CN101837922A - Upper beam structure of elevator car frame - Google Patents

Abstract

The invention discloses an upper beam structure of an elevator car frame, which comprises an upper beam, two rope wheel assemblies and a connecting beam, wherein the upper beam is horizontally arranged; the connecting beam is horizontally arranged on the upper beam and is not parallel with the upper beam; both ends of the connecting beam extend out of the upper beam; rope wheel shaft seat plates are both fixed on both end parts of the connecting beam; rope wheel shafts of the two rope wheel assemblies are horizontally arranged on the rope wheel shaft seat plates respectively; the rope wheel bottom of each rope wheel assembly is lower than the lower surface of the upper beam; and the rope wheel top of each rope wheel assembly is higher than the upper surface of the upper beam. Accordingly, the upper beam and the rope wheel assemblies are superposed on the vertical projecting surface, the height of the upper beam structure can be reduced, and thus the height of a top layer of an elevator well can be reduced to save the cost of construction. An included angle between a rope wheel central connecting line of the two rope wheel assemblies and a central connecting line of the car guide rails at the left side and the right side in the horizontal projecting surface is larger than 0 degree but not large than 90 degrees, and thus the distribution of the two rope wheel assemblies is flexible, a wrap angle of an elevator can be increased, and the application range of the elevator is expanded.

Description

The upper beam structure of elevator car frame

Technical field

The present invention relates to a kind of upper beam structure of elevator car frame.

Background technology

On elevator car frame, existing upper beam structure comprises horizontally disposed upper beam, be horizontally set on put the beams in place to go up and with the perpendicular tie-beam of putting the beams in place, tie-beam and upper beam are cruciform shape, tie-beam generally has two, two tie-beams parallel on the upper surface or lower surface that is disposed on upper beam, between the relative end rope sheave assembly is installed on two tie-beams, the rope sheave assembly has two, be separately positioned on the both ends of tie-beam, the sheave shaft of two rope sheave assemblies all with the perpendicular setting of tie-beam, the hoist ropes of elevator is walked around two rope sheave assemblies successively downwards, drives sedan-chair frame band by two rope sheave assemblies and car along the car guide rail up-and-down movement.In the existing upper beam structure, the rope sheave assembly be in upper beam above or below, it is less that rope sheave assembly and upper beam do not overlap on vertical plane or overlap, the height of elevator car frame upper beam structure is higher like this, cause elevator that the headroom height of hoistway is had relatively high expectations, thereby increased the cost of building.

Summary of the invention

Thereby the purpose of this invention is to provide a kind of rope sheave assembly and reduce the upper beam structure of elevator hoistways headroom height with putting the beams in place on vertical plane, to coincide.

For achieving the above object, the technical solution used in the present invention is: a kind of upper beam structure of elevator car frame, comprise horizontally disposed upper beam, two rope sheave assemblies, described elevator has car guide rail in the left and right sides, this upper beam structure also comprise be horizontally set on the described upper beam and with the nonparallel tie-beam of described upper beam, the outside at described upper beam is stretched out at the both ends of described tie-beam, all be fixed with the sheave shaft seat board on the both ends of described tie-beam, the sheave shaft of described two rope sheave assemblies on even keel respectively is arranged on the described sheave shaft seat board, angle in horizontal plane between the line of centres of the described car guide rail of the rope sheave line of centres and the left and right sides of described two rope sheave assemblies is＞0 degree,＜=90 degree, the rope sheave bottom of each described rope sheave assembly is lower than the lower surface of described upper beam, and the rope sheave top of each described rope sheave assembly is higher than the upper surface of described upper beam.

Preferably, described tie-beam has four, wherein two described tie-beams are arranged on the upper surface of described upper beam at intervals, two other described tie-beam is arranged on the lower surface of described upper beam at intervals, four described tie-beams are being provided with described rope sheave assembly between the end of described upper beam the same side, the both ends of the sheave shaft of described rope sheave assembly are contained in respectively on two described sheave shaft seat boards, and the upper and lower end parts of each described sheave shaft seat board is separately fixed on the described tie-beam of described upper beam upper and lower surface.

Preferably, described tie-beam has two, two described tie-beams are arranged on the upper surface or the lower surface of described upper beam at intervals, the end of described two tie-beams is provided with described sheave shaft seat board on relative position, described two tie-beams are being provided with described rope sheave assembly between the end of described upper beam the same side, the both ends of the sheave shaft of described rope sheave assembly are contained in respectively on the described sheave shaft seat board of described two tie-beams.

Preferably, the cross-sectional plane of described tie-beam is several fonts, several fonts bottom of described tie-beam is arranged on the upper surface or the lower surface of described upper beam, be respectively arranged with described sheave shaft seat board on two inboards of the end of the described tie-beam of several fonts, between two described sheave shaft seat boards of the every end of described tie-beam described rope sheave assembly be installed.

Preferably, described sheave shaft and the perpendicular setting of described tie-beam.

Because the utilization of technique scheme, the present invention compared with prior art has following advantage: the rope sheave bottom of each rope sheave assembly is lower than the lower surface of upper beam, the rope sheave top of each rope sheave assembly is higher than the upper surface of upper beam, like this on vertical plane, upper beam coincides with the rope sheave assembly, can reduce the height of upper beam structure like this, thereby can reduce the height of elevator hoistways top layer, to save the cost of building.And the angle between the line of centres of the rope sheave line of centres of two rope sheave assemblies and left and right sides car guide rail is＞0 degree in horizontal plane,＜=90 degree, the flexible arrangement of such two rope sheave assemblies can increase the cornerite of elevator, enlarges the Applicable scope of elevator.

Description of drawings

Accompanying drawing 1 is a schematic top plan view of the present invention;

Accompanying drawing 2 be in the accompanying drawing 1 A to partial schematic diagram.

The specific embodiment

Further set forth structure of the present invention below in conjunction with accompanying drawing.

Shown in Fig. 1-2, the upper beam structure of elevator car frame, comprise horizontally disposed upper beam 2, two rope sheave assemblies 6, be horizontally set on put the beams in place on 2 and with the 2 nonparallel tie-beams 4 of putting the beams in place, angle between tie-beam on the horizontal plane 4 and upper beam 2 is greater than 0 degree, smaller or equal to 90 degree, in Fig. 1, upper beam 2 has two, front and back are provided with, the both ends, the left and right sides of two upper beams 2 are provided with leads boots seat board 3, and this is led to install on the boots seat board 3 and leads the boots (not shown), and elevator has car guide rail 1 in the left and right sides, lead boots and match, make the sedan-chair frame can be with car along car guide rail 1 up-and-down movement with car guide rail 1.

In the upper beam structure of elevator car frame, the outside at upper beam 2 is stretched out at the both ends of tie-beam 4, all be fixed with sheave shaft seat board 5 on the both ends of tie-beam 4, the sheave shaft of two rope sheave assemblies 6 on even keel respectively is arranged on the sheave shaft seat board 5, the rope sheave bottom of each rope sheave assembly 6 is lower than the lower surface of upper beam 2, the rope sheave top of each rope sheave assembly 6 is higher than the upper surface of upper beam 2, like this on vertical plane, upper beam 2 coincides with rope sheave assembly 6, can reduce the height of upper beam structure like this, thereby can reduce the height of elevator hoistways top layer, to save the cost of building.In Fig. 1 and Fig. 2, the sheave shaft of rope sheave assembly 6 is perpendicular to that tie-beam 4 is provided with, and elevator rope can be walked around the rope sheave assembly 6 that is positioned at tie-beam 4 both ends downwards like this, drive sedan-chair frame up-and-down movement.Angle in horizontal plane between the line of centres of the rope sheave line of centres of two rope sheave assemblies 6 and left and right sides car guide rail 1 is＞0 degree,＜=90 degree, the flexible arrangement of such two rope sheave assemblies 6 can increase the cornerite of elevator, enlarges the Applicable scope of elevator.

The be provided with form of tie-beam on putting the beams in place has multiple, in first embodiment, tie-beam has two, two tie-beams are arranged on the upper surface of upper beam at intervals, the end of two tie-beams is provided with the sheave shaft seat board on relative position, two tie-beams are being provided with the rope sheave assembly between the end of upper beam the same side, the both ends of the sheave shaft of rope sheave assembly are contained in respectively on the rope sheave axle bed 5 of two tie-beams.In second embodiment, same, tie-beam has two, is the lower surface that two tie-beams are arranged on upper beam at intervals, and the set-up mode of sheave shaft seat board and rope sheave assembly is with first embodiment.Among two embodiment, two tie-beams can parallel setting in the above.In the 3rd embodiment, as depicted in figs. 1 and 2, tie-beam 4 has four, wherein two tie-beams 4 are arranged on 2 the upper surface of putting the beams in place at intervals, two other tie-beam 4 is arranged on the lower surface of upper beam 2 at intervals, four tie-beams 4 are provided with rope sheave assembly 6 between the end of 2 the same sides of putting the beams in place, the both ends of the sheave shaft of rope sheave assembly 6 are contained in respectively on two sheave shaft seat boards 5, and the upper and lower end parts of each sheave shaft seat board 5 is separately fixed on the tie-beam 4 of 2 upper and lower surfaces of putting the beams in place.Four tie-beams 4 parallel setting.In the 4th embodiment, the cross-sectional plane of tie-beam is several fonts, several fonts bottom of tie-beam is arranged on the upper surface or the lower surface of upper beam, be respectively arranged with the sheave shaft seat board on two inboards of the end of a few font tie-beams, between two sheave shaft seat boards of the every end of tie-beam the rope sheave assembly be installed.In the 5th embodiment, a few font tie-beams can have two, the bottom of two a few font tie-beams is separately positioned on the upper surface and the lower surface of upper beam, the upper and lower end parts of sheave shaft seat board is separately fixed at an inboard of a few font tie-beams of upper beam upper and lower surface, two a few font tie-beams are positioned on the end of upper beam the same side two sheave shaft seat boards, between two sheave shaft seat boards the rope sheave assembly is installed.Above-mentioned various embodiments all can realize by the sheave shaft seat board two rope sheave assemblies being installed stably on the tie-beam, makes two rope sheave assemblies can satisfy the lower surface that the rope sheave bottom is lower than upper beam, and the rope sheave top is higher than the requirement of the upper surface of upper beam.

To sum up, in the upper beam structure of elevator car frame, upper beam is provided with tie-beam, put the beams in place, tie-beam is horizontally disposed with and non-parallel, two rope sheave assemblies are installed by the sheave shaft seat board in the both ends of tie-beam, make that rope sheave assembly and upper beam coincide on vertical plane, thereby can reduce the requirement of elevator, to save the cost of building the hoistway headroom height.

Claims (5)

1. the upper beam structure of an elevator car frame, comprise horizontally disposed upper beam, two rope sheave assemblies, described elevator has car guide rail in the left and right sides, it is characterized in that: this upper beam structure also comprise be horizontally set on the described upper beam and with the nonparallel tie-beam of described upper beam, the outside at described upper beam is stretched out at the both ends of described tie-beam, all be fixed with the sheave shaft seat board on the both ends of described tie-beam, the sheave shaft of described two rope sheave assemblies on even keel respectively is arranged on the described sheave shaft seat board, angle in horizontal plane between the line of centres of the described car guide rail of the rope sheave line of centres and the left and right sides of described two rope sheave assemblies is＞0 degree,＜=90 degree, the rope sheave bottom of each described rope sheave assembly is lower than the lower surface of described upper beam, and the rope sheave top of each described rope sheave assembly is higher than the upper surface of described upper beam.

2. upper beam structure according to claim 1, it is characterized in that: described tie-beam has four, wherein two described tie-beams are arranged on the upper surface of described upper beam at intervals, two other described tie-beam is arranged on the lower surface of described upper beam at intervals, four described tie-beams are being provided with described rope sheave assembly between the end of described upper beam the same side, the both ends of the sheave shaft of described rope sheave assembly are contained in respectively on two described sheave shaft seat boards, and the upper and lower end parts of each described sheave shaft seat board is separately fixed on the described tie-beam of described upper beam upper and lower surface.

3. upper beam structure according to claim 1, it is characterized in that: described tie-beam has two, two described tie-beams are arranged on the upper surface or the lower surface of described upper beam at intervals, the end of described two tie-beams is provided with described sheave shaft seat board on relative position, described two tie-beams are being provided with described rope sheave assembly between the end of described upper beam the same side, the both ends of the sheave shaft of described rope sheave assembly are contained in respectively on the described sheave shaft seat board of described two tie-beams.

4. upper beam structure according to claim 1, it is characterized in that: the cross-sectional plane of described tie-beam is several fonts, several fonts bottom of described tie-beam is arranged on the upper surface or the lower surface of described upper beam, be respectively arranged with described sheave shaft seat board on two inboards of the end of the described tie-beam of several fonts, between two described sheave shaft seat boards of the every end of described tie-beam described rope sheave assembly be installed.

5. upper beam structure according to claim 1 is characterized in that: described sheave shaft and the perpendicular setting of described tie-beam.