CN104137785A - Feeding trolley for breeding - Google Patents
Feeding trolley for breeding Download PDFInfo
- Publication number
- CN104137785A CN104137785A CN201410311185.8A CN201410311185A CN104137785A CN 104137785 A CN104137785 A CN 104137785A CN 201410311185 A CN201410311185 A CN 201410311185A CN 104137785 A CN104137785 A CN 104137785A
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- China
- Prior art keywords
- stockline
- guide rod
- guide plate
- feed
- scotch
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- Feeding And Watering For Cattle Raising And Animal Husbandry (AREA)
- Apparatuses For Bulk Treatment Of Fruits And Vegetables And Apparatuses For Preparing Feeds (AREA)
Abstract
The invention discloses a feeding trolley for breeding. The feeding trolley for breeding comprises a trolley framework, a stock line, a feed pipe, a stock line driving motor and a rotating shaft, wherein the stock line driving motor is arranged on the trolley framework; the rotating shaft is rotatably arranged on the trolley framework and is driven by the stock line driving motor; a stock line driving fork is arranged on the rotating shaft; the stock line is arranged into a closed annular structure in tandem connection; the feed pipe is arranged on the stock line in a sheathing manner; the feed pipe can rotate around the trolley framework; the upper part of the feed pipe is communicated with a feed guide plate; the stock line driving fork can turn the stock line; a turning plate is arranged at the other end of the output shaft of the stock line driving motor; a torsion spring is arranged between the feed guide plate and the trolley framework; a turning block can enable the feed guide plate to realize clockwise or anticlockwise rotation. The feeding trolley for breeding disclosed by the invention can automatically convey feed in the hand trolley to a breeding trough.
Description
Technical field
The present invention relates to a kind of improvement of drawing-in device, particularly a kind of can be by the feed automatic transport in artificial dolly to the raising feeding carriage in feeding slot.
Background technology
Livestock and poultry cultivation industry adopts industrial aquaculture more at present, but current traditional its special stockline of drawing-in device of the sector, equipment cost is large, and installation specification is higher, is not suitable for general traditional colony house condition.And the artificial dolly feeding feeding of the general employing of middle-size and small-size plant, inefficiency, labour intensity is large.For this reason, we researched and developed a kind of can be by the feed automatic transport in artificial dolly to the raising feeding carriage in feeding slot.
Summary of the invention
For the technical problem of above-mentioned existence, the object of the invention is: proposed a kind of raising feeding carriage.
Technical solution of the present invention is achieved in that raising feeding carriage, comprises little frame, stockline, fodder tube, stockline drive motors, rotating shaft; Described stockline drive motors is arranged on little frame; Described rotating shaft can be rotatably set on little frame; Described stockline drive motors can drive rotating shaft rotation; On described rotating shaft, be provided with stockline and drive fork; Described stockline is arranged to end to end closed circular structure; The least significant end of described stockline is linearity, described fodder tube is set on stockline, and the fodder tube being set on the linearity stockline of least significant end is provided with the first breach at least partly, so that Feed Energy enters fodder tube from described the first breach, brings to the top of fodder tube through stockline; Described fodder tube can be rotated around dolly framework; The top of described fodder tube is communicated with feed guide plate; Described feed guide plate is hollow structure, and one end of feed guide plate can be rotatably set in fodder tube; The other end of described feed guide plate is provided with outlet, so that the feed of bringing up through stockline enters feed guide plate through fodder tube, and flows to trough from the outlet of feed guide plate; The most significant end of described stockline is linearity; The fodder tube being set on the linearity stockline of most significant end also has part the second breach at least, and described stockline drives fork can insert the second breach, and stirs stockline; The other end of the output shaft of described stockline drive motors is provided with plate; Between described feed guide plate and little frame, be provided with torsion spring; On the outer wall of described feed guide plate and fodder tube junction, be provided with the first guide rod, the second guide rod; Described shifting block makes feed guide plate realize clockwise corresponding or be rotated counterclockwise by stirring the first guide rod or the second guide rod; The front end of the bottom of described little frame is provided with driving wheel, rear end is provided with driven pulley; Described driving wheel is driven by trolley drive motor; Described trolley drive motor is arranged on little frame.
Preferably, on the outer wall of described feed guide plate and fodder tube junction, the first scotch, the second scotch are also set; Described the first scotch, the second scotch are separately positioned on the outside of the first guide rod, the second guide rod; Between described the first guide rod and the first scotch, be provided with spring; Between described the second guide rod and the second scotch, be also provided with spring; Described the first guide rod hinge, can only be towards the direction rotation away from the first scotch in fodder tube; Described the second guide rod hinge, can only be towards the direction rotation away from the second scotch in fodder tube.
Preferably, in the time that described plate is not stirred the first guide rod and the second guide rod, described torsion spring is in horizontal device, and now feed guide plate is in poised state; In the time that the output shaft of described stockline drive motors is rotated counterclockwise, described plate can be stirred the first guide rod rotates feed guide plate toward the clockwise direction; In the time that feed guide plate departs from poised state, under the effect of torsion spring, feed guide plate can turn clockwise, now, when setting ahead in the process of rotation while contacting with the second guide rod, described the second guide rod can surpass the direction rotation certain angle away from the second scotch, so that the second guide rod is avoided setting ahead, makes to set ahead and can continue rotation; Leave after the second scotch when setting ahead, under the effect of spring, the second guide rod can reset; In the time that the output shaft of described stockline drive motors turns clockwise, described plate can be stirred the first guide rod counterclockwise rotates feed guide plate; In the time that feed guide plate departs from poised state, under the effect of torsion spring, feed guide plate can be rotated counterclockwise, now, when setting ahead in the process of rotation while contacting with the first guide rod, described the first guide rod can surpass the direction rotation certain angle away from the first scotch, so that the first guide rod is avoided setting ahead, makes to set ahead and can continue rotation; Leave after the first stop when setting ahead, under the effect of spring, the first guide rod can reset.
Preferably, one end of described output shaft is provided with the first belt pulley; Described rotating shaft can be rotatably set on little frame, and its pivot is vertical with the pivot of rotating shaft; On described rotating shaft, be provided with the second belt pulley; Between described the first belt pulley and the second belt pulley, pass through belt transferring power.
Preferably, a side of described feed guide plate is provided with cross bar; Between described cross bar and little frame, be provided with torsion spring.
Due to the utilization of technique scheme, the present invention compared with prior art has following advantages:
Raising feeding carriage of the present invention can be under the driving of trolley drive motor, freely advance, and in the time running into the interval of raising fence, control the liftable raising guide plate of stockline drive motors, by rear, can oppositely control stockline drive motors make to raise guide plate can be to automatically adding feed in feeding slot; Raising feeding carriage of the present invention can be by the feed automatic transport in artificial dolly in feeding slot.
Brief description of the drawings
Below in conjunction with accompanying drawing, technical solution of the present invention is described further:
Accompanying drawing 1 is the stereogram of raising feeding carriage of the present invention;
Accompanying drawing 2 is the enlarged drawing of A portion in accompanying drawing 1;
Accompanying drawing 3 is the schematic diagram of the first duty of the baffle plate of raising feeding carriage of the present invention;
Accompanying drawing 4 is the schematic diagram of the second duty of the baffle plate of raising feeding carriage of the present invention;
Accompanying drawing 5 is the schematic diagram of the 3rd duty of the baffle plate of raising feeding carriage of the present invention;
Accompanying drawing 6 is the stereogram of the application state of raising feeding carriage of the present invention;
Wherein: 1, little frame; 2, stockline; 3, fodder tube; 4, feed guide plate; 5, stockline drive motors; 6, rotating shaft; 7, the first belt pulley; 8, the second belt pulley; 9, stockline drives fork; 10, cross bar; 11, torsion spring; 12 output shafts; 13, plate; 14, trolley drive motor; 15, driving wheel; 16, driven pulley; 17, the first guide rod; 18, the first scotch; 19, the second guide rod; 20, the second scotch; 21, artificial dolly.
Embodiment
Below in conjunction with accompanying drawing, the present invention is described.
As accompanying drawing 1-5 is depicted as raising feeding carriage of the present invention, comprise dolly framework 1, stockline 2, fodder tube 3, stockline drive motors 5, rotating shaft 6; Described stockline drive motors 5 is arranged on dolly framework 1, and one end of its output shaft 12 is provided with the first belt pulley 7; Described rotating shaft 6 can be rotatably set on dolly framework 1, and its pivot is vertical with the pivot of rotating shaft 6; On described rotating shaft 6, be provided with the second belt pulley 8; Between described the first belt pulley 7 and the second belt pulley 8, pass through belt transferring power; On described rotating shaft 6, be provided with stockline and drive fork 9; Described stockline 2 is arranged to end to end closed circular structure; The least significant end of described stockline 2 is linearity, described fodder tube 3 is set on stockline 2, and the fodder tube being set on the linearity stockline 2 of least significant end is provided with the first breach (for marking) at least partly, so that Feed Energy enters fodder tube from described the first breach, bring to the top of fodder tube 3 through stockline 2; Described fodder tube 3 can be rotated around dolly framework 1; The top of described fodder tube 3 is communicated with feed guide plate 4; Described feed guide plate 4 is hollow structure, and one end of feed guide plate 4 can be rotatably set in fodder tube 3; The other end of described feed guide plate 4 is provided with outlet, so that the feed of bringing up through stockline 2 enters feed guide plate 4 through fodder tube 3, and flows to trough (not shown) from the outlet of feed guide plate 4; The most significant end of described stockline 2 is linearity; The fodder tube being set on the linearity stockline 2 of most significant end also has part the second breach (not marking) at least, and described stockline drives fork 9 can insert the second breach, and stirs stockline 2; The other end of the output shaft 12 of described stockline drive motors 5 is provided with plate 13; One side of described feed guide plate 4 is provided with cross bar 10; Between described cross bar 10 and dolly framework 1, be provided with torsion spring 11; On the outer wall of described feed guide plate 4 and fodder tube 3 junctions, be provided with the first guide rod 17, the first scotch 18, the second guide rod 19, the second scotch 20; Described the first scotch 18, the second scotch 20 are separately positioned on the outside of the first guide rod 17, the second guide rod 19; Between described the first guide rod 17 and the first scotch 18, be provided with spring (not shown); Between described the second guide rod 19 and the second scotch 20, be also provided with spring (not shown); Described the first guide rod 17 hinges, can only be towards the direction rotation away from the first scotch 18 in fodder tube 3; Described the second guide rod 19 hinges, can only be towards the direction rotation away from the second scotch 20 in fodder tube 3; In the time that described plate 13 is not stirred the first guide rod 17 and the second guide rod 19, described torsion spring 11 is in horizontal device, and now feed guide plate 4 is in poised state, as shown in Figure 3; In the time that the output shaft 12 of described stockline drive motors 5 is rotated counterclockwise, described plate 13 can be stirred the first guide rod 17 rotates feed guide plate 4 toward the clockwise direction; In the time that feed guide plate 4 departs from poised state as shown in Figure 3, under the effect of torsion spring 11, feed guide plate 4 can turn clockwise, as shown in Figure 4, now, when setting 13 ahead in the processes of rotation while contacting with the second guide rod 19, described the second guide rod 19 can the super direction rotation certain angle away from the second scotch 20, so that the second guide rod 19 avoids setting ahead 13, make to set ahead 13 and can continue rotation; Leave after the second scotch 20 when setting 13 ahead, under the effect of spring, the second guide rod 19 can reset; In the time that the output shaft 12 of described stockline drive motors 5 turns clockwise, described plate 13 can be stirred the first guide rod 17 counterclockwise rotates feed guide plate 4; In the time that feed guide plate 4 departs from poised state as shown in Figure 3, under the effect of torsion spring 11, feed guide plate 4 can be rotated counterclockwise, as shown in Figure 5, now, when setting 13 ahead in the processes of rotation while contacting with the first guide rod 17, described the first guide rod 17 can the super direction rotation certain angle away from the first scotch 18, so that the first guide rod 17 avoids setting ahead 13, make to set ahead 13 and can continue rotation; Leave after the first scotch 18 when setting 13 ahead, under the effect of spring, the first guide rod 17 can reset; The front end of the bottom of described dolly framework 1 is provided with driving wheel 15, rear end is provided with driven pulley 16; Described driving wheel 15 is driven by trolley drive motor 14; Described trolley drive motor 14 is arranged on dolly framework 1.
The inside of described dolly framework 1 is provided with the space that holds artificial dolly 21, in the time that artificial dolly 21 pushes in described space, rotation fodder tube 3 stretches in artificial dolly 21 least significant end of stockline 2, as shown in Figure 6, when work, open stockline drive motors 5, the output shaft 12 of stockline drive motors 5 is rotated counterclockwise, feed guide plate 4 can turn clockwise, can make feed in artificial dolly 21 the first breach in fodder tube 3 enter, deliver into feed guide plate 4 from fodder tube 3 again, and flow to trough from the outlet of feed guide plate 4, can realize the raising to animals.In the time running into the interval of raising fence, can reverse starting stockline drive motors 5, the output shaft 12 of stockline drive motors 5 is turned clockwise, feed guide plate 4 can be rotated counterclockwise, feed guide plate 4 is upturned, thereby avoids raising the interval of fence, when behind the interval by raising fence, reverse starting stockline drive motors 5 again, can repeat to the process of trough interpolation feed.
Due to the utilization of technique scheme, the present invention compared with prior art has following advantages:
Raising feeding carriage of the present invention can be under the driving of trolley drive motor 14, freely advance, and in the time running into the interval of raising fence, control stockline drive motors 5 liftable raising guide plates 4, by rear, can oppositely control stockline drive motors 5 make to raise guide plate 4 can be to automatically adding feed in feeding slot; Raising feeding carriage of the present invention can be by the feed automatic transport in artificial dolly in feeding slot.
Above-described embodiment is only explanation technical conceive of the present invention and feature; its object is to allow person skilled in the art can understand content of the present invention and be implemented; can not limit the scope of the invention with this; all equivalences that Spirit Essence is done according to the present invention change or modify, and all should be encompassed in protection scope of the present invention.
Claims (5)
1. raise feeding carriage, it is characterized in that: comprise little frame, stockline, stockline pipe, stockline drive motors, rotating shaft; Described stockline drive motors is arranged on little frame; Described rotating shaft can be rotatably set on little frame; Described stockline drive motors can drive rotating shaft rotation; On described rotating shaft, be provided with stockline and drive fork; Described stockline is arranged to end to end closed circular structure; The least significant end of described stockline is linearity, described fodder tube is set on stockline, and the fodder tube being set on the linearity stockline of least significant end is provided with the first breach at least partly, so that Feed Energy enters fodder tube from described the first breach, brings to the top of fodder tube through stockline; Described fodder tube can be rotated around dolly framework; The top of described fodder tube is communicated with feed guide plate; Described feed guide plate is hollow structure, and one end of feed guide plate can be rotatably set in fodder tube; The other end of described feed guide plate is provided with outlet, so that the feed of bringing up through stockline enters feed guide plate through fodder tube, and flows to trough from the outlet of feed guide plate; The most significant end of described stockline is linearity; The fodder tube being enclosed within outside the linearity stockline of most significant end also has part the second breach at least, and described stockline drives fork can insert the second breach, and stirs stockline; The other end of the output shaft of described stockline drive motors is provided with plate; Between described feed guide plate and little frame, be provided with torsion spring; On the outer wall of described feed guide plate and fodder tube junction, be provided with the first guide rod, the second guide rod; Described shifting block makes feed guide plate realize clockwise corresponding or be rotated counterclockwise by stirring the first guide rod or the second guide rod; The front end of the bottom of described little frame is provided with driving wheel, rear end is provided with driven pulley; Described driving wheel is driven by trolley drive motor; Described trolley drive motor is arranged on little frame.
2. raising feeding carriage according to claim 1, is characterized in that: the first scotch, the second scotch are also set on the outer wall of described feed guide plate and fodder tube junction; Described the first scotch, the second scotch are separately positioned on the outside of the first guide rod, the second guide rod; Between described the first guide rod and the first scotch, be provided with spring; Between described the second guide rod and the second scotch, be also provided with spring; Described the first guide rod hinge, can only be towards the direction rotation away from the first scotch in fodder tube; Described the second guide rod hinge, can only be towards the direction rotation away from the second scotch in fodder tube.
3. raising feeding carriage according to claim 2, is characterized in that: in the time that described plate is not stirred the first guide rod and the second guide rod, described torsion spring is in horizontal device, and now feed guide plate is in poised state; In the time that the output shaft of described stockline drive motors is rotated counterclockwise, described plate can be stirred the first guide rod rotates feed guide plate toward the clockwise direction; In the time that feed guide plate departs from poised state, under the effect of torsion spring, feed guide plate can turn clockwise, now, when setting ahead in the process of rotation while contacting with the second guide rod, described the second guide rod can surpass the direction rotation certain angle away from the second scotch, so that the second guide rod is avoided setting ahead, makes to set ahead and can continue rotation; Leave after the second scotch when setting ahead, under the effect of spring, the second guide rod can reset; In the time that the output shaft of described stockline drive motors turns clockwise, described plate can be stirred the first guide rod counterclockwise rotates feed guide plate; In the time that feed guide plate departs from poised state, under the effect of torsion spring, feed guide plate can be rotated counterclockwise, now, when setting ahead in the process of rotation while contacting with the first guide rod, described the first guide rod can surpass the direction rotation certain angle away from the first scotch, so that the first guide rod is avoided setting ahead, makes to set ahead and can continue rotation; Leave after the first stop when setting ahead, under the effect of spring, the first guide rod can reset.
4. according to the raising feeding carriage described in claim 1 or 2 or 3, it is characterized in that: one end of described output shaft is provided with the first belt pulley; Described rotating shaft can be rotatably set on little frame, and its pivot is vertical with the pivot of rotating shaft; On described rotating shaft, be provided with the second belt pulley; Between described the first belt pulley and the second belt pulley, pass through belt transferring power.
5. raising feeding carriage according to claim 4, is characterized in that: a side of described feed guide plate is provided with cross bar; Between described cross bar and little frame, be provided with torsion spring.
Priority Applications (1)
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CN201410311185.8A CN104137785B (en) | 2014-07-02 | 2014-07-02 | Feeding trolley for breeding |
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CN201410311185.8A CN104137785B (en) | 2014-07-02 | 2014-07-02 | Feeding trolley for breeding |
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CN104137785A true CN104137785A (en) | 2014-11-12 |
CN104137785B CN104137785B (en) | 2017-02-15 |
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CN203492533U (en) * | 2013-09-23 | 2014-03-26 | 赖建明 | Electric automatic feeder for regularly feeding livestock and poultry with fixed quantity of food |
CN103858784A (en) * | 2012-12-17 | 2014-06-18 | 梁达先 | Automatic livestock feed distribution system |
CN203985479U (en) * | 2014-07-02 | 2014-12-10 | 苏州市职业大学 | Raise feeding carriage |
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2014
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Patent Citations (12)
Publication number | Priority date | Publication date | Assignee | Title |
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US20090241846A1 (en) * | 2008-03-28 | 2009-10-01 | Dollar Jr B Clyde | Varmint guard feeder and method of using same |
CN201383982Y (en) * | 2009-03-27 | 2010-01-20 | 广东广兴牧业机械设备公司 | Automatic feeding device for breeding sows |
US20110088627A1 (en) * | 2009-10-20 | 2011-04-21 | All Seasons Feeders, Inc. | Integral control box, spinner and funnel unit with adjustable legs |
CN201577387U (en) * | 2010-01-08 | 2010-09-15 | 南京信息职业技术学院 | Pigsty automatic feeding device and matched pigsty |
KR20110104157A (en) * | 2010-03-16 | 2011-09-22 | 변기원 | A movable two-way feeding apparatus |
KR20120037143A (en) * | 2010-10-11 | 2012-04-19 | 이정숙 | A ration feeder which applies the reserving energy as power source |
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Also Published As
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Effective date of registration: 20180816 Address after: 215100 21 Wuzhong Road, Wuzhong Economic Development Zone, Suzhou, Jiangsu, China, 2558 Patentee after: SUZHOU NOVTEC MEASUREMENT AND CONTROL TECHNOLOGY CO., LTD. Address before: 215104 Suzhou Vocational University, 106 Wuzhong District International Education Park, Suzhou, Jiangsu. Patentee before: Suzhou vocational University |
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