CN219669886U - High-stability hoistway type construction lifter - Google Patents

Abstract

The utility model discloses a high-stability hoistway type construction lifter, which comprises a power device, a traction medium, a suspension cage and a roof beam, wherein the power device is arranged on the suspension cage; the traction medium comprises an integrated first working section and a second working section which are connected with the roof beam; the power device comprises a first power part and a second power part, the first power part and the second power part both comprise a motor and a power wheel, the motor drives the power wheel to rotate, and the power device is arranged on the suspension cage. More people or items can be carried. Meanwhile, because the traction medium comprises the first working section and the second working section which are integrated, the symmetry is better, the inclination and the swing of the suspension cage can be prevented, and the stability is higher. And the load is shared by using the roof beam, so that the safety is higher.

Description

High-stability hoistway type construction lifter

Technical Field

The utility model relates to the technical field of construction elevators, in particular to a high-stability hoistway type construction elevator.

Background

The construction hoist is arranged in a building well, the hoist is provided with a hanging cage, the hanging cage moves in the well, most of traditional construction hoist adopts a traction type structure of a traction machine, namely, a steel wire rope is pulled by traction, and the hanging cage is pulled to perform lifting movement by the steel wire rope, for example, the technical scheme disclosed by the synchronous construction hoist is the same as that disclosed in CN 201920948460.5. However, the elevator with the structure still has the problem that the whole traction machine and the open beam are very heavy, and the disassembly and the lifting installation are not easy to carry out. Meanwhile, the traction machine used by the structure has larger power, larger whole and higher cost. In addition, the hanging structure has the advantages that the distance between the hanging cage and the traction pivot is long, and the hanging cage is easy to shake.

Disclosure of Invention

The utility model aims to provide a high-stability hoistway type construction lifter which can reduce cost and weight, is more convenient to detach and install a lifting layer, and meanwhile, the lifting cage moves more stably up and down.

To achieve the purpose, the utility model adopts the following technical scheme:

a high-stability hoistway type construction lifter comprises a power device, a traction medium, a suspension cage and a roof beam;

the roof beam is fixed at the upper end of a well of a building, and can rise and move along with the construction of the building,

the traction medium comprises an integrated first working section and a second working section which are connected with the roof beam;

the power device comprises a first power part and a second power part, the first power part and the second power part both comprise a motor and a power wheel, the motor drives the power wheel to rotate, the power wheel of the first power part is connected with a first working section of a traction medium in a winding manner, the power wheel of the second power part is connected with a second working section of the traction medium in a winding manner, the power device is arranged on the suspension cage, and the power wheel moves up and down on the traction medium in a rotating manner so as to drive the suspension cage to move up and down.

The beneficial effects are that, there is not hauler in this patent, so whole weight significantly reduces, and the cost is reduced moreover. When the lifting operation is needed, the disassembly and the lifting installation are more convenient and concise. This patent utilizes the frictional force of power wheel and traction medium for the power wheel rotates the up-and-down motion on traction medium, and traction medium is basically motionless in the middle of this process, only the power wheel climbs about traction medium, thereby drives the cage through the power device that the power wheel is located and carries out the up-and-down motion, and this kind of power device can select for use less motor under this kind of circumstances, and cost greatly reduced, and weight also can greatly reduced, and under this kind of circumstances, power device sets up on the cage just can not occupy the load of falling the cage itself, can bear more personnel or article.

Meanwhile, because the traction medium comprises the first working section and the second working section which are integrated, namely the first working section and the second working section share the same traction medium, when the power wheel moves up and down on the traction medium in a rotating mode, the symmetry is better, the inclination and the swinging of the hanging cage can be prevented, and the traction fulcrum is located at the power wheel, the distance between the traction fulcrum and the hanging cage is shorter, so that the stability is higher.

Meanwhile, because the roof beam is arranged, and the traction medium is connected with the guide wheels on the roof beam. The roof beam can be put on the well of building, so the atress of traction medium top can be shared by the roof beam to the well of building on, need not beat the screw or install the bracket seat on the well wall body, can not receive cement setting period length etc. influence, uses roof beam sharing atress, and the security is higher.

In some embodiments, the traction medium is provided with a plurality of traction media, and the winding mode between the traction medium and the power wheel is S-shaped or alpha-shaped.

The traction medium has the beneficial effects that a plurality of traction media can be provided, and two, three, four or more traction media can be provided. The lifting cage can be arranged on two sides of the lifting cage, or on the left side, the right side and the rear side, or on four corners of the lifting cage, and can only keep the lifting cage to stably move up and down.

In some embodiments, the roof rail is provided with a top guide wheel, the middle part of the traction medium bypasses the top guide wheel, the first working section is positioned on one side of the top guide wheel, and the second working section is positioned on the other side of the top guide wheel.

In some embodiments, the traction medium is a steel rope or a steel belt.

The steel wire rope has the beneficial effects that the steel wire rope body or the steel belt body can provide larger supporting force and friction force.

In some embodiments, the top guide wheel is a fixed pulley.

In some embodiments, the top guide wheel comprises two reels.

In some embodiments, the elevator further comprises a rail, a first roller, a second roller and a third roller, wherein the rail is arranged on the side wall of the hoistway, the first roller, the second roller and the third roller are arranged on the cage, and the first roller, the second roller and the third roller are attached to the rail from three directions.

The beneficial effects are that, in the middle of this patent, through setting up the ascending gyro wheel of three direction to can establish three gyro wheel card on the track, thereby the operation of convenient guide cage. And the design of three gyro wheels, simple structure conveniently maintains and inspects.

In some embodiments, the first roller and the second roller are at a first elevation and the third roller is at a second elevation.

The three-roller high-speed rail has the beneficial effects that three rollers can be conveniently clamped on a rail.

In some embodiments, the traction medium further comprises a winding drum provided with traction medium reserved for building lifting.

The winding drum and the corresponding reserved traction medium are arranged, when the layer lifting operation is carried out, the reserved traction medium can be directly discharged, a new traction medium does not need to be reconfigured, and the use is more convenient.

Drawings

Fig. 1 is a structural view of a high stability hoistway type construction hoist according to an embodiment of the present utility model;

fig. 2 is a structural view of a high-stability hoistway-type construction hoist according to still another embodiment of the present utility model;

fig. 3 is a structural view of a high stability hoistway type construction hoist according to still another embodiment of the present utility model;

FIG. 4 is a block diagram of a track arrangement of a high stability hoistway type construction hoist according to an embodiment of the present utility model;

FIG. 5 is an enlarged schematic view of portion A of FIG. 4;

FIG. 6 is a schematic view of a winding structure of a traction medium of a high stability hoistway type construction elevator according to an embodiment of the present utility model;

fig. 7 is a schematic view showing a winding structure of a traction medium of a high-stability hoistway-type construction hoist according to still another embodiment of the present utility model;

Detailed Description

The utility model is described in further detail below with reference to fig. 1-7.

As shown in fig. 1-7, a high-stability hoistway type construction lifter comprises a power device 1, a traction medium 2, a suspension cage 3 and a roof beam 4;

the roof beam 4 is fixed at the upper end of a hoistway 5 of a building, the roof beam 4 can rise and move along with the rise of the building,

the traction medium 2 comprises a first working section 21 and a second working section 22 which are integrated and connected with the roof beam 4;

the power device 1 comprises a first power part and a second power part, the first power part and the second power part comprise a motor 11 and a power wheel 12, the motor 11 drives the power wheel 12 to rotate, the power wheel 12 of the first power part is in winding connection with a first working section 21 of the traction medium 2, the power wheel 12 of the second power part is in winding connection with a second working section 22 of the traction medium 2, the power device 1 is arranged on the suspension cage 3, and the power wheel 12 moves up and down on the traction medium 2 in a rotating mode to drive the suspension cage 3 to move up and down.

The beneficial effects are that, there is not hauler in this patent, so whole weight significantly reduces, and the cost is reduced moreover. When the lifting operation is needed, the disassembly and the lifting installation are more convenient and concise. The friction between the power wheel 12 and the traction medium is utilized, so that the power wheel 12 moves up and down on the traction medium in a rotating manner, the traction medium is basically kept motionless in the process, only the power wheel 12 climbs up and down on the traction medium, and the lifting cage 3 is driven to move up and down by the power device 1 where the power wheel 12 is positioned, so that the power device 1 can select a smaller motor, the cost is greatly reduced, the weight is also greatly reduced, and under the condition, the power device 1 is arranged on the lifting cage 3 and can not occupy the load of the lifting cage 3, so that more people or objects can be borne.

Meanwhile, because the traction medium 2 comprises the first working section 21 and the second working section 22 which are integrated, namely the first working section 21 and the second working section 22 share the same traction medium 2, the symmetry is better when the power wheel 12 moves up and down on the traction medium 2 in a rotating way, the tilting and swinging of the suspension cage 3 can be prevented, and the traction fulcrum is positioned at the power wheel 12, and the distance between the traction fulcrum and the suspension cage 3 is shorter, so that the stability is higher.

Meanwhile, as the roof beam 4 is arranged, the traction medium is connected with the guide wheels on the roof beam 4. The roof beam 4 can be put on the well 5 of building, so the atress of traction medium top can be shared by roof beam 4 to the well 5 of building, need not beat screw or installation bracket seat on the well wall body, can not receive cement setting period length etc. influence, uses roof beam 4 to share the atress, and the security is higher.

The traction medium may be provided in a plurality of pieces, as shown in fig. 6 and 7, and the winding manner between the traction medium and the power wheel 12 is S-type or a-type.

The traction medium has the beneficial effects that a plurality of traction media can be provided, and two, three, four or more traction media can be provided. Can be arranged on two sides of the hanging cage 3, or on the left side, the right side and the rear side, or on four corners of the hanging cage 3, and can only keep the hanging cage 3 to stably move up and down.

The roof beam 4 can be equipped with top leading wheel 6, and the middle part of traction medium walks around top leading wheel 6, and first working section 21 is located top leading wheel 6 one side, and second working section 22 is located top leading wheel 6's opposite side.

The traction medium can be a steel wire rope body or a steel belt body.

The steel wire rope has the beneficial effects that the steel wire rope body or the steel belt body can provide larger supporting force and friction force.

As shown in fig. 1, the top guide wheel 6 may be a fixed pulley.

Or as shown in fig. 2, the top guide wheel 6 may also comprise two reels 61.

As shown in fig. 4 and 5, the present patent may further include a rail 81, a first roller 82, a second roller 83 and a third roller 84, where the rail 81 is disposed on a side wall of the hoistway, the first roller 82, the second roller 83 and the third roller 84 are disposed on the cage 3, and the first roller, the second roller and the third roller are attached to the rail 81 from three directions.

The beneficial effects are that, in the middle of this patent, through setting up the ascending gyro wheel of three direction to can establish three gyro wheel card on track 81, thereby the operation of convenient guide cage 3. And the design of three gyro wheels, simple structure conveniently maintains and inspects.

The first roller and the second roller may be located at a first height and the third roller may be located at a second height.

The beneficial effects are that, conveniently establish the good card of three gyro wheels on track 81.

As shown in fig. 3, the traction medium may further include a winding drum 7, and the winding drum 7 is provided with the traction medium reserved along with the rise of the building.

The winding drum 7 and the corresponding reserved traction medium are arranged, when the layer lifting operation is carried out, the reserved traction medium can be directly discharged, a new traction medium does not need to be reconfigured, and the use is more convenient.

What has been disclosed above is but a few embodiments of the present utility model. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the utility model.

Claims (9)

1. The high-stability hoistway type construction lifter is characterized by comprising a power device (1), a traction medium (2), a suspension cage (3) and a roof beam (4);

the roof beam (4) is fixed at the upper end of a well (5) of a building, the roof beam (4) can rise and move along with the rise of the building,

the traction medium (2) comprises a first working section (21) and a second working section (22) which are integrated and are connected with the roof beam (4);

the power device (1) comprises a first power part and a second power part, the first power part and the second power part comprise a motor (11) and a power wheel (12), the motor (11) drives the power wheel (12) to rotate, the power wheel (12) of the first power part is connected with a first working section (21) of a traction medium (2) in a winding mode, the power wheel (12) of the second power part is connected with a second working section (22) of the traction medium (2) in a winding mode, the power device (1) is arranged on the lifting cage (3), and the power wheel (12) moves up and down on the traction medium (2) in a rotating mode to drive the lifting cage (3) to move up and down.

2. The high-stability hoistway-type construction hoist according to claim 1, characterized in that the traction medium is provided in a plurality of pieces, and the winding manner between the traction medium and the power wheel (12) is S-type or a-type.

3. A high stability hoistway type construction hoist according to claim 1, characterized in that the roof beam (4) is provided with a top guide wheel (6), the middle part of the traction medium bypasses the top guide wheel (6), the first working section (21) is located at one side of the top guide wheel (6), and the second working section (22) is located at the other side of the top guide wheel (6).

4. The high stability hoistway type construction hoist according to claim 1, characterized in that the traction medium is a steel rope or a steel belt.

5. A high stability hoistway type construction hoist according to claim 3, characterized in that the top guide wheel (6) is a fixed sheave.

6. A high stability hoistway type construction hoist according to claim 5, characterized in that the top guide wheel (6) includes two reels (61).

7. A high stability hoistway type construction hoist according to claim 1, characterized in that the traction medium further comprises a winding drum (7), the winding drum (7) being provided with traction medium reserved for building lifting.

8. The high-stability hoistway-type construction lifter according to claim 1, further comprising a rail (81), a first roller (82), a second roller (83) and a third roller (84), wherein the rail (81) is disposed on a side wall of the hoistway, the first roller (82), the second roller (83) and the third roller (84) are disposed on a cage (3), and the first roller, the second roller and the third roller are attached to the rail (81) from three directions.

9. The high stability hoistway type construction hoist of claim 8, characterized in that the first roller and the second roller are located at a first height and the third roller is located at a second height.