CN110713068B

CN110713068B - Wire winding device for field test planning

Info

Publication number: CN110713068B
Application number: CN201810764637.6A
Authority: CN
Inventors: 王坚; 李新; 贺奇; 党根友; 路洁; 赵国平
Original assignee: CROP Research Institute of Ningxia Academy of Agriculture and Forestry Sciences
Current assignee: CROP Research Institute of Ningxia Academy of Agriculture and Forestry Sciences
Priority date: 2018-07-12
Filing date: 2018-07-12
Publication date: 2024-02-20
Anticipated expiration: 2038-07-12
Also published as: CN110713068A

Abstract

The invention discloses a field test planning wire winder, which comprises a wire winder, a wire twisting device, a cycloid device and a wire pressing device. When the wire threading device is used, the wire threading device and the wire clamping buckle are wound on the wire spool, one or more wire spools can be installed on the wire spool, and the wire spool is fixed on the wire spool through the wire spool fixing clamp. The winder drives the winding shaft and the winding shaft to enable the winding shaft to rotate so as to wind the wire on the winding shaft by shaking a winder crank. The crank rotates and passes through, and through crank power shaft, power wheel and cycloid conveyer belt, drives cycloid power wheel, cycloid axle rotation, through cycloid pole with circular motion conversion periodic linear swing, with the cotton rope around evenly winding on the wire reel in the wire winding process. After winding is completed, the connecting buckle is rotated to detach the winding machine, and the wire spool is taken out from the position of the winding shaft connecting buckle. The winder can be provided with one or more simultaneous wire reels at each time, and the wire reels are convenient and quick to install and take out, so that the work efficiency of winding up wires after the test is finished can be greatly improved.

Description

Wire winding device for field test planning

Technical Field

The invention relates to a field test planning wire winder.

Background

In the rice breeding test, hundreds of thousands of materials are planted every year, each material has different genetic backgrounds after years of research, in order to accurately obtain the main agronomic property value of each material, in the planting process, the equal plant spacing of each material needs to be ensured, each plant occupies the same space, the value of each property can be accurately obtained, a large number of ropes are needed to be used as marking lines in planning, all ropes need to be retracted after planting, each worker can wind one rope at a time when taking up, the speed is low, the working efficiency is very low, and the cost is high.

Disclosure of Invention

The technical problem to be solved by the invention is to provide the field test planning wire winder, one or more ropes can be wound on the wire winding disc at the same time after the test is completed, the wire winding disc is convenient to mount and dismount, each rope is not mutually interfered, wound or knotted, and the ropes on the wire winding disc are compact, tidy and convenient to store. The winding workload is reduced, a large amount of time is saved, the winding work efficiency is improved, and the winding machine is convenient to carry and is very suitable for field operation.

The technical scheme provided by the invention is as follows: the field test planning wire takeup device comprises a wire winder, a wire twisting device, a cycloid device and a wire pressing device;

the wire twisting device consists of a wire twisting device crank, a crank gear, a wire winding gear, a cycloid transmission belt, a power wheel, a crank power shaft, a wire twisting device support, a connecting buckle and a wire twisting shaft, wherein the crank power shaft and the wire twisting shaft are arranged on the wire twisting device support;

the winding machine is composed of a winding shaft and winding disc fixing clamps, each winding disc fixing clamp penetrates through the winding shaft, a clamping plate buckle is abutted against a baffle plate, the winding disc and the next winding disc fixing clamp are sequentially installed, the direction of the winding disc fixing clamp installed later is opposite to that of the winding disc fixing clamp installed in the front, the clamping plate buckle is fixed by the clamping plate, the winding disc is fixed by two winding disc fixing plates, the winding shaft is connected with a stranded wire shaft through a connecting buckle, and the winding shaft can be fixed and detached through rotation of the connecting buckle;

the cycloid device consists of a cycloid power wheel, a cycloid shaft, a cycloid rod, a sliding rod buckle, a wire clamping rod and a wire clamping buckle, wherein power can be transmitted to the cycloid power wheel from a cycloid conveyor belt, the cycloid wheel is replaced by the cycloid shaft, one surface of the cycloid wheel is an inclined surface, the cycloid rod swings left and right under the rotation of the cycloid wheel, the sliding rod passes through the sliding rod buckle, and the wire clamping rod and the wire clamping buckle are driven to swing under the swinging of the cycloid rod, so that the cycloid rod (5) swings linearly in a period, and a wire is wound on the wire winding disc uniformly in the winding process;

the line ball ware comprises line ball wheel, line ball wheel handle, line ball wheel extension spring, extension spring hook, line ball wheel axle, connecting axle, line ball wheel support and line door, and wherein line ball wheel support is L and fixes to the line ball mount, and line ball wheel support short edge connecting axle is connected with line ball wheel handle, and line ball wheel support long edge connecting axle is connected with a line ball wheel, also has line ball wheel axle to be connected with a line ball wheel on the line ball wheel handle, and line ball wheel is made rotatable by the bearing, has the extension spring hook in line ball wheel support long edge and line ball wheel handle connecting axle upper end welding to connect through extension spring 33, line door before the line ball wheel, the cotton rope passes through the line door and gets into line ball wheel.

Preferably, there are a plurality of wire reels, the wire reels of the next group are installed identically to the previous group, and the front snap-gauge fastener of the next group is fixed by the snap-gauge opposite to the snap-gauge fastener of the previous group.

Still preferably, the spool includes the cardboard, the cardboard axle, the cardboard spring constitutes, is equipped with two cardboard axles in the spool, installs the cardboard in the fixed position of cardboard axle, and two epaxial cardboard positions are the same, installs the card leaf spring in the middle of two cardboard axles, makes the cardboard expose the spool for fixed wire reel fixing clip.

In addition, the wire reel fixing clamp comprises a wire reel fixing clamp, a clamping plate buckle, a fixing clamp spring and a wire reel fixing plate, wherein the clamping plate buckle is fixed by a baffle and the clamping plate, the clamping plate buckle is connected with the wire reel fixing plate through the fixing clamp spring, and the wire reel fixing plate is fixed through the elasticity of the fixing clamp spring.

In one embodiment, the crimping wheel support 38 is made of steel sheet and is welded to the crimping tool holder.

The invention has the following beneficial effects:

hundreds of thousands of materials are planted each year in a rice breeding test, each material has different genetic backgrounds after years of research, a large number of ropes are used as marking lines in planning in order to accurately obtain the main agronomic property value of each material, all ropes are required to be retracted after planting, each worker can wind one rope at a time when taking up the ropes, the speed is low, the working efficiency is very low, and the cost is high. Only one person is needed for each winding of the winding machine by using the field test planning, the working efficiency is improved by more than ten times, and the work completed by more than ten persons before can be completed by only 1 person in the same time.

Drawings

Fig. 1 is a schematic structural diagram of a field test planning wire-rewinding machine according to the present invention.

Fig. 2 is a schematic structural view of the spool and the wire twisting shaft of the present invention.

Fig. 3 is a schematic view of a wire spool fixing clip according to the present invention.

Fig. 4 is a schematic structural view of a wire spool according to the present invention.

Fig. 5 is a schematic structural view of the wire twisting machine of the present invention.

Fig. 6 is a schematic view of the construction of the cycloid pin and cycloid pin of the present invention.

Fig. 7 is a schematic structural view of the wire pressing device of the present invention.

The wire winder, 2-wire stranding device, 3-cycloid device, 4-wire pressing device, 5-cycloid rod, 6-wire winding shaft, 7-clamping plate, 8-clamping plate shaft, 9-clamping plate spring, 10-baffle plate, 11-connecting buckle, 12-wire stranding shaft, 13-wire spool fixing clamp, 14-clamping plate buckle, 15-fixing clamp spring, 16-wire spool fixing plate, 17-wire winder crank, 18-crank gear, 19-wire winding gear, 20-cycloid conveyor belt, 21-power wheel, 22-crank power shaft, 23-wire winder bracket, 24-cycloid power wheel, 25-cycloid wheel, 26-cycloid shaft, 27-cycloid rod, 28-sliding rod, 29-sliding rod buckle, 30-clamping wire rod, 31-clamping wire buckle, 32-wire pressing wheel, 33-wire pressing wheel tension spring, 34-wire pressing wheel handle, 35-tension spring hook, 36-wheel axle, 37-connecting shaft, 38-wire pressing wheel bracket and 39-wire door.

Detailed Description

Referring to fig. 1-7, the field trial planning wire winder of the present invention is composed of a wire winder 1, a wire winder 2, a cycloid device 3, a cycloid lever 5, a wire presser 4, a wire spool 6, a clamping plate 7, a clamping plate shaft 8, a clamping plate spring 9, a baffle 10, a connecting buckle 11, a wire winding shaft 12, a wire spool fixing clamp 13, a clamping plate buckle 14, a fixing clamp spring 15, a wire spool fixing plate 16, a wire winder crank 17, a crank gear 18, a wire winding gear 19, a cycloid conveyor 20, a power wheel 21, a crank power shaft 22, a wire winder bracket 23, a cycloid power wheel 24, a cycloid wheel 25, a cycloid shaft 26, a cycloid lever 27, a sliding lever 28, a sliding lever buckle 29, a wire clamping lever 30, a wire clamping buckle 31, a wire pressing wheel 32, a wire pressing wheel tension spring 33, a wire pressing wheel handle 34, a tension spring hook 35, a wire pressing wheel shaft 36, a connecting shaft 37, a wire pressing wheel bracket 38, and a wire door 39. When the wire threading device is used, the wire threading device 4 and the wire clamping buckle 31 are wound on the wire reels, the wire reels 6 can be provided with a plurality of wire reels, two sides of each wire reel are respectively provided with a wire reel fixing clamp 13, the wire reels 6 are sequentially wound, the wire reels 13 are automatically fixed by the clamping plates 7, and the wire reels 13 are fixed on the wire reels 6. After the wire spool is fixed, the winder crank 17 is rocked to drive the winch spool 12 and the wire spool to rotate the wire spool to wind the wire onto the wire spool. The crank 17 rotates and passes through, and the crank power shaft 22, the power wheel 21 and the cycloid conveyor belt 20 drive the cycloid power wheel 24, the cycloid wheel 25 and the cycloid shaft 26 to rotate, and the cycloid rod 5 converts circular motion into periodic linear swing to prevent the wire rope from being uniformly wound on the wire spool in the winding process. After winding is completed, the connecting buckle 11 is only required to be rotated to detach the winder 1, and the wire spool is taken out from the position of the wire spool 6, where the connecting buckle 11 is connected. One or more simultaneous windings can be installed each time, the installation and the taking-out of the wire reel are convenient and quick, and the work efficiency of winding up wires after the test is finished can be greatly improved.

The bobbin 1 is composed of a spool 6 and a spool fixing clip 13. The spool 6 comprises a clamping plate 7, a clamping plate shaft 8 and a clamping plate spring 9. Two clamping plate shafts 8 are arranged in the winding shaft 6, clamping plates 7 are arranged at fixed positions of the clamping plate shafts 8, the clamping plates 7 on the two clamping plate shafts 8 are identical in position, and clamping plate springs 9 are arranged between the two clamping plate shafts 8, so that the clamping plates 7 are exposed out of the winding shaft 6. The wire spool fixing clamp 13 comprises a wire spool fixing clamp 13, a clamping plate buckle 14, a fixing clamping spring 15 and a wire spool fixing piece 16. The clamping plate buckle 14 is fixed by the baffle 10 and the clamping plate 7, the clamping plate buckle 14 and the wire spool fixing piece 16 are connected through the fixing clamp spring 15, and the fixing clamp spring 15 has certain elasticity, so that the wire spool fixing piece 16 fixes the wire spool. When the wire spool is installed, the wire spool fixing clamp 13 firstly penetrates through the wire spool 6, the clamping plate buckle 14 is abutted against the baffle plate 10, then the wire spool and the next wire spool fixing clamp 13 are sequentially installed, the direction of the wire spool fixing clamp 13 installed later is opposite to that of the wire spool fixing clamp 13 in the front, and the clamping plate buckle 14 is fixed by the clamping plate 7. Two spool fixing pieces 16 fix the spool. The wire reels of the next group are also installed in the same way as the previous group, and the front clamping plate buckles 14 of the previous group are fixed by the clamping plates 7 opposite to the rear clamping plate buckles 14 of the previous group. In this way, a plurality of bobbins can be quickly fixed to the spool 6. The spool 6 is connected with the stranded wire shaft 12 through the connecting buckle 11, and the spool 6 is fixed and detached through the rotation of the connecting buckle 11. The wire spool is convenient to install and detach.

The wire twisting device 2 is composed of a wire twisting device crank 17, a crank gear 18, a wire twisting gear 19, a cycloid conveyor belt 20, a power wheel 21, a crank power shaft 22, a wire twisting device bracket 23, a connecting buckle 11 and a wire twisting shaft 12. The winder bracket 23 is provided with a crank power shaft 22 and a wire twisting shaft 12. The winding gear 19 and the connecting buckle 11 are arranged on the winding shaft 12, the winding gear 19 is driven by the crank gear 18, and power is transmitted to the winding shaft 6 through the winding shaft 12 and the connecting buckle 11. The winder crank 17, the crank gear 18 and the power wheel 21 are arranged on the crank power shaft 22, the crank gear 18 and the power wheel 21 are driven by rotating the winder crank 17, the crank gear 18 transmits power to the winding gear 19, and the power wheel 21 transmits power to the cycloid device 3 through the cycloid transmission belt 20.

The cycloid device 3 is composed of a cycloid power wheel 24, a cycloid wheel 25, a cycloid shaft 26, a cycloid rod 27, a sliding rod 28, a sliding rod buckle 29, a wire clamping rod 30 and a wire clamping buckle 31. When power is transmitted from the cycloid transmission belt 20 to the cycloid power wheel 24, the cycloid shaft 26 replaces the cycloid wheel 25, one surface of the cycloid wheel 25 is an inclined surface, and the cycloid rod 27 swings left and right under the rotation of the cycloid wheel 25. The sliding rod 28 passes through the sliding rod buckle 29, and drives the wire clamping rod 30 and the wire clamping buckle 31 to swing under the swinging of the cycloid rod 27. Whereby the cycloid bar 5 is periodically linearly swung to uniformly wind the wire around the spool during the winding process.

The wire pressing device 4 comprises a wire pressing wheel 32, a wire pressing wheel handle 34, a wire pressing wheel tension spring 33, a tension spring hook 35, a wire pressing wheel shaft 36, a connecting shaft 37, a wire pressing wheel support 38 and a wire door 39, wherein the wire pressing wheel support 38 is made of steel sheets and welded to a wire pressing device fixing frame, the connecting shaft 37 on the short side of the wire pressing wheel support 38 is connected with the wire pressing wheel handle 34, the connecting shaft on the long side of the wire pressing wheel support 38 is connected with one wire pressing wheel 32, the wire pressing wheel handle 34 is also provided with the wire pressing wheel shaft 36 to be connected with one wire pressing wheel 6, the wire pressing wheel 32 is made of bearings to rotate, the tension spring hook 35 is welded at the upper ends of the long side 38 of the wire pressing wheel support and the connecting shaft of the wire pressing wheel handle 34 and connected with the wire pressing wheel through the tension spring 33, the wire is provided with the wire pressing wheel 39 in front of the wire pressing wheel 32, and the wire enters the wire pressing wheel 32 through the wire door, and the wire is ensured not to swing back and forth to run out of the wire pressing wheel 32. When the wire rope is used, the wire rope firstly passes through the wire door 39, then the wire pressing wheel handle 34 is pulled up to separate the two wire pressing wheels 32, the wire rope passes through the gap between the two wire pressing wheels 32, the wire rope is tightly pressed through the wire ropes of the two wire pressing wheels 32, the wire pressing wheels are guaranteed to be tightly pressed, the wire pressing wheels continuously rotate, heat generation is reduced, loss of the wire rope is reduced, and meanwhile, each wire rope does not interfere with each other, wind and knot.

Claims

1. The utility model provides a field test planning spooler, the spooler includes, spooler (1), wire twisting ware (2), cycloid ware (3), line ball ware (4), its characterized in that:

the wire twisting device (2) is composed of a wire twisting device crank (17), a crank gear (18), a wire winding gear (19), a cycloid transmission belt (20), a power wheel (21), a crank power shaft (22), a wire twisting device bracket (23), a connecting buckle (11) and a wire twisting shaft (12), wherein the wire twisting device bracket (23) is provided with the crank power shaft (22) and the wire twisting shaft (12), the wire twisting shaft (12) is provided with the wire winding gear (19) and the connecting buckle (11), the wire winding gear (19) is driven by the crank gear (18) and transmits power to the wire winding shaft (6) through the wire twisting shaft (12) and the connecting buckle (11), the wire winding device crank (17), the crank gear (18) and the power wheel (21) are mounted on the crank power shaft (22), the crank gear (18) and the power wheel (21) are driven by rotating the wire twisting device crank (17), the crank gear (18) transmits power to the wire winding gear (19), and the power wheel (21) transmits power to the wire twisting device (3) through the cycloid transmission belt (20);

the wire winder (1) is composed of a wire spool (6) and a wire spool fixing clamp (13), the wire spool fixing clamp (13) comprises a wire spool fixing clamp (13), a clamping plate buckle (14), a fixing clamp spring (15) and a wire spool fixing piece (16), the clamping plate buckle (14) is fixed by a baffle plate (10) and a clamping plate (7), the clamping plate buckle (14) is connected with the wire spool fixing piece (16) through the fixing clamp spring (15), and the fixing clamp spring (15) has certain elasticity to enable the wire spool fixing piece (16) to fix the wire spool; each wire spool fixing clamp (13) penetrates through the wire spool (6), the clamping plate buckles (14) are abutted against the baffle plates (10), the wire spool and the next wire spool fixing clamp (13) are sequentially installed, the direction of the wire spool fixing clamp (13) installed at the back is opposite to that of the wire spool fixing clamp (13) in the front, the clamping plate buckles (14) are fixed by the clamping plates (7), and the wire spool is fixed by the two wire spool fixing plates (16); the number of the wire reels is multiple, the wire reels of the next group are installed in the same way as the former group, and the clamp plate buckles (14) in front of the next group are fixed by the clamp plates (7) opposite to the clamp plate buckles (14) in back of the last group; the winding shaft (6) is connected with the stranded wire shaft (12) through a connecting buckle (11), and the winding shaft (6) can be fixed and detached through rotation of the connecting buckle (11); the winding shaft (6) comprises clamping plates (7), clamping plate shafts (8) and clamping plate springs (9), wherein the two clamping plate shafts (8) are arranged in the winding shaft (6), the clamping plates (7) are arranged at fixed positions of the clamping plate shafts (8), the clamping plates (7) on the two clamping plate shafts (8) are identical in position, and the clamping plate springs (9) are arranged between the two clamping plate shafts (8), so that the clamping plates (7) are exposed out of the winding shaft (6) and are used for fixing the winding disc fixing clamp (13);

the cycloid device (3) consists of a cycloid power wheel (24), a cycloid wheel (25), a cycloid shaft (26), a cycloid rod (27), a sliding rod (28), a sliding rod buckle (29), a wire clamping rod (30) and a wire clamping buckle (31), wherein power can be transmitted from a cycloid transmission belt (20) to drive the cycloid power wheel (24), then the cycloid wheel (25) is driven by the cycloid shaft (26), one surface of the cycloid wheel (25) is an inclined surface, the cycloid rod (27) swings left and right under the rotation of the cycloid wheel (25), the sliding rod (28) penetrates through the sliding rod buckle (29), and the wire clamping rod (30) and the wire clamping buckle (31) are driven to swing under the swinging of the cycloid rod (27);

the wire pressing device (4) comprises a wire pressing wheel (32), a wire pressing wheel handle (34), a wire pressing wheel tension spring (33), tension spring hooks (35), a wire pressing wheel shaft (36), a connecting shaft (37), a wire pressing wheel support (38) and a wire door (39), wherein the wire pressing wheel support (38) is fixed on a wire pressing fixing frame in an L shape, the connecting shaft (37) is connected with the wire pressing wheel handle (34) on the short side of the wire pressing wheel support (38), the connecting shaft on the long side of the wire pressing wheel support (38) is connected with one wire pressing wheel (32), the wire pressing wheel handle (34) is also provided with the wire pressing wheel shaft (36) to be connected with one wire pressing wheel (32), the wire pressing wheel (32) can rotate through a bearing, the tension spring hooks (35) are welded at the upper ends of the long side of the wire pressing wheel support (38) and the connecting shaft of the wire pressing wheel handle (34), the wire pressing wheel is connected with the wire pressing wheel handle (39) through the tension springs (33), and a wire enters the wire pressing wheel (32) through the wire door (39).

2. The field trial planning take-up of claim 1, wherein: the wire pressing wheel support (38) is made of steel sheets and welded to the wire pressing device fixing frame.