CN218130326U - Livestock and poultry breeding wastewater ceramic membrane filtration equipment - Google Patents

Abstract

The utility model discloses a livestock and poultry breeding wastewater ceramic membrane filtering device, which can effectively purify and filter breeding wastewater; the specific working principle is as follows: firstly, pretreating culture wastewater and introducing the pretreated culture wastewater into a first tank; then the second pump is started, under the action of the second pump, the aquaculture wastewater enters the first main pipe through the first inlet pipe, and is filled with the first main pipe, the second main pipe and each ceramic membrane pipe group, then the first pump is started, under the action of the first pump, the aquaculture wastewater circularly flows between the first main pipe, the second main pipe and each ceramic membrane pipe group, and is purified and filtered through the filtering action of the ceramic membrane pipes, so that clear water filtered by the ceramic membrane pipe groups is formed, the clear water filtered by the ceramic membrane pipe groups is discharged through the first outlet pipe and is stored in the second tank, the aquaculture wastewater circularly flows among the first main pipe, the second main pipe and each ceramic membrane pipe group, and the filtering and purifying effect is greatly improved.

Description

Livestock and poultry breeding wastewater ceramic membrane filtration equipment

Technical Field

The utility model relates to a waste water treatment technical field, in particular to waste water ceramic membrane filtration equipment is bred to beasts and birds.

Background

The cultivation wastewater refers to wastewater generated in the process of cultivating livestock. Is high-concentration organic sewage, and the culture wastewater has high content of suspended substances and ammonia nitrogen. If the aquaculture wastewater enters a natural water body without treatment, the contents of solid suspended matters, organic matters and microorganisms in the natural water can be increased, the physical, chemical and biological community composition of the water body is changed, and the natural water quality is deteriorated. In addition, the aquaculture wastewater also contains a large amount of pathogenic microorganisms which can be diffused and spread through natural water bodies or aquatic animals and plants, so that the health of people and livestock is harmed. In order to organically combine economic benefits, social benefits and environmental benefits and take a sustainable development road, the cultivation wastewater must be effectively purified.

The traditional equipment for treating livestock and poultry breeding wastewater is simple sedimentation tank and filter screen equipment, and the purifying and filtering effects on the breeding wastewater are to be improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a waste water ceramic membrane filtration equipment is bred to beasts and birds aims at solving the traditional problem that the purifying and filtering effect that is used for beasts and birds to breed waste water treatment's equipment remains to promote.

In order to achieve the above object, the present invention provides a technical solution:

a ceramic membrane filtration equipment for livestock and poultry breeding wastewater comprises a first tank, a second tank, a ceramic membrane tube group, a first main tube, a second main tube, a first pump, a second pump, a first inlet tube and a first outlet tube; the first tank is used for storing the pretreated breeding wastewater; the ceramic membrane tube groups are multiple in number; the ceramic membrane tube group comprises a first ceramic membrane tube filter and a second ceramic membrane tube filter; the water inlet of the first ceramic membrane tube filter is communicated with the first main tube; the water outlet of the first ceramic membrane tube filter is communicated with the water inlet of the second ceramic membrane tube filter; the water outlet of the second ceramic membrane tube filter is communicated with the second main tube; the inlet end of the first pump is communicated with the first main pipe; the outlet end of the first pump is communicated with the second main pipe; one end of the first inlet pipe is communicated with the first main pipe; the other end of the first inlet pipe is communicated with the first tank; the first inlet pipe is provided with the second pump; the filtering openings of the first ceramic membrane tube filters are communicated with the first water collecting tubes; the filtering openings of the second ceramic membrane tube filters are communicated with the second water collecting tubes; the first water collecting pipe and the second water collecting pipe are both communicated with one end of the first outlet pipe; the other end of the first outlet pipe is communicated with the second tank; the first outlet pipe is used for discharging clean water filtered by the ceramic membrane pipe group; and the second tank is used for storing the clean water filtered by the ceramic membrane tube group.

Preferably, the device further comprises a third tank and a second outlet pipe; one end of the second outlet pipe is communicated with the first main pipe; the other end of the second outlet pipe is communicated with the third tank; the second outlet pipe is used for discharging the waste water left after being filtered by the ceramic membrane pipe group; and the third tank is used for storing the waste water left after being filtered by the ceramic membrane tube group.

Preferably, the system also comprises a fourth tank, a second inlet pipe, a third outlet pipe and a fourth outlet pipe; the fourth tank is used for storing clean water for cleaning; one end of the second inlet pipe is communicated with the fourth tank; the other end of the second inlet pipe is communicated with the first inlet pipe, and the communication point of the second inlet pipe and the first inlet pipe is positioned on the water inlet side of the first pump; the third outlet pipe is communicated with the first outlet pipe; the fourth outlet pipe is communicated with the second outlet pipe; the third outlet pipe is used for discharging filter liquor obtained by filtering clean water for cleaning through the ceramic membrane pipe group; and the fourth outlet pipe is used for discharging waste liquid left after clean water for cleaning is filtered by the ceramic membrane pipe group.

Preferably, the first inlet pipe is provided with a first electromagnetic valve; the communication point of the second inlet pipe and the first inlet pipe is positioned between the first electromagnetic valve and the first pump; the second inlet pipe is provided with a second electromagnetic valve.

Preferably, the first outlet pipe is provided with a first electromagnetic flow meter; the first outlet pipe is provided with a third electromagnetic valve; the third outlet pipe is provided with a fourth electromagnetic valve; and the communication point of the third outlet pipe and the first outlet pipe is positioned between the first electromagnetic flowmeter and the third electromagnetic valve.

Preferably, the second outlet pipe is provided with a second electromagnetic flow meter; the second outlet pipe is provided with a fifth electromagnetic valve; a sixth electromagnetic valve is arranged on the fourth outlet pipe; and the fifth electromagnetic valve is positioned between the communication point of the fourth outlet pipe and the second electromagnetic flowmeter.

Preferably, the first inlet pipe is provided with a first manual valve; the communication point of the second inlet pipe and the first inlet pipe is positioned between the first electromagnetic valve and the first manual valve; the first outlet pipe is provided with a second manual valve; the first electromagnetic flowmeter is positioned between the second manual valve and the third electromagnetic valve; the second outlet pipe is provided with a third manual valve; and a communication point of the fourth outlet pipe and the second outlet pipe is positioned between the third manual valve and the fifth electromagnetic valve.

Preferably, the device further comprises a third inlet pipe; the third inlet pipe is communicated with the first inlet pipe; the communication point of the third inlet pipe and the first inlet pipe is positioned on the water outlet side of the first pump; the third inlet pipe is provided with a seventh electromagnetic valve and a fourth manual valve.

Preferably, the device also comprises a circulating return pipe; the ceramic membrane tube group also comprises an intermediate tube; the two ends of the middle pipe are respectively communicated with the water outlet of the first ceramic membrane pipe filter and the water inlet of the second ceramic membrane pipe filter; one end of the circulating return pipe is connected to the second outlet pipe; a communication point between the circulating return pipe and the second outlet pipe is positioned between the fifth electromagnetic valve and the second electromagnetic flowmeter; the circulating return pipe is provided with an eighth electromagnetic valve and a fifth manual valve; each intermediate pipe is communicated with the other end of the circulating return pipe.

Preferably, the device also comprises an air compressor; the outlet end of the air compressor is respectively communicated with the first water collecting pipe and the second water collecting pipe.

Compared with the prior art, the utility model discloses possess following beneficial effect at least:

the ceramic membrane filtration equipment for livestock and poultry breeding wastewater provided by the utility model can effectively purify and filter the breeding wastewater; the specific working principle is as follows: firstly, pretreating culture wastewater and introducing the pretreated culture wastewater into a first tank; then, a second pump is started, under the action of the second pump, the aquaculture wastewater enters the first main pipe through the first inlet pipe and is filled in the first main pipe, the second main pipe and each ceramic membrane pipe group, then the first pump is started, under the action of the first pump, the aquaculture wastewater circularly flows among the first main pipe, the second main pipe and each ceramic membrane pipe group and is purified and filtered through the filtering action of the ceramic membrane pipes to form the clean water filtered by the ceramic membrane pipe groups, in the circulating flow process of the aquaculture wastewater, the first outlet pipe is started, the clean water filtered by the ceramic membrane pipe groups is discharged through the first outlet pipe and is stored in a second tank, the clean water in the second tank is purified clean water, solid suspended matters, organic matters and microorganisms are filtered, and the clean water can be directly discharged to the outside; the whole process of purifying and filtering the culture wastewater is completed, and the filter purification effect is greatly improved because the culture wastewater circularly flows among the first main pipe, the second main pipe and each ceramic membrane pipe group by the filter equipment.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic structural view of an embodiment of a ceramic membrane filtration apparatus for livestock and poultry breeding wastewater provided by the present invention;

fig. 2 is a schematic view (1) of a partial structure of an embodiment of the ceramic membrane filtration equipment for livestock and poultry breeding wastewater provided by the utility model;

fig. 3 is a schematic view (2) of a local structure of an embodiment of the ceramic membrane filtration equipment for livestock and poultry breeding wastewater provided by the utility model.

Description of reference numerals:

110. a second pump; 120. a first pump; 130. a first main tube; 140. a second main pipe; 150. ceramic membrane tube groups; 160. a first ceramic membrane tube filter; 170. a second ceramic membrane tube filter; 180. a first header pipe; 190. a second header pipe; 210. an air compressor; 220. a first inlet pipe; 230. a first outlet pipe; 240. a second outlet pipe; 250. circulating and returning the pipe; 260. an intermediate pipe; 270. a third inlet pipe; 280. a first manual valve; 290. a fourth manual valve; 310. a seventh electromagnetic valve; 320. a first solenoid valve; 330. a second solenoid valve; 340. a second inlet pipe; 350. a fourth outlet pipe; 360. a sixth electromagnetic valve; 370. a third outlet pipe; 380. a third manual valve; 390. a second manual valve; 410. a fifth solenoid valve; 420. a second electromagnetic flow meter; 430. an eighth solenoid valve; 440. a third electromagnetic valve; 450. a fourth solenoid valve; 460. a first electromagnetic flow meter.

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the 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 efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as upper, lower, left, right, front, and rear … …) in the embodiments of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, descriptions in the present application as to "first", "second", and the like are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit to the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present application, unless expressly stated or limited otherwise, the terms "connected" and "fixed" are to be construed broadly, e.g., "fixed" may be fixedly connected or detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In addition, the technical solutions between the embodiments of the present invention can be combined with each other, but it is necessary to be able to be realized by a person having ordinary skill in the art as a basis, and when the technical solutions are contradictory or cannot be realized, the combination of such technical solutions should be considered to be absent, and is not within the protection scope of the present invention.

The utility model provides a waste water ceramic membrane filtration equipment is bred to beasts and birds.

Referring to fig. 1 to 3, in an embodiment of the ceramic membrane filtration device for livestock and poultry breeding wastewater provided by the present invention, the ceramic membrane filtration device for livestock and poultry breeding wastewater comprises a first tank (not shown), a second tank (not shown), a ceramic membrane tube set 150, a first main tube 130, a second main tube 140, a first pump 120, a second pump 110, a first inlet tube 220 and a first outlet tube 230; the first tank is used for storing the pretreated breeding wastewater; the number of ceramic membrane tube groups 150 is plural (4 in this embodiment); the ceramic membrane tube bank 150 includes a first ceramic membrane tube filter 160 and a second ceramic membrane tube filter 170; the water inlet of the first ceramic membrane tube filter 160 is communicated with the first main tube 130; the water outlet of the first ceramic membrane tube filter 160 is communicated with the water inlet of the second ceramic membrane tube filter 170; the water outlet of the second ceramic membrane tube filter 170 is communicated with the second main tube 140; the inlet end of the first pump 120 is communicated with the first main pipe 130; the outlet end of the first pump 120 is communicated with the second main pipe 140; one end of the first inlet pipe 220 is communicated with the first main pipe 130; the other end of the first inlet pipe 220 is communicated with the first tank; the first inlet pipe 220 is provided with a second pump 110; the filtering openings of the first ceramic membrane tube filters 160 are communicated with the first water collecting tube 180; the filtering openings of the second ceramic membrane tube filters 170 are communicated with the second water collecting pipe 190; the first water collecting pipe 180 and the second water collecting pipe 190 are both communicated with one end of the first outlet pipe 230; the other end of the first outlet pipe 230 is communicated with the second tank; the first outlet pipe 230 is used for discharging the clean water filtered by the ceramic membrane pipe group 150; the second tank is used for storing the clean water filtered by the ceramic membrane tube bank 150.

The ceramic membrane filtration equipment for livestock and poultry breeding wastewater provided by the utility model can effectively purify and filter the breeding wastewater; the specific working principle is as follows: firstly, pretreating culture wastewater and introducing the pretreated culture wastewater into a first tank; then the second pump 110 is started, under the action of the second pump 110, the aquaculture wastewater enters the first main pipe 130 through the first inlet pipe 220 and is filled in the first main pipe 130, the second main pipe 140 and each ceramic membrane pipe group 150, then the first pump 120 is started, under the action of the first pump 120, the aquaculture wastewater circularly flows among the first main pipe 130, the second main pipe 140 and each ceramic membrane pipe group 150 and is purified and filtered through the filtering action of the ceramic membrane pipe group 150 to form clear water filtered by the ceramic membrane pipe group 150, in the circulating flow process of the aquaculture wastewater, the first outlet pipe 230 is started, the clear water filtered by the ceramic membrane pipe group 150 is discharged through the first outlet pipe 230 and is stored in the second tank, the clear water purified in the second tank is filtered to the outside, and solid suspended matters, organic matters and microorganisms can be directly discharged; the whole process of purifying and filtering the culture wastewater is completed, and the culture wastewater circularly flows among the first main pipe 130, the second main pipe 140 and each ceramic membrane pipe group 150, so that the filtering and purifying effect is greatly improved.

In addition, the ceramic membrane filtration equipment for livestock and poultry breeding wastewater further comprises a third tank (not shown) and a second outlet pipe 240; one end of the second outlet pipe 240 communicates with the first main pipe 130; the other end of the second outlet pipe 240 is communicated with the third tank; the second outlet pipe 240 is used for discharging the waste water (i.e. the filter residue liquid) left after being filtered by the ceramic membrane pipe group 150; the third tank is used for storing the waste water left after being filtered by the ceramic membrane tube bank 150.

The second outlet pipe 240 is arranged to discharge the waste water left after being filtered by the ceramic membrane pipe group 150, and the waste water left after being filtered by the ceramic membrane pipe group 150 is stored in the third tank for further treatment.

Meanwhile, the ceramic membrane filtration equipment for livestock and poultry breeding wastewater further comprises a fourth tank, a second inlet pipe 340, a third outlet pipe 370 and a fourth outlet pipe 350; the fourth tank is used for storing clean water for cleaning; one end of the second inlet pipe 340 is communicated with the fourth tank; the other end of the second inlet pipe 340 is communicated with the first inlet pipe 220, and the communication point of the second inlet pipe 340 and the first inlet pipe 220 is located on the water inlet side of the first pump 120; the third outlet pipe 370 is communicated with the first outlet pipe 230; the fourth outlet pipe 350 is communicated with the second outlet pipe 240; the third outlet pipe 370 is used for discharging the filtrate of the clean water after being filtered by the ceramic membrane pipe group 150; the fourth outlet pipe 350 is used for discharging the waste water left after the clean water is filtered by the ceramic membrane pipe set 150.

The method is characterized in that the filtering holes are blocked by impurities after the ceramic membrane tube filter is used for a period of time, and the impurities blocking the filtering holes need to be cleaned regularly in order to ensure the normal use of the ceramic membrane tube filter, so that the filtering capacity of the ceramic membrane tube filter is recovered; for this purpose, the aquaculture wastewater in the first main pipe 130, the second main pipe 140 and each ceramic membrane pipe group 150 can be completely discharged, then the second inlet pipe 340 is opened and the communication between the first tank and the first inlet pipe 220 is closed, so that the clean water enters the first inlet pipe 220 and finally fills the first main pipe 130, the second main pipe 140 and each ceramic membrane pipe group 150, and under the action of the second pump 110, the clean water can flush the filtration pores of the ceramic membrane pipe filter, thereby dredging the blocked filtration pores; the clean water (i.e., the liquid discharged through the filtering outlet of the ceramic membrane tube filter) after cleaning the filtering holes is discharged through the third outlet pipe 370, and the waste liquid (i.e., the liquid discharged through the first main pipe 130) remaining after cleaning the filtering holes is discharged through the fourth outlet pipe 350.

In addition, the first inlet pipe 220 is provided with a first solenoid valve 320; the communication point of the second inlet pipe 340 and the first inlet pipe 220 is positioned between the first solenoid valve 320 and the first pump 120; the second inlet pipe 340 is provided with a second solenoid valve 330. Through setting up the solenoid valve, the intercommunication and the closing of each pipeline of control that can be more convenient.

Meanwhile, the first outlet pipe 230 is provided with a first electromagnetic flow meter 460; the first outlet pipe 230 is provided with a third solenoid valve 440; the third outlet pipe 370 is provided with a fourth solenoid valve 450; the point of communication between the third exit tube 370 and the first exit tube 230 is between the first electromagnetic flow meter 460 and the third electromagnetic valve 440.

The first electromagnetic flow meter 460 can clearly know the discharge speed of the clear water filtered by the ceramic membrane tube bank 150, and further know the filtering speed and efficiency of the aquaculture wastewater; in addition, the discharge speed of the clear water filtered by the ceramic membrane tube bank 150 can be controlled by controlling the opening degree of the third electromagnetic valve 440, so as to control the filtering speed of the aquaculture wastewater.

Specifically, when the wastewater filtration is started, as the waste liquid to be treated enters each ceramic membrane tube bank 150, the air remaining in each ceramic membrane tube bank 150 is discharged through the first outlet tube 230; when the first electromagnetic flow meter 460 detects water flow, it is verified that there is no air remaining in each ceramic membrane tube stack 150, i.e., it is verified that the filtration purification process has been formally started.

In addition, the second outlet pipe 240 is provided with a second electromagnetic flow meter 420; the second outlet pipe 240 is provided with a fifth solenoid valve 410; the fourth outlet pipe 350 is provided with a sixth electromagnetic valve 360; the fifth electromagnetic valve 410 is located between the communication point of the fourth outlet pipe 350 and the second outlet pipe 240 and the second electromagnetic flowmeter 420.

The second electromagnetic flowmeter 420 can clearly know the discharge speed of the waste water left after being filtered by the ceramic membrane tube bank 150, and further know the filtering speed and efficiency of the aquaculture waste water; in addition, the discharge speed of the waste water remaining after being filtered by the ceramic membrane tube bank 150 can be controlled by controlling the opening degree of the fifth electromagnetic valve 410, thereby controlling the filtering speed of the aquaculture waste water.

Meanwhile, the first inlet pipe 220 is provided with a first manual valve 280; the connection point of the second inlet pipe 340 and the first inlet pipe 220 is located between the first solenoid valve 320 and the first manual valve 280; the first outlet pipe 230 is provided with a second manual valve 390; the first electromagnetic flow meter 460 is located between the second manual valve 390 and the third electromagnetic valve 440; the second outlet pipe 240 is provided with a third manual valve 380; the point of communication between the fourth outlet pipe 350 and the second outlet pipe 240 is located between the third manual valve 380 and the fifth solenoid valve 410. Through setting up solenoid valve and manual valve, the intercommunication and the closing of each pipeline of control that can be more convenient.

In addition, the ceramic membrane filtration equipment for the livestock and poultry breeding wastewater also comprises a third inlet pipe 270; one end of the third inlet pipe 270 is communicated with the first tank; the other end of the third inlet pipe 270 is communicated with the first inlet pipe 220; the communication point of the third inlet pipe 270 and the first inlet pipe 220 is located at the water outlet side of the first pump 120; the third inlet pipe 270 is provided with a seventh solenoid valve 310 and a fourth manual valve 290.

The third inlet pipe 270 can be used to supplement the inlet water of the waste liquid to be treated, thereby increasing the inlet water amount of the waste liquid to be treated.

Meanwhile, the ceramic membrane filtration equipment for the livestock and poultry breeding wastewater also comprises a circulating return pipe 250; the ceramic membrane tube stack 150 further includes an intermediate tube 260; the two ends of the middle pipe 260 are respectively communicated with the water outlet of the first ceramic membrane pipe filter 160 and the water inlet of the second ceramic membrane pipe filter 170; one end of the circulation return pipe 250 is connected to the second outlet pipe 240; the communication point between the circulation return pipe 250 and the second outlet pipe 240 is positioned between the fifth electromagnetic valve 410 and the second electromagnetic flowmeter 420; the recirculation loop 250 is provided with an eighth solenoid valve 430 and a fifth manual valve; each intermediate pipe 260 communicates with the other end of the circulation return pipe 250.

The circulating return pipe 250 can make the waste water left after being filtered by the ceramic membrane pipe group 150 enter the ceramic membrane pipe group 150 again for secondary filtration, thereby improving the filtering effect; specifically, when secondary filtration is required, the sixth electromagnetic valve 360 is closed, and the fifth electromagnetic valve 410 is opened; then, the eighth solenoid valve 430 and a fifth manual valve (not numbered) are opened, so that the waste water remaining after being filtered by the ceramic membrane tube bank 150 can be introduced into the ceramic membrane tube bank 150 again.

In addition, the ceramic membrane filtration equipment for the livestock and poultry breeding wastewater also comprises an air compressor 210; the outlet end of the air compressor 210 is respectively communicated with the first water collecting pipe 180 and the second water collecting pipe 190. The ceramic membrane tube bank 150 can be subjected to high-pressure blowing through the air compressor 210, so that impurities blocking filter holes of the ceramic membrane tube bank 150 can be cleaned, and the filtering capacity of the ceramic membrane tube filter can be recovered.

The above only be the preferred embodiment of the utility model discloses a not consequently restriction the utility model discloses a patent range, all are in the utility model discloses a conceive, utilize the equivalent structure transform of what the content was done in the description and the attached drawing, or direct/indirect application all is included in other relevant technical field the utility model discloses a patent protection within range.

Claims (10)

1. A livestock and poultry breeding wastewater ceramic membrane filtration equipment is characterized by comprising a first tank, a second tank, a ceramic membrane tube group, a first main tube, a second main tube, a first pump, a second pump, a first inlet tube and a first outlet tube; the first tank is used for storing the pretreated breeding wastewater; the ceramic membrane tube groups are multiple in number; the ceramic membrane tube group comprises a first ceramic membrane tube filter and a second ceramic membrane tube filter; the water inlet of the first ceramic membrane tube filter is communicated with the first main tube; the water outlet of the first ceramic membrane tube filter is communicated with the water inlet of the second ceramic membrane tube filter; the water outlet of the second ceramic membrane tube filter is communicated with the second main tube; the inlet end of the first pump is communicated with the first main pipe; the outlet end of the first pump is communicated with the second main pipe; one end of the first inlet pipe is communicated with the first main pipe; the other end of the first inlet pipe is communicated with the first tank; the first inlet pipe is provided with the second pump; the filtering openings of the first ceramic membrane tube filters are communicated with the first water collecting tubes; the filtering openings of the second ceramic membrane tube filters are communicated with the second water collecting tubes; the first water collecting pipe and the second water collecting pipe are both communicated with one end of the first outlet pipe; the other end of the first outlet pipe is communicated with the second tank; the first outlet pipe is used for discharging clean water filtered by the ceramic membrane pipe group; the second tank is used for storing the clean water filtered by the ceramic membrane tube group.

2. The ceramic membrane filtration equipment for livestock and poultry breeding wastewater according to claim 1, further comprising a third tank and a second outlet pipe; one end of the second outlet pipe is communicated with the first main pipe; the other end of the second outlet pipe is communicated with the third tank; the second outlet pipe is used for discharging the waste water left after being filtered by the ceramic membrane pipe group; and the third tank is used for storing the waste water left after being filtered by the ceramic membrane tube group.

3. The ceramic membrane filtration equipment for livestock and poultry breeding wastewater according to claim 2, further comprising a fourth tank, a second inlet pipe, a third outlet pipe and a fourth outlet pipe; the fourth tank is used for storing clean water for cleaning; one end of the second inlet pipe is communicated with the fourth tank; the other end of the second inlet pipe is communicated with the first inlet pipe, and the communication point of the second inlet pipe and the first inlet pipe is positioned on the water inlet side of the first pump; the third outlet pipe is communicated with the first outlet pipe; the fourth outlet pipe is communicated with the second outlet pipe; the third outlet pipe is used for discharging filter liquor obtained by filtering clean water for cleaning through the ceramic membrane pipe group; and the fourth outlet pipe is used for discharging waste liquid left after clean water for cleaning is filtered by the ceramic membrane pipe group.

4. The ceramic membrane filtration equipment for livestock and poultry breeding wastewater according to claim 3, wherein the first inlet pipe is provided with a first electromagnetic valve; the communication point of the second inlet pipe and the first inlet pipe is positioned between the first electromagnetic valve and the first pump; the second inlet pipe is provided with a second electromagnetic valve.

5. The ceramic membrane filtration equipment for livestock and poultry breeding wastewater according to claim 4, wherein said first outlet pipe is provided with a first electromagnetic flow meter; the first outlet pipe is provided with a third electromagnetic valve; the third outlet pipe is provided with a fourth electromagnetic valve; and the communication point of the third outlet pipe and the first outlet pipe is positioned between the first electromagnetic flowmeter and the third electromagnetic valve.

6. The ceramic membrane filtration device for livestock and poultry breeding wastewater as recited in claim 5, wherein said second outlet pipe is provided with a second electromagnetic flow meter; the second outlet pipe is provided with a fifth electromagnetic valve; a sixth electromagnetic valve is arranged on the fourth outlet pipe; and the fifth electromagnetic valve is positioned between the communication point of the fourth outlet pipe and the second electromagnetic flowmeter.

7. The ceramic membrane filtration device for livestock and poultry breeding wastewater according to claim 6, wherein said first inlet pipe is provided with a first manual valve; the communication point of the second inlet pipe and the first inlet pipe is positioned between the first electromagnetic valve and the first manual valve; the first outlet pipe is provided with a second manual valve; the first electromagnetic flowmeter is positioned between the second manual valve and the third electromagnetic valve; the second outlet pipe is provided with a third manual valve; and a communication point of the fourth outlet pipe and the second outlet pipe is positioned between the third manual valve and the fifth electromagnetic valve.

8. The ceramic membrane filtration equipment for livestock and poultry breeding wastewater according to claim 1, further comprising a third inlet pipe; the third inlet pipe is communicated with the first inlet pipe; the communication point of the third inlet pipe and the first inlet pipe is positioned on the water outlet side of the first pump; the third inlet pipe is provided with a seventh electromagnetic valve and a fourth manual valve.

9. The ceramic membrane filtration equipment for livestock and poultry breeding wastewater according to claim 6, further comprising a circulation return pipe; the ceramic membrane tube group also comprises an intermediate tube; the two ends of the middle pipe are respectively communicated with the water outlet of the first ceramic membrane pipe filter and the water inlet of the second ceramic membrane pipe filter; one end of the circulating return pipe is connected to the second outlet pipe; a communication point between the circulating return pipe and the second outlet pipe is positioned between the fifth electromagnetic valve and the second electromagnetic flowmeter; the circulating return pipe is provided with an eighth electromagnetic valve and a fifth manual valve; each intermediate pipe is communicated with the other end of the circulating return pipe.

10. The ceramic membrane filtration equipment for livestock and poultry breeding wastewater according to claim 1, further comprising an air compressor; the outlet end of the air compressor is respectively communicated with the first water collecting pipe and the second water collecting pipe.

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