CN216583693U - Novel top layer load-bearing structure without machine room - Google Patents

Abstract

The utility model discloses a novel top layer bearing structure without a machine room, which comprises a first auxiliary guide rail (2) and a main guide rail (3) which are distributed in parallel, wherein the first auxiliary guide rail (2) is connected with a top beam (1) through an auxiliary rail connecting piece (21), the end part of the first auxiliary guide rail (2) is connected with the end part of the main guide rail (3) through a bent rope end beam (4), a rope end hanging plate (41) is arranged at one end, close to the first auxiliary guide rail (2), of the bent rope end beam (4), and a main machine (5) is fixed on the main guide rail (3). The utility model has the characteristics of simple structure, small occupied space and convenient construction.

Description

Novel top layer load-bearing structure without machine room

Technical Field

The utility model relates to a top layer structure of a machine room free, in particular to a novel top layer bearing structure of the machine room free.

Background

At present, a traction type machine room-less elevator generally adopts a host machine overhead mode, and the host machine and a bearing beam occupy a large amount of top vertical space (the height direction size of the host machine is more than 1200mm) and hoistway width space, so that the actual utilization space of a lift car is reduced; and need carry out a series of preliminary constructions such as reservation hole, pre-buried steel structure spare, predetermine spandrel girder on the top wall of civil engineering well when the facility is built to the elevator, lead to whole construction period long, construction cost is high, and still need design to put auxiliary members such as quick-witted girder in the elevator installation, the structure is complicated, and not only the installation is wasted time and energy, and occupation space is big moreover, and material loss is many, material cost is high. Therefore, the existing top layer structure without the machine room has the problems of complex structure, large occupied space and troublesome construction.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a novel top layer bearing structure without a machine room. The utility model has the characteristics of simple structure, small occupied space and convenient construction.

The technical scheme of the utility model is as follows: the utility model provides a novel top layer load-bearing structure of no computer lab, includes first pair guide rail and leading rail of mutual parallel distribution, and first pair guide rail is connected with the back timber through the accessory rail connecting piece, and the tip of first pair guide rail is through the end connection of bending fag end roof beam with leading rail, and the one end that the bending fag end roof beam is close to first pair guide rail is equipped with the fag end hanger plate, is fixed with the host computer on the leading rail.

In the novel top layer load-bearing structure without the machine room, the bent rope end beam is connected with the main guide rail through the top component, the bottom component is arranged below the top component on the main guide rail, and the main machine is fixed between the top component and the bottom component.

In the novel top layer load-bearing structure without the machine room, the top component comprises a connecting plate respectively connected with the bending rope end beam and the main guide rail, and a flat plate for fixing the main machine is arranged on the connecting plate.

In the novel top layer load-bearing structure without the machine room, the bottom component comprises a traction machine base connected with the main guide rail, a machine placing plate for fixing the main machine is arranged on the traction machine base, and a shock pad is arranged between the machine placing plate and the traction machine base.

In the novel top layer load-bearing structure of no computer lab of the aforesaid, the longitudinal section of traction frame is triangle-shaped, and the side of traction frame is equipped with the vice guide rail of second that parallels with first vice guide rail.

Compared with the prior art, the utility model simplifies the top layer bearing structure without a machine room, reduces materials, directly arranges the main machine on one side of the main guide rail, saves a girder for placing the machine, has no need of opening a hole on a wall body, is simple to install, is simple and beautiful, adopts a hoisting mode for the counterweight rope head, is beautiful and novel, has no any part above the car, widens the space of the top layer, can maximally widen the width dimension of the car, and reduces the occupied space of the top layer and the hoistway clear width direction.

Therefore, the utility model has the characteristics of simple structure, small occupied space and convenient construction.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the top and bottom members.

The labels in the figures are: 1. a top beam; 2. a first secondary rail; 21. a secondary rail connection; 3. a main guide rail; 4. bending the rope end beam; 41. a rope end hanging plate; 5. a host; 6. a top member; 61. connecting plates; 62. a flat plate; 63. an upper baffle plate; 7. a base member; 71. a traction machine base; 72. a machine placing plate; 73. a shock pad; 8. a second set of guide rails.

Detailed Description

The utility model is further illustrated by the following figures and examples, which are not to be construed as limiting the utility model.

Example (b):

as shown in fig. 1-2, a novel top layer load-bearing structure without a machine room comprises a first auxiliary guide rail 2 and a main guide rail 3 which are distributed in parallel, wherein the first auxiliary guide rail 2 is connected with a top beam 1 through an auxiliary rail connecting piece 21, the end part of the first auxiliary guide rail 2 is connected with the end part of the main guide rail 3 through a bent rope end beam 4, a rope end hanging plate 41 is arranged at one end, close to the first auxiliary guide rail 2, of the bent rope end beam 4, and a host 5 is fixed on the main guide rail 3.

The bending rope end beam 4 is connected with the main guide rail 3 through a top component 6, a bottom component 7 is arranged below the top component 6 on the main guide rail 3, and a main engine 5 is fixed between the top component 6 and the bottom component 7.

The top component 6 comprises a connecting plate 61 respectively connected with the bending rope end beam 4 and the main guide rail 3, a flat plate 62 for fixing the host 5 is arranged on the connecting plate 61, and an upper baffle 63 is connected onto the flat plate 62 through a rubber column and a bolt.

The bottom component 7 comprises a traction machine base 71 connected with the main guide rail 3, a machine placing plate 72 for fixing the main machine 5 is arranged on the traction machine base 71, and a shock absorption pad 73 is arranged between the machine placing plate 72 and the traction machine base 71.

The longitudinal section of the traction machine base 71 is triangular, and the side surface of the traction machine base 71 is provided with a second auxiliary guide rail 8 parallel to the first auxiliary guide rail 2.

The utility model simplifies the top layer bearing structure without a machine room, reduces materials and cost, directly arranges the main machine 5 at one side of the main guide rail 3, omits a girder for placing the machine, and only needs to reserve a space for placing the main machine 5 at the side part of the main guide rail 3, thereby maximally widening the width of the lift car; the counterweight rope head is arranged at one end of the bent rope head beam 4 in a hoisting mode, and no part is arranged above the lift car, so that the space of the top layer is widened, the occupied space of the top layer and the hoistway in the clear width direction is reduced, and the integral structure is simple and attractive; when the wall is installed, the wall body does not need to be provided with holes, the installation is simple, and the construction is convenient.

The present invention is not described in detail in the prior art and is not specifically described herein.

Claims (5)

1. The utility model provides a novel top layer load-bearing structure of no computer lab which characterized in that: including first auxiliary guide rail (2) and leading rail (3) of mutual parallel distribution, first auxiliary guide rail (2) are connected with back timber (1) through auxiliary rail connecting piece (21), the tip of first auxiliary guide rail (2) is through the end connection of bending fag end roof beam (4) and leading rail (3), the one end that bending fag end roof beam (4) is close to first auxiliary guide rail (2) is equipped with fag end hanger plate (41), is fixed with host computer (5) on leading rail (3).

2. The novel top layer load-bearing structure without a machine room of claim 1, wherein: the bending rope end beam (4) is connected with the main guide rail (3) through the top component (6), the bottom component (7) is arranged below the top component (6) on the main guide rail (3), and the main machine (5) is fixed between the top component (6) and the bottom component (7).

3. The novel top layer load-bearing structure without a machine room of claim 2, wherein: the top component (6) comprises a connecting plate (61) connected with the bent rope end beam (4) and the main guide rail (3) respectively, and a flat plate (62) for fixing the host (5) is arranged on the connecting plate (61).

4. The novel top layer load-bearing structure without a machine room of claim 2, wherein: the bottom component (7) comprises a traction machine base (71) connected with the main guide rail (3), a machine placing plate (72) for fixing the main machine (5) is arranged on the traction machine base (71), and a shock pad (73) is arranged between the machine placing plate (72) and the traction machine base (71).

5. The novel top layer load-bearing structure without a machine room of claim 4, wherein: the longitudinal section of the traction machine base (71) is triangular, and a second auxiliary guide rail (8) parallel to the first auxiliary guide rail (2) is arranged on the side surface of the traction machine base (71).

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