CN111393010A - Duck manure liquid dung supersound mechanical separation system - Google Patents

Abstract

The invention provides a duck manure liquid dung ultrasonic mechanical separation system which comprises a duck manure liquid dung ultrasonic mechanical separation system and is characterized by comprising an ultrasonic platform, a screen drum mechanism and an extrusion mechanism, wherein the ultrasonic platform comprises an ultrasonic platform feeding port and an ultrasonic platform discharging port which are respectively arranged at two ends, a moving member is arranged in the ultrasonic platform and drives duck manure to move from the ultrasonic platform feeding port to the ultrasonic platform discharging port, an ultrasonic instrument is arranged in the ultrasonic platform, the screen drum mechanism is provided with a screen drum mechanism feeding port and a screen drum mechanism discharging port which are respectively arranged at two ends, the screen drum mechanism feeding port is connected with the ultrasonic platform discharging port, the extrusion mechanism is provided with an extrusion mechanism feeding port and an extrusion mechanism discharging port which are respectively arranged at two ends, and the extrusion mechanism feeding port is connected with the screen drum mechanism discharging port. The invention has the beneficial effects that: reasonable in design, simple structure, safe and reliable can improve the physicochemical property of duck excrement, separates duck excrement and liquid dung, realizes duck excrement dehydration.

Description

Duck manure liquid dung supersound mechanical separation system

Technical Field

The invention relates to the technical field of livestock breeding equipment, in particular to a duck manure liquid dung ultrasonic mechanical separation system.

Background

Nowadays, meat duck breeding is changed from a traditional simple net breeding mode into a three-dimensional net breeding or cage breeding mode; the quantity of the large-scale farms is more and more, which also accords with the development trend of the breeding industry in China, however, with the more and more prominent environmental protection problem of waste of the breeding large-scale farms, the main problems of the large-scale breeding of meat ducks are the environmental protection treatment and resource utilization of duck manure; the premise of resource utilization of the duck manure is that the water content of the duck manure is reduced, so that the duck manure is suitable for aerobic composting fermentation, but due to the unique physical and chemical properties and large yield of the duck manure, the traditional treatment method for dehydrating other livestock manure is not suitable for the duck manure, and some high-cost treatment schemes are difficult to popularize and use.

How to solve the above technical problems is the subject of the present invention.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the ultrasonic mechanical separation system for the duck manure liquid dung, which is reasonable in design, safe, reliable, simple, efficient and low in cost.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention provides a duck manure liquid dung ultrasonic mechanical separation system which comprises an ultrasonic platform, a screen drum mechanism and an extrusion mechanism, wherein the screen drum mechanism comprises a drum body and a drum body;

the ultrasonic platform comprises an ultrasonic platform feeding port and an ultrasonic platform discharging port which are respectively arranged at two ends, a moving member is arranged in the ultrasonic platform and drives the duck manure to move from the ultrasonic platform feeding port to the ultrasonic platform discharging port, and an ultrasonic instrument is arranged in the ultrasonic platform;

the screen drum mechanism is provided with a screen drum mechanism feed port and a screen drum mechanism discharge port which are respectively positioned at two end parts, and the screen drum mechanism feed port is connected with the ultrasonic platform discharge port;

the extruding mechanism is provided with an extruding mechanism feed inlet and an extruding mechanism discharge outlet which are respectively positioned at two end parts, and the extruding mechanism feed inlet is connected with the screen drum mechanism discharge outlet.

The screen drum mechanism comprises a screen, the screen is cylindrical and is driven to rotate by a screen motor;

the screen drum mechanism comprises a screen drum frame which is rotationally connected with the screen;

an air pipe is arranged on the screen drum frame and is positioned above the screen, a plurality of air outlets are uniformly distributed on the body of the air pipe, and the end part of the air pipe is connected with an air pump;

the horizontal height of one end of the screen drum mechanism connected with the ultrasonic platform is higher than that of one end of the screen drum mechanism connected with the extrusion mechanism.

A first connecting groove is formed in the screen, is a long groove with a downward concave top surface, is positioned at the top end in the screen and is positioned right below the air outlet of the air pipe;

a main brush rod and an auxiliary brush rod are arranged inside the screen, the main brush rod and the auxiliary brush rod are parallel and closely attached to each other and are parallel to the long edge of the screen, a brush body of the main brush rod is closely attached to one side inside the screen, one end of the main brush rod is connected with a main brush rod motor, the length of bristles of the auxiliary brush rod is smaller than that of the bristles of the main brush rod, the auxiliary brush rod brush body is closely attached to the main brush rod, and one end of the auxiliary brush rod is connected with an auxiliary brush rod motor;

the bottom parts of the brush bodies of the main brush rod and the auxiliary brush rod are provided with second connecting grooves, the shape of each second connecting groove is the same as that of the first connecting groove, and the lengths of the first connecting groove and the second connecting groove are matched with the length of the screen and are parallel to the screen;

and one end of the screen close to the extrusion mechanism is connected with a discharge hole of the screen drum mechanism.

A third connecting groove is formed in the screen cylinder frame, the third connecting groove and the second connecting groove are arranged in parallel and are located below the screen, and the width of the third connecting groove is matched with the diameter of the screen;

and a sieve drum water outlet is formed in one end, close to the extrusion mechanism, of the third connecting groove.

The extrusion mechanism comprises a cylinder, one end of the cylinder is provided with a feed port of the extrusion mechanism, and the other end of the cylinder is provided with a discharge port of the extrusion mechanism;

a spiral extrusion auger is arranged in the cylinder, one end of the spiral extrusion auger is connected with a spiral extrusion auger motor, the spiral extrusion auger motor drives the spiral extrusion auger to rotate, and the duck manure at the feed inlet of the extrusion mechanism is moved to the discharge outlet of the extrusion mechanism;

the spiral extruding device is characterized in that an auger screen is further arranged in the cylinder, the auger screen is tightly attached to the spiral extruding auger, and an extruding mechanism water outlet is formed in the bottom of the cylinder wall of the cylinder.

The ultrasonic platform comprises a platform frame, the moving member is arranged on the platform frame, the moving member is an ultrasonic platform packing auger, and the end part of the ultrasonic platform packing auger is driven to rotate by an ultrasonic platform packing auger motor;

the ultrasonic platform is also provided with a plurality of ultrasonic working rods, one end of each ultrasonic working rod is positioned in the ultrasonic platform auger, and the other end of each ultrasonic working rod is positioned outside the ultrasonic platform auger and passes through the ultrasonic instrument to drive the ultrasonic instrument to work.

When the invention is actually used: duck manure enters an ultrasonic platform through an ultrasonic platform feeding port, the duck manure moves from one end of the ultrasonic platform feeding port to one end of an ultrasonic platform discharging port through an ultrasonic platform auger, an ultrasonic instrument drives an ultrasonic working rod to carry out ultrasonic treatment on the duck manure in the ultrasonic platform auger in the process, the physical and chemical properties of the duck manure are changed after the duck manure is subjected to the ultrasonic treatment, the ultrasonic treatment can locally generate a high-temperature and high-pressure environment, the environment can destroy the combination form of dry matters of the duck manure and water, and simultaneously destroy the composition form and the particle size between the dry matters, so that a zoogloea is dissolved, and the adsorbed water or the water in a capillary tube is changed into free water; the duck manure after ultrasonic treatment enters a screen drum mechanism to be subjected to differential screening dehydration, the screen can separate water in the duck manure and drop to a third receiving groove to be discharged through a screen drum water outlet, part of the duck manure positioned in the screen can fall into a second receiving groove after being brushed by a main brush rod, the duck manure positioned on the main brush rod also enters the second receiving groove after being brushed by an auxiliary brush rod, the duck manure can be effectively brushed and collected by the structure, part of blocked duck manure on meshes of the screen can be blown down to the first receiving groove through air outlet of an air pipe, and the duck manure in the first receiving groove and the second receiving groove can both slide down to enter an extrusion mechanism through a screen drum mechanism discharge port; the extrusion mechanism extrudes and filters the moisture in the duck manure again through the spiral extrusion auger, the moisture flows into the space between the cylinder and the auger screen mesh from the spiral extrusion auger and is finally discharged through a water outlet of the extrusion mechanism, and the dehydrated duck manure is discharged through a discharge hole of the extrusion mechanism at the end part of the cylinder after final treatment; this device is at first to carry out ultrasonic treatment to duck excrement, and the duck excrement after the ultrasonic treatment can filter more moisture through a sieve section of thick bamboo mechanism to guarantee that the duck excrement material that gets into extrusion mechanism is fit for doing the extrusion dehydration, finally realize the purpose that duck excrement liquid dung breaks away from.

Drawings

Fig. 1 is a front view of the present invention.

Figure 2 is a front view of an ultrasound platform of the present invention.

Figure 3 is a left side view of an ultrasound platform of the present invention.

Figure 4 is a front view of the screen cylinder mechanism of the present invention.

Figure 5 is a left side view of the screen cylinder mechanism of the present invention.

Fig. 6 is a schematic structural view of the air duct of the present invention.

Fig. 7 is a front view of the pressing mechanism of the present invention.

Wherein the reference numerals are: 1. an ultrasonic platform; 101. a feeding port of an ultrasonic platform; 102. a discharge port of the ultrasonic platform; 103. an ultrasonic instrument; 104. a platform frame; 105. an ultrasonic platform auger; 106. an ultrasonic platform auger motor; 107. an ultrasonic working rod; 2. a screen drum mechanism; 201. a feed inlet of the screen drum mechanism; 202. a discharge port of the screen drum mechanism; 203. screening a screen; 204. a screen motor; 205. a screen cylinder frame; 206. an air duct; 2061. an air outlet; 207. an air pump; 208. a first connecting groove; 209. a main brush bar; 2091. a main brush bar motor; 210. an auxiliary brush rod; 2101. an auxiliary brush rod motor; 211. a second connecting groove; 212. a third connecting groove; 213. a water outlet of the screen drum; 3. an extrusion mechanism; 301. a feed inlet of the extrusion mechanism; 302. a discharge port of the extrusion mechanism; 303. spirally extruding the packing auger; 304. a screw extrusion auger motor; 305. a screw conveyor screen mesh; 306. a cylinder; 307. and a water outlet of the extrusion mechanism.

Detailed Description

Technical characteristics of the scheme can be clearly explained, and the scheme is explained through a specific implementation mode.

Referring to fig. 1 to 7, the present embodiment is a duck manure liquid dung ultrasonic mechanical separation system, which includes an ultrasonic platform 1, a screen drum mechanism 2 and an extrusion mechanism 3;

ultrasonic platform 1 is including setting up in supersound platform feed inlet 101 and supersound platform discharge gate 102 at both ends respectively, the inside moving member that is provided with of supersound platform 1, the moving member drives duck manure and removes to supersound platform discharge gate 102 from supersound platform feed inlet 101, be provided with supersound appearance 103 in the supersound platform 1, ultrasonic platform 1 still includes platform frame 104, be provided with the moving member on platform frame 104, the moving member is supersound platform auger 105, the tip of supersound platform auger 105 passes through supersound platform auger motor 106 drive and rotates, supersound platform 1 still is provided with a plurality of supersound work poles 107, supersound work pole 107 one end all is located supersound platform auger 105, the other end is located outside supersound platform auger 105 and through supersound appearance 103.

The screen drum mechanism 2 is provided with a screen drum mechanism feed port 201 and a screen drum mechanism discharge port 202 which are respectively positioned at two end parts, the screen drum mechanism feed port 201 is connected with the ultrasonic platform discharge port 102, the screen drum mechanism 2 comprises a screen 203, the screen 203 is cylindrical, and the screen 203 is driven to rotate by a screen motor 204.

Sieve section of thick bamboo mechanism 2 includes sieve tube frame 205, and sieve tube frame 205 rotates and connects screen cloth 203, is provided with tuber pipe 206 on sieve tube frame 205, and tuber pipe 206 is located the screen cloth 203 top, and tuber pipe 206 body evenly distributed has a plurality of air outlets 2061, and the end connection of tuber pipe 206 has air pump 207, and the level of the one end that sieve section of thick bamboo mechanism 2 is connected with supersound platform 1 is higher than the one end that sieve section of thick bamboo mechanism 2 is connected with extrusion mechanism 3.

A first connecting groove 208 is arranged in the screen mesh 203, the first connecting groove 208 is a long groove with a downward concave top surface, is positioned at the top end in the screen mesh 203 and is positioned right below an air outlet 2061 of the air duct 206, a main brush rod 209 and an auxiliary brush rod 210 are arranged in the screen mesh 203, the main brush rod 209 is parallel to the auxiliary brush rod 210 and is closely attached to the long side of the screen mesh 203, a brush body of the main brush rod 209 is closely attached to one side in the screen mesh 203, one end of the main brush rod 209 is connected with a main brush rod motor 2091, the length of bristles of the auxiliary brush rod 210 is smaller than that of the main brush rod 209, the brush body of the auxiliary brush rod 210 is closely attached to the main brush rod 209, one end of the auxiliary brush rod 210 is connected with an auxiliary brush rod motor 2101, a second connecting groove 211 is arranged at the bottom of the brush bodies of the main brush rod 209 and the auxiliary brush rod 210, the shape of the second connecting groove 211 is the same as that of the first connecting groove 208, and the lengths of the first connecting groove 208 and the second, one end of the screen mesh 203 close to the extrusion mechanism 3 is connected with a discharge port 202 of the screen cylinder mechanism.

A third receiving groove 212 is formed in the screen cylinder frame 205, the third receiving groove 212 and the second receiving groove 211 are arranged in parallel and are located below the screen mesh 203, the width of the third receiving groove 212 is matched with the diameter of the screen mesh 203, and a screen cylinder water outlet 213 is formed in one end, close to the squeezing mechanism 3, of the third receiving groove 212.

The extruding mechanism 3 is provided with an extruding mechanism feed inlet 301 and an extruding mechanism discharge outlet 302 which are respectively positioned at two end parts, the extruding mechanism feed inlet 301 is connected with the screen drum mechanism discharge outlet 202, the extruding mechanism 3 comprises a drum 306, one end of the drum 306 is provided with the extruding mechanism feed inlet 301, the other end of the drum 306 is provided with the extruding mechanism discharge outlet 302, a spiral extruding auger 303 is arranged in the drum 306, one end of the spiral extruding auger 303 is connected with a spiral extruding auger motor 304, the spiral extruding auger motor 304 drives the spiral extruding auger 303 to rotate, the duck manure at the extruding mechanism feed inlet 301 is moved to the extruding mechanism discharge outlet 302, an auger screen 305 is further arranged in the drum 306, the auger screen 305 is arranged close to the spiral extruding auger 303, and an.

When the invention is actually used: duck manure enters an ultrasonic platform 1 through an ultrasonic platform feeding hole 101, the duck manure moves from one end of the ultrasonic platform feeding hole 101 to one end of an ultrasonic platform discharging hole 102 through an ultrasonic platform auger 105, an ultrasonic instrument 103 drives an ultrasonic working rod 107 to carry out ultrasonic treatment on the duck manure in the ultrasonic platform auger 105 in the process of the duck manure, the physical and chemical properties of the duck manure are changed after the ultrasonic treatment, the ultrasonic treatment can locally generate a high-temperature and high-pressure environment which can destroy the combination form of dry matters of the duck manure and water and destroy the composition form and the particle size among the dry matters, so that a zoogloea is dissolved, and the adsorbed water or the water in a capillary tube is changed into free water; the ultrasonically treated duck manure enters a screen drum mechanism 2 to be subjected to differential screening and dewatering, the screen 203 can separate water in the duck manure and drop to a third receiving groove 212 to be discharged through a screen drum water outlet 213, the duck manure part positioned in the screen 203 falls into a second receiving groove 211 after being brushed by a main brush rod 209, the duck manure positioned on the main brush rod 209 also enters the second receiving groove 211 after being brushed by an auxiliary brush rod 210, the duck manure can be effectively brushed and collected by the structure, part of duck manure blocked on meshes of the screen 203 is blown out through an air pipe 206 and falls to a first receiving groove 208, and the duck manure of the first receiving groove 208 and the second receiving groove 211 all falls to enter an extrusion mechanism 3 through a screen drum mechanism discharge port 202; the squeezing mechanism squeezes and filters the moisture in the duck manure again through the spiral squeezing auger 303, the moisture flows into the space between the cylinder 306 and the auger screen 305 from the spiral squeezing auger 303 and is finally discharged through a water outlet 307 of the squeezing mechanism, and the dehydrated duck manure after final treatment is discharged through a material outlet 302 of the squeezing mechanism at the end part of the cylinder 306; this device is at first to carry out ultrasonic treatment to duck excrement, and the duck excrement after the ultrasonic treatment can filter out more moisture through a sieve section of thick bamboo mechanism 2 to guarantee that the duck excrement material that gets into extrusion mechanism 3 is fit for doing the extrusion dehydration, finally realize the purpose that duck excrement liquid dung breaks away from.

The technical features of the present invention which are not described in the above embodiments may be implemented by or using the prior art, and are not described herein again, of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and variations, modifications, additions or substitutions which may be made by those skilled in the art within the spirit and scope of the present invention should also fall within the protection scope of the present invention.

Claims (6)

1. A duck manure liquid dung ultrasonic mechanical separation system is characterized by comprising an ultrasonic platform (1), a screen drum mechanism (2) and an extrusion mechanism (3);

the ultrasonic platform (1) comprises an ultrasonic platform feeding hole (101) and an ultrasonic platform discharging hole (102) which are respectively arranged at two ends, a moving member is arranged in the ultrasonic platform (1), the moving member drives duck manure to move from the ultrasonic platform feeding hole (101) to the ultrasonic platform discharging hole (102), and an ultrasonic instrument (103) is arranged in the ultrasonic platform (1);

the screen drum mechanism (2) is provided with a screen drum mechanism feed port (201) and a screen drum mechanism discharge port (202) which are respectively positioned at two end parts, and the screen drum mechanism feed port (201) is connected with the ultrasonic platform discharge port (102);

the extruding mechanism (3) is provided with an extruding mechanism feeding hole (301) and an extruding mechanism discharging hole (302) which are respectively positioned at two end parts, and the extruding mechanism feeding hole (301) is connected with the screen drum mechanism discharging hole (202).

2. The ultrasonic mechanical separation system for duck manure and water as claimed in claim 1, wherein the screen drum mechanism (2) comprises a screen (203), the screen (203) is cylindrical, and the screen (203) is driven to rotate by a screen motor (204);

the screen drum mechanism (2) comprises a screen drum frame (205), and the screen drum frame (205) is rotatably connected with the screen (203);

an air pipe (206) is arranged on the screen cylinder frame (205), the air pipe (206) is positioned above the screen (203), a plurality of air outlets (2061) are uniformly distributed on the pipe body of the air pipe (206), and the end part of the air pipe (206) is connected with an air pump (207);

the horizontal height of one end of the sieve drum mechanism (2) connected with the ultrasonic platform (1) is higher than that of one end of the sieve drum mechanism (2) connected with the extrusion mechanism (3).

3. The ultrasonic mechanical separation system for duck manure wastewater as claimed in claim 2, wherein a first connecting groove (208) is arranged inside the screen (203), and the first connecting groove (208) is a long groove with a downward-concave top surface, is positioned at the top end inside the screen (203), and is positioned right below the air outlet (2061) of the air pipe (206);

a main brush rod (209) and an auxiliary brush rod (210) are arranged inside the screen (203), the main brush rod (209) and the auxiliary brush rod (210) are parallel and closely attached to each other and are parallel to the long side of the screen (203), a brush body of the main brush rod (209) is closely attached to one side inside the screen (203), a main brush rod motor (2091) is connected to one end of the main brush rod (209), the length of bristles of the auxiliary brush rod (210) is smaller than that of the bristles of the main brush rod (209), a brush body of the auxiliary brush rod (210) is closely attached to the main brush rod (209), and an auxiliary brush rod motor (2101) is connected to one end of the auxiliary brush rod (210);

the bottoms of the brush bodies of the main brush rod (209) and the auxiliary brush rod (210) are provided with second connecting grooves (211), the shapes of the second connecting grooves (211) are the same as those of the first connecting grooves (208), and the lengths of the first connecting grooves (208) and the second connecting grooves (211) are matched with the length of the screen (203) and are parallel to the screen (203);

one end of the screen (203) close to the extrusion mechanism (3) is connected with the discharge hole (202) of the screen drum mechanism.

4. The ultrasonic mechanical separation system for duck manure wastewater as claimed in claim 3, wherein a third receiving groove (212) is arranged on the screen cylinder frame (205), the third receiving groove (212) is arranged in parallel with the second receiving groove (211) and is positioned below the screen (203), and the width of the third receiving groove (212) is matched with the diameter of the screen (203);

one end of the third connecting groove (212) close to the extrusion mechanism (3) is provided with a sieve drum water outlet (213).

5. The ultrasonic mechanical separation system for duck manure and liquid manure of claim 1, wherein the extrusion mechanism (3) comprises a cylinder (306), one end of the cylinder (306) is provided with the extrusion mechanism inlet (301), and the other end is provided with the extrusion mechanism outlet (302);

a spiral extrusion auger (303) is arranged in the cylinder (306), one end of the spiral extrusion auger (303) is connected with a spiral extrusion auger motor (304), the spiral extrusion auger motor (304) drives the spiral extrusion auger (303) to rotate, and the duck manure at the position of the feed port (301) of the extrusion mechanism is moved to the discharge port (302) of the extrusion mechanism;

still be provided with auger screen cloth (305) in drum (306), auger screen cloth (305) hug closely spiral extrusion auger (303) set up, drum (306) section of thick bamboo wall bottom is provided with extrusion mechanism delivery port (307).

6. The ultrasonic mechanical separation system for duck manure and liquid dung of claim 1, wherein the ultrasonic platform (1) comprises a platform frame (104), the platform frame (104) is provided with the moving member, the moving member is an ultrasonic platform packing auger (105), and the end part of the ultrasonic platform packing auger (105) is driven to rotate by an ultrasonic platform packing auger motor (106);

supersound platform (1) still is provided with a plurality of supersound work bars (107), supersound work bar (107) one end all is located in supersound platform auger (105), the other end is located supersound platform auger (105) are outer and pass through supersound appearance (103) drive work.

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