terminal connector of an electrolytic module.

Background

With the social development, people have higher and higher requirements on disinfection and sterilization of living and living environments, and various disinfection and sterilization module appliances are more and more. The available chlorine (with valence of 0, +1, +3, +4, +5, +7 is oxidation state chlorine) is obtained by electrolyzing chlorine anion in water through a titanium alloy electrode, and the available chlorine can play a role in sterilization and disinfection.

When the electrolysis device works, the whole electrolysis assembly is immersed in water and electrified for electrolysis. The anode and cathode plates have strong oxidation resistance, so that stable spots can exist in water. However, if the connection part of the electrolytic plate and the lead cannot be well isolated from water, otherwise, the connection part is easy to rust and fall off during electrolytic oxidation, so that the whole part is damaged. The utility model therefore extends around the connection and sealing of the titanium alloy electrode and the lead.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing a sealing structure of an electrolytic module terminal connector, which has good sealing performance, can prevent water seepage and oxidation and has a compact structure.

In order to solve the technical problems, the technical scheme of the utility model is as follows:

an electrolytic module terminal connector seal structure comprising:

the shell, including shell one and shell two that set up after to from the front, shell one includes that the half shell of wire that from the top down set up says one and half shell groove of pole piece one, half shell of wire says one including the buckle head that sets up in to from the outside and half shell plush copper, half shell groove of pole piece one includes half shell plush copper of pole piece, screw bearing even piece, pole piece end hole groove one and observation way hole one, half shell plush copper of pole piece locates four apex angles of half shell groove rear end respectively, screw bearing even piece is located half shell plush copper inboardly of pole piece respectively, half shell groove top of pole piece is located respectively to pole piece end hole groove one, observe that way hole one opens both ends about half shell groove of pole piece respectively, shell two includes that the half shell of wire that from the top down set up says two and half shell groove of pole piece two, half shell groove of wire says that two includes that half shell of hooking point and half shell groove of half shell that sets up in to from the outside, half shell groove of pole piece groove includes pole piece groove two, The observation channel holes are respectively arranged at the left end and the right end of the second pole piece half shell groove and comprise limit jacking blocks respectively arranged at the center;

the electrolytic pole piece comprises an electrolytic cathode piece and an electrolytic anode piece which are arranged from front to back, wherein the electrolytic cathode piece and the electrolytic anode piece comprise extension pole piece ends, leads, PVC sleeves and through holes, the extension pole piece ends are respectively arranged at the top ends of the electrolytic cathode piece and the electrolytic anode piece, the leads are respectively extended and arranged outside the extension pole piece ends, the PVC sleeves are coated outside the connection positions of the extension pole piece ends and the leads, and the through holes are respectively arranged at four top corners of the electrolytic cathode piece and the electrolytic anode piece.

Furthermore, the end of the extending pole piece can be an arc plug, a buckle plug and a positive four-side plug, the lead is respectively matched with the arc plug and the buckle plug through a plug spring terminal and a U-shaped terminal and is connected with the end of the extending pole piece, and the lead can be butt-welded with the positive four-side plug through the end and is connected with the end of the extending pole piece.

Furthermore, the PVC sleeve is filled with silica gel or high-viscosity resin after covering the joint of the end of the pole piece and the lead.

Furthermore, the buckle head is matched with the hook point, the half-shell raised heads are complementary with the half-shell concave channels in a concave-convex mode, the pole piece half-shell raised heads are complementary with the pole piece half-shell concave channels in a concave-convex mode respectively, and the height of the pole piece half-shell concave channels is equal to the height of an electrolytic cathode sheet and an electrolytic anode sheet after being attached.

Furthermore, the joints of the extended pole piece end of the coated PVC sleeve and the lead are respectively arranged in the first pole piece end hole groove and the second pole piece end hole groove, and the lead is respectively extended in the connecting holes of the first lead half-shell channel and the second lead half-shell channel.

Furthermore, the connecting holes of the first lead half-shell channel and the second lead half-shell channel are filled with silica gel or high-viscosity resin.

The utility model has the beneficial effects that:

according to the utility model, the connecting holes of the first lead half-shell channel and the second lead half-shell channel are also filled with silica gel or high-viscosity resin, and the connecting parts of the extending pole piece end and the lead passing through the coated PVC sleeve are respectively arranged in the first pole piece end hole groove and the second pole piece end hole groove, and the lead respectively extends into the connecting holes of the first lead half-shell channel and the second lead half-shell channel, so that the sealing structure of the terminal connector of the electrolytic assembly, which has good sealing property, can prevent water seepage and oxidation and has a compact structure, is provided for users.

Drawings

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

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

FIG. 3 is a schematic structural view of the housing of the present invention;

FIG. 4 is a third schematic structural diagram of the present invention;

FIG. 5 is a schematic view of an electrolytic electrode sheet according to the present invention;

FIG. 6 is a second schematic view of the electrolytic electrode sheet structure of the present invention;

FIG. 7 is a third schematic view of the electrolytic electrode sheet of the present invention;

FIG. 8 is a fourth schematic view of the electrolytic electrode sheet of the present invention;

FIG. 9 is a fifth schematic view of the electrolytic electrode sheet of the present invention;

FIG. 10 is a sixth schematic view of the electrolytic electrode sheet of the present invention;

FIG. 11 is a seventh schematic view of the structure of the electrolytic electrode sheet of the present invention.

Detailed Description

The following further describes embodiments of the present invention with reference to the drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features involved in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

According to the description of fig. 1-4:

an electrolytic module terminal connector seal structure comprising:

the shell 1 comprises a first shell 11 and a second shell 12 which are arranged from front to back, the first shell 11 comprises a first lead half-shell channel 111 and a first pole piece half-shell groove 112 which are arranged from top to bottom, the first lead half-shell channel 111 comprises a buckle head 1111 and a half-shell raised head 1112 which are arranged from outside to inside, the first pole piece half-shell groove 112 comprises a pole piece half-shell raised head 1121, a screw bearing connecting piece 1122, a first pole piece end hole groove 1123 and a first observation channel 1124, the pole piece half-shell raised heads 1121 are respectively arranged at four vertex angles at the rear end of the first pole piece half-shell groove 112, the screw bearing connecting piece 1122 is respectively arranged at the inner side of the pole piece half-shell raised head 1121, the first pole piece end hole groove 1123 is respectively arranged at the top of the first pole piece half-shell groove 112, the first observation channel 1124 is respectively arranged at the left end and the right end of the first pole piece half-shell groove 112, the second shell 12 comprises a second lead half-shell channel 121 and a second pole piece half-shell groove 122 which are arranged from top to bottom, the second lead half-shell channel 121 comprises a hook point 1211 and a concave point 1212 which are arranged from inside, the second pole piece half-shell groove 122 comprises a pole piece half-shell concave channel 1221, a nut arranging block 1222, a second pole piece end hole groove 1223 and a second observation hole 1224, the pole piece half-shell concave channel 1221 is annularly arranged at the front end of the second pole piece half-shell groove 122, the nut arranging block 1222 is arranged at four vertex angles at the rear end of the pole piece half-shell concave channel 1221 and comprises nut holes 12221 respectively arranged at the centers, the second pole piece end hole groove 1223 is respectively arranged at the top of the second pole piece half-shell groove 122, and the second observation hole 1224 is respectively arranged at the left end and the right end of the second pole piece half-shell groove 122 and comprises a limit top block 12241 respectively arranged at the center;

electrolytic pole piece 2, including the electrolytic cathode piece 21 and the electrolytic anode piece 22 that set up from the front to the back, electrolytic cathode piece 21 and electrolytic anode piece 22 are including extending pole piece end 23, wire 24, PVC sleeve pipe 25 and through hole 26, extend pole piece end 23 and locate electrolytic cathode piece 21 and electrolytic anode piece 22 top respectively, wire 24 extends respectively and locates to extend pole piece end 23 outsidely, PVC sleeve pipe 25 cladding is outside in extending pole piece end 23 and the 24 junctions of wire, through hole 26 is opened respectively in four apex angle departments of electrolytic cathode piece 21 and electrolytic anode piece 22.

According to fig. 5-11: the end of the extending pole piece end 23 can be an arc plug, a buckle plug and a regular four-side plug, the lead 24 is respectively matched with the arc plug and the buckle plug through a plug spring terminal and a U-shaped terminal and is connected with the extending pole piece end 23, and the lead 24 can be butt-welded with the regular four-side plug through the end and is connected with the extending pole piece end 23.

Because the PVC sleeve 25 is filled with silica gel or high-viscosity resin after coating the joint of the end 23 of the pole piece and the lead 24, when a user uses the utility model, after the wire skin of the lead and the plug are in close contact, the utility model can be soaked in water for a long time without water permeating into the joint of the terminal through the solidification of the silica gel or the high-viscosity resin, thereby playing a role of protection.

Because the snap fastener 1111 is matched with the hook point 1211, the half-shell raised head 1112 is concave-convex complementary with the half-shell recessed channel 1212, the pole piece half-shell raised heads 1121 are concave-convex complementary with the pole piece half-shell recessed channel 1221 respectively, and the height of the pole piece half-shell recessed channel 1221 is equal to the height of the attached electrolytic cathode sheet 21 and electrolytic anode sheet 22, when a user uses the electrolytic cell, the housing 1 of the electrolytic cell is tightly connected together through concave-convex complementary and matching, and the electrolytic pole piece 2 can be tightly arranged in the housing 1 through equal height, so that the situation of shaking towards the periphery cannot occur, and the normal use of the user is influenced.

Because the connection of the extended pole piece end 23 and the lead wire 24 of the coated PVC sleeve 25 are located in the pole piece end slot one 1123 and the pole piece end slot two 1223 respectively, and the wires 24 extend into the connecting holes of the first wire half casing 111 and the second wire half casing 121 respectively, the connecting holes of the first lead half-shell channel 111 and the second lead half-shell channel 121 are also filled with silica gel or high-viscosity resin, therefore, when the utility model is used by users, the joint of the electrode plate and the lead is firstly combined by the PVC sleeve 25, then the lead is sealed by filling silica gel or resin, then the lead is arranged in the shell 1, finally the hollow parts of the first lead half shell channel 111 and the second lead half shell channel 121 are encapsulated by using silica gel or high-viscosity resin, therefore, the double protection effect is achieved, the sealing of the joint point is ensured to the maximum extent, the water seepage is avoided during the work, and the oxidation of the joint point due to the water seepage is avoided in the life cycle of the electrolytic component.

When a user uses the utility model, after the electrolytic pole piece 2 is arranged on the shell 1, the whole body of the utility model is tightly connected together through the locking of the screw and the nut, and the deformation of the whole structure caused by excessive connection when the shell 1 is connected is prevented through the use of the limit top block 12241, and the condition of the electrolytic pole piece 2 in the shell 1 can be observed through the use of the observation passage hole.

When the electrolytic cell is operated, the whole electrolytic cell is immersed in water and then electrified for electrolysis, the electrolytic plates of the anode sheet 22 and the cathode sheet 21 have strong oxidation resistance, so the electrolytic cells can stably exist in the water, but if the connecting parts of the electrolytic plates and the leads are not well isolated from the water, the connecting parts are easily corroded to cause connection falling during electrolytic oxidation, and the whole parts are damaged.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, and the scope of protection is still within the scope of the utility model.

Claims (6)

1. An electrolytic module terminal connector sealing structure, comprising:

the shell, including shell one and shell two that set up after to from the front, shell one includes that the half shell of wire that from the top down set up says one and half shell groove of pole piece one, half shell of wire says one including the buckle head that sets up in to from the outside and half shell plush copper, half shell groove of pole piece one includes half shell plush copper of pole piece, screw bearing even piece, pole piece end hole groove one and observation way hole one, half shell plush copper of pole piece locates four apex angles of half shell groove rear end respectively, screw bearing even piece is located half shell plush copper inboardly of pole piece respectively, half shell groove top of pole piece is located respectively to pole piece end hole groove one, observe that way hole one opens both ends about half shell groove of pole piece respectively, shell two includes that the half shell of wire that from the top down set up says two and half shell groove of pole piece two, half shell groove of wire says that two includes that half shell of hooking point and half shell groove of half shell that sets up in to from the outside, half shell groove of pole piece groove includes pole piece groove two, The observation channel holes are respectively arranged at the left end and the right end of the second pole piece half shell groove and comprise limit jacking blocks respectively arranged at the center;

the electrolytic pole piece comprises an electrolytic cathode piece and an electrolytic anode piece which are arranged from front to back, wherein the electrolytic cathode piece and the electrolytic anode piece comprise extension pole piece ends, leads, PVC sleeves and through holes, the extension pole piece ends are respectively arranged at the top ends of the electrolytic cathode piece and the electrolytic anode piece, the leads are respectively extended and arranged outside the extension pole piece ends, the PVC sleeves are coated outside the connection positions of the extension pole piece ends and the leads, and the through holes are respectively arranged at four top corners of the electrolytic cathode piece and the electrolytic anode piece.

2. The sealing structure of the terminal connector of the electrolytic module as claimed in claim 1, wherein the end of the extending pole piece is a circular plug, a snap plug and a regular four-sided plug, the wire is connected to the end of the extending pole piece by the engagement of the circular plug and the snap plug with the spring-inserted terminal and the U-shaped terminal, respectively, and the wire is connected to the end of the extending pole piece by the engagement of the end with the regular four-sided plug.

3. The sealing structure of the terminal connector of the electrolytic module as claimed in claim 2, wherein the PVC casing is filled with silicone or high viscosity resin after covering the joint between the end of the tab and the lead.

4. The sealing structure of claim 3, wherein said snap head is engaged with said hook point, said half-shell protrusions are complementary to said half-shell recesses, said half-shell protrusions of said pole piece are complementary to said recesses of said half-shell, and said recesses of said half-shell are equal in height to said recesses of said pole piece and said electrolytic cathode and anode.

5. The sealing structure of the terminal connector of the electrolytic module as claimed in claim 4, wherein the connection portions of the extended pole piece terminal and the lead wire of the covering PVC sleeve are respectively disposed in the first pole piece terminal hole groove and the second pole piece terminal hole groove, and the lead wire is respectively extended in the connection holes of the first lead half casing channel and the second lead half casing channel.

6. The sealing structure of a terminal connector of an electrolytic module as claimed in claim 5, wherein the connecting holes of the first lead half casing and the second lead half casing are further filled with silicone or high viscosity resin.

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