CN217148668U - Anode chamber assembly for electrochemical reaction chamber - Google Patents

Abstract

The utility model particularly relates to an anode chamber assembly for electrochemical reaction room, the problem of the junction of having solved an anode cylinder and crossbeam insulating effect not good, the not enough influence electrolysis current effective utilization of sealing performance. An anode chamber assembly for an electrochemical reaction chamber, wherein a support tube is jointly fixed at the bottoms of an outer cathode cylinder, a cathode cylinder and an inner cathode cylinder; insulating bases are arranged between the outer cathode cylinder and the cathode cylinder, between the inner cathode cylinder and the cathode cylinder and between adjacent cathode cylinders; the insulating base comprises a bottom plate, and an inner cathode connecting plate, an outer cathode connecting plate and an anode base are arranged on the upper surface of the bottom plate; the bottom of the anode cylinder is provided with an anode leg plate which is inserted in the mounting groove; the anode leg plate is electrically connected with the insulated wire through the power connection mechanism. The utility model realizes the insulation and fixed installation of the anode cylinder and the supporting tube, avoids the ineffective discharge of the anode chamber and improves the effective utilization rate of the electrolytic current; the sealing performance is good, and the device is suitable for the annular electrochemical reaction chamber.

Description

Anode chamber assembly for electrochemical reaction chamber

Technical Field

The utility model relates to an electrochemistry water treatment technical field specifically is an anode chamber assembly for electrochemical reaction room.

Background

With the continuous expansion of the scale of industrial production, the contradiction between people and natural environment is increasingly prominent, the appeal of people to the environment is increasingly strong, and the discharge standard of industrial wastewater is increasingly strict. The electrochemical treatment technology of industrial wastewater utilizes electrochemical water treatment equipment to generate a series of electrochemical reactions for wastewater through the cathode and anode electrolysis process, eliminates and converts harmful substances in water, and reaches the national drainage standard or industrial water standard. The method is an advanced technology with resource saving and environmental friendliness. In recent years, along with the enhancement of environmental protection consciousness and water saving consciousness of people, the electrochemical wastewater treatment technology is greatly developed with unique advantages.

However, the prior electrochemical reaction chamber has the following problems when applied to water treatment as shown in practice: firstly, the connection mode of the anode cylinder and the cross beam of the reaction chamber has poor insulation effect, so that the anode cylinder and the cross beam generate over beam discharge to influence the effective utilization rate of electrolytic current; and secondly, the sealing performance of the joint of the anode cylinder and the cross beam of the reaction chamber is insufficient, water easily permeates into the junction box, and invalid discharge can be caused between the anode cylinder and the cross beam.

SUMMERY OF THE UTILITY MODEL

The utility model provides an anode chamber assembly for electrochemical reaction chamber, which solves the problems that the joint of the anode cylinder and the beam of the existing electrochemical reaction chamber has poor insulation effect and insufficient sealing performance and affects the effective utilization rate of electrolytic current.

The utility model discloses an adopt following technical scheme to realize:

an anode chamber assembly for an electrochemical reaction chamber comprises a reaction chamber body, wherein the reaction chamber body comprises a cylindrical inner cathode cylinder positioned in the middle, an outer cathode cylinder coaxial with the inner cathode cylinder is arranged on the outer side of the inner cathode cylinder, a plurality of electrode cylinders which are coaxial with the inner cathode cylinder and the outer cathode cylinder and are distributed at intervals are arranged between the inner cathode cylinder and the outer cathode cylinder, the electrode cylinders are composed of cathode cylinders and anode cylinders which are distributed in a staggered mode, and the anode cylinders and the cathode cylinders, and the inner cathode cylinders and the outer cathode cylinders are distributed in a staggered mode;

r inverted L-shaped supporting tubes which are uniformly distributed along the circumferential direction and are radially arranged are jointly fixed at the bottoms of the outer cathode cylinder, the cathode cylinder and the inner cathode cylinder, and R is a positive integer which is more than or equal to two; the inner end of the horizontal section of the supporting tube is communicated with the inner cavity of the inner cathode cylinder; an insulated wire penetrates through the supporting pipe; insulating bases are arranged between the outer cathode cylinder and the adjacent cathode cylinder, between the inner cathode cylinder and the adjacent cathode cylinder, and between the adjacent cathode cylinders; the insulating base comprises a saddle-shaped bottom plate fixedly attached to the outer side wall of the supporting tube, and the upper surface of the bottom plate is integrally provided with an inner cathode connecting plate positioned on the inner side, an outer cathode connecting plate positioned on the outer side and an anode base positioned in the middle and provided with a mounting groove; the bottom of the anode cylinder is integrally provided with R anode leg plates, and the outer surface of the inner cathode cylinder and the outer surface of the cathode cylinder are correspondingly attached to the inner cathode connecting plate one by one; the inner surface of the outer cathode cylinder and the inner surface of the cathode cylinder are correspondingly attached to the outer cathode connecting plate one by one; the anode leg plates are correspondingly inserted into the mounting grooves one by one and are in insulated connection; the anode leg plate is electrically connected with the insulated wire through the power connection mechanism.

Further, the electricity connecting mechanism comprises an insulating fixing bolt which is in threaded connection with the bottom of the anode base and is screwed on the supporting tube, an inner threaded hole communicated with the mounting groove is formed in the middle of the insulating fixing bolt, an electricity connecting bolt which is in threaded connection with the inner threaded hole and is electrically connected with the insulating lead is arranged in the inner threaded hole, an electricity connecting conical groove is formed in the top end face of the electricity connecting bolt, and a metal conical head which is inserted into the electricity connecting conical groove is integrally arranged at the bottom of the anode leg plate.

Furthermore, a sealing gasket is fixedly attached to the lower surface of the bottom plate.

Furthermore, the anode leg plate and the mounting groove, the electric connection bolt and the anode base, and the bottom plate and the sealing gasket are all bonded through a sealing glue layer.

Furthermore, the upper part of the outer side surface of the inner cathode connecting plate, the upper part of the inner side surface of the outer cathode connecting plate and the upper parts of the two side surfaces of the anode base form slope surfaces.

The utility model has reasonable and reliable structural design, realizes the insulation and fixed installation of the anode cylinder and the supporting tube, avoids the ineffective discharge of the anode chamber and improves the effective utilization rate of electrolytic current; the water-saving device has the advantages that the water-saving device is good in sealing performance, solves the problem of sealing water at the wiring position of the anode chamber, simplifies the anode installation procedure, improves the equipment assembly efficiency, reduces the equipment assembly cost, further can avoid the problem of incomplete discharge of scale retention, ensures the water production quality, and is suitable for the annular electrochemical reaction chamber.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic structural view of a reaction chamber body according to the present invention;

fig. 3 is a schematic structural diagram of an anode cylinder in the present invention;

FIG. 4 is an enlarged partial schematic view of FIG. 3 at A;

fig. 5 is a schematic structural view of the middle power connection bolt of the present invention.

In the figure, 1-inner cathode cylinder, 2-outer cathode cylinder, 3-cathode cylinder, 4-anode cylinder, 5-support tube, 6-bottom plate, 7-inner cathode connecting plate, 8-outer cathode connecting plate, 9-mounting groove, 10-anode base, 11-anode leg plate, 12-insulating fixing bolt, 13-electric bolt, 14-electric cone groove and 15-metal cone head.

Detailed Description

An anode chamber assembly for an electrochemical reaction chamber comprises a reaction chamber body, as shown in figure 1, the reaction chamber body comprises a cylindrical inner cathode cylinder 1 positioned in the middle, an outer cathode cylinder 2 coaxial with the inner cathode cylinder 1 is arranged on the outer side of the inner cathode cylinder 1, a plurality of electrode cylinders coaxial with the inner cathode cylinder 1 and the outer cathode cylinder 2 and distributed at intervals are arranged between the inner cathode cylinder 1 and the outer cathode cylinder 2, the electrode cylinders are composed of cathode cylinders 3 and anode cylinders 4 which are distributed in a staggered mode, and the anode cylinders 4 and the cathode cylinders 3 as well as the inner cathode cylinder 1 and the outer cathode cylinder 2 are distributed in a staggered mode;

as shown in fig. 1, fig. 2 and fig. 3, three inverted L-shaped support tubes 5 which are uniformly distributed along the circumferential direction and are radially arranged are jointly fixed at the bottoms of the outer cathode cylinder 2, the cathode cylinder 3 and the inner cathode cylinder 1; the inner end of the horizontal section of the supporting tube 5 is communicated with the inner cavity of the inner cathode cylinder 1; an insulated wire penetrates through the supporting tube 5; insulating bases are arranged between the outer cathode cylinder 2 and the adjacent cathode cylinder 3, between the inner cathode cylinder 1 and the adjacent cathode cylinder 3 and between the adjacent cathode cylinders 3; the insulating base comprises a saddle-shaped bottom plate 6 fixedly attached to the outer side wall of the supporting tube 5, and the upper surface of the bottom plate 6 is integrally provided with an inner cathode connecting plate 7 positioned on the inner side, an outer cathode connecting plate 8 positioned on the outer side and an anode base 10 positioned in the middle and provided with a mounting groove 9; the bottom of the anode cylinder 4 is integrally provided with three anode leg plates 11, and the outer surfaces of the inner cathode cylinder 1 and the cathode cylinder 3 are correspondingly jointed with the inner cathode connecting plate 7 one by one; the inner surface of the outer cathode cylinder 2 and the inner surface of the cathode cylinder 3 are correspondingly attached to the outer cathode connecting plates 8 one by one; the anode leg plates 11 are correspondingly inserted into the mounting grooves 9 one by one and are in insulated connection; the anode leg plate 11 is electrically connected with the insulated wire through a power connection mechanism.

The structure design of the insulating base and the anode leg plate 11 of the utility model realizes the fixed and insulating connection of the anode cylinder 4 and the supporting tube 5, avoids the ineffective discharge of the anode leg plate 11 and improves the effective utilization rate of the electrolytic current; the structural design of the power connection mechanism and the insulated wire realizes the electric connection between the anode barrel 4 and the positive electrode of the power supply; the saddle-shaped bottom plate 6 is matched with the outer side wall of the supporting tube 5 in shape, so that the sealing performance of the installation position of the anode cylinder 4 is improved; meanwhile, the saddle-shaped bottom plate 6 is convenient for diversion, is beneficial to discharging sewage during the descaling of the electrochemical reaction chamber, avoids the problem that the scale-removing hand scale is remained and cannot be discharged completely, and ensures the quality of produced water.

As shown in fig. 1, fig. 3, fig. 4, and fig. 5, the power connection mechanism includes an insulating fixing bolt 12 that is screwed to the bottom of the anode base 10 and screwed to the support tube 5, an inner threaded hole that is communicated with the mounting groove 9 is formed in the middle of the insulating fixing bolt 12, a power connection bolt 13 that is screwed to the inner threaded hole and electrically connected to the insulating wire is disposed in the inner threaded hole, a power connection conical groove 14 is formed in a top end surface of the power connection bolt 13, and a metal conical head 15 that is inserted into the power connection conical groove 14 is integrally disposed at the bottom of the anode leg plate 12.

The structural design is that firstly, the anode cylinder 4 is electrically connected with the anode of a power supply; secondly, the insulativity between the anode cylinder 4 and the supporting tube 5 is ensured, the invalid discharge of the anode cylinder 4 and the supporting tube 5 is avoided, and the effective utilization rate of the electrolytic current is further improved; and thirdly, the anode installation procedure is simplified, the equipment assembly efficiency is improved, and the equipment assembly cost is reduced. Meanwhile, the metal cone head 15 abuts against the electric cone groove 14, and the cross section area of effective current circulation is guaranteed.

The lower surface of the bottom plate 6 is fixedly attached with a sealing gasket.

The sealing gasket can prevent water from permeating into the junction box from the insulating fixing bolt 12, and further improves the sealing performance of the installation position of the bottom plate 6 and the supporting pipe 5.

The anode leg plate 11 and the mounting groove 9, the electric connection bolt 13 and the anode base 10, and the bottom plate 6 and the sealing gasket are all bonded through sealing glue layers.

The insulation between the insulated wire, the anode leg plate 11, the power connection bolt 13 and the supporting tube 5 is solved through the structural design, and the problem of water body sealing of the insulating base is solved. Meanwhile, the anode installation procedure is further simplified, the equipment assembly efficiency is improved, and the equipment assembly cost is reduced.

During installation, firstly, sealing gaskets are bonded at the bottom of the bottom plate 6 through sealing glue layers, and then insulating bases are placed between the outer cathode cylinder 2 and the cathode cylinder 3 adjacent to the outer cathode cylinder, between the inner cathode cylinder 1 and the cathode cylinder 3 adjacent to the inner cathode cylinder or between the adjacent cathode cylinders 3, so that the outer surface of the inner cathode cylinder 1 and the outer surface of the cathode cylinder 3 are correspondingly bonded to the inner cathode connecting plates 7 one by one; the inner surface of the outer cathode cylinder 2 and the inner surface of the cathode cylinder 3 are correspondingly attached to the outer cathode connecting plates 8 one by one; then the supporting tube 5 and the bottom plate 6 are fixedly connected through an insulating fixing bolt 12; then, the anode leg plates 11 are correspondingly inserted into the mounting grooves 9 one by one, and the mounting grooves 9 are bonded and sealed by a sealing glue layer; then, installing an electric connection bolt 13 on the insulating fixing bolt 12, so that a metal conical head 15 is inserted into the electric connection conical groove 14, and bonding the electric connection bolt 13 by using a sealing glue layer; finally, the insulated lead and the electric connection bolt 13 are connected, so that the installation of the anode chamber assembly is completed, and the problems that the effective utilization rate of electrolytic current is influenced due to poor insulation effect and insufficient sealing performance of the joint of the anode cylinder and the cross beam of the conventional electrochemical reaction chamber are solved.

As shown in fig. 1, the upper portion of the outer side surface of the inner cathode connecting plate 7, the upper portion of the inner side surface of the outer cathode connecting plate 8, and the upper portions of the two side surfaces of the anode base 10 are slope surfaces.

The structural design avoids the problem that the scale removal hand scale is retained and cannot be discharged completely, and further ensures the water production quality.

In the specific implementation process, the insulating base is made of a high polymer material; the top end of the outer side wall of the outer cathode cylinder 2 is integrally provided with an annular overflow lip plate.

Claims (5)

1. An anode chamber assembly for an electrochemical reaction chamber, comprising: the device comprises a reaction chamber body, wherein the reaction chamber body comprises a cylindrical inner cathode cylinder (1) positioned in the middle, an outer cathode cylinder (2) coaxial with the inner cathode cylinder is arranged on the outer side of the inner cathode cylinder (1), a plurality of electrode cylinders which are coaxial with the inner cathode cylinder (1) and the outer cathode cylinder (2) and are distributed at intervals are arranged between the inner cathode cylinder (1) and the outer cathode cylinder, the electrode cylinders consist of cathode cylinders (3) and anode cylinders (4) which are distributed in a staggered manner, and the anode cylinders (4) and the cathode cylinders (3), the inner cathode cylinder (1) and the outer cathode cylinder (2) are distributed in a staggered manner;

r inverted L-shaped support tubes (5) which are uniformly distributed along the circumferential direction and are radially arranged are jointly fixed at the bottoms of the outer cathode cylinder (2), the cathode cylinder (3) and the inner cathode cylinder (1), and R is a positive integer greater than or equal to two; the inner end of the horizontal section of the supporting tube (5) is communicated with the inner cavity of the inner cathode cylinder (1); an insulated wire penetrates through the supporting tube (5); insulating bases are arranged between the outer cathode cylinder (2) and the adjacent cathode cylinder (3), between the inner cathode cylinder (1) and the adjacent cathode cylinder (3) and between the adjacent cathode cylinders (3); the insulating base comprises a saddle-shaped bottom plate (6) fixedly attached to the outer side wall of the supporting tube (5), an inner cathode connecting plate (7) positioned on the inner side, an outer cathode connecting plate (8) positioned on the outer side and an anode base (10) positioned in the middle and provided with a mounting groove (9) are integrally arranged on the upper surface of the bottom plate (6); the bottom of the anode cylinder (4) is integrally provided with R anode leg plates (11), and the outer surface of the inner cathode cylinder (1) and the outer surface of the cathode cylinder (3) are correspondingly attached to the inner cathode connecting plate (7) one by one; the inner surface of the outer cathode cylinder (2) and the inner surface of the cathode cylinder (3) are correspondingly attached to the outer cathode connecting plates (8) one by one; the anode leg plates (11) are correspondingly inserted into the mounting grooves (9) one by one, and are in insulated connection; the anode leg plate (11) is electrically connected with the insulated wire through an electric connection mechanism.

2. An anode chamber assembly for an electrochemical reaction chamber as recited in claim 1, wherein: the electricity connecting mechanism comprises an insulating fixing bolt (12) which is in threaded connection with the bottom of the anode base (10) and screwed on the supporting pipe (5), an inner threaded hole communicated with the mounting groove (9) is formed in the middle of the insulating fixing bolt (12), an electricity connecting bolt (13) which is in threaded connection with the inner threaded hole and is electrically connected with an insulating lead is arranged in the inner threaded hole, an electricity connecting conical groove (14) is formed in the top end face of the electricity connecting bolt (13), and a metal conical head (15) inserted into the electricity connecting conical groove (14) is integrally arranged at the bottom of the anode leg plate (11).

3. An anode chamber assembly for an electrochemical reaction chamber as recited in claim 2, wherein: the lower surface of the bottom plate (6) is fixedly attached with a sealing gasket.

4. An anode chamber assembly for an electrochemical reaction chamber as recited in claim 3, wherein: the anode leg plate (11) is bonded with the mounting groove (9), the electric connection bolt (13) is bonded with the anode base (10), and the bottom plate (6) is bonded with the sealing gasket through a sealing glue layer.

5. An anode chamber assembly for an electrochemical reaction chamber as recited in claim 1, wherein: the upper part of the outer side surface of the inner cathode connecting plate (7), the upper part of the inner side surface of the outer cathode connecting plate (8) and the upper parts of the two side surfaces of the anode base (10) are slope surfaces.

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