CN218708444U - Damping device for construction elevator operation room - Google Patents

Abstract

The utility model discloses a damping device for construction elevator control chamber, belong to construction elevator technical field, including delivery car and damping bottom plate, delivery space has been seted up at the middle part of above-mentioned delivery car, the up end of above-mentioned delivery car is equipped with linkage, the top of linkage is equipped with the carry device on the aforesaid, above-mentioned damping bottom plate welds in the bottom of delivery car, the both sides of above-mentioned damping bottom plate are equipped with a set of auxiliary frame respectively, the equal swing joint in inside of above-mentioned auxiliary frame has a set of locking wheel, above-mentioned auxiliary frame all is equipped with supplementary air pump towards the inside one side of damping bottom plate, above-mentioned supplementary air pump is equipped with butt gas column towards the one side of auxiliary frame, the one end that supplementary air pump was kept away from to above-mentioned butt gas column is equipped with the air brake, above-mentioned damping bottom plate is equipped with the shock attenuation platform with the welding department up end of delivery car, this a damping device for construction elevator control chamber, the shock attenuation effect is higher, need not extra personnel's operation.

Description

Damping device for construction elevator operating room

Technical Field

The utility model belongs to the technical field of the construction elevator, concretely relates to a damping device for construction elevator control chamber.

Background

The operation room is the dedicated operating space of elevator driver originally in the construction elevator operation process, and the condition outside the construction elevator is observed to the driver in the operation room to the construction elevator is controlled to safe efficient, and unmanned operation has been adopted to present most, carries out the lift delivery through the means equal with conventional elevator.

Traditional construction elevator, often inside be simple and easy frame type car, though can carry on, but the shock attenuation effect of its lift in-process is relatively poor, and permanent vibrations cause the damage to the electronic component in the control chamber easily, need to have kind of follow-on damping device for construction elevator.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a damping device for being under construction elevator control chamber to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a damping device for a construction elevator operation room comprises a carrying lift car and a damping bottom plate, wherein a carrying space is formed in the middle of the carrying lift car, an upper suspension device is arranged on the upper end face of the carrying lift car and fixedly connected with the upper end face of the carrying lift car, and a hanging device is arranged at the top end of the upper suspension device;

above-mentioned vibration damping bottom plate welds in the bottom of delivery car, and above-mentioned vibration damping bottom plate's both sides are equipped with a set of auxiliary frame respectively, and the equal swing joint in inside of above-mentioned auxiliary frame has a set of locking wheel.

Furthermore, a damping table is arranged on the upper end face of the welding position of the damping bottom plate and the carrying lift car, and the damping table is connected with the upper end face of the damping bottom plate in a clamping mode.

Furthermore, a stabilizing plate is arranged on the lower end face of the damping table, and a plurality of bottom damping springs are clamped between the damping table and the stabilizing plate.

Furthermore, the auxiliary frame is provided with an auxiliary air pump towards the inside of the damping bottom plate, the auxiliary air pump is provided with an abutting air column towards the auxiliary frame, and a speed reducing plate is arranged at one end, away from the auxiliary air pump, of the abutting air column.

Furthermore, the abutting air column is movably connected with the inside of the auxiliary air pump, and one surface of the speed reducing plate, which is far away from the abutting air column, and the outer edge surface of the locking wheel are in the same axis.

Furthermore, a remote operation device is arranged in the upper suspension device, an operation damping plate is arranged on the lower end face of the remote operation device, the operation damping plate is elastically connected with the upper end face of the carrying lift car through an operation damping spring, and an upper abutting plate is clamped on the upper end face of the remote operation device.

This a damping device for constructing elevator control chamber's technical effect and advantage: due to the arrangement of the damping table and the bottom damping spring, when a constructor stands on the upper end face of the damping table, the damping table can be pressed down through the bottom damping spring according to the weight of the constructor, when an elevator stops, the carrying of the constructor is buffered through the elasticity of the bottom damping spring, and meanwhile, due to the arrangement of the operation damping plate and the operation damping spring, the impact force of the remote operation device is buffered through the operation damping spring when the construction elevator stops, so that the risk that the remote operation device is damaged in excessive weight is further reduced;

meanwhile, due to the fact that the auxiliary frame and the auxiliary air pump are arranged, when the elevator slides downwards, the auxiliary air pump pumps out the abutting air column through pneumatic to enable the speed reducing plate to abut against the outer edge face of the locking wheel, so that the locking wheel is decelerated from the outer edge face of the lifting frame, and the probability of direct sliding downwards is reduced.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 isbase:Sub>A cross-sectional view of the embodiment of FIG. 1 taken along line A-A of the present invention;

FIG. 3 is an enlarged view of the embodiment of the present invention shown at B in FIG. 2;

fig. 4 is an enlarged view of the embodiment of fig. 2 at C according to the present invention.

In the figure: 1. a carrying car; 2. a damping bottom plate; 3. an upper suspension device; 4. a mounting device; 5. a carrying space; 6. a damping table; 7. operating the damping plate; 8. operating the damping spring; 9. an upper abutting plate; 10. a remote operation device; 11. a bottom surface damping spring; 12. a stabilizing plate; 13. an auxiliary air pump; 14. an auxiliary frame; 15. a locking wheel; 16. abutting against the gas column; 17. a speed reduction plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the 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.

Referring to fig. 1 to 4, a shock-absorbing device for a construction elevator operating room includes a carrying cage 1 and a shock-absorbing bottom plate 2;

in which the car 1 is carried;

a carrying space 5 is formed in the middle of the carrying lift car 1, an upper suspension device 3 is arranged on the upper end face of the carrying lift car 1, the upper suspension device 3 is fixedly connected with the upper end face of the carrying lift car 1, a mounting device 4 is arranged at the top end of the upper suspension device 3, and the upper suspension device 3 finishes mounting on the carrying lift car 1 through the mounting device 4;

the remote operation device 10 is arranged in the upper suspension device 3, the lower end face of the remote operation device 10 is provided with an operation damping plate 7, the operation damping plate 7 is elastically connected with the upper end face of the carrying car 1 through an operation damping spring 8, the upper end face of the remote operation device 10 is clamped with an upper abutting plate 9, due to the arrangement of the remote operation device 10, the construction elevator does not need to be loaded with personnel in an operation room, the lifting operation of the construction elevator can be completed only through the remote operation device 10, the load capacity is improved, the remote operation device 10 can be selected from models such as JN1-1XK, when in operation, the remote operation device 10 stops and damps through the operation damping plate 7 and the operation damping spring 8, and is clamped and connected with the upper abutting plate 9 through the elasticity of the operation damping spring 8, and two operations of damping and clamping are completed simultaneously;

the damping bottom plate 2 is welded at the bottom end of the carrying lift car 1, a damping table 6 is arranged on the upper end face of the welding part of the damping bottom plate 2 and the carrying lift car 1, the damping table 6 is connected with the upper end face of the damping bottom plate 2 in a clamping manner, a stabilizing plate 12 is arranged on the lower end face of the damping table 6, a plurality of bottom damping springs 11 are clamped between the damping table 6 and the stabilizing plate 12, when a constructor stands on the upper end face of the damping table 6, the damping table 6 is pressed down to a certain extent through the bottom damping springs 11 due to the weight of the constructor, when an elevator stops, the elevator is large due to the inertia effect, the construction elevator is usually externally arranged and is not placed inside a building, so that the vibration is large when the elevator stops, the carrying of the constructor is buffered through the elasticity of the bottom damping springs 11, and the uncomfortable feeling of the constructor when the elevator stops is reduced;

wherein the damping bottom plate 2;

two sides of the damping bottom plate 2 are respectively provided with a set of auxiliary frames 14, the inside of each auxiliary frame 14 is movably connected with a set of locking wheels 15, one side of each auxiliary frame 14, which faces the inside of the damping bottom plate 2, is provided with an auxiliary air pump 13, one side of each auxiliary air pump 13, which faces the auxiliary frame 14, is provided with a butt air column 16, one end, away from the auxiliary air pump 13, of each butt air column 16 is provided with a speed reducing plate 17, the butt air columns 16 are movably connected with the inside of the auxiliary air pumps 13, one side, away from the butt air columns 16, of each speed reducing plate 17 is located on the same axis with the outer edge surface of the corresponding locking wheel 15, the auxiliary air pumps 13 are electrically connected with the remote operation device 10, the damping bottom plate 2 stabilizes the carrying car 1 through the corresponding locking wheels 15 in the auxiliary frames 14, when the descending speed of the corresponding locking wheels 15 is too fast, the auxiliary air pumps 13 are electrically connected with the remote operation device 10, so that the damping speed exceeds a certain threshold value, the auxiliary air pumps 13 outwards pop-up the butt air columns 16, and the speed reducing butt air columns 15 are abutted against the corresponding locking wheels 15, and the speed of the damping wheels is reduced.

When the damping device for the construction elevator operation room is used, the whole carrying car 1 is mounted through the mounting device 4, a constructor stands in the carrying space 5, the lifting operation of the construction elevator can be completed through the remote operation device 10, and the remote operation device 10 stops and damps through the operation damping plate 7 and the operation damping spring 8 when in operation, so that the damage caused by the remote operation device 10 during stop collision is reduced;

when a constructor stands in the carrying space 5, the constructor steps on the damping table 6, the damping table 6 is pressed down to a certain extent through the bottom damping spring 11 under the weight of the constructor, the construction elevator is usually externally arranged and is not placed in a building, so that the vibration is large when the constructor stops, the carrying of the constructor is buffered through the elasticity of the bottom damping spring 11, and the discomfort of the constructor stopping is reduced;

since the damping bottom plate 2 stably carries the car 1 by the locking wheel 15 in the auxiliary frame 14, when the descending speed of the locking wheel 15 is too high, if the descending speed reaches a predetermined threshold value, namely the remote operation device 10 judges that the car is fallen, the remote operation device 10 starts the auxiliary air pump 13 to eject the abutting air column 16 outwards, the abutting air column 16 finishes the deceleration of the locking wheel 15 by the abutting of the deceleration plate 17 and the locking wheel 15, and the falling speed is reduced.

The above description is only the specific implementation manner 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 should be covered within the protection scope of the present invention in the technical scope disclosed by the present invention, according to the technical solution of the present invention and the concept of the present invention, equivalent replacement or change is added.

Claims (6)

1. A damping device for a construction elevator operating room, comprising a carrying car (1) and a damping bottom plate (2), characterized in that: a carrying space (5) is formed in the middle of the carrying car (1), an upper suspension device (3) is arranged on the upper end face of the carrying car (1), the upper suspension device (3) is fixedly connected with the upper end face of the carrying car (1), and a hanging device (4) is arranged at the top end of the upper suspension device (3);

damping bottom plate (2) weld in the bottom of delivery car (1), the both sides of damping bottom plate (2) are equipped with a set of auxiliary frame (14) respectively, the equal swing joint in inside of auxiliary frame (14) has a set of locking wheel (15).

2. A shock-absorbing device for a construction elevator operating room according to claim 1, wherein: damping bottom plate (2) are equipped with damping table (6) with the welding department up end of delivery car (1), damping table (6) are connected with the up end block of damping bottom plate (2).

3. A shock-absorbing device for a construction elevator operating room according to claim 2, wherein: the damping platform is characterized in that a stabilizing plate (12) is arranged on the lower end face of the damping platform (6), and a plurality of bottom damping springs (11) are clamped between the damping platform (6) and the stabilizing plate (12).

4. A shock-absorbing device for a construction elevator operating room according to claim 1, wherein: auxiliary frame (14) all are equipped with supplementary air pump (13) towards the inside one side of shock attenuation bottom plate (2), supplementary air pump (13) are equipped with butt gas column (16) towards the one side of auxiliary frame (14), the one end that supplementary air pump (13) were kept away from to butt gas column (16) is equipped with air brake (17).

5. The damping device for a construction elevator operating room according to claim 4, wherein: the inside swing joint of butt gas post (16) and supplementary air pump (13), the one side that the gas post (16) was kept away from in air brake (17) is in same axis with the outer fringe face of locking wheel (15).

6. A shock-absorbing device for a construction elevator operating room according to claim 1, wherein: go up the inside of linkage (3) and be equipped with remote operation device (10), the lower terminal surface of remote operation device (10) is equipped with operation shock attenuation board (7), operation shock attenuation board (7) are through operation damping spring (8) and the up end elastic connection of delivery car (1), the up end block of remote operation device (10) has last butt board (9).

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