CN110509934A - Lifting apparatus and cableway for cableway - Google Patents

Abstract

The present invention relates to cableway technical fields, provide a kind of lifting apparatus and cableway for cableway.Wherein, lifting apparatus for cableway, for being lifted the lifting beam docked with fixed beam, including connection component and lifting driving mechanism, connection component includes hold-down support and rotary support, rotary support is fixedly connected with lifting beam, hold-down support is fixedly connected with fixed beam, and rotary support rotation is socketed on hold-down support, and lifting driving mechanism one end is connected and fixed beam, other end connection lifting beam, lifting driving mechanism drive lifting beam rotation by linear expansion.Cableway includes straightway, accelerating and decelerating part, curved segment and the lifting apparatus for cableway, and straightway and curved segment are provided with fixed beam and lifting beam, are connected between fixed beam and lifting beam by connection component.The bias of lifting apparatus and cableway for cableway of the invention, rotary support is small, and compact overall structure occupies little space.

Description

Lifting apparatus and cableway for cableway

Technical field

The present invention relates to cableway technical fields, more particularly to a kind of lifting apparatus and cableway for cableway.

Background technique

Cableway is the equipment using the cable wire support and traction car or lorry that are suspended in the air.Cableway according to support and Traction method is divided into the diversified forms such as single-line type, multiple line formula, reciprocating, circulating, hanging type.De- hanging cable road HOP ON-CHOP OFF, Automatization level is high, and adaptation to the ground ability is strong, and safely and fast, transport capacity is big, is the mainstream equipment type of domestic and international cableway at present Formula.

In the cableway with intermediate station, in order to adapt to different operating conditions, the straightway that can switch is provided in intermediate station 1 ' and 2 ' curved segment 3 ' of accelerating and decelerating part, to realize the isolated operation along accelerating and decelerating part 2 ' to curved segment 3 ', or along accelerating and decelerating part 2 ' to The overall operation of straightway 1 '.Wherein, what accelerating and decelerating part 2 ' referred to is accelerating sections or braking section.

When needing the opposite joining relation of switching straight line section 1 ' or curved segment 3 ' and accelerating and decelerating part 2 ', need straightway 1 ' or curved 3 ' tire beams of section are lifted or are put down, and therefore, it is necessary to the lifting apparatus for cableway is arranged.

In the existing lifting apparatus for cableway, structure is generally all more complicated, needs in straightway 1 ' or curved segment 3 ' The tire beam for additionally increasing rotatable lifting or putting down, this structure is on the one hand not compact enough, and occupied space is big, on the other hand It is to be degrading the stress of rotary shaft since rotational structure is eccentric too many.

Summary of the invention

(1) technical problems to be solved

The object of the present invention is to provide a kind of lifting apparatus and cableway for cableway, to solve the prior art or correlation The technical problems such as the structure of the lifting apparatus present in technology for cableway is not compact enough, occupied space is big, stress is bad.

(2) technical solution

In order to solve the above-mentioned technical problem, one embodiment of the present of invention provides a kind of lifting apparatus for cableway, uses In the lifting beam that lifting is docked with fixed beam, including connection component and lifting driving mechanism, the connection component includes fixed branch Seat and rotary support, the rotary support are fixedly connected with the lifting beam, and the hold-down support is fixedly connected with the fixed beam, institute It states rotary support rotation and is socketed on the hold-down support；Described lifting driving mechanism one end connects the fixed beam, and the other end connects The lifting beam is connect, the lifting driving mechanism drives the lifting beam to rotate by linear expansion.

In one embodiment, the hold-down support includes first sock and limiting section, and the limiting section is set to described One end of first sock, the rotary support include the second socket part, and second socket part is socketed on first socket Portion, the second socket part described in the limiting section axial limiting.

In one embodiment, the hold-down support further includes the first extension and first connecting portion, and described first extends Portion connects the limiting section and the first connecting portion, and the first connecting portion is connected to the fixed beam；

The rotary support further includes the second extension and second connecting portion, and second extension connects described second set Socket part and the second connecting portion, the second connecting portion are connected to the lifting beam；

First extension is identical as the second extension structure, the first connecting portion and the second connecting portion Structure is identical.

In one embodiment, protection lubrication part is equipped between the hold-down support and the rotary support.

In one embodiment, the protection lubrication part includes the first body and the second body, first body and institute It states the second body to combine to form cylindricality body, the periphery of the cylindricality body has the groove body being open towards the rotary support.

In one embodiment, the connection component is connected to wheel group, and the wheel group includes belt wheel and tire, the belt wheel Transmission shaft is equipped between the tire, the transmission shaft runs through and be rotationally connected with the hold-down support, the hold-down support Between the belt wheel and the tire.

In one embodiment, the lifting driving mechanism includes flexible actuator and fixed bracket, the flexible driving One end of part connects the fixed bracket, and the other end of the flexible actuator connects the lifting beam.

In one embodiment, the fixed bracket is equipped with through-hole, and the flexible actuator is connected to the through-hole, institute Stating flexible actuator drives the lifting beam to reach target position, the flexible actuator can in the through-hole direction and its It is mobile to stretch out contrary direction.

In one embodiment, the through-hole wall is formed with buffer layer.

Another embodiment of the invention provides a kind of cableway, including straightway, accelerating and decelerating part, curved segment and described For the lifting apparatus of cableway, the straightway and the curved segment are provided with the fixed beam and the lifting beam, described solid Determine to connect between beam and the lifting beam by the connection component.

(3) beneficial effect

Compared with prior art, one or more technical solutions have the following technical effect that it in the embodiment of the present invention One:

The embodiment of the present invention, in the lifting apparatus for cableway, connection component includes the hold-down support being mutually socketed Center and the fixation of rotary support are shortened relative to hold-down support and the mutually independent structure of rotary support with rotary support Spacing between the center of support reduces the eccentric distance between hold-down support and rotary support, optimize hold-down support with The stress of rotary support keeps stress more balanced, and overall structure is extremely compact, occupies little space.

The above-mentioned lifting apparatus for cableway is arranged in cableway in another embodiment of the invention, convenient in cableway Straightway or curved segment switched over accelerating and decelerating part, and the whole stress equalization of handoff procedure straightway and curved segment is eccentric It is small, help to provide structural stability and service life.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of accelerating and decelerating part, straightway and curved segment in the intermediate station of cableway in the prior art；

Fig. 2 is structural schematic diagram of the embodiment of the present invention for the lifting apparatus of cableway；

Fig. 3 is the overlooking structure diagram of Fig. 2；

Fig. 4 is the embodiment of the present invention for the hold-down support of the lifting apparatus of cableway, the opposite position of rotary support and belt wheel Set the enlarged diagram of relationship；

Hold-down support of the Fig. 5 for the embodiment of the present invention for the lifting apparatus of cableway is docked with fixed beam and rotary support The schematic diagram docked with lifting beam；

Fig. 6 be the embodiment of the present invention for the hold-down support of the lifting apparatus of cableway and rotary support belt wheel and tire it Between connection status diagram；

Fig. 7 is the schematic cross-sectional view of A-A in Fig. 6；

Fig. 8 is structural schematic diagram of the embodiment of the present invention for the hold-down support of the lifting apparatus of cableway；

Fig. 9 is flexible actuator and support bracket fastened connecting portion of the embodiment of the present invention for the lifting apparatus of cableway Enlarged structure schematic diagram；

Figure 10 is support bracket fastened structural schematic diagram of the embodiment of the present invention for the lifting apparatus of cableway.

In figure, 1 ', straightway；2 ', accelerating and decelerating part；3 ', curved segment；

1, fixed beam；2, belt wheel；3, it is lifted beam；4, fixed bracket；41, through-hole；42, buffer layer；5, stretch actuator； 51, hinged bolts；6, hold-down support；61, first sock；62, limiting section；63, the first extension；64, first connecting portion； 65, confined planes；7, rotary support；8, tire；9, transmission shaft；10, protection lubrication part.

Specific embodiment

With reference to the accompanying drawings and examples, specific embodiments of the present invention will be described in further detail.Implement below Example is not intended to limit the scope of the invention for illustrating the present invention.

In the description of the present invention, it should be noted that term " center ", " longitudinal direction ", " transverse direction ", "upper", "lower", The orientation or positional relationship of the instructions such as "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside" is It is based on the orientation or positional relationship shown in the drawings, is merely for convenience of description of the present invention and simplification of the description, rather than instruction or dark Show that signified device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as pair Limitation of the invention.In addition, term " first ", " second ", " third " etc. are used for description purposes only, and should not be understood as instruction or Imply relative importance.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " installation ", " phase Even ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can To be mechanical connection, it is also possible to be electrically connected；It can be directly connected, can also can be indirectly connected through an intermediary Connection inside two elements.For the ordinary skill in the art, concrete condition can be regarded and understand that above-mentioned term exists Concrete meaning in the present invention.

In addition, in the description of the present invention, unless otherwise indicated, " multiple ", " more ", " multiple groups " be meant that two or It is more than two.

In conjunction with shown in Fig. 2-10, the embodiment of the present invention provides a kind of lifting apparatus for cableway, solid in fixed beam 1 Periodically, for being lifted the lifting beam 3 docked with fixed beam 1.

Specifically, the lifting apparatus for cableway includes connection component and lifting driving mechanism, connection component includes fixing Support 6 and rotary support 7, the first end of rotary support 7 are fixedly connected with lifting beam 3, and the second end rotation of rotary support 7 is socketed on The second end of hold-down support 6, the first end of hold-down support 6 are fixedly connected with fixed beam 1；Lifting driving mechanism one end is connected and fixed beam 1, other end connection lifting beam 3, lifting driving mechanism drives the lifting beam 3 to rotate by linear expansion.

For the eccentric too many problem of rotational structure in the prior art, connection component is provided with the rotation of directly rotation socket Support 7 and hold-down support 6 shorten in rotary support 7 relative to hold-down support 6 and the mutually independent structure of rotary support 7 Spacing between the heart and the center of hold-down support 6 reduces the eccentric distance between hold-down support 6 and rotary support 7, optimizes The stress of hold-down support 6 and rotary support 7 keeps stress more balanced, and overall structure is extremely compact, and rotary support 7 is not necessarily to Additional setting rotation axis, occupies little space.Wherein, the center of rotary support 7 refers to the length of the pivot center along rotary support 7 Direction center, similarly, the center of hold-down support 6 refer to along the length direction center of the pivot center of rotary support 7.

The lifting apparatus of the present embodiment, suitable for the tire beam of intermediate station, lifting or putting down for tire beam, lifting dress It is arranged in straightway 1 ' and curved segment 3 ', so that accelerating and decelerating part 2 ' and straightway 1 ' or curved segment 3 ' switch over.Belt wheel 2 and tire 8 Set on the two sides of tire beam, connection component is set between belt wheel 2 and tire 8, and installation space is small, will not occupy additional space, Keep the structure of tire beam and intermediate station more compact.

It should be noted that in conjunction with shown in Fig. 2 and 3, when fixed beam 1 is in mated condition with lifting beam 3, fixed beam 1 Length direction center line and lifting beam 3 length direction centerline collineation, to guarantee that tire 8 provides continuous-stable to carriage Driving force.Mated condition herein refers to that fixed beam 1 and lifting beam 3 form communication path, is lifted beam 3 not relative to fixation Beam 1 lifts.When lifting beam 3 is lifted relative to fixed beam 1, switched over the tire beam path to intermediate station.Wherein, it is lifted The lifting status of beam 3 is as shown in Figure 4.

When lifting apparatus is used for the tire beam of intermediate station, in one embodiment, in conjunction with shown in Fig. 5-7, connection component connection In wheel group, wheel group includes belt wheel 2 and tire 8, and transmission shaft 9 is equipped between belt wheel 2 and tire 8, and transmission shaft 9 runs through and is rotatablely connected In hold-down support 6, i.e. support of the hold-down support 6 as wheel group, it is used to support transmission shaft 9.Hold-down support 6 is directly connected to wheel group, Space is further saved, reduces the influence being distributed to wheel group on tire beam, guarantees stable drive between each wheel group.

Further, the structure that hold-down support 6 and the socket of rotary support 7 are formed, it is identical as traditional wheel group support shape, To facilitate wheel group to install.

It is also understood that traditional wheel group support is divided into two supports: hold-down support 6 and rotary support 7, it is fixed The existing support function of composite structure of support 6 and rotary support 7, also has rotation function, and overall structure is extremely compact, is not take up Exceptional space, eccentric small, stress is more balanced.

Above-mentioned wheel group is connected between above-mentioned belt wheel 2 belt wheel adjacent thereto by transmission belt when carrying out power transmission It connects, transmission belt is tensioned by tensioning apparatus, to guarantee transmission stability.The mistake for being lifted or putting down in order to avoid lifting beam 3 Cheng Zhong, tensioning apparatus interfere with other component, and the dimensions of tensioning apparatus selects as needed.

In the following, providing hold-down support 6 and the structure of rotary support 7 and the embodiment of its connection structure:

In conjunction with shown in Fig. 6-8, hold-down support 6 includes first sock 61 and limiting section 62, and rotary support 7 includes second set Socket part, limiting section 62 are set to one end of first sock 61, and the second socket part is inserted in the by the other end of first sock 61 One socket part 61, limiting section 62 play the role of axial limiting to the second socket part, are convenient for 7 location and installation of rotary support.Limit Portion 62 is confined planes 65 close to the end face of the second socket part, protection lubrication part 10 is equipped between rotary support 7 and confined planes 65, such as Bearing, to reduce abrasion and the resistance between rotary support 7 and hold-down support 6.

Further, hold-down support 6 further includes the first extension 63 and first connecting portion 64, the first extension 63 connection limit Position portion 62 and first connecting portion 64, first connecting portion 64 are connected to fixed beam 1.First extension 63 is along limiting section 62 to fixed beam 1 direction extends, and docks first connecting portion 64 with 1 coaxial line of fixed beam.

Rotary support 7 includes the second extension and second connecting portion, and the second extension connects the second socket part and connects with second Socket part, the second extension extend along the second socket part to second connecting portion, and second connecting portion is connected to lifting beam 3, the second connection It is docked with lifting 3 coaxial line of beam in portion.

Further, the first extension 63 is identical as the second extension structure, first connecting portion 64 and second connecting portion Structure is identical, convenient for design and processing, and guarantees the symmetry of structure.When lifting beam 3 is not lifted relative to fixed beam 1, Fixed beam 1 is conllinear with lifting 3 length direction of beam, and the structure of the first extension 63 and the connection formation of first connecting portion 64 is prolonged with second Extending portion connects the structure to be formed with second connecting portion with the pivot center central symmetry of rotary support 7, and lift structure symmetry makes Axially loaded is more uniform.

First connecting portion 64 is docked with fixed beam 1, and docking mode is to be bolted, easy disassembly；Similarly, second connecting portion With lifting beam 3 also by being bolted.Wherein, the transmission shaft 9 of wheel group is through first sock 61 and limiting section 62, and passes through axis Connection is held, so that transmission shaft 9 is by the power transmission of belt wheel 2 to tire 8.

Further, between hold-down support 6 and rotary support 7 be equipped with protection lubrication part 10, with guarantee hold-down support 6 with Lubrication and protection between rotary support 7.Protection lubrication part 10 can select bearing, in the shaft axis direction of rotary support 7 Interval setting is one or more.Protection lubrication part 10 between the outer wall of first sock 61 and the inner wall of the second socket part and The axial ends of second socket part is lubricated and protects.

Protection lubrication part 10 includes the first body and the second body, and the first body and the second body combine to form cylindrical sleeve Body, the periphery of cylindricality body have the groove body being open towards the rotary support 7, and the second socket part of rotary support 7 is set to slot In vivo.By two body composite structures, in order to adapt to installation requirements.Wherein, the first body can be with structure phase with the second body It together, is to turn down to form the sheath structure of flanging outward in one end of cylindrical sleeve；Alternatively, the first body or the second body are The sheath structure for forming flanging is turned down outward in one end of cylindrical sleeve, between first sock 61 and the second socket part It is lubricated and protects with one end of the second socket part, another is annular sheath structure, with the other end to the second socket part It is lubricated and protects.

In addition, protection lubrication part 10 is not limited to two, it can also be combined and be formed by multiple bodies.

Wherein, the first body and the second body can select engineering plastic bearing, and lubricating action is good, and structure is simple.

In the following, being illustrated to the embodiment of the driving mechanism of the lifting apparatus for cableway.

In conjunction with shown in Fig. 2,3,9,10, lifting driving mechanism includes flexible actuator 5 and fixed bracket 4, and stretch actuator 5 One end be connected and fixed bracket 4, stretch actuator 5 the other end connection lifting beam 3, stretch actuator 5 to lifting beam 3 provide lift The driving power for rising or putting down.Fixed bracket 4 is played a supporting role, and fixed bracket 4 is kept fixed with fixed beam 1.

Flexible actuator 5 provides linear drives power, and electric cylinder, cylinder, linear motor etc. can be selected in flexible actuator 5. Flexible actuator 5 is set to fixed beam 1 and is lifted the top of beam 3.

Further, fixed bracket 4 is equipped with through-hole 41, and flexible actuator 5 is connected to through-hole 41, and the actuator 5 that stretches drives Dynamic lifting beam 3 reaches target position, and through-hole 41 is that flexible actuator 5 provides cushion space, and stretching actuator 5 can be in through-hole 41 Interior direction stretches out contrary direction movement with it, prevents flexible actuator 5 from continuing stretching and is obstructed and damages, is also prevented from flexible 5 straight line of actuator stretches out and damages the structure of target position.

When especially flexible actuator 5 is equipped with motor, if motor is continued to run because of delay, flexible actuator 5 is stretched Process is obstructed out, and motor is unable to normal rotation, and motor is easy scaling loss, and through-hole 41 is for providing cushion space, so as to flexible driving Part 5 is replied to 41 direction of through-hole, prevents flexible actuator 5 from driving 1 crushing other component of fixed beam, also avoids motor from occurring stifled Turn.

Wherein, the shape of through-hole 41 can be strip-shaped hole, and the length direction of strip-shaped hole and flexible actuator reach target position Stretching direction when setting is consistent.

Further, in conjunction with shown in Fig. 9 and 10, buffer layer 42 is equipped in through-hole 41.Wherein, the material of buffer layer 42 can With but be not limited to rubber, latex or sponge, buffer layer 42 can also be air spring, and shape can occur after other compressions The material and structure of change.In this case, 41 shape of through-hole can be, but not limited to be round, oval, square, more Side shape or strip.When through-hole 41 is strip-shaped hole, strip-shaped hole tilts obliquely, and the actuator 5 that stretches is located at item by gravity The lower end in shape hole, when the stretching of flexible actuator 5 is obstructed, the actuator 5 that stretches is replied to the oblique upper of strip-shaped hole to be moved, bar shaped Hole is that flexible actuator 5 provides cushion space.

Wherein, the end of flexible actuator 5 is connected in through-hole 41 by hinged bolts 51.Buffer layer 42 cements in logical In hole 41, stable structure.

In conjunction with shown in Fig. 2-10, another embodiment of the invention also provides a kind of cableway, including straightway 1 ', plus-minus What fast section 2 ', curved segment 3 ' and the above-mentioned lifting apparatus for cableway, straightway 1 ' and curved segment 3 ' were docked with accelerating and decelerating part 2 ' One end is equipped with the lifting apparatus for cableway.Wherein, straightway 1 ' and curved segment 3 ' are provided with fixed beam 1 and lifting beam 3, Gu Determine to connect between beam 1 and lifting beam 3 by connection component, fixed beam 1 and lifting beam 3 are also connected with lifting driving mechanism, are being lifted Under the driving of driving mechanism, straightway 1 ' and curved segment 3 ' are switched over by lifting or put down, realize the overall operation of cableway with The switching of isolated operation, handoff procedure entirety stress are more balanced.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all in essence of the invention Within mind and principle, any modification, equivalent replacement, improvement and so on be should all be included in the protection scope of the present invention.

Claims (10)

1. a kind of lifting apparatus for cableway, for being lifted the lifting beam docked with fixed beam, which is characterized in that including connection Component and lifting driving mechanism, the connection component includes hold-down support and rotary support, and the rotary support is fixedly connected with institute Lifting beam is stated, the hold-down support is fixedly connected with the fixed beam, and the rotary support rotation is socketed on the hold-down support；Institute It states lifting driving mechanism one end and connects the fixed beam, the other end connects the lifting beam, and the lifting driving mechanism passes through straight Line is flexible to drive the lifting beam rotation.

2. the lifting apparatus according to claim 1 for cableway, which is characterized in that the hold-down support includes first set Socket part and limiting section, the limiting section are set to one end of the first sock, and the rotary support includes the second socket part, institute It states the second socket part and is socketed on the first sock, the second socket part described in the limiting section axial limiting.

3. the lifting apparatus according to claim 2 for cableway, which is characterized in that the hold-down support further includes first Extension and first connecting portion, first extension connect the limiting section and the first connecting portion, first connection Portion is connected to the fixed beam；

The rotary support further includes the second extension and second connecting portion, and second extension connects second socket part With the second connecting portion, the second connecting portion is connected to the lifting beam；

First extension is identical as the second extension structure, the first connecting portion and the second connecting portion structure It is identical.

4. the lifting apparatus according to claim 1 for cableway, which is characterized in that the hold-down support and the rotation Protection lubrication part is equipped between support.

5. the lifting apparatus according to claim 4 for cableway, which is characterized in that the protection lubrication part includes first Body and the second body, first body and second body combine to form cylindricality body, the periphery of the cylindricality body With the groove body being open towards the rotary support.

6. the lifting apparatus of cableway is used for described in -5 any one according to claim 1, which is characterized in that the connection component It is connected to wheel group, the wheel group includes belt wheel and tire, and transmission shaft, the transmission shaft are equipped between the belt wheel and the tire Run through and be rotationally connected with the hold-down support, the hold-down support is set between the belt wheel and the tire.

7. the lifting apparatus of cableway is used for described in -6 any one according to claim 1, which is characterized in that the lifting driving Mechanism includes flexible actuator and fixed bracket, and one end of the flexible actuator connects the fixed bracket, the flexible drive The other end of moving part connects the lifting beam.

8. the lifting apparatus according to claim 7 for cableway, which is characterized in that the fixed bracket is equipped with logical Hole, the flexible actuator are connected to the through-hole, and the flexible actuator drives the lifting beam to reach target position, described Flexible actuator can be mobile towards contrary direction is stretched out with it in the through-hole.

9. the lifting apparatus according to claim 8 for cableway, which is characterized in that the through-hole wall is formed with buffering Layer.

10. a kind of cableway, which is characterized in that including being used for described in straightway, accelerating and decelerating part, curved segment and claim 1-9 The lifting apparatus of cableway, the straightway and the curved segment are provided with the fixed beam and the lifting beam, the fixed beam It is connect between the lifting beam by the connection component.