CN104649204A - Suspension type multi-functional operating platform - Google Patents

Abstract

The invention relates to a suspension type multi-functional operating platform, which can be used for high-place operation, such as agricultural production processes of pruning, picking, plant protection and the like. The operating platform is characterized in that a rack is of a triangular bracket structure, wherein an upright rack is a hollow cylinder; a rack rotating shaft penetrates through the hollow core of the upright rack; an exposed part of the rack rotating shaft on the upper side of the upright rack is hinged to a lifting mechanism; an operating table is fixedly arranged on the lifting mechanism; an exposed part of the rack rotating shaft on the lower side of the upright rack is fixedly provided with a shaft head; the rack rotating shaft on the upper side of the shaft head is provided with a groove; a conical roller bearing is arranged in the groove; the lower end of the conical roller bearing is provided with a bearing seat; the bearing seat is of a hollow U-shaped structure; bearing seat flanges are arranged on the two sides of the upper end of the bearing seat and are fixedly connected with rack flanges at the lower end of the upright rack; one end of a revolving arm is connected with the shaft head through a circular pin, and the other end of the revolving arm is hinged to a revolving oil cylinder. The operating platform has the beneficial effects that the stability of the operating table is good, the vertical lifting and the left-right turning are flexible, the assembly and the disassembly are convenient, and various production operations can be performed in orchards.

Description

Suspended type multi-function job platform

Technical field

The present invention relates to a kind of suspended type multi-function job platform, be specially the job platform that a kind of suspension type can transfer height and left rotation and right rotation movement up and down.

Technical background

At present, China's orchard production control major part is by means of ladder operation, and mobile comparatively difficulty, and the potential safety hazard that existence is larger, greatly reduce orchard management operating efficiency.Although there is a lot of high-altitude operation platform at present, the job platform being applied to the field production control in orchard have not been reported.

Summary of the invention

In order to solve the problem, the invention provides a kind of underslung, turn to the suspended type multi-function job platform that can regulate, may be used for pruning, gather, the orchard management less important work such as plant protection, facility can drive service platform by oil cylinder, easy to operate, solve the situation of gardens by the operation that manually puts up a ladder, improve the Mechanization Level of orchard management.

The present invention solves the problems of the technologies described above like this: frame is A-frame structure, vertical type shelf is wherein hollow cylinder, frame rotating shaft is hollow through vertical type shelf, the exposure part hinge lifting mechanism of frame rotating shaft above vertical type shelf, fixing operation platform on lifting mechanism; Frame rotating shaft has spindle nose at the below exposure partial fixing of vertical type shelf, frame rotating shaft above spindle nose has groove, the built-in tapered roller bearing of groove, the lower end of tapered roller bearing is bearing seat, bearing seat is hollow U-shaped structure, and both sides, bearing seat upper end are bearing block flange, and the frame Flange joint of bearing block flange and vertical type shelf lower end is fixed, revoliving arm one end is connected with spindle nose by round pin, revoliving arm other end hinge angling cylinder.

The present invention can also solve the problems of the technologies described above like this: described lifting mechanism 2 comprises balance scuffing of cylinder bore, lift arm and elevating ram, one end hinge of balancing pull rod is in frame rotating shaft, other end hinged operation platform, lift arm is positioned at the below of balancing pull rod, the hinge frame rotating shaft of lift arm one end, the other end hinged operation platform of lift arm, one end of the lower iron square hinge elevating ram in the middle part of lift arm armed lever, upper at vertical type shelf of the other end hinge of elevating ram;

The vertical type shelf top of frame is by the rotating shaft of cylinder sleeve fixed frame.

Angling cylinder is fixed on the side stand of frame.

The vertical type shelf of frame is fixed with hanger bracket.

Vertical type shelf is by being fixed on frame shaft hinge seat on vertical type shelf and balancing pull rod, lift arm hinge; Operator's station is by being fixed on operator's station hinge seat on operator's station and balancing pull rod, lift arm hinge; Vertical type shelf is by being fixed on elevating ram hinge seat on vertical type shelf and elevating ram hinge.

Described hanger bracket comprises connection on trifilar suspension and is connected with under trifilar suspension.

Its principle of work is: during facility work, by hydraulic operation on trac., can control elevating ram, angling cylinder flexible, thus the rising of control operation platform, decline and left-right rotation, operator may stand on service platform, carries out pruning, gathers, the orchard management operation such as plant protection.

The beneficial effect that the present invention can reach is: the stationarity of operator's station is good, oscilaltion and left-right rotation flexible, easy to loading and unloading, can carry out multiple production operation in orchard.

Accompanying drawing explanation

Fig. 1 is the structural representation of suspension type suspended type multi-function job platform of the present invention;

Fig. 2 is the partial enlarged drawing of each parts annexation in vertical type shelf bottom of the present invention;

Fig. 3 is the lateral plan of suspension type suspended type multi-function job platform of the present invention;

Fig. 4 is the lateral plan of frame of the present invention and frame rotating shaft;

Fig. 5 is using state figure of the present invention;

Fig. 6 is operator's station rising schematic diagram of the present invention;

Fig. 7 is operator's station decline schematic diagram of the present invention;

Fig. 8 is frame side view of the present invention.

Detailed description of the invention

Parts title in accompanying drawing representated by each label is as follows:

Frame 1(vertical type shelf 1.1, side stand 1.2), lifting mechanism 2(balancing pull rod 2.1, lift arm 2.2, elevating ram 2.3), operator's station 3, frame rotating shaft 4, tapered roller bearing 5, bearing seat 6, bearing block flange 7, frame flange 8, revoliving arm 9, angling cylinder 10, cylinder sleeve 11, hanger bracket 12(trifilar suspension connects 12.1, connect 12.2 under trifilar suspension), frame shaft hinge seat 13, operator's station hinge seat 14, elevating ram hinge seat 15, spindle nose 16.

Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described further:

Embodiment 1: comprise frame 1, lifting mechanism 2, operator's station 3, it is characterized in that: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Embodiment 2: comprise frame 1, lifting mechanism 2, operator's station 3, it is characterized in that: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Described lifting mechanism 2 comprises balance scuffing of cylinder bore 2.1, lift arm 2.2 and elevating ram 2.3, one end hinge of balancing pull rod 2.1 is in frame rotating shaft 4, other end hinged operation platform 3, lift arm 2.2 is positioned at the below of balancing pull rod 2.1, lift arm 2.2 one end hinge frame rotating shaft 4, the other end hinged operation platform 3 of lift arm 2.2, one end of the lower iron square hinge elevating ram 2.3 in the middle part of lift arm 2.2 armed lever, upper at vertical type shelf 1.1 of the other end hinge of elevating ram 2.3.

Embodiment 3: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Vertical type shelf 1.1 top of frame 1 is by cylinder sleeve 11 fixed frame rotating shaft 4.

Embodiment 4: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Described lifting mechanism 2 comprises balance scuffing of cylinder bore 2.1, lift arm 2.2 and elevating ram 2.3, one end hinge of balancing pull rod 2.1 is in frame rotating shaft 4, other end hinged operation platform 3, lift arm 2.2 is positioned at the below of balancing pull rod 2.1, lift arm 2.2 one end hinge frame rotating shaft 4, the other end hinged operation platform 3 of lift arm 2.2, one end of the lower iron square hinge elevating ram 2.3 in the middle part of lift arm 2.2 armed lever, upper at vertical type shelf 1.1 of the other end hinge of elevating ram 2.3.

Vertical type shelf 1.1 top of frame 1 is by cylinder sleeve 11 fixed frame rotating shaft 4.

Embodiment 5: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Angling cylinder 10 is fixed on the side stand 1.2 of frame 1.

Embodiment 6: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Described lifting mechanism 2 comprises balance scuffing of cylinder bore 2.1, lift arm 2.2 and elevating ram 2.3, one end hinge of balancing pull rod 2.1 is in frame rotating shaft 4, other end hinged operation platform 3, lift arm 2.2 is positioned at the below of balancing pull rod 2.1, lift arm 2.2 one end hinge frame rotating shaft 4, the other end hinged operation platform 3 of lift arm 2.2, one end of the lower iron square hinge elevating ram 2.3 in the middle part of lift arm 2.2 armed lever, upper at vertical type shelf 1.1 of the other end hinge of elevating ram 2.3.

Angling cylinder 10 is fixed on the side stand 1.2 of frame 1.

Embodiment 7: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Vertical type shelf 1.1 top of frame 1 is by cylinder sleeve 11 fixed frame rotating shaft 4.

Angling cylinder 10 is fixed on the side stand 1.2 of frame 1.

Embodiment 8: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Described lifting mechanism 2 comprises balance scuffing of cylinder bore 2.1, lift arm 2.2 and elevating ram 2.3, one end hinge of balancing pull rod 2.1 is in frame rotating shaft 4, other end hinged operation platform 3, lift arm 2.2 is positioned at the below of balancing pull rod 2.1, lift arm 2.2 one end hinge frame rotating shaft 4, the other end hinged operation platform 3 of lift arm 2.2, one end of the lower iron square hinge elevating ram 2.3 in the middle part of lift arm 2.2 armed lever, upper at vertical type shelf 1.1 of the other end hinge of elevating ram 2.3.

Vertical type shelf 1.1 top of frame 1 is by cylinder sleeve 11 fixed frame rotating shaft 4.

Angling cylinder 10 is fixed on the side stand 1.2 of frame 1.

Embodiment 9: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

The vertical type shelf 1.1 of frame 1 is fixed with hanger bracket 12.

Embodiment 10: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Described lifting mechanism 2 comprises balance scuffing of cylinder bore 2.1, lift arm 2.2 and elevating ram 2.3, one end hinge of balancing pull rod 2.1 is in frame rotating shaft 4, other end hinged operation platform 3, lift arm 2.2 is positioned at the below of balancing pull rod 2.1, lift arm 2.2 one end hinge frame rotating shaft 4, the other end hinged operation platform 3 of lift arm 2.2, one end of the lower iron square hinge elevating ram 2.3 in the middle part of lift arm 2.2 armed lever, upper at vertical type shelf 1.1 of the other end hinge of elevating ram 2.3.

The vertical type shelf 1.1 of frame 1 is fixed with hanger bracket 12.

Embodiment 11: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Vertical type shelf 1.1 top of frame 1 is by cylinder sleeve 11 fixed frame rotating shaft 4.

The vertical type shelf 1.1 of frame 1 is fixed with hanger bracket 12.

Embodiment 12: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Described lifting mechanism 2 comprises balance scuffing of cylinder bore 2.1, lift arm 2.2 and elevating ram 2.3, one end hinge of balancing pull rod 2.1 is in frame rotating shaft 4, other end hinged operation platform 3, lift arm 2.2 is positioned at the below of balancing pull rod 2.1, lift arm 2.2 one end hinge frame rotating shaft 4, the other end hinged operation platform 3 of lift arm 2.2, one end of the lower iron square hinge elevating ram 2.3 in the middle part of lift arm 2.2 armed lever, upper at vertical type shelf 1.1 of the other end hinge of elevating ram 2.3.

Vertical type shelf 1.1 top of frame 1 is by cylinder sleeve 11 fixed frame rotating shaft 4.

The vertical type shelf 1.1 of frame 1 is fixed with hanger bracket 12.

Embodiment 13: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Angling cylinder 10 is fixed on the side stand 1.2 of frame 1.

The vertical type shelf 1.1 of frame 1 is fixed with hanger bracket 12.

Embodiment 14: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Described lifting mechanism 2 comprises balance scuffing of cylinder bore 2.1, lift arm 2.2 and elevating ram 2.3, one end hinge of balancing pull rod 2.1 is in frame rotating shaft 4, other end hinged operation platform 3, lift arm 2.2 is positioned at the below of balancing pull rod 2.1, lift arm 2.2 one end hinge frame rotating shaft 4, the other end hinged operation platform 3 of lift arm 2.2, one end of the lower iron square hinge elevating ram 2.3 in the middle part of lift arm 2.2 armed lever, upper at vertical type shelf 1.1 of the other end hinge of elevating ram 2.3.

Angling cylinder 10 is fixed on the side stand 1.2 of frame 1.

The vertical type shelf 1.1 of frame 1 is fixed with hanger bracket 12.

Embodiment 15: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Vertical type shelf 1.1 top of frame 1 is by cylinder sleeve 11 fixed frame rotating shaft 4.

Angling cylinder 10 is fixed on the side stand 1.2 of frame 1.

The vertical type shelf 1.1 of frame 1 is fixed with hanger bracket 12.

Embodiment 16: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Described lifting mechanism 2 comprises balance scuffing of cylinder bore 2.1, lift arm 2.2 and elevating ram 2.3, one end hinge of balancing pull rod 2.1 is in frame rotating shaft 4, other end hinged operation platform 3, lift arm 2.2 is positioned at the below of balancing pull rod 2.1, lift arm 2.2 one end hinge frame rotating shaft 4, the other end hinged operation platform 3 of lift arm 2.2, one end of the lower iron square hinge elevating ram 2.3 in the middle part of lift arm 2.2 armed lever, upper at vertical type shelf 1.1 of the other end hinge of elevating ram 2.3.

Vertical type shelf 1.1 top of frame 1 is by cylinder sleeve 11 fixed frame rotating shaft 4.

Angling cylinder 10 is fixed on the side stand 1.2 of frame 1.

The vertical type shelf 1.1 of frame 1 is fixed with hanger bracket 12.

Embodiment 17: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Vertical type shelf 1.1 is by being fixed on frame shaft hinge seat on vertical type shelf 1.1 13 and balancing pull rod 2.1, lift arm 2.2 hinge; Operator's station 3 is by being fixed on operator's station hinge seat on operator's station 3 14 and balancing pull rod 2.1, lift arm 2.2 hinge; Vertical type shelf 1.1 is by being fixed on elevating ram hinge seat on vertical type shelf 1.1 15 and elevating ram 2.3 hinge.

Embodiment 18: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Described lifting mechanism 2 comprises balance scuffing of cylinder bore 2.1, lift arm 2.2 and elevating ram 2.3, one end hinge of balancing pull rod 2.1 is in frame rotating shaft 4, other end hinged operation platform 3, lift arm 2.2 is positioned at the below of balancing pull rod 2.1, lift arm 2.2 one end hinge frame rotating shaft 4, the other end hinged operation platform 3 of lift arm 2.2, one end of the lower iron square hinge elevating ram 2.3 in the middle part of lift arm 2.2 armed lever, upper at vertical type shelf 1.1 of the other end hinge of elevating ram 2.3.

Vertical type shelf 1.1 is by being fixed on frame shaft hinge seat on vertical type shelf 1.1 13 and balancing pull rod 2.1, lift arm 2.2 hinge; Operator's station 3 is by being fixed on operator's station hinge seat on operator's station 3 14 and balancing pull rod 2.1, lift arm 2.2 hinge; Vertical type shelf 1.1 is by being fixed on elevating ram hinge seat on vertical type shelf 1.1 15 and elevating ram 2.3 hinge.

Embodiment 19: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10

Vertical type shelf 1.1 top of frame 1 is by cylinder sleeve 11 fixed frame rotating shaft 4.

Vertical type shelf 1.1 is by being fixed on frame shaft hinge seat on vertical type shelf 1.1 13 and balancing pull rod 2.1, lift arm 2.2 hinge; Operator's station 3 is by being fixed on operator's station hinge seat on operator's station 3 14 and balancing pull rod 2.1, lift arm 2.2 hinge; Vertical type shelf 1.1 is by being fixed on elevating ram hinge seat on vertical type shelf 1.1 15 and elevating ram 2.3 hinge.

Embodiment 20: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Described lifting mechanism 2 comprises balance scuffing of cylinder bore 2.1, lift arm 2.2 and elevating ram 2.3, one end hinge of balancing pull rod 2.1 is in frame rotating shaft 4, other end hinged operation platform 3, lift arm 2.2 is positioned at the below of balancing pull rod 2.1, lift arm 2.2 one end hinge frame rotating shaft 4, the other end hinged operation platform 3 of lift arm 2.2, one end of the lower iron square hinge elevating ram 2.3 in the middle part of lift arm 2.2 armed lever, upper at vertical type shelf 1.1 of the other end hinge of elevating ram 2.3.

Vertical type shelf 1.1 top of frame 1 is by cylinder sleeve 11 fixed frame rotating shaft 4.

Vertical type shelf 1.1 is by being fixed on frame shaft hinge seat on vertical type shelf 1.1 13 and balancing pull rod 2.1, lift arm 2.2 hinge; Operator's station 3 is by being fixed on operator's station hinge seat on operator's station 3 14 and balancing pull rod 2.1, lift arm 2.2 hinge; Vertical type shelf 1.1 is by being fixed on elevating ram hinge seat on vertical type shelf 1.1 15 and elevating ram 2.3 hinge.

Embodiment 21: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Angling cylinder 10 is fixed on the side stand 1.2 of frame 1.

Vertical type shelf 1.1 is by being fixed on frame shaft hinge seat on vertical type shelf 1.1 13 and balancing pull rod 2.1, lift arm 2.2 hinge; Operator's station 3 is by being fixed on operator's station hinge seat on operator's station 3 14 and balancing pull rod 2.1, lift arm 2.2 hinge; Vertical type shelf 1.1 is by being fixed on elevating ram hinge seat on vertical type shelf 1.1 15 and elevating ram 2.3 hinge.

Embodiment 22: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Described lifting mechanism 2 comprises balance scuffing of cylinder bore 2.1, lift arm 2.2 and elevating ram 2.3, one end hinge of balancing pull rod 2.1 is in frame rotating shaft 4, other end hinged operation platform 3, lift arm 2.2 is positioned at the below of balancing pull rod 2.1, lift arm 2.2 one end hinge frame rotating shaft 4, the other end hinged operation platform 3 of lift arm 2.2, one end of the lower iron square hinge elevating ram 2.3 in the middle part of lift arm 2.2 armed lever, upper at vertical type shelf 1.1 of the other end hinge of elevating ram 2.3.

Angling cylinder 10 is fixed on the side stand 1.2 of frame 1.

Vertical type shelf 1.1 is by being fixed on frame shaft hinge seat on vertical type shelf 1.1 13 and balancing pull rod 2.1, lift arm 2.2 hinge; Operator's station 3 is by being fixed on operator's station hinge seat on operator's station 3 14 and balancing pull rod 2.1, lift arm 2.2 hinge; Vertical type shelf 1.1 is by being fixed on elevating ram hinge seat on vertical type shelf 1.1 15 and elevating ram 2.3 hinge.

Embodiment 23: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Vertical type shelf 1.1 top of frame 1 is by cylinder sleeve 11 fixed frame rotating shaft 4.

Angling cylinder 10 is fixed on the side stand 1.2 of frame 1.

Vertical type shelf 1.1 is by being fixed on frame shaft hinge seat on vertical type shelf 1.1 13 and balancing pull rod 2.1, lift arm 2.2 hinge; Operator's station 3 is by being fixed on operator's station hinge seat on operator's station 3 14 and balancing pull rod 2.1, lift arm 2.2 hinge; Vertical type shelf 1.1 is by being fixed on elevating ram hinge seat on vertical type shelf 1.1 15 and elevating ram 2.3 hinge.

Embodiment 24: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Described lifting mechanism 2 comprises balance scuffing of cylinder bore 2.1, lift arm 2.2 and elevating ram 2.3, one end hinge of balancing pull rod 2.1 is in frame rotating shaft 4, other end hinged operation platform 3, lift arm 2.2 is positioned at the below of balancing pull rod 2.1, lift arm 2.2 one end hinge frame rotating shaft 4, the other end hinged operation platform 3 of lift arm 2.2, one end of the lower iron square hinge elevating ram 2.3 in the middle part of lift arm 2.2 armed lever, upper at vertical type shelf 1.1 of the other end hinge of elevating ram 2.3.

Vertical type shelf 1.1 top of frame 1 is by cylinder sleeve 11 fixed frame rotating shaft 4.

Angling cylinder 10 is fixed on the side stand 1.2 of frame 1.

Vertical type shelf 1.1 is by being fixed on frame shaft hinge seat on vertical type shelf 1.1 13 and balancing pull rod 2.1, lift arm 2.2 hinge; Operator's station 3 is by being fixed on operator's station hinge seat on operator's station 3 14 and balancing pull rod 2.1, lift arm 2.2 hinge; Vertical type shelf 1.1 is by being fixed on elevating ram hinge seat on vertical type shelf 1.1 15 and elevating ram 2.3 hinge.

Embodiment 25: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

The vertical type shelf 1.1 of frame 1 is fixed with hanger bracket 12.

Vertical type shelf 1.1 is by being fixed on frame shaft hinge seat on vertical type shelf 1.1 13 and balancing pull rod 2.1, lift arm 2.2 hinge; Operator's station 3 is by being fixed on operator's station hinge seat on operator's station 3 14 and balancing pull rod 2.1, lift arm 2.2 hinge; Vertical type shelf 1.1 is by being fixed on elevating ram hinge seat on vertical type shelf 1.1 15 and elevating ram 2.3 hinge.

Embodiment 26: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Described lifting mechanism 2 comprises balance scuffing of cylinder bore 2.1, lift arm 2.2 and elevating ram 2.3, one end hinge of balancing pull rod 2.1 is in frame rotating shaft 4, other end hinged operation platform 3, lift arm 2.2 is positioned at the below of balancing pull rod 2.1, lift arm 2.2 one end hinge frame rotating shaft 4, the other end hinged operation platform 3 of lift arm 2.2, one end of the lower iron square hinge elevating ram 2.3 in the middle part of lift arm 2.2 armed lever, upper at vertical type shelf 1.1 of the other end hinge of elevating ram 2.3.

The vertical type shelf 1.1 of frame 1 is fixed with hanger bracket 12.

Vertical type shelf 1.1 is by being fixed on frame shaft hinge seat on vertical type shelf 1.1 13 and balancing pull rod 2.1, lift arm 2.2 hinge; Operator's station 3 is by being fixed on operator's station hinge seat on operator's station 3 14 and balancing pull rod 2.1, lift arm 2.2 hinge; Vertical type shelf 1.1 is by being fixed on elevating ram hinge seat on vertical type shelf 1.1 15 and elevating ram 2.3 hinge.

Embodiment 27: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Vertical type shelf 1.1 top of frame 1 is by cylinder sleeve 11 fixed frame rotating shaft 4.

The vertical type shelf 1.1 of frame 1 is fixed with hanger bracket 12.

Vertical type shelf 1.1 is by being fixed on frame shaft hinge seat on vertical type shelf 1.1 13 and balancing pull rod 2.1, lift arm 2.2 hinge; Operator's station 3 is by being fixed on operator's station hinge seat on operator's station 3 14 and balancing pull rod 2.1, lift arm 2.2 hinge; Vertical type shelf 1.1 is by being fixed on elevating ram hinge seat on vertical type shelf 1.1 15 and elevating ram 2.3 hinge.

Embodiment 28: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Described lifting mechanism 2 comprises balance scuffing of cylinder bore 2.1, lift arm 2.2 and elevating ram 2.3, one end hinge of balancing pull rod 2.1 is in frame rotating shaft 4, other end hinged operation platform 3, lift arm 2.2 is positioned at the below of balancing pull rod 2.1, lift arm 2.2 one end hinge frame rotating shaft 4, the other end hinged operation platform 3 of lift arm 2.2, one end of the lower iron square hinge elevating ram 2.3 in the middle part of lift arm 2.2 armed lever, upper at vertical type shelf 1.1 of the other end hinge of elevating ram 2.3.

Vertical type shelf 1.1 top of frame 1 is by cylinder sleeve 11 fixed frame rotating shaft 4.

The vertical type shelf 1.1 of frame 1 is fixed with hanger bracket 12.

Vertical type shelf 1.1 is by being fixed on frame shaft hinge seat on vertical type shelf 1.1 13 and balancing pull rod 2.1, lift arm 2.2 hinge; Operator's station 3 is by being fixed on operator's station hinge seat on operator's station 3 14 and balancing pull rod 2.1, lift arm 2.2 hinge; Vertical type shelf 1.1 is by being fixed on elevating ram hinge seat on vertical type shelf 1.1 15 and elevating ram 2.3 hinge.

Embodiment 29: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Angling cylinder 10 is fixed on the side stand 1.2 of frame 1.

The vertical type shelf 1.1 of frame 1 is fixed with hanger bracket 12.

Vertical type shelf 1.1 is by being fixed on frame shaft hinge seat on vertical type shelf 1.1 13 and balancing pull rod 2.1, lift arm 2.2 hinge; Operator's station 3 is by being fixed on operator's station hinge seat on operator's station 3 14 and balancing pull rod 2.1, lift arm 2.2 hinge; Vertical type shelf 1.1 is by being fixed on elevating ram hinge seat on vertical type shelf 1.1 15 and elevating ram 2.3 hinge.

Embodiment 30: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Described lifting mechanism 2 comprises balance scuffing of cylinder bore 2.1, lift arm 2.2 and elevating ram 2.3, one end hinge of balancing pull rod 2.1 is in frame rotating shaft 4, other end hinged operation platform 3, lift arm 2.2 is positioned at the below of balancing pull rod 2.1, lift arm 2.2 one end hinge frame rotating shaft 4, the other end hinged operation platform 3 of lift arm 2.2, one end of the lower iron square hinge elevating ram 2.3 in the middle part of lift arm 2.2 armed lever, upper at vertical type shelf 1.1 of the other end hinge of elevating ram 2.3.

Angling cylinder 10 is fixed on the side stand 1.2 of frame 1.

The vertical type shelf 1.1 of frame 1 is fixed with hanger bracket 12.

Vertical type shelf 1.1 is by being fixed on frame shaft hinge seat on vertical type shelf 1.1 13 and balancing pull rod 2.1, lift arm 2.2 hinge; Operator's station 3 is by being fixed on operator's station hinge seat on operator's station 3 14 and balancing pull rod 2.1, lift arm 2.2 hinge; Vertical type shelf 1.1 is by being fixed on elevating ram hinge seat on vertical type shelf 1.1 15 and elevating ram 2.3 hinge.

Embodiment 31: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Vertical type shelf 1.1 top of frame 1 is by cylinder sleeve 11 fixed frame rotating shaft 4.

Angling cylinder 10 is fixed on the side stand 1.2 of frame 1.

The vertical type shelf 1.1 of frame 1 is fixed with hanger bracket 12.

Vertical type shelf 1.1 is by being fixed on frame shaft hinge seat on vertical type shelf 1.1 13 and balancing pull rod 2.1, lift arm 2.2 hinge; Operator's station 3 is by being fixed on operator's station hinge seat on operator's station 3 14 and balancing pull rod 2.1, lift arm 2.2 hinge; Vertical type shelf 1.1 is by being fixed on elevating ram hinge seat on vertical type shelf 1.1 15 and elevating ram 2.3 hinge.

Embodiment 32: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Described lifting mechanism 2 comprises balance scuffing of cylinder bore 2.1, lift arm 2.2 and elevating ram 2.3, one end hinge of balancing pull rod 2.1 is in frame rotating shaft 4, other end hinged operation platform 3, lift arm 2.2 is positioned at the below of balancing pull rod 2.1, lift arm 2.2 one end hinge frame rotating shaft 4, the other end hinged operation platform 3 of lift arm 2.2, one end of the lower iron square hinge elevating ram 2.3 in the middle part of lift arm 2.2 armed lever, upper at vertical type shelf 1.1 of the other end hinge of elevating ram 2.3.

Vertical type shelf 1.1 top of frame 1 is by cylinder sleeve 11 fixed frame rotating shaft 4.

Angling cylinder 10 is fixed on the side stand 1.2 of frame 1.

The vertical type shelf 1.1 of frame 1 is fixed with hanger bracket 12.

Vertical type shelf 1.1 is by being fixed on frame shaft hinge seat on vertical type shelf 1.1 13 and balancing pull rod 2.1, lift arm 2.2 hinge; Operator's station 3 is by being fixed on operator's station hinge seat on operator's station 3 14 and balancing pull rod 2.1, lift arm 2.2 hinge; Vertical type shelf 1.1 is by being fixed on elevating ram hinge seat on vertical type shelf 1.1 15 and elevating ram 2.3 hinge.

Embodiment 33: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

The vertical type shelf 1.1 of frame 1 is fixed with hanger bracket 12.

Described hanger bracket 12 comprises connection 12.1 on trifilar suspension and is connected 12.2 with under trifilar suspension.

Embodiment 34: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Described lifting mechanism 2 comprises balance scuffing of cylinder bore 2.1, lift arm 2.2 and elevating ram 2.3, one end hinge of balancing pull rod 2.1 is in frame rotating shaft 4, other end hinged operation platform 3, lift arm 2.2 is positioned at the below of balancing pull rod 2.1, lift arm 2.2 one end hinge frame rotating shaft 4, the other end hinged operation platform 3 of lift arm 2.2, one end of the lower iron square hinge elevating ram 2.3 in the middle part of lift arm 2.2 armed lever, upper at vertical type shelf 1.1 of the other end hinge of elevating ram 2.3.

The vertical type shelf 1.1 of frame 1 is fixed with hanger bracket 12.

Described hanger bracket 12 comprises connection 12.1 on trifilar suspension and is connected 12.2 with under trifilar suspension.

Embodiment 35: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Vertical type shelf 1.1 top of frame 1 is by cylinder sleeve 11 fixed frame rotating shaft 4.

The vertical type shelf 1.1 of frame 1 is fixed with hanger bracket 12.

Described hanger bracket 12 comprises connection 12.1 on trifilar suspension and is connected 12.2 with under trifilar suspension.

Embodiment 36: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Described lifting mechanism 2 comprises balance scuffing of cylinder bore 2.1, lift arm 2.2 and elevating ram 2.3, one end hinge of balancing pull rod 2.1 is in frame rotating shaft 4, other end hinged operation platform 3, lift arm 2.2 is positioned at the below of balancing pull rod 2.1, lift arm 2.2 one end hinge frame rotating shaft 4, the other end hinged operation platform 3 of lift arm 2.2, one end of the lower iron square hinge elevating ram 2.3 in the middle part of lift arm 2.2 armed lever, upper at vertical type shelf 1.1 of the other end hinge of elevating ram 2.3.

Vertical type shelf 1.1 top of frame 1 is by cylinder sleeve 11 fixed frame rotating shaft 4.

The vertical type shelf 1.1 of frame 1 is fixed with hanger bracket 12.

Described hanger bracket 12 comprises connection 12.1 on trifilar suspension and is connected 12.2 with under trifilar suspension.

Embodiment 37: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Angling cylinder 10 is fixed on the side stand 1.2 of frame 1.

The vertical type shelf 1.1 of frame 1 is fixed with hanger bracket 12.

Described hanger bracket 12 comprises connection 12.1 on trifilar suspension and is connected 12.2 with under trifilar suspension.

Embodiment 38: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Described lifting mechanism 2 comprises balance scuffing of cylinder bore 2.1, lift arm 2.2 and elevating ram 2.3, one end hinge of balancing pull rod 2.1 is in frame rotating shaft 4, other end hinged operation platform 3, lift arm 2.2 is positioned at the below of balancing pull rod 2.1, lift arm 2.2 one end hinge frame rotating shaft 4, the other end hinged operation platform 3 of lift arm 2.2, one end of the lower iron square hinge elevating ram 2.3 in the middle part of lift arm 2.2 armed lever, upper at vertical type shelf 1.1 of the other end hinge of elevating ram 2.3.

Angling cylinder 10 is fixed on the side stand 1.2 of frame 1.

The vertical type shelf 1.1 of frame 1 is fixed with hanger bracket 12.

Described hanger bracket 12 comprises connection 12.1 on trifilar suspension and is connected 12.2 with under trifilar suspension.

Embodiment 39: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Vertical type shelf 1.1 top of frame 1 is by cylinder sleeve 11 fixed frame rotating shaft 4.

Angling cylinder 10 is fixed on the side stand 1.2 of frame 1.

The vertical type shelf 1.1 of frame 1 is fixed with hanger bracket 12.

Described hanger bracket 12 comprises connection 12.1 on trifilar suspension and is connected 12.2 with under trifilar suspension.

Embodiment 40: frame 1 is A-frame structure, vertical type shelf 1.1 is wherein hollow cylinder, and frame rotating shaft 4 is hollow through vertical type shelf 1.1, the exposure part hinge lifting mechanism 2 of frame rotating shaft 4 above vertical type shelf 1.1, fixing operation platform 3 on lifting mechanism 2; Frame rotating shaft 4 has spindle nose 16 at the below exposure partial fixing of vertical type shelf 1.1, frame rotating shaft 4 above spindle nose 16 has groove, the built-in tapered roller bearing 5 of groove, the lower end of tapered roller bearing 5 is bearing seat 6, bearing seat 6 is hollow U-shaped structure, and both sides, bearing seat 6 upper end are bearing block flange 7, and bearing block flange 7 is connected and fixed with the frame flange 8 of vertical type shelf lower end, revoliving arm 9 one end is connected with spindle nose 16 by round pin, revoliving arm 9 other end hinge angling cylinder 10.

Described lifting mechanism 2 comprises balance scuffing of cylinder bore 2.1, lift arm 2.2 and elevating ram 2.3, one end hinge of balancing pull rod 2.1 is in frame rotating shaft 4, other end hinged operation platform 3, lift arm 2.2 is positioned at the below of balancing pull rod 2.1, lift arm 2.2 one end hinge frame rotating shaft 4, the other end hinged operation platform 3 of lift arm 2.2, one end of the lower iron square hinge elevating ram 2.3 in the middle part of lift arm 2.2 armed lever, upper at vertical type shelf 1.1 of the other end hinge of elevating ram 2.3.

Vertical type shelf 1.1 top of frame 1 is by cylinder sleeve 11 fixed frame rotating shaft 4.

Angling cylinder 10 is fixed on the side stand 1.2 of frame 1.

The vertical type shelf 1.1 of frame 1 is fixed with hanger bracket 12.

Described hanger bracket 12 comprises connection 12.1 on trifilar suspension and is connected 12.2 with under trifilar suspension.

Above in all embodiments, revoliving arm is arranged on the side of spindle nose, the flexible swing that can regulate revoliving arm of angling cylinder, the swing of revoliving arm drives the rotation of spindle nose, the rotation of spindle nose and then the rotating shaft of drive frame, thus drive the rotation of lifting mechanism, make service platform can sway, when angling cylinder extends, drive operator's station turning clockwise, contrary when turning left, for reducing frame rotating shaft in rotation process to the wearing and tearing of frame and make axis of rotation more laborsaving, in the bottom of frame rotating shaft, tapered roller bearing is installed, the rotational efficiency of rotating shaft can be increased, make operation more convenient, odd jobs.

In embodiment 2,4,6,8,10,12,14,16,18,20,22,24,26,28,30,32,34,36,38,40, the elevating ram that utilizes taked drives moving up and down of lifting mechanism, the flexible lifting that can control lift arm of elevating ram, and then drive the lifting of operator's station, and the effect balancing scuffing of cylinder bore mainly makes operator's station stress balance, prevent operator's station lack of equilibrium and turn on one's side, when elevating ram extends, promotion lift arm rises, drive service platform rises, contrary during decline.Frame shaft hinge seat, operator's station hinge seat and balancing pull rod, lift arm form quadrangle, ensure that elevating ram is in flexible process, the stationarity of facility.

In addition, operator's station also can settle hook, to hang fruit basket, operator's station is when a high position, and fruit basket hangs on operator's station, and when fruit basket is filled, operator's station declines, and is unloaded by fruit, then hangs empty fruit basket, and operator's station rises and again plucks operation.

During work, operator may stand on service platform 1, carries out pruning, gathers, the orchard management operation such as plant protection.

Its principle of work is: during facility work, by hydraulic efficiency pressure system on operation trac., can control elevating ram, angling cylinder flexible, thus the rising of control operation platform, decline and left-right rotation, operator may stand on operator's station, carries out pruning, gathers, the orchard management operation such as plant protection.

Claims (9)

1. a suspended type multi-function job platform, comprise frame (1), lifting mechanism (2), operator's station (3), it is characterized in that: frame (1) is A-frame structure, vertical type shelf (1.1) is wherein hollow cylinder, frame rotating shaft (4) is hollow through vertical type shelf (1.1), frame rotating shaft (4) is at the exposure part hinge lifting mechanism (2) of vertical type shelf (1.1) top, and lifting mechanism (2) is fixing operation platform (3) above, frame rotating shaft (4) has spindle nose (16) at the below exposure partial fixing of vertical type shelf (1.1), the frame rotating shaft (4) of spindle nose (16) top has groove, the built-in tapered roller bearing of groove (5), the lower end of tapered roller bearing (5) is bearing seat (6), bearing seat (6) is hollow U-shaped structure, bearing seat (6) both sides, upper end are bearing block flange (7), bearing block flange (7) is connected and fixed with the frame flange (8) of vertical type shelf (1.1) lower end, revoliving arm (9) one end is connected with spindle nose (16) by round pin, revoliving arm (9) other end hinge angling cylinder (10), the vertical type shelf (1.1) of frame (1) is fixed with hanger bracket (12), and hanger bracket (12) comprises connection (12.1) on trifilar suspension and is connected (12.2) with under trifilar suspension.

2. a kind of suspended type multi-function job platform according to claim 1, it is characterized in that: described lifting mechanism (2) comprises balance scuffing of cylinder bore (2.1), lift arm (2.2) and elevating ram (2.3), one end hinge of balancing pull rod (2.1) is in frame rotating shaft (4), other end hinged operation platform (3), lift arm (2.2) is positioned at the below of balancing pull rod (2.1), lift arm (2.2) one end hinge frame rotating shaft (4), the other end hinged operation platform (3) of lift arm (2.2), one end of lower iron square hinge elevating ram (2.3) in the middle part of lift arm (2.2) armed lever, upper at vertical type shelf (1.1) of the other end hinge of elevating ram (2.3).

3. a kind of suspended type multi-function job platform according to claim 1 and 2, is characterized in that: vertical type shelf (1.1) top of frame (1) is by cylinder sleeve (11) fixed frame rotating shaft (4).

4. a kind of suspended type multi-function job platform according to claim 1 and 2, is characterized in that: angling cylinder (10) is fixed on the side stand (1.2) of frame (1).

5. a kind of suspended type multi-function job platform according to claim 3, is characterized in that: angling cylinder (10) is fixed on the side stand (1.2) of frame (1).

6. a kind of suspended type multi-function job platform according to claim 1 and 2, is characterized in that: vertical type shelf (1.1) is by being fixed on frame shaft hinge seat (13) on vertical type shelf (1.1) and balancing pull rod (2.1), lift arm (2.2) hinge; Operator's station (3) is by being fixed on operator's station hinge seat (14) on operator's station (3) and balancing pull rod (2.1), lift arm (2.2) hinge; Vertical type shelf (1.1) is by being fixed on elevating ram hinge seat (15) on vertical type shelf (1.1) and elevating ram (2.3) hinge.

7. a kind of suspended type multi-function job platform according to claim 3, is characterized in that: vertical type shelf (1.1) is by being fixed on frame shaft hinge seat (13) on vertical type shelf (1.1) and balancing pull rod (2.1), lift arm (2.2) hinge; Operator's station (3) is by being fixed on operator's station hinge seat (14) on operator's station (3) and balancing pull rod (2.1), lift arm (2.2) hinge; Vertical type shelf (1.1) is by being fixed on elevating ram hinge seat (15) on vertical type shelf (1.1) and elevating ram (2.3) hinge.

8. a kind of suspended type multi-function job platform according to claim 4, is characterized in that: vertical type shelf (1.1) is by being fixed on frame shaft hinge seat (13) on vertical type shelf (1.1) and balancing pull rod (2.1), lift arm (2.2) hinge; Operator's station (3) is by being fixed on operator's station hinge seat (14) on operator's station (3) and balancing pull rod (2.1), lift arm (2.2) hinge; Vertical type shelf (1.1) is by being fixed on elevating ram hinge seat (15) on vertical type shelf (1.1) and elevating ram (2.3) hinge.

9. a kind of suspended type multi-function job platform according to claim 5, is characterized in that: vertical type shelf (1.1) is by being fixed on frame shaft hinge seat (13) on vertical type shelf (1.1) and balancing pull rod (2.1), lift arm (2.2) hinge; Operator's station (3) is by being fixed on operator's station hinge seat (14) on operator's station (3) and balancing pull rod (2.1), lift arm (2.2) hinge; Vertical type shelf (1.1) is by being fixed on elevating ram hinge seat (15) on vertical type shelf (1.1) and elevating ram (2.3) hinge.