CN216686147U - Steel cable rail connecting device - Google Patents

Abstract

The utility model discloses a steel cable rail connection device which comprises two supporting pieces used for fixing two steel cable rails respectively and a connection rail arranged between the two supporting pieces, wherein two ends of the connection rail are connected to the two steel cable rails respectively to form a rail, a logistics shuttle robot can move back and forth on the rail, namely the two steel cable rails needing to be connected can be fixed on the two supporting pieces respectively, and the connection rail can be configured into any shape according to the specific conditions of the two steel cable rails so as to form a rail capable of enabling the logistics shuttle robot to move back and forth with the two steel cable rails. By the arrangement, when the outdoor steel cable rails are influenced by environmental factors and are designed to be in various states such as ascending, descending, turning and the like, the connecting rail can realize transition of the ascending, descending, turning and the like of the two steel cable rails, so that connection of turning positions of the two steel cable rails is realized.

Description

Steel cable rail connecting device

Technical Field

The utility model relates to the technical field of erection of cableway transportation networks, in particular to a steel cable rail connection device.

Background

With the rapid development of the logistics industry, novel transportation modes and equipment emerge in succession, and compared with the traditional logistics, the logistics transportation mode of erecting the steel cable rail in a low altitude has the advantages of saving cost, time and labor, and having more market competitiveness. For example, the logistics shuttle robot with an intelligent distribution function is used as a main carrier of rail-type or cableway-type logistics, and in the operation mode, the purpose of transporting goods between logistics distribution points can be achieved only by erecting a steel cable rail between logistics distribution points and then driving the logistics shuttle robot to operate on the steel cable rail. However, the shuttle robots for logistics are often distributed outdoors, and the steel cable rails located outdoors are affected by the terrain environment factors and are designed in various states such as uphill, downhill and turning, and the steel cable rails are flexible rails, so that the shuttle robots cannot be steered well.

SUMMERY OF THE UTILITY MODEL

In order to overcome at least one of the above-mentioned drawbacks of the prior art, the present invention provides a cable rail connection device to solve the problem that the existing cable rail is difficult to adapt to a complex terrain.

The technical scheme adopted by the utility model for solving the problems is as follows:

the embodiment of the utility model discloses a steel cable rail connection device which comprises two supporting pieces used for fixing two steel cable rails respectively and a connection rail arranged between the two supporting pieces, wherein two ends of the connection rail are connected with the two steel cable rails respectively to form a rail, and a logistics shuttle robot can move back and forth on the rail.

According to the steel cable rail connecting device provided by the utility model, the connecting rail can be configured into any shape according to the specific situation of the two steel cable rails so as to form a rail capable of enabling a logistics shuttle machine to reciprocate between the connecting rail and the two steel cable rails. By the arrangement, when the outdoor steel cable rails are influenced by environmental factors and are designed to be in various states such as ascending, descending, turning and the like, the connecting rails can realize transition of the ascending, descending, turning and the like of the two steel cable rails, so that connection of turning positions of the two steel cable rails is realized.

As an alternative embodiment, the support element is provided with a guide groove which is matched with the shape of the cable rail and is used for accommodating and supporting the cable rail.

As an alternative, in an embodiment of the present invention, the cable rail connection device further includes a saddle and a mounting plate, and the support member is mounted on the saddle through the mounting plate.

As an optional implementation manner, in an embodiment of the present invention, the cable rail connection device further includes a first bolt and a second bolt, one end of the mounting plate is detachably mounted on the saddle through the first bolt, the other end of the mounting plate is provided with a waist-shaped adjusting groove, the second bolt is mounted between the mounting plate and the saddle, and a threaded rod section of the second bolt is located in the waist-shaped adjusting groove.

As an optional implementation manner, in an embodiment of the present invention, the mounting plate is mounted on one side of the saddle, the mounting plate is provided with an avoidance hole for passing through the cable rail, the saddle is provided with a waist-shaped avoidance slot for passing through the cable rail, the other side of the saddle is provided with a cable rail one-way lock, and the cable rail one-way lock is connected to one end of the cable rail to fix the cable rail on the support member.

As an alternative implementation manner, in an embodiment of the present invention, the other side of the saddle is further provided with a cable rail clamping member to clamp and fix the end of the cable rail, and the size of the cable rail clamping member is larger than the size of the avoidance hole of the cable rail.

As an alternative, in an embodiment of the present invention, the connecting rail includes two connecting ends and a main body located between the two connecting ends, and the two connecting ends respectively connect the two cable rails in a gradual transition manner to form a rail.

As an optional implementation manner, in an embodiment of the present invention, the steel cable rail connection device further includes two guiding elements respectively connected to two ends of the connection rail, where the two guiding elements are located between the two supporting elements, and two ends of the guiding elements respectively connect the steel cable rail and the connection rail in a gradual transition manner to form a rail.

As an optional implementation manner, in an embodiment of the present invention, the guide connecting element is a shaft sleeve, or the guide connecting element is a guide connecting frame provided with a sleeve clamp or a shaft sleeve, the connection rail is located in the shaft sleeve or the sleeve clamp, and an outer surface of the shaft sleeve or the sleeve clamp is in gradual transition with outer surfaces of the cable rail and the connection rail, respectively.

As an alternative implementation manner, in the embodiment of the present invention, the two wire rope rails are located on the same straight line, and the connecting rail is a straight line type rail to connect the two wire rope rails;

or the like, or, alternatively,

the two steel cable rails are arranged in parallel or in an included angle, and the connecting rail is a curve rail for connecting the two steel cable rails.

As an optional implementation manner, in an embodiment of the present invention, the steel cable rail connection device further includes a connection rail auxiliary support frame, which is located below the connection rail to support the connection rail.

As an alternative, in an embodiment of the utility model, the cable rail connection device further comprises a saddle body beam for mounting the saddle on an upright, a middle portion of the saddle body beam being arranged on the upright, the saddle being mounted on an end portion of the saddle body beam.

As an optional implementation manner, in an embodiment of the present invention, a horizontal support plate is disposed on an upper portion of the vertical rod, a first mounting hole is disposed on the horizontal support plate, a clamping column adapted to the first mounting hole is disposed on the saddle body beam, and the clamping column is clamped in the first mounting hole.

As an alternative, in an embodiment of the present invention, the cable rail connection device further includes a clamp, the clamp is movably mounted on the horizontal support plate, and the saddle body beam is mounted in a space between an inner side of the clamp and the horizontal support plate.

As an alternative, in the embodiment of the present invention, the middle part of the saddle is connected to the end part of the saddle body beam, and the cable rail connection device further includes a reinforcing plate, one end of which is connected to the end part of the saddle, and the other end of which is connected to the middle part of the saddle body beam.

Drawings

Fig. 1 is a first schematic structural diagram of a first cable rail connection device according to a first embodiment of the present invention;

fig. 2 is a second schematic structural diagram of a cable rail connection device according to a first embodiment of the present invention;

fig. 3 is a schematic structural diagram of a cable rail connection device according to a second embodiment of the present invention;

fig. 4 is a schematic structural diagram of a cable rail connection device according to a third embodiment of the present invention.

Wherein the reference numerals have the following meanings:

1. a wire rope rail; 2. a support member; 21. a guide wheel support frame; 22. a guide wheel; 221. a guide groove; 3. connecting rails; 31. a guide member; 311. a shaft sleeve; 32. a connecting rail main body; 33. a connection rail auxiliary support frame; 4. erecting a rod; 41. a horizontal support plate; 411. clamping a hoop; 5. a saddle body beam; 51. clamping the column; 6. a saddle; 61. a waist-shaped avoidance slot; 62. one-way locking of the steel cable rail; 63. a wire rope rail clamp; 7. a reinforcing plate; 8. mounting a plate; 81. a waist-shaped adjusting groove; 82. avoiding holes; 9. a first bolt; 10. and a second bolt.

Detailed Description

For better understanding and implementation, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

Example one

Referring to fig. 1 and 2, in the first embodiment, a steel cable rail connection device for connecting two steel cable rails 1 is disclosed, the steel cable rail connection device includes two support members 2 respectively used for fixing the two steel cable rails 1 and a connection rail 3 disposed between the two support members 2, two ends of the connection rail 3 are respectively connected to the two steel cable rails 1 to form a rail, a logistics shuttle robot can move back and forth on the rail, that is, the two steel cable rails 1 to be connected can be respectively fixed on the two support members 2, and the connection rail 3 can be configured into any shape according to the specific conditions of the two steel cable rails 1 to form a rail between the two steel cable rails 1 for the logistics shuttle robot to move back and forth. With the arrangement, when the outdoor steel cable rails 1 are influenced by environmental factors and designed to be in various states such as ascending, descending, turning and the like, the connecting rail 3 can realize transition of the ascending, descending, turning and the like of the two steel cable rails 1, so that connection of turning positions of the two steel cable rails 1 is realized. In this embodiment, the two steel cable rails 1 are located on the same straight line, and the connecting rail 3 is a linear rail, so as to connect the two steel cable rails 1 for example.

In some embodiments, the wire rope rail connection device further includes an upright rod 4, a saddle body beam 5 and two saddles 6, the middle portion of the saddle body beam 5 is disposed on the upright rod 4, the two saddles 6 are respectively mounted on the end portions of the two ends of the saddle body beam 5, the two saddles 6 are both provided with two supporting members 2 and a connection rail 3, the middle portion of the saddle 6 is connected to the end portion of the saddle body beam 5, the two groups of supporting members 2 are respectively disposed at the positions of the two ends of the saddle 6, and the connection rail 3 is disposed at the position between the two ends of the saddle 6. So set up, because the middle part of saddle main body roof beam 5 sets up on pole setting 4, two saddles 6 are installed respectively in the tip at saddle main body roof beam 5's both ends, can improve the connection stability between two support pieces 2, saddle 6, saddle main body roof beam 5 and the pole setting 4.

In some embodiments, the top end of the upright rod 4 is provided with a horizontal support plate 41, the horizontal support plate 41 is provided with a first mounting hole, the saddle body beam 5 is provided with a clamping column 51 adapted to the first mounting hole, and the clamping column 51 is clamped in the first mounting hole. With the arrangement, on one hand, the first mounting hole is matched with the clamping column 51, so that the positioning between the saddle main body beam 5 and the vertical rod 4 can be realized; on the other hand, the cooperation of the first mounting hole and the clamping column 51 can further realize the shearing resistance between the saddle body beam 5 and the upright 4.

Exemplarily, the number of the first mounting holes on the horizontal support plate 41 is two, the two first mounting holes are respectively formed in two ends of the horizontal support plate 41, the number of the clamping columns 51 on the saddle main body beam 5 is two, and the two clamping columns 51 are matched with the two first mounting holes, so that the positioning effect and the shearing resistance effect between the saddle main body beam 5 and the vertical rod 4 are further improved.

It is understood that, in other alternative embodiments, one first mounting hole and one clamping column 51 may be adopted, the first mounting hole is a non-circular hole such as a square, and the clamping column 51 is positioned in a design manner of the clamping column 51 adapted to the first mounting hole, which is not limited herein.

Further, the steel cable rail connection device further comprises a U-shaped clamp 411, the clamp 411 is movably mounted on the horizontal support plate 41, and the saddle main body beam 5 is mounted in a space between the inner side of the clamp 411 and the horizontal support plate 41. With such an arrangement, on one hand, the clamp 411 can realize the installation and fixation of the saddle main body beam 5 on the upright rod 4; on the other hand, it is also possible to achieve a shear resistance between the saddle body beam 5 and the upright 4.

Illustratively, four clamping bands 411 are provided, and the four clamping bands 411 are respectively arranged at two ends of the horizontal support plate 41, so that the saddle main body beam 5 and the upright rod 4 have better installation stability and shearing resistance.

In some embodiments, to improve the connection strength between the saddle 6 and the saddle body beam 5, the cable rail connection device further comprises a reinforcing plate 7, one end of the reinforcing plate 7 is connected to the end of the saddle 6, and the other end of the reinforcing plate 7 is connected to the middle of the saddle body beam 5. So set up, the middle part of saddle 6 is connected in the tip of saddle main body roof beam 5, and the tip of saddle 6 passes through reinforcing plate 7 to be connected in the middle part of saddle main body roof beam 5 to make and have the installation effect of preferred between saddle 6 and the saddle main body roof beam 5.

Illustratively, the number of the reinforcement plates 7 is four, two of the reinforcement plates 7 are respectively connected to both ends of one of the saddles 6 and both sides of the saddle body beam 5, and the other two reinforcement plates 7 are respectively connected to both ends of the other saddle 6 and both sides of the saddle body beam 5, so that the reinforcement effect between the saddle 6 and the saddle body beam 5 can be made better.

In some embodiments, in order to connect the two ends of the connecting rail 3 with the two supporting members 2, the connecting rail 3 includes two connecting ends and a main body located between the two connecting ends, and each of the two connecting ends connects to a steel cable rail to form a rail, that is, by providing connecting portions at the two ends of the connecting rail 3, the connecting rail 3 can be directly connected to the supporting members 2.

Furthermore, the guide connection end is a shaft sleeve 311 or a sleeve clamp, the cable rail is located in the shaft sleeve 311 or the sleeve clamp, and the outer surface of the shaft sleeve 311 or the sleeve clamp is in smooth transition with the outer surface of the cable rail respectively. Wherein, the outer surface of axle sleeve 311 or collet is gently transited with two cable wire tracks respectively and is referred to: the outer surface of the sleeve 311 or collet is substantially co-continuous with the outer surfaces of the two cable tracks. So set up, because the surface of axle sleeve 311 or collet and the gentle transition of the surface of two cable wire rails, the commodity circulation shuttle robot of being convenient for is in the transition between two cable wire rails and the rail 3 of plugging into.

As another optional embodiment, the steel cable rail connection device further includes two guiding connection pieces 31 respectively connected to two ends of the connection rail 3, the two guiding connection pieces 31 are located between the two support pieces 2, two ends of the guiding connection pieces 31 respectively and smoothly transition the connection rail and the connection rail 3 to form a rail, that is, the connection rail 3 is indirectly connected to the steel cable rail through the guiding connection pieces 31.

The guide connecting piece 31 is a shaft sleeve 311 or a sleeve clamp, or the guide connecting piece 31 is a guide connecting frame provided with the sleeve clamp or the shaft sleeve 311, the steel cable rail and the connecting rail 3 are both positioned in the shaft sleeve 311 or the sleeve clamp, and the outer surfaces of the shaft sleeve 311 or the sleeve clamp are in smooth transition with the outer surfaces of the steel cable rail and the connecting rail 3 respectively. Wherein, the outer surface of the sleeve 311 or the sleeve clamp is smoothly transited with the two steel cable rails and the connecting rail 3 respectively, which means that: the outer surface of the sleeve 311 or the collet and the outer surfaces of the two cable and docking rails 3 are located on substantially the same continuous plane. So set up, because the surface of axle sleeve 311 or collet and the gentle transition of two cable wire rails and the surface of the rail 3 of plugging into, the commodity circulation shuttle robot of being convenient for is in the transition between two cable wire rails and the rail 3 of plugging into.

In this embodiment, the steel cable rail connection device further includes two guiding members 31, the guiding members 31 are guiding frames provided with shaft sleeves 311, and the outer surfaces of the shaft sleeves 311 are respectively tangent to the outer surfaces of the two steel cable rails.

In some embodiments, considering that when the connection path between the two wire rope rails 1 is long, the length of the connection rail 3 is also long, and the region of the connection rail 3 between the two ends is easily broken due to too large stress because of no support, it is preferable that the wire rope rail connection device further includes a connection rail auxiliary support frame 33, and the connection rail auxiliary support frame 33 is disposed between the two guide connectors 31 and below the connection rail 3 to support the connection rail 3. So set up, the support of rail auxiliary stay frame 33 of plugging into can improve the structural strength of rail 3 of plugging into.

The number of the auxiliary support frames 33 of the connecting rail may be one or more, in an actual design, different design manners may be adopted according to circumstances, and are not limited herein, and the auxiliary support frame 33 of the connecting rail is used as an example in this embodiment.

In some embodiments, to support the cable rail 1, the supporting member 2 is provided with a guide groove 221 matching with the shape of the cable rail 1, and the guide groove 221 is used for accommodating and supporting the cable rail 1. With such an arrangement, the guide groove 221 can position the cable rail 1, so as to facilitate the installation and fixation of the cable rail 1 on the supporting member 2.

Further, the supporting member 2 includes a guide wheel supporting frame 21 and a guide wheel 22, the guide wheel 22 is rotatably disposed on the guide wheel supporting frame 21, and the guiding groove 221 is disposed on the guide wheel 22. So set up, because guide pulley 22 is rotatable to be located on guide pulley support frame 21, the in-process in guide pulley 22 is installed in cable wire rail 1, and guide pulley 22 can rotate according to loosening or locking of cable wire rail 1, can avoid cable wire rail 1 to take place wearing and tearing at the in-process of dismouting. Optionally, the guide wheel support frame 21 includes two support plates disposed at intervals, and the guide wheel 22 is disposed between the two support plates.

It is understood that in other alternative embodiments, the support member 2 may be integrally designed, and the guide groove 221 is directly disposed on the support member 2, which is not limited herein.

In some embodiments, the cable rail interface further comprises a mounting plate 8, and the support member 2 is mounted to the saddle 6 via the mounting plate 8.

Further, the wire rope rail device of plugging into still includes first bolt 9 and second bolt 10, and the one end of mounting panel 8 is through first bolt 9 demountable installation on saddle 6, and the other end of mounting panel 8 is equipped with waist type adjustment tank 81, and second bolt 10 is installed between mounting panel 8 and saddle 6, and the screw rod section of second bolt 10 is located waist type adjustment tank 81. With the arrangement, on one hand, the mounting and fixing of the mounting plate 8 on the saddle 6 can be realized through the first bolt 9 and the second bolt 10; on the other hand, after the first bolt 9 and the second bolt 10 are unscrewed, the thread section of the second bolt 10 can move in the waist-shaped adjusting groove 81, and the second bolt 10 is connected to the mounting plate 8, so that the purpose that the mounting plate 8 rotates relative to the first bolt 9 without interference can be achieved, and the purpose of adjusting the deflection angle between the mounting plate 8 and the steel cable rail 1 without interference is achieved, that is, two bolts are arranged between the mounting plate 8 and the saddle 6, and meanwhile, the second mounting hole of one bolt on the saddle 6 is designed into the arc-shaped waist-shaped adjusting groove 81, so that the purpose of accurately adjusting the deflection angle between the mounting plate 8 and the steel cable rail 1 can be achieved while the stability of the mounting structure is improved, and the guide groove 221 can accurately support the steel cable rail 1 without deflection.

As can be seen from the above, the supporting member 2 includes the guide wheel supporting frame 21 and the guide wheel 22, and specifically, the guide wheel supporting frame 21 is disposed on the mounting plate 8.

Optionally, the center of the waist-shaped adjusting slot 81 is located on the rotation center line of the mounting plate 8 when rotating around the first bolt 9, so that the threaded rod section of the second bolt 10 can rotate around the first bolt 9, that is, the mounting plate 8 can rotate around the first bolt 9, thereby achieving the purpose of adjusting the deflection angle.

Alternatively, the guide 31 is also integrally formed on the mounting plate 8. So set up, compare in the design that guide 31 and support piece 2 set up independently, because need not to counterpoint the installation between guide 31 and the support piece 2, the installation that guide 31 and support piece 2 can be realized to mounting panel 8 installation on saddle 6, helps simplifying the installation step and improves the installation effectiveness.

In some embodiments, the mounting plate 8 is mounted on one side of the saddle 6, the mounting plate 8 is provided with an avoiding hole 82 for passing through the cable rail 1, the saddle 6 is provided with a waist-shaped avoiding groove 61 for passing through the cable rail 1, the other side of the saddle 6 is provided with a cable rail one-way lock 62, and the cable rail one-way lock 62 is connected to one end of the cable rail 1 to fix the cable rail 1 on the guide groove 221. Specifically, one end of the cable rail 1 is inserted into the cable rail one-way lock 62 to be fixed on the cable rail one-way lock 62. With such an arrangement, since the saddle 6 is provided with the waist-shaped avoiding groove 61 for passing through the steel cable rail 1, the waist-shaped avoiding groove 61 can avoid the steel cable rail 1 from interfering with the saddle 6 when being fixed on the steel cable rail one-way lock 62.

Further, in order to avoid disorder of the tail end of the cable rail 1, the other side of the saddle 6 is further provided with a cable rail clamping member 63 for clamping and fixing the tail end of the cable rail 1, and the size of the cable rail clamping member 63 is larger than that of the avoiding hole 82 of the cable rail 1. Thereby making the cable rail 1 more orderly and preventing the steel lock rail from being fixed when the steel lock rail one-way lock 62 is invalid. Specifically, the two cable rail clamping members 63 are arranged at intervals, and the tail end of the cable rail 1 is clamped on the two cable rail clamping members 63, so as to enhance the fixing effect on the cable rail 1.

The cable wire rail device of plugging into of this scheme, including two support pieces 2 that are used for two fixed cable wire rails 1 respectively and set up the rail 3 of plugging into between two support pieces 2, the both ends of rail 3 of plugging into connect respectively in two cable wire rails in order to form a track, and commodity circulation shuttle robot can be in round trip movement on the track, also two cable wire rails 1 that also need plug into can be fixed in respectively on two support pieces 2, and the rail 3 of plugging into can configure into according to the particular case of two cable wire rails 1 and can supply commodity circulation shuttle machine round trip movement's track in order and form between two cable wire rails to arbitrary shape. With the arrangement, when the outdoor steel cable rail 1 is influenced by environmental factors and is designed to be in various states such as an ascending slope, a descending slope, a turning and the like, the connecting rail 3 can realize transition of the ascending slope, the descending slope, the turning and the like of the two steel cable rails 1, so that connection of turning positions of the two steel cable rails 1 is realized.

Example two

Referring to fig. 3, a second embodiment of the present invention discloses a cable rail connection device, which is different from the first embodiment in the following:

the two steel cable rails 1 are arranged in parallel, and the connecting rail 3 is a curve rail for connecting the two steel cable rails 1. Specifically, one of the saddles 6 is provided with one of the support members 2 and one of the support members 3, the other saddle 6 is provided with the other support member 2 and the other support member 3, one end of the connecting rail 3 is connected to the support member 3 on the one saddle 6, and the other end of the connecting rail 3 is connected to the support member 3 on the other saddle 6. By adopting the design mode, the connection of the two parallel steel cable rails 1 can be realized, and then the U-turn of one steel cable rail 1 to the other steel cable rail 1 is realized.

In addition, the specific structure of the cable rail connection device can refer to the first embodiment, and details thereof are not described herein.

EXAMPLE III

Referring to fig. 4, a third embodiment of a cable rail connection device is disclosed, and the differences between the cable rail connection device (not shown) of the third embodiment and the first embodiment are as follows:

the two steel cable rails are arranged at an included angle, and the connecting rail 3 is a curve rail for connecting the two steel cable rails. Specifically, one of the saddles 6 is provided with one of the support members 2 and one of the support members 3, the other saddle 6 is provided with the other support member 2 and the other support member 3, one end of the connecting rail 3 is connected to the support member 3 on the one saddle 6, and the other end of the connecting rail 3 is connected to the support member 3 on the other saddle 6. By the arrangement, the connection of the two steel cable rails with the included angle can be realized.

The included angle between the two cable rails may be any angle from 0 ° to 180 °, for example, 30 °, 45 °, 60 °, 75 °, 90 °, 135 °, 150 °, and so on, which is not limited herein, and the included angle between the two cable rails is 135 ° in this embodiment.

In addition, the specific structure of the cable rail connection device can refer to the first embodiment, and details thereof are not described herein.

The technical means disclosed in the utility model scheme are not limited to the technical means disclosed in the above embodiments, but also include the technical scheme formed by any combination of the above technical features. It should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and such improvements and modifications are also considered to be within the scope of the present invention.

Claims (15)

1. The utility model provides a cable wire rail device of plugging into for connecting two cable wire rails which characterized in that: the steel cable rail connection device comprises two supporting pieces used for fixing the two steel cable rails respectively and a connection rail arranged between the two supporting pieces, two ends of the connection rail are connected with the two steel cable rails respectively to form a rail, and the logistics shuttle robot can move back and forth on the rail.

2. The wire rope rail docking apparatus of claim 1, wherein: the support member is provided with a guide groove matched with the appearance of the steel cable rail, and the guide groove is used for accommodating and supporting the steel cable rail.

3. The wire rope rail docking apparatus of claim 2, wherein: the steel cable rail connection device further comprises a saddle and an installation plate, and the supporting piece is installed on the saddle through the installation plate.

4. The wire rope rail docking apparatus of claim 3, wherein: the cable wire rail device of plugging into still includes first bolt and second bolt, the one end of mounting panel is passed through first bolt demountable installation is in on the saddle, the other end of mounting panel is equipped with waist type adjustment tank, the second bolt is installed the mounting panel with between the saddle, just the screw rod section of second bolt is located in the waist type adjustment tank.

5. The wire rope rail docking apparatus of claim 3, wherein: the mounting panel install in one side of saddle, be equipped with on the mounting panel and be used for passing the hole of dodging of cable wire rail, be equipped with on the saddle and be used for passing the groove is dodged to the waist type of cable wire rail, the opposite side of saddle is equipped with cable wire rail one-way lock, cable wire rail one-way lock connect in the one end of cable wire rail, with incite somebody to action the cable wire rail is fixed in on the support piece.

6. The wire rope rail docking apparatus of claim 5, wherein: and a steel cable rail clamping piece is further arranged on the other side of the saddle to clamp and fix the tail end of the steel cable rail, and the size of the steel cable rail clamping piece is larger than that of the avoidance hole of the steel cable rail.

7. The wire rope rail docking apparatus of claim 1, wherein: the connecting rail comprises two connecting ends and a main body positioned between the two connecting ends, and the two connecting ends are respectively in gentle transition connection with the two steel cable rails to form a rail.

8. The wire rope rail docking apparatus of claim 1, wherein: the steel cable rail connection device further comprises two guide connecting pieces which are respectively connected with two ends of the connection rail, the two guide connecting pieces are located between the two supporting pieces, and two ends of each guide connecting piece are respectively in gentle transition connection with the steel cable rail and the connection rail to form a rail.

9. The wire rope rail docking apparatus of claim 8, wherein: the guide connecting piece is a shaft sleeve or a sleeve clamp, or the guide connecting piece is a guide connecting frame provided with the sleeve clamp or the shaft sleeve, the connecting rail is positioned in the shaft sleeve or the sleeve clamp, and the outer surface of the shaft sleeve or the sleeve clamp is in smooth transition with the outer surfaces of the steel cable rail and the connecting rail respectively.

10. The wire rope rail docking apparatus of claim 1, wherein: the two steel cable rails are positioned on the same straight line, and the connecting rail is a linear rail for connecting the two steel cable rails;

or the like, or, alternatively,

the two steel cable rails are arranged in parallel or in an included angle mode, and the connection rail is a curve rail so as to connect the two steel cable rails.

11. The wire rope rail docking apparatus of claim 10, wherein: the steel cable rail connection device further comprises a connection rail auxiliary support frame, and the connection rail auxiliary support frame is located below the connection rail to support the connection rail.

12. The wire rope rail interface of any one of claims 3 to 5, wherein: the steel cable rail connection device further comprises a saddle main body beam used for installing the saddle on the vertical rod, the middle of the saddle main body beam is arranged on the vertical rod, and the saddle is installed at the end part of the saddle main body beam.

13. The wire rope rail docking apparatus of claim 12, wherein: the upper portion of pole setting is equipped with the horizontal support board, be equipped with first mounting hole in the horizontal support board, be equipped with the adaptation on the saddle main part roof beam in the card post of first mounting hole, card post joint in first mounting hole.

14. The wire rope rail interface apparatus of claim 13, wherein: the steel cable rail connection device further comprises a hoop, wherein the hoop is movably mounted on the horizontal support plates, and the saddle main body beam is mounted on the inner side of the hoop and in a space between the horizontal support plates.

15. The wire rope rail docking apparatus of claim 12, wherein: the middle part of saddle connect in the tip of saddle main part roof beam, cable wire rail device of plugging into still includes the reinforcing plate, the one end of reinforcing plate connect in the tip of saddle, the other end of reinforcing plate connect in the middle part of saddle main part roof beam.

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