CN217202237U - Vertical solid particle remover for anaerobic fermentation - Google Patents

Abstract

The utility model relates to a vertical solid particle remover for anaerobic fermentation. Comprises an anaerobic fermentation tank body and a biological reaction layer; the anaerobic fermentation box body comprises a movable top cover body, a cylindrical box body and a sewage collecting layer, wherein the inner wall surfaces of the movable top cover body, the cylindrical box body and the sewage collecting layer are mutually wound to form a reaction cavity, the reaction cavity comprises a filler cavity and a sewage cavity, and a liquid drainage layer is arranged between the filler cavity and the sewage cavity; the biological reaction layer comprises a first biological nitrification brush, a biological nitrification ball and a second biological nitrification brush which are arranged from top to bottom according to a sequence, the biological nitrification ball is positioned above the liquid drainage layer, a liquid drainage channel is also arranged on the anaerobic fermentation box body, and the liquid drainage channel is positioned above the liquid drainage layer. The utility model discloses the practicality is strong, can effectively solve the problem that can't handle surplus protein and organic matter in the water, effectively solves the artifical study cost too high problem of secondary circulation water processing procedure simultaneously.

Description

Vertical solid particle remover for anaerobic fermentation

Technical Field

The utility model relates to a compound farming system technical field, concretely relates to a vertical solid particle remover for anaerobism glycolysis.

Background

The fish-vegetable symbiotic system is a novel composite cultivation system, and two different cultivation system technologies of fish-vegetable symbiotic system bar aquaculture and water cultivation are combined through an integrated ecological design technology, so that scientific synergetic symbiosis is effectively achieved.

With reference to the fish-vegetable symbiotic system described in patent document CN201620548142.6, the patent document and the prior art have the following problems: 1. the existing water body treatment mechanism of the fish-vegetable symbiotic system cannot effectively realize self-circulation culture, has low definition of functional modules and cannot effectively circulate and treat residual protein and organic matters in the water body. 2. The water body filtering effect is low, water body impurities including residual feed and excrement cannot be effectively filtered, ammonia nitrogen sub-salt in the water body cannot be regulated and controlled, and a circulation mechanism of a fish-vegetable symbiotic system cannot be effectively realized. 3. The organism processing steps are too complex, the secondary circulating water body processing procedures are complicated, and the artificial learning cost is too high.

SUMMERY OF THE UTILITY MODEL

The utility model provides a solve above-mentioned not enough, provide a vertical solid particle remover for anaerobism glycolysis, this vertical solid particle remover reasonable in design can effectively solve the problem that can't handle surplus protein and organic matter in the water, effectively solves the problem that the artifical study cost of secondary cycle water processing procedure is too high simultaneously.

The above object of the present invention is achieved by the following technical solutions:

a vertical solid particle remover for anaerobic fermentation comprises an anaerobic fermentation box body and a biological reaction layer which is arranged on the inner wall surface of the anaerobic fermentation box body and is used for providing an anaerobic environment and filtering liquid for the liquid flowing from the bottom to the top of the anaerobic fermentation box body; the anaerobic fermentation tank body comprises a movable top cover body, a cylindrical tank body and a sewage collection layer which are sequentially matched and connected, wherein the inner wall surfaces of the movable top cover body, the cylindrical tank body and the sewage collection layer are mutually wound to form a reaction cavity, the reaction cavity comprises a filler cavity and a sewage cavity, a liquid drainage layer is arranged between the filler cavity and the sewage cavity, and the liquid drainage layer penetrates through the cylindrical tank body; the biological reaction layer is including the first biological brush that nitrifies, biological ball and the biological brush that nitrifies of second that from top to bottom set up according to the preface, first biological brush and the biological brush that nitrifies of second are located the both sides of biological ball that nitrifies, biological ball that nitrifies is located the top on liquid drainage layer and with the internal face looks butt of barrel box, still be provided with the flowing back passageway on the anaerobic fermentation box, the flowing back passageway runs through first biological brush and barrel box and be located the top on liquid drainage layer, the input orientation of flowing back passageway movable top lid body sets up.

Further, among the above-mentioned technical scheme, liquid drainage layer includes first annular drainage plate, second annular drainage plate, crosses water net body, body of intaking and indicates to draw the water nest of tubes, first annular drainage plate and second annular drainage plate interconnect and close mounting are on the internal face of barrel box, it installs to indicate to draw the water nest of tubes on the second annular drainage plate and the output orientation dirty layer of collection, it installs to cross water net body movable mounting on the first annular drainage plate, the body of intaking runs through barrel box setting and output orientation second annular drainage plate.

Furthermore, among the above-mentioned technical scheme, there is the contained angle second annular drainage plate and the wall of cylinder box, the junction of second annular drainage plate and cylinder box and first annular drainage plate is provided with the sealing layer.

Further, in the above technical solution, the water passing mesh body is a central stainless steel mesh layer.

Further, among the foretell technical scheme, dirty layer of collection is including the dirty slope of collection, sewage pipes and blowdown ball valve, the bottom on the dirty slope of collection is connected with sewage pipes's input, sewage pipes's output runs through the cylinder box, the blowdown ball valve sets up on sewage pipes.

Further, in the above technical solution, a drainage layer is disposed on the surface of the dirt collecting slope.

Further, in the above technical solution, the water level line of the cylindrical tank and the input end of the liquid discharge channel are located at the same horizontal plane.

The beneficial effects of the utility model reside in that:

adopt the anaerobic fermentation case of mutually supporting connection and set up the biological reaction layer that is used for carrying out biological reaction to the circulation liquid in the anaerobic fermentation case, preferred anaerobic fermentation case is the cylinder tube-shape, from top to bottom set up the activity top lid body, cylinder box and album dirty layer, the organic matter in the cooperation liquid business turn over equipment separation water, fodder or excrement and urine and fermentation turn into inorganic salt, provide the creation condition of absorption for the dish body link in the fish-vegetable intergrowth system, ammonia nitrogen sub-salt in the effective control water, reach the water circulation that sets up fish-vegetable intergrowth system, effectively improve fish-vegetable intergrowth system water utilization.

Adopt first biological nitrification brush, biological nitrification ball and second biological nitrification brush to carry out the water filtration and first biological nitrification brush, biological nitrification ball and second biological nitrification brush are food level environmental protection material, have the surface nitrobacteria adsorption bed, and preferred pore structure wherein can cut the water flow direction, increase water retention time and area of contact.

Drawings

In order to more clearly illustrate the embodiments of the present invention, the drawings that are needed in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic view of the sectional structure a-a of fig. 3.

Fig. 2 is a front view of the present invention.

Fig. 3 is a plan view of the present invention.

Fig. 4 is a schematic structural diagram of the present invention.

Fig. 5 is a schematic view of a sectional structure B-B of fig. 1.

The names of the components corresponding to the numerical identifiers in fig. 1 to 5 are as follows:

an anaerobic fermentation tank body-1; a movable top cover body-11; a cartridge case-12; a dirt collection layer-13; a packing cavity-14; sewage chamber-15; a sewage collecting slope-16; a sewerage pipe-17; a blowdown ball valve-18; a biological reaction layer-2; a first biological nitrification brush-21; biological nitrification ball-22; a second biological nitrification hairbrush-23; a liquid drainage layer-3; a first annular flow guide plate-31; a second annular flow guide plate-32; a water passing net body-33; a water inlet pipe body-34; a water outlet pipe group-35 is pointed.

Detailed Description

The technical solution of the present invention will be clearly and completely described below with reference to the accompanying drawings, and in the description of the present invention, it should be noted that:

the term "connected" is to be understood broadly, and may be mechanical or electrical; they may be connected directly or indirectly through intervening media, or may be interconnected between two elements.

The terms "front", "rear", "side", "upper" and "lower" are used in the following description based on the orientation and positional relationship shown in the drawings, and are only for convenience of description of the present invention.

For those skilled in the art, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent, and is not within the protection scope of the present invention.

The present invention is further described with reference to the following specific examples, but it should be noted that the present invention is implemented on the premise of the technical solution of the present invention, and detailed embodiments and specific operation procedures are given, but the scope of the present invention is not limited to the following examples.

In a first embodiment, as shown in fig. 1 to 5, the best embodiment of this embodiment is:

a vertical solid particle remover for anaerobic fermentation comprises an anaerobic fermentation box body 1 and a biological reaction layer 2 which is arranged on the inner wall surface of the anaerobic fermentation box body 1 and is used for providing an anaerobic environment and filtering liquid for circulating liquid from the bottom to the top of the anaerobic fermentation box body 1; the anaerobic fermentation tank body 1 comprises a movable top cover body 11, a cylindrical tank body 12 and a sewage collection layer 13 which are matched and connected in sequence, the inner wall surfaces of the movable top cover body 11, the cylindrical tank body 12 and the sewage collection layer 13 are mutually wound to form a reaction cavity, the reaction cavity comprises a filler cavity 14 and a sewage cavity 15, a liquid drainage layer 3 is arranged between the filler cavity 14 and the sewage cavity 15, and the liquid drainage layer 3 penetrates through the cylindrical tank body 12;

in this embodiment, adopt the anaerobic fermentation case of mutually supporting the connection and set up the biological reaction layer 2 that is used for carrying out biological reaction to the circulation liquid in anaerobic fermentation box 1, preferred anaerobic fermentation case is the cylinder tube-shape, from top to bottom set up activity top lid 11, cylinder box 12 and album dirty layer 13, organic matter in the cooperation liquid business turn over equipment separation water, fodder or excrement and urine ferment and turn into inorganic salt, provide the absorption creation condition for the vegetable body link in the fish and vegetable intergrowth system, effectively control the ammonia nitrogen sub-salt in the water, the water circulation that has reached to set up fish and vegetable intergrowth system has effectively improved fish and vegetable intergrowth system water utilization ratio.

As shown in fig. 1 and 4, the biological reaction layer 2 includes first biological nitrification brush 21, biological nitrification ball 22 and the biological nitrification brush 23 of second that from top to bottom sets gradually, first biological nitrification brush 21 and the biological nitrification brush 23 of second are located biological nitrification ball 22's both sides, biological nitrification ball 22 is located the top of liquid drainage layer 3 and with the internal face looks butt of barrel box 12, still be provided with drainage channel 4 on the anaerobic fermentation box 1, drainage channel 4 runs through first biological nitrification brush 21 and barrel box 12 just are located the top of liquid drainage layer 3, drainage channel 4's input orientation the setting of movable top cover body 11.

In this embodiment, the first biological nitrification brush 21, the biological nitrification ball 22 and the second biological nitrification brush 23 are used for filtering the water body, and the first biological nitrification brush 21, the biological nitrification ball 22 and the second biological nitrification brush 23 are made of food-grade environment-friendly materials and have surface nitrifying bacteria adsorption beds, and the preferred pore structures can cut the water flow direction and increase the retention time and the contact area of the water body.

As shown in fig. 1 to 4, the liquid drainage layer 3 includes a first annular drainage plate 31, a second annular drainage plate 32, a water passing net body 33, a water inlet pipe body 34 and a water outlet pipe group 35, the first annular drainage plate 31 and the second annular drainage plate 32 are connected with each other and tightly mounted on the inner wall surface of the cylinder type box body 12, the water outlet pipe group 35 is mounted on the second annular drainage plate 32 and the output end faces the dirt collecting layer 13, the water passing net body 33 is movably mounted on the first annular drainage plate 31, the water inlet pipe body 34 runs through the cylinder type box body 12 is provided and the output end faces the second annular drainage plate 32.

In this embodiment, the first annular flow guide plate 31 and the second annular flow guide plate 32 are used for guiding water to effectively extend the direction and position of water circulation, so as to improve the flow coverage and flow rate of water.

As shown in fig. 1 to 5, the second annular flow guide plate 32 forms an included angle with the wall surface of the cylindrical box body 12, and a sealing layer is disposed at the joint of the second annular flow guide plate 32 with the cylindrical box body 12 and the first annular flow guide plate 31.

In this embodiment, preferred, adopt the sealing layer to connect sealed, effective isolated water is revealed and is leaded to the pollutant to pile up, adopts contained angle formula annular drainage plate connection structure, effectively improves the guide water and flows, prevents that the water from storing up.

As shown in fig. 1 to 2, the water passing mesh body 33 is a central stainless mesh layer.

In this embodiment, adopt stainless steel meshwork layer, effectively prevent the filtering layer oxidation reaction and aggravate the water pollution, avoid fish and vegetable intergrowth system circulation liquid to receive the oxidation to rust the pollution, increase the liquid and handle the degree of difficulty.

As shown in fig. 1 to 4, the dirt collecting layer 13 includes a dirt collecting slope 16, a sewage pipe 17 and a sewage ball valve 18, the bottom end of the dirt collecting slope 16 is connected with the input end of the sewage pipe 17, the output end of the sewage pipe 17 penetrates through the cylinder type box body 12, the sewage ball valve 18 is arranged on the sewage pipe 17, a flow guiding layer is arranged on the surface of the dirt collecting slope 16, and the water level line of the cylinder type box body 12 and the input end of the liquid drainage channel 4 are located on the same horizontal plane.

In this embodiment, the drainage layer is disposed on the surface of the dirt collecting slope 16 to improve the water fluidity and prevent the accumulation of the pollutants.

The above is to the preferred embodiment of the present invention specifically explained, not therefore the limitation the patent scope of the present invention, all in the concept of the present invention, utilize the equivalent structure change made by the content of the specification and the attached drawings, or directly/indirectly use in other related technical fields all included in the patent protection scope of the present invention.

Claims (7)

1. A vertical solid particle remover for anaerobic fermentation, comprising: comprises an anaerobic fermentation box body (1) and a biological reaction layer (2) which is arranged on the inner wall surface of the anaerobic fermentation box body (1) and is used for providing an anaerobic environment and filtering liquid for the liquid flowing from the bottom to the top of the anaerobic fermentation box body (1);

the anaerobic fermentation tank body (1) comprises a movable top cover body (11), a cylindrical tank body (12) and a sewage collection layer (13) which are matched and connected in sequence, the inner wall surfaces of the movable top cover body (11), the cylindrical tank body (12) and the sewage collection layer (13) are wound and combined with each other to form a reaction cavity, the reaction cavity comprises a filler cavity (14) and a sewage cavity (15), a liquid drainage layer (3) is arranged between the filler cavity (14) and the sewage cavity (15), and the liquid drainage layer (3) penetrates through the cylindrical tank body (12);

biological reaction layer (2) is including the first biological nitrification brush (21), biological nitrification ball (22) and the biological nitrification brush (23) of second that from top to bottom set up in proper order, first biological nitrification brush (21) and the biological nitrification brush (23) of second are located the both sides of biological nitrification ball (22), biological nitrification ball (22) are located the top of liquid drainage layer (3) and with the internal face looks butt of cylinder box (12), still be provided with drainage channel (4) on anaerobic fermentation box (1), drainage channel (4) run through first biological nitrification brush (21) and cylinder box (12) and are located the top of liquid drainage layer (3), the input orientation of drainage channel (4) movable top lid body (11) set up.

2. The vertical solid particle remover for anaerobic fermentation according to claim 1, wherein: liquid drainage layer (3) include first annular drainage plate (31), second annular drainage plate (32), cross water net body (33), intake body (34) and indicate to draw water nest of tubes (35), first annular drainage plate (31) and second annular drainage plate (32) interconnect and closely install on the internal face of barrel box (12), it installs to indicate to draw water nest of tubes (35) on second annular drainage plate (32) and the output orientation collection dirt layer (13), cross water net body (33) movable mounting in on first annular drainage plate (31), intake body (34) run through barrel box (12) set up and the output orientation second annular drainage plate (32).

3. The vertical solid particle remover for anaerobic fermentation according to claim 2, wherein: an included angle exists between the second annular drainage plate (32) and the wall surface of the cylinder type box body (12), and a sealing layer is arranged at the joint of the second annular drainage plate (32) and the cylinder type box body (12) and the joint of the first annular drainage plate (31).

4. The vertical solid particle remover for anaerobic fermentation according to claim 3, wherein: the water passing net body (33) is a central stainless steel net body layer.

5. The vertical solid particle remover for anaerobic fermentation according to claim 1, wherein: the sewage collecting layer (13) comprises a sewage collecting slope (16), a sewage discharge pipeline (17) and a sewage discharge ball valve (18), the bottom end of the sewage collecting slope (16) is connected with the input end of the sewage discharge pipeline (17), the output end of the sewage discharge pipeline (17) penetrates through the cylindrical box body (12), and the sewage discharge ball valve (18) is arranged on the sewage discharge pipeline (17).

6. The vertical solid particle remover for anaerobic fermentation according to claim 5, wherein: and a drainage layer is arranged on the surface of the sewage collecting slope (16).

7. The vertical solid particle remover for anaerobic fermentation according to claim 1, wherein: the water level line of the cylindrical box body (12) and the input end of the liquid discharge channel (4) are positioned on the same horizontal plane.

Images