CN103959995B - There is crotch separately and utilize the forage tedding device of belt drives - Google Patents
There is crotch separately and utilize the forage tedding device of belt drives Download PDFInfo
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- CN103959995B CN103959995B CN201410215312.4A CN201410215312A CN103959995B CN 103959995 B CN103959995 B CN 103959995B CN 201410215312 A CN201410215312 A CN 201410215312A CN 103959995 B CN103959995 B CN 103959995B
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- support cylindrical
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- tedding device
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- 239000004459 forage Substances 0.000 title claims abstract description 36
- 238000003756 stirring Methods 0.000 claims abstract description 48
- 230000008878 coupling Effects 0.000 claims abstract description 28
- 238000010168 coupling process Methods 0.000 claims abstract description 28
- 238000005859 coupling reaction Methods 0.000 claims abstract description 28
- 238000000034 method Methods 0.000 claims description 5
- 238000005452 bending Methods 0.000 claims description 3
- 238000005242 forging Methods 0.000 claims description 3
- 239000002184 metal Substances 0.000 claims description 3
- 238000010586 diagram Methods 0.000 description 3
- 230000006978 adaptation Effects 0.000 description 1
- 238000010141 design making Methods 0.000 description 1
- 238000001035 drying Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
Abstract
A kind of have crotch separately and utilize the forage tedding device of belt drives, it comprises execution part and coupling part, described execution part is used for execution and teds operation, it comprises outer support cylindrical shell (2), inner support cylindrical shell (3) and six stir hook part (1), and each hook part (1) that stirs is fixed on the cylindrical surface of described outer support cylindrical shell (2) in a circumferential direction equably, the columniform circumferentially between two spaced 60 degree settings of hook part (1) described outer support cylindrical shell (2) are stirred described in six, thus make described in six, to stir columniform being circumferentially uniformly distributed of hook part (1) described outer support cylindrical shell (2).
Description
Technical field
The present invention relates to a kind of forage tedding device, relate more particularly to a kind of a kind of forage tedding device stirring hook adjustable angle.
Background technology
In Modern Animal Husbandry, usually need to plant a large amount of animal feeding-stuff forage, and need in the season of results, a large amount of forage to be cut down, carried out the sun and tan by the sun, carry out collection storage after drying, in order to pasture in winter.
The usual planting density of forage due to grassland is higher, and therefore, after cutting down, the thickness of the forage layer that forage is formed is very thick, is not easy to the sun and tans by the sun.Therefore, be subject to the sun equably to make forage and tan by the sun, improve airing speed, make forage more resistance in storage, improve the quality of storage forage, need repeatedly to stir airing to forage layer.
At present, main dependence manually teds forage layer.The shortcoming done like this is apparent, and it is slow that it teds speed, and the amount of labour is large, and teds the uniformity and be restricted.
What also there are at present some mechanizations teds mode, but, because the thickness of the forage layer on grassland can change, for the forage layer of different-thickness, stir machinery and be difficult to make adaptations and forage is tedded stir suitably.
Summary of the invention
The object of this invention is to provide a kind of forage tedding device stirring hook adjustable angle, it teds forage layer with can being adapted to mechanization, and can tedding according to various concrete forage layer thickness, and regulates adaptively and ted hook; And regulate fast, unanimously, conveniently.
The technical solution used in the present invention is as follows:
A kind of have crotch separately and utilize the forage tedding device of belt drives, it comprises execution part and coupling part, described execution part is used for execution and teds operation, it comprises outer support cylindrical shell, inner support cylindrical shell and six stir hook part, and each hook part that stirs is fixed on the cylindrical surface of described outer support cylindrical shell in a circumferential direction equably, the columniform circumferentially between two spaced degree setting of hook part at described outer support cylindrical shell is stirred described in six, thus make described in six, to stir hook part and be circumferentially uniformly distributed at described the columniform of outer support cylindrical shell, described coupling part is used for execution part to be connected to agri-vehicle, and described coupling part comprises line shaft, teds power part, thrust bearing and tedding device bracing frame, described line shaft first end is fixedly connected with outer support cylindrical shell, the second end with ted power part and be fixedly connected with.
Stir hook part described in each and include supporting leg, the inner of described supporting leg is fixedly connected with outer support cylindrical shell, the outer end of described supporting leg is hinged with the one end stirring hook, the outer end stirring the other end of hook and screw rod is hinged, the inner of screw rod is threaded with the outer end of screw shell, the inner of screw shell is connected with one end of Hooks coupling universal coupling through the accessibke porosity on outer support cylindrical shell, the other end of Hooks coupling universal coupling is connected with the axle journal of bevel pinion through the inner via hole on inner support cylindrical shell, the axle journal place of described bevel pinion has inner bearing, described inner bearing is arranged in the annular support platform of the inner surface of described inner support cylindrical shell, described annular support platform is welded on the inner surface of described inner support cylindrical shell by metal ring and is formed, also locking nut is provided with in the position of the described other end place of described Hooks coupling universal coupling and the exterior surface of described inner support cylindrical shell, in order to lock in place in the inside of inner support cylindrical shell by bevel pinion and inner bearing, be provided with outer bearing in the accessibke porosity on outer support cylindrical shell in order to carry screw shell, the periphery stirring hook part described in each is provided with flexible sheath, in order to protect the threaded engagement between screw shell and screw rod,
The described hook that stirs is divided into main part and bending hook portion, and described curved hook part is the first crotch and the second crotch, and the first crotch and the second crotch are formed separately from each other intermediate space, and are jointly connected to described main part;
Outer support cylindrical shell and line shaft are arranged on tedding device bracing frame by thrust bearing revolvably, inner support cylindrical shell is fixedly supported in outer support cylindrical shell, inner support cylindrical shell is provided with the rotating shaft that can rotate corresponding thereto along its central axis, in one end of described tedding device, outer support cylindrical shell with ted power part and be connected, to obtain the rotary power in the process of tedding; At the other end of described tedding device, described rotating shaft is connected with manual turntable, and described manual turntable is in order to receive the manual rotation power of operating personnel; Described rotating shaft is provided with a bevel gear wheel along its axial direction; Described bevel gear wheel engages with described six bevel pinions;
Wherein, tedding device bracing frame is totally U-shaped, it has bottom and two arms, described bottom is for being arranged on described agri-vehicle, the quantity of described thrust bearing is two, described two arms are respectively arranged with the installing hole for coordinating described thrust bearing, the installing hole end in two described installing hole spaces between contiguous described two arms is respectively arranged with the circumferential flange extended radially inwardly, described circumferential flange is for engaging the cycle surface of described thrust bearing, described line shaft is provided with external screw thread on the circumference side near its second end, described external screw thread is combined with locking nut, the end face of described locking nut is used for the inner ring end joined with corresponding thrust bearing, described line shaft increases near the section diameter of its first end, thus forms step anchor ring, and described stepped ring forging face is used for the inner ring end joined with corresponding thrust bearing, when described line shaft stretch into and pass two described thrust bearings in place are installed time, by tightening described locking nut, line shaft can be locked, thus described execution part is arranged on tedding device bracing frame revolvably,
The described power part that teds is belt pulley, described belt pulley is connected with the actuating unit of agri-vehicle by belt, the center of the inner side end of described belt pulley has axial protuberance, described second end of described line shaft has the axial valley coordinated with described axial protuberance, described axial protuberance coordinates with axial valley, and locking bolt runs through described axial protuberance and axial valley thus described belt pulley and described line shaft locked;
When tedding power part and driving described outer support cylindrical shell to rotate on described tedding device bracing frame, described six are stirred hook part and can stir forage in turn;
When described agri-vehicle advances, described forage tedding device can constantly stir the forage in front continuously; When described in manual rotation during manual turntable, bevel gear wheel can drive bevel pinion to rotate, each bevel pinion can drive respective screw shell to rotate, thus screw rod drive can be made to stir hook swing, thus can realize stirring the adjustment of hook relative to supporting leg angle.
By above-mentioned technical scheme, because it is suitable for adopting agricultural machinery to drive, forage is stirred fast, is suitable for large area and teds; Each pinion rotation is driven owing to adopting rotation hand wheel, and then drive each to stir each of hook assembly to stir the swing that hook carries out angle, thus fast easy to adjust, and the uniformity stirring hook angle adjustment can be ensured, ensure that and tedding in process, vibrate minimum, ted evenly, and improve stability and the life-span of equipment; And being provided with flexible sheath each stirring on hook assembly, the accuracy that machinery can be protected to coordinate, effectively isolates with external environment, and can give mechanical part certain freedom of motion simultaneously.The entirety that whole schematic design making one is tight, cooperatively interacts, rationally compact to design, in stability and reliability, all reach good technique effect.
Accompanying drawing explanation
Fig. 1 is the transverse sectional view of the general structure of forage tedding device of the present invention;
Fig. 2 is forage tedding device of the present invention and the matching used schematic diagram of agri-vehicle;
Fig. 3 is the partial enlarged drawing of the part in Fig. 1;
Fig. 4 is the drive mechanism schematic diagram of pinion and gear wheel;
Fig. 5 is execution part and the mounting structure schematic diagram of bracing frame;
Fig. 6 is the structural representation tedding hook.
Embodiment
Below in conjunction with accompanying drawing 1-6, the present invention is described in detail.
A kind of have crotch separately and utilize the forage tedding device of belt drives, it comprises execution part and coupling part, described execution part is used for execution and teds operation, it comprises outer support cylindrical shell 2, inner support cylindrical shell 3 and six stir hook part 1, and each hook part 1 that stirs is fixed on the cylindrical surface of described outer support cylindrical shell 2 in a circumferential direction equably, the columniform circumferentially between two spaced 60 degree settings of hook part 1 at described outer support cylindrical shell 2 are stirred described in six, thus make described in six, to stir hook part 1 and be circumferentially uniformly distributed at described the columniform of outer support cylindrical shell 2, described coupling part is used for execution part to be connected to agri-vehicle 100, and described coupling part comprises line shaft 203, teds power part 200, thrust bearing 204 and tedding device bracing frame 201, described line shaft 203 first end is fixedly connected with outer support cylindrical shell 2, second end with ted power part 200 and be fixedly connected with
Stir hook part 1 described in each and include supporting leg 13, the inner of described supporting leg 13 is fixedly connected with outer support cylindrical shell 2, the outer end of described supporting leg 13 is hinged with the one end stirring hook 14, the outer end stirring the other end of hook 14 and screw rod 12 is hinged, the inner of screw rod 12 is threaded with the outer end of screw shell 10, the inner of screw shell 10 is connected with one end of Hooks coupling universal coupling 8 through the accessibke porosity on outer support cylindrical shell 2, the other end of Hooks coupling universal coupling 8 is connected with the axle journal of bevel pinion 4 through the inner via hole on inner support cylindrical shell 3, the axle journal place of described bevel pinion 4 has inner bearing 7, described inner bearing 7 is arranged in the annular support platform 71 of the inner surface of described inner support cylindrical shell 3, described annular support platform 71 is welded on the inner surface of described inner support cylindrical shell 3 by metal ring and is formed, locking nut 18 is also provided with in the position of the described other end place of described Hooks coupling universal coupling 8 and the exterior surface of described inner support cylindrical shell 3, in order to lock in place in the inside of inner support cylindrical shell 3 by bevel pinion 4 and inner bearing 7, be provided with outer bearing 9 in the accessibke porosity on outer support cylindrical shell 2 in order to carry screw shell 10, the periphery stirring hook part 1 described in each is provided with flexible sheath 11, in order to protect the threaded engagement between screw shell 10 and screw rod 12,
The described hook 14 that stirs is divided into main part 143 and bending hook portion, and described curved hook part is that the first crotch 141 and the second crotch 142, first crotch 141 and the second crotch 142 are formed separately from each other intermediate space, and is jointly connected to described main part 143;
Outer support cylindrical shell 2 and line shaft 203 are arranged on tedding device bracing frame 201 by thrust bearing 204 revolvably, inner support cylindrical shell 3 is fixedly supported in outer support cylindrical shell 2, inner support cylindrical shell 3 is provided with the rotating shaft 26 that can rotate corresponding thereto along its central axis, in one end of described tedding device, outer support cylindrical shell 2 with ted power part 200 and be connected, to obtain the rotary power in the process of tedding; At the other end of described tedding device, described rotating shaft 26 is connected with manual turntable 36, and described manual turntable 36 is in order to receive the manual rotation power of operating personnel; Described rotating shaft 26 is provided with a bevel gear wheel 6 along its axial direction; Described bevel gear wheel 6 engages with described six bevel pinions 4;
Wherein, tedding device bracing frame 201 is totally U-shaped, it has bottom and two arms, described bottom is used for being arranged on described agri-vehicle 100, the quantity of described thrust bearing 204 is two, described two arms are respectively arranged with the installing hole for coordinating described thrust bearing 204, the installing hole end in two described installing hole spaces between contiguous described two arms is respectively arranged with the circumferential flange 205 extended radially inwardly, described circumferential flange 205 is for engaging the cycle surface of described thrust bearing 204, described line shaft 203 is provided with external screw thread on the circumference side near its second end, described external screw thread is combined with locking nut 105, the end face of described locking nut 105 is used for the inner ring end joined with corresponding thrust bearing, described line shaft 203 increases near the section diameter of its first end, thus forms step anchor ring 206, and described stepped ring forging face 206 is for the inner ring end joined with corresponding thrust bearing, when described line shaft 203 stretch into and pass two described thrust bearings 204 in place are installed time, by tightening described locking nut 105, line shaft 203 can be locked, thus described execution part is arranged on tedding device bracing frame 201 revolvably,
The described power part 200 that teds is for belt pulley, described belt pulley is connected with the actuating unit of agri-vehicle by belt 202, the center of the inner side end of described belt pulley has axial protuberance, described second end of described line shaft 203 has the axial valley coordinated with described axial protuberance, described axial protuberance coordinates with axial valley, and locking bolt 207 runs through described axial protuberance and axial valley thus described belt pulley and described line shaft 203 locked;
When tedding power part 200 and driving described outer support cylindrical shell 2 to rotate on described tedding device bracing frame 201, described six are stirred hook part 1 and can stir forage in turn;
When described agri-vehicle advances, described forage tedding device can constantly stir the forage in front continuously; When described in manual rotation during manual turntable 36, bevel gear wheel 6 can drive bevel pinion 4 to rotate, each bevel pinion 4 can drive respective screw shell 10 to rotate, thus screw rod 12 can be made to drive stir hook 14 and swing, thus can realize stirring the adjustment of hook 14 relative to supporting leg 13 angle.
Claims (1)
1. one kind has crotch separately and utilizes the forage tedding device of belt drives, it comprises execution part and coupling part, described execution part is used for execution and teds operation, it comprises outer support cylindrical shell (2), inner support cylindrical shell (3) and six stir hook part (1), and each hook part (1) that stirs is fixed on the cylindrical surface of described outer support cylindrical shell (2) in a circumferential direction equably, the columniform circumferentially between two spaced 60 degree settings of hook part (1) described outer support cylindrical shell (2) are stirred described in six, thus make described in six, to stir columniform being circumferentially uniformly distributed of hook part (1) described outer support cylindrical shell (2), described coupling part is used for execution part to be connected to agri-vehicle (100), and described coupling part comprises line shaft (203), teds power part (200), thrust bearing (204) and tedding device bracing frame (201), described line shaft (203) first end is fixedly connected with outer support cylindrical shell (2), second end with ted power part (200) and be fixedly connected with
Stir hook part (1) described in each and include supporting leg (13), the inner of described supporting leg (13) is fixedly connected with outer support cylindrical shell (2), the outer end of described supporting leg (13) is hinged with the one end stirring hook (14), the outer end stirring the other end of hook (14) and screw rod (12) is hinged, the inner of screw rod (12) is threaded with the outer end of screw shell (10), the inner of screw shell (10) is connected with one end of Hooks coupling universal coupling (8) through the accessibke porosity on outer support cylindrical shell (2), the other end of Hooks coupling universal coupling (8) is connected with the axle journal of bevel pinion (4) through the inner via hole on inner support cylindrical shell (3), the axle journal place of described bevel pinion (4) has inner bearing (7), described inner bearing (7) is arranged in the annular support platform (71) of the inner surface of described inner support cylindrical shell (3), described annular support platform (71) is welded on the inner surface of described inner support cylindrical shell (3) by metal ring and is formed, locking nut (18) is also provided with in the position of the described other end place of described Hooks coupling universal coupling (8) and the exterior surface of described inner support cylindrical shell (3), in order to lock in place in the inside of inner support cylindrical shell (3) by bevel pinion (4) and inner bearing (7), be provided with outer bearing (9) in the accessibke porosity on outer support cylindrical shell (2) in order to carry screw shell (10), the periphery stirring hook part (1) described in each is provided with flexible sheath (11), in order to protect the threaded engagement between screw shell (10) and screw rod (12),
The described hook (14) that stirs is divided into main part (143) and bending hook portion, described curved hook part is the first crotch (141) and the second crotch (142), first crotch (141) and the second crotch (142) are formed separately from each other intermediate space, and are jointly connected to described main part (143);
Outer support cylindrical shell (2) and line shaft (203) are arranged on tedding device bracing frame (201) by thrust bearing (204) revolvably, inner support cylindrical shell (3) is fixedly supported in outer support cylindrical shell (2), inner support cylindrical shell (3) is provided with the rotating shaft (26) that can rotate corresponding thereto along its central axis, in one end of described tedding device, outer support cylindrical shell (2) with ted power part (200) and be connected, to obtain the rotary power in the process of tedding; At the other end of described tedding device, described rotating shaft (26) is connected with manual turntable (36), and described manual turntable (36) is in order to receive the manual rotation power of operating personnel; Described rotating shaft (26) is provided with a bevel gear wheel (6) along its axial direction; Described bevel gear wheel (6) engages with described six bevel pinions (4);
Wherein, tedding device bracing frame (201) is totally U-shaped, it has bottom and two arms, described bottom is used for being arranged on described agri-vehicle (100), the quantity of described thrust bearing (204) is two, described two arms are respectively arranged with the installing hole for coordinating described thrust bearing (204), the installing hole end in two described installing hole spaces between contiguous described two arms is respectively arranged with the circumferential flange (205) extended radially inwardly, described circumferential flange (205) is for engaging the cycle surface of described thrust bearing (204), described line shaft (203) is provided with external screw thread on the circumference side near its second end, described external screw thread is combined with locking nut (105), the end face of described locking nut (105) is used for the inner ring end joined with corresponding thrust bearing, described line shaft (203) increases near the section diameter of its first end, thus forms step anchor ring (206), and described stepped ring forging face (206) is for the inner ring end joined with corresponding thrust bearing, when described line shaft (203) stretch into and pass in place two described thrust bearing (204) are installed time, by tightening described locking nut (105), line shaft (203) can be locked, thus described execution part is arranged on tedding device bracing frame (201) revolvably,
The described power part (200) that teds is belt pulley, described belt pulley is connected with the actuating unit of agri-vehicle by belt (202), the center of the inner side end of described belt pulley has axial protuberance, described second end of described line shaft (203) has the axial valley coordinated with described axial protuberance, described axial protuberance coordinates with axial valley, and locking bolt (207) runs through described axial protuberance and axial valley thus described belt pulley and described line shaft (203) locked;
When tedding power part (200) and driving described outer support cylindrical shell (2) to rotate on described tedding device bracing frame (201), described six are stirred hook part (1) and can stir forage in turn;
When described agri-vehicle advances, described forage tedding device can constantly stir the forage in front continuously; When manual turntable described in manual rotation (36), bevel gear wheel (6) can drive bevel pinion (4) to rotate, each bevel pinion (4) can drive respective screw shell (10) to rotate, thus screw rod (12) drive can be made to stir hook (14) swing, thus can realize stirring the adjustment of hook (14) relative to supporting leg (13) angle.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201410215312.4A CN103959995B (en) | 2014-05-21 | 2014-05-21 | There is crotch separately and utilize the forage tedding device of belt drives |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201410215312.4A CN103959995B (en) | 2014-05-21 | 2014-05-21 | There is crotch separately and utilize the forage tedding device of belt drives |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN103959995A CN103959995A (en) | 2014-08-06 |
| CN103959995B true CN103959995B (en) | 2015-09-16 |
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| Application Number | Title | Priority Date | Filing Date |
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| CN201410215312.4A Active CN103959995B (en) | 2014-05-21 | 2014-05-21 | There is crotch separately and utilize the forage tedding device of belt drives |
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Family Cites Families (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US2670588A (en) * | 1950-06-16 | 1954-03-02 | Leland G Plant | Rotary side delivery rake |
| DE945000C (en) * | 1953-09-04 | 1956-06-28 | Carl Theodor Rulffes | Zinc wheel, especially for raking, ventilating and turning crops lying in the field |
| AT208120B (en) * | 1957-06-27 | 1960-03-25 | Fahr Ag Maschf | Calculating wheel hay machine with several calculating wheels that can only be rotated by touching the ground |
| FR1290888A (en) * | 1961-03-04 | 1962-04-20 | Corbeil Const Mec | coulter prop for agricultural machinery |
| US3447295A (en) * | 1964-07-13 | 1969-06-03 | Texas Industries Inc | Rake wheels |
| NL6407947A (en) * | 1964-07-13 | 1966-01-14 | ||
| SE314550B (en) * | 1965-12-20 | 1969-09-08 | Skurup Verken Ab | |
| EP2611278A2 (en) * | 2010-07-06 | 2013-07-10 | Forage Innovations B.V. | Rake wheel with plastic support band for tines |
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2014
- 2014-05-21 CN CN201410215312.4A patent/CN103959995B/en active Active
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| CN103959995A (en) | 2014-08-06 |
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