CN214004355U - Functional type glass bottle waste water treatment device - Google Patents

Abstract

The utility model discloses a functional glass bottle waste water treatment device, including work box, unable adjustment base and supporting seat, the supporting seat is installed on unable adjustment base's top, the work box is installed on the top of supporting seat, the inside of filter chamber is provided with dismantles the structure, the second electrolysis board is installed to the inside bottom of electrolysis box, and one side of second electrolysis board is provided with first electrolysis board, the interface is installed to the one end of electrolysis box. The utility model discloses a carry out the installation processing with the electrolysis case, will subside the inside water source of intracavity portion under the effect of water pump and put into the inside of electrolysis case under the drainage of drainage tube immediately, then after the switch-on interface, because the setting of second electrolysis board and first electrolysis board, make its raw materials become positive ion and anion by electrolysis, then produce certain redox reaction that takes place after adsorbing, make more pure of waste water, thereby the effect of recycling has been played, thereby its holistic availability factor has been improved.

Description

Functional type glass bottle waste water treatment device

Technical Field

The utility model relates to a waste water treatment technical field specifically is a functional type glass bottle waste water treatment device.

Background

With the continuous development of society, the economic level is continuously improved, and the living standard of people is also continuously improved, wherein glass bottles are often needed in daily life, the glass bottles are common glass products, a large amount of production wastewater is often generated in the production process of the glass bottles, and a wastewater treatment device is needed in order to prevent the glass bottles from damaging the environment;

however, the conventional devices still have problems in use, such as poor overall electrolytic capacity and difficulty in sufficient treatment for recycling.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a functional type glass bottle waste water treatment device to solve the poor problem of electrolytic treatment ability of proposing among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a functional glass bottle production wastewater treatment device comprises a working box, a fixed base and a supporting base, wherein the supporting base is installed at the top end of the fixed base, the working box is installed at the top end of the supporting base, a water inlet is installed at one side of the top end of the working box, a connecting cylinder is installed at the position inside the working box, a filter cavity is installed at the top end of the connecting cylinder, a disassembly structure is arranged inside the filter cavity, a sedimentation cavity is installed at the bottom end of the connecting cylinder, a driving motor is installed at the bottom end of the working box, a stirring shaft is installed at the top end of the driving motor, stirring rods are installed on two sides of the stirring shaft, a wall scraping structure is arranged on one side of each stirring rod, a guide pipe is installed on one side of the bottom end of the working box, a water pump is installed at one end of the guide pipe, a drainage pipe is installed at one end of the water pump, and an electrolysis structure is arranged at one end of the drainage pipe, the electrolysis structure includes electrolysis box, delivery port, first electrolysis board, second electrolysis board and interface, the one end at the drainage tube is installed to the electrolysis box, the delivery port is installed to one side of electrolysis box bottom, the second electrolysis board is installed to the inside bottom of electrolysis box, and one side of second electrolysis board is provided with first electrolysis board, the interface is installed to the one end of electrolysis box.

Preferably, the disassembly structure comprises a positive magnet, a negative magnet and an impurity filtering net, wherein the positive magnet is arranged on one side inside the filter cavity, the negative magnet is arranged on one side of the positive magnet, and the impurity filtering net is arranged on one side of the negative magnet.

Preferably, the positive magnets and the negative magnets are mutually adsorbed, and the positive magnets are symmetrically distributed around the vertical central axis of the filter cavity.

Preferably, scrape the wall structure and include connecting plate, connecting rod and scrape the wall blade, the connecting plate is installed in one side of puddler, the connecting rod is installed to one side of connecting plate, and one side of connecting rod is installed and is scraped the wall blade.

Preferably, the outer side wall of the wall scraping blade is serrated, and the connecting rods are symmetrically distributed about the horizontal central axis of the connecting plate.

Preferably, the second electrolytic plate and the first electrolytic plate are symmetrically distributed about a vertical central axis of the electrolytic tank, and the water outlet extends to the inside of the electrolytic tank.

Compared with the prior art, the beneficial effects of the utility model are that: the functional glass bottle production wastewater treatment device not only improves the treatment capacity of the device, but also improves the wall scraping capacity and impurity filtering and replacing capacity of the device;

(1) the electrolytic tank is installed, then a water source in the settling cavity is placed in the electrolytic tank under the drainage of the drainage tube under the action of the water pump, and then after the interface is connected, due to the arrangement of the second electrolytic plate and the first electrolytic plate, raw materials of the electrolytic tank are electrolyzed into positive ions and negative ions, and then certain adsorption is generated to generate redox reaction, so that the waste water is purer, the recycling effect is achieved, and the integral use efficiency is improved;

(2) the driving motor is opened after being installed to start working, and drives the stirring shaft to start rotating, so that the driving motor drives the stirring rod to start stirring, the connecting plate is connected and installed in the stirring process, and the wall scraping blade performs certain wall scraping treatment on the inside of the connecting plate, so that the integral wall scraping capacity of the wall scraping blade is improved;

(3) through installing positive magnetite earlier, after just after one side installation negative magnetite of straining miscellaneous net, thereby let positive magnetite and negative magnetite adsorb each other and accomplish the installation to straining miscellaneous net, then let strain miscellaneous net and carry out certain processing of straining miscellaneous to its raw materials, can realize the change to straining miscellaneous net after making its and positive magnetite separation after applying external force to negative magnetite to fine improvement its holistic convenience.

Drawings

Fig. 1 is a schematic front view of a cross-sectional structure of the present invention;

fig. 2 is a schematic rear view of the present invention;

fig. 3 is a schematic cross-sectional view taken at a in fig. 1 according to the present invention;

fig. 4 is a front view schematic diagram of the detachable structure of the present invention.

In the figure: 1. a work box; 2. a water inlet; 3. a filter chamber; 4. disassembling the structure; 401. a positive magnet; 402. a negative magnet; 403. filtering the impurity net; 5. a connecting cylinder; 6. a wall scraping structure; 601. a connecting plate; 602. a connecting rod; 603. a wall scraping blade; 7. a fixed base; 8. a supporting seat; 9. a stirring shaft; 10. a drive motor; 11. a settling chamber; 12. a stirring rod; 13. a flow guide pipe; 14. a water pump; 15. an electrolytic structure; 1501. an electrolytic tank; 1502. a water outlet; 1503. a first electrolytic plate; 1504. a second electrolytic plate; 1505. an interface; 16. a drainage tube.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides an embodiment: a functional glass bottle production wastewater treatment device comprises a working box 1, a fixed base 7 and a supporting seat 8, wherein the supporting seat 8 is installed at the top end of the fixed base 7, the working box 1 is installed at the top end of the supporting seat 8, a water inlet 2 is installed at one side of the top end of the working box 1, a connecting cylinder 5 is installed at the position inside the working box 1, a filter cavity 3 is installed at the top end of the connecting cylinder 5, and a disassembly structure 4 is arranged inside the filter cavity 3;

the dismounting structure 4 comprises a positive magnet 401, a negative magnet 402 and an impurity filtering net 403, wherein the positive magnet 401 is arranged at one side inside the filter cavity 3, the negative magnet 402 is arranged at one side of the positive magnet 401, and the impurity filtering net 403 is arranged at one side of the negative magnet 402;

the positive magnets 401 and the negative magnets 402 are mutually adsorbed, and the positive magnets 401 are symmetrically distributed around the vertical central axis of the filter cavity 3;

the method comprises the following steps of firstly installing a positive magnet 401, then installing a negative magnet 402 on one side of a impurity filtering net 403, enabling the positive magnet 401 and the negative magnet 402 to be mutually adsorbed to finish the installation of the impurity filtering net 403, then enabling the impurity filtering net 403 to carry out certain impurity filtering treatment on raw materials of the impurity filtering net, and after external force is applied to the negative magnet 402, enabling the impurity filtering net 402 to be separated from the positive magnet 401, so that the impurity filtering net 403 can be replaced;

a sedimentation cavity 11 is arranged at the bottom end of the connecting cylinder 5, a driving motor 10 is arranged at the bottom end of the working box 1, a stirring shaft 9 is arranged at the top end of the driving motor 10, stirring rods 12 are arranged on two sides of the stirring shaft 9, and a wall scraping structure 6 is arranged on one side of each stirring rod 12;

the wall scraping structure 6 comprises a connecting plate 601, a connecting rod 602 and a wall scraping blade 603, wherein the connecting plate 601 is installed at one side of the stirring rod 12, the connecting rod 602 is installed at one side of the connecting plate 601, and the wall scraping blade 603 is installed at one side of the connecting rod 602;

the outer side wall of the wall scraping blade 603 is serrated, and the connecting rods 602 are symmetrically distributed about the horizontal central axis of the connecting plate 601;

after the driving motor 10 is installed, the driving motor is opened to start working, and after the driving motor drives the stirring shaft 9 to start rotating, the driving motor drives the stirring rod 12 to start stirring treatment, the connecting plate 601 is installed in a connecting mode in the stirring process, and the wall scraping blade 603 performs certain wall scraping treatment on the interior of the connecting plate;

a flow guide pipe 13 is arranged on one side of the bottom end of the working box 1, a water pump 14 is arranged at one end of the flow guide pipe 13, a drainage pipe 16 is arranged at one end of the water pump 14, an electrolysis structure 15 is arranged at one end of the drainage pipe 16, the electrolysis structure 15 comprises an electrolysis box 1501, a water outlet 1502, a first electrolysis plate 1503, a second electrolysis plate 1504 and a connector 1505, the electrolysis box 1501 is arranged at one end of the drainage pipe 16, the water outlet 1502 is arranged on one side of the bottom end of the electrolysis box 1501, the second electrolysis plate 1504 is arranged at the bottom end of the inside of the electrolysis box 1501, the first electrolysis plate 1503 is arranged on one side of the second electrolysis plate 1504, and the connector 1505 is arranged at one end of the electrolysis box 1501;

the second electrolytic plate 1504 and the first electrolytic plate 1503 are symmetrically distributed around the vertical middle axis of the electrolytic tank 1501, and the water outlet 1502 extends into the electrolytic tank 1501;

after the interface 1505 is connected, the second electrolytic plate 1504 and the first electrolytic plate 1503 are arranged to electrolyze the raw materials into positive ions and negative ions, and then certain adsorption occurs, followed by oxidation-reduction reaction.

The working principle is as follows: firstly, the whole device is externally connected with a power supply, then the device starts to work, then wastewater is led into the interior of a filter cavity 3 from a water inlet 2, then a positive magnet 401 is installed firstly, next, a negative magnet 402 is installed on one side of a impurity filtering net 403, the positive magnet 401 and the negative magnet 402 are mutually adsorbed to complete the installation of the impurity filtering net 403, then the impurity filtering net 403 is used for carrying out certain impurity filtering treatment on raw materials, and the negative magnet 402 is separated from the positive magnet 401 after external force is applied to the negative magnet 402, so that the impurity filtering net 403 can be replaced;

then, the materials are guided by the connecting cylinder 5 to enter the interior of the sedimentation chamber 11, then the driving motor 10 is started to work after being installed, and drives the stirring shaft 9 to rotate, then the stirring shaft 12 is driven to start stirring treatment, the connecting plate 601 is installed in a connecting way during stirring, and the wall scraping blade 603 performs certain wall scraping treatment on the interior of the connecting plate;

finally, under the action of the water pump 14, a water source in the settling chamber 11 is placed in the electrolytic tank 1501 under the drainage of the drainage tube 16, and then after the connection port 1505 is connected, due to the arrangement of the second electrolytic plate 1504 and the first electrolytic plate 1503, raw materials of the water source are electrolyzed into positive ions and negative ions, certain adsorption is generated, oxidation-reduction reaction is generated, and then the treated water source is discharged and reused under the action of the water outlet 1502.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a functional type glass bottle waste water treatment device, includes work box (1), unable adjustment base (7) and supporting seat (8), its characterized in that: the water inlet device is characterized in that a supporting seat (8) is installed at the top end of a fixed base (7), a working box (1) is installed at the top end of the supporting seat (8), a water inlet (2) is installed at one side of the top end of the working box (1), a connecting cylinder (5) is installed at the position inside the working box (1), a filter chamber (3) is installed at the top end of the connecting cylinder (5), a disassembly structure (4) is arranged inside the filter chamber (3), a sedimentation chamber (11) is installed at the bottom end of the connecting cylinder (5), a driving motor (10) is installed at the bottom end of the working box (1), a stirring shaft (9) is installed at the top end of the driving motor (10), stirring rods (12) are installed on two sides of the stirring shaft (9), a wall scraping structure (6) is arranged on one side of each stirring rod (12), and a guide pipe (13, water pump (14) are installed to the one end of honeycomb duct (13), drainage tube (16) are installed to the one end of water pump (14), and the one end of drainage tube (16) is provided with electrolysis structure (15), electrolysis structure (15) are including electrolysis case (1501), delivery port (1502), first electrolysis board (1503), second electrolysis board (1504) and interface (1505), the one end at drainage tube (16) is installed to electrolysis case (1501), delivery port (1502) are installed to one side of electrolysis case (1501) bottom, second electrolysis board (1504) are installed to the inside bottom of electrolysis case (1501), and one side of second electrolysis board (1504) is provided with first electrolysis board (1503), interface (1505) are installed to the one end of electrolysis case (1501).

2. The functional glass bottle production wastewater treatment device according to claim 1, characterized in that: dismantle structure (4) and include positive magnetite (401), burden magnetite (402) and strain miscellaneous net (403), install the one side in filter chamber (3) inside positive magnetite (401), burden magnetite (402) is installed to one side of positive magnetite (401), strain miscellaneous net (403) is installed to one side of burden magnetite (402).

3. The functional glass bottle production wastewater treatment device according to claim 2, characterized in that: the positive magnet (401) and the negative magnet (402) are mutually adsorbed, and the positive magnet (401) is symmetrically distributed about the vertical central axis of the filter cavity (3).

4. The functional glass bottle production wastewater treatment device according to claim 1, characterized in that: scrape wall structure (6) including connecting plate (601), connecting rod (602) and scrape wall blade (603), install the one side at puddler (12) connecting plate (601), connecting rod (602) are installed to one side of connecting plate (601), and scrape wall blade (603) are installed to one side of connecting rod (602).

5. The functional glass bottle production wastewater treatment device according to claim 4, wherein: the outer side wall of the wall scraping blade (603) is in a sawtooth shape, and the connecting rods (602) are symmetrically distributed relative to the horizontal central axis of the connecting plate (601).

6. The functional glass bottle production wastewater treatment device according to claim 1, characterized in that: the second electrolytic plate (1504) and the first electrolytic plate (1503) are symmetrically distributed about the vertical middle axis of the electrolytic tank (1501), and the water outlet (1502) extends to the inside of the electrolytic tank (1501).

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