CN209193300U - A kind of elevator mainframe damping device - Google Patents

Abstract

The utility model discloses a kind of elevator mainframe damping devices, including elevator mainframe, elevator box and pedestal damping device, elevator box is located at elevator mainframe inner hub location, and elevator box is fixedly connected with elevator mainframe, pedestal damping device is located at bottom end under elevator box, pedestal damping device is welded and fixed with elevator box, and pedestal damping device is fixed on elevator mainframe upper surface center position, utilize the cooperation of the hydraulic shock-absorbing cylinders and telescopic rod of setting, realize elevator during the work time, the damping of mainframe two side ends, it is slided inside hydraulic shock-absorbing cylinders by telescopic rod and piston, cooperate the damping, buffering of reset spring simultaneously, elevator is set to realize damping during the work time.

Description

A kind of elevator mainframe damping device

Technical field

The utility model relates to elevator mainframe shock-absorption device technical field, specially a kind of elevator mainframe damping dress It sets.

Background technique

The main frame of existing traction elevator is usually to be directly connected to I-steel, and I-steel and wall connect It connects, Gu the vibration and noise that generate in motor work can reach the resident close to host by wall, causing to resident need not The influence wanted.And in order to avoid the problem, rubber pad is often arranged in existing elevator on mainframe, to mitigate vibration and make an uproar Sound, but the damping effect of this kind of mode is bad, still has part vibration and influence of noise to resident, and when elevator shook When big, it is possible to make Lift out of order, there are some potential safety problemss.

Utility model content

The purpose of this utility model is to provide a kind of elevator mainframe damping devices, to solve to mention in above-mentioned background technique Out the problem of.

To achieve the above object, the utility model provides the following technical solutions: a kind of elevator mainframe damping device, including Elevator mainframe, elevator box and pedestal damping device, the elevator box are located at elevator mainframe inner hub location, and The elevator box is fixedly connected with elevator mainframe, and the pedestal damping device is located at bottom end under elevator box, the pedestal Damping device is welded and fixed with elevator box, and the pedestal damping device is fixed on elevator mainframe upper surface center Place: fixed transverse slat, the fixed transverse slat side top position are horizontally arranged on the elevator box at the position of top both sides of the edge It sets and is welded and fixed with elevator box, fixed another top bottom surface of transverse slat position is welded with fixing bolt, described solid Determine bolt-center position and be vertically provided with telescopic rod, it is hydraulic to be provided with damping for bottom end both sides of the edge position under the elevator mainframe Cylinder, hydraulic shock-absorbing cylinders inside bottom surface are welded with reset spring, and the reset spring top position is provided with piston, Pedal is provided on the pedestal damping device at apical position, the pedal is located at bottom end under elevator box, and the pedal It is connect with elevator box gap, two side coil of pedal upper surface, which is set, is welded with pin for suppressing metal, the pedal bottom surface It is welded with decompression bottom plate, decompression bottom plate bottom surface two sides end position is provided with sliding slot, and the sliding slot shares two groups, and The sliding slot is internally provided with sliding shoe, and the sliding shoe is slidably connected with sliding slot, and the sliding shoe outer surface is hinged with fixation Pull rod, steady brace other side apical position are hinged with triangle shaft, and triangle shaft one end rotating shaft position shaft connects It is connected to connecting rod, the connecting rod outer surface is socketed with spring, and top is welded with fixed block in two groups of the connecting rod, described Fixed block bottom surface is welded and fixed with elevator mainframe upper surface, and the fixed block upper surface is welded with hydraulic telescopic rod, Top is welded and fixed with decompression bottom plate bottom surface center in the hydraulic telescopic rod, the elevator mainframe inner wall centre bit The place's of setting shaft is connected with rotation rope sheave, and rotation rope sheave outer end face center is provided with fixing screws, the fixing screws It is fixedly connected with rotation rope sheave, rotation rope sheave outer end face center is horizontally arranged with installation snap-gauge, the installation snap-gauge Two side ends are welded and fixed with elevator mainframe.

Preferably, the telescopic rod is fixed by fixing bolt and fixed transverse slat bolt, the hydraulic shock-absorbing cylinders and elevator Mainframe inner wall is welded and fixed.

Preferably, the piston two side ends are slidably connected with hydraulic shock-absorbing cylinders inner wall, the piston upper surface center It is welded and fixed with telescopic rod bottom surface.

Preferably, the telescopic rod and hydraulic shock-absorbing cylinders are in same axial location, and the hydraulic shock-absorbing cylinders share two groups.

Preferably, the telescopic rod shares two groups, and the telescopic rod is slidably connected by piston and hydraulic shock-absorbing cylinders.

Preferably, the pin for suppressing metal is connected to inside elevator box bottom surface, and the pedal by pin for suppressing metal with The connection of elevator box pin.

Preferably, the connecting rod shares two groups, and the rotation rope sheave is connected by fixing screws and elevator mainframe screw It connects.

Compared with prior art, the utility model has the beneficial effects that

1. the cooperation of hydraulic shock-absorbing cylinders and telescopic rod using setting, realizes elevator during the work time, mainframe two sides The damping at end is slided inside hydraulic shock-absorbing cylinders by telescopic rod and piston, while cooperating the damping, buffering of reset spring, Elevator is set to realize damping during the work time；

2. realizing that elevator was being run using sliding of the sliding shoe of pedestal damping device bottom surface setting inside sliding slot Cheng Zhong, since strenuous vibration effectively keeps the stabilization of elevator operation to the bumper and absorbing shock of the lateral position of mainframe bottom end；

3. using pedestal damping device setting connecting rod and spring cooperation, realize for elevator in the process of running, by The hinged continuous progress of triangle shaft and connecting rod is passed through to the bumper and absorbing shock of the vertical position of mainframe bottom end in strenuous vibration The buffer function of vertical position.

Detailed description of the invention

Fig. 1 is the planar structure schematic diagram of the utility model；

Fig. 2 is the enlarged structure schematic diagram at the utility model Figure 1A；

Fig. 3 is the rotation rope sheave schematic perspective view of the utility model.

In figure: elevator mainframe 1, elevator box 2, pedestal damping device 3, fixed transverse slat 4, fixing bolt 5, damping are hydraulic Cylinder 6, piston 7, telescopic rod 8, reset spring 9, rotation rope sheave 10, pin for suppressing metal 11, decompression bottom plate 12, sliding slot 13, sliding shoe 14, steady brace 15, triangle shaft 16, connecting rod 17, spring 18, fixed block 19, hydraulic telescopic rod 20, pedal 21, installation snap-gauge 22, fixing screws 23.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-3 is please referred to, the utility model provides a kind of technical solution: a kind of elevator mainframe damping device, including electricity Terraced mainframe 1, elevator box 2 and pedestal damping device 3, elevator box 2 are located at 1 inner hub location of elevator mainframe, and Elevator box 2 is fixedly connected with elevator mainframe 1, and pedestal damping device 3 is located at bottom end, pedestal damping device 3 under elevator box 2 It is welded and fixed with elevator box 2, and pedestal damping device 3 is fixed on 1 upper surface center position of elevator mainframe: elevator box Fixed transverse slat 4 is horizontally arranged on 2 at the position of top both sides of the edge, fixed 4 side apical position of transverse slat and elevator box 2 weld Fixation is connect, fixed 4 another top bottom surface position of transverse slat is welded with fixing bolt 5, and 5 center of fixing bolt is vertical It is provided with telescopic rod 8, the lower bottom end both sides of the edge position of elevator mainframe 1 is provided with hydraulic shock-absorbing cylinders 6, inside hydraulic shock-absorbing cylinders 6 Bottom surface is welded with reset spring 9, and 9 top position of reset spring is provided with piston 7, top position on pedestal damping device 3 The place of setting is provided with pedal 21, and pedal 21 is located at bottom end under elevator box 2, and pedal 21 is connect with 2 gap of elevator box, pedal 21 upper surface, two side coil, which is set, is welded with pin for suppressing metal 11, and 21 bottom surface of pedal is welded with decompression bottom plate 12, decompression 12 bottom surface two sides end position of bottom plate is provided with sliding slot 13, and sliding slot 13 shares two groups, and sliding slot 13 is internally provided with sliding shoe 14, sliding shoe 14 is slidably connected with sliding slot 13, and 14 outer surface of sliding shoe is hinged with steady brace 15,15 other side of steady brace top End position is hinged with triangle shaft 16, and 16 one end rotating shaft position shaft of triangle shaft is connected with connecting rod 17,17 appearance surface cover of connecting rod It is connected to spring 18, and top is welded with fixed block 19,19 bottom surface of fixed block and elevator mainframe 1 in two groups of connecting rod 17 Upper surface is welded and fixed, and 19 upper surface of fixed block is welded with hydraulic telescopic rod 20, top and decompression in hydraulic telescopic rod 20 12 bottom surface center of bottom plate is welded and fixed, and 1 inner wall center position shaft of elevator mainframe is connected with rotation rope sheave 10, turns 10 outer end face center of running rope wheel is provided with fixing screws 23, and fixing screws 23 are fixedly connected with rotation rope sheave 10, rotation rope It takes turns 10 outer end face centers and is horizontally arranged with installation snap-gauge 22, installation 22 two side ends of snap-gauge are welded and fixed with elevator mainframe 1；

Telescopic rod 8 is fixed by fixing bolt 5 and fixed 4 bolt of transverse slat, hydraulic shock-absorbing cylinders 6 and 1 inner wall of elevator mainframe It is welded and fixed；

7 two side ends of piston are slidably connected with 6 inner wall of hydraulic shock-absorbing cylinders, and 7 upper surface center of piston and telescopic rod 8 are gone to the bottom Face is welded and fixed；

Telescopic rod 8 and hydraulic shock-absorbing cylinders 6 are in same axial location, and hydraulic shock-absorbing cylinders 6 share two groups；

Telescopic rod 8 shares two groups, and telescopic rod 8 is slidably connected by piston 7 with hydraulic shock-absorbing cylinders 6；

Pin for suppressing metal 11 is connected to inside 2 bottom surface of elevator box, and pedal 21 passes through pin for suppressing metal 11 and elevator box The connection of 2 pins；

Connecting rod 17 shares two groups, and rotates rope sheave 10 and connect by fixing screws 23 with 1 screw of elevator mainframe.

Working principle: when practical operation, elevator goes up and down elevator box 2 under the rotary action of rotation rope sheave 10 Control, since elevator can generate certain shock effect in lifting process, 2 two sides ranking system of elevator box setting at this time Telescopic rod 8 is squeezed to lower end, makes telescopic rod 8 that piston 7 be driven to be slided inside hydraulic shock-absorbing cylinders 6, while cooperating reset bullet The damping, buffering of spring 9, makes elevator realize damping during the work time, passes through telescopic rod 8 and the hydraulic shock-absorbing cylinders 6 of two side positions The balance of elevator box 2 is realized in cooperation, while when elevator is shaken effect, elevator box 2 is pressed down against, and depressurizes bottom at this time Plate 12 is subject to downward force, and driving sliding shoe 14 is slided in sliding slot 13, elevator is realized in the process of running, due to violent Vibration effectively keeps the stabilization of elevator operation, while the cunning of sliding shoe 14 to the bumper and absorbing shock of the lateral position of mainframe bottom end Dynamic driving steady brace 15 is rotated in triangle shaft 16, while being buffered using spring 18 and the cooperation of connecting rod 17, It realizes for elevator in the process of running, due to strenuous vibration, to the bumper and absorbing shock of the vertical position of mainframe bottom end.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (7)

1. a kind of elevator mainframe damping device, including elevator mainframe (1), elevator box (2) and pedestal damping device (3), The elevator box (2) is located at elevator mainframe (1) inner hub location, and the elevator box (2) and elevator mainframe (1) it is fixedly connected, the pedestal damping device (3) is located at bottom end under elevator box (2), the pedestal damping device (3) and electricity Terraced cabinet (2) is welded and fixed, and the pedestal damping device (3) is fixed on elevator mainframe (1) upper surface center position, It is characterized in that: being horizontally arranged with fixed transverse slat (4) at the position of top both sides of the edge on the elevator box (2), it is described fixed horizontal Plate (4) side apical position is welded and fixed with elevator box (2), fixed transverse slat (4) another top bottom surface position welding It is fixed with fixing bolt (5), fixing bolt (5) center is vertically provided with telescopic rod (8), the elevator mainframe (1) bottom end both sides of the edge position is provided with hydraulic shock-absorbing cylinders (6) under, and the internal bottom surface of the hydraulic shock-absorbing cylinders (6) is welded and fixed Have reset spring (9), reset spring (9) top position is provided with piston (7), top on the pedestal damping device (3) It is provided at position pedal (21), the pedal (21) is located at bottom end under elevator box (2), and the pedal (21) and elevator case The connection of body (2) gap, two side coil of pedal (21) upper surface, which is set, to be welded with pin for suppressing metal (11), the pedal (21) Bottom surface is welded with decompression bottom plate (12), and decompression bottom plate (12) bottom surface two sides end position is provided with sliding slot (13), The sliding slot (13) shares two groups, and the sliding slot (13) is internally provided with sliding shoe (14), the sliding shoe (14) and sliding slot (13) it is slidably connected, sliding shoe (14) outer surface is hinged with steady brace (15), steady brace (15) other side top End position is hinged with triangle shaft (16), and described triangle shaft (16) one end rotating shaft position shaft is connected with connecting rod (17), described Connecting rod (17) outer surface is socketed with spring (18), and two groups of the connecting rod (17) interior top is welded with fixed block (19), Fixed block (19) bottom surface is welded and fixed with elevator mainframe (1) upper surface, and fixed block (19) the upper surface welding is solid Surely have hydraulic telescopic rod (20), top and the welding of decompression bottom plate (12) bottom surface center are solid on the hydraulic telescopic rod (20) Fixed, elevator mainframe (1) the inner wall center position shaft is connected with rotation rope sheave (10), rotation rope sheave (10) outer end Face center is provided with fixing screws (23), and the fixing screws (23) are fixedly connected with rotation rope sheave (10), the rotation Rope sheave (10) outer end face center is horizontally arranged with installation snap-gauge (22), installation snap-gauge (22) two side ends and elevator host Frame (1) is welded and fixed.

2. a kind of elevator mainframe damping device according to claim 1, it is characterised in that: the telescopic rod (8) passes through Fixing bolt (5) is fixed with fixed transverse slat (4) bolt, and the hydraulic shock-absorbing cylinders (6) and the welding of elevator mainframe (1) inner wall are solid It is fixed.

3. a kind of elevator mainframe damping device according to claim 1, it is characterised in that: piston (7) two side ends It is slidably connected with hydraulic shock-absorbing cylinders (6) inner wall, piston (7) the upper surface center and the welding of telescopic rod (8) bottom surface are solid It is fixed.

4. a kind of elevator mainframe damping device according to claim 1, it is characterised in that: the telescopic rod (8) with subtract Shake hydraulic cylinder (6) is in same axial location, and the hydraulic shock-absorbing cylinders (6) share two groups.

5. a kind of elevator mainframe damping device according to claim 1, it is characterised in that: the telescopic rod (8) is shared Two groups, the telescopic rod (8) is slidably connected by piston (7) with hydraulic shock-absorbing cylinders (6).

6. a kind of elevator mainframe damping device according to claim 1, it is characterised in that: the pin for suppressing metal (11) is even It passes to inside elevator box (2) bottom surface, and the pedal (21) is connected by pin for suppressing metal (11) and elevator box (2) pin It connects.

7. a kind of elevator mainframe damping device according to claim 1, it is characterised in that: the connecting rod (17) shares two Group, and the rotation rope sheave (10) is connect by fixing screws (23) with elevator mainframe (1) screw.