CN209890041U

CN209890041U - Double-guide-channel steel cable driving type automatic discharging lifting and carrying device

Info

Publication number: CN209890041U
Application number: CN201920271447.0U
Authority: CN
Inventors: 陆洋; 姜峰; 磨璐娟; 梁钟方
Original assignee: Liuzhou Railway Vocational Technical College
Current assignee: Liuzhou Railway Vocational Technical College
Priority date: 2019-03-04
Filing date: 2019-03-04
Publication date: 2020-01-03
Anticipated expiration: 2029-03-04

Abstract

A double-guide channel steel cable driven type automatic unloading lifting carrying device comprises a bracket assembly, a conveying hopper mechanism assembly and a ground transfer trolley assembly; the transport bucket mechanism assembly is installed on the guide groove of the bracket assembly and the output shaft of the motor through the roller and the steel cable, the ground transfer trolley is always placed on the transport rail of the bracket assembly, and the bracket assembly is installed on fixed dams, matrixes, installation seats and other fixed objects through bolt connection. The utility model discloses a hold-in range drive formula lift handling device is reliable and stable in the transportation, and transport speed is fast, efficient from top to bottom, and the handling rises the in-process and can not the left and right rocking easily control, and can not produce impact damage to buildings etc. and the cost is low, and volume and occupation space are little, are suitable for long-time using widely.

Description

Double-guide-channel steel cable driving type automatic discharging lifting and carrying device

Technical Field

The utility model relates to a transport the mechanical equipment field, concretely relates to two channel-section steel cable drive formula automatic discharge lift handling device who needs the local use of long-term transportation object such as dam, house, massif.

Background

The existing technology and many up-and-down transporting devices seen in the market, which are used in dams, houses, mountains and other places needing long-term transportation of objects, are generally formed by a structure that a support body and a steel cable are added, the objects needing to be transported are loaded in a transporting bucket and then pulled by the steel cable to move up and down to transport the objects, such as common cranes and tower cranes on roofs, and the like, the devices are high in manufacturing cost, large in size and occupied space, high in application and lease cost and not suitable for long-term application, are not targeted transporting devices, are not high in applicability, and are easy to control and even damage buildings and the like due to impact when the devices are hoisted and lifted by using the steel cable. Is not suitable for long-term application.

Disclosure of Invention

The utility model aims at providing a two channel steel cable drive formula automatic discharge lift handling device, be applicable to the transport from top to bottom of the places that need transport the object for a long time such as dam, house, massif, its transportation is stable and reliable, and the transport speed is fast from top to bottom, efficient, can not rock left and right easily in the handling ascending process and control, and can not produce the impact damage to buildings etc. and the cost is low, and volume and occupation space are little, are suitable for using widely for a long time; to solve the above problems of the prior art.

The technical scheme for solving the problems is as follows: a double-guide channel steel cable driven type automatic unloading lifting carrying device comprises a bracket assembly, a conveying hopper mechanism assembly and a ground transfer trolley assembly;

the support assembly comprises two side supports, a support, a self-unloading guide block, a driving motor, a transportation rail, a steel cable supporting roller, a roller mounting shaft and a base;

the two side brackets are symmetrically arranged, each side bracket comprises a horizontal section, an arc section and a vertical section, and the horizontal section and the vertical section are integrally connected through the arc section; the middle parts of the side brackets are provided with guide grooves, and the upper ends of the vertical sections of the two side brackets are welded with brackets; the horizontal section of each side bracket is welded with a bracket, a self-discharging guide block and a driving motor, and the side edge of the circular arc section of each side bracket is provided with a mounting hole for mounting a roller mounting shaft; the roller mounting shaft is arranged in the mounting hole; the steel cable supporting roller is arranged on the roller mounting shaft through a bearing and is positioned in the guide groove; the side bracket is arranged on the base through a bracket; the transportation rail is arranged on the base through bolts and is positioned between the horizontal sections of the two side brackets;

the conveying hopper mechanism assembly comprises a conveying hopper, a self-unloading block, a pin shaft, a connecting beam, a roller connecting block, a steel cable, a roller and a roller driving block;

the roller connecting block is of a flat plate arc structure, and the roller driving block is of a flat plate structure; the roller connecting block and the roller driving block are connected through two fixed shafts arranged up and down to form a roller mounting frame, and the roller is mounted on the fixed shafts through bearings; the front end faces of the two ends of the connecting beam are respectively welded with a vertical plate, and the rear end faces of the two ends of the connecting beam are respectively welded with a roller mounting frame; the conveying hopper is hinged with the vertical plate through a pin shaft; the inclination of the self-discharging block is matched with the self-discharging guide block, and the self-discharging block is welded on two side edges of the conveying hopper; one end of the steel cable is fixedly connected with the roller driving block; in an assembly state, the roller and the steel cable are placed in the guide groove, and the other end of the steel cable is connected with an output shaft of the driving motor through the guide of the steel cable supporting roller;

the ground transfer trolley assembly comprises a rectangular block, a guide rail wheel shaft, a guide rail wheel and a transfer trolley; the rectangular blocks are welded at the bottom part of the transfer trolley, the guide rail wheel shaft penetrates through the rectangular blocks, and the guide rail wheels are arranged at two ends of the guide rail wheel shaft; in an assembled state: the guide rail wheels are placed on the transport rails.

The further technical scheme is as follows: the ground transfer trolley assembly also comprises an assembly dragging hook, and the assembly dragging hook is welded on the transfer trolley; the transfer trolley is of a trough-shaped bucket structure.

The further technical scheme is as follows: the conveying hopper is provided with a pore.

The further technical scheme is as follows: one end of the support is welded on the side support, the other end of the support is of a flat plate structure with a mounting hole, and the support is mounted on the base through the matching of the bolts and the mounting hole.

The further technical scheme is as follows: the driving motor is a speed reducing motor with a braking function.

The further technical scheme is as follows: the outer contour of the steel cable supporting roller is of a concave structure.

The further technical scheme is as follows: and triangular reinforcing ribs are welded on two sides of the middle part of the connecting beam.

Due to the adoption of the technical scheme, the utility model relates to a two channel-section steel cable drive formula automatic discharge lift handling device has following characteristics and beneficial effect:

the carrying device of the utility model adopts a special design structure and scheme, is suitable for carrying and transporting the objects up and down in places such as dams, houses and mountains which need to transport objects for a long time, and the carrying bucket mechanism assembly 2 adopts a welding structure as a frame and mainly comprises a welding structure and a bolt connecting structure, and has simple structure, convenient manufacture and low use cost; and the double-guide-channel steel cable is used for transmission, the whole carrying device is bilaterally symmetrical in structure, the stable and reliable transportation process can be ensured, the vertical carrying speed is high, the efficiency is high, the left and right shaking is avoided in the hoisting and lifting process, the motor is easy to use for accurate position control, the impact damage to buildings and the like is avoided, the manufacturing cost is low, the size and the occupied space are small, and the device is suitable for being popularized and used for a long time.

The technical features of a double-guide-channel steel cable driven automatic unloading, lifting and carrying device according to the present invention will be further described with reference to the accompanying drawings and embodiments.

Drawings

Fig. 1 is a schematic structural view of a double-guide channel steel cable driven automatic unloading, lifting and carrying device of the present invention;

FIG. 2 is a schematic view of the bracket assembly of the present invention;

fig. 3 is a schematic structural view of the transportation hopper mechanism assembly of the present invention;

fig. 4 is a schematic structural view of the ground transfer trolley assembly of the present invention.

In the figure:

1-bracket assembly, 11-side bracket, 111-guide groove, 12-bracket, 13-self-discharging guide block, 14-driving motor, 15-transport rail, 16-steel cable supporting roller, 17-roller mounting shaft, 18-base;

2-a transport bucket mechanism assembly, 21-a transport bucket, 22-a self-discharging block, 23-a pin shaft, 24-a connecting beam, 25-a roller connecting block, 26-a steel cable, 27-a roller and 28-a roller driving block;

3-a ground transfer trolley assembly, 31-a rectangular block, 32-a guide rail wheel, 33-a transfer trolley and 34-an assembly dragging hook.

Detailed Description

A double-guide channel steel cable driving type automatic unloading lifting carrying device is shown in figure 1 and comprises a bracket assembly 1, a transportation bucket mechanism assembly 2 and a ground transfer trolley assembly 3;

as shown in fig. 2, the support assembly 1 includes two side supports 11, a guide groove 111, a support 12, a self-discharging guide block 13, a driving motor 14, a transport rail 15, a cable supporting roller 16, a roller mounting shaft 17 and a base 18;

the two side brackets 11 are arranged in a left-right symmetrical manner, the side brackets are in a curved arc line structure, each side bracket 11 comprises a horizontal section, an arc section and a vertical section, and the horizontal section and the vertical section are integrally connected through the arc section; the middle part of the side bracket 11 is provided with a guide groove 111, the guide groove is used for guiding movement of the roller and normal positioning of the groove, and the guide groove is arranged to play a role in reducing weight of the bracket. The upper ends of the vertical sections of the two side brackets 11 are welded with brackets 12; a bracket 12, a self-discharging guide block 13 and a driving motor 14 are welded on the horizontal section of each side bracket 11, and a mounting hole for mounting a roller mounting shaft 17 is formed in the side edge of the arc section of each side bracket 11;

one end of the bracket 12 is welded on the side bracket 11, and the other end is of a flat plate structure with a mounting hole.

The bracket 12 is mounted on the base 18 by means of bolts fitted into mounting holes.

The self-discharging guide block 13 is an inclined block structure, the inclined partial structure is used for matching self-discharging blocks 22 with the same inclination on the conveying bucket, when the conveying bucket mechanism assembly 2 is pulled to move upwards, the self-discharging guide block 13 obliquely pushes the self-discharging blocks 22 upwards, then the conveying bucket 21 welded with the self-discharging blocks 22 upwards rotates around a pin shaft 23 to the position where materials can be automatically poured out, and the automatic inclined discharging in the lifting process of the conveying bucket is realized. When the bucket mechanism assembly 2 is returned to the downward and forward movement, the dump block 22 moves downward along the dump guide block 13 and the bucket mechanism assembly 2 returns to the previous state.

The driving motor 14 has a braking function, can be rotated without being dragged by an external load under the condition that the motor stops supplying power, is internally integrated with a speed reducing motor, realizes speed reduction and torque increase of the output of the motor, keeps the rotating speed of an output shaft driving an object in a designed non-high-speed state, is arranged on the side bracket 11 through a bolt, and is finally used for dragging a steel rope to rotate.

The roller mounting shaft 17 is arranged in the mounting hole;

the outer contour of the cable support roller 16 is a concave structure, so that the cable 26 falls into the concave structure to realize the axial guiding fixation of the cable, the cable support roller 16 is mounted on the roller mounting shaft 17 through a bearing, and the cable support roller 16 is positioned in the guide groove 111 of the side bracket 11 after being mounted.

Two transport rails 15 can be laid, and the transport rails 15 are mounted on the base 18 between the horizontal sections of the two side brackets 11 through bolts. The transport rails 15 are used for supporting and guiding movement of the transport vehicle.

The base 18 may be a dam, a base, a mounting seat, or other fixture, such as a concrete wall, which may also be a concrete structure, for securing the entire transportation system's rack assembly 1.

As mentioned above, the bracket assembly 1 mainly comprises a welding structure and a bolt connecting structure, and has the advantages of simple structure, convenient manufacture and low use cost.

As shown in fig. 3, the transportation bucket mechanism assembly 2 includes a transportation bucket 21, a self-discharging block 22, a pin 23, a connecting beam 24, a roller connecting block 25, a steel cable 26, a roller 27 and a roller driving block 28;

the transport is fought 21 and is seted up the aperture of minimality, can arrange the ponding of fighting the memory completely, prevents to fight to rust and reduce unnecessary weight, sets up some holes simultaneously and also can play the effect of weight reduction.

The roller connecting block 25 is of a flat plate arc structure, and the roller driving block 28 is of a flat plate structure; the roller connecting block 25 and the roller driving block 28 are connected through two vertically arranged fixed shafts to form a roller mounting frame, a roller 27 is mounted on each fixed shaft, and the rollers 27 are mounted on the fixed shafts through bearings; the riser is respectively welded to the terminal surface before the both ends of connecting beam 24, and connecting beam 24 has the effect that triangle-shaped strengthening rib plays the enhancement support in the welding of middle part both sides simultaneously, and the welded structure of adoption, simple structure makes conveniently, and use cost is low. The rear end faces of the two ends of the connecting cross beam 24 are respectively welded with a roller mounting rack; the transport bucket 21 is hinged to a vertical plate by a pin 23, and the vertical plate simultaneously plays a role in supporting the rear part of the transport bucket 21. The inclination of the self-discharging block 22 is matched with the self-discharging guide block 13, and the self-discharging block 22 is welded on two side edges of the conveying hopper 21; one end of the steel cable 26 is fixedly connected with the upper end of the roller driving block 28; in the assembled state, the roller 27 and the cable 26 are placed in the guide groove 111, the other end of the cable is connected to the output shaft of the reducer of the driving motor 14 through the guide of the cable support roller 16, and the motor rotates to contract and extend the cable, thereby driving the roller driving block 28 to move up and down.

As shown in fig. 4, the ground transfer trolley assembly 3 comprises a rectangular block 31, a guide rail wheel shaft, a guide rail wheel 32, a transfer trolley 33 and an assembly dragging hook 34; the transfer trolley 33 is of a trough-shaped bucket structure, the rectangular block 31 is welded at the middle part of the bottom of the transfer trolley, the guide rail wheel shaft penetrates through the rectangular block 31, and the guide rail wheels 32 are arranged at two ends of the guide rail wheel shaft; the assembly dragging hook 34 is welded on the transfer trolley 33, and the transfer trolley 33 is conveniently dragged. In an assembled state: the guide wheels 32 are placed on the transport rail 15. The transfer trolley structure adopting the special design is convenient and quick to unload objects.

The utility model relates to a two channel-section steel cable drive formula automatic discharge lift handling device's mounting method:

when the bracket assembly 1 is assembled, the mechanical structure thereof is composed of the left and right symmetrical side brackets 11. Firstly, the side bracket 11, the bracket 12 and the self-discharging guide block 13 are welded, then one end of the roller mounting shaft 17 firstly passes through the mounting hole, then the steel cable supporting roller 16 is mounted on the roller mounting shaft 17, and finally, two ends of the roller mounting shaft 17 are connected on the base 18 through bolts. And a driving motor 14 is mounted on the side bracket 11.

When the transportation bucket mechanism assembly 2 is assembled, the self-discharging block 22 is welded on the transportation bucket 21, and the transportation bucket 21 is hinged on a vertical plate of the connecting cross beam 24 through a pin shaft 23. And then welding the roller connecting block 25 on the connecting beam 24, pressing the roller 27 on 4 fixed shafts of the roller connecting block 25, fixing the roller driving block 28 on the fixed shafts through nuts, and finally welding one end of the steel cable 26 at the upper port of the roller driving block 28 to finish the assembly of the transportation hopper mechanism assembly 2.

When the ground transfer trolley assembly 3 is assembled, the rectangular block 31 and the assembly dragging hook 34 are welded on the transfer trolley 33, then the guide rail wheel shaft of the guide rail wheel 32 penetrates through the rectangular block 31, and then the wheel is pressed on the guide rail wheel shaft, thus completing the assembly.

Finally, the large assembly is assembled, the transportation bucket mechanism assembly 2 is arranged on the rolling guide groove 111 of the bracket assembly 1 and the output shaft of the driving motor 14 through the roller 27 and the steel cable 26, the ground transfer trolley assembly 3 is arranged on the transportation rail 15 of the bracket assembly 1, and the bracket assembly 1 is arranged on fixed dams, matrixes, mounting seats and other fixed objects through bolt connection.

The principle of the dismounting device is that the dismounting is carried out after the mounting.

When the automatic or manual auxiliary unloading device works, the transportation hopper mechanism assembly 2 moves downwards under the driving of the driving motor 14 of the bracket assembly 1 and the steel cable 26 on the transportation hopper mechanism assembly 2, the transportation hopper mechanism assembly 2 moves to a set position under the action of gravity of the transportation hopper mechanism assembly 2 and the guiding movement of the roller 27 in the guide groove 111, the motor keeps a power-off braking state, the position of the transportation hopper mechanism assembly 2 is ensured to be fixed, the specific position can be set through setting the positions of 2 motors of the bracket assembly 1, then an object to be transported is loaded into the transportation hopper 12 of the transportation hopper mechanism assembly 2, the motor of the bracket assembly 1 moves upwards to the position set at the upper limit after the motor reversely moves to wind the steel cable after the object loading is completed, the motor keeps the power-off braking state, the position of the transportation hopper mechanism assembly 2 is ensured to be fixed, and after the automatic or manual auxiliary unloading is completed, the motor of the bracket assembly 1 reversely moves to move the transportation hopper mechanism assembly 2 to, thereby initiating the operation of the second transfer cycle.

The utility model discloses the part that does not relate to all is the same with prior art or can adopt prior art to realize. The above description is for further details of the present invention with reference to specific preferred embodiments, and it should not be understood that the embodiments of the present invention are limited to the description of the above embodiments, and it will be apparent to those skilled in the art that the present invention can be implemented in a plurality of ways without departing from the spirit of the present invention, and all of them should be considered as belonging to the scope of the present invention as defined by the appended claims.

Claims

1. The utility model provides a two channel steel cable drive formula automatic discharge lift handling device which characterized in that: comprises a bracket assembly (1), a transportation bucket mechanism assembly (2) and a ground transfer trolley assembly (3);

the support assembly (1) comprises two side supports (11), a support (12), a self-discharging guide block (13), a driving motor (14), a transportation rail (15), a steel cable supporting roller (16), a roller mounting shaft (17) and a base (18);

the two side brackets (11) are symmetrically arranged, each side bracket (11) comprises a horizontal section, an arc section and a vertical section, and the horizontal section and the vertical section are integrally connected through the arc sections; the middle part of each side bracket (11) is provided with a guide groove (111), and the upper ends of the vertical sections of the two side brackets (11) are welded with brackets (12); a bracket (12), a self-discharging guide block (13) and a driving motor (14) are welded on the horizontal section of each side bracket (11), and a mounting hole for mounting a roller mounting shaft (17) is formed in the side edge of the arc section of each side bracket (11); the roller mounting shaft (17) is mounted in the mounting hole; the steel cable supporting roller (16) is arranged on the roller mounting shaft (17) through a bearing and is positioned in the guide groove (111); the side bracket (11) is arranged on the base (18) through a bracket (12); the transportation rail (15) is arranged on the base (18) through bolts and is positioned between the horizontal sections of the two side brackets (11);

the conveying bucket mechanism assembly (2) comprises a conveying bucket (21), a self-discharging block (22), a pin shaft (23), a connecting beam (24), a roller connecting block (25), a steel cable (26), a roller (27) and a roller driving block (28);

the roller connecting block (25) is of a flat plate arc structure, and the roller driving block (28) is of a flat plate structure; the roller connecting block (25) and the roller driving block (28) are connected through two fixed shafts which are arranged up and down to form a roller mounting frame, and the roller (27) is mounted on the fixed shafts through bearings; the front end faces of the two ends of the connecting cross beam (24) are respectively welded with a vertical plate, and the rear end faces of the two ends of the connecting cross beam (24) are respectively welded with a roller mounting rack; the conveying hopper (21) is hinged with the vertical plate through a pin shaft (23); the inclination of the self-discharging block (22) is matched with the self-discharging guide block (13), and the self-discharging block (22) is welded on two side edges of the conveying hopper (21); one end of the steel cable (26) is fixedly connected with the roller driving block (28); in the assembly state, the roller (27) and the steel cable (26) are placed in the guide groove (111), and the other end of the steel cable is connected with an output shaft of the driving motor (14) through the guide of the steel cable supporting roller (16);

the ground transfer trolley assembly (3) comprises a rectangular block (31), a guide rail wheel shaft, a guide rail wheel (32) and a transfer trolley (33); the rectangular block (31) is welded at the bottom part of the transfer trolley (33), the guide rail wheel shaft penetrates through the rectangular block (31), and the guide rail wheels (32) are arranged at two ends of the guide rail wheel shaft; in an assembled state: the guide rail wheels (32) are placed on the transport rail (15).

2. The double-guide-channel steel cable driven type automatic discharging, lifting and carrying device as claimed in claim 1, wherein: the ground transfer trolley assembly (3) further comprises an assembly dragging hook (34), and the assembly dragging hook (34) is welded on the transfer trolley (33); the transfer trolley (33) is of a trough-shaped bucket structure.

3. The double-guide-channel steel cable driven type automatic discharging, lifting and carrying device as claimed in claim 1, wherein: the conveying hopper (21) is provided with a fine hole.

4. The double-guide-channel steel cable driven type automatic discharging, lifting and carrying device as claimed in claim 1, wherein: one end of the support (12) is welded on the side support (11), the other end of the support is of a flat plate structure with a mounting hole, and the support (12) is mounted on the base (18) through the matching of bolts and the mounting hole.

5. The double-guide-channel steel cable driven type automatic discharging, lifting and carrying device as claimed in claim 1, wherein: the driving motor (14) is a speed reducing motor with a braking function.

6. The double-guide-channel steel cable driven type automatic discharging, lifting and carrying device as claimed in claim 1, wherein: the outer contour of the steel cable supporting roller (16) is of a concave structure.

7. The double-guide-channel steel cable driven type automatic discharging, lifting and carrying device as claimed in claim 1, wherein: triangular reinforcing ribs are welded on two sides of the middle part of the connecting cross beam (24).