CN216889646U - Elevator well and elevator - Google Patents

Abstract

The utility model relates to an elevator shaft and an elevator, wherein the elevator shaft comprises a main body crosspiece, a side cover plate, an upper cover plate, a lower cover plate and an upright post; an upper glass accommodating part is arranged above the main body crosspiece, and a lower glass accommodating part is arranged below the main body crosspiece; the upper cover plate is arranged on the side edge of the upper glass containing part and used for limiting glass above the main body crosspiece from the inner side of the main body crosspiece, the lower cover plate is arranged on the side edge of the lower glass containing part and used for limiting glass below the main body crosspiece from the inner side of the main body crosspiece, and the side cover plate is buckled on the side edge of the main body crosspiece and used for limiting the upper part in the upper glass containing part and/or limiting the glass in the lower glass containing part from the outer side of the main body crosspiece. The arrangement of the main body crosspiece, the side cover plate, the upper cover plate and the lower cover plate realizes the bidirectional installation of glass, and the adaptability of elevator shaft installation is improved. Simultaneously, the elevator is provided, holes are prevented from being punched on the stand column through the arrangement of the L-shaped shaft fixing support, and the structural strength and the stability of the elevator shaft are improved.

Description

Elevator well and elevator

Technical Field

The utility model relates to the technical field of elevator equipment, in particular to an elevator shaft and an elevator.

Background

Along with social development, people's standard of living constantly promotes, and old house transformation installs the elevator additional or the people who buys the villa elevator constantly increases, and aluminum alloy well villa elevator gets into people's sight gradually. The glass of the aluminum alloy hoistway household elevator in the current market is divided into an internal installation type which can be only installed from the inner side of the hoistway or an external installation type which can be only installed from the outer side of the hoistway, the glass is fixed on the hoistway through glue after being installed, the installation mode is single, the glass is not easy to detach and cannot adapt to the complex installation situation of a construction site, the internal installation type and the external installation type cannot be compatible with each other, different goods need to be prepared by an elevator manufacturer according to different situations, and the supplier management cost and the hoistway installation cost are increased.

Meanwhile, the traditional fixing mode of the elevator hoistway is mainly that through holes are drilled in the vertical column and the wall body, and the vertical column is fixed on the wall body through internal expansion or chemical bolts. The through holes drilled on the stand column can reduce the structural strength and stability of the stand column, simultaneously reduce the service life of the shaft, and increase the risk factor of taking the elevator.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the installation problem of an elevator shaft in the prior art, and provides the elevator shaft which can be conveniently installed; simultaneously, the elevator is high in strength and stable in structure.

In order to achieve the above object, the present invention provides an elevator hoistway including a pillar extending longitudinally along the elevator hoistway, a plurality of body rails supported on the pillar, and a glass installed and supported between the adjacent body rails; the elevator well still includes the upper cover plate that can install on the main part crosspiece, lower apron and side cover plate, wherein main part crosspiece top is equipped with glass containing part, main part crosspiece below is equipped with down glass containing part, the upper cover plate sets up in glass containing part side, be used for the main part crosspiece from the inboard glass in the spacing glass containing part of going up, the lower apron sets up in glass containing part side down, be used for from the inboard glass in the spacing glass containing part of main part crosspiece down, the side cover plate lock is at the side of main part crosspiece, be used for from the glass of the spacing glass containing part in main part crosspiece outside and/or lower glass containing part position department, the stand is connected with the perpendicular quadrature of tip of main part crosspiece in order to support fixed main part crosspiece.

The two-way installation of glass is realized through the arrangement of the main body crosspiece, the side cover plate, the upper cover plate and the lower cover plate, and the adaptability of elevator well installation is improved.

Preferably, the elevator shaft further comprises a column connecting member for connecting columns adjacently disposed up and down.

The stability of the elevator shaft is increased through the arrangement of the stand column connecting piece.

Preferably, the elevator shaft comprises an L-shaped crosspiece fixing support, the end part of the main body crosspiece is provided with a notch used for accommodating the first end of the L-shaped crosspiece fixing support, the second end of the L-shaped crosspiece fixing support is connected with the upright post through a mounting screw, and the mounting part of the mounting screw is arranged in the notch.

The hidden installation of L type crosspiece fixed bolster has been realized through the setting of notch.

Preferably, the notch includes an upper notch disposed at an upper end of the main body crosspiece and a lower notch disposed at the main body crosspiece, the upper notch is disposed inside the upper cover plate, and the lower notch is disposed inside the lower cover plate.

The mode that the upper notch is arranged on the inner side of the upper cover plate and the lower notch is arranged on the inner side of the lower cover plate realizes the shielding of the mounting screws, and the appearance of the elevator shaft is beautified.

Preferably, the elevator shaft comprises a top mounting bracket arranged at the top of the elevator shaft and a derrick mounting seat arranged at the bottom of the shaft, and a plurality of main body crosspieces form a first crosspiece group arranged at the upper end of the shaft, a second crosspiece group arranged at the lower end of the shaft and a third crosspiece group arranged in the middle of the shaft; the first side of the first crosspiece group is connected with the top mounting bracket, and the second side of the first crosspiece group is connected with the third crosspiece group through the upright posts and the glass; the first side of the second crosspiece group is connected with the derrick mounting base, and the second side of the second crosspiece group is connected with the third crosspiece group through the upright posts and the glass.

Preferably, first crosspiece group and second crosspiece group all are provided with T type nut mounting groove, and first side of first crosspiece group is connected with top installing support through T type nut and bolt, and the first side of second crosspiece group is connected with the derrick mount pad through T type nut and bolt.

The first crosspiece group and the second crosspiece group are convenient to detach through the arrangement of the T-shaped nut mounting groove.

Preferably, the upright post is fixedly connected with the side wall of the elevator shaft through an L-shaped shaft fixing bracket.

The elevator shaft is reinforced by the fixed connection of the upright columns and the elevator shaft.

The present application also provides an elevator that includes a car system and the above-described elevator hoistway for housing the elevator system.

According to the technical scheme provided by the utility model, the bidirectional installation of the glass is realized through the arrangement of the main body crosspiece, the side cover plates, the upper cover plate and the lower cover plate, and the installation adaptability of the elevator hoistway is improved. Simultaneously, the elevator is provided, holes are prevented from being punched on the stand column through the arrangement of the L-shaped shaft fixing support, and the structural strength and the stability of the elevator shaft are improved.

Drawings

For a better understanding of the above and other objects, features, advantages and functions of the utility model, reference should be made to the preferred embodiments illustrated in the accompanying drawings. It will be appreciated by persons skilled in the art that the drawings are intended to illustrate preferred embodiments of the utility model without any limiting effect on the scope of the utility model, and that the various components in the drawings are not drawn to scale.

Fig. 1 is a schematic view of an installation structure of an elevator shaft according to an embodiment of the present invention;

fig. 2 is a schematic view of the installation of the bottom rail of the elevator shaft according to one embodiment of the present invention;

fig. 3 is a schematic view of the installation of the top rail of the elevator shaft according to one embodiment of the present invention;

FIG. 4 is an enlarged view taken at A in FIG. 1;

FIG. 5 is a cross-sectional view of the cross piece of the main body at B-B of FIG. 1;

FIG. 6 is an enlarged partial view taken at D in FIG. 5;

fig. 7 is a partial enlarged view at C-C in fig. 2.

Description of reference numerals:

a hoistway 1; a main body crosspiece 2; a glass 3; a derrick mounting seat 4; a first crosspiece group 5; a second crosspiece group 6; a third group of rails 7; a column 8; a top mounting bracket 9; an L-shaped crosspiece fixing bracket 10; mounting screws 11; a T-shaped nut 12; a hexagon socket head cap screw 13; an L-shaped shaft fixing bracket 14; an expansion bolt 15; an upper cover plate 16; a lower cover plate 17; side cover plates 18; a glass clip strip 19; a rail bracket 20; an upper glass accommodating portion 21; and a lower glass accommodating portion 22.

Detailed Description

The utility model is explained in more detail below with reference to the figures and examples. Reference will now be made in detail to the preferred embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following preferred embodiments do not represent all embodiments consistent with the present invention. Rather, they are merely preferred for implementing the apparatus and method in accordance with certain aspects of the utility model, as detailed in the appended claims, and other ways of implementing the utility model will occur to those skilled in the art and are within the scope of the utility model. In the following detailed description, directional terms, such as "upper", "lower", "inner", "outer", "longitudinal", "lateral", and the like, are used with reference to the orientation depicted in the accompanying drawings. Components of embodiments of the present invention may be positioned in a variety of orientations, and the directional terminology is used for purposes of illustration and is in no way limiting.

As shown in fig. 1-7, the present invention provides an elevator shaft, the elevator shaft 1 comprises a vertical column 8 extending along the longitudinal direction of the elevator shaft 1, a plurality of body crosspieces 2 supported on the vertical column 8, and a glass 3 mounted and supported between the adjacent body crosspieces 2; the elevator hoistway 1 further comprises an upper cover plate 16, a lower cover plate 17 and side cover plates 17 which can be installed on the main body crosspiece 2, wherein an upper glass containing part 21 is arranged above the main body crosspiece 2, a lower glass containing part 22 is arranged below the main body crosspiece 2, the upper glass containing part 21 is arranged above the main body crosspiece 2, and the lower glass containing part 22 is arranged below the main body crosspiece 2; the upper cover plate 16 is arranged on the side of the upper glass containing part 21 and used for limiting the glass 3 in the upper glass containing part 21 from the inner side of the main body crosspiece 2, the lower cover plate 17 is arranged on the side of the lower glass containing part 22 and used for limiting the glass 3 in the lower glass containing part 22 from the inner side of the main body crosspiece 2, the side cover plate 18 is buckled on the side of the main body crosspiece 2 and used for limiting the glass 3 at the position of the upper glass containing part 21 and/or the lower glass containing part 22 from the outer side of the main body crosspiece 2, and the upright post 8 is perpendicularly and orthogonally connected with the end part of the main body crosspiece 2 to support and fix the main body crosspiece 2.

In one implementation, when it is desired to install glass 3 from inside the main body rail 2, the side cover plates 18 are first snapped onto the main body rail 2, then the glass 3 is placed on the upper glass receiving portion 21, and then the upper cover plate 16 or the lower cover plate 17 is snapped onto the corresponding main body rail 2, thereby restraining and positioning the glass 3. When it is necessary to mount the glass 3 from the outside of the main body rail 2, the upper cover plate 16 is first fastened to the main body rail 2, then the glass 3 is placed on the upper glass receiving portion 21 of the main body rail 2 from the outside of the main body rail 2, and then the upper cover plate 18 is fastened.

As shown in one implementation, in order to make the installation of the glass 3 more stable, a glass strip 19 may be placed on the receiving portion of the glass 3 before the glass 3 is placed.

The two-way installation of the glass 3 is realized through the arrangement of the main body crosspiece 2, the side cover plates 18, the upper cover plate 16 and the lower cover plate 17, and the installation adaptability of the elevator hoistway 1 is improved.

In one implementation, the elevator hoistway 1 further includes a column connector for connecting adjacently disposed columns 8 above and below.

In one implementation, the column 8 is a hollow structure, the column connector is a spindle-type structure, the upper end of the column connector is inserted on the column 8 above, the lower end of the column connector is inserted on the column 8 below, and the middle of the column connector is clamped on the column 8 below and is also used for supporting the column 8 above.

The stability of the elevator shaft 1 is increased by the arrangement of the column connection.

In one implementation, the elevator hoistway 1 includes an L-shaped rung securing bracket 10, the end of the body rung 2 is provided with a notch for receiving a first end of the L-shaped rung securing bracket 10, a second end of the L-shaped rung securing bracket 10 is connected to the column 8 by a mounting screw 11, and a mounting portion of the mounting screw 11 is disposed within the notch.

The L-shaped crosspiece fixing bracket 10 is arranged in a hidden mode through the notches.

In one implementation, the notches include an upper notch disposed at an upper end of the main body rung 2 and a lower notch disposed at the main body rung 2, the upper notch being disposed inside the upper cover plate 16, and the lower notch being disposed inside the lower cover plate 17.

The mode that the upper notch is arranged on the inner side of the upper cover plate 16 and the lower notch is arranged on the inner side of the lower cover plate 17 realizes the shielding of the mounting screw 11, and the appearance of the elevator shaft 1 is beautified.

In one implementation prevention mode, the elevator shaft 1 comprises a top mounting bracket 9 arranged at the top of the elevator shaft 1, and a plurality of main body crosspieces 2 form a first crosspiece group 5 arranged at the upper end of the elevator shaft 1, a second crosspiece group 6 arranged at the lower end of the elevator shaft 1 and a third crosspiece group 7 arranged in the middle of the elevator shaft 1; the first side of the first crosspiece group 5 is connected with the top mounting bracket 9, and the second side of the first crosspiece group 5 is connected with the third crosspiece group 7 through the upright post 8 and the glass 3; the first side of the second crosspiece group 6 is connected with the derrick mounting 4 and the second side of the second crosspiece group 6 is connected with the third crosspiece group 7 through the upright posts 8 and the glass 3.

The first crosspiece group 5 and the second crosspiece group 6 only need to be provided with one group, and the third crosspiece group 7 can be provided with a plurality of groups according to the different lengths of the elevator shaft 1.

In one implementation, the bolt may be an inner hexagonal conical head screw 13, the first crosspiece group 5 and the second crosspiece group 6 are both provided with T-shaped nut mounting grooves, the first side of the first crosspiece group 5 is connected with the top mounting bracket 9 through a T-shaped nut 12 and an inner hexagonal conical head screw 13, and the first side of the second crosspiece group 6 is connected with the derrick mounting seat 4 through a T-shaped nut 12 and an inner hexagonal conical head screw 13.

The T-shaped nut 12 and the hexagon socket head cap screw 13 are arranged to realize convenient disassembly of the first crosspiece group 5 and the second crosspiece group 6.

The elevator hoistway 1 further comprises a rail bracket 20, and in order to ensure the aesthetic appearance, in one implementation, a T-shaped nut 12 installed in a T-shaped nut installation groove at the side edge of the main body rung 2 of the third rung group 7 is connected with the rail installation bracket through an inner hexagonal conical head screw 13, and the height of the rail installation bracket is less than or equal to the height of the main body rung 2 of the third rung group 7.

In one implementation, the vertical column 8 is fixedly connected to the sidewall of the elevator shaft 1 by an L-shaped shaft fixing bracket 14.

One end of an L-shaped shaft fixing bracket 14 is connected with the upright post 8 through a bolt, and the second end of the L-shaped shaft fixing bracket 14 is connected with the elevator shaft 1 through an expansion bolt 15.

The reinforcement of the elevator shaft 1 is achieved by the fixed connection of the column 8 to the elevator shaft 1.

When the elevator well 1 is installed, the derrick installation seat 4 is fixed at the bottom of the elevator well 1 by using expansion bolts 15, then T-shaped nuts 12 are pre-arranged in T-shaped nut installation grooves on the first side of the main body crosspiece 2 in the second crosspiece group 6, L-shaped crosspiece fixing supports 10 are pre-arranged in notches on all the main body crosspiece 2, and then the four main body crosspieces 2 at the bottom of the second crosspiece group 6 and the bottom installation frame are fixed by using the T-shaped nuts 12 and the hexagon socket head screws 13.

Then the upright post 8 is vertically arranged on the derrick mounting base 4 along the L-shaped crosspiece fixing support 10, and then the upright post 8 is fixedly connected with the crosspiece through the mounting screw 11.

Glass 3 is placed above the main body crosspiece 2 of the second crosspiece group 6, the glass 3 is positioned by using an upper cover plate 16 and a side cover plate 18 which are matched with each other, then the main body crosspiece 2 of the third crosspiece group 7 is installed above the glass 3, when the main body crosspiece 2 of the third crosspiece group 7 is installed, L-shaped crosspiece fixing supports 10 are respectively placed in an upper notch and a lower notch at two ends of the main body crosspiece 2 of the third crosspiece group 7, the main body crosspiece 2 moves downwards along the direction of the upright post 8, and when the main body crosspiece 2 is moved to an installation position, the main body crosspiece 2 is fixed on the upright post 8 through a mounting screw 11, so that the lower cover plate 17 and the side plates of the main body crosspiece 2 limit the glass 3 below the main body crosspiece 2.

The third group of rails 7 may be provided with a plurality of groups according to the height of the elevator shaft 1.

After glass 3 is placed on the main body crosspiece 2 of the third crosspiece group 7 at the top, the main body crosspiece 2 of the first crosspiece group 5 is installed above the glass 3, a T-shaped nut 12 is placed in a T-shaped nut installation groove on the first side of the main body crosspiece 2 of the first crosspiece group 5, and the crosspiece of the first crosspiece group 5 is installed on the top installation support 9 through an inner hexagonal cone head screw 13 and the T-shaped nut 12. The top mounting bracket 9 is mounted on the elevator shaft 1 by expansion bolts 15.

The present application also provides an elevator comprising a car system and an above-mentioned elevator shaft 1 for accommodating the elevator system.

According to the technical scheme provided by the utility model, the bidirectional installation of the glass 3 is realized through the arrangement of the main body crosspiece 2, the side cover plates 18, the upper cover plate 16 and the lower cover plate 17, and the installation adaptability of the elevator hoistway 1 is improved. Simultaneously, the elevator is provided, holes are prevented from being punched on the stand column 8 through the arrangement of the L-shaped hoistway fixing support 14, and the structural strength and the stability of the elevator hoistway 1 are improved.

Other embodiments of the utility model will be apparent to those skilled in the art from consideration of the specification and practice of the utility model disclosed herein. This application is intended to cover any variations, uses, or adaptations of the utility model following, in general, the principles of the utility model and including such departures from the present disclosure as come within known or customary practice within the art to which the utility model pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the utility model being indicated by the following claims.

It will be understood that the utility model is not limited to the precise arrangements that have been described above and shown in the drawings, and that various modifications and changes can be made without departing from the scope thereof. The scope of the utility model is limited only by the appended claims. The present invention is described in detail with reference to the accompanying drawings, which are incorporated herein by reference, and the like, and the embodiments of the present invention are not limited thereto.

Claims (8)

1. An elevator hoistway including a column extending longitudinally along an elevator hoistway, a plurality of body rungs supported on the column, a glass mounted supported between the adjacent body rungs; the method is characterized in that: the elevator shaft also comprises an upper cover plate, a lower cover plate and side cover plates which can be arranged on the main body crosspiece, wherein an upper glass containing part is arranged above the main body crosspiece, a lower glass containing part is arranged below the main body crosspiece,

the upper cover plate is arranged on the side edge of the upper glass containing part and used for limiting the glass in the upper glass containing part from the inner side of the main body crosspiece;

the lower cover plate is arranged on the side edge of the lower glass containing part and used for limiting the glass in the lower glass containing part from the inner side of the main body crosspiece;

the side cover plates are buckled on the side edges of the main body crosspiece and used for limiting the glass at the positions of the upper glass containing parts and/or the lower glass containing parts from the outer sides of the main body crosspiece;

the upright posts are vertically and orthogonally connected with the end parts of the main body crosspiece so as to support and fix the main body crosspiece.

2. The elevator hoistway of claim 1, further comprising a column connector for connecting the columns disposed adjacent one another above and below the hoistway.

3. The elevator hoistway of claim 1, further comprising an L-shaped rung fixture bracket, an end portion of the body rung being provided with a notch for receiving a first end of the L-shaped rung fixture bracket,

l type crosspiece fixed bolster's second end through mounting screw with the stand is connected, mounting screw's installation department sets up in the notch.

4. The elevator hoistway of claim 3, wherein the slots comprise an upper slot disposed at an upper end of the body rung and a lower slot disposed at the body rung,

the upper notch is arranged on the inner side of the upper cover plate, and the lower notch is arranged on the inner side of the lower cover plate.

5. The elevator hoistway of claim 1, further comprising a top mounting bracket disposed at a top of the hoistway and a mast mount disposed at a bottom of the hoistway,

the main body crosspieces form a first crosspiece group arranged at the upper end of the well, a second crosspiece group arranged at the lower end of the well and a third crosspiece group arranged in the middle of the well;

the first side of the first crosspiece group is connected with the top mounting bracket, and the second side of the first crosspiece group is connected with the third crosspiece group through the upright posts and the glass;

and the first side of the second crosspiece group is connected with the derrick mounting base, and the second side of the second crosspiece group is connected with the third crosspiece group through the upright posts and the glass.

6. The elevator hoistway of claim 5, wherein the first group of rails and the second group of rails are each provided with a T-nut mounting slot, wherein a first side of the first group of rails is connected to the top mounting bracket by a T-nut and bolt, and wherein a first side of the second group of rails is connected to the mast mounting base by a T-nut and bolt.

7. The elevator hoistway of claim 1, wherein the column is fixedly connected to the hoistway side wall by an L-shaped hoistway fixing bracket.

8. An elevator, characterized in that the elevator comprises a car system and an elevator hoistway according to any of claims 1-7 for accommodating the car system.

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