CN210124200U

CN210124200U - Fermentation bed turns over harrow machine

Info

Publication number: CN210124200U
Application number: CN201920583287.3U
Authority: CN
Inventors: 陈建新
Original assignee: Xingan Hongli Ceramic Machinery Co Ltd
Current assignee: Xingan Hongli Ceramic Machinery Co Ltd
Priority date: 2019-04-26
Filing date: 2019-04-26
Publication date: 2020-03-06
Anticipated expiration: 2029-04-26

Abstract

The utility model provides a fermentation bed turns over harrow machine, including frame and rotary blade, the frame is by left triangle-shaped board, well triangle-shaped board, constitute such as right triangle-shaped board, in, left side triangle-shaped board, in, it has the harrow axle to cross in proper order to have spanned between the right triangle-shaped board respectively, differential mechanism and semi-axis, differential mechanism is connected with cycloid needle speed reducer through the input shaft transmission, it is provided with the rotary blade to turn over the harrow epaxial, a left side, it is provided with the transmission roller bearing to span between well and the right triangle-shaped board upper portion, driven roller bearing, pass, the same one side that driven roller bearing is close to well triangle-shaped board is provided with drive gear, be provided with walking driving motor on the well triangle-shaped board, a left side, pulley guide rail sliding connection on the mounting bracket in the right triangle-shaped board. The utility model discloses a turn over harrow machine easy operation, degree of automation is high, and job stabilization is fit for scale, automatic breed to be favorable to the aerobic fermentation of fermentation bed bacterial.

Description

Fermentation bed turns over harrow machine

Technical Field

The utility model belongs to the technical field of the breed machinery, concretely relates to fermentation bed turns over harrow machine.

Background

In recent years, with the development of economy and the improvement of living standard, the breeding industry develops rapidly, and the production capacity is greatly improved. The problem of environmental pollution is increasingly serious due to the continuous improvement of the scale degree of livestock breeding, and serious economic loss is brought to the society. The ectopic fermentation bed effectively solves the contradiction between the development of scale cultivation and the protection of ecological environment, and realizes the healthy and environment-friendly cultivation of livestock and poultry.

In the actual operation process, the rake-turning machine is widely used for fermentation treatment of excrement of raised poultry and animals, and the technology for producing organic fertilizer is to utilize the fermentation action of microorganisms to treat the excrement by adjusting the carbon-oxygen ratio in the excrement of poultry and animals and manually controlling the conditions of moisture, temperature, pH value and the like to produce organic fertilizer. However, the existing rake-turning machine adopts a single driving device, the single driving device simultaneously drives the rake-turning mechanism to turn over and the rake-turning mechanism to advance, the rake-turning machine can achieve the effect of turning over the rake material, but the driving device of the rake-turning machine has overlarge load and is easy to damage, in addition, when the rake material is turned over, the material may be caked and piled together, when the rake-turning mechanism turns over the rake, the resistance required to be overcome by the rake-turning mechanism to turn over the rake material is large, while the power provided by the common driving device is small, the rake-turning mechanism cannot achieve the effect of turning over the rake material, in addition, when a certain part of the material is caked seriously, the rake-turning mechanism cannot turn over the rake, the rotating speeds of rotary blades of the two rake-turning shafts are easy to be different, so that the rake-turning mechanism is jammed, and the rest part of the material cannot be turned over the rake, moreover, the existing rake-turning machine can not turn over the rake to the fermentation bed between the two sides of the rake-turning machine and the supporting wall, and the rake is turned over manually in the later period, so that the waste of manpower and material resources is caused.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects of the prior art, the fermentation bed rake-turning machine is provided to solve the problems.

The fermentation bed rake-turning machine comprises a frame and rotary blades, wherein the frame consists of a left triangular plate, a middle triangular plate, a right triangular plate, a main frame and a transverse plate, the left triangular plate, the middle triangular plate and the right triangular plate are arranged into three inverted triangular plates and are respectively positioned at the left position, the middle position and the right position of the main frame, a rake-turning shaft, a locking differential mechanism and a half shaft are sequentially arranged between the middle triangular plate and the left triangular plate and between the middle triangular plate and the right triangular plate in a spanning mode respectively, the rake-turning shaft and the half shaft are in transmission connection with the output end of the locking differential mechanism, the locking differential mechanism is in transmission connection with a cycloid needle speed reducer through an input shaft, the cycloid needle speed reducers are respectively arranged at the two ends of the upper part of the frame, the rotary blades are arranged on the rake-turning shaft, the rotary blades are provided with a plurality of blades and are arranged on the surface of the rake-, the transmission roller shaft and the driven roller shaft are arranged in the same horizontal plane in a crossing mode between the upper portions of the left triangular plate, the middle triangular plate and the right triangular plate, rubber wheels rolling along a fermentation tank are arranged at the end portions of the two ends of the transmission roller shaft and the driven roller shaft, a transmission gear is arranged on the same side, close to the middle triangular plate, of the transmission roller shaft and the driven roller shaft, a walking driving motor is arranged on the middle triangular plate, an output end transmission chain of the walking driving motor is meshed with the two transmission gears and is connected with the two transmission gears to control the raking machine to advance, rotary blades pi are arranged on the outer sides of the left triangular plate and the right triangular plate respectively, the rotary blades pi are in transmission connection with a half shaft, mounting frames are welded on the outer sides of the left triangular plate and the right triangular plate respectively, and pulley guide rails in, the lifting platform is characterized in that the pulley guide rail is connected with a lifting platform through a pulley in a sliding manner, the upper portion of the lifting platform is connected to a winch through a steel wire rope, the height of the lifting platform is controlled by the winch through the steel wire rope, a manure pumping pump and a stirring motor are mounted on the lifting platform, the manure pumping pump is connected with a spraying system, and a control cabinet is arranged in the middle of the upper portion of the rack.

As a further improvement of the above scheme, the spraying system comprises a connecting pipeline and a plurality of spray heads, one end of the connecting pipeline is connected to the output end of the excrement pump, the connecting pipeline is arranged at the front end of the rack, the spray heads are arranged on the connecting pipeline, and the spray heads face the rotary tillage cutters.

As a further improvement of the scheme, the output end of the stirring motor is connected with a stirring paddle.

As a further improvement of the scheme, the rotary tillage blades are arranged at intervals of 12 centimeters in pairs and staggered at an angle of 60 degrees.

As a further improvement of the above scheme, the rotary tillage cutter comprises a long rod and a short rod, the shape of the rotary tillage cutter is L-shaped, one side of the short rod is integrally provided with a sharp edge in a blade shape, the orientation of the sharp edge is consistent with the rotation direction of the rotary tillage cutter, and the sharp edge extends from one end of one side of the short rod to the other end.

As a further improvement of the scheme, the rotary blade pi is formed by reversely welding two rotary blades and is connected with the locking differential mechanism through a rotating shaft.

As a further improvement of the scheme, the control cabinet is connected with a cycloidal needle speed reducer, a walking driving motor, a feces pumping pump, a stirring motor and a winch through cables, and is connected with an external power supply through cables.

As a further improvement of the scheme, the locking differential mechanism is welded on the inner sides of the left triangular plate and the right triangular plate through fixing brackets.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a fermentation bed turns over harrow machine, will turn over the upset action of harrow mechanism and move the action separately, drive by different power device respectively, the load of each power device diminishes, is provided with the walking driving motor, and the walking driving motor is used for driving the advancing of turning over the harrow mechanism, realizes that a motor drives four rubber tyers and advances the purpose;

2. two thickening shafts are arranged at two concentric ends, the left end and the right end are respectively driven by a cycloidal needle speed reducer through a locking differential mechanism, torque force is transmitted through an input shaft, the torque can be stably transmitted, the jaw of a planetary gear driven by the locking differential mechanism is welded by a welding block, so that the rake turnover machine can only work in a linear direction, and even if one part of the rake turnover shaft is subjected to large resistance when being turned over and is difficult to turn over, the other part of the rake turnover shaft cannot be influenced and can still work to turn over, and according to the torque sharing characteristic of the locking differential mechanism, the two shafts of the rake turnover shaft rotate at different rotating speeds;

3. in the process of pumping the excrement liquid by the excrement pump, the stirring paddle connected with the output end of the stirring motor rotates at a constant speed for stirring to uniformly mix the excrement liquid with the padding, the excrement liquid is pumped to the connecting pipeline by the excrement pump and then is sprayed to the materials by the plurality of spray heads on the connecting pipeline, so that automatic excrement splashing is realized, and the time for manually splashing the excrement is greatly saved;

4. the outer sides of the left triangular plate and the right triangular plate are respectively provided with a lifting platform which is lifted in the pulley guide rail through a pulley, the lifting platform is lifted and positioned through a winch steel wire rope of a winch, and when the rake-turning machine works, a manure pumping pump and a stirring paddle on one side are generally only needed to be used, and the manure pumping pump and the stirring paddle on the other side can be lifted along with the lifting platform, so that one machine is used for a plurality of fermentation beds;

5. the outer sides of the left triangular plate and the right triangular plate are respectively provided with a rotary tillage knife pi which can turn over the fermentation bed between the harrow turning mechanism and the supporting wall body, so that the harrow of the fermentation bed is more uniform.

Drawings

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

FIG. 2 is a schematic view of the rotary blade of the present invention;

FIG. 3 is a schematic structural view of the locking differential of the present invention;

in the figure, 1, a frame; 2. a left triangular plate; 3. a middle triangular plate; 4. a right triangular plate; 5. a main frame; 6. a transverse plate; 7. turning over a rake shaft; 71. a half shaft; 8. a rotary blade; 81. a long rod; 82. a short bar; 821. a sharp edge; 9. a drive roller; 10. a driven roller; 11. a rubber wheel; 12. a transmission gear; 13. a travel driving motor; 14. a cycloidal needle speed reducer; 15. a lifting platform; 16. a stirring motor; 17. a control cabinet; 18. a stirring paddle; 19. a manure pump; 20. connecting a pipeline; 21. a spray head; 22. a rotary tillage cutter is n; 23. a locking differential; 231. a planetary gear; 232. welding the blocks; 24. a pulley guide rail; 241. a pulley; 25. a wire rope; 26. a winch; 27. and fixing the bracket.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

As shown in fig. 1-2, a fermentation bed rake-turning machine, comprises a frame 1 and a rotary blade 8, wherein the frame 1 is composed of a left triangular plate 2, a middle triangular plate 3, a right triangular plate 4, a main frame 5 and a transverse plate 6, the left triangular plate 2, the middle triangular plate 3 and the right triangular plate 4 are set as three inverted triangular plates and are respectively located at the left, middle and right positions of the main frame 5, the middle triangular plate 3 and the left triangular plate 2, the middle triangular plate 3 and the right triangular plate 4 are respectively and sequentially spanned with a rake-turning shaft 7, a locking differential 23 and a half shaft 71, the rake-turning shaft 7 and the half shaft 71 are in transmission connection with the output end of the locking differential 23, the locking differential 23 is connected with a cycloidal pin speed reducer 14 through the transmission of an input shaft, the cycloidal pin speed reducer 14 is respectively arranged at both ends of the upper part of the frame 1, the rotary tillage cutter is characterized in that a rotary tillage cutter 8 is arranged on the harrow turning shaft 7, the rotary tillage cutter 8 is provided with a plurality of rotary tillage cutters which are arranged on the surface of the harrow turning shaft 7 in a staggered manner, a transmission roller 9 and a driven roller 10 are arranged between the upper parts of a left triangular plate 2, a middle triangular plate 3 and a right triangular plate 4 in a spanning manner, the transmission roller 9 and the driven roller 10 are arranged in the same horizontal plane in parallel, rubber wheels 11 rolling along a fermentation tank are arranged at the end parts of the two ends of the transmission roller 9 and the driven roller 10, a transmission gear 12 is arranged on the same side of the middle triangular plate 3 close to the transmission roller 9 and the driven roller 10, a walking driving motor 13 is arranged on the middle triangular plate 3, an output end transmission chain of the walking driving motor 13 is meshed with the two transmission gears 12 to be connected so as to control the harrow turning machine to advance, rotary tillage cutters pi 22 are, rotary blade pi 22 transmission is connected in semi-axis 71, the mounting bracket has been welded respectively in the left side triangle-shaped board 2 and the 4 outsides of right triangle-shaped board, the welding has the pulley guide rail 24 of vertical direction on the mounting bracket, pulley guide rail 24 has lift platform 15 through pulley 241 sliding connection, 15 upper portions of lift platform are passed through wire rope 25 and are connected in hoist engine 26, hoist engine 26 controls lift platform 15's height through hoist wire rope 25, lift platform 15 is last to install pump for withdrawing excrement pump 19 and agitator motor 16, pump for withdrawing excrement pump 19 is connected with spray system, 1 upper portion middle part of frame is equipped with switch board 17.

In this embodiment, the spraying system includes connecting tube 20 and a plurality of shower nozzle 21, connecting tube 20 one end is connected in the 19 output ends of pump for pumping manure, connecting tube 20 sets up in frame 1 front end, a plurality of shower nozzles 21 set up on connecting tube 20, shower nozzle 21 orientation rotary blade 8.

In this embodiment, the output end of the stirring motor 16 is connected to a stirring paddle 18.

In this embodiment, the rotary tillage blades 8 are spaced 12 cm apart from each other and staggered at an angle of 60 degrees.

In this embodiment, the rotary blade 8 includes a long rod 81 and a short rod 82, the shape of the rotary blade 8 is L-shaped, a blade-shaped sharp edge 821 is integrally arranged on one side of the short rod 82, the direction of the sharp edge 821 is consistent with the rotation direction of the rotary blade 8, and the sharp edge 821 extends from one end of one side of the short rod 82 to the other end.

In this embodiment, the rotary blade Π 22 is formed by reversely welding two rotary blades 8.

In this embodiment, the control cabinet 17 is connected to a cycloidal needle speed reducer 14, a travel driving motor 13, a feces pump 19, a stirring motor 16 and a winch 26 through cables, and the control cabinet 17 is connected to an external power supply through cables.

In this embodiment, the locking differential 23 is welded to the inner sides of the left and right triangular plates 2 and 4 via a fixing bracket 231.

The working process is as follows: the rubber wheels 11 of the transmission roller 9 and the driven roller 10 are placed on the supporting wall, the transmission roller 9 and the driven roller 10 are driven to rotate by the walking driving motor 13, the cycloidal pin speed reducer 14 drives the rake overturning shaft 7 to rotate by the locking differential 23, and then drives the rotary blade 8 arranged on the rake overturning shaft 7 to rotate, so that the effect of the rake overturning fermentation bed cushion is achieved. When the rake-turning mechanism turns over the rake, the manure pump 19 and the stirring motor 16 are started, and the manure liquid is sprayed on the mat layer of the turned fermentation bed through the spraying system, so that the mat layer of the fermentation bed can be fully mixed with the manure liquid and has enough oxygen for fermentation, and the fermentation bed can be healthily and sustainably used.

The utility model discloses a fermentation bed turns over harrow machine, will turn over the upset action of harrow mechanism and move the action separately, drive by different power device respectively, the load of each power device diminishes, is provided with walking driving motor 13, walking driving motor 13 is used for driving the marching of turning over the harrow mechanism, realize the purpose that four rubber tyers 11 of a motor drive march; two rake overturning shafts 7 are arranged at two concentric ends, the left end and the right end are respectively driven by a cycloidal pin speed reducer 14 through a locking differential 23, torque force is transmitted through an input shaft, the transmission torque can be ensured to be stable, the jaw of a planetary gear 231 of the locking differential 23 is welded by a welding block 232, so that the rake overturning machine can only work in the linear direction, and even if one part of the rake overturning shafts 7 is subjected to large resistance when overturned and is difficult to overturn, the other part of the rake overturning shafts can not be influenced and still can work to overturn, and the two shafts of the rake overturning shafts 7 rotate at different rotating speeds according to the torque sharing characteristic of the locking differential 23; in the process of pumping the excrement liquid by the excrement pump 19, the stirring paddle 18 connected with the output end of the stirring motor 16 rotates at a constant speed for stirring, the excrement liquid and the padding are uniformly mixed, the excrement liquid is pumped to the connecting pipeline 20 by the excrement pump 19 and then is sprayed to the materials by the plurality of spray heads 21 on the connecting pipeline 20, automatic excrement splashing is realized, and the time for manually splashing the excrement is greatly saved; the outer sides of the left triangular plate 2 and the right triangular plate 4 are respectively provided with a lifting platform 15 which is lifted in a pulley guide rail 24 through a pulley 241, the lifting platform 15 is lifted and positioned by contracting or lengthening a steel wire rope 25 through a winch 26, and when the harrow turning machine is operated, the excrement pump 19 and the stirring paddle 18 on one side are generally only needed to be used, and the excrement pump 19 and the stirring paddle 18 on the other side can be lifted along with the lifting platform 15, so that one machine is used for a plurality of fermentation beds; the outer sides of the left triangular plate 2 and the right triangular plate 4 are respectively provided with a rotary tillage knife II 22 which can turn over the fermentation bed between the harrow turning mechanism and the supporting wall body, so that the harrow of the fermentation bed is more uniform.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a fermentation bed turns over harrow machine, includes frame (1) and rotary blade (8), its characterized in that: the rack (1) is composed of a left triangular plate (2), a middle triangular plate (3), a right triangular plate (4), a main frame (5) and a transverse plate (6), the left triangular plate (2), the middle triangular plate (3) and the right triangular plate (4) are arranged into three inverted triangular plates and are respectively positioned at the left position, the middle position and the right position of the main frame (5), the middle triangular plate (3) and the left triangular plate (2), the middle triangular plate (3) and the right triangular plate (4) are respectively and sequentially provided with a rake shaft (7), a locking differential (23) and a half shaft (71), the rake shaft (7) and the half shaft (71) are in transmission connection with the output end of the locking differential (23), the locking differential (23) is connected with a cycloidal pin speed reducer (14) through an input shaft in transmission, and the cycloidal pin speed reducer (14) is respectively arranged at the two ends of the upper part of the rack (1), the rotary tillage blade (8) is arranged on the harrow turning shaft (7), the rotary tillage blades (8) are arranged on the surface of the harrow turning shaft (7) in a plurality of staggered arrangements, a transmission roller (9) and a driven roller (10) are arranged between the upper parts of a left triangular plate (2), a middle triangular plate (3) and a right triangular plate (4) in a crossing manner, the transmission roller (9) and the driven roller (10) are arranged in the same horizontal plane in parallel, rubber wheels (11) rolling along a fermentation groove are arranged at the end parts of the two ends of the transmission roller (9) and the driven roller (10), the transmission roller (9) and the driven roller (10) are close to the same side of the middle triangular plate (3) and are provided with a transmission gear (12), a walking driving motor (13) is arranged on the middle triangular plate (3), and an output end transmission chain of the walking driving motor (13) is meshed with the two transmission gears (12), be used for controlling the harrow machine to advance, left side triangle-shaped board (2) and right triangle-shaped board (4) outside are provided with rotary blade II (22) respectively, rotary blade II (22) transmission is connected in semi-axis (71), the mounting bracket has been welded respectively in left side triangle-shaped board (2) and right triangle-shaped board (4) outside, the welding has pulley guide rail (24) of vertical direction on the mounting bracket, pulley guide rail (24) have lift platform (15) through pulley (241) sliding connection, lift platform (15) upper portion is passed through wire rope (25) and is connected in hoist engine (26), install excrement pump (19) and agitator motor (16) on lift platform (15), excrement pump (19) are connected with spray system, frame (1) upper portion middle part is equipped with switch board (17).

2. The fermentation bed rake-turning machine as claimed in claim 1, wherein: the spraying system comprises a connecting pipeline (20) and a plurality of spray heads (21), one end of the connecting pipeline (20) is connected to the output end of the manure pumping pump (19), the connecting pipeline (20) is arranged at the front end of the rack (1), the spray heads (21) are arranged on the connecting pipeline (20), and the spray heads (21) face the rotary tillage blades (8).

3. The fermentation bed rake-turning machine as claimed in claim 2, wherein: the output end of the stirring motor (16) is connected with a stirring paddle (18).

4. The fermentation bed rake-turning machine as claimed in claim 3, wherein: the rotary tillage blades (8) are arranged at intervals of 12 cm in pairs and staggered at an angle of 60 degrees.

5. The fermentation bed rake-turning machine as claimed in claim 4, wherein: rotary blade (8) include stock (81) and quarter butt (82), and rotary blade (8) shape sets up to the L type, one side an organic whole of quarter butt (82) is provided with sharp edge (821) that is the cutting edge form, just the orientation of sharp edge (821) with the direction of rotation of rotary blade (8) is unanimous, sharp edge (821) extend to the other end from the one end of one side of quarter butt (82).

6. The fermentation bed rake-turning machine as claimed in claim 5, wherein: the rotary blade II (22) is formed by reversely welding two rotary blades (8).

7. The fermentation bed rake-turning machine as claimed in claim 6, wherein: the control cabinet (17) is connected with a cycloidal needle speed reducer (14), a walking driving motor (13), a manure pump (19), a stirring motor (16) and a winch (26) through cables, and the control cabinet (17) is connected with an external power supply through cables.

8. The fermentation bed rake-turning machine as claimed in claim 7, wherein: the locking differential (23) is welded on the inner sides of the left triangular plate (2) and the right triangular plate (4) through a fixing support (27).