CN210438579U - Excrement and urine processing apparatus - Google Patents

Abstract

The utility model provides a fecaluria processing apparatus belongs to sewage treatment technical field. The excrement and urine treatment device comprises a septic tank, wherein a biological tank, a sedimentation tank and an ozone tank are respectively arranged in the septic tank, a bacterium storage box and an ozone box are respectively arranged at the top of the septic tank, the bacterium storage box is communicated with the biological tank, and the ozone box is communicated with the ozone tank; the bottom of the biological pool and the bottom of the ozone pool are both provided with a sewage pump, the inlet end of the sewage pump is connected with an air inlet pipe, the outlet end of the sewage pump is connected with a water inlet pipe, and one end of the water inlet pipe is connected with a water outlet pipe through a connecting piece; a sludge reflux pump is arranged at the bottom of the sedimentation tank, the water outlet end of the sludge reflux pump is connected with a reflux pipe extending into the biological tank, and the water inlet end of the sludge reflux pump is connected with a connecting pipe; and a sewage discharge pipe is arranged on one side of the ozone pool. The utility model discloses can make the microorganism in biological pond and the ozone pond obtain abundant oxygen volume to improve the degradation rate of microorganism.

Description

Excrement and urine processing apparatus

Technical Field

The utility model belongs to the technical field of sewage treatment, a fecaluria processing apparatus is related to.

Background

The toilet refers to a place specially used for human (or other organisms such as livestock) to perform physiological excretion and placement and treatment of excrement, most of toilets used by human are divided into men's toilets and women's toilets, but with the development of science and technology, toilets shared by men and women are also published, the names of the toilets are multiple, some of the toilets are called cellars, some of the toilets are called mao rooms, the Wenyuan's washrooms and washrooms, the Chaoshan area continues the calling law of the Tang dynasty and is called east or east you, the toilet has various calling laws, the ancient times are called changing clothes, the modern times are called relieving the hands, and the toilets are convenient, convenient to go, go to toilet and go to the washroom. For concentrated excreta, it is necessary to dispose of it using a special apparatus.

The existing excrement treatment device needs sufficient oxygen for microbial degradation treatment, but the degradation rate is reduced because microorganisms cannot obtain sufficient oxygen when the existing device uses the microorganisms to treat excrement; and a large amount of bubbles exist in the treatment tank, so that the treatment effect of the excrement is reduced; meanwhile, the prior device only treats the excrement and the urine through microorganisms, and the mode of treating the excrement and the urine is not thorough, so that the discharged treated matters do not reach the standard.

Disclosure of Invention

The utility model aims at solving the problem of the prior art that the microorganism can not obtain enough oxygen and the problem of a large amount of bubbles in the processing pool to influence the processing efficiency.

The purpose of the utility model can be realized by the following technical proposal: a fecal treatment device comprises a septic tank, wherein a biological tank, a sedimentation tank and an ozone tank are respectively arranged in the septic tank, a bacteria storage tank and an ozone tank are respectively arranged at the top of the septic tank, the bacteria storage tank is communicated with the biological tank, and the ozone tank is communicated with the ozone tank; the bottom of the biological tank and the bottom of the ozone tank are both provided with a sewage pump, the inlet end of the sewage pump is connected with an air inlet pipe extending to the outside of the septic tank, the outlet end of the sewage pump is connected with a water inlet pipe, and one end of the water inlet pipe is connected with a water outlet pipe through a connecting piece; a sludge reflux pump is installed at the bottom of the sedimentation tank, a water outlet end of the sludge reflux pump is connected with a reflux pipe extending into the biological tank, and a water inlet end of the sludge reflux pump is connected with a connecting pipe; one side in ozone pond is provided with the blow off pipe, and the one end of blow off pipe extends to the inside in ozone pond, and the other end and the external world of blow off pipe are linked together, the top in biological pond is provided with first inlet pipe, and the one end and the septic tank of first inlet pipe are linked together, and the other end of first inlet pipe extends to the inside in biological pond.

In foretell fecaluria processing apparatus, the top of storing up fungus case and ozone case all is equipped with the second inlet pipe, the bottom of storing up fungus case and ozone case all is equipped with the conveying pipeline, install the solenoid valve in the conveying pipeline.

In foretell fecaluria processing apparatus, the defoaming pump is all installed to the top in biological pond and ozone pond, the top of defoaming pump is connected with the gondola water faucet.

In the excrement treatment device, an operation table is installed on one side of the biological pond, and the operation table is electrically connected with the sewage pump, the sludge reflux pump, the defoaming pump and the electromagnetic valve respectively.

In the excrement treatment device, the connecting piece is respectively in threaded connection with the water inlet pipe and the water outlet pipe, a gap is arranged between the water inlet pipe and the water outlet pipe, and the distance of the gap is 1-3 mm.

In the above fecal treatment apparatus, the connecting member is provided with a first annular groove therein, and the gap is located in the first annular groove.

In the above fecal treatment device, the inside of the water inlet pipe is provided with a second annular groove, and the second annular groove is close to the water outlet end of the water inlet pipe.

In the fecal treatment device, the outlet end of the water outlet pipe is in a horn shape, and the inner diameter of the inlet of the water outlet pipe is larger than that of the water inlet pipe.

In the above fecal treatment apparatus, the water inlet pipe, the connecting member and the water outlet pipe are made of metal.

In the above-described feces treatment device, an inclined plate is fixed to one side of the sludge reflux pump.

Compared with the prior art, the utility model has the advantages of it is following:

1. the utility model is provided with a sewage pump, an air inlet pipe, a connecting piece, an outlet pipe, an inlet pipe, a bacteria storage box and an ozone box; when the biological tank and the ozone tank clean the excrement and urine, a user opens the sewage pump through the operation table, the sewage pump works to enable the air inlet pipe to suck external air, the air enters the water inlet pipe through the outlet end of the sewage pump and is sprayed out through the connecting piece and the water outlet pipe, continuous aeration treatment is carried out on the tank after the air is sprayed out, meanwhile, the external air contains a large amount of oxygen, oxygen is filled into the tank to improve the oxygen amount required by microbial degradation and improve the degradation rate of the microbes, the user opens the electromagnetic valve through the operation table to enable ozone in the ozone tank to enter the ozone tank through the material conveying pipe, the strong oxidizing property of the ozone is utilized, and meanwhile, the aeration treatment is carried out on the tank to increase the ozone in the treated sewage, so that organic matters (COD/BOD/ammonia nitrogen) in the sewage are further degraded, and the standard discharge is achieved.

2. The utility model discloses be provided with defoaming pump and gondola water faucet, when biological pond and ozone pond are handling the fecaluria, the user opens the defoaming pump through the operation panel to through the gondola water faucet, with the bubble to in the pond is eliminated, handle fecaluria with effective treatment.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged schematic view of the structure at A of the present invention;

fig. 3 is a schematic view of the cross-sectional structure of the middle connector, the water inlet pipe and the water outlet pipe of the present invention.

In the figure: 1. a septic tank; 2. a biological pond; 3. a sedimentation tank; 4. an ozone tank; 5. a first feed tube; 6. an operation table; 7. a blow-off pipe; 8. a defoaming pump; 9. a shower head; 10. a bacterium storage box; 11. a second feed tube; 12. an electromagnetic valve; 13. a delivery pipe; 14. a sewage pump; 15. an ozone tank; 16. a connecting member; 17. a return pipe; 18. a sludge reflux pump; 19. a connecting pipe; 20. a sloping plate; 21. a water outlet pipe; 22. a water inlet pipe; 23. a first annular groove; 24. a second annular groove; 25. a gap; 26. an air inlet pipe.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

The utility model discloses in, the model of solenoid valve is SLP15-50, and the model of mud backwash pump is 80WQ10-20, and the model of sewage pump is 1100W-7500W, and the model of defoaming pump is 1/15-PP.

As shown in fig. 1-3, a fecal treatment device comprises a septic tank 1, a biological tank 2, a sedimentation tank 3, an ozone tank 4, a first feeding pipe 5, an operation table 6, a blow-off pipe 7, a defoaming pump 8, a shower head 9, a bacteria storage tank 10, a second feeding pipe 11, an electromagnetic valve 12, a feeding pipe 13, a sewage pump 14, an ozone tank 15, a connecting piece 16, a return pipe 17, a sludge return pump 18, a connecting pipe 19, an inclined plate 20, a water outlet pipe 21, a water inlet pipe 22, a first annular groove 23, a second annular groove 24, a gap 25 and an air inlet pipe 26. The inside of collection manure pit 1 is provided with biological pond 2, sedimentation tank 3 and ozone pond 4 respectively, the top of collection manure pit 1 is installed respectively and is stored up fungus case 10 and ozone case 15, storage fungus case 10 be linked together with biological pond 2, ozone case 15 be linked together with ozone pond 4. Store up fungus case 10 and ozone case 15's top and all be equipped with second inlet pipe 11, store up fungus case 10 and ozone case 15's bottom and all be equipped with conveying pipeline 13, install solenoid valve 12 in the conveying pipeline 13. Defoaming pump 8 is all installed to the top in biological pond 2 and ozone pond 4, defoaming pump 8's top is connected with gondola water faucet 9.

As shown in fig. 2 and 3, a sewage pump 14 is installed at the bottom of each of the biological tank 2 and the ozone tank 4, an inlet end of the sewage pump 14 is connected with an air inlet pipe 26 extending to the outside of the septic tank 1, an outlet end of the sewage pump 14 is connected with an inlet pipe 22, and one end of the inlet pipe 22 is connected with an outlet pipe 21 through a connecting piece 16. Specifically, the connecting member 16 is respectively screwed with the water inlet pipe 22 and the water outlet pipe 21, and a gap 25 is arranged between the water inlet pipe 22 and the water outlet pipe 21, the distance of the gap 25 is 1-3 mm, and the gap 25 can ensure that the maximum amount of air is sucked, so as to improve the aeration efficiency. The connecting piece 16 is provided with a first annular groove 23 inside, the gap 25 is located in the first annular groove 23, and negative pressure is formed at the first annular groove 23, so that a large amount of air can be sucked from the outside. The inside of inlet tube 22 is seted up second annular groove 24, and second annular groove 24 is close to the play water end of inlet tube 22, and second annular groove 24 can ensure that rivers form the sinuous flow when coming out from inlet tube 22. The outlet end of the water outlet pipe 21 is in a horn shape, and the inner diameter of the inlet of the water outlet pipe 21 is larger than that of the water inlet pipe 22, so that water flow is ensured to rapidly flow out of the water outlet pipe 21, and the water flow flows out of the water outlet pipe 21 and then is in a jet shape, so that water and air are fully mixed, and air bubbles are split into the minimum. The material of the water inlet pipe 22, the connecting piece 16 and the water outlet pipe 21 comprises metal.

The bottom of sedimentation tank 3 is installed sludge reflux pump 18, sludge reflux pump 18's play water end is connected with the back flow 17 that extends to biological pond 2 inside, sludge reflux pump 18's the end of intaking is connected with connecting pipe 19, one side of sludge reflux pump 18 is fixed with swash plate 20.

One side of ozone pond 4 is provided with blow off pipe 7, and the one end of blow off pipe 7 extends to the inside of ozone pond 4, and the other end of blow off pipe 7 is linked together with the external world, the top of biological pond 2 is provided with first inlet pipe 5, and the one end of first inlet pipe 5 is linked together with manure collecting tank 1, and the other end of first inlet pipe 5 extends to the inside of biological pond 2. The excrement and urine enters the biological pool 2 from the first feeding pipe 5, then flows out in a stepped mode to the sedimentation pool 3, and finally flows out in a stepped mode to the ozone pool 4 so as to carry out degradation treatment on the excrement and urine

In this embodiment, an operation panel 6 is installed at one side of the biological pond 2, and the operation panel 6 is electrically connected to the sewage pump 14, the sludge recirculation pump 18, the defoaming pump 8 and the electromagnetic valve 12, respectively, so that a user can open or close the sewage pump 14, the sludge recirculation pump 18, the defoaming pump 8 and the electromagnetic valve 12 through the operation panel 6.

The working principle is as follows: firstly, a user adds biological strains QS1 and MD444 into the strain storage box 10 through the second feed pipe 11 of the strain storage box 10, and puts ozone through the second feed pipe 11 of the ozone box 15; then, the excrement and urine enters the biological pool 2 from the first feeding pipe 5, a user opens the electromagnetic valve 12 through the operating platform 6, so that biological strains flow out of the strain storage box 10 and enter the biological pool 2, meanwhile, ozone enters the ozone pool 4 from the ozone box 15, and the biological strains degrade the excrement and urine; secondly, the sewage pump 14 and the defoaming pump 8 are opened through the operation panel 6, the sewage pump 14 works to enable the air inlet pipe 26 to suck external air, the air enters the water inlet pipe 22 through the outlet end of the sewage pump 14 and is sprayed out through the connecting piece 16 and the water outlet pipe 21, the biological tank 2 is continuously aerated after the air is sprayed out, meanwhile, the biological tank 2 is filled with oxygen due to the fact that the external air contains a large amount of oxygen, so that the oxygen amount required to be obtained by microbial degradation is increased, the defoaming pump 8 works, bubbles in the biological tank 2 are eliminated through the shower head 9, and after the biological tank 2 is full, the treated matters enter the sedimentation tank 3 through overflow to be statically precipitated, and the intermittent periodicity is achieved; then, the sludge return pump 18 is opened through the operation platform 6, the sludge at the bottom is returned to the biological pond 2 through the connecting pipe 19 and the return pipe 17 by the sludge return pump 18, and simultaneously the sludge in the sedimentation pond 3 slides into the connecting pipe through the inclined plate 20 so that the sludge return pump 18 pumps the sludge; finally, 3 automatic spills over into ozone pond 4 after full in the sedimentation tank, the processing object overflows into ozone pond 4 after, with sewage pump 14 suction outside air to continuously carry out aeration treatment in the ozone pond 4, utilize the strong oxidizing property of ozone in the ozone pond 4 simultaneously, in order to degrade the processing object, and 8 work of defoaming pump in the ozone pond 4, and eliminate with the bubble in the ozone pond 4 through gondola water faucet 9, and the processing object in the ozone pond 4 is discharged through blow off pipe 23 after full.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the terms of septic tank 1, biological tank 2, sedimentation tank 3, ozone tank 4, first feed pipe 5, operation table 6, sewage discharge pipe 7, defoaming pump 8, shower head 9, bacteria storage tank 10, second feed pipe 11, solenoid valve 12, feed pipe 13, sewage pump 14, ozone tank 15, connector 16, return pipe 17, sludge return pump 18, connection pipe 19, inclined plate 20, water outlet pipe 21, water inlet pipe 22, first annular groove 23, second annular groove 24, gap 25, and air inlet pipe 26 are used more often herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (10)

1. The utility model provides a fecaluria processing apparatus, includes manure collecting pit (1), its characterized in that: a biological tank (2), a sedimentation tank (3) and an ozone tank (4) are respectively arranged in the septic tank (1), a bacterium storage box (10) and an ozone box (15) are respectively installed at the top of the septic tank (1), the bacterium storage box (10) is communicated with the biological tank (2), and the ozone box (15) is communicated with the ozone tank (4); the bottom of each of the biological tank (2) and the ozone tank (4) is provided with a sewage pump (14), the inlet end of the sewage pump (14) is connected with an air inlet pipe (26) extending to the outside of the septic tank (1), the outlet end of the sewage pump (14) is connected with a water inlet pipe (22), and one end of the water inlet pipe (22) is connected with a water outlet pipe (21) through a connecting piece (16); a sludge reflux pump (18) is installed at the bottom of the sedimentation tank (3), a water outlet end of the sludge reflux pump (18) is connected with a reflux pipe (17) extending into the biological tank (2), and a water inlet end of the sludge reflux pump (18) is connected with a connecting pipe (19); one side of ozone pond (4) is provided with blow off pipe (7), and the one end of blow off pipe (7) extends to the inside of ozone pond (4), and the other end of blow off pipe (7) is linked together with the external world, the top of biological pond (2) is provided with first inlet pipe (5), and the one end and the collection manure pit (1) of first inlet pipe (5) are linked together, and the other end of first inlet pipe (5) extends to the inside of biological pond (2).

2. A device for treating feces and urine according to claim 1, wherein a second feeding pipe (11) is provided at the top of each of the bacteria storage tank (10) and the ozone tank (15), a feeding pipe (13) is provided at the bottom of each of the bacteria storage tank (10) and the ozone tank (15), and a solenoid valve (12) is installed in the feeding pipe (13).

3. A fecal treatment device according to claim 2, characterized in that a defoaming pump (8) is installed above the biological tank (2) and the ozone tank (4), and a shower head (9) is connected above the defoaming pump (8).

4. A fecal treatment device according to claim 3, characterized in that the biological basin (2) is mounted with an operation table (6) on one side, the operation table (6) being electrically connected with the sewage pump (14), the sludge recirculation pump (18), the defoaming pump (8) and the electromagnetic valve (12), respectively.

5. A faecal management device according to claim 1, characterised in that said connection member (16) is threadedly connected to a water inlet tube (22) and a water outlet tube (21), respectively, and that a gap (25) is provided between said water inlet tube (22) and said water outlet tube (21), said gap (25) being spaced from each other by a distance of 1-3 mm.

6. A faecal management device according to claim 5, characterised in that said connecting member (16) defines a first annular recess (23) therein, said gap (25) being located in said first annular recess (23).

7. A faecal management device according to claim 5, wherein said inlet tube (22) is internally provided with a second annular groove (24), and wherein said second annular groove (24) is located adjacent the outlet end of said inlet tube (22).

8. A faecal management device according to claim 5, characterised in that the outlet end of the outlet pipe (21) is "trumpet" shaped and the inner diameter at the inlet of the outlet pipe (21) is larger than the inner diameter of the inlet pipe (22).

9. A faecal management device according to claim 5, characterised in that said inlet pipe (22), said connecting element (16) and said outlet pipe (21) are made of a material comprising metal.

10. A faecal management device according to claim 1, characterised in that an inclined plate (20) is fixed to one side of said sludge recirculation pump (18).

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