CN201605483U - Automatic feeding straw rope machine - Google Patents

Abstract

The utility model discloses an automatic feeding straw rope machine comprising a rack, a driving mechanism, a feeding mechanism, a rope stranding mechanism and a rope winding mechanism, wherein the driving mechanism consists of a motor, a driving axle pivoted on the rack, a driving gear fixed on the driving axle, and a rope stranding driving gear connected with the gear of the rope stranding mechanism; the motor is linked with the driving gear; the rope winding mechanism consists of a rotary bracket pivoted on the rack and fixed with the driving axle, and a rope wheel and a rope winding gear group which are pivoted on the rotary bracket; the rope winding gear rope consists of a fixed bevel gear, a transmission bevel gear, a transmission axle and a straight gear; the fixed bevel gear is fixed on the rotary bracket and meshed with the transmission bevel gear; the transmission bevel gear and the straight gear are fixed on the transmission axle; and the straight gear is meshed with a rope wheel. The automatic feeding straw rope machine has high automation degree and can greatly improve production efficiency.

Description

The mechanical feed straw-rope machine

Technical field

The utility model relates to a kind of straw-rope machine, relates in particular to a kind of automaticity height, the mechanical feed straw-rope machine that can significantly enhance productivity.

Background technology

China remains an agricultural production big country, the annual production of rice is huge, and the thing followed is to produce a large amount of straw, if these rice straw burnings processing not only can be produced a large amount of greenhouse gases serious environment pollutions, and cause great waste, therefore straw is carried out reasonable use and have great importance.The important embodiment that straw is utilized again is that straw is processed into straw rope, at present, straw rope not only be used to plant trees forestry, vegetables and fruits booth, agricultural production is stranded and pricks, and being widely used in industrial mechanism packing, ceramic package, construction material packing and casting industry packing, straw rope has permeated every aspect in our life.

Traditional straw rope processing is to be undertaken by braiding manually, productivity ratio is very low, the workman substantially is at a random grass completely, under the environment that flue dust flies upward, this processing environment has great harm to the human respiratory tract, and along with the progress and the constant development of economy of society, manually the braiding straw rope can not satisfy the huge market demand, therefore occurred some straw-rope machines in recent years, yet these straw-rope machines all exist a problem, need the operation that manually grazes exactly, manually grazing wastes time and energy, and its productivity is also very low, and these straw-rope machines can not solve and artificial all problems of bringing of braiding straw rope fully.

Because of a little, be badly in need of a kind of can grazing automatically, automatic wiring, the mechanical feed straw-rope machine that can significantly enhance productivity.

The utility model content

The purpose of this utility model is to provide a kind of and can grazes automatically, automatic wiring, the mechanical feed straw-rope machine that can significantly enhance productivity.

To achieve these goals, the utility model provides a kind of mechanical feed straw-rope machine, comprise frame, driving mechanism, feed mechanism, torsade mechanism and wiring mechanism, described feed mechanism is fixed on the described frame and is connected with described torsade mechanism, described driving mechanism is connected with described feed mechanism belt, described torsade mechanism is fixed on the described frame, described wiring mechanism one end is connected with described driving mechanism, described wiring mechanism's other end and described frame articulate, wherein, described driving mechanism comprises motor, driving shaft, driven wheel and torsade driven wheel, described driven wheel and torsade driven wheel all are fixed on the described driving shaft, described driving shaft two ends are connected and are articulated on the described frame, described motor links with described driven wheel, described torsade driven wheel is connected with described torsade mechanism gear drive, described wiring mechanism comprises rotary support, rope sheave and wiring gear train, described wiring gear train comprises fixedly bevel gear, the transmission bevel gear, power transmission shaft and spur gear, described rotary support one end is fixedlyed connected with described driving shaft, the other end and described frame articulate, described rotary support can rotate around the central axis of self, described rope sheave is articulated on the described rotary support, described fixedly bevel gear is fixed on the described rotary support, the axis of described fixedly bevel gear and the central axes of described rotary support and with the engagement of described transmission bevel gear, described transmission bevel gear and described spur gear are fixed on the described power transmission shaft, described spur gear and the engagement of described rope sheave.

Preferably, described wiring mechanism also comprises pull rope mechanism, described pull rope mechanism comprises initiatively roller axle, driven roller axle and stay cord gear train, described driving mechanism has the driving bevel gear, described driving bevel gear is fixed on the described driving shaft and with described stay cord gear train and meshes, described active roller axle, driven roller axle and stay cord gear train all articulate with described rotary support, and described active roller axle and driven roller axle are coaxial with two gears of described stay cord gear train respectively.Utilize described driving bevel gear and described stay cord gear train, make described motor spool provide power for described active roller axle and driven roller, after torsade is finished, straw rope passes through between described active roller axle and driven roller axle, described active roller axle and driven roller axle rotate the stretchy straw rope, described wiring mechanism wiring is helped out, prevent that card grass, card rope or heap rope appear in straw rope at described torsade mechanism place phenomenon from producing, simultaneously, described active roller axle and driven roller axle rotate and compress straw rope, make straw rope twist with the fingers more solidly, prevent that straw rope is loose.

Preferably, described wiring mechanism also comprises the rope pendulum, described rope pendulum comprises sliding bar, sliding part with conductor rope ring, guide post and extension spring, the described stay cord gear train of described sliding bar belt transmission connects, described sliding bar articulates with described rotary support and is threaded with described sliding part, driving described sliding bar by belt transmission rotates, described sliding part is threadedly connected on the described sliding bar, described sliding part is moved back and forth on described sliding bar, thereby realize straw rope is wrapped on the described rope sheave equably, described conductor rope ring is limited on the described sliding part straw rope, described sliding part and described guide post flexibly connect, described guide post is fixed on the described frame, described guide post play the guiding role to described sliding part and prevents that described sliding part from rotating with described sliding bar, and described extension spring one end is fixedlyed connected with described support, and the other end is fixedlyed connected with described sliding part, described extension spring is connected with described sliding part, prevents that further described sliding part from rotating with described sliding bar.

Preferably, described feed mechanism has the grass tube of a pair of symmetry, described grass tube has rounded main containing cavity of cross section and the rectangular secondary containing cavity of cross section, described main containing cavity and secondary containing cavity are interconnected to form and send careless passage, describedly send careless passage to narrow gradually to going out a careless end from advancing a careless end.When straw held full described main containing cavity, a part of straw can be transferred to described secondary containing cavity, and grass is too fast to stop up careless because described feed mechanism send to prevent described main containing cavity.

Preferably, described rope sheave is provided with arrangements for speed regulation, and described arrangements for speed regulation have groove, spring and steel ball, described groove is opened on the described rope sheave, described steel ball is embedded in the described groove, and described spring one end and described bottom portion of groove are conflicted, and the other end and described steel ball are conflicted.When straw rope increases on described rope sheave when thickening, straw rope pushes described steel ball, thereby producing certain frictional force slows down rope sheave, and then described rotary support is slowed down, because described rotary support is connected with described driving shaft, therefore described torsade driven wheel slows down and is, the torsade speed of described torsade mechanism is slowed down, thereby prevent from because of torsade is too fast straw rope to be piled up between described torsade mechanism and described pull rope mechanism.

Preferably, described rope sheave has sheave shaft, and described sheave shaft surface is provided with depression.When straw rope behind full described rope sheave, shed rope sheave, fasten depression with hand, can easily straw rope be taken out smoothly.Particularly, described sheave shaft can split into two spindle units along its diagonal.When straw rope behind full described rope sheave, two spindle units are removed, can easily straw rope be taken out.

Preferably, described mechanical feed straw-rope machine also comprises trimming device, and described trimming device is built in the described driving shaft.When straw rope passes through described driving shaft, utilize described trimming device can cut the burr of straw rope.

Preferably, described driving mechanism also comprises reducing gear, described reducing gear has decelerator, drive link and chain, described decelerator input is connected with described motor, described decelerator output is connected with described drive link one end, and described chain is wound between the described drive link other end and the described driven wheel.

Because the utility model utilizes described driven wheel, torsade driven wheel and described rotary support are fixed on the described driving shaft simultaneously and described feed mechanism is connected with described motor belt, described motor only need drive described driving shaft can be simultaneously to described feed mechanism, described torsade mechanism and described rope sheave drive, and do not need a plurality of motors that it is driven separately, and by utilizing described rotary support one end to fixedly connected with described driving shaft, the other end and described frame articulate, described rotary support can be rotated transmission of power around the central axis of self to described wiring gear train, and then drive described rope sheave and rotate wiring with described rotary support, thereby realize that straw-rope machine grazes automatically and automatic wiring torsade time the automatically, need not manual intervention in the course of work, the automaticity height has greatly improved production efficiency.

Description of drawings

Fig. 1 is the structural representation of the utility model mechanical feed straw-rope machine.

Fig. 2 is the enlarged drawing of A part among Fig. 1.

View when Fig. 3 is the utility model mechanical feed straw-rope machine processing straw rope.

Fig. 4 is the enlarged drawing of B part among Fig. 2.

Fig. 5 is the structural representation of the grass tube of the utility model mechanical feed straw-rope machine.

Fig. 6 a is the profile of the rope sheave of the utility model mechanical feed straw-rope machine.

Fig. 6 b is the enlarged drawing of C part among Fig. 6 a.

The specific embodiment

As Fig. 1, Fig. 2, Fig. 3 and shown in Figure 4, the utility model mechanical feed straw-rope machine 100, comprise frame 1, driving mechanism 2, feed mechanism 3, torsade mechanism 4 and wiring mechanism 5, described driving mechanism 2 comprises motor 21, driving shaft 22, driven wheel 23, drive bevel gear 24 and torsade driven wheel 25, described wiring mechanism 5 comprises rotary support 51, pull rope mechanism 52, rope pendulum 53, rope sheave 54 and wiring gear train 55, described pull rope mechanism 52 comprises initiatively roller axle 52a, driven roller axle 52b and stay cord gear train 52c, described rope pendulum 53 comprises sliding bar 53a, sliding part 53b with conductor rope ring 53b1, guide post 53c and extension spring 53d, described wiring gear train 55 comprises fixedly bevel gear 55a, transmission bevel gear 55b, power transmission shaft 55c and spur gear 55d, described motor 21 is connected with described feed mechanism 3 belts, described feed mechanism 3 is fixed on the described frame 1 and is connected with described torsade mechanism 4, described torsade mechanism 4 is fixed on the described frame 1, described rotary support 51 1 ends, described driven wheel 23, described driving bevel gear 24 and described torsade driven wheel 25 all are fixed on the described driving shaft 22, described driving shaft 22 two ends are connected and are articulated on the described frame 1, described motor 21 links with described driven wheel 23, described torsade driven wheel 25 is connected with described torsade mechanism 4 gear drives, described rotary support 51 other ends and described frame 1 articulate, described rotary support 51 rotates around the central axis of self, described driving bevel gear 24 and described stay cord gear train 52c engagement, described active roller axle 52a, driven roller axle 52b and stay cord gear train 52c all articulate with described rotary support 51, described active roller axle 52a and driven roller axle 52b are coaxial with two gears of described stay cord gear train 52c respectively, described sliding bar 53a is connected with described stay cord gear train 52c belt, described sliding bar 53a is articulated on the described rotary support 51 and with described sliding part 53b and is threaded, described sliding part 53b and described guide post 53c flexibly connect, described guide post 53c is fixed on the described frame 1, described extension spring 53d one end is fixedlyed connected with described rotary support 51, the other end is fixedlyed connected with described sliding part 53b, described rope sheave 54 is articulated on the described rotary support 51, described fixedly bevel gear 55a is fixed on the described rotary support 51, the axis of described fixedly bevel gear 55a and the central axes of described rotary support 51 and with described transmission bevel gear 55b engagement, described transmission bevel gear 55b and described spur gear 55d are fixed on the described power transmission shaft 55c, described spur gear 55d and 54 engagements of described rope sheave.

As shown in Figure 5, the preferably, described feed mechanism 3 has the grass tube 31 of a pair of symmetry, described grass tube 31 has rounded main containing cavity 31a of cross section and the rectangular secondary containing cavity 31b of cross section, described main containing cavity 31a and secondary containing cavity 31b are interconnected to form and send careless passage 31c, describedly send careless passage 31c to narrow gradually to going out a careless end from advancing a careless end.When straw held full described main containing cavity 31a, a part of straw can be transferred to described secondary containing cavity 31b, prevented described main containing cavity 31a because described feed mechanism 3 send grass the too fast described grass tins 31 that stops up.The angle that described grass tube 31 axis and horizontal plane can be 5～60 degree is installed on the described frame 1, and described grass tube 31 axis of the present utility model are horizontal by the angle of 38 degree, and the axis of whole straw-rope machine and horizontal plane also are the angle of 38 degree.

Shown in Fig. 6 a and Fig. 6 b, the preferably, described rope sheave 54 is provided with arrangements for speed regulation 54a, described arrangements for speed regulation have groove 54a1, spring 54a2 and steel ball 54a3, described groove 54a1 is opened on the described rope sheave 54, described steel ball 54a3 is embedded among the described groove 54a1, conflicts in described spring 5,4a2 one end and described groove 54a1 bottom, and the other end and described steel ball 54a3 conflict.When straw rope 200 increases on described rope sheave 54 when thickening, the described steel ball 54a3 of straw rope 200 extruding, thereby producing certain frictional force slows down rope sheave 54, and then described rotary support 51 is slowed down, because described rotary support 51 is connected with described driving shaft 22, therefore described torsade driven wheel 25 slows down and is, the torsade speed of described torsade mechanism 4 is slowed down, thereby prevent from because of torsade is too fast straw rope 200 to be piled up between described torsade mechanism 4 and described pull rope mechanism 52.

As shown in Figure 2, the preferably, described rope sheave 54 has sheave shaft 54b, and described sheave shaft 54b surface is provided with depression 54b1.When straw rope 200 behind full described rope sheave 54, shed rope sheave 54, fasten straw rope 200 with hand in described depression 54b1 place, can easily straw rope 200 be taken out smoothly.Particularly, described sheave shaft 54b can split into two spindle units along its diagonal.When straw rope 200 behind full described rope sheave 54, two spindle units are removed, can easily straw rope 200 be taken out.

The preferably, described mechanical feed straw-rope machine 100 also comprises the trimming device (not shown), described trimming device is built in the described driving shaft 22.When straw rope 200 during, utilize described trimming device can cut the burr of straw rope 200 by described driving shaft 22.

As shown in Figure 3, the preferably, described driving mechanism 2 also comprises reducing gear 26, described reducing gear 26 has decelerator 26a, drive link 26b and chain 26c, described decelerator 26a input is connected with described motor 21, described decelerator 26a output is connected with described drive link 26b one end, and described chain 26c is wound between the described drive link 26b other end and the described driven wheel 23.

In conjunction with above-mentioned accompanying drawing, the operation principle to the utility model mechanical feed straw rope is described in detail below:

During work, described motor 21 rotates and drives described feed mechanism 3 and pass through decelerator 26a simultaneously, drive link 26b and chain 26c drive described driving shaft 22 and rotate, described driving shaft 22 rotates by the described torsade of described torsade driven wheel 25 drives mechanism 4 and rotates, and drive described rotary support 51 and rotate around the central axis of self, described rotary support 51 sides drive described rope sheave 54 by described wiring gear train 55 and rotate, and drive described active roller axle 52a and driven roller axle 52b rotation by described driving bevel gear 24 and stay cord gear train 52c, described feed mechanism 3 is transported to straw in the described grass tube 31, enter described torsade mechanism 4 by described grass tube 31, straw rope 200 is twisted with the fingers into described straw by described torsade mechanism 4, straw rope 200 passes the described driving shaft 22 of hollow, the trimming device that is built in the described driving shaft 22 is cut edge to straw rope 200, after removing burr, straw rope 200 is by described active roller axle 52a and driven roller axle 52b, the extruding of described active roller axle 52a and driven roller axle 52b and pulling straw rope 200, at last straw rope 200 is drawn to described rope pendulum 53, described sliding bar 53a makes described sliding part 53b reciprocating motion on described sliding bar 53a in rotation under the driving of described stay cord gear train 52c, thereby guiding straw rope 200 is being wrapped on the sheave shaft 54b of described rope sheave 54 equably.When the straw rope 200 of rope sheave 54 when full, only a wheel disc of described rope sheave 54 need be removed, be buckled in described depression 54b1 with hand and upward can will put in order 200 taking-ups of bundle straw rope, perhaps described sheave shaft 54b can be splitted into two spindle units, directly will put in order 200 taking-ups of bundle straw rope and get final product, convenient and swift.

Because the utility model utilizes described driven wheel 23, drive bevel gear 24, one end of torsade driven wheel 25 and described rotary support 51 is fixed on the described driving shaft 22 simultaneously and described feed mechanism 3 is connected with described motor 21 belts, 21 needs of described motor drive described driving shaft 22 can be simultaneously to described feed mechanism 3, described torsade mechanism 25 and described rope sheave 54 drive, and do not need a plurality of motors to drive separately, and by utilizing described rotary support 51 to rotate transmission of power to described wiring gear train 55 around self central axis, and then drive described rope sheave 54 and rotate wiring with described rotary support 51, utilize described driving bevel gear 24 and described stay cord gear train 52c engagement, make described motor 21 provide power for described active roller axle 52a and driven roller axle 52b, make described active roller axle 52a and driven roller axle 52b rotate pulling straw rope 200, described wiring mechanism 5 wirings are helped out, prevent that the card grass from appearring in straw rope 200 at described torsade mechanism 4 places, the phenomenon of card rope or heap rope produces, and be connected with described sliding bar 53a belt by described stay cord gear train 52c, make described rope pendulum 53 realize straw rope 200 is wrapped on the described rope sheave 54 equably, thereby realize that straw-rope machine grazes automatically and automatic wiring torsade time the automatically, need not manual intervention in the entire work process, the automaticity height has greatly improved production efficiency.

The installation method of feed mechanism 3, torsade mechanism 4 and stay cord gear train 52c that the utility model mechanical feed straw-rope machine 100 is involved and operation principle are well known to those of ordinary skill in the art, no longer are described in detail at this.

Above disclosed only is preferred embodiments of the present utility model, can not limit the interest field of the utility model certainly with this, and therefore the equivalent variations of being done according to the utility model claim still belongs to the scope that the utility model is contained.

Claims (9)

1. mechanical feed straw-rope machine, comprise frame, driving mechanism, feed mechanism, torsade mechanism and wiring mechanism, described feed mechanism is fixed on the described frame and is connected with described torsade mechanism, described driving mechanism is connected with described feed mechanism belt, described torsade mechanism is fixed on the described frame, described wiring mechanism one end is connected with described driving mechanism, described wiring mechanism's other end and described frame articulate, it is characterized in that: described driving mechanism comprises motor, driving shaft, driven wheel and torsade driven wheel, described driven wheel and torsade driven wheel all are fixed on the described driving shaft, described driving shaft two ends are connected and are articulated on the described frame, described motor links with described driven wheel, described torsade driven wheel is connected with described torsade mechanism gear drive, described wiring mechanism comprises rotary support, rope sheave and wiring gear train, described wiring gear train comprises fixedly bevel gear, the transmission bevel gear, power transmission shaft and spur gear, described rotary support one end is fixedlyed connected with described driving shaft, the other end and described frame articulate, described rotary support can rotate around the central axis of self, described rope sheave is articulated on the described rotary support, described fixedly bevel gear is fixed on the described rotary support, the axis of described fixedly bevel gear and the central axes of described rotary support and with the engagement of described transmission bevel gear, described transmission bevel gear and described spur gear are fixed on the described power transmission shaft, described spur gear and the engagement of described rope sheave.

2. mechanical feed straw-rope machine as claimed in claim 1, it is characterized in that: described wiring mechanism also comprises pull rope mechanism, described pull rope mechanism comprises initiatively roller axle, driven roller axle and stay cord gear train, described driving mechanism has the driving bevel gear, described driving bevel gear is fixed on the described driving shaft and with described stay cord gear train and meshes, described active roller axle, driven roller axle and stay cord gear train all articulate with described rotary support, and described active roller axle and driven roller axle are coaxial with two gears of described stay cord gear train respectively.

3. mechanical feed straw-rope machine as claimed in claim 1, it is characterized in that: described wiring mechanism also comprises the rope pendulum, described rope pendulum comprises sliding bar, has sliding part, guide post and the extension spring of conductor rope ring, described sliding bar articulates with described rotary support and is threaded with described sliding part, the described stay cord gear train of described sliding bar belt transmission connects, described sliding part and described guide post flexibly connect, described extension spring one end is fixedlyed connected with described support, and the other end is fixedlyed connected with described sliding part.

4. mechanical feed straw-rope machine as claimed in claim 1, it is characterized in that: described feed mechanism has the grass tube of a pair of symmetry, described grass tube has rounded main containing cavity of cross section and the rectangular secondary containing cavity of cross section, described main containing cavity and secondary containing cavity are interconnected to form and send careless passage, describedly send careless passage to narrow gradually to going out a careless end from advancing a careless end.

5. mechanical feed straw-rope machine as claimed in claim 1, it is characterized in that: described rope sheave is provided with arrangements for speed regulation, described arrangements for speed regulation have groove, spring and steel ball, described groove is opened on the described rope sheave, described steel ball is embedded in the described groove, described spring one end and described bottom portion of groove are conflicted, and the other end and described steel ball are conflicted.

6. mechanical feed straw-rope machine as claimed in claim 1 is characterized in that: described rope sheave has sheave shaft, and described sheave shaft surface is provided with depression.

7. mechanical feed straw-rope machine as claimed in claim 6 is characterized in that: described sheave shaft can split into two spindle units along its diagonal.

8. mechanical feed straw-rope machine as claimed in claim 1 is characterized in that: also comprise trimming device, described trimming device is built in the described driving shaft.

9. mechanical feed straw-rope machine as claimed in claim 1, it is characterized in that: described driving mechanism also comprises reducing gear, described reducing gear has decelerator, drive link and chain, described decelerator input is connected with described motor, described decelerator output is connected with described drive link one end, and described chain is wound between the described drive link other end and the described driven wheel.

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