CN210480526U - Lifting device using steel structure elevator shaft as vertical transportation channel - Google Patents

Abstract

The utility model discloses an utilize steel construction elevartor shaft to be hoisting equipment of perpendicular transport corridor belongs to building engineering technical field. A lifting device using a steel-structure elevator shaft as a vertical transportation channel comprises a steel-structure elevator shaft component and a transportation component, wherein the steel-structure elevator shaft component comprises a first elevator shaft steel column and a second elevator shaft steel column, and further comprises a cross arm top beam, an electric suspension hoist, a steel wire rope, a hook, a suspension cage component, a car drawing component and a vertical rail, wherein the cross arm top beam is fixedly connected to the top end of the steel-structure elevator shaft component, is fixedly connected with the second elevator shaft steel column, and is fixedly connected to the bottom of the cross arm top beam; the lifting equipment of the utility model has simple structure, safety and reliability, convenient manufacture, installation and disassembly and low cost; vertical transportation configuration is optimized, the construction progress contradiction among various groups can be effectively relieved, and the construction progress of the steel structure assembly type building is further accelerated.

Description

Lifting device using steel structure elevator shaft as vertical transportation channel

Technical Field

The utility model relates to a building engineering technical field especially relates to an utilize steel construction elevartor shaft to be hoisting equipment of perpendicular transport corridor.

Background

After the construction of a steel structure assembly type building, particularly a high-rise residence, a steel structure main body and a floor slab is completed, a large amount of materials such as battens, tiles, doors and windows, hydroelectric equipment and the like need to be transported to each floor respectively in the stages of wall enclosure, water and electricity heating ventilation and decoration, so that the workload of vertical transportation machinery such as a tower crane and the like is greatly increased, and the construction progress in the stage is severely restricted.

The existing vertical transportation devices such as a tower crane unloading platform, a construction elevator and the like have high purchasing and installation cost and low efficiency and automation degree; the wall body at the conventional discharge opening can not be constructed in time, and the smooth operation of subsequent processes such as heat preservation, stone paint and the like is influenced; in addition, due to the limitation of various factors such as construction site area and space, the vertical lifting equipment cannot be fully installed at other positions.

Therefore, the current vertical transportation device is difficult to adapt to the requirements of construction enterprises in China, and a novel cheap and efficient vertical transportation device is developed by combining the characteristics of the steel structure assembly type building and the requirements of a construction site, so that the construction progress of the steel structure assembly type building is further accelerated.

Disclosure of Invention

The utility model aims at solving the problem that proposes in the above-mentioned background art, and the lifting means who utilizes the steel construction elevartor shaft to be perpendicular transport corridor who proposes.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a lifting device using a steel-structure elevator shaft as a vertical transportation channel comprises a steel-structure elevator shaft component and a transportation component, wherein the steel-structure elevator shaft component comprises a first elevator shaft steel column and a second elevator shaft steel column, and further comprises a cross arm top beam, an electric suspension hoist, a steel wire rope and a hook, a suspension cage component, a vehicle-drawing component and a vertical rail, wherein the cross arm top beam is fixedly connected to the top end of the steel-structure elevator shaft component, the cross arm top beam is fixedly connected with the second elevator shaft steel column, the electric suspension hoist is fixedly connected to the bottom of the cross arm top beam, the suspension cage component is connected with the electric suspension hoist through the steel wire rope and the hook, the vehicle-drawing component is slidably connected to the suspension cage component, and the transportation component;

the vertical rail comprises a groove rail, a fixing clamping piece, a second connecting bolt and a polytetrafluoroethylene roller, the groove rail is fixedly connected with the fixing clamping piece, the fixing clamping piece is fixedly connected to a second elevator shaft steel column through the second connecting bolt, the polytetrafluoroethylene roller is slidably connected to the groove rail, and the cage hanging piece is fixedly connected with the polytetrafluoroethylene roller.

Preferably, the cage spare includes cage chassis, sheet steel, track angle steel, cage guardrail, hoist and mount frame, lifting lug plate, fixedly connected with connecting block on the cage chassis, the polytetrafluoroethylene gyro wheel rotates to be connected on the connecting block, cage chassis fixed connection is in the sheet steel bottom, fixedly connected with track angle steel, cage guardrail on the sheet steel, the track angle steel is located cage guardrail lateral wall, cage guardrail upper end passes through hoist and mount frame fixed continuous with lifting lug plate.

Preferably, the vehicle pumping part comprises a vehicle pumping chassis, a front vehicle pumping baffle, a steel plate net, a wheel shaft and a fixing part, wherein the vehicle pumping chassis is fixedly connected with a vehicle pumping guardrail (52), the vehicle pumping guardrail is fixedly connected with the front vehicle pumping baffle, the inner wall of the vehicle pumping chassis is fixedly connected with the steel plate net, the bottom of the vehicle pumping chassis is fixedly connected with the fixing part, the fixing part is connected with the wheel shaft in a rotating manner, the wheel shaft is fixedly connected with a track steel wheel, and the track steel wheel is matched with track angle steel.

Preferably, electric hoist that hangs includes electric hoist, bolted connection spare, the cross arm back timber includes cross arm girder steel, first connecting bolt, the cross arm girder steel links to each other with first elevator shaft steel column through first connecting bolt, the cross arm girder steel links to each other through first connecting bolt, bolted connection spare with electric hoist.

Preferably, wire rope and couple include the movable pulley, the movable pulley passes through the wire rope spare with electric block and links to each other, the movable pulley bottom is equipped with hook piece, the movable pulley is connected with the hoist and mount axle through hook piece, the epaxial rotation of hoist and mount is connected with the cage handle, the cage handle passes through the hoist and mount axle with the lug board and links to each other.

Preferably, an electric remote control is arranged on the first elevator shaft steel column and electrically connected with the electric suspension hoist.

Compared with the prior art, the utility model provides an utilize steel construction elevartor shaft to be hoisting equipment of perpendicular transport corridor possesses following beneficial effect:

according to the lifting device using the steel structure elevator shaft as the vertical transportation channel, when a user uses the lifting device, the transportation piece is placed on the steel plate net of the pumping piece, the pumping guardrail and the pumping front bumper on the pumping piece can prevent the transportation piece from falling off, the pumping chassis on the pumping piece can support the pumping piece to push the pumping piece, and the pumping piece slides on the rail angle steel of the suspension cage through the rail steel wheel, so that the sliding is more stable, and the pumping piece is effectively prevented from shaking;

the suspension cage chassis on the suspension cage piece supports the suspension cage piece, the thin steel plate on the suspension cage piece can carry people when carrying the goods, and the suspension cage guardrail can prevent the car drawing piece or the people from moving left and right and falling off;

after the car drawing piece is placed on the cage hanging piece, the electric hoist is controlled to rotate by controlling the electric remote control piece, the electric hoist is fixed on a second elevator shaft steel column through a bolt connecting piece, a first connecting bolt and a cross arm steel beam, and then in the rotating process of the electric hoist, the movable pulley is driven to move upwards through the steel wire rope piece, and further the movable pulley drives the cage hanging piece to move upwards through the hook piece;

when the suspension cage piece moves upwards, a suspension cage chassis on the suspension cage piece is connected with a polytetrafluoroethylene roller through a connecting block so as to drive the polytetrafluoroethylene roller to move upwards, the polytetrafluoroethylene roller is connected in a groove rail in a sliding manner, the groove rail is fixed on a second elevator shaft steel column through a fixing clamping piece and a second connecting bolt, and therefore when the suspension cage piece moves upwards, and further transportation of a transportation piece or people is completed through the suspension cage piece, so that the transportation is more stable, and the transportation amount at one time is large;

the part which is not involved in the device is the same as the prior art or can be realized by adopting the prior art, the lifting equipment in the utility model has simple, safe and reliable structure, convenient manufacture, installation and disassembly and low cost; vertical transportation configuration is optimized, the construction progress contradiction among various groups can be effectively relieved, and the construction progress of the steel structure assembly type building is further accelerated.

Drawings

Fig. 1 is one of the schematic structural views of a lifting device using a steel-structured elevator shaft as a vertical transportation passage according to the present invention;

fig. 2 is a schematic structural view of a vertical rail of a lifting device using a steel-structured elevator shaft as a vertical transportation passage according to the present invention;

fig. 3 is a schematic structural view of a rail steel wheel of a vertical rail of a lifting device using a steel structure elevator shaft as a vertical transportation channel provided by the utility model;

fig. 4 is a schematic structural view of a car-pulling member of a vertical rail of a lifting device using a steel-structured elevator shaft as a vertical transportation passage according to the present invention;

fig. 5 is one of the schematic structural diagrams of the lifting device using the steel-structured elevator shaft as the vertical transportation passage according to the present invention;

fig. 6 is one of the schematic structural diagrams of the lifting device using the steel-structured elevator shaft as the vertical transportation passage according to the present invention;

fig. 7 is one of the schematic structural diagrams of the lifting device using the steel-structured elevator shaft as the vertical transportation passage according to the present invention;

fig. 8 is the utility model provides an utilize steel construction elevartor shaft to be one of vertical transportation channel's lifting means's structural schematic.

In the figure: 00. a steel structure elevator shaft member; 01. a first elevator shaft steel column; 02. a second hoistway steel column; 10. a cross arm top beam; 11. a cross-arm steel beam; 12. a first connecting bolt; 20. an electric suspension hoist; 21. an electric hoist; 22. a bolt connection; 23. an electric remote control; 30. a steel wire rope and a hook; 31. a wire rope member; 32. a movable pulley; 33. a hook member; 40. hanging a cage; 41. a cage chassis; 42. a thin steel sheet; 43. rail angle steel; 44. a cage guard rail; 45. a hoisting frame; 46. a lug plate; 47. a cage handle; 48. hoisting a shaft; 49. connecting blocks; 50. a vehicle drawing piece; 51. a chassis of the pumping vehicle; 52. a vehicle pumping guardrail; 53. a front gear of the drawer; 54. steel plate nets; 55. a rail steel wheel; 56. a wheel axle; 57. a fixing member; 60. a vertical rail; 61. a groove rail; 62. fixing the clamping piece; 63. a second connecting bolt; 64. a polytetrafluoroethylene roller; 70. and (5) transporting the parts.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Example (b):

referring to fig. 1-8, a lifting device using a steel-structure elevator shaft as a vertical transportation channel comprises a steel-structure elevator shaft member 00 and a transportation member 70, wherein the steel-structure elevator shaft member 00 comprises a first elevator shaft steel column 01 and a second elevator shaft steel column 02, and further comprises a cross arm top beam 10, an electric suspension hoist 20, a steel wire rope and a hook 30, a suspension cage member 40, a crane member 50 and a vertical rail 60, the cross arm top beam 10 is fixedly connected to the top end of the steel-structure elevator shaft member 00, the cross arm top beam 10 is fixedly connected with the second elevator shaft steel column 02, the electric suspension hoist 20 is fixedly connected to the bottom of the cross arm top beam 10, the suspension cage member 40 is connected with the electric suspension hoist 20 through the steel wire rope and the hook 30, the crane member 50 is slidably connected to the suspension cage member 40, and;

vertical track 60 includes grooved rail 61, fixed fastener 62, second connecting bolt 63, polytetrafluoroethylene gyro wheel 64, and fixed fastener 62 of fixedly connected with on the grooved rail 61, fixed fastener 62 passes through second connecting bolt 63 fixed connection on second elevator shaft steel column 02, and polytetrafluoroethylene gyro wheel 64 sliding connection is on grooved rail 61, and cage spare 40 links to each other with polytetrafluoroethylene gyro wheel 64 is fixed.

The suspension cage piece 40 comprises a suspension cage chassis 41, a thin steel plate 42, rail angle steel 43, suspension cage guardrails 44, a suspension frame 45 and a suspension lug plate 46, a connecting block 49 is fixedly connected to the suspension cage chassis 41, a polytetrafluoroethylene roller 64 is rotatably connected to the connecting block 49, the suspension cage chassis 41 is fixedly connected to the bottom of the thin steel plate 42, the rail angle steel 43 and the suspension cage guardrails 44 are fixedly connected to the thin steel plate 42, the rail angle steel 43 is located on the side walls of the suspension cage guardrails 44, and the upper ends of the suspension cage guardrails 44 are fixedly connected with the suspension lug plate 46 through the suspension frame 45.

The pumping unit 50 comprises a pumping chassis 51, a pumping front bumper 53, a steel plate net 54, a wheel shaft 56 and a fixing piece 57, wherein a pumping guardrail (52) is fixedly connected to the pumping chassis 51, the pumping guardrail 52 is fixedly connected with the pumping front bumper 53, the inner wall of the pumping chassis 51 is fixedly connected with the steel plate net 54, the fixing piece 57 is fixedly connected to the bottom of the pumping chassis 51, the fixing piece 57 is rotatably connected with the wheel shaft 56, a track steel wheel 55 is fixedly connected to the wheel shaft 56, and the track steel wheel 55 is matched with the track angle steel 43.

Electric hoist 20 includes electric hoist 21, bolted connection 22, and cross arm back timber 10 includes cross arm girder steel 11, first connecting bolt 12, and cross arm girder steel 11 links to each other with first elevator shaft steel column 01 through first connecting bolt 12, and cross arm girder steel 11 links to each other through first connecting bolt 12, bolted connection 22 with electric hoist 21.

The steel wire rope and hook 30 comprises a movable pulley 32, the movable pulley 32 is connected with the electric hoist 21 through a steel wire rope piece 31, a hook piece 33 is arranged at the bottom of the movable pulley 32, the movable pulley 32 is connected with a hoisting shaft 48 through the hook piece 33, a hoisting cage handle 47 is rotatably connected onto the hoisting shaft 48, and the hoisting cage handle 47 is connected with a hoisting lug plate 46 through the hoisting shaft 48.

An electric remote control 23 is arranged on the first elevator shaft steel column 01, and the electric remote control 23 is electrically connected with the electric suspension hoist 20.

When a user uses the trolley 50, the transportation piece 70 is placed on the steel plate mesh 54 of the trolley 50, the trolley guard rail 52 and the trolley front stop 53 on the trolley 50 can prevent the transportation piece 70 from falling off, the trolley chassis 51 on the trolley 50 can support the trolley 50 to push the trolley 50, the trolley 50 slides on the rail angle steel 43 of the suspension cage through the rail steel wheel 55, the sliding is more stable, and the trolley 50 is effectively prevented from shaking;

a cage chassis 41 on the cage 40 supports the cage 40, a thin steel plate 42 on the cage 40 can carry people during carrying, and cage guardrails 44 can prevent the car pumping part 50 or people from moving left and right and falling off;

after the car drawing piece 50 is placed on the cage piece 40, the electric hoist 21 is controlled to rotate by controlling the electric remote control piece 23, the electric hoist 21 is fixed on the second elevator shaft steel column 02 through the bolt connecting piece 22, the first connecting bolt 12 and the cross arm steel beam 11, and then in the rotating process of the electric hoist 21, the movable pulley 32 is driven to move upwards through the steel wire rope piece 31, and then the movable pulley 32 drives the cage piece 40 to move upwards through the hook piece 33;

when the cage member 40 moves upwards, the cage chassis 41 on the cage member 40 is connected with the polytetrafluoroethylene roller 64 through the connecting block 49 so as to drive the polytetrafluoroethylene roller 64 to move upwards, the polytetrafluoroethylene roller 64 is connected in the groove rail 61 in a sliding manner, the groove rail 61 is fixed on the second elevator shaft steel column 02 through the fixing clamping piece 62 and the second connecting bolt 63, and therefore the cage member 40 can be prevented from moving upwards when the cage member 40 moves upwards, and the transportation of the transportation member 70 or people is completed through the cage member 40, so that the transportation is more stable, and the transportation amount can be large at one time;

the lifting equipment of the utility model has simple structure, safety and reliability, convenient manufacture, installation and disassembly and low cost; vertical transportation configuration is optimized, the construction progress contradiction among various groups can be effectively relieved, and the construction progress of the steel structure assembly type building is further accelerated.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. A lifting device using a steel-structure elevator shaft as a vertical transportation channel comprises a steel-structure elevator shaft part (00) and a transportation part (70), wherein the steel-structure elevator shaft part (00) comprises a first elevator shaft steel column (01) and a second elevator shaft steel column (02), and is characterized by further comprising a cross arm top beam (10), an electric suspension hoist (20), a steel wire rope and a hook (30), a cage part (40), a pumping part (50) and a vertical rail (60), wherein the cross arm top beam (10) is fixedly connected to the top end of the steel-structure elevator shaft part (00), the cross arm top beam (10) is fixedly connected with the second elevator shaft steel column (02), the electric suspension hoist (20) is fixedly connected to the bottom of the cross arm top beam (10), the cage part (40) is connected with the electric suspension hoist (20) through the steel wire rope and the hook (30), and the pumping part (50) is slidably connected to the cage part (40), the transportation piece (70) is connected to the vehicle drawing piece (50);

vertical track (60) include grooved rail (61), fixed fastener (62), second connecting bolt (63), polytetrafluoroethylene gyro wheel (64), fixed fastener (62) of fixedly connected with on grooved rail (61), fixed fastener (62) are through second connecting bolt (63) fixed connection on second elevator shaft steel column (02), polytetrafluoroethylene gyro wheel (64) sliding connection is on grooved rail (61), hang cage spare (40) and polytetrafluoroethylene gyro wheel (64) fixed connection.

2. The lifting device for the vertical transportation channel by using the steel structure elevator shaft as the claim 1 is characterized in that the cage member (40) comprises a cage chassis (41), a thin steel plate (42), rail angle steel (43), cage guardrails (44), a hoisting frame (45) and a hoisting lug plate (46), a connecting block (49) is fixedly connected to the cage chassis (41), a polytetrafluoroethylene roller (64) is rotatably connected to the connecting block (49), the cage chassis (41) is fixedly connected to the bottom of the thin steel plate (42), the rail angle steel (43) and the cage guardrails (44) are fixedly connected to the thin steel plate (42), the rail angle steel (43) is located on the side wall of the cage guardrails (44), and the upper ends of the cage guardrails (44) are fixedly connected with the hoisting lug plate (46) through the hoisting frame (45).

3. The lifting device for the vertical transportation channel by using the steel structure elevator shaft as the claim 2 is characterized in that the car pumping part (50) comprises a car pumping chassis (51), a car pumping front stop (53), a steel plate net (54), a wheel shaft (56) and a fixing part (57), wherein a car pumping guardrail (52) is fixedly connected to the car pumping chassis (51), the car pumping guardrail (52) is fixedly connected with the car pumping front stop (53), the steel plate net (54) is fixedly connected to the inner wall of the car pumping chassis (51), the fixing part (57) is fixedly connected to the bottom of the car pumping chassis (51), the fixing part (57) is rotatably connected with the wheel shaft (56), a track steel wheel (55) is fixedly connected to the wheel shaft (56), and the track steel wheel (55) is matched with a track angle steel (43).

4. The lifting apparatus for vertical transportation with a steel-structured elevator shaft as claimed in claim 2, wherein the electric hoist (20) comprises an electric hoist (21) and a bolt connection (22), the cross-arm top beam (10) comprises a cross-arm steel beam (11) and a first connection bolt (12), the cross-arm steel beam (11) is connected with the first elevator shaft steel column (01) through the first connection bolt (12), and the cross-arm steel beam (11) is connected with the electric hoist (21) through the first connection bolt (12) and the bolt connection (22).

5. A lifting device for vertical transportation with a steel structure elevator shaft as claimed in claim 4, characterized in that the steel cable and hook (30) comprises a movable pulley (32), the movable pulley (32) is connected with the electric block (21) through a steel cable member (31), the bottom of the movable pulley (32) is provided with a hook member (33), the movable pulley (32) is connected with a lifting shaft (48) through the hook member (33), the lifting shaft (48) is rotatably connected with a cage handle (47), and the cage handle (47) is connected with the lifting lug plate (46) through the lifting shaft (48).

6. A lifting device for a vertical transportation path using a steel-structured elevator shaft as defined in any one of claims 1 to 5, wherein the first elevator shaft steel column (01) is provided with an electric remote control (23), and the electric remote control (23) is electrically connected to the electric suspension block (20).

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