CN208029491U - Cotton picker air hose control mechanism - Google Patents

Abstract

The utility model discloses a kind of cotton picker air hose control mechanism, the elevating control for sliding air hose in cotton delivery pipe, including：Crossbeam, for the cotton picker air hose control mechanism and the connection for sliding air hose；Scissor arms group has two sets, and the upper end of scissor arms group connects the crossbeam, and lower end is fixed on given pedestal；And oil cylinder, the upper end support beam of the oil cylinder, lower end is oil cylinder seat, for the installation of oil cylinder.Cotton picker air hose control mechanism lifting according to the utility model is reliable, and is influenced on passability and pilot's line of vision smaller.

Description

Cotton picker air hose control mechanism

Technical field

The utility model is related to a kind of cotton picker air hose control mechanism, wherein air hose is also known as cotton delivery pipe.

Background technology

As shown in Figure 1, being a kind of cotton picker structural schematic diagram common at present, be different from traditional cotton picker is a bit Its hopper uses the double-deck hopper, as illustrated in the drawing the outer hopper A2 and interior hopper A1 being vertically nested in outer hopper A2, interior cotton Case A1 is vertically being guided on outer hopper A2, to which in zero load, interior hopper A1 is fallen, and reduces the whole height of cotton picker, and is carried High passability, and when needing hopper dilatation, interior hopper A1 rises.The delivery head of cotton delivery pipe A4 shown in Fig. 1 needs To be adapted with the height of hopper, therefore, as shown in Fig. 2, cotton delivery pipe A4 include at least relatively-stationary fixed air duct A42 and The sliding air hose A41 being nested in outside fixed air duct A42, is constrained to slide air hose A41 by fixed air duct A42, and is had Ability axially adjustable fixed air duct A42.

Sliding air hose A41 and fixed air duct A42 is commonly sheet metal component, it is desirable to reduce or avoid sliding air hose A41 and consolidate Determine the friction between air hose A42, it is therefore desirable to configure relatively reliable cotton picker air hose control mechanism and push sliding air hose A41.

Chinese patent literature CN104285589A discloses a kind of elevating mechanism of cotton transport air hose in cotton picker, exists first It is pointed out in background technology, when interior hopper lifts, it is ensured that cotton transport air hose also will be lifted accordingly, and point out existing realization cotton transport The mechanism structure of air hose lifting is complicated, of high cost, is not applied for middle-size and small-size cotton picker.In turn, a kind of elevator is proposed Structure, the elevating mechanism include providing a movable support by riser and the guide rail on riser, and movable support is guided on described Guide rail, and then drive movable support to lift by driving device.

In some implementations, as shown in Figure 1, cotton-picker head A6 is located at the sides driver's cabin A5, to facilitate driver's observation to adopt Cotton like condition.And for movable support, it not only needs to guide, but also require it in the end of impulse stroke, guide rail props up activity Frame, which still needs, has relatively high enabling capabilities, and therefore, in the end of movable support impulse stroke, guide rail and movable support are still So need to keep larger length of fit, this requires guide rails bigger height, and in practical applications, the height of guide rail can It can give and be higher than driver's cabin A5, can have a certain impact to passability.Meanwhile passability is not considered even, guide rail and institute Attached riser can also influence the sight of driver.

Utility model content

In view of this, the purpose of this utility model is to provide a kind of lifting is reliable, and passability and driver are regarded Line influences smaller cotton picker air hose control mechanism.

A kind of cotton picker air hose control mechanism is provided in the utility model embodiment, for sliding air hose in cotton delivery pipe Elevating control, including：

Crossbeam, for the cotton picker air hose control mechanism and the connection for sliding air hose；

Scissor arms group has two sets, and the upper end of scissor arms group connects the crossbeam, and lower end is fixed on given pedestal； And

Oil cylinder, the upper end support beam of the oil cylinder, lower end is oil cylinder seat, for the installation of oil cylinder.

Above-mentioned cotton picker air hose control mechanism optionally often covers the matched scissor number of scissor arms group more than two pairs, and not more than Seven is secondary.

Optionally, it is half arm scissor to be located at topmost and be located at the lowermost scissor, and a pair of half arm scissor cuts arm and phase It is based on hingedly constituting quadrilateral structure between the secondary scissor of adjacent one.

Optionally, it is connected by the first bracket between uppermost half arm scissor and crossbeam, which has：

The structural member of crossbeam is circumferentially wrapped in crossbeam；The structural member, radially outward from otic placode, passes through the otic placode in crossbeam It is fixedly connected with corresponding half arm scissor.

Optionally, in the axial direction of crossbeam, it is respectively provided with a stroke leading truck on the both sides of every set scissor arms group, the trip is led Strip-shaped hole or straight trough on sliding air hose lifting direction is provided to frame；

The both ends of the intermediate axis pin of the second secondary scissor from lower end are accordingly guided on the strip-shaped hole or straight trough of corresponding side, and Stroke stop point is formed by the constraint of strip-shaped hole or straight trough upper and lower ends.

Optionally, it is connected with stabiliser bar between two secondary scissor arms groups, to improve overall stiffness.

Optionally, the quantity configuration of oil cylinder is：

First method：The quantity of oil cylinder is one, which biases to the driver's cabin side of cotton picker, and is driven in crossbeam direction One end of room is equipped with counterweight, so that the both ends balance of oil cylinder institute support beam；

Second method：The quantity of oil cylinder is two, and two oil cylinders are arranged parallel.

Optionally, in second method, two oil cylinders and two secondary scissor arms groups are arranged in the axially spaced-apart of crossbeam.

Optionally, it is provided with shaft hole on crossbeam, for assembling shaft, the lifting direction of corresponding shaft and sliding air hose Vertically；

Shaft is used to slide the rotation connection between air hose side and crossbeam.

Optionally, the oil cylinder seat of scissor arms group and oil cylinder is total to frame.

In the embodiments of the present invention, traditional guider is omitted, and scissor arms group is used to provide oil cylinder support It rises and stablizes support after sliding air hose, two sets of scissor arms groups can provide relatively reliable support.Scissor arms group is different from tradition Guider, can pack up, to when interior hopper is transferred in outer hopper, scissor arms group can pack up, without influencing Passability, on driver's cabin block influence it is also smaller.

Description of the drawings

Fig. 1 is a kind of assembling structure of the cotton picker air hose control mechanism of foundation the utility model embodiment on cotton picker Schematic diagram.

Fig. 2 is a kind of cotton delivery pipe part-structure schematic diagram.

Fig. 3 is the main frame structure schematic diagram of cotton picker air hose control mechanism in an embodiment.

Fig. 4 is cotton picker air hose control mechanism front side direction view structure in an embodiment.

Fig. 5 is the lateral view structure of cotton picker air hose control mechanism money in another embodiment.

In figure：A1. interior hopper, the outer hoppers of A2., the chassis A3., A4. cotton delivery pipes, A5. driver's cabins, A6. cotton-picker heads.

A41. air hose, A42. fixed air ducts are slided.

1. shaft hole, 2. bolts, 3. nuts, 4. crossbeams, 5. stabiliser bars, 6. first jackings, 7. scissor arms groups, 8. activities Axis, 9. fixing axles, 10. stroke leading trucks, 11. stroke guiding axis, 12. pedestals, 13. front leg struts, 14. mounting holes, 15. stabilizer blades, 16. rear support leg, 17. back rest, 18. second brackets, 19. oil cylinders, 20 shafts, 21. counterweights.

Specific implementation mode

As shown in Figures 4 and 5, for cotton delivery pipe A4, usually have it is a plurality of, shown with three in Fig. 4 and Fig. 5.Such as Fig. 4 institutes The right side shown is side where driver's cabin A5, it is however generally that, cotton delivery pipe A4 be not be vertical tube, be actually one compound oblique Pipe, the first inclined direction is to tilt backwards upwards（Using vehicle frame as referential, vehicle frame has head and tail or front and rear, and left It is right）, the second inclined direction is then as shown in figure 4, it also has certain gradient in the lateral direction.Be subject to it is corresponding, such as Fig. 4 institutes The oil cylinder 19 shown, driving direction generally according to the first inclined direction configure, in this regard, those skilled in the art should have it is clear Ground understands.Merely from lifting principle, there is no substantive difference, areas with conventional cotton picker air hose control mechanism for the utility model It is not that in the embodiments of the present invention, there is no the structures being oriented to lifting part in elevating mechanism.

In this field, it is to be understood that sliding air hose A41 and fixed air duct A42 fit clearances are larger, and the two essence is simultaneously More violent CONTACT WITH FRICTION is not generated, since the cotton delivery pipe A4 modes for being typically based on air inducing generate wind model, slides wind Although gap between pipe A41 and fixed air duct A42 will produce certain air loss, but within the scope of acceptable. Generally speaking, sliding air hose A41 does not need to fixed air duct A42 and is oriented to, and gap between the two is larger, to being oriented to There is no very high requirements for the guiding accuracy of mechanism.Assembly and mounting structure for cotton delivery pipe A4 be not in the utility model Improvement threshold within, details are not described herein.

For cotton delivery pipe A4, lifting travel is to determine in other words for the impulse stroke of sliding air hose A41, for cotton picking Machine air hose control mechanism, is used to match the lifting travel, without considering stepless changing, is for the current double-deck cotton Case, interior hopper A1 are generally once adjusted in place.

In addition, for Fig. 4 middle cross beams 4, dome-like roof is generally used, it is axial unanimous on the whole with the transverse direction of vehicle frame, also It is the left and right directions of vehicle frame.

For relatively large cotton picker, driver's cabin A5 is normally biased at vehicle frame head side and drives in some implementations Sail room A5 can above cotton-picker head A6 rear side, no matter which kind of configure, should all avoid cotton picker air hose control mechanism as far as possible Interference to driver's cabin A5.

Based on above description, what the control object of cotton picker air hose control mechanism was to determine, it contributes in cotton delivery pipe Slide the elevating control of air hose A41, what the lifting travel of sliding air hose A41 was also to determine, including cotton-conveying pipe A4, in cotton picking What the assembling structure on machine was also to determine, the improvements of the utility model are not belonging to, this is repeated no more.

For cotton picker air hose control mechanism, as previously mentioned, cotton delivery pipe A4 is commonly provided with a plurality of, a plurality of cotton delivery pipe A4 It needs by synchronization lifting, therefore, it is sliding on cotton delivery pipe A4 that general cotton picker air hose control mechanism generally uses a beam to realize The connection collection of dynamic air hose A41 gets up to all sliding air hose A41 connection collection for example, by crossbeam shown in Fig. 44, synchronous to drive It is dynamic.

In figures 4 and 5 as it can be seen that gradients of three cotton carding pipeline A4 on transverse plane and differing, it is however generally that sliding The dynamic usually active connection of connection between air hose A41 and crossbeam 4, to avoid movement interference is generated.

The hanging that rope or rope may be used between sliding air hose A41 and crossbeam 4, so as to effectively avoid movement dry It relates to, in some implementations, slides between air hose A41 and crossbeam 4 using the flexural pivot chain link of hanging.In some implementations, it provides One shaft 20, the shaft 20 is vertical with lifting direction, and sliding air hose A41 has certain swing space based on shaft 20, can be with Adapt to movement interference of the cotton delivery pipe 4 of different gradients at different height.

It is subject to corresponding, adapts to shaft 20, slide and be all provided with shaft hole 1 on air hose A41 and crossbeam 4, to be matched Connection.

In structure shown in Fig. 3, it is furnished with two sets of scissor arms groups 7,2 points of supports is formed to crossbeam 4, crossbeam 4 can be allowed to have There is comparatively firm support.Although scissor arms group 7 is relative to relative complex in guiding mechanism structure, in collapsed state When, height is relatively low.

In addition, guiding mechanism usually contains prismatic pair, need to lubricate, and cotton picking is live, since dust is more above plant, It will produce a large amount of dusts when cotton picking, these dusts may enter the mating surface of prismatic pair, and the functional reliability of prismatic pair has It is reduced.

It for scissor arms group 7, is commonly applied at present in scissor-type jack up unit, is substantially a kind of two-force-rod series, put down One of the typical case of row quadrangular mechanism.In scissor arms group 7, arm is cut two-by-two and constitutes a secondary scissor, two in a secondary scissor A to cut that arm normal length is identical, two in a secondary scissor are cut arm there are one hinge joints for tool each other, which is typically to cut The middle part of arm, the hinge joint as corresponding to the fixing axle 9 in scissor of the scissor arms group 7 in addition to upper and lower ends scissor in Fig. 3；? During some are realized, two hinge joints for cutting arm in a secondary scissor are in end, and such as each one of 7 upper end both ends of scissor arms group in Fig. 3 Secondary scissor.Between adjacent scissor, generally use axis pin carries out end end and is hinged, being hinged corresponding to movable axis 8 as shown in Figure 3 Point.

For fixing axle 9 and movable axis 8, it is only used for distinguishing feature, and is not that such as exactly fixation of fixing axle 9 is set It sets, fixing axle 9 and 8 essence of movable axis are all hinged shafts.

The number of degrees of freedom, of scissor arms group 7 is 1, therefore, after introducing a driving link, has determining relative motion, In traditional scissor-type jack up unit, driving link is typically one and cuts arm, such as can be by appointing in oil cylinder pushing scissor arms group 7 One cuts arm to realize, the arm of cutting pushed is the driving link in scissor arms group 7.

In the embodiments of the present invention, oil cylinder 19, which is not directly placed on, cuts arm, but acts on crossbeam 4, also phase When in introducing power, in figure 3, crossbeam 4 is cut arm with one in uppermost scissor and is fixedly connected.

It since crossbeam 4 is rod piece, and cuts arm and usually also belongs to rod piece, although it is rectangular pipe fittings in most cases to cut arm. For crossbeam 4 and the connection between arm is cut, can be directly attached using wrist fastener.

In some implementations, U-bolt may be used to be attached, opens a pair of bolts hole on arm in given cutting, U-shaped spiral shell Bolt is sleeved on crossbeam 4, is then passed through the given bolt hole cut on arm and is fastened again by nut.

In some embodiments, crossbeam 4 and a connection cut between arm can be realized in a manner of directly using iron wire binding.

In some embodiments, the bracket that regulation may be used carries out crossbeam 4 and the selected connection for cutting arm, such as institute in Fig. 3 Substantially also for tool there are one via, passing through and locking for crossbeam 4 has ear on jacking for the first jacking 6 shown, actually jacking Plate, otic placode are provided with bolt hole, and otic placode is generally axially vertical with crossbeam 4.

Otic placode can also be arranged on arm in corresponding cut, by the contraposition of bolt hole, then wear bolt and realize that fastening connects It connects.

In addition for the seat end of scissor arms group 7, pedestal as shown in Figure 3, the seat end phase with conventional guiding mechanism Seemingly, may be mounted on same component, for example, on vehicle frame or wheelhouse flat and other be relatively fixed and be located at crossbeam On the component of 4 lower sections.

It is oil cylinder 19 to drive the component of sliding air hose A41 liftings, it is seen that, should in attached Figure 4 and 5 for pushing crossbeam 4 The upper end support beam 4 of oil cylinder 19, lower end are oil cylinder seat, for the installation of oil cylinder.

It about the oil cylinder seat of oil cylinder 19, may be mounted on wheelhouse flat, can also be on the frame body of cotton-picker head A6.? In structure shown in Fig. 3, rear support leg 16, front leg strut 13 have supported a platform structure, wherein for example rear support leg 16 can fill The front end of vehicle frame is fitted over, front leg strut 13 can be assemblied on wheelhouse flat.Rear support leg 16 and front leg strut 13 are supported flat Platform is as main frame body, for the installation at the seat end of such as scissor arms group 7 or oil cylinder 19.

For scissor arms group 7, if used scissor is less, when lifting altitude having the same, it is necessary to longer Arm is cut, in order to reduce the occupancy to vehicle frame or cotton picker longitudinal space, it is secondary more than two often to cover 7 matched scissor number of scissor arms group. Scissor quantity is also unsuitable excessive, and when excessive, whole stability can relatively poor, for this purpose, often cover that scissor arms group 7 matched cuts Fork number is not more than seven pairs.

Scissor arms group 7 belongs to a kind of typical case of parallelogram mechanism, in order to ensure the reliability of its support, needs Stroke Control is carried out to it.As shown in figure 3, in the axial direction of crossbeam 4, a stroke is respectively provided on the both sides of every set scissor arms group 7 Leading truck 10, the trip leading truck 10 provide strip-shaped hole or straight trough on sliding air hose A41 liftings direction.

Between scissor is constrained in two stroke leading trucks 10, certain stability can be improved, meanwhile, strip-shaped hole or straight trough Axis pin can be realized and be guided, and the stroke of axis pin is constrained.

For scissor arms group 7, as previously mentioned, it is with one degree of freedom, therefore, constrained when to wherein one secondary scissor When, the stroke of remaining scissor also can be restrained.

In contrast, restrained axis pin is more longer than remaining axis pin, needs to extend to both ends, to probe into corresponding side Strip-shaped hole or straight trough.

In turn, the both ends for being subject to the intermediate axis pin of matched the second secondary scissor from lower end are accordingly guided on corresponding side Strip-shaped hole or straight trough, and formed stroke stop point by the constraint of strip-shaped hole or straight trough upper and lower ends.Here intermediate axis pin is For fixing axle 9 shown in Fig. 3.

As previously mentioned, scissor arms group 7 needs to have certain stability, overall stiffness is higher, and stability is better, In structure shown in Fig. 3, it is connected with stabiliser bar 5 between two secondary scissor arms groups 7, an entirety is connected as, so as to effectively improve Overall stiffness.

Welding structure may be used between arm in cutting for 7 respective end of both ends and scissor arms group of stabiliser bar 5, can also use bolt Connection.

In addition, about oil cylinder 19, it is configurable to one, two can also be configured to, the former is denoted as first method, after Person is denoted as second method.

Wherein, about first method：The situation that i.e. 19 quantity of oil cylinder is one, the oil cylinder 19 is to the sides driver's cabin A5 of cotton picker Biasing, and it is equipped with counterweight 21 towards one end of driver's cabin A5 in crossbeam 4, so that the both ends balance of oil cylinder institute support beam 4.

Not usually it is to bias, such as most common term is bias at middle part, i.e., in machinery field about biasing It is not bias at center.

Oil cylinder 19 is biased, is conducive to improve driving reliability.

About second method：The quantity of oil cylinder is two, two settings parallel of oil cylinder 19.

In a preferred embodiment, as shown in fig. 4 or 5, two oil cylinders 19 and two secondary scissor arms groups 7 are between the axial direction of crossbeam 4 Every setting.

Claims (10)

1. a kind of cotton picker air hose control mechanism, the elevating control for sliding air hose in cotton delivery pipe, which is characterized in that packet It includes：

Crossbeam, for the cotton picker air hose control mechanism and the connection for sliding air hose；

Scissor arms group has two sets, and the upper end of scissor arms group connects the crossbeam, and lower end is fixed on given pedestal；And

Oil cylinder, the upper end support beam of the oil cylinder, lower end is oil cylinder seat, for the installation of oil cylinder.

2. cotton picker air hose control mechanism according to claim 1, which is characterized in that often cover the matched scissor number of scissor arms group More than two pairs, and not more than seven is secondary.

3. cotton picker air hose control mechanism according to claim 2, which is characterized in that be located at topmost and be located at bottom Scissor be half arm scissor, a pair of half arm scissor is cut between arm and adjacent one secondary scissor based on hingedly constituting quadrilateral structure.

4. cotton picker air hose control mechanism according to claim 3, which is characterized in that be located at uppermost half arm scissor with It is connected by the first bracket between crossbeam, which has：

The structural member of crossbeam is circumferentially wrapped in crossbeam；The structural member, radially outward from otic placode, passes through the otic placode and phase in crossbeam The half arm scissor answered is fixedly connected.

5. cotton picker air hose control mechanism according to claim 3, which is characterized in that in the axial direction of crossbeam, cut in every set The both sides of yoke group are respectively provided with a stroke leading truck, the trip leading truck provide strip-shaped hole on sliding air hose lifting direction or Straight trough；

The both ends of the intermediate axis pin of the second secondary scissor from lower end are accordingly guided on the strip-shaped hole or straight trough of corresponding side, and by item The constraint of shape hole or straight trough upper and lower ends and form stroke stop point.

6. according to any cotton picker air hose control mechanism of claim 1 ~ 5, which is characterized in that connect between two secondary scissor arms groups It is connected to stabiliser bar, to improve overall stiffness.

7. according to any cotton picker air hose control mechanism of claim 1 ~ 5, which is characterized in that the quantity configuration of oil cylinder For：

First method：The quantity of oil cylinder is one, which biases to the driver's cabin side of cotton picker, and in crossbeam towards driver's cabin One end is equipped with counterweight, so that the both ends balance of oil cylinder institute support beam；

Second method：The quantity of oil cylinder is two, and two oil cylinders are arranged parallel.

8. cotton picker air hose control mechanism according to claim 7, which is characterized in that in second method, two oil cylinders and two Secondary scissor arms group is arranged in the axially spaced-apart of crossbeam.

9. cotton picker air hose control mechanism according to claim 1, which is characterized in that shaft hole is provided on crossbeam, with In assembly shaft, corresponding shaft is vertical with the sliding lifting direction of air hose；

Shaft is used to slide the rotation connection between air hose side and crossbeam.

10. cotton picker air hose control mechanism according to claim 1, which is characterized in that the oil cylinder of scissor arms group and oil cylinder The total frame of seat.