CN211688678U - Novel high-efficient medical wastewater treatment equipment - Google Patents
Novel high-efficient medical wastewater treatment equipment Download PDFInfo
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- CN211688678U CN211688678U CN201921914210.6U CN201921914210U CN211688678U CN 211688678 U CN211688678 U CN 211688678U CN 201921914210 U CN201921914210 U CN 201921914210U CN 211688678 U CN211688678 U CN 211688678U
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Abstract
The utility model discloses a novel high-efficient medical waste water treatment equipment mainly solves among the prior art novel high-efficient medical waste water treatment equipment and is using chlorine dioxide to carry out the sterile chamber to sewage and not heat chlorine dioxide, directly discharges the outside after chlorine dioxide gas uses the completion simultaneously, can cause the problem of harm to outside personnel. This novel high-efficient medical waste water treatment equipment, including the filling pipe of sealed shell and sealed shell one side top intercommunication and the intercommunication pipeline of opposite side intercommunication, the rear end intercommunication of intercommunication pipeline has ozone reactor, and the inside fixed mounting of sealed shell has a plurality of bafflers, and the baffler is equallyd divide sealed shell inside and is formed filter chamber and reacting chamber and sterilization chamber, and the inner wall both sides welding of reacting chamber has the heating piece that two sets of symmetries set up. By the proposal, the utility model discloses an ozone reactor can produce ozone and input ozone reaction incasement portion through the intercommunication pipeline to react and handle with chlorine dioxide.
Description
Technical Field
The utility model relates to a novel high-efficient medical wastewater treatment equipment, specifically speaking relates to a novel high-efficient medical wastewater treatment equipment.
Background
The medical sewage is mainly sewage discharged from diagnosis and treatment rooms, laboratory rooms, sickrooms, laundry rooms, X-ray photography rooms, operating rooms and the like of hospitals, the source and the components of the sewage are very complex, and the hospital sewage contains a large amount of pathogenic bacteria, viruses and chemical agents and has the characteristics of space pollution, acute infection and latent infection.
The existing medical wastewater treatment equipment has lower treatment efficiency, chlorine dioxide is used for carrying out sterilization on sewage, and chlorine dioxide is not heated in a sterilization chamber, and meanwhile, chlorine dioxide gas is directly discharged to the outside after being used, so that external personnel can be damaged.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a novel high-efficient medical wastewater treatment equipment to it is lower to solve current medical wastewater treatment equipment treatment effeciency, and is using chlorine dioxide to carry out the sterile chamber to sewage and not heat chlorine dioxide, directly discharges the outside after chlorine dioxide gas uses the completion simultaneously, can cause the harm to outside personnel.
In order to solve the above problem, the utility model provides a following technical scheme:
the utility model provides a novel high-efficient medical waste water treatment equipment, including sealed shell with the injection pipeline of sealed shell one side top intercommunication and the intercommunication pipeline of opposite side intercommunication, the rear end intercommunication of intercommunication pipeline has ozone reactor, the inside fixed mounting of sealed shell has a plurality of bafflers, the baffler is equallyd divide sealed shell inside and is formed filter chamber and reacting chamber and sterilization chamber, sealed shell is inside to be close to the ozone reaction case that sterilization chamber one side set up, gas outlet has been seted up in the outside of ozone reaction case, the inner wall both sides welding of reacting chamber has the heating piece that two sets of symmetries set up.
Through above-mentioned technique hair follicle, can produce ozone through ozone reactor and input into ozone reaction box inside through the intercommunication pipeline to react and handle with chlorine dioxide, can heat ozone and chlorine dioxide through the heating piece, can effectual increase ozone and chlorine dioxide reaction's efficiency, increased sewage treatment's efficiency.
Preferably, the communicating pipeline is communicated with the ozone reaction box and the ozone reactor, an air extractor is fixedly installed inside the ozone reactor, a high-voltage electrode tube is fixedly installed inside the ozone reactor, and a second panel is fixedly installed in the middle of the front end of the ozone reactor.
Through above-mentioned technical scheme, can come to absorb outside gas through the exhaust duct through starting the air extractor, come to react with the oxygen in the gas and generate ozone through the high voltage electrode pipe simultaneously.
Preferably, the top of the ozone reactor is fixedly provided with a generator, the bottom of the ozone reactor is welded with four fixing frames, and the upper part of the outer side of the ozone reactor is communicated with an air exhaust pipeline.
Through the technical scheme, the fixing effect on the oxygen reactor can be achieved through the fixing frame, and the reaction work is guaranteed.
Preferably, the inside top intercommunication of filter chamber has the filter screen, the below of filter screen is provided with the gravel layer, the activated carbon layer has been laid to the bottom of gravel layer, the bottom fixed mounting on activated carbon layer has the circulation board, the bottom of left side baffler with the first circulation mouth is left to the sealed shell inner wall.
Through above-mentioned technical scheme, can carry out the prefilter to the sewage of circulation through the filter screen, can adsorb and handle the impurity in the sewage through grit layer and active carbon layer, guarantee going on of sewage treatment work.
Preferably, the inside below swing joint of reacting chamber has the rotating fan, the top fixed mounting of reacting chamber has sealed dish, the middle part intercommunication of sealed dish has pipeline, a plurality of fixed slots have been seted up to the outside of sealed dish, middle part baffler with sealed shell inner wall leaves the second circulation mouth, the inboard below swing joint of middle part baffler has electric valve.
Through above-mentioned technical scheme, can drive sewage through rotatory fan and rotate, guarantee that rotatory sewage can contact and react with chlorine dioxide, increased sewage treatment's efficiency.
Preferably, the inside fixed mounting of sterilization room has pulse emitter, pulse emitter's both sides fixedly connected with electrode, the electrode include the positive pole with the outside winding negative pole of positive pole, the inside below intercommunication of sterilization room has the discharge port, the top swing joint of discharge port has electric valve, the front end middle part fixed mounting of sterilization room has the generator.
Through above-mentioned technical scheme, can make positive pole and negative pole get into work and produce the electromagnetic field through starting pulse generator, the electromagnetic field can kill bacterium and worm's ovum in the sewage, has increased the factor of safety of sewage.
Preferably, four foot rests are welded at the bottom of the sealing shell, and universal wheels are movably connected to the bottoms of the foot rests.
Through above-mentioned technical scheme, the rotation through the universal wheel can drive sealed shell and rotate, and the convenience is removed sealed shell.
Preferably, the front end fixed mounting of sealed shell has first panel, the front end of first panel is provided with the button of a plurality of equipartitions.
Through above-mentioned technical scheme, can carry out work to the inside electronic equipment of sealed shell and electrode through pressing the button, guarantee going on of sewage treatment work.
Compared with the prior art, the utility model discloses following beneficial effect has:
in the utility model, the temperature generated by the heating block can heat the chlorine dioxide gas, meanwhile, the higher the temperature of the chlorine dioxide gas is, the stronger the sterilization effect is, the lower the temperature is, the weaker the effect is, the ozone can contact and react with the chlorine dioxide, and the damage to external personnel caused by the discharge of the chlorine dioxide is prevented; the utility model discloses a heating block can increase the temperature of chlorine dioxide gas itself to increase the efficiency of chlorine dioxide gas treatment water, make the utility model discloses sewage treatment is more high-efficient.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a schematic view of the overall cross-sectional structure of the present invention;
FIG. 3 is a schematic view of a sterilization chamber according to the present invention;
fig. 4 is a schematic diagram of the internal structure of the middle electrode of the present invention.
In the drawings, the names of the parts corresponding to the reference numerals are as follows:
1. sealing the shell; 11. a generator; 12. an injection pipe; 13. a foot rest; 14. an outlet port; 141. an electrically operated valve; 15. a universal wheel; 16. a first panel; 17. a delivery conduit; 171. sealing the disc; 2. an ozone reactor; 21. a second panel; 22. an air extraction pipeline; 23. a fixed mount; 24. an exhaust fan; 25. a high voltage electrode; 26. a communicating pipe; 3. a filtering chamber; 31. a first circulation port; 32. an activated carbon layer; 33. a gravel layer; 34. a filter screen; 35. a flow-through plate; 4. a reaction chamber; 41. rotating the fan; 42. a heating block; 43. a second flow port; 5. a sterilization chamber; 51. a pulse emitter; 52. an electrode; 521. a negative electrode; 522. a positive electrode; 6. An ozone reaction box; 61. a gas outlet; 7. a barrier plate.
Detailed Description
The present invention will be further described with reference to the following drawings and examples, and embodiments of the present invention include, but are not limited to, the following examples.
Example 1
Referring to fig. 1, including the communicating pipe 26 of injection pipeline 12 and the opposite side intercommunication of sealed shell 1 and sealed shell 1 one side top intercommunication, the rear end intercommunication of communicating pipe 26 has ozone reactor 2, the top middle part fixed mounting of sealed shell 1 has sealed dish 17 gas outlet 1, the middle part intercommunication of sealed dish 17 gas outlet 1 has pipeline 17 gas outlet, the bottom welding of sealed shell 1 has four foot rests 13, the bottom swing joint of foot rest 13 has universal wheel 15, the front end fixed mounting of sealed shell 1 has first panel 16, the front end of first panel 16 is provided with the button of a plurality of equipartitions, the front end middle part fixed mounting of ozone reactor 2 has second panel 21, the top fixed mounting of ozone reactor 2 has generator 11, the bottom welding of ozone reactor 2 has four mounts 23, ozone reactor 2's outside top intercommunication has exhaust duct 22.
Pushing the sealing shell 1 and pushing the sealing shell 1 to a designated position, simultaneously placing the ozone reaction box at one side of the sealing shell 1 and connecting the ozone reaction box and the sealing shell 1 through a communication pipeline 26, the injection pipe 12 is then connected to the sewage tank, the gas outlet of the take-out delivery pipe 17 is then inserted into the inside of the gas outlet 1 of the seal disk 17 in the middle of the top end of the sealed housing 1, and is fixed by a sealing rubber strip, and the other end of the gas outlet of the conveying pipeline 17 is connected with a chlorine dioxide gas box, then, the sewage is injected into the sealed shell 1 through the injection pipe 12, and simultaneously, the chlorine dioxide gas and the ozone are simultaneously conveyed into the sealed shell 1, after the sewage enters, the sewage is filtered, contacted with the chlorine dioxide and sterilized in the sealed shell 1, and after the sewage is treated, the sewage is discharged through the discharge port 14.
In the present embodiment, the input power is the electric energy generated by the generator 11 when rotating.
In this embodiment, the first panel 16 can be used to observe the working state and working information of the electronic device inside the sealed case 1, which is convenient for the outside personnel to observe and adjust.
Example 2
Referring to fig. 2-4, a plurality of baffle plates are fixedly installed inside the sealed shell 1, the baffle plates equally divide the inside of the sealed shell 1 and form a filtering chamber 3, a reaction chamber 4 and a sterilization chamber 5, a filtering screen 34 is communicated with the upper part inside the filtering chamber 3, a gravel layer 33 is arranged below the filtering screen 34, an activated carbon layer 32 is laid at the bottom of the gravel layer 33, a circulation plate 35 is fixedly installed at the bottom of the activated carbon layer 32, a first circulation port 31 is reserved at the bottom of the left baffle plate and the inner wall of the sealed shell 1, a rotating fan 41 is movably connected with the lower part inside the reaction chamber 4, a plurality of fixing grooves are opened outside the sealing disc 171, a second circulation port 43 is reserved at the middle baffle plate and the inner wall of the sealed shell 1, an electric valve 141 is movably connected with the lower part inside the middle baffle plate, a pulse emitter 51 is fixedly installed inside the sterilization chamber 5, electrodes 52 are fixedly connected, electrode 52 includes anodal 522 and the outside winding negative pole 521 of anodal 522, the inside below intercommunication of sterilization chamber 5 has discharge port 14, the top swing joint of discharge port 14 has electric valve 141, the front end middle part fixed mounting of sterilization chamber 5 has generator 11, the inside ozone reaction box 6 that is close to sterilization chamber 5 one side and sets up of sealed shell 1, gas outlet 61 has been seted up in the outside of ozone reaction box 6, the welding of the inner wall both sides of reaction chamber 4 has the heating piece 42 that two sets of symmetries set up, communicating pipe 26 intercommunication ozone reaction box 6 and ozone reactor 2, the inside fixed mounting of oxygen reactor ozone 2 has the air extractor, the inside fixed mounting of ozone reactor 2 has high voltage electrode 52 pipe.
The sewage enters into the filtering chamber 3 after being injected, particles in the sewage are filtered at the filtering screen 34, the sewage falls into the sand layer 33 and the activated carbon layer 32, the sand layer 33 and the activated carbon layer 32 adsorb harmful substances and block impurities in the sewage, the sewage flows into the reaction chamber 4 through the first flow port 31, the chlorine dioxide gas is connected with the sewage after entering, the temperature of the chlorine dioxide gas can be increased through the heating block 42, the efficiency of the chlorine dioxide gas for treating water is increased, the chlorine dioxide gas as a treatment gas flows into the ozone reaction box 6 through the upper part inside the sealing shell 1 and contacts with ozone, the chlorine dioxide gas is treated by the ozone, the chlorine dioxide gas is converted into harmless gas and is discharged to the outside through the gas outlet 61, and the sewage flows into the sterilization chamber 5 through the second flow port 43 after being treated, then, the pulse generator is started to enable the electrode 52 to work, the positive electrode 522 and the negative electrode 521 inside the electrode 52 work to generate an electromagnetic field, the electromagnetic field kills bacteria and insect eggs in the sewage, and the sewage is discharged through the discharge port 14 after killing.
When the generator 11 is started and the exhaust fan 24 is operated, the exhaust fan 24 extracts external gas through the exhaust duct 22, and after the gas enters, the high voltage electrode 5225 decomposes the air oxygen at high voltage to convert the oxygen into ozone, and then the ozone is input into the ozone reaction tank 6 through the communication duct 26.
In the present embodiment, the generator 11 has the following model: 20 kw.
In this embodiment, the high-voltage ionization (or chemical or photochemical reaction) is used to decompose and polymerize part of oxygen in the air into ozone, which is an allotropic transformation process of oxygen; can also be obtained by water electrolysis.
In this embodiment, the chlorine dioxide gas can be heated by the temperature generated by the heating block 42, and the higher the temperature of the chlorine dioxide gas is, the stronger the sterilization effect is, and the lower the temperature is, the weaker the sterilization effect is.
In this embodiment, chlorine dioxide reacts with ozone to form a binary compound, which may also be reduced with perchloric acid.
The specific implementation process comprises pushing the sealed shell 1 and pushing the sealed shell 1 to a specified position, simultaneously placing the ozone reaction box 6 at one side of the sealed shell 1, connecting the ozone reaction box 6 and the sealed shell 1 through a communication pipeline 26, then connecting the injection pipeline 12 with a sewage pool, then taking out the gas outlet 61 of the conveying pipeline 17 to be inserted into the gas outlet 611 of the sealing disk 17 in the middle of the top end of the sealed shell 1 and fixing the gas outlet by a sealing rubber strip, simultaneously connecting the other end of the gas outlet 61 of the conveying pipeline 17 with a chlorine dioxide gas box, then injecting sewage into the sealed shell 1 through the injection pipeline 12, simultaneously conveying the chlorine dioxide gas and ozone into the sealed shell 1, after injecting, the sewage into the filtering chamber 3, filtering particles in the sewage at the filtering screen 34, simultaneously dropping the sewage into the gravel layer 33 and the activated carbon layer 32, the gravel layer 33 and the activated carbon layer 32 adsorb harmful substances and block impurities in the sewage, then the sewage flows into the reaction chamber 4 through the first through-flow port 31, the chlorine dioxide gas is connected after the sewage enters, the temperature of the chlorine dioxide gas can be increased through the heating block 42, the efficiency of the chlorine dioxide gas for treating water is increased, the treatment gas chlorine dioxide gas flows into the ozone reaction box 6 through the upper part of the inside of the sealing shell 1 and is contacted with ozone, the ozone treats the chlorine dioxide gas, the chlorine dioxide gas is converted into harmless gas and is discharged to the outside through the gas outlet 61, the sewage flows into the sterilization chamber 5 through the second through-flow port 43 after the treatment is finished, then the pulse generator is started and the electrode 52 is operated, the positive electrode 522 and the negative electrode 521 inside the electrode 52 are operated and generate an electromagnetic field, the electromagnetic field kills bacteria and eggs in the sewage, and the sewage is discharged through the discharge port 14 after killing.
According to the above embodiment, alright realize the utility model discloses well. It is worth to say that, on the premise of the above structural design, in order to solve the same technical problem, even if some insubstantial changes or retouching are made in the utility model, the essence of the adopted technical scheme is still the same as the utility model, so it should be in the protection scope of the utility model.
Claims (8)
1. The utility model provides a novel high-efficient medical waste water treatment equipment which characterized in that: the device comprises a sealed shell (1), an injection pipeline (12) communicated with the upper part of one side of the sealed shell (1) and a communication pipeline (26) communicated with the other side of the sealed shell (1), wherein the rear end of the communication pipeline (26) is communicated with an ozone reactor (2), a plurality of baffle plates (7) are fixedly installed in the sealed shell (1), and the baffle plates (7) divide the interior of the sealed shell (1) uniformly to form a filter chamber (3), a reaction chamber (4) and a sterilization chamber (5); the inside ozone reaction box (6) that is close to of sealed shell (1) sterilization room (5) one side is provided with, gas outlet (61) have been seted up in the outside of ozone reaction box (6), the welding of the inner wall both sides of reaction chamber (4) has heating piece (42) that two sets of symmetries set up.
2. The novel high efficiency medical wastewater treatment facility of claim 1 wherein: the ozone reaction box (6) is communicated with the ozone reactor (2) through the communication pipeline (26), the air extractor (24) is fixedly installed inside the ozone reactor (2), the high-voltage electrode tube is fixedly installed inside the ozone reactor (2), and the second panel (21) is fixedly installed in the middle of the front end of the ozone reactor (2).
3. The novel high efficiency medical wastewater treatment facility of claim 1 wherein: the top fixed mounting of ozone reactor (2) has generator (11), the bottom welding of ozone reactor (2) has four mounts (23), the outside top intercommunication of ozone reactor (2) has air exhaust pipeline (22).
4. The novel high efficiency medical wastewater treatment facility of claim 1 wherein: the inside top intercommunication of filter chamber (3) has filter screen (34), the below of filter screen (34) is provided with gravel layer (33), activated carbon layer (32) have been laid to the bottom of gravel layer (33), the bottom fixed mounting of activated carbon layer (32) has circulation board (35), left side the bottom of baffler (7) with sealed shell (1) inner wall leaves first circulation mouth (31).
5. The novel high efficiency medical wastewater treatment facility of claim 1 wherein: the inside below swing joint of reaction chamber (4) has rotatory fan (41), the top fixed mounting of reaction chamber (4) has sealed dish (171), the middle part intercommunication of sealed dish (171) has pipeline (17), a plurality of fixed slots have been seted up to the outside of sealed dish (171), middle part baffler (7) with sealed shell (1) inner wall leaves second circulation mouth (43), middle part the inboard below swing joint of baffler (7) has electric valve (141).
6. The novel high efficiency medical wastewater treatment facility of claim 1 wherein: the inside fixed mounting of sterilization room (5) has pulse emitter (51), the both sides fixedly connected with electrode (52) of pulse emitter (51), electrode (52) include anodal (522) and twine in anodal (522) outside negative pole (521), the inside below intercommunication of sterilization room (5) has discharge port (14), the top swing joint of discharge port (14) has electric valve (141), the front end middle part fixed mounting of sterilization room (5) has generator (11).
7. The novel high efficiency medical wastewater treatment facility of claim 1 wherein: the bottom welding of sealed shell (1) has four foot rests (13), the bottom swing joint of foot rest (13) has universal wheel (15).
8. The novel high efficiency medical wastewater treatment facility of claim 1 wherein: the front end fixed mounting of sealed shell (1) has first panel (16), the front end of first panel (16) is provided with the button of a plurality of equipartitions.
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CN201921914210.6U CN211688678U (en) | 2019-11-07 | 2019-11-07 | Novel high-efficient medical wastewater treatment equipment |
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Cited By (1)
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CN114377437A (en) * | 2021-12-20 | 2022-04-22 | 山东华煜新材料有限责任公司 | Esterification phase separator for preparing glycerol triacetate |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN114377437A (en) * | 2021-12-20 | 2022-04-22 | 山东华煜新材料有限责任公司 | Esterification phase separator for preparing glycerol triacetate |
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