CN214531727U

CN214531727U - Novel elevator well

Info

Publication number: CN214531727U
Application number: CN202120574341.5U
Authority: CN
Inventors: 王俊杰; 邵宗恒; 沃林·安德烈亚林·马库斯; 万修哲
Original assignee: Xibaisi Electromechanical Equipment Jiaxing Co ltd
Current assignee: Xibaisi Electromechanical Equipment Jiaxing Co ltd
Priority date: 2021-03-22
Filing date: 2021-03-22
Publication date: 2021-10-29
Anticipated expiration: 2031-03-22

Abstract

The utility model discloses a novel elevator well, which comprises cross beams and corner brackets, wherein each corner bracket is vertically arranged, a plurality of cross beams are connected and fixed between adjacent corner brackets, glass is arranged between the corner brackets, flanges extend outwards from two sides of each corner bracket, and an embedded groove is formed at the inner side of each flange; the upper side and the lower side of the cross beam are respectively provided with an embedding groove, two ends of each embedding groove are communicated with the embedding grooves on the angle brackets, two sides of the glass are respectively inserted into the embedding grooves of the two angle brackets, the upper side embedding groove of the lower cross beam supports the lower edge of the glass, and the lower side embedding groove of the upper cross beam clamps the upper edge of the glass. The utility model discloses a set up the caulking groove from top to bottom at angle frame both sides setting gomphosis groove, crossbeam, it is fixed to realize the gomphosis to glass through the caulking groove with the cooperation of gomphosis groove to leave certain assembly allowance through caulking groove and gomphosis groove, thereby can realize convenient and fast's installation and dismantle glass, not only simplify mounting structure, practiced thrift installation cost, make the later maintenance more convenient moreover.

Description

Novel elevator well

Technical Field

The utility model relates to an elevator equipment technical field, concretely relates to well of elevator.

Background

Modern buildings are increasingly using elevators, but the existing household elevator shaft mainly has two glass installation modes, the first mode is to superpose glass plates with frames to form a shaft wall, the mode has the advantages of convenient installation and inconvenient disassembly, and if glass is damaged below the shaft wall, the whole shaft wall needs to be dismantled to finish maintenance and replacement, which is time-consuming and labor-consuming; the other mode is a traditional glass installation mode, namely after the shaft frame is installed, glass is placed on the glass cross beam, then the glass is fixed through the pressing strip, and finally the decorative plate is covered, but the installation mode is inconvenient to install and the problem of inconvenience in disassembly is also caused.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to the shortcoming that prior art exists, provide a simple structure, reasonable in design, glass installation and dismantle the operation all very convenient novel elevator well.

In order to solve the technical problem, the utility model adopts the following technical scheme: the utility model provides a novel elevator well, including crossbeam and corner brace, each corner brace is vertical arranges that a plurality of crossbeams are connected and are fixed in between the adjacent corner brace, install glass, its characterized in that between the corner brace: flanges for blocking the side edges of the outer surface of the glass are formed on two sides of the angle frame in an outward extending mode respectively, and embedding grooves for containing the side edges of the glass are formed on the inner sides of the flanges; the upper side and the lower side of the cross beam are respectively provided with an embedded groove used for containing the upper edge and the lower edge of the glass, two ends of each embedded groove are communicated with the embedded grooves on the corner brackets, the maximum width between the embedded grooves of the two adjacent corner brackets is larger than the width of the glass, two sides of the glass are respectively inserted into the embedded grooves of the two corner brackets, and the upper edge of the glass is clamped by the lower edge of the glass supported by the upper embedded groove of the lower cross beam and the lower edge of the upper cross beam.

Furthermore, an upper piece of glass and a lower piece of glass are arranged in a space enclosed by two adjacent beams, the lower edge of the lower piece of glass is inserted into the upper side caulking groove of the lower beam, and the upper edge of the upper piece of glass is inserted into the lower side caulking groove of the upper beam; a glass spacing strip is arranged between the upper edge of the lower glass and the lower edge of the upper glass, and the upper glass is supported by the lower glass. So both can save half crossbeam, reduce cost improves the daylighting in the elevator, can prevent again simultaneously that upper and lower two glass direct contact from causing the damage.

Furthermore, the cross section of the glass division bar is of an H-shaped structure and is made of aluminum alloy (or other materials); the grooves on the upper side and the lower side of the glass division bar respectively block the lower edge of the upper glass and the upper edge of the lower glass, so that the glass is more attractive.

Furthermore, the cross beams are fixedly connected with the corner brackets through cross beam fixing pieces, two adjacent cross beams on the left and right sides are fixedly connected with the same cross beam fixing piece through screws, the cross beam fixing pieces are fixedly connected with the corner brackets through T-shaped bolts along the inner side faces of the corner brackets, and the structure is convenient to install and operate.

Furthermore, a flexible glass pad is arranged in the upper embedding groove of each beam, and the glass pad plays a role in protecting the lower edge of glass.

Furthermore, the glass fixing pieces are fixed on the inner side surfaces of the two corner frames without the guide rails, which are positioned between the upper cross beam and the lower cross beam, through T-shaped bolts, the inner side surfaces of the glass are clamped through the two side edges of the glass fixing pieces, the shape of the glass fixing pieces is basically the same as that of the cross beam fixing pieces, the glass can be clamped from the inside and the outside through the matching of the glass fixing pieces and the flanges, the inner side surfaces of the glass are blocked through the guide rails on one side with the guide rails, the glass is prevented from falling off from the inside, and the stability of the glass is improved.

Guide rails (the guide rails are in the prior art) are vertically arranged at the positions close to the two adjacent corner brackets, and the cross beams corresponding to the two corner brackets are fixedly connected with the guide rails through screws, so that half of cross beam fixing parts can be saved; the guide rail is fixedly connected with the angle frame through the T-shaped bolt, and the guide rail is abutted to the cross beam on one side, so that the stability of the guide rail can be improved.

And a vertical screw rod is arranged between the two guide rails, the upper end of the screw rod is fixed by a screw rod fixing frame, and the two ends of the screw rod fixing frame are respectively erected on the two guide rails. This is, of course, only a conventional solution for existing elevators.

When the glass is installed, one side of the glass is obliquely inserted into the embedding groove of the corner bracket on one side and pushed to the bottom, then the other side of the glass is rotated to be aligned with the embedding groove of the opposite corner bracket, and then the glass is transversely moved, so that two sides of the glass are respectively inserted into the embedding grooves of the two opposite corner brackets. After the glass is loaded into the corner bracket, the glass is pushed upwards to enable the upper end of the glass to be inserted into the lower side caulking groove of the upper cross beam. Then, the lower glass is loaded into the corner bracket in the same way and naturally falls into the upper embedding groove of the lower cross beam, a glass division bar is placed at the top end of the lower glass, and then the upper glass slightly falls and is clamped into the glass division bar, so that the installation is completed. The operation process is opposite when the device is disassembled.

The utility model discloses a set up the caulking groove from top to bottom at angle frame both sides setting gomphosis groove, crossbeam, it is fixed to realize the gomphosis to glass through the caulking groove with the cooperation of gomphosis groove to leave certain assembly allowance through caulking groove and gomphosis groove, thereby can realize convenient and fast's installation and dismantle glass, not only simplify mounting structure, practiced thrift installation cost, make the later maintenance more convenient moreover.

Drawings

FIG. 1 is an overall structure diagram of the present invention;

FIG. 2 is an overall view of another aspect of the present invention;

FIG. 3 is an enlarged view of a portion of the assembled cross beam and corner bracket structure;

FIG. 4 is a schematic view of the installation of the glass and the glass mount;

FIG. 5 is a schematic view of the engagement of the cross member during glass assembly;

FIG. 6 is a schematic view of the fitting of the glazing process to the corner bracket;

FIG. 7 is a schematic view of the assembled glass and the corner bracket.

In the figure, 1 is a beam, 11 is a caulking groove, 2 is a corner bracket, 21 is a flange, 3 is a glass parting bead, 4 is glass, 5 is a beam fixing piece, 6 is a guide rail, 7 is a screw, 8 is a screw fixing piece, 9 is a T-shaped bolt, 10 is a screw, and 12 is a glass fixing piece.

Detailed Description

In this embodiment, referring to fig. 1 to 7, the novel elevator hoistway includes cross beams 1 and corner brackets 2, four corner brackets 2 are vertically arranged, a plurality of cross beams 1 (the number of the cross beams needs to be determined according to the total height of the elevator) are connected and fixed between adjacent corner brackets 2, and glass 4 is installed between the corner brackets 2; flanges 21 for blocking the side edges of the outer surface of the glass 4 are formed on two sides of the angle bracket 1 in an outward extending mode respectively, and embedding grooves for containing the side edges of the glass 4 are formed on the inner sides of the flanges 21; the upper side and the lower side of the beam 1 are respectively provided with an embedded groove 11 for containing the upper edge and the lower edge of the glass 4, two ends of each embedded groove 11 are communicated with the embedded grooves on the corner brackets 2, the maximum width between the embedded grooves of two adjacent corner brackets 2 is larger than the width of the glass, so that the glass 4 can be transversely and obliquely inserted between the two corner brackets 2, two sides of the glass 4 are respectively inserted into the embedded grooves of the two corner brackets 2, and the upper edge of the glass 4 is clamped by the upper embedded groove 11 of the lower beam 1 and the lower embedded groove 11 of the upper beam 1.

As a relatively economic mode, an upper glass 4 and a lower glass 4 can be arranged in a space enclosed by two adjacent beams 1, the lower edge of the lower glass 4 is inserted into the upper side caulking groove 11 of the lower beam 1, and the upper edge of the upper glass 4 is inserted into the lower side caulking groove 11 of the upper beam 1; a glass spacing strip 3 is arranged between the upper edge of the lower glass 4 and the lower edge of the upper glass 4, and the upper glass 4 is held by the lower glass 4. Therefore, half of the beam 1 can be saved, the cost is reduced, the lighting in the elevator is improved, and the damage caused by the direct contact of the upper glass 4 and the lower glass 4 can be prevented.

The cross section of the glass division bar 3 is in an H-shaped structure and is made of aluminum alloy; the grooves on the upper and lower sides of the glass division bar 3 respectively block the lower edge of the upper glass 4 and the upper edge of the lower glass 4, so that the glass is more attractive.

Crossbeam 1 is connected fixedly through crossbeam mounting 5 and angle frame 2, and two adjacent crossbeams 1 about wherein are connected fixedly through screw 10 and same crossbeam mounting 5, and crossbeam mounting 5 is then passed through T type bolt 9 along the medial surface of angle frame 1 and is connected fixedly with angle frame 2, and this kind of structure installation convenient operation.

A flexible glass mat is arranged in the upper embedding groove 11 of each beam 1, and the glass mat plays a role in protecting the lower edge of the glass 4 and plays a role in protecting the lower edge of the glass 4.

The inner side surfaces of the two corner brackets 2 without the guide rails 6, which are positioned between the upper and lower cross beams 1, are fixed with glass fixing pieces 12 through T-shaped bolts, and the number of the glass fixing pieces can be one or more; the inner side surfaces of the glass 4 are clamped by the two side edges of the glass fixing piece 12, the shape of the glass fixing piece 12 is basically the same as that of the beam fixing piece 5, and the glass can be clamped from the inside and the outside respectively through the matching of the glass fixing piece 12 and the flanges 21, so that the glass is prevented from falling off from the inner side, and the stability of the glass is improved.

Guide rails 6 are vertically arranged at the positions close to the two adjacent angle brackets 2, and the cross beams 1 corresponding to the two angle brackets 2 are fixedly connected with the guide rails 6 through screws 10, so that half of cross beam fixing parts 5 can be saved; the guide rail 6 is fixedly connected with the corner bracket 2 through the T-shaped bolt 9, and the guide rail 6 is abutted against the cross beam 1 on one side, so that the stability of the guide rail 6 can be improved.

And a vertical screw 7 is arranged between the two guide rails 6, the upper end of the screw 7 is fixed by a screw fixing frame 8, and two ends of the screw fixing frame 8 are respectively erected on the two guide rails 6. This is, of course, only a conventional solution for existing elevators.

During installation, one side of the glass 4 is obliquely inserted into the embedding groove of one corner bracket 2 and pushed to the bottom, then the other side of the glass 4 is rotated to be aligned with the embedding groove of the opposite corner bracket 2, and then the glass 4 is transversely moved, so that two sides of the glass 4 are respectively inserted into the embedding grooves of the two opposite corner brackets 2, and the glass 4 is positioned in a central position. After the glass 4 is loaded into the corner bracket 2, the glass 4 is pushed upwards so that the upper end of the glass 4 is inserted into the lower embedding groove 11 of the upper beam 1. Then, the lower glass 4 is loaded into the angle bracket 2 in the same way and naturally falls into the upper embedding groove 11 of the lower beam 1, the glass spacing strip 3 is placed at the top end of the lower glass 4, and then the upper glass 4 slightly falls and is clamped into the glass spacing strip 3, so that the installation is finished. The operation process is opposite when the device is disassembled.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the scope of the invention, i.e. the present invention is intended to cover all equivalent variations and modifications within the scope of the present invention.

Claims

1. The utility model provides a novel elevator well, including crossbeam and corner brace, each corner brace is vertical arranges that a plurality of crossbeams are connected and are fixed in between the adjacent corner brace, install glass, its characterized in that between the corner brace: flanges for blocking the side edges of the outer surface of the glass are formed on two sides of the angle frame in an outward extending mode respectively, and embedding grooves for containing the side edges of the glass are formed on the inner sides of the flanges; the upper side and the lower side of the cross beam are respectively provided with an embedded groove used for containing the upper edge and the lower edge of the glass, two ends of each embedded groove are communicated with the embedded grooves on the corner brackets, the maximum width between the embedded grooves of the two adjacent corner brackets is larger than the width of the glass, two sides of the glass are respectively inserted into the embedded grooves of the two corner brackets, and the upper edge of the glass is clamped by the lower edge of the glass supported by the upper embedded groove of the lower cross beam and the lower edge of the upper cross beam.

2. The new elevator hoistway of claim 1, wherein: an upper glass block and a lower glass block are arranged in a space enclosed by two adjacent beams, the lower edge of the lower glass block is inserted into the upper side caulking groove of the lower beam, and the upper edge of the upper glass block is inserted into the lower side caulking groove of the upper beam; a glass spacing strip is arranged between the upper edge of the lower glass and the lower edge of the upper glass, and the upper glass is supported by the lower glass.

3. The new elevator hoistway of claim 2, wherein: the cross section of the glass spacing strip is of an H-shaped structure, and the grooves on the upper side and the lower side of the glass spacing strip are used for clamping the lower edge of the upper glass and the upper edge of the lower glass respectively.

4. The new elevator hoistway of claim 1, wherein: the cross beams are fixedly connected with the corner brackets through cross beam fixing pieces, two adjacent cross beams on the left and right sides are fixedly connected with the same cross beam fixing piece through screws, and the cross beam fixing pieces are fixedly connected with the corner brackets through T-shaped bolts along the inner side faces of the corner brackets.

5. The new elevator hoistway of claim 1, wherein: a flexible glass pad is arranged in the upper embedding groove of each beam, and the glass pad pads the lower edge of glass.

6. The new elevator hoistway of claim 1, wherein: guide rails are vertically arranged at the positions close to the two adjacent angle brackets, the cross beams corresponding to the two angle brackets are fixedly connected with the guide rails through screws, the guide rails are fixedly connected with the angle brackets through T-shaped bolts, and the guide rails are abutted against the cross beams on one side.

7. The new elevator hoistway of claim 6, wherein: a vertical screw rod is arranged between the two guide rails, the upper end of the screw rod is fixed through a screw rod fixing frame, and the two ends of the screw rod fixing frame are respectively erected on the two guide rails.

8. The new elevator hoistway of claim 6, wherein: the inner side surfaces of the two corner brackets without the guide rails, which are positioned between the upper and lower cross beams, are fixed with glass fixing pieces through T-shaped bolts, and the inner side surfaces of the glass are clamped through two side edges of the glass fixing pieces.