CN212582015U - High-efficient sodium hypochlorite electrolysis trough - Google Patents
High-efficient sodium hypochlorite electrolysis trough Download PDFInfo
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- CN212582015U CN212582015U CN202021197124.0U CN202021197124U CN212582015U CN 212582015 U CN212582015 U CN 212582015U CN 202021197124 U CN202021197124 U CN 202021197124U CN 212582015 U CN212582015 U CN 212582015U
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Abstract
The utility model discloses a high-efficient sodium hypochlorite electrolysis trough, including cell body, positive plate, negative plate and polar plate mounting, the cell body is the column, and positive plate and negative plate all are fixed in the cell body through the polar plate mounting, and the equal vertical setting of positive plate and negative plate, positive plate and negative plate are just right, and the cell body is made for insulating material, and the cell body bottom has the evacuation mouth. The utility model provides a high-efficient sodium hypochlorite electrolysis trough can reduce the accumulation of debris such as incrustation scale that the electrolysis produced on the plate electrode, and the debris of being convenient for subside and get rid of, and electrolysis is efficient, and is power consumptive low.
Description
Technical Field
The utility model relates to a sewage treatment field especially relates to high-efficient sodium hypochlorite electrolysis trough.
Background
Sodium hypochlorite is a strong oxidant and is commonly used in the field of sewage treatment. Sodium hypochlorite is usually produced by arranging an electrode plate in a sodium hypochlorite electrolytic tank for electrolysis. Electrolytic processes produce sodium hypochlorite by electrolysis of 2% to 5% dilute saline water to produce a sodium hypochlorite disinfectant solution. The salt solution in the electrolytic bath contains ions such as Na < + >, H < + > and the like, under the action of a certain electric field, the electrolyte solution moves to the anode due to the movement of the ions and electrode reaction, then negative ions such as CL < - >, OH < - > and the like move to the anode, positive ions such as Na < + >, H < + > and the like move to the cathode, and discharge is generated on the corresponding electrode, so that redox reaction is carried out, and a corresponding sodium hypochlorite strong oxidizing solution is generated. The positive and negative electrode plates in the existing sodium hypochlorite electrolytic cell are mostly horizontally arranged in a columnar cell up and down, impurities such as incrustation scale and the like can be generated in the process of producing sodium hypochlorite by electrolysis, the impurities can be accumulated on the horizontally arranged electrode plates to influence the reaction efficiency, the impurities are not convenient to settle and remove, in addition, the distance between the positive and negative electrode plates which are horizontally arranged up and down is large, the resistance is large, the power consumption is high, and the electrolysis efficiency is low.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a high-efficient sodium hypochlorite electrolysis trough can reduce the accumulation of debris such as incrustation scale that the electrolysis produced on the plate electrode, and the debris of being convenient for subside and get rid of, and electrolysis is efficient, and is power consumptive low.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
the utility model discloses a high-efficient sodium hypochlorite electrolysis trough, including cell body, positive plate, negative plate and polar plate mounting, the cell body is the column, the positive plate with the negative plate all passes through the polar plate mounting is fixed in the cell body, the positive plate with the equal vertical setting of negative plate, the positive plate with the negative plate is just right, the cell body is made for insulating material, the cell body bottom has the evacuation mouth.
The utility model has the advantages that: the vertical installation of positive plate and negative plate, salt solution react between the polar plate, debris such as incrustation scale that the reaction of being convenient for produced subsides to the cell body bottom to discharge through the evacuation mouth, the interval is little between positive plate and the negative plate, and resistance is little, and the voltage that needs is little, and whole electrolysis trough electrolysis is efficient, and the cell body can prevent for insulating material that the mistake from touching the cell body and taking place to electrocute phenomenon or cell body and other equipment contact influence other equipment uses.
Furthermore, the groove body is made of transparent materials.
The beneficial effect of adopting the further scheme is that: the electrolysis and sundry precipitation conditions in the tank body can be observed conveniently, the use state of the electrode can be judged, and then pickling and sundry removal in the tank body can be carried out in time.
Furthermore, the groove body is made of acrylic materials.
The beneficial effect of adopting the further scheme is that: the acrylic material can be welded, is convenient to process, is fixed by equipment installation, has stable chemical property, and is beneficial to electrolytic reaction and acid cleaning of impurities.
Further, still including sealed lid, sealed lid is insulating material, sealed lid with the notch adaptation of cell body and lid connect in on the notch of cell body, sealed lid will the notch of cell body is sealed, the positive plate has anodal binding post, the negative plate has negative binding post, anodal binding post with negative binding post's wiring end is all worn out the cell body, anodal binding post with negative binding post is used for connecting.
The beneficial effect of adopting the further scheme is that: avoid solution in the cell body to spill over from the notch and cause waste and accident, the outside is only anodal binding post and negative pole binding post electrified, reduces the area that electrified position exposes, can reduce the risk of electrocuteeing.
Furthermore, the sealing cover is provided with a through hole, the wiring ends of the positive wiring terminal and the negative wiring terminal respectively penetrate out of the groove body from the through hole corresponding to the sealing cover, and the side walls of the positive wiring terminal and the negative wiring terminal are in sealing fit with the through hole corresponding to the sealing cover.
The beneficial effect of adopting the further scheme is that: anodal binding post and negative pole binding post are all in same one side, are convenient for be connected with the power, and anodal binding post and negative pole binding post are all worn out from the cell body top, keep away from people's home range, can reduce the risk of electrocuteeing.
Further, the tank body is also provided with a water inlet and a water outlet, the water inlet is arranged at the lower part of the tank body, and the water outlet is arranged at the upper part of the tank body.
The beneficial effect of adopting the further scheme is that: the saline water is filled in the tank body from bottom to top and reacts, the reaction path is long, the water flow speed is slow, and the reaction is sufficient.
Furthermore, the water inlet direction of the water inlet and the water outlet direction of the water outlet are both parallel to the vertical side edges of the positive plate and the negative plate, and the water inlet and the water outlet are both arranged between the positive plate and the negative plate.
The beneficial effect of adopting the further scheme is that: the inlet water directly flows between the positive and negative plates and fully contacts with the plates, so as to facilitate the electrolytic reaction, and the outlet water after electrolysis also directly flows out from between the positive and negative plates, thereby improving the electrolysis efficiency.
The cell body is provided with a plurality of sub-pole plates, all the sub-pole plates are fixed in the cell body through pole plate fixing parts, all the sub-pole plates are arranged between the positive pole plate and the negative pole plate, and all the sub-pole plates are parallel to the positive pole plate and the negative pole plate.
The beneficial effect of adopting the further scheme is that: the sub-polar plates are arranged between the positive polar plate and the negative polar plate, so that the electrolytic reaction area is increased, the conductivity is improved, and the electrolytic reaction efficiency can be improved.
Furthermore, the polar plate fixing part comprises a plurality of fixing plates arranged from top to bottom, all the fixing plates are detachably connected with the groove body, and the connecting parts of the fixing plates, the positive plate and the negative plate are fixed in the groove body respectively.
The beneficial effect of adopting the further scheme is that: the polar plate is fixed more firmly from a plurality of fixed point positions down, avoids positive and negative polar plate drunkenness or slope, and the fixed plate can be dismantled with the cell body and be connected, the dismouting of being convenient for and to the maintenance in the cell body.
Furthermore, the fixing plate is provided with a first strip-shaped through hole for inserting the positive plate and a second strip-shaped through hole for inserting the negative plate, the first strip-shaped through hole is parallel to the second strip-shaped through hole, all the first strip-shaped through holes and the second strip-shaped through holes on the fixing plate are right opposite, the positive plate and the negative plate are respectively and correspondingly inserted into the first strip-shaped through hole and the second strip-shaped through hole of the fixing plate, and the positive plate and the negative plate are respectively connected with the fixing plate through the first strip-shaped through hole and the second strip-shaped through hole.
The beneficial effect of adopting the further scheme is that: the polar plate is convenient to disassemble and assemble.
Drawings
Fig. 1 is a perspective view of an embodiment of the present invention;
fig. 2 is a front view of an embodiment of the present invention;
FIG. 3 is a perspective view of an embodiment of the positive plate, the negative plate, and the separator plate coupled to the plate holder;
FIG. 4 is a front view of an embodiment of the positive plate, the negative plate, and the separator plate coupled to the plate holder;
in the figure: 1. a trough body; 11. a water inlet; 12. a water outlet; 2. a positive plate; 21. a positive terminal; 3. a negative plate; 31. a negative terminal; 4. dividing the polar plate; 5. a fixing plate; 6. a sealing cover;
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings.
As shown in fig. 1-4, the utility model discloses an embodiment of high-efficient sodium hypochlorite electrolysis trough, including cell body 1, positive plate 2, negative plate 3 and polar plate mounting, cell body 1 is the column, and positive plate 2 and negative plate 3 all fix in cell body 1 through the polar plate mounting, and the equal vertical setting of positive plate 2 and negative plate 3, positive plate 2 and negative plate 3 are just right, and cell body 1 is made for transparent insulating material, preferably ya keli material, and 1 bottom of cell body has the evacuation mouth, and evacuation mouth department has the valve.
As a further scheme of the above embodiment, the cell further comprises a sub-pole plate 4, the sub-pole plate 4 has a plurality of sub-pole plates, all the sub-pole plates 4 are fixed in the cell body 1 through pole plate fixing parts, all the sub-pole plates 4 are arranged between the positive pole plate 2 and the negative pole plate 3, and all the sub-pole plates 4 are parallel to the positive pole plate 2 and the negative pole plate 3.
As the further scheme of above-mentioned embodiment, still include sealed lid 6, sealed lid 6 is insulating material, can be ya keli material or PP material, sealed lid 6 and cell body 1's notch adaptation and lid connect on the notch of cell body 1, accessible flange detachable lid connects on the notch of cell body 1, sealed lid 6 is sealed with the notch of cell body 1, positive electrode connecting terminal 21 has at 2 tops of positive plate, negative plate 3 tops have negative electrode connecting terminal 31, cell body 1 is all worn out to positive electrode connecting terminal 21 and negative electrode connecting terminal 31's wiring end, positive electrode connecting terminal 21 and negative electrode connecting terminal 31 are used for the connecting power, the power can be 24V DC power supply.
As a further scheme of the above embodiment, the sealing cover 6 has a through hole, the terminals of the positive terminal 21 and the negative terminal 31 respectively pass through the slot body 1 from the corresponding through holes on the sealing cover 6, and the side walls of the positive terminal 21 and the negative terminal 31 are in sealing fit with the corresponding through holes on the sealing cover 6.
As a further scheme of the above embodiment, the tank body 1 is further provided with a water inlet 11 and a water outlet 12, the water inlet 11 is arranged at the lower part of the tank body 1, and the water outlet 12 is arranged at the upper part of the tank body 1.
As a further scheme of the above embodiment, the water inlet direction of the water inlet 11 and the water outlet direction of the water outlet 12 are both parallel to the vertical sides of the positive plate 2 and the negative plate 3, the water inlet 11 and the water outlet 12 are both between the positive plate 2 and the negative plate 3, and the water entering the water inlet 11 washes the vertical sides of the sub-plates 4.
As a further scheme of the above-mentioned embodiment, the polar plate mounting includes polylith fixed plate 5 that the upper right set up to the lower, fixed plate 5 is insulating material, can be by plastics die sinking shaping, all fixed plates 5 all can dismantle with cell body 1 and be connected, accessible bolted connection, insulating material is selected for use to the bolt, all fixed plates 5 are respectively with its and positive plate 2, negative plate 3 and 4 connecting portions of branch polar plate fix in cell body 1, fixed plate 5 sets up 2 at least from top to bottom, also can set up 3 or 4 for improving stability, the shape of fixed plate 5 corresponds with cell body 1 inner wall, cell body 1 is preferably cylindric, fixed plate 5 can be the plectane that corresponds with cell body 1 inner wall.
Have the first bar through-hole that is used for grafting positive plate 2 on the fixed plate 5, a third bar through-hole that is used for grafting negative plate 3's second bar through-hole and is used for grafting branch polar plate 4, third bar through-hole has many, first bar through-hole, second bar through-hole and all third bar through-holes are all parallel, first bar through-hole on all fixed plates 5, second bar through-hole and the third bar through-hole that corresponds are just right, positive plate 2, negative plate 3 and each divide polar plate 4 to correspond respectively in proper order and peg graft in the first bar through-hole of each fixed plate 5, in second bar through-hole and the third bar through-hole, positive plate 2, negative plate 3 and all branch polar plate 4 are respectively through first bar through-hole, second bar through-hole and third bar through-hole are connected with fixed plate 5.
Of course, the present invention may have other embodiments, and those skilled in the art may make various corresponding changes and modifications according to the present invention without departing from the spirit and the essence of the present invention, and these corresponding changes and modifications should fall within the protection scope of the appended claims.
Claims (10)
1. The utility model provides a high-efficient sodium hypochlorite electrolysis trough which characterized in that: including cell body (1), positive plate (2), negative plate (3) and polar plate mounting, cell body (1) is the column, positive plate (2) with negative plate (3) all pass through the polar plate mounting is fixed in cell body (1), positive plate (2) with the equal vertical setting of negative plate (3), positive plate (2) with negative plate (3) are just right, cell body (1) is made for insulating material, cell body (1) bottom has the evacuation mouth.
2. The high efficiency sodium hypochlorite electrolytic cell of claim 1, wherein: the tank body (1) is made of transparent materials.
3. The high efficiency sodium hypochlorite electrolytic cell of claim 2, wherein: the tank body (1) is made of acrylic materials.
4. The high efficiency sodium hypochlorite electrolytic cell of claim 1, wherein: still include sealed lid (6), sealed lid (6) are insulating material, sealed lid (6) with the notch adaptation of cell body (1) and lid connect in on the notch of cell body (1), sealed lid (6) will the notch of cell body (1) is sealed, positive plate (2) have anodal binding post (21), negative plate (3) have negative binding post (31), anodal binding post (21) with the wiring end of negative binding post (31) all wears out cell body (1), anodal binding post (21) with negative binding post (31) are used for the connecting power.
5. The high efficiency sodium hypochlorite electrolytic cell of claim 4, wherein: the sealing cover (6) is provided with a through hole, the wiring end of the positive wiring terminal (21) and the wiring end of the negative wiring terminal (31) respectively penetrate out of the groove body (1) from the through hole corresponding to the sealing cover (6), and the side walls of the positive wiring terminal (21) and the negative wiring terminal (31) are in sealing fit with the through hole corresponding to the sealing cover (6).
6. The high efficiency sodium hypochlorite electrolytic cell of claim 1, wherein: the tank body (1) is further provided with a water inlet (11) and a water outlet (12), the water inlet (11) is arranged at the lower part of the tank body (1), and the water outlet (12) is arranged at the upper part of the tank body (1).
7. The high efficiency sodium hypochlorite electrolytic cell of claim 6, wherein: the water inlet direction of water inlet (11) with the play water direction of delivery port (12) all with positive plate (2) with the vertical side of negative plate (3) is parallel, water inlet (11) with delivery port (12) all are in positive plate (2) with between negative plate (3).
8. The high efficiency sodium hypochlorite electrolytic cell according to any one of claims 1 to 7, wherein: still including dividing polar plate (4), divide polar plate (4) to have the polylith, all divide polar plate (4) all to pass through the polar plate mounting is fixed in cell body (1), all divide polar plate (4) all be in positive plate (2) with between negative plate (3), all divide polar plate (4) all with positive plate (2) with negative plate (3) are parallel.
9. The high efficiency sodium hypochlorite electrolytic cell according to any one of claims 1 to 7, wherein: the polar plate mounting includes polylith fixed plate (5) that the upper right side set up to the lower, all fixed plate (5) all with cell body (1) can be dismantled and be connected, all fixed plate (5) respectively with it with positive plate (2) with negative plate (3) connecting portion fixes in cell body (1).
10. The high efficiency sodium hypochlorite electrolytic cell of claim 9, wherein: the fixing plate (5) is provided with a first strip-shaped through hole for inserting the positive plate (2) and a second strip-shaped through hole for inserting the negative plate (3), the first strip-shaped through hole is parallel to the second strip-shaped through hole, all the first strip-shaped through hole and the second strip-shaped through hole in the fixing plate (5) are right opposite, the positive plate (2) and the negative plate (3) are respectively and correspondingly inserted into the first strip-shaped through hole and the second strip-shaped through hole in the fixing plate (5), and the positive plate (2) and the negative plate (3) are respectively connected with the fixing plate (5) through the first strip-shaped through hole and the second strip-shaped through hole.
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CN202021197124.0U CN212582015U (en) | 2020-06-24 | 2020-06-24 | High-efficient sodium hypochlorite electrolysis trough |
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CN202021197124.0U CN212582015U (en) | 2020-06-24 | 2020-06-24 | High-efficient sodium hypochlorite electrolysis trough |
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CN212582015U true CN212582015U (en) | 2021-02-23 |
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