CN212035354U

CN212035354U - Green's planting is bred and is synthesized circulation system

Info

Publication number: CN212035354U
Application number: CN202020311140.1U
Authority: CN
Inventors: 刘伟雄
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-03-13
Filing date: 2020-03-13
Publication date: 2020-12-01
Anticipated expiration: 2030-03-13

Abstract

The utility model discloses a green's planting is bred and is synthesized circulation system, include: the cultivation cage comprises a lifting chassis, a cultivation cage body and a planting pot, wherein the cultivation cage body is arranged above the lifting chassis through a support, and the planting pot is arranged on the support; the lift chassis includes: a lifting frame and a chassis; the chassis is arranged on the lifting frame, and a feeding chute and a discharging chute are arranged on the chassis; a feed inlet is arranged on the feed chute, and a discharge outlet is arranged on the discharge chute; breed the cage body and include: a cage frame and a rotating bottom grid; the rotating bottom grid is arranged at the bottom of the cage frame and is connected with the first motor; the cage frame is arranged above the chassis; and a lifting cage door is arranged on the cage frame and is connected with a second motor. The utility model discloses can be automatic and the efficient clearance animal waste, the animal waste through the processing can enough place feed inlet well cycle use with sawdust drier medium, can regard as the fertilizer of planting the potted plant again.

Description

Green's planting is bred and is synthesized circulation system

Technical Field

The utility model relates to a plant and breed the field, specifically a green's planting is bred and is synthesized circulation system.

Background

With the development of large-scale agriculture, the planting industry and the breeding industry are gradually separated, on one hand, the planting industry uses a large amount of chemical fertilizer and pesticide to pollute the environment, waste resources and destroy cultivated lands, and on the other hand, a large amount of breeding wastes are randomly discarded to cause serious agricultural non-point source pollution. The agricultural development mode of separated breeding industry, high investment, high emission and low quality will eventually enter the dead end.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects of the prior art and providing a comprehensive planting and breeding circulation system which can integrate green, convenient and harmless treatment.

The utility model discloses a realize through following technique:

the utility model provides a green's planting is bred and is synthesized circulation system, includes: the cultivation cage comprises a lifting chassis, a cultivation cage body and a planting pot, wherein the cultivation cage body is arranged above the lifting chassis through a support, and the planting pot is arranged on the support;

the lift chassis includes: a lifting frame and a chassis; the chassis is arranged on the lifting frame, and a feeding chute and a discharging chute are arranged on the chassis;

a feed inlet is formed in the end face of the feed groove, a motor box is arranged on the side face of the feed groove, a feed auger and a feed inclined plate are arranged in the feed groove, and the motor box is connected with the feed auger; the feeding inclined plate inclines towards the feeding auger, the medium entering from the feeding hole is guided to the feeding auger, and the motor box drives the feeding auger to rotate, so that the feeding auger paves the medium;

a discharge port is formed in the side face of the discharge chute, a motor III is arranged on the side face of the discharge chute, a discharge auger and a guide plate are arranged in the discharge chute, the discharge auger extends to the discharge port, and the motor III is connected with the discharge auger; the material guide plate guides the medium to the periphery of the discharge auger, and the motor III drives the discharge auger to rotate, smashes the medium and conveys the crushed medium to the discharge hole;

the lower parts of the feeding auger and the discharging auger are respectively provided with a roller, wherein the roller on one side is connected with a motor IV, and the motor IV drives the rollers to rotate; the belt is wound on the outer sides of the two rolling shafts, and the inclined feeding plate and the material guide plate are both in contact with the belt, so that the entered medium cannot fall onto the chassis; a supporting plate is arranged between the upper belt and the lower belt to prevent the medium from falling due to overweight; the motor drives the rolling shafts to rotate, the belt rotates around the two rolling shafts along with the rotation of the rolling shafts, and the medium paved by the feeding auger is conveyed to the discharging auger;

a dry material fermentation tank and a hydrogen-oxygen separation type water electrolysis device are also arranged on the chassis, and the medium discharged from the discharge hole can enter the dry material fermentation tank for fermentation; hydrogen generated by water electrolysis of the hydrogen-oxygen separation type water electrolysis device is used for preparing hydrogen-rich water for planting and breeding, and the generated oxygen enters the dry material fermentation tank to promote medium fermentation in the dry material fermentation tank; the fermented medium can be recycled;

breed the cage body and include: a cage frame and a rotating bottom grid; the rotating bottom grate comprises: a rotating shaft and a transmission grid; the rotating shafts are uniformly arranged on the transmission grid and are transmitted through gears;

the rotating bottom grid is arranged at the bottom of the cage frame, the cage frame is connected with the lifting frame through a bracket, and the cage frame is arranged above the chassis; the rotating bottom grid is connected with a first motor, and the first motor drives a circular tube on the rotating bottom grid to rotate through a gear; a lifting cage door is arranged on the cage frame and is connected with a second motor through a screw rod, and the second motor drives the screw rod to rotate so that the lifting cage door moves on the screw rod; the upper end of the cage frame is provided with a door grid which can be used for the large pet to go in and out; a food trough and a water trough are arranged in the cage frame.

The utility model discloses a use method is:

putting the sawdust dry material medium with the mixed strain into a feeding groove from a feeding hole, guiding the sawdust dry material medium onto a feeding auger through a feeding inclined plate, driving the feeding auger to rotate by a motor box, and paving the sawdust dry material medium on a belt;

the motor drives the rolling shaft to rotate, so that the sawdust dry material medium moves towards the discharge chute, the lifting frame moves at the moment, the base plate is lifted, the sawdust dry material medium is contacted with the rotating bottom grid, the motor drives the circular tube on the rotating bottom grid to rotate, and the excrement attached to the circular tube is contacted with the sawdust dry material medium, rubbed and dropped into the sawdust dry material medium;

the guide plate guides the sawdust dry material medium to the periphery of the discharge auger, the motor III drives the discharge auger to rotate, the sawdust dry material medium is crushed and is conveyed to a dry material fermentation tank through a discharge port;

electrolyzing water by using a hydrogen-oxygen separation type water electrolysis device to generate oxygen, conveying the oxygen into a dry material fermentation tank, and fermenting sawdust dry material medium with mixed strains and excrement in the dry material fermentation tank until fermentation is finished; the fermented sawdust dry medium can be recycled and can also be used as an organic fertilizer.

The utility model has the advantages that:

1. the rotating bottom grid is matched with the chassis for use, so that the animal excrement can be automatically and efficiently cleaned;

2. the dry material fermentation tank is used, so that the animal manure can be treated in an environment-friendly manner;

3. the treated animal waste and sawdust dry material medium can be placed in a feed inlet for recycling, and can also be used as fertilizer for planting pot plants;

4. hydrogen that hydrogen-oxygen disconnect-type electrolytic water device electrolysis water produced is used for making hydrogen-rich water planting and breeding, and the oxygen that produces enters into the drier fermentation jar, promotes the medium fermentation in the drier fermentation jar.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the present invention.

Fig. 3 is a third schematic structural diagram of the present invention.

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

Fig. 5 is a schematic structural diagram of the chassis of the present invention.

Fig. 6 is a schematic structural view of the rotary bottom grid of the present invention.

Fig. 7 is a schematic structural view of the lifting frame of the present invention.

Reference signs mean: 1. lifting the chassis; 101. a lifting frame; 102. a chassis; 103. a feed chute; 104. a feed inlet; 105. a motor case; 106. feeding the auger; 107. a feeding inclined plate; 108. a discharge chute; 109. a discharge port; 110. a third motor; 111. discharging auger; 112. a material guide plate; 113. a roller; 114. a belt; 115. a support plate; 2. a breeding cage body; 201. a cage frame; 202. rotating the bottom grid; 203. a first motor; 204. a cage door; 205. a second motor; 206. a screw rod; 207. a door grid; 208. a trough; 209. a water tank; 3. and (5) planting a pot.

Detailed Description

In order to make the technical solution, objects and advantages of the present invention more apparent, the present invention will be further explained with reference to the accompanying drawings and embodiments.

As shown in fig. 1-7, a green and environment-friendly planting and breeding integrated circulation system comprises: the cultivation cage comprises a lifting chassis 1, a cultivation cage body 2 and a planting pot 3, wherein the cultivation cage body 2 is arranged above the lifting chassis 1 through a support, and the planting pot 3 is arranged on the support;

the lifting chassis 1 comprises: a crane 101 and a chassis 102; the chassis 102 is arranged on the top end of the lifting frame 101 through a bracket, and a feed chute 103 and a discharge chute 108 are arranged on the chassis 102;

a feed inlet 104 is arranged on the end face of the feed tank 103, a motor box 105 is arranged on the side face of the feed tank 103, a feed packing auger 106 and a feed sloping plate 107 are arranged in the feed tank 103, and an output shaft of the motor box 105 is connected with the feed packing auger 106; the feeding inclined plate 107 inclines towards the feeding auger 106, the sawdust dry material medium with the mixed strains entering from the feeding port 104 is guided to the feeding auger 106, and the motor box 105 drives the feeding auger 106 to rotate, so that the sawdust dry material medium is paved by the feeding auger 106;

a discharge port 109 is arranged on the side surface of the discharge chute 108, a motor III 110 is arranged on the side surface of the discharge chute 108, a discharge packing auger 111 and a material guide plate 112 are arranged in the discharge chute 108, the discharge packing auger 111 extends to the discharge port 109, and the motor III 110 is connected with the discharge packing auger 111; the guide plate 112 guides the sawdust dry material medium to the periphery of the discharge auger 111, the motor III 110 drives the discharge auger 111 to rotate, the sawdust dry material medium is crushed and conveyed to the discharge port 109;

the lower parts of the feeding auger 106 and the discharging auger 111 are both provided with a roller 113, wherein the roller 113 at one side is connected with a motor IV (not marked in the figure), and the motor IV drives the roller 113 to rotate; a belt 114 is wound on the outer sides of the two rollers 113, and the feeding inclined plate 107 and the material guide plate 112 are both in contact with the belt 114, so that the entering sawdust dry material medium cannot fall onto the chassis 102; a supporting plate 115 is arranged between the upper belt 114 and the lower belt 114 to prevent the sawdust dry material medium from falling due to overweight; the motor drives the roller 113 to rotate, the belt 114 rotates around the two rollers 114 along with the rotation of the roller 113, and sawdust dry material medium paved by the feeding auger 106 is conveyed into the discharging auger 111;

a dry material fermentation tank (not shown in the figure) and an oxygen-hydrogen separation type electrolytic water device (not shown in the figure) are also arranged on the chassis 102, and the sawdust dry material medium from the discharge hole 109 enters the dry material fermentation tank for fermentation; hydrogen generated by water electrolysis of the hydrogen-oxygen separation type water electrolysis device is used for preparing hydrogen-rich water for planting and breeding, and the generated oxygen enters the dry material fermentation tank to promote medium fermentation in the dry material fermentation tank; the fermented medium can be recycled;

breed cage body 2 includes: a cage frame 201 and a rotating bottom grid 202; the rotating bottom grate comprises: a rotating shaft and a transmission grid; the rotating shafts are uniformly arranged on the transmission grid and are transmitted through gears;

the rotating bottom grid 202 is arranged at the bottom of the cage frame 201, the cage frame 201 is connected with the lifting frame 101 through a bracket, and the cage frame 201 is arranged above the chassis 102; the rotating bottom grate 202 is connected with a first motor 203, and the first motor 203 drives a circular tube on the rotating bottom grate 202 to rotate through the cooperation of a worm and a gear; a lifting cage door 204 is arranged on the cage frame 201, the lifting cage door 204 is connected with a second motor 205 through a screw rod 206, and the second motor 205 drives the screw rod 206 to rotate, so that the lifting cage door 204 moves on the screw rod 206; the upper end of the cage frame 201 is provided with a door grid 207 which can be used for the large pet to go in and out; a trough 208 and a trough 209 are provided in the cage frame 201.

Putting the sawdust dry material medium with the mixed strains into a feeding groove 103 from a feeding hole 104, guiding the sawdust dry material medium to a feeding packing auger 106 through a feeding inclined plate 107, driving the feeding packing auger 106 to rotate by a motor box 105, and spreading the sawdust dry material medium on a belt 114;

the motor four drives the rolling shaft 113 to rotate, so that the sawdust dry material medium moves towards the direction of the discharge chute 108, the lifting frame 101 moves to lift the base plate 102, the sawdust dry material medium is in contact with the rotating bottom grid 202, the motor one 203 drives the round pipe on the rotating bottom grid 202 to rotate in the direction opposite to the rotating direction of the rolling shaft, and the excrement attached to the round pipe is in contact with and rubs against the sawdust dry material medium and falls into the sawdust dry material medium;

the guide plate 112 guides the sawdust dry material medium to the periphery of the discharge auger 111, the motor III 110 drives the discharge auger 111 to rotate, the sawdust dry material medium is crushed and is conveyed to the dry material fermentation tank through the discharge hole 109;

The above is only the preferred embodiment of the present invention, and to the technical personnel in the technical field, without departing from the present invention, the embodiment can still be modified, and the corresponding modification should also be regarded as the protection scope of the present invention.

Claims

1. The utility model provides a green's planting is bred and is synthesized circulation system, includes: the cultivation cage comprises a lifting chassis, a cultivation cage body and a planting pot, wherein the cultivation cage body is arranged above the lifting chassis through a support, and the planting pot is arranged on the support; the method is characterized in that:

the lifting chassis comprises: a lifting frame and a chassis; the chassis is arranged on the lifting frame, and a feeding groove and a discharging groove are arranged on the chassis; a feed inlet is arranged on the feed chute, and a discharge outlet is arranged on the discharge chute;

breed the cage body and include: a cage frame and a rotating bottom grid; the rotating bottom grid is arranged at the bottom of the cage frame and is connected with the first motor; the cage frame is arranged above the chassis; a lifting cage door is arranged on the cage frame and is connected with a second motor; a trough and a water tank are arranged in the cage frame.

2. The environment-friendly planting and breeding integrated circulation system of claim 1, wherein: the base plate is provided with a dry material fermentation tank, and the dry material fermentation tank is connected with a discharge hole.

3. The environment-friendly planting and breeding integrated circulation system of claim 2, wherein: and the base plate is provided with a hydrogen-oxygen separation type water electrolysis device which is connected with the dry material fermentation tank.

4. The environment-friendly integrated circulation system for planting and breeding as claimed in any one of claims 1 to 3, wherein: a feeding auger is arranged in the feeding groove and is connected with a motor box; and a discharging auger is arranged in the discharging groove and is connected with a motor III.

5. The environment-friendly planting and breeding integrated circulation system of claim 4, wherein: the lower parts of the feeding auger and the discharging auger are respectively provided with a roller, the rollers are connected through a belt, and the rollers are connected with a motor IV.

6. The environment-friendly planting and breeding integrated circulation system of claim 5, wherein: the feeding chute is internally provided with a feeding inclined plate, the discharge chute is internally provided with a material guide plate, and the feeding inclined plate and the material guide plate are both in contact with the belt.

7. The environment-friendly planting and breeding integrated circulation system of claim 5 or 6, wherein: the middle of the belt is provided with a supporting plate.

8. The environment-friendly planting and breeding integrated circulation system of claim 1, wherein: the upper end of the cage frame is provided with a door grid.

9. The environment-friendly planting and breeding integrated circulation system of claim 1, wherein: the rotating bottom gate includes: a rotating shaft and a transmission grid; the rotating shafts are uniformly arranged on the transmission grid and are in transmission through gears.