CN112358106A

CN112358106A - Processing apparatus on electrogalvanizing layer

Info

Publication number: CN112358106A
Application number: CN202011229699.0A
Authority: CN
Inventors: 郭志勇; 毛新燕; 刘世科; 刘明星
Original assignee: Changde Dongxin Metal Surface Treatment Co Ltd
Current assignee: Changde Dongxin Metal Surface Treatment Co Ltd
Priority date: 2020-11-06
Filing date: 2020-11-06
Publication date: 2021-02-12

Abstract

The invention discloses a processing device of an electro-galvanized layer, which relates to the technical field of electro-galvanized layer processing and comprises a shell and a connecting assembly, wherein the connecting assembly is arranged on the shell, a clear water cavity, an additive cavity, a first driving cavity, a stirring cavity, a water containing cavity, a second driving cavity, a heating cavity, a third driving cavity and a water draining cavity are arranged in the shell, the additive cavity is connected with the stirring cavity through the second driving cavity, the clear water cavity is connected with the stirring cavity through the first driving cavity, and the water containing cavity is connected with the heating cavity through the second driving cavity; the problem of among the prior art mainly contain heavy pollution metal element such as chromium, copper, nickel, zinc in the sewage after the clearance to the surface galvanizing coat and the waste liquid that electrogalvanizing in-process produced, consequently, if do not carry out strict processing just discharge it, can be very big cause abominable influence to the environment is solved.

Description

Processing apparatus on electrogalvanizing layer

Technical Field

The invention relates to the technical field of electro-galvanizing layer treatment, in particular to a treatment device for an electro-galvanizing layer.

Background

In the process of carrying out electrogalvanizing operation, the problem of sewage treatment often troubles the enterprise owners, so that the electrogalvanizing treatment of heavy metal sewage becomes a great problem in front of the galvanizing enterprises. Because chemical substances generated after the electrogalvanizing operation can pollute the water quality, once the electrogalvanizing operation is finished, the sewage must be discharged immediately, otherwise, certain influence can be easily caused on a water source, and even the water source can not be normally applied.

The pollution components of the electrogalvanizing are extremely complex, the pollution components mainly come from sewage before treatment of the electrogalvanizing products, sewage after cleaning of the surface galvanizing coat and waste liquid generated in the electrogalvanizing process, and the generated liquid mainly contains heavy pollution metal elements such as chromium, copper, nickel, zinc and the like, so the heavy pollution metal elements are discharged without strict treatment, and the heavy pollution metal elements can greatly cause bad influence on the environment.

Disclosure of Invention

The invention aims to provide a processing device of an electro-galvanizing layer, which aims to solve the technical problems in the background technology.

The invention provides a processing device of an electroplated zinc layer, which comprises a shell and a connecting assembly, wherein the connecting assembly is arranged on the shell, a clear water cavity, an additive cavity, a first driving cavity, a stirring cavity, a water containing cavity, a second driving cavity, a heating cavity, a third driving cavity and a water discharging cavity are arranged in the shell, the clear water cavity and the additive cavity are arranged above the shell in parallel, the stirring cavity is arranged at one side in the shell, the first driving cavity is arranged between the clear water cavity and the stirring cavity, the water containing cavity is arranged below the stirring cavity, the water containing cavity, the heating cavity, the third driving cavity and the water discharging cavity are arranged below the shell in parallel, the third driving cavity is arranged between the water containing cavity and the heating cavity, the second driving cavity is arranged below the clear water cavity and the additive cavity, the second driving cavity is arranged above the heating cavity and the water discharging cavity, and the additive cavity is connected with the stirring cavity through the second driving cavity, the clear water chamber is connected with the stirring chamber through the first driving chamber, and the water containing chamber is connected with the heating chamber through the second driving chamber.

Further, coupling assembling includes first connecting pipe, second connecting pipe, third connecting pipe, fourth connecting pipe, fifth connecting pipe and solenoid valve, the solenoid valve is equipped with five, first connecting pipe, second connecting pipe, third connecting pipe, fourth connecting pipe and fifth connecting pipe all are connected with a solenoid valve, first connecting pipe, second connecting pipe and third connecting pipe all set up in the outside top of shell, the fourth connecting pipe sets up in the shell, the fifth connecting pipe sets up on the outside lateral wall of shell, first connecting pipe is connected with the additive chamber, the second connecting pipe is connected with the clear water chamber, the third connecting pipe is connected with the stirring chamber, the top and the stirring chamber of fourth connecting pipe are connected, the bottom and the flourishing water chamber of fourth connecting pipe are connected, the fifth connecting pipe is connected with the drainage chamber.

Furthermore, a first water pump, a first water pipe and a second water pipe are arranged in the first driving cavity, one end of the first water pipe is connected with the clean water cavity, the other end of the first water pipe is connected with the first water pump, one end of the second water pipe is connected with the first water pump, and the other end of the second water pipe is connected with the upper half part of the stirring cavity.

Further, be equipped with second water pump, third water pipe, fourth water pipe, third water pump, fifth water pipe and sixth water pipe in the second drive intracavity, the one end and the additive chamber of third water pipe are connected, the other end and the second water pump of third water pipe are connected, the one end and the second water pump of fourth water pipe are connected, the other end and the stirring chamber of fourth water pipe are connected to the fourth water pipe is located the below of second water pipe, the one end and the flourishing water cavity of fifth water pipe are connected, the other end and the third water pump of fifth water pipe are connected, the one end and the third water pump of sixth water pipe are connected, the other end and the chamber of heating of sixth water pipe are connected.

Further, be equipped with stirring part and filter part in the stirring chamber, filter part includes the filter screen and deposits the net, the filter screen all is the pull formula with depositing the net, can remove to the shell outside and wash, the filter screen sets up the top at stirring part, and the filter screen is located the below of second water pipe, deposit the bottom that the net set up in the stirring chamber, it is located stirring part's below to deposit the net.

Further, the stirring part comprises a protective shell, a motor, a first driving gear, a second driving gear, a first driven gear, a second driven gear, a first stirring rod and a second stirring rod, wherein the protective shell, the motor, the first driving gear, the second driving gear, the first driven gear and the second driven gear are all arranged in a second driving cavity, the first stirring rod and the second stirring rod are both arranged in the stirring cavity, two first driven gears and two second driven gears are arranged, the protective shell is arranged on the side wall outside the stirring cavity, the motor, the first driving gear, the second driving gear, the first driven gear and the second driven gear are all positioned in the protective shell, the output end of the motor is connected with the first driving gear, the two first driven gears are symmetrically arranged on two sides of the first driving gear, the second driving gear is arranged above the first driving gear, the first driven gear and the second driving gear are meshed with the first driving gear, the second driven gear is symmetrically arranged on two sides of the second driving gear, the second driven gear is meshed with the second driving gear, the first stirring rod is connected with one first driven gear and one second driven gear respectively, the second stirring rod is connected with one second driven gear and two second stirring rods are located above the first stirring rod respectively, the second stirring rods are arranged in a parallel and staggered mode, and the second stirring rods are arranged with two first stirring rods in a staggered mode.

Furthermore, the heating cavity is internally provided with a relay and a heat conducting wire, the heat conducting wire is positioned in the heating cavity, the relay is arranged in the third driving cavity, and one end of the heat conducting wire penetrates through the heating cavity and is connected with the relay.

Furthermore, a fourth water pump, a seventh water pipe and an eighth water pipe are arranged in the third driving cavity, one end of the seventh water pipe is connected with the heating cavity, the other end of the seventh water pipe is connected with the fourth water pump, one end of the eighth water pipe is connected with the fourth water pump, and the other end of the eighth water pipe is connected with the drainage cavity.

Compared with the prior art, the invention has the beneficial effects that:

firstly, the clear water cavity is filled with clear water through the connecting part, the additive cavity is filled with the heavy metal catching agent, and sewage containing a zinc coating can enter the stirring cavity, then the clear water and the heavy metal catching agent are injected into the stirring cavity to dilute and oxidize and neutralize the sewage, then the sewage is stirred, the sewage containing the zinc coating is gradually precipitated after the stirring is finished, finally the sewage is moved into the water containing cavity, precipitates are remained in the stirring cavity, the sewage in the water containing cavity is moved into the heating cavity through the second driving cavity, the sewage is subjected to high-temperature sterilization, the sewage is moved into the water discharging cavity through the third driving cavity after the stirring is finished to be cooled and is discharged out of the shell, finally the stirring cavity, the water containing cavity, the heating cavity and the water discharging cavity can be cleaned through the clear water cavity, so that the sewage containing the zinc coating is treated, and the sewage containing the zinc coating reaches the discharge standard, the problem of among the prior art mainly contain heavy pollution metal element such as chromium, copper, nickel, zinc in the sewage after the clearance to the surface galvanizing coat and the waste liquid that electrogalvanizing in-process produced, consequently, if do not carry out strict processing just discharge it, can be very big cause abominable influence to the environment is solved.

The sewage treatment device can drive the first driving gear to drive the two first driven gears and the second driving gear to rotate through the driving of the motor, the second driving gear can drive the two second driven gears to rotate when rotating, the two first stirring rods and the two second stirring rods can rotate through the two first driven gears and the two second driven gears, the sewage in the stirring cavity can be fully stirred through the two first stirring rods and the two second stirring rods, the heavy metal catching agent and the sewage are prevented from being stirred unevenly, a good oxidation neutralization effect cannot be achieved, and the sewage cannot reach a discharge standard; stirring part in this application can effectually solve stirring part among the prior art and can not effectually stir sewage when carrying out the operation, makes heavy metal capture agent and the heavy pollution metallic element in the sewage play not fine oxidation neutralization effect.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

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

FIG. 2 is a partial structural view of a first angle of the present invention;

FIG. 3 is an enlarged view taken at A in FIG. 2;

FIG. 4 is a front view of the present invention;

FIG. 5 is a partial structural view of a second angle of the present invention.

Reference numerals: the device comprises a shell 1, a clean water cavity 11, an additive cavity 12, a first driving cavity 13, a stirring cavity 14, a water containing cavity 15, a second driving cavity 16, a warming cavity 17, a third driving cavity 18, a water discharging cavity 19, a connecting assembly 2, a first connecting pipe 21, a second connecting pipe 22, a third connecting pipe 23, a fourth connecting pipe 24, a fifth connecting pipe 25, an electromagnetic valve 26, a first water pump 131, a first water pipe 132, a second water pipe 133, a second water pump 161 and a third water pipe 162, a fourth water pipe 163, a third water pump 164, a fifth water pipe 165, a sixth water pipe 166, a stirring part 141, a protective shell 1411, a motor 1412, a first driving gear 1413, a second driving gear 1414, a first driven gear 1415, a second driven gear 1416, a first stirring rod 1417, a second stirring rod 1418, a filtering part 142, a filtering screen 143, a sedimentation screen 144, a relay 171, a heat-conducting wire 172, a fourth water pump 181, a seventh water pipe 182, and an eighth water pipe 183.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 5, an embodiment of the present invention provides a processing apparatus for an electroplated zinc layer, including a housing 1 and a connecting assembly 2, where the connecting assembly 2 is disposed on the housing 1, a clear water chamber 11, an additive chamber 12, a first driving chamber 13, a stirring chamber 14, a water containing chamber 15, a second driving chamber 16, a heating chamber 17, a third driving chamber 18, and a water discharging chamber 19 are disposed in the housing 1, the clear water chamber 11 and the additive chamber 12 are disposed above the housing 1 in parallel, the stirring chamber 14 is disposed on one side of the housing 1, the first driving chamber 13 is disposed between the clear water chamber 11 and the stirring chamber 14, the water containing chamber 15 is disposed below the stirring chamber 14, the water containing chamber 15, the heating chamber 17, the third driving chamber 18, and the water discharging chamber 19 are disposed below the housing 1 in parallel, the third driving chamber 18 is disposed between the water containing chamber 15 and the heating chamber 17, the second driving cavity 16 is positioned below the clean water cavity 11 and the additive cavity 12, the second driving cavity 16 is positioned above the heating cavity 17 and the drainage cavity 19, the additive cavity 12 is connected with the stirring cavity 14 through the second driving cavity 16, the clean water cavity 11 is connected with the stirring cavity 14 through the first driving cavity 13, and the water containing cavity 15 is connected with the heating cavity 17 through the second driving cavity 16; during operation, the clear water cavity 11 is filled with clear water through the connecting part, the additive cavity 12 is filled with heavy metal catching agent, sewage containing a zinc coating can enter the stirring cavity 14, at the moment, the stirring cavity 14 is filled with clear water and heavy metal catching agent to dilute and oxidize and neutralize the sewage, then the sewage is stirred, the sewage containing the zinc coating is gradually precipitated after the stirring is completed, finally the sewage is moved into the water containing cavity 15, precipitates are left in the stirring cavity 14, the sewage in the water containing cavity 15 is moved into the heating cavity 17 through the second driving cavity 16 to be sterilized at high temperature, the sewage is moved into the water drainage cavity 19 through the third driving cavity 18 to be cooled and is drained out of the shell 1, and finally the stirring cavity 14, the water containing cavity 15, the heating cavity 17 and the water drainage cavity 19 can be cleaned through the clear water cavity 11, therefore, the sewage treatment device can be used for finishing the sewage treatment of the galvanized layer, so that the sewage containing the galvanized layer reaches the discharge standard, and the problems that in the prior art, the sewage after the surface galvanized layer is cleaned and the waste liquid generated in the electrogalvanizing process mainly contains heavy pollution metal elements such as chromium, copper, nickel, zinc and the like, so that the sewage is discharged without strict treatment, and the environment is greatly influenced are solved.

Specifically, the connection assembly 2 includes a first connection pipe 21, a second connection pipe 22, a third connection pipe 23, a fourth connection pipe 24, a fifth connection pipe 25 and an electromagnetic valve 26, the electromagnetic valve 26 is provided with five, the first connection pipe 21, the second connection pipe 22, the third connection pipe 23, the fourth connection pipe 24 and the fifth connection pipe 25 are all connected with one electromagnetic valve 26, the first connection pipe 21, the second connection pipe 22 and the third connection pipe 23 are all arranged above the outside of the housing 1, the fourth connection pipe 24 is arranged in the housing 1, the fifth connection pipe 25 is arranged on one side wall of the outside of the housing 1, the first connection pipe 21 is connected with the additive cavity 12, the second connection pipe 22 is connected with the clean water cavity 11, the third connection pipe 23 is connected with the stirring cavity 14, the top end of the fourth connection pipe 24 is connected with the stirring cavity 14, the bottom end of the fourth connection pipe 24 is connected with the water containing cavity 15, the fifth connecting pipe 25 is connected with the drain cavity 19; through first connecting pipe 21, second connecting pipe 22 and third connecting pipe 23 can be respectively to additive chamber 12, the corresponding water source of clear water chamber 11 and the transportation of stirring chamber 14, can make the water in the stirring chamber 14 remove to flourishing water chamber 15 in through fourth connecting pipe 24, can make the water in the drainage chamber 19 remove to the shell 1 outside through fifth connecting pipe 25, the opening or closing of first connecting pipe 21, second connecting pipe 22, third connecting pipe 23, fourth connecting pipe 24 and fifth connecting pipe 25 can be controlled respectively to five solenoid valves 26.

Specifically, a first water pump 131, a first water pipe 132 and a second water pipe 133 are arranged in the first driving cavity 13, one end of the first water pipe 132 is connected with the clean water cavity 11, the other end of the first water pipe 132 is connected with the first water pump 131, one end of the second water pipe 133 is connected with the first water pump 131, and the other end of the second water pipe 133 is connected with the upper half part of the stirring cavity 14; when the operation is performed, the first water pipe 132 can be driven by the first water pump 131 to move the clean water in the clean water chamber 11 into the second water pipe 133, and the clean water is sprayed into the stirring chamber 14 through the second water pipe 133.

Specifically, a second water pump 161, a third water pipe 162, a fourth water pipe 163, a third water pump 164, a fifth water pipe 165 and a sixth water pipe 166 are arranged in the second driving cavity 16, one end of the third water pipe 162 is connected with the additive cavity 12, the other end of the third water pipe 162 is connected with the second water pump 161, one end of the fourth water pipe 163 is connected with the second water pump 161, the other end of the fourth water pipe 163 is connected with the stirring cavity 14, the fourth water pipe 163 is located below the second water pipe 133, one end of the fifth water pipe 165 is connected with the water containing cavity 15, the other end of the fifth water pipe 165 is connected with the third water pump 164, one end of the sixth water pipe 166 is connected with the third water pump 164, and the other end of the sixth water pipe 166 is connected with the warming cavity 17; during operation, the heavy metal scavenger in the additive chamber 12 can be moved into the fourth water pump 181 by the third water pipe 162 by driving the second water pump 161, the heavy metal scavenger can be moved into the agitation chamber 14 by the fourth water pipe 163, the sewage in the water containing chamber 15 can be moved into the sixth water pipe 166 by the fifth water pump 164, and the sewage can be moved into the warming chamber 17 by the sixth water pipe 166.

Specifically, a stirring part 141 and a filtering part 142 are arranged in the stirring cavity 14, the filtering part 142 comprises a filtering net 143 and a precipitating net 144, the filtering net 143 and the precipitating net 144 are both in a pull type and can be moved to the outside of the housing 1 for cleaning, the filtering net 143 is arranged above the stirring part 141, the filtering net 143 is positioned below the second water pipe 133, the precipitating net 144 is arranged at the bottom of the stirring cavity 14, and the precipitating net 144 is positioned below the stirring part 141; stirring part 141 is used for stirring the water in stirring chamber 14, makes it fuse, filter screen 143 is used for filtering the foreign matter that sewage contained when getting into the stirring, prevents to have great foreign matter to get into stirring chamber 14 in, influences rabbling mechanism's normal operating, deposit net 144 can prevent that the precipitate in the sewage from getting into flourishing water cavity 15 in.

Specifically, the stirring component 141 includes a protective shell 1411, a motor 1412, a first driving gear 1413, a second driving gear 1414, a first driven gear 1415, a second driven gear 1416, a first stirring rod 1417 and a second stirring rod 1418, the protective shell 1411, the motor 1412, the first driving gear 1413, the second driving gear 1414, the first driven gear 1415 and the second driven gear 1416 are all disposed in the second driving chamber 16, the first stirring rod 1417 and the second stirring rod 1418 are all disposed in the stirring chamber 14, two first driven gears 1415 and two second driven gears 1416 are all disposed, two first stirring rods 7 and two second stirring rods 1418 are all disposed, the protective shell 1411 is disposed on a side wall outside the stirring chamber 14, the motor 1412, the first driving gear 1413, the second driving gear 1411414, the first driven gear 1415 and the second driven gear 1416 are all located in the protective shell 1411, the output end of the motor 1412 is connected with a first driving gear 1413, two first driven gears 1415 are symmetrically arranged at two sides of the first driving gear 1413, the second driving gear 1414 is arranged above the first driving gear 1413, the two first driven gears 1415 and the second driving gear 1414 are both meshed with the first driving gear 1413, the two second driven gears 1416 are symmetrically arranged on both sides of the second driving gear 1414, the two second driven gears 1416 are both meshed with the second driving gear 1414, each first stirring rod 1417 is respectively connected with one first driven gear 1415, each second stirring rod 1418 is connected with one second driven gear 1416, the two second stirring rods 1418 are respectively arranged above one first stirring rod 1417, and the two second stirring rods 1418 are arranged in parallel and staggered, and two second stirring rods 1418 are arranged in a staggered manner with two first stirring rods 1417; during operation, the first driving gear 1413 can drive the two first driven gears 1415 and the second driving gear 1414 to rotate through driving of the motor 1412, the second driving gear 1414 can drive the two second driven gears 1416 to rotate when rotating, the two first driven gears 1415 and the two second driven gears 1416 can drive the two first stirring rods 1417 and the two second stirring rods 1418 to rotate, and the sewage in the stirring chamber 14 can be fully stirred through the two first stirring rods 1417 and the two second stirring rods 1418, so that the heavy metal capture agent and the sewage are prevented from being stirred unevenly, a good oxidation neutralization effect cannot be achieved, and the sewage cannot reach a discharge standard; stirring component 141 in this application can effectually solve stirring component 141 among the prior art and can not effectually stir sewage when carrying out the operation, makes heavy metal capture agent and the heavy pollution metallic element in the sewage play not fine oxidation neutralization effect.

Specifically, a relay 171 and a heat conduction wire 172 are arranged in the heating cavity 17, the heat conduction wire 172 is located in the heating cavity 17, the relay 171 is arranged in the third driving cavity 18, and one end of the heat conduction wire 172 penetrates through the heating cavity 17 and is connected with the relay 171; during operation, the relay 171 can operate the heat-conducting wire 172, and the sewage is heated by the heat-conducting wire 172 to be sterilized, so that the sewage further reaches the discharge standard.

Specifically, a fourth water pump 181, a seventh water pipe 182 and an eighth water pipe 183 are arranged in the third driving cavity 18, one end of the seventh water pipe 182 is connected with the warming cavity 17, the other end of the seventh water pipe 182 is connected with the fourth water pump 181, one end of the eighth water pipe 183 is connected with the fourth water pump 181, and the other end of the eighth water pipe 183 is connected with the drainage cavity 19; during operation, the seventh water pipe 182 moves the high-temperature waste water in the heating chamber 17 into the eighth water pipe 183 by the fourth water pump 181, and the high-temperature waste water moves into the drain chamber 19 by the eighth water pipe 183, so that the waste water cools the drain chamber 19 naturally, and finally is discharged to the outside of the housing 1 through the fifth connection pipe 25.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, those skilled in the art will appreciate that; the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims

1. The utility model provides a processing apparatus on electro-galvanizing layer, characterized in that, includes shell (1) and coupling assembling (2), coupling assembling (2) set up on shell (1), be equipped with clear water chamber (11), additive chamber (12), first drive chamber (13), stirring chamber (14), flourishing water chamber (15), second drive chamber (16), heat chamber (17), third drive chamber (18) and drainage chamber (19) in shell (1), clear water chamber (11) and additive chamber (12) are listed as the top that sets up in shell (1), stirring chamber (14) set up the one side in shell (1), first drive chamber (13) set up between clear water chamber (11) and stirring chamber (14), flourishing water chamber (15) set up the below in stirring chamber (14), flourishing water chamber (15), heat chamber (17), third drive chamber (18) and drainage chamber (19) set up the below in shell (1) side by side, third drive chamber (18) set up flourishing water cavity (15) and warm between chamber (17), second drive chamber (16) are located the below in clear water chamber (11) and additive chamber (12), and second drive chamber (16) are located the top in chamber (17) and the drainage chamber (19) of heating, additive chamber (12) are connected with stirring chamber (14) through second drive chamber (16), clear water chamber (11) are connected with stirring chamber (14) through first drive chamber (13), through second drive chamber (16) make flourishing water chamber (15) be connected with warm chamber (17).

2. The apparatus for treating an electrogalvanized coating according to claim 1, wherein the connecting assembly (2) includes five first connecting pipes (21), five second connecting pipes (22), five third connecting pipes (23), five fourth connecting pipes (24), five fifth connecting pipes (25), and five solenoid valves (26), the first connecting pipes (21), the second connecting pipes (22), the third connecting pipes (23), the fourth connecting pipes (24), and the fifth connecting pipes (25) are connected to one solenoid valve (26), the first connecting pipes (21), the second connecting pipes (22), and the third connecting pipes (23) are disposed above the outside of the casing (1), the fourth connecting pipes (24) are disposed in the casing (1), the fifth connecting pipes (25) are disposed on a side wall of the outside of the casing (1), the first connecting pipes (21) are connected to the additive chamber (12), second connecting pipe (22) are connected with clear water chamber (11), third connecting pipe (23) are connected with stirring chamber (14), the top and the stirring chamber (14) of fourth connecting pipe (24) are connected, the bottom and flourishing water chamber (15) of fourth connecting pipe (24) are connected, fifth connecting pipe (25) are connected with drainage chamber (19).

3. The zinc electroplating layer processing device according to claim 1, wherein a first water pump (131), a first water pipe (132) and a second water pipe (133) are arranged in the first driving cavity (13), one end of the first water pipe (132) is connected with the clean water cavity (11), the other end of the first water pipe (132) is connected with the first water pump (131), one end of the second water pipe (133) is connected with the first water pump (131), and the other end of the second water pipe (133) is connected with the upper half part of the stirring cavity (14).

4. The zinc electroplating layer processing device according to claim 3, wherein a second water pump (161), a third water pipe (162), a fourth water pipe (163), a third water pump (164), a fifth water pipe (165) and a sixth water pipe (166) are arranged in the second driving cavity (16), one end of the third water pipe (162) is connected with the additive cavity (12), the other end of the third water pipe (162) is connected with the second water pump (161), one end of the fourth water pipe (163) is connected with the second water pump (161), the other end of the fourth water pipe (163) is connected with the stirring cavity (14), the fourth water pipe (163) is positioned below the second water pipe (133), one end of the fifth water pipe (165) is connected with the water containing cavity (15), the other end of the fifth water pipe (165) is connected with the third water pump (164), and one end of the sixth water pipe (166) is connected with the third water pump (164), the other end of the sixth water pipe (166) is connected with the warming cavity (17).

5. The electrogalvanizing treatment apparatus according to claim 4, wherein a stirring component (141) and a filtering component (142) are arranged in the stirring chamber (14), the filtering component (142) comprises a filtering net (143) and a precipitating net (144), the filtering net (143) and the precipitating net (144) are both in a drawing type, the filtering net (143) is arranged above the stirring component (141), the filtering net (143) is arranged below the second water pipe (133), the precipitating net (144) is arranged at the bottom of the stirring chamber (14), and the precipitating net (144) is arranged below the stirring component (141).

6. The apparatus for treating an electrogalvanized coating according to claim 5, wherein the stirring member (141) includes a shielding case (1411), a motor (1412), a first driving gear (1413), a second driving gear (1414), a first driven gear (1415), a second driven gear (1416), a first stirring rod (1417) and a second stirring rod (1418), the shielding case (1411), the motor (1412), the first driving gear (1413), the second driving gear (1414), the first driven gear (1415) and the second driven gear (1416) are disposed in the second driving chamber (16), the first stirring rod (1417) and the second stirring rod (1418) are disposed in the stirring chamber (14), the first driven gear (1415) and the second driven gear (1416) are both disposed, two first stirring rods (1417) and two second stirring rods (1418) are both disposed, the protective shell (1411) is arranged on the side wall outside the stirring cavity (14), the motor (1412), the first driving gear (1413), the second driving gear (1414), the first driven gear (1415) and the second driven gear (1416) are all located in the protective shell (1411), the output end of the motor (1412) is connected with the first driving gear (1413), the two first driven gears (1415) are symmetrically arranged on two sides of the first driving gear (1413), the second driving gear (1414) is arranged above the first driving gear (1413), the two first driven gears (1415) and the second driving gear (1414) are both meshed with the first driving gear (1413), the two second driven gears (1416) are symmetrically arranged on two sides of the second driving gear (1414), the two second driven gears (1416) are both meshed with the second driving gear (1414), each first stirring rod (1417) is connected with one first driven gear (1415), each second stirring rod (1418) is connected with one second driven gear (1416), the two second stirring rods (1418) are located above the first stirring rod (1417), the two second stirring rods (1418) are arranged in a parallel and staggered mode, and the two second stirring rods (1418) are arranged in a staggered mode with the two first stirring rods (1417).

7. The zinc electroplating treatment apparatus according to claim 4, wherein a relay (171) and a heat conducting wire (172) are arranged in the heating chamber (17), the heat conducting wire (172) is positioned in the heating chamber (17), the relay (171) is arranged in the third driving chamber (18), and one end of the heat conducting wire (172) penetrates through the heating chamber (17) and is connected with the relay (171).

8. The zinc electroplating layer processing device according to claim 7, wherein a fourth water pump (181), a seventh water pipe (182) and an eighth water pipe (183) are arranged in the third driving chamber (18), one end of the seventh water pipe (182) is connected with the warming chamber (17), the other end of the seventh water pipe (182) is connected with the fourth water pump (181), one end of the eighth water pipe (183) is connected with the fourth water pump (181), and the other end of the eighth water pipe (183) is connected with the drainage chamber (19).