CN111704212A - Electrolytic purification device suitable for industrial sewage and implementation method thereof - Google Patents

Abstract

The invention discloses an electrolytic purification device suitable for industrial sewage and an implementation method thereof, and the existing technology solves the problems that secondary pollution cannot be caused after discharge, the treatment effect is stable, most of organic waste gas is purified, secondary environment pollution is avoided, energy is saved, the purification removal rate of the organic waste gas in the waste gas is greatly improved, but the problems that the electrolytic purification speed of the sewage is too low in the working process, and the mineral substance material which is electrolyzed is attached to the surface of an electrolytic graphite rod, and the balance of the device in the working state cannot be ensured cannot be solved. The invention ensures that the surface of the electrolytic graphite rod can not be attached with the mineral material which is electrolyzed by slightly stirring and effectively controlling the capacity and the frequency of the electrolytic auxiliary liquid entering the inner cavity of the device, and ensures the balance of the device under the working state by installing the bearing inclined rod.

Description

Electrolytic purification device suitable for industrial sewage and implementation method thereof

Technical Field

The invention relates to the technical field of sewage purification, in particular to an electrolytic purification device suitable for industrial sewage and an implementation method thereof.

Background

The industrial sewage comprises production wastewater, production wastewater and cooling water, and refers to wastewater and waste liquid generated in the industrial production process, wherein the wastewater and the waste liquid contain industrial production materials, intermediate products, byproducts and pollutants generated in the production process, which are lost along with water. The industrial wastewater has various types and complex components. For example, the waste water from electrolytic salt industry contains mercury, the waste water from heavy metal smelting industry contains various metals such as lead and cadmium, the waste water from electroplating industry contains various heavy metals such as cyanide and chromium, the waste water from petroleum refining industry contains phenol, and the waste water from pesticide manufacturing industry contains various pesticides. Because industrial wastewater contains various toxic substances and pollutes the environment, the environment is harmful to human health, so that the industrial wastewater is developed to be comprehensively utilized and turn the harmful into the beneficial, and can be discharged after being treated by adopting corresponding purification measures according to the components and the concentration of pollutants in the wastewater.

Patent No. CN201410498667.9 discloses an oxidizing spray purification device for waste gas in waste treatment and an operation method thereof, the oxidizing spray purification device for waste treatment or industrial waste gas comprises a tower body, an exhaust outlet arranged at the upper part of the tower body, and a waste gas inlet pipe arranged at the lower part of the tower body, wherein a waste gas outlet is arranged on the waste gas inlet pipe extending into the tower body; be provided with draught fan on the waste gas inlet tube, its characterized in that: the tower body is provided with an electrolytic water spraying device, the lower part of the tower body is provided with an electrolytic water tank, and the electrolytic water tank is communicated with the electrolytic water spraying device through a pipeline; one or a plurality of guide plates are arranged in the tower body below the electrolytic water spraying device, an electrolytic purification device is additionally arranged in the tower body around the guide plates, and the electrolytic purification device is connected with a direct current electrolytic rectifier through a lead; under the action of positive and negative polar plates and current concentration set values, the parallel polar plates adopt a mesh-type convenient water-gas reaction, and a circulating water cooling device corresponding to the electrolytic water tank is arranged on the tower body; and the bottom of the tower body is provided with a discharge valve which penetrates through the tower body and is communicated with the electrolytic water tank. Although the device does not cause secondary pollution after being discharged, has stable treatment effect, and can purify most of organic waste gas, thereby avoiding secondary pollution to the environment, saving energy, and greatly improving the purification removal rate of the organic waste gas in the waste gas, the device can not solve the problems that the sewage electrolysis purification speed is too slow in the working process, and the mineral substance material obtained by electrolysis can be attached to the surface of the electrolytic graphite rod, so that the balance of the device in the working state can not be ensured.

In order to solve the problems, an electrolytic purification device suitable for industrial sewage and an implementation method thereof are provided.

Disclosure of Invention

The invention aims to provide an electrolytic purification device suitable for industrial sewage and an implementation method thereof, and the existing technology solves the problems that secondary pollution cannot be caused after discharge, the treatment effect is stable, most of organic waste gas is purified, secondary pollution to the environment is avoided, energy is saved, the purification removal rate of the organic waste gas in the waste gas is greatly improved, but the problems that the electrolytic purification speed of the sewage is too low in the working process, and the mineral substance material which is electrolyzed can be attached to the surface of an electrolytic graphite rod, and the balance of the device in the working state cannot be ensured cannot be solved. The invention ensures that the surface of the electrolytic graphite rod can not be attached with the mineral material which is electrolyzed by slightly stirring and effectively controlling the capacity and the frequency of the electrolytic auxiliary liquid entering the inner cavity of the device, ensures the balance of the device under the working state by installing the bearing diagonal rod, and solves the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an electrolytic purification device suitable for industrial sewage comprises a containing mechanism and a driving mechanism, wherein the containing mechanism comprises a containing bottom shell, a discharge hole, a middle embedded concave batten, a side through hole, an internal connection convex strip and a containing limit shell, the edge of the containing bottom shell is provided with the discharge hole, the upper end of the containing bottom shell is provided with the middle embedded concave batten, the side end of the middle embedded concave batten is provided with the side through hole, the inner cavity wall of the middle embedded concave batten is provided with the internal connection convex strip, the top end of the middle embedded concave batten is provided with the containing limit shell, the inner cavity of the containing mechanism is provided with the driving mechanism, the driving mechanism comprises a rotating mechanism, an external mechanism, an electrolytic disc, a linking mechanism, a positive rod, a negative rod and a carrying diagonal rod, the upper end of the rotating mechanism is provided with the external mechanism, the inner cavity of the external mechanism is provided with, the cathode bar is installed at the left end of the inner cavity of the connecting mechanism, and the bearing inclined rods are installed at the two ends of the connecting mechanism.

Further, rotary mechanism includes installation chassis, installation shell, driving motor, transmission shaft and installation base block, and the installation shell is installed to the upper end on installation chassis, and driving motor is installed to the inner chamber of installation shell, and the transmission shaft is installed in driving motor's the top rotation, the upper end and the installation base block swing joint of transmission shaft.

Furthermore, the external mechanism comprises a connecting ring, transverse connecting rods, a connecting block, vertical connecting rods and an internal connecting mechanism, the transverse connecting rods are installed at two ends of the connecting ring, the connecting block is installed at the outer ends of the transverse connecting rods, the vertical connecting rods are installed at the inner ends of the connecting blocks, and the internal connecting mechanism is installed at the inner ends of the vertical connecting rods.

Further, the internal connection mechanism comprises a connecting transverse cylinder, a feeding pipe, a positioning connection block, a transverse connection cylinder, an external mounting transverse disc, a transverse groove and an internal through hole, the feeding pipe is mounted at the side end of the connecting transverse cylinder, the positioning connection block is mounted at the side end of the feeding pipe, the transverse connection cylinder is mounted at the other end of the positioning connection block, the external mounting transverse disc is mounted at the side end of the transverse connection cylinder, the transverse groove is formed in the outer end of the external mounting transverse disc, and the internal through hole is formed in the inner cavity of the transverse groove.

Furthermore, the electrolytic plate comprises a plate body, built-in holes, through holes, a feeding hole, an inner through cavity and an inner groove, the built-in holes are formed in the upper end of the plate body in an annular array mode, the through holes are formed in the two ends of the built-in holes, the feeding hole is formed in the side end of each through hole in a penetrating mode, the inner through cavity is formed in the middle end of the plate body, and the through holes are formed in the inner cavity of the inner through cavity.

Further, linking mechanism includes linking a section of thick bamboo, connects the shell down, links up the tooth piece, drive the pole, rotatory base block, two ear rods, two ears installation section of thick bamboo, drive axle and drive motor, links up a lower extreme of a section of thick bamboo and installs down and connect the shell, connects the bottom of shell down and installs linking tooth piece, links up the inner chamber of a section of thick bamboo and installs drive pole, the rotatory base block is installed to the upper end of drive pole, two ear rods are installed at the both ends of rotatory base block, two ears installation section of thick bamboo is installed at the both ends of two ear rods, rotatory base block is installed on the top of rotatory base block, the drive motor is installed to the upper end of rotatory base block.

Furthermore, two ends of the double-lug installation cylinder are provided with bearing inclined rods, and the other ends of the bearing inclined rods are connected with the top end of the containing limiting shell in a sliding mode.

Furthermore, the outer end of the internal connection mechanism is movably connected with the outer end of the internal connection convex strip through a transverse groove.

Further, the positive electrode rod and the negative electrode rod are both members made of graphite materials.

The invention provides another technical scheme that: the implementation method of the electrolytic purification device suitable for the industrial sewage comprises the following steps:

s1: pouring industrial sewage into an inner cavity of the containing mechanism, wherein the sewage capacity cannot overflow the top end of the containing limiting shell;

s2: the driving mechanism is arranged in an inner cavity of the containing mechanism, the bottom end of the mounting base plate is contacted with the bottom end of the inner cavity of the containing mechanism, the bottom end of the bearing inclined rod is contacted with the upper end of the containing limiting shell, the driving motor drives the transmission shaft to rotate in the same direction, and the driving motor drives the mounting base plate arranged at the top end of the mounting base block to rotate;

s3: auxiliary electrolytic liquid is infused into the inner cavity of the side through hole from the outer end of the device, the transverse groove is attached to the internal convex strip, when the external mechanism rotates, the attachment of the internal convex strip and the external mechanism plays a role in temporary sealing, and when the internal through hole rotates to be at the same angle with the side through hole, the auxiliary electrolytic liquid enters the inner cavity of the containing mechanism;

s4: the connecting tooth block is meshed with the upper end of the connecting ring, so that the connecting mechanism and the external mechanism form a whole, the connecting mechanism and the external mechanism rotate in the same direction, the downward extending lengths of the positive rod and the negative rod are adjusted, and the positive rod and the negative rod penetrate through the inner cavity of the built-in hole;

s5: electrically connecting the top ends of the anode rod and the cathode rod with an external power supply, carrying out an electrolytic reaction on the two at the inner end of the sewage, rotating the anode rod and the cathode rod to drive the sewage to be slightly stirred, and carrying out a rapid electrolytic reaction on the sewage by using an electrolysis auxiliary liquid and slightly-stirred double-auxiliary electrolysis;

s6: and the sewage after the reaction passes through the discharge hole discharging device to clean the electrolytic residues in the inner cavity of the containing mechanism.

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

1. the invention provides an electrolytic purification device suitable for industrial sewage and an implementation method thereof.A, industrial sewage is poured into an inner cavity of a containing mechanism, the sewage capacity can not overflow the top end of a containing limit shell, if the sewage capacity exceeds a set threshold value, the sewage can overflow the outer end of the device when the sewage is slightly stirred, the environmental sanitation around the device is damaged, a driving mechanism is arranged in the inner cavity of the containing mechanism, the bottom end of an installation chassis is contacted with the bottom end of the inner cavity of the containing mechanism, the bottom end of a bearing inclined rod is contacted with the upper end of the containing limit shell, a driving motor drives a transmission shaft to rotate in the same direction, the driving motor drives the installation chassis arranged at the top end of an installation base block to rotate, the installation of the bearing inclined rod is carried out, and the phenomenon that the driving mechanism inclines and even collapses due to balance loss during;

2. the invention provides an electrolytic purification device suitable for industrial sewage and an implementation method thereof.A transverse groove is jointed with an internal convex strip by infusing electrolytic auxiliary liquid into an inner cavity of a side through hole from the outer end of the device, the internal convex strip is jointed with the internal convex strip, when the external mechanism rotates, the jointing of the internal convex strip and the external mechanism plays a role of temporary sealing, when the internal through hole rotates to be positioned at the same angle with the side through hole, the electrolytic auxiliary liquid enters the inner cavity of a containing mechanism, a jointing tooth block is meshed with the upper end of a connecting ring, so that the jointing mechanism and the external mechanism are integrated to carry out the same-direction rotating motion, the downward extending lengths of a positive rod and a negative rod are adjusted, the positive rod and the negative rod both penetrate through the inner cavity of the internal hole, and the lengths of the positive rod and the negative rod are adjusted upwards under the;

3. the invention provides an electrolytic purification device suitable for industrial sewage and an implementation method thereof.A positive rod and a negative rod are electrically connected with the top ends of an external power supply, the positive rod and the negative rod carry out electrolytic reaction at the inner end of the sewage, the positive rod and the negative rod rotate to drive the sewage to be slightly stirred, and the sewage is subjected to quick electrolytic reaction by using double-auxiliary electrolysis of electrolysis auxiliary liquid and slight stirring, so that the flow rate of the sewage is increased by slight stirring, mineral substances electrolyzed when the sewage is kept still are prevented from precipitating and being adsorbed on the outer walls of the positive rod and the negative rod, and the sewage after reaction is discharged from a device through a discharge hole to clean electrolytic residues in an inner cavity of a containing mechanism.

Drawings

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

FIG. 2 is a schematic structural view of a containing mechanism of the present invention;

FIG. 3 is a schematic view of the driving mechanism of the present invention;

FIG. 4 is a schematic structural diagram of an external connection mechanism according to the present invention;

FIG. 5 is a schematic view of the internal connecting mechanism of the present invention;

FIG. 6 is a schematic view of the structure of an electrolytic tray of the present invention;

FIG. 7 is a schematic view of a connection mechanism according to the present invention;

fig. 8 is a schematic structural view of the rotating mechanism of the present invention.

In the figure: 1. a containing mechanism; 11. a bottom shell is placed; 12. a discharge hole; 13. embedding a concave strip plate in the middle; 14. a side through hole; 15. internally connecting convex strips; 16. a containing limit shell; 2. a drive mechanism; 21. a rotation mechanism; 211. installing a chassis; 212. installing a shell; 213. a drive motor; 214. a drive shaft; 215. installing a base block; 22. an external connection mechanism; 221. a connecting ring; 222. a transverse connecting rod; 223. a joining block; 224. a vertical connecting rod; 225. an inscription mechanism; 2251. connecting the transverse cylinders; 2252. a feeding pipe; 2253. positioning the connecting block; 2254. a transverse connecting cylinder; 2255. a transverse disc is installed outside; 2256. a transverse groove; 2257. an inner through hole is formed; 23. an electrolytic disk; 231. a tray body; 232. a built-in hole; 233. a through hole; 234. a feeding hole; 235. an inner through cavity; 236. an inner groove; 24. a joining mechanism; 241. a joining cylinder; 242. a lower connecting shell; 243. engaging the tooth block; 244. driving the rod; 245. rotating the base block; 246. a binaural stem; 247. a double-lug mounting cylinder; 248. driving a shaft; 249. driving a motor; 25. a positive electrode bar; 26. a negative electrode bar; 27. receiving the diagonal rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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.

The first embodiment is as follows:

referring to fig. 1, 2 and 3, an electrolytic purification device suitable for industrial sewage comprises a containing mechanism 1 and a driving mechanism 2, wherein the containing mechanism 1 comprises a containing bottom shell 11, a discharge hole 12, a middle embedded concave strip plate 13, a side through hole 14, an internal convex strip 15 and a containing limit shell 16, the edge of the containing bottom shell 11 is provided with the discharge hole 12, the upper end of the containing bottom shell 11 is provided with the middle embedded concave strip plate 13, the side end of the middle embedded concave strip plate 13 is provided with the side through hole 14, the inner cavity wall of the middle embedded concave strip plate 13 is provided with the internal convex strip 15, the top end of the middle embedded concave strip plate 13 is provided with the containing limit shell 16, the driving mechanism 2 is arranged in the inner cavity of the containing mechanism 1, the driving mechanism 2 comprises a rotating mechanism 21, an external mechanism 22, an electrolytic disc 23, a connecting mechanism 24, a positive rod 25, a negative rod 26 and a bearing diagonal rod 27, the upper end of the rotating mechanism 21 is provided with the external mechanism 22, connecting mechanism 24 is installed on the top of external mechanism 22, and positive pole stick 25 is installed to connecting mechanism 24's inner chamber right-hand member, and negative pole stick 26 is installed to connecting mechanism 24's inner chamber left end, and positive pole stick 25 and negative pole stick 26 are the component that a graphite material made, and the both ends of connecting mechanism 24 are installed and are accepted down tube 27.

Example two:

referring to fig. 3, 4, 5, 6, 7 and 8, the rotating mechanism 21 includes a mounting base plate 211, a mounting housing 212, a driving motor 213, a driving shaft 214 and a mounting base block 215, the mounting housing 212 is mounted on the upper end of the mounting base plate 211, the driving motor 213 is mounted in the inner cavity of the mounting housing 212, the driving shaft 214 is rotatably mounted on the top end of the driving motor 213, the upper end of the driving shaft 214 is movably connected with the mounting base block 215, the external connection mechanism 22 includes a connection ring 221, a horizontal connection rod 222, a connection block 223, a vertical connection rod 224 and an internal connection mechanism 225, the horizontal connection rod 222 is mounted on both ends of the connection ring 221, the connection block 223 is mounted on the outer end of the horizontal connection rod 222, the vertical connection rod 224 is mounted on the inner end of the connection block 225223, the internal connection mechanism 225 is mounted on the inner end of the vertical connection rod 224, the internal connection mechanism 225 includes a connection horizontal cylinder 2251, a feeding pipe 2252, a positioning, A transverse groove 2256 and an inner through hole 2257, a feeding tube 2252 is mounted at the side end of the connecting transverse cylinder 2251, a positioning connecting block 2253 is mounted at the side end of the feeding tube 2252, a transverse connecting cylinder 2254 is mounted at the other end of the positioning connecting block 2253, an outer mounting transverse disc 2255 is mounted at the side end of the transverse connecting cylinder 2254, a transverse groove 2256 is formed at the outer end of the outer mounting transverse disc 2255, an outer end of the inner connecting mechanism 225 is movably connected to the outer end of the inner connecting protrusion 15 through the transverse groove 2256, an inner through hole 2257 is formed in the inner cavity of the transverse groove 2256, the electrolytic disc 23 comprises a disc body 231, an inner hole 232, a through hole 233, a feeding hole 234, an inner through cavity 235 and an inner groove 236, an annular array of the upper end of the disc body 231 is formed with the inner holes 232, through holes 233 are formed at both ends of the inner hole 232, a side end of the through hole 233 is formed through the feeding hole 234, an inner through cavity 235 is formed at the middle end, The lower connecting shell 242, the engaging tooth block 243, the driving rod 244, the rotating base block 245, the double-lug rod 246, the double-lug installation cylinder 247, the driving shaft 248 and the driving motor 249, the lower connecting shell 242 is installed at the lower end of the engaging cylinder 241, the engaging tooth block 243 is installed at the bottom end of the lower connecting shell 242, the driving rod 244 is installed in the inner cavity of the engaging cylinder 241, the rotating base block 245 is installed at the upper end of the driving rod 244, the double-lug rod 246 is installed at two ends of the rotating base block 245, the double-lug installation cylinder 247 is installed at two ends of the double-lug rod 246, the receiving inclined rod 27 is installed at two ends of the double-lug installation cylinder 247, the other end of the receiving inclined rod 27 is in sliding connection with the top end of the containing limit shell 16, the rotating base block 245 is installed at the top end of the rotating base block 245, the driving motor is installed at the upper end of the rotating base block 245, industrial sewage is poured into the inner, when the sewage is slightly stirred, the sewage can splash out of the outer end of the device, the environmental sanitation around the device is damaged, the driving mechanism 2 is installed in the inner cavity of the containing mechanism 1, the bottom end of the installation chassis 211 is contacted with the bottom end of the inner cavity of the containing mechanism 1, the bottom end of the receiving diagonal rod 27 is contacted with the upper end of the containing limiting shell 16, the driving motor 213 drives the transmission shaft 214 to rotate in the same direction, the transmission shaft drives the installation chassis 221 installed at the top end of the installation base block 215 to rotate, the receiving diagonal rod 27 is installed, when the driving mechanism 2 works, the phenomenon that the driving mechanism is inclined or collapsed due to balance loss during slight stirring is avoided, auxiliary electrolytic liquid is infused into the inner cavity of the side through hole 14 from the outer end of the device, the transverse groove 2256 is attached to the inner convex strip 15, when the outer mechanism 22 rotates, the attachment of the inner convex strip 15 and the outer mechanism 22 plays a role of temporary sealing, when, the electrolysis auxiliary liquid enters the inner cavity of the containing mechanism 1, the engagement tooth block 243 is engaged with the upper end of the connecting ring 221, the engagement mechanism 24 and the external mechanism 22 are integrated, the same-direction rotating motion is realized, the downward extension length of the anode rod 25 and the cathode rod 26 is adjusted, the anode rod 25 and the cathode rod 26 are enabled to penetrate through the inner cavity of the built-in hole 232, the lengths of the anode rod 25 and the cathode rod 26 are adjusted upwards under the quasi-working state, the bottom ends of the anode rod 25 and the cathode rod 26 are enabled to be separated from the inner cavity of the electrolytic disc 23, the top ends of the anode rod 25 and the cathode rod 26 are electrically connected with the inner end of the external power supply, the anode rod 25 and the cathode rod 26 are rotated to drive the sewage to be slightly stirred, the double-auxiliary electrolysis liquid and the slightly-stirred auxiliary electrolysis are utilized, the sewage is enabled to carry out the rapid electrolysis reaction, the slight stirring is enabled to increase the flow rate of the, avoid its absorption at the outer wall of anodal stick 25 and negative pole stick 26, the sewage that the reaction was accomplished passes through discharge opening 12 eduction gear, clears up the electrolysis residue that holds the mechanism 1 inner chamber.

In order to better represent the implementation method of the electrolytic purification device suitable for the industrial sewage, the embodiment provides the implementation method of the electrolytic purification device for the industrial sewage, which comprises the following steps:

s1: pouring industrial sewage into the inner cavity of the containing mechanism 1, wherein the sewage cannot overflow the top end of the containing limit shell 16;

s2: the driving mechanism 2 is installed in the inner cavity of the containing mechanism 1, the bottom end of the installation base plate 211 is contacted with the bottom end of the inner cavity of the containing mechanism 1, the bottom end of the bearing inclined rod 27 is contacted with the upper end of the containing limit shell 16, and the driving motor 213 drives the transmission shaft 214 to rotate in the same direction, which drives the installation base plate 221 installed at the top end of the installation base block 215 to rotate;

s3: auxiliary electrolytic liquid is infused into the inner cavity of the side through hole 14 from the outer end of the device, the transverse groove 2256 is attached to the inner convex strip 15, when the outer connecting mechanism 22 rotates, the attachment of the inner convex strip 15 and the outer connecting mechanism 22 plays a role in temporary sealing, and when the inner through hole 2257 rotates to be positioned at the same angle with the side through hole 14, the auxiliary electrolytic liquid enters the inner cavity of the containing mechanism 1;

s4: the engaging tooth block 243 is engaged with the upper end of the connecting ring 221, so that the engaging mechanism 24 and the external mechanism 22 are integrated into a whole, the same-direction rotating motion is carried out, the downward extending length of the positive rod 25 and the negative rod 26 is adjusted, and the positive rod 25 and the negative rod 26 both penetrate through the inner cavity of the built-in hole 232;

s5: electrically connecting the top ends of the anode rod 25 and the cathode rod 26 with an external power supply, carrying out an electrolytic reaction on the inner ends of the sewage by the anode rod 25 and the cathode rod 26, rotating the anode rod 25 and the cathode rod 26 to drive the sewage to be slightly stirred, and carrying out a rapid electrolytic reaction on the sewage by using an electrolysis auxiliary liquid and slightly-stirred double-auxiliary electrolysis;

s6: the sewage after the reaction is discharged through the discharge hole 12 to clean the electrolytic residues in the inner cavity of the containing mechanism 1.

In summary, the following steps: pouring industrial sewage into an inner cavity of the containing mechanism 1, wherein the sewage capacity cannot overflow the top end of the containing limit shell 16, if the sewage capacity exceeds a set threshold value, the sewage can spill out of the outer end of the device when slightly stirring the sewage, and the environmental sanitation around the device is damaged, the driving mechanism 2 is arranged in the inner cavity of the containing mechanism 1, the bottom end of the mounting base plate 211 is contacted with the bottom end of the inner cavity of the containing mechanism 1, the bottom end of the bearing inclined rod 27 is contacted with the upper end of the containing limit shell 16, the driving motor 213 drives the transmission shaft 214 to rotate in the same direction, the driving motor drives the mounting base plate 221 arranged at the top end of the mounting base block 215 to rotate, the bearing inclined rod 27 is arranged, so that the phenomenon that the driving mechanism 2 inclines or even collapses due to balance loss during slight stirring can not occur when working, electrolytic auxiliary liquid is electrolyzed from the outer end of the device to the inner cavity of the, when the external connection mechanism 22 rotates, the internal connection raised strip 15 and the external connection mechanism 22 are attached to each other to play a temporary sealing role, when the internal through hole 2257 rotates to be positioned at the same angle with the side through hole 14, the electrolysis auxiliary liquid enters the inner cavity of the containing mechanism 1, the engagement tooth block 243 is engaged with the upper end of the connection ring 221, so that the engagement mechanism 24 and the external connection mechanism 22 are integrated to rotate in the same direction, the downward extension lengths of the positive rod 25 and the negative rod 26 are adjusted, the positive rod 25 and the negative rod 26 both penetrate through the inner cavity of the internal hole 232, in a quasi-working state, the lengths of the positive rod 25 and the negative rod 26 are adjusted upwards, the bottom ends of the positive rod 25 and the negative rod 26 leave the inner cavity of the electrolytic disc 23, the top ends of the positive rod 25 and the negative rod 26 are both electrically connected with the external power supply, the two carry out an electrolysis reaction at the inner end of sewage, the positive rod 25, the two supplementary electrolysis of application electrolysis auxiliary liquid and slight stirring makes sewage carry out quick electrolytic reaction, slightly stirs the velocity of flow that increases sewage, and the mineral substance of electrolysis play when avoiding sewage to stew deposits, avoids it to adsorb at the outer wall of anodal stick 25 and negative pole stick 26, and the sewage that the reaction was accomplished passes through discharge opening 12 eduction gear, clears up the electrolysis residue that holds the mechanism 1 inner chamber.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides an electrolysis purifier suitable for industrial sewage, is including holding mechanism (1) and actuating mechanism (2), its characterized in that: the containing mechanism (1) comprises a containing bottom shell (11), a discharge hole (12), a middle embedded concave strip plate (13), a side through hole (14), an internal connection convex strip (15) and a containing limit shell (16), the discharge hole (12) is formed in the edge of the containing bottom shell (11), the middle embedded concave strip plate (13) is installed at the upper end of the containing bottom shell (11), the side through hole (14) is formed in the side end of the middle embedded concave strip plate (13), the internal connection convex strip (15) is installed on the inner cavity wall of the middle embedded concave strip plate (13), the containing limit shell (16) is installed at the top end of the middle embedded concave strip plate (13), a driving mechanism (2) is installed in the inner cavity of the containing mechanism (1), the driving mechanism (2) comprises a rotating mechanism (21), an external connection mechanism (22), an electrolytic disc (23), a linking mechanism (24), an anode rod (25), a cathode rod (26) and a bearing inclined rod, an electrolytic disc (23) is installed in the inner cavity of the external mechanism (22), a connecting mechanism (24) is installed at the top end of the external mechanism (22), a positive pole rod (25) is installed at the right end of the inner cavity of the connecting mechanism (24), a negative pole rod (26) is installed at the left end of the inner cavity of the connecting mechanism (24), and bearing inclined rods (27) are installed at two ends of the connecting mechanism (24).

2. An electrolytic purification apparatus suitable for industrial sewage according to claim 1, wherein: the rotating mechanism (21) comprises an installation chassis (211), an installation shell (212), a driving motor (213), a transmission shaft (214) and an installation base block (215), the installation shell (212) is installed at the upper end of the installation chassis (211), the driving motor (213) is installed in an inner cavity of the installation shell (212), the transmission shaft (214) is installed at the top end of the driving motor (213) in a rotating mode, and the upper end of the transmission shaft (214) is movably connected with the installation base block (215).

3. An electrolytic purification apparatus suitable for industrial sewage according to claim 1, wherein: the external mechanism (22) comprises a connecting ring (221), a transverse connecting rod (222), a connecting block (223), a vertical connecting rod (224) and an internal connecting mechanism (225), the transverse connecting rod (222) is installed at two ends of the connecting ring (221), the connecting block (223) is installed at the outer end of the transverse connecting rod (222), the vertical connecting rod (224) is installed at the inner end of the connecting block (223), and the internal connecting mechanism (225) is installed at the inner end of the vertical connecting rod (224).

4. An electrolytic purification apparatus suitable for industrial sewage according to claim 3, wherein: the inner connecting mechanism (225) comprises a connecting transverse cylinder (2251), a feeding pipe (2252), a positioning connecting block (2253), a transverse connecting cylinder (2254), an outer mounting transverse disc (2255), a transverse groove (2256) and an inner through hole (2257), the feeding pipe (2252) is mounted at the side end of the connecting transverse cylinder (2251), the positioning connecting block (2253) is mounted at the side end of the feeding pipe (2252), the transverse connecting cylinder (2254) is mounted at the other end of the positioning connecting block (2253), the outer mounting transverse disc (2255) is mounted at the side end of the transverse connecting cylinder (2254), the transverse groove (2256) is formed in the outer end of the outer mounting transverse disc (2255), and the inner through hole (7) is formed in the inner cavity of the transverse groove (2256).

5. An electrolytic purification apparatus suitable for industrial sewage according to claim 1, wherein: electrolytic disc (23) include disk body (231), built-in hole (232), through hole (233), pan feeding hole (234), interior through cavity (235) and inner groovy (236), built-in hole (232) have been seted up to the upper end annular array of disk body (231), through hole (233) have been seted up at the both ends of built-in hole (232), pan feeding hole (234) have been seted up in the side run-through of through hole (233), interior through cavity (235) have been seted up to the middle-end of disk body (231), through hole (233) have been seted up to the inner chamber of interior through cavity (235).

6. An electrolytic purification apparatus suitable for industrial sewage according to claim 1, wherein: the connection mechanism (24) comprises a connection cylinder (241), a lower connection shell (242), a connection tooth block (243), a driving rod (244), a rotary base block (245), a double-ear rod (246), a double-ear installation cylinder (247), a driving shaft (248) and a driving motor (249), the lower connection shell (242) is installed at the lower end of the connection cylinder (241), the connection tooth block (243) is installed at the bottom end of the lower connection shell (242), the driving rod (244) is installed in an inner cavity of the connection cylinder (241), the rotary base block (245) is installed at the upper end of the driving rod (244), the double-ear rod (246) is installed at two ends of the rotary base block (245), the double-ear installation cylinder (247) is installed at two ends of the double-ear rod (246), the rotary base block (245) is installed at the top end of the rotary base block (245), and the driving motor (249.

7. An electrolytic purification apparatus suitable for industrial sewage according to claim 6, wherein: two ends of the double-lug mounting cylinder (247) are provided with bearing inclined rods (27), and the other ends of the bearing inclined rods (27) are connected with the top end of the containing limiting shell (16) in a sliding manner.

8. An electrolytic purification apparatus suitable for industrial sewage according to claim 3, wherein: the outer end of the inner connecting mechanism (225) is movably connected with the outer end of the inner connecting convex strip (15) through a transverse groove (2256).

9. An electrolytic purification apparatus suitable for industrial sewage according to claim 1, wherein: the positive electrode rod (25) and the negative electrode rod (26) are both members made of graphite material.

10. A method for implementing an electrolytic purification device for industrial sewage according to any one of claims 1 to 9, characterized in that: the method comprises the following steps:

s1: pouring industrial sewage into an inner cavity of the containing mechanism (1), wherein the sewage capacity cannot overflow the top end of the containing limiting shell (16);

s2: the driving mechanism (2) is installed in an inner cavity of the containing mechanism (1), the bottom end of the installation base plate (211) is contacted with the bottom end of the inner cavity of the containing mechanism (1), the bottom end of the bearing inclined rod (27) is contacted with the upper end of the containing limiting shell (16), the driving motor (213) drives the transmission shaft (214) to rotate in the same direction, and the driving motor drives the installation base plate (221) installed at the top end of the installation base block (215) to rotate;

s3: auxiliary electrolytic liquid is infused into the inner cavity of the side through hole (14) from the outer end of the device, the transverse groove (2256) is attached to the inner connecting raised line (15), when the external connection mechanism (22) rotates, the attachment of the inner connecting raised line (15) and the external connection mechanism (22) plays a role in temporary sealing, and when the inner through hole (2257) rotates to be at the same angle with the side through hole (14), the auxiliary electrolytic liquid enters the inner cavity of the containing mechanism (1);

s4: the engaging tooth block (243) is engaged with the upper end of the connecting ring (221), so that the engaging mechanism (24) and the external mechanism (22) are integrated into a whole, the connecting mechanism and the external mechanism rotate in the same direction, the downward extension length of the positive rod (25) and the negative rod (26) is adjusted, and the positive rod (25) and the negative rod (26) penetrate through the inner cavity of the built-in hole (232);

s5: electrically connecting the top ends of the anode rod (25) and the cathode rod (26) with an external power supply, carrying out an electrolytic reaction on the two at the inner end of the sewage, rotating the anode rod (25) and the cathode rod (26) to drive the sewage to be slightly stirred, and carrying out a rapid electrolytic reaction on the sewage by using an electrolysis auxiliary liquid and slightly-stirred double-auxiliary electrolysis;

s6: the sewage after the reaction is discharged through the discharge hole (12) to clean the electrolytic residues in the inner cavity of the containing mechanism (1).

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