CN107161830B - Elevator skeleton and gallery structure and its installation method - Google Patents

Abstract

The present invention discloses a kind of elevator skeleton and gallery structure, including：Elevator skeleton：Including longitudinal H profile steel and lateral H profile steel, mounting plate：Including wing plate mounting plate and web mounting plate, wing plate mounting plate is equipped with the first mounting hole with longitudinal wing plate lateral surface vertical connection, wing plate mounting plate in web through-hole corresponding position, and wing plate mounting plate is bolted with transversal web；Web mounting plate is correspondingly provided with the second mounting hole with longitudinal web vertical connection, web mounting plate with web through hole, and web mounting plate is bolted with transversal web；Vestibule chassis：Including rectangular frame, rectangular frame includes join end to end successively rectangular right plate, front side board, left plate and back side panel；Corridor body：It is fixedly connected on above rectangular frame；Connector：For connecting vestibule chassis and elevator skeleton；Elevator skeleton of the present invention connect reliable, precision height with gallery structure, and installation period is short.

Description

Elevator skeleton and gallery structure and its installation method

Technical field

The present invention relates to connection structures, and in particular to a kind of elevator skeleton and gallery structure and its installation method.

Background technology

Lifting type elevator is mainly by traction machine（Winch）, guide rail, counterweight, safety device (such as limiter of speed, safety tongs and Buffer etc.), signal manipulation system, the compositions such as car and hall door.These parts are separately mounted to the hoistway and computer room of building In.Generally use Wire Friction Driving, steel wire rope bypass traction sheave, and both ends are separately connected car and balance weight, and motor drives Dynamic traction sheave makes car lift.With popularizing for automation equipment, during lifting type elevator is widely used in life and produces.

Before the installation of lifting type elevator, need to build elevator skeleton, the realization of lifting type elevator function relies on skeleton；Separately Outside, it for skyscraper, needs that vestibule is arranged between building and elevator, it is in the prior art, general using welding or spiral shell It tethers to connect and connects the component respectively processed, to complete building for elevator skeleton and gallery structure, but this constitutional detail It is various, it is low to build efficiency；Simple directly fixed using welding or bolt, skeleton connection precision is low, and connection structure intensity is low.

Therefore, there is an urgent need for a kind of connections reliably, precision is high, installation period short elevator skeleton and gallery structure.

Invention content

Build that efficiency is low, connection precision is low, structure in the presence of building for solve prior art elevator skeleton and gallery structure The low technical problem of intensity, the present invention is intended to provide a kind of connection is reliable, precision is high, installation period short elevator skeleton and vestibule Structure.

The purpose of invention is achieved through the following technical solutions：

A kind of elevator skeleton and gallery structure, including：Elevator skeleton：Including longitudinal H profile steel and lateral H profile steel, longitudinal H-type Ladle includes longitudinal web and two blocks of longitudinal wing plates being mutually parallel, and two blocks of longitudinal wing plates are connected by longitudinal web, longitudinal web It is vertically installed between two blocks of longitudinal wing plates；Lateral H profile steel includes transversal web and two blocks of lateral wing plates being mutually parallel, two pieces Lateral wing plate is connected by transversal web, and transversal web is vertically installed between two blocks of lateral wing plates, and transversal web is equipped with web Through-hole；Mounting plate：Including wing plate mounting plate and web mounting plate, wing plate mounting plate and longitudinal wing plate lateral surface vertical connection, the wing Plate mounting plate is equipped with the first mounting hole in web through-hole corresponding position, and wing plate mounting plate is bolted with transversal web；Web is installed Plate and longitudinal web vertical connection, web mounting plate are correspondingly provided with the second mounting hole, web mounting plate and cross with web through hole It is bolted to web；Vestibule chassis：Including rectangular frame, rectangular frame include join end to end successively rectangular right plate, Front side board, left plate and back side panel；Corridor body：It is fixedly connected on above rectangular frame；Connector：For connecting vestibule chassis and electricity Terraced skeleton.

Bolt fastening structure is by the first mounting hole, the second mounting hole, web through-hole, by longitudinal H profile steel and lateral H profile steel Close connection, to form elevator skeleton.Compared with the existing technology using welding or direct bolt connecting mode, energy when connection Transversal web is directly fixedly connected by precise positioning with web mounting plate, wing plate mounting plate；Web mounting plate, wing plate mounting plate It is connect respectively with transversal web face, increases contact area, connection structure is stablized, and elevator skeleton is unlikely to deform；Pass through the first installation Hole and web through-hole cooperation, the second mounting hole and web through-hole cooperation, can quickly position, installation period end is short；The setting of corridor body with On vestibule chassis, vestibule chassis is rectangular frame, and Undercarriage structure is that stabilization is unlikely to deform, and passes through the prior art with elevator skeleton Connector connects, and supports corridor body, supporting & stablizing, support reliability height.

Preferably, vestibule chassis further includes support plate and bottom plate, and support plate is fixedly installed in front side board and back side panel upper end, Support plate is setback plate；Bottom plate is set to above support plate.

Rectangular frame provides basis for Undercarriage structure, and support plate and the front side board and back side panel upper end of setback harden structure are fixed Bottom plate is arranged in connection, setback plate top, and vestibule is installed on bottom plate, and the pressure transmission of vestibule suffered by bottom plate is propped up to support plate The special Wave folded structure of fagging has shearing resistance bending resistance, prevents support plate stress from deforming upon bending, improves the entirety of chassis Support strength, in addition, setback harden structure can also prevent bottom plate insecure and relative support plate is slided due to installing, corridor body Connection is more reliable and more stable；The setting of bottom plate provides larger stress surface, and uniform force is distributed to support plate, avoids corridor body straight Connecing to act on supports the local pressure of plate surface excessive, is more than the load limitation of support plate, improves the bearing capacity of vestibule chassis, from And improve the overall stability of elevator skeleton and gallery structure.

Preferably, support plate is trapezoidal wave folded plate.

There are one horizontal bearing faces for trapezoidal wave folded plate each up and down, improve support plate and front side board, back side panel and bottom plate Contact area, reduce support plate stress surface pressure, prevent local pressure excessive, damage supporting plate structure, support construction can By property height.

Preferably, front side board and back side panel outside vertical are equipped with the connecting plate for being connect with connector, and connecting plate is equipped with Connect through-hole.

Preferably, connector includes substrate, and substrate is vertically equipped with L-shaped fixed plate；Fixed plate includes stringer board and transverse slat, is indulged Plate is equipped with stringer board through-hole in connection through-hole corresponding position, and stringer board is bolted with connecting plate；Transverse slat upper surface is fixed with stringer board to be connected It connects；Transverse slat lower surface is equipped with floor；Substrate is fixedly installed on the outside of transversal web.

Substrate is fixedly installed on the outside of transversal web, and stringer board and the connecting plate of vertical substrate are bolted, and connector is one A plane is fixed rectangular frame by L-shaped connecting plate, and connection structure support is steady, and connection is reliable；Transverse slat is as carrying While the bonding strength of the support board of bottom frame, stringer board reinforcement transverse slat and substrate, transverse slat also reinforces stringer board and the connection of substrate is strong Degree.

Preferably, floor is perpendicularly fixed at substrate, and for floor perpendicular to transverse slat, floor is right angle triangle.

Floor is perpendicular to substrate and vertically and transverse slat is not susceptible to bend, floor and substrate relative to other connection angles Anti-shearing force it is strong, be not susceptible to be broken at floor and substrate connection；Meanwhile increasing the connection area of rib plate connecting piece, into one Step improves the load-carrying ability of connector；Right angled triangle floor provides stable triangular support structure, further improves The load-carrying ability of connector.

Preferably, corridor body includes left wallboard and right wallboard, and left plate top and bottom, right plate top and bottom are set respectively There are mounting groove, left wallboard to be sticked in mounting groove respectively with right wallboard.

Mounting groove between two vestibule chassis engages left wallboard and right wallboard, and left wallboard and right wallboard are individually fixed in Installation is realized between two vestibule chassis, installation is simple, and quick for installation, installation period is short.

Preferably, left plate and right plate are U-steel；Left plate is opposite with the notch of right plate, front side board and rear side Plate upper and lower ends are sticked in notch.

Left plate is groove profile harden structure with right plate, and front side board is sticked in back side panel upper and lower ends in notch, front side board, Displacement on vertical direction can not occur with respect to U-steel for back side panel, reinforce the ability of anti-deformation of rectangular frame vertical direction, from And improve the stability of elevator skeleton and vestibule connection structure.

The present invention also provides a kind of installation methods of elevator skeleton and gallery structure, include the following steps：

S₁ ：Elevator skeleton is pre-assembled：The transversal web of lateral H profile steel is pacified with the web for being set to longitudinal H profile steel respectively Loading board, wing plate mounting plate are bolted, and substrate is fixedly installed in transversal web lateral surface；

S₂ ：Vestibule chassis is pre-assembled：It is sequentially connected right plate, front side board, left plate and back side panel and forms frame structure；It will Trapezoidal wave folded plate is fixedly installed in front side board and back side panel upper end；Bottom plate is fixedly installed in trapezoidal wave folded plate upper end；

S₃ ：It will be bolted, connect with the stringer board for being set to substrate set on the connecting plate of front side board and back side panel lateral surface Elevator skeleton and vestibule chassis；

S₄：Corridor body is fixedly installed in vestibule chassis.

Using pre-assembled mode, in conjunction with the special connecting structure of elevator skeleton and gallery structure, when connection, can precisely determine Transversal web, is directly fixedly connected by position with web mounting plate, wing plate mounting plate；Web mounting plate, wing plate mounting plate respectively with Transversal web face connects, and increases contact area, and connection structure is stablized, and elevator skeleton is unlikely to deform；Pass through the first mounting hole and abdomen The cooperation of plate through-hole, the second mounting hole and the cooperation of web through-hole, can quickly position, installation period end is short；Corridor body setting and vestibule bottom On frame, vestibule chassis is rectangular frame, and Undercarriage structure is that stabilization is unlikely to deform, the connector for passing through the prior art with elevator skeleton Connection supports corridor body, supporting & stablizing, support reliability height.

Preferably, the multiple reinforcing plates of spaced set between left plate and back side panel, reinforcing plate are mutually flat with front side board Row, reinforcing plate upper end is fixedly connected with support plate lower end.

By the way that reinforcing plate is arranged, prevents rectangular frame stress from deforming upon, enhance the stability of rectangular frame, to improve The stability of elevator skeleton and vestibule connection structure.

Beneficial effects of the present invention：

1. elevator skeleton provided by the present invention and gallery structure, compared with the existing technology using welding or direct bolt Connection type, when connection can precise positioning, directly transversal web is fixedly connected with web mounting plate, wing plate mounting plate；Web Mounting plate, wing plate mounting plate are connect with transversal web face respectively, increase contact area, and connection structure is stablized, and elevator skeleton is not easy Deformation；By the first mounting hole and web through-hole cooperation, the second mounting hole and web through-hole cooperation, can quickly position, installation week Phase end is short；Corridor body setting is on vestibule chassis, and vestibule chassis is rectangular frame, and Undercarriage structure is that stabilization is unlikely to deform, with elevator Skeleton is connected by the connector of the prior art, supports corridor body, supporting & stablizing, support reliability height.

2. elevator skeleton provided by the present invention and gallery structure, rectangular frame provides basis, setback plate for Undercarriage structure The support plate of structure is fixedly connected with front side board and back side panel upper end, is arranged bottom plate above setback plates, vestibule be installed on bottom plate it On, the special Wave folded structure of the pressure transmission of vestibule suffered by bottom plate to support plate, support plate has shearing resistance bending resistance, prevents from propping up Fagging stress deforms upon bending, improves the integrated support intensity of chassis, in addition, setback harden structure can also prevent bottom plate due to peace Fill insecure and relative support plate is slided, the connection of corridor body is more reliable and more stable；The setting of bottom plate provides larger stress Uniform force is distributed to support plate by face, is avoided the local pressure that corridor body acts directly on support plate surface excessive, is more than support The load limitation of plate improves the bearing capacity of vestibule chassis, to improve the overall stability of elevator skeleton and gallery structure.

3. elevator skeleton provided by the present invention and gallery structure, there are one horizontal bearings for trapezoidal wave folded plate each up and down The contact area of support plate and front side board, back side panel and bottom plate is improved in face, reduces the pressure of support plate stress surface, prevents office Portion's pressure is excessive, damages supporting plate structure, and support construction reliability is high.

4. elevator skeleton provided by the present invention and gallery structure, substrate is fixedly installed on the outside of transversal web, vertical base The stringer board of plate is bolted with connecting plate, and connector, by L-shaped connecting plate, rectangular frame is fixed, the company in a plane It is steady to connect structural support, connection is reliable；Support board of the transverse slat as carrying bottom frame, stringer board reinforce the bonding strength of transverse slat and substrate While, transverse slat also reinforces the bonding strength of stringer board and substrate, to improve the connective stability of elevator skeleton and vestibule chassis.

5. elevator skeleton provided by the present invention and gallery structure, floor perpendicular to substrate and vertically and transverse slat, relative to Other connection angles, are not susceptible to bend, the anti-shearing force of floor and substrate is strong, is not susceptible to break at floor and substrate connection It splits；Meanwhile increasing the connection area of rib plate connecting piece, further increase the load-carrying ability of connector；Right angled triangle floor carries For stable triangular support structure, the load-carrying ability of connector is further improved.

6. elevator skeleton provided by the present invention and gallery structure, left plate is groove profile harden structure, front side board with right plate It being sticked in notch with back side panel upper and lower ends, the displacement on vertical direction can not occur with respect to U-steel for front side board, back side panel, The ability of anti-deformation for reinforcing rectangular frame vertical direction, to improve the stability of elevator skeleton and vestibule connection structure.

Description of the drawings

Fig. 1 is the elevator skeleton and gallery structure schematic diagram of embodiment 1；

Fig. 2 is the elevator skeleton structure schematic diagram of embodiment 1；

Fig. 3 is the elevator skeleton of embodiment 1 along A direction structure schematic diagrames；

Fig. 4 is the connecting-piece structure schematic diagram of embodiment 1；

Fig. 5 is the corridor body and vestibule Undercarriage structure schematic diagram of embodiment 1；

The longitudinal directions 101- web；The longitudinal directions 102- wing plate；201- transversal webs；202- transverse direction wing plates；301- wing plate mounting plates； The first mounting holes of 3011-；302- web mounting plates；The second mounting holes of 3021-；4011- front side boards；4012- back side panels；4013- Left plate；4014- right plates；402- support plates；403- bottom plates；404- connecting plates；4041- connection through-holes；501- substrates； 5021- stringer boards；50211- stringer board through-holes；5022- transverse slats；503- floors；The left wallboards of 601-；The right wallboards of 602-.

Specific implementation mode

Understand for the ease of those skilled in the art, the present invention is done below in conjunction with attached drawing and embodiment and is further retouched in detail It states：

Embodiment 1

As shown in Figs. 1-5, the present embodiment provides a kind of elevator skeleton and gallery structures, including：Elevator skeleton：Including longitudinal direction H profile steel and lateral H profile steel, longitudinal H profile steel includes longitudinal web 101 and two blocks of longitudinal wing plates 102 being mutually parallel, two pieces of longitudinal directions Wing plate 102 is connected by longitudinal web 101, and longitudinal web 101 is vertically installed between two blocks of longitudinal wing plates 102；Lateral H profile steel Including the lateral wing plate 202 that transversal web 201 and two pieces are mutually parallel, two blocks of lateral wing plates 202 are connected by transversal web 201 It connects, transversal web 201 is vertically installed between two blocks of lateral wing plates 202, and transversal web 201 is equipped with web through-hole；Mounting plate：Packet Include wing plate mounting plate 301 and web mounting plate 302, wing plate mounting plate 301 and 102 lateral surface vertical connection of longitudinal wing plate, wing plate Mounting plate 301 is equipped with the first mounting hole 3011 in web through-hole corresponding position, and wing plate mounting plate 301 connects with 201 bolt of transversal web It connects；Web mounting plate 302 is correspondingly provided with the second peace with 101 vertical connection of longitudinal web, web mounting plate 302 with web through hole Hole 3021 is filled, web mounting plate 302 is bolted with transversal web 201；Vestibule chassis：Including rectangular frame, rectangular frame packet Include the right plate 4014 for joining end to end successively rectangular, front side board 4011, left plate 4013 and back side panel 4012；Corridor body：It is fixed It is connected to above rectangular frame；Connector：For connecting vestibule chassis and elevator skeleton；Vestibule chassis further includes support plate 402 With bottom plate 403, support plate 402 is fixedly installed in 4012 upper end of front side board 4011 and back side panel, and support plate 402 is setback plate；Bottom Plate 403 is set to 402 top of support plate；Support plate 402 is trapezoidal wave folded plate；Front side board 4011 and 4012 outside vertical of back side panel are set It is useful for the connecting plate being connect with connector 404, connecting plate 404 is equipped with connection through-hole 4041；Connector includes substrate 501, base Plate 501 is vertically equipped with L-shaped fixed plate；Fixed plate includes stringer board 5021 and transverse slat 5022, and stringer board 5021 is in connection through-hole 4041 Corresponding position is equipped with stringer board through-hole 50211, and stringer board 5021 is bolted with connecting plate 404；5022 upper surface of transverse slat and stringer board 5021 are fixedly connected；5022 lower surface of transverse slat is equipped with floor 503；Substrate 501 is fixedly installed in 201 outside of transversal web；Floor 503 are perpendicularly fixed at substrate 501, and for floor 503 perpendicular to transverse slat 5022, floor 503 is right angle triangle；Corridor body includes left wallboard 601 and right wallboard 602,4013 top and bottom of left plate, 4014 top and bottom of right plate be respectively equipped with mounting groove, left wallboard 601 are sticked in mounting groove respectively with right wallboard 602；Left plate 4013 and right plate 4014 are U-steel；Left plate 4013 Opposite with the notch of right plate 4014, front side board 4011 is sticked in 4012 upper and lower ends of back side panel in notch.

Bolt fastening structure by the first mounting hole 3011, the second mounting hole 3021, web through-hole, by longitudinal H profile steel and Lateral H profile steel closely connects, to form elevator skeleton.Welding or the directly side of being bolted are used compared with the existing technology Formula, when connection can precise positioning, directly transversal web 201 is fixedly connected with web mounting plate 302, wing plate mounting plate 301；Abdomen Plate mounting plate 302, wing plate mounting plate 301 are connect with 201 face of transversal web respectively, increase contact area, and connection structure is stablized, electricity Terraced skeleton is unlikely to deform；Coordinated by the first mounting hole 3011 and web through-hole cooperation, the second mounting hole 3021 and web through-hole, It can quickly position, installation period end is short；Corridor body setting is on vestibule chassis, and vestibule chassis is rectangular frame, and Undercarriage structure is steady Surely it is unlikely to deform, is connect by the connector of the prior art with elevator skeleton, support corridor body, supporting & stablizing, support reliability height.

Rectangular frame provides basis, support plate 402 and front side board 4011 and the back side panel of setback harden structure for Undercarriage structure 4012 upper ends are fixedly connected, and bottom plate 403 is arranged above setback plate, and vestibule is installed on bottom plate 403, vestibule suffered by bottom plate 403 Pressure transmission to support plate 402, the special Wave folded structure of support plate 402 has shearing resistance bending resistance, prevent support plate 402 by Power deforms upon bending, improves the integrated support intensity of chassis, in addition, setback harden structure can also prevent bottom plate 403 due to installation Insecure and relative support plate 402 is slided, the connection of corridor body is more reliable and more stable；The setting of bottom plate 403 provides larger Uniform force is distributed to support plate 402 by stress surface, and corridor body is avoided to act directly on the local pressure mistake on 402 surface of support plate Greatly, it is more than the load limitation of support plate 402, improves the bearing capacity of vestibule chassis, to improves elevator skeleton and gallery structure Overall stability.

There are one horizontal bearing faces for trapezoidal wave folded plate each up and down, improve support plate 402 and front side board 4011, back side panel 4012 and bottom plate 403 contact area, reduce 402 stress surface of support plate pressure, prevent local pressure excessive, damage support 402 structure of plate, support construction reliability are high.

Connector includes substrate 501, and substrate 501 is vertically equipped with L-shaped fixed plate；Fixed plate includes stringer board 5021 and transverse slat 5022, stringer board 5021 is equipped with stringer board through-hole 50211, stringer board 5021 and 404 bolt of connecting plate in connection 4041 corresponding position of through-hole Connection；5022 upper surface of transverse slat is fixedly connected with stringer board 5021；5022 lower surface of transverse slat is equipped with floor 503；Substrate 501 fixes peace Loaded on 201 outside of transversal web.

Substrate 501 is fixedly installed in 201 outside of transversal web, stringer board 5021 and 404 bolt of connecting plate of vertical substrate 501 Connection, connector, by L-shaped connecting plate 404, rectangular frame are fixed in a plane, and connection structure support is steady, even It connects reliable；Support board of the transverse slat 5022 as carrying bottom frame, stringer board 5021 reinforce transverse slat 5022 and the bonding strength of substrate 501 Meanwhile transverse slat 5022 also reinforces the bonding strength of stringer board 5021 and substrate 501.

Floor 503 is not susceptible to bend perpendicular to substrate 501 and vertically with transverse slat 5022 relative to other connection angles, Floor 503 and the anti-shearing force of substrate 501 are strong, and floor 503 is not susceptible to be broken with 501 junction of substrate；Meanwhile increasing floor The connection area of 503 connectors further increases the load-carrying ability of connector；Right angled triangle floor 503 provides stable three Angular support construction further improves the load-carrying ability of connector.

Mounting groove between two vestibule chassis engages left wallboard 601 and right wallboard 602, by left wallboard 601 and right wallboard 602 are individually fixed between two vestibule chassis i.e. realization installation, and installation is simple, and quick for installation, installation period is short.

Left plate 4013 is groove profile harden structure with right plate 4014, and front side board 4011 engages with 4012 upper and lower ends of back side panel In in notch, the displacement on vertical direction can not occur with respect to U-steel for front side board 4011, back side panel 4012, reinforce rectangular frame The ability of anti-deformation of vertical direction, to improve the stability of elevator skeleton and vestibule connection structure.

Embodiment 2

The present embodiment provides a kind of elevator skeleton and gallery structures, including：Elevator skeleton：Including longitudinal H profile steel and transverse direction H Shaped steel, longitudinal H profile steel include longitudinal web 101 and two blocks of longitudinal wing plates 102 being mutually parallel, and two blocks of longitudinal wing plates 102 pass through Longitudinal web 101 connects, and longitudinal web 101 is vertically installed between two blocks of longitudinal wing plates 102；Lateral H profile steel includes lateral abdomen Plate 201 and two blocks of lateral wing plates 202 being mutually parallel, two blocks of lateral wing plates 202 are connected by transversal web 201, transversal web 201 are vertically installed between two blocks of lateral wing plates 202, and transversal web 201 is equipped with web through-hole；Mounting plate：It is installed including wing plate Plate 301 and web mounting plate 302, wing plate mounting plate 301 and longitudinal 102 lateral surface vertical connection of wing plate, wing plate mounting plate 301 in Web through-hole corresponding position is equipped with the first mounting hole 3011, and wing plate mounting plate 301 is bolted with transversal web 201；Web is installed Plate 302 is correspondingly provided with the second mounting hole 3021, abdomen with 101 vertical connection of longitudinal web, web mounting plate 302 with web through hole Plate mounting plate 302 is bolted with transversal web 201；Vestibule chassis：Including rectangular frame, rectangular frame includes head and the tail phase successively It is linked to be right plate 4014, front side board 4011, left plate 4013 and the back side panel 4012 of rectangle；Corridor body：It is fixedly connected on rectangle frame Above frame；Connector：For connecting vestibule chassis and elevator skeleton；Vestibule chassis further includes support plate 402 and bottom plate 403, branch Fagging 402 is fixedly installed in 4012 upper end of front side board 4011 and back side panel, and support plate 402 is setback plate；Bottom plate 403 is set to support 402 top of plate；Support plate 402 is trapezoidal wave folded plate；Front side board 4011 and 4012 outside vertical of back side panel be equipped with for connect The connecting plate 404 of part connection, connecting plate 404 are equipped with connection through-hole 4041；Connector includes substrate 501, and substrate 501 is vertically equipped with L-shaped fixed plate；Fixed plate includes stringer board 5021 and transverse slat 5022, and stringer board 5021 is equipped with vertical in connection 4041 corresponding position of through-hole Plate through-hole 50211, stringer board 5021 are bolted with connecting plate 404；5022 upper surface of transverse slat is fixedly connected with stringer board 5021；Transverse slat 5022 lower surfaces are equipped with floor 503；Substrate 501 is fixedly installed in 201 outside of transversal web；Floor 503 is perpendicularly fixed at substrate 501, for floor 503 perpendicular to transverse slat 5022, floor 503 is right angle triangle.

Embodiment 3

The present embodiment provides a kind of elevator skeleton and gallery structures, including：Elevator skeleton：Including longitudinal H profile steel and transverse direction H Shaped steel, longitudinal H profile steel include longitudinal web 101 and two blocks of longitudinal wing plates 102 being mutually parallel, and two blocks of longitudinal wing plates 102 pass through Longitudinal web 101 connects, and longitudinal web 101 is vertically installed between two blocks of longitudinal wing plates 102；Lateral H profile steel includes lateral abdomen Plate 201 and two blocks of lateral wing plates 202 being mutually parallel, two blocks of lateral wing plates 202 are connected by transversal web 201, transversal web 201 are vertically installed between two blocks of lateral wing plates 202, and transversal web 201 is equipped with web through-hole；Mounting plate：It is installed including wing plate Plate 301 and web mounting plate 302, wing plate mounting plate 301 and longitudinal 102 lateral surface vertical connection of wing plate, wing plate mounting plate 301 in Web through-hole corresponding position is equipped with the first mounting hole 3011, and wing plate mounting plate 301 is bolted with transversal web 201；Web is installed Plate 302 is correspondingly provided with the second mounting hole 3021, abdomen with 101 vertical connection of longitudinal web, web mounting plate 302 with web through hole Plate mounting plate 302 is bolted with transversal web 201；Vestibule chassis：Including rectangular frame, rectangular frame includes head and the tail phase successively It is linked to be right plate 4014, front side board 4011, left plate 4013 and the back side panel 4012 of rectangle；Corridor body：It is fixedly connected on rectangle frame Above frame；Connector：For connecting vestibule chassis and elevator skeleton；Vestibule chassis further includes support plate 402 and bottom plate 403, branch Fagging 402 is fixedly installed in 4012 upper end of front side board 4011 and back side panel, and support plate 402 is setback plate；Bottom plate 403 is set to support 402 top of plate；Support plate 402 is trapezoidal wave folded plate；Front side board 4011 and 4012 outside vertical of back side panel be equipped with for connect The connecting plate 404 of part connection, connecting plate 404 are equipped with connection through-hole 4041；Connector includes substrate 501, and substrate 501 is vertically equipped with L-shaped fixed plate；Fixed plate includes stringer board 5021 and transverse slat 5022, and stringer board 5021 is equipped with vertical in connection 4041 corresponding position of through-hole Plate through-hole 50211, stringer board 5021 are bolted with connecting plate 404；5022 upper surface of transverse slat is fixedly connected with stringer board 5021；Transverse slat 5022 lower surfaces are equipped with floor 503；Substrate 501 is fixedly installed in 201 outside of transversal web.

Embodiment 4

The present embodiment provides a kind of elevator skeleton and gallery structures, including：Elevator skeleton：Including longitudinal H profile steel and transverse direction H Shaped steel, longitudinal H profile steel include longitudinal web 101 and two blocks of longitudinal wing plates 102 being mutually parallel, and two blocks of longitudinal wing plates 102 pass through Longitudinal web 101 connects, and longitudinal web 101 is vertically installed between two blocks of longitudinal wing plates 102；Lateral H profile steel includes lateral abdomen Plate 201 and two blocks of lateral wing plates 202 being mutually parallel, two blocks of lateral wing plates 202 are connected by transversal web 201, transversal web 201 are vertically installed between two blocks of lateral wing plates 202, and transversal web 201 is equipped with web through-hole；Mounting plate：It is installed including wing plate Plate 301 and web mounting plate 302, wing plate mounting plate 301 and longitudinal 102 lateral surface vertical connection of wing plate, wing plate mounting plate 301 in Web through-hole corresponding position is equipped with the first mounting hole 3011, and wing plate mounting plate 301 is bolted with transversal web 201；Web is installed Plate 302 is correspondingly provided with the second mounting hole 3021, abdomen with 101 vertical connection of longitudinal web, web mounting plate 302 with web through hole Plate mounting plate 302 is bolted with transversal web 201；Vestibule chassis：Including rectangular frame, rectangular frame includes head and the tail phase successively It is linked to be right plate 4014, front side board 4011, left plate 4013 and the back side panel 4012 of rectangle；Corridor body：It is fixedly connected on rectangle frame Above frame；Connector：For connecting vestibule chassis and elevator skeleton；Vestibule chassis further includes support plate 402 and bottom plate 403, branch Fagging 402 is fixedly installed in 4012 upper end of front side board 4011 and back side panel, and support plate 402 is setback plate；Bottom plate 403 is set to support 402 top of plate；Support plate 402 is trapezoidal wave folded plate.

Embodiment 5

The present embodiment provides the installation methods of elevator skeleton and gallery structure in a kind of embodiment 1：

S₁ ：Elevator skeleton is pre-assembled：By the transversal web 201 of lateral H profile steel respectively with the web that is set to longitudinal H profile steel Mounting plate 302, wing plate mounting plate 301 are bolted, and substrate 501 is fixedly installed in 201 lateral surface of transversal web；

S₂ ：Vestibule chassis is pre-assembled：It is sequentially connected right plate 4014, front side board 4011, left plate 4013 and back side panel 4012 form frame structure；Trapezoidal wave folded plate is fixedly installed in 4012 upper end of front side board 4011 and back side panel；Bottom plate 403 is fixed It is installed on trapezoidal wave folded plate upper end；

S₃ ：It will be set on the connecting plate 404 of front side board 4011 and 4012 lateral surface of back side panel and the stringer board for being set to substrate 501 5021 are bolted, connection elevator skeleton and vestibule chassis；

S₄：Corridor body is fixedly installed in vestibule chassis.

Using pre-assembled mode, in conjunction with the special connecting structure of elevator skeleton and gallery structure, when connection, can precisely determine Transversal web 201, is directly fixedly connected by position with web mounting plate 302, wing plate mounting plate 301；Web mounting plate 302, wing plate Mounting plate 301 is connect with 201 face of transversal web respectively, increases contact area, and connection structure is stablized, and elevator skeleton is unlikely to deform； By the first mounting hole 3011 and web through-hole cooperation, the second mounting hole 3021 and web through-hole cooperation, it can quickly position, install Period end is short；Corridor body setting is on vestibule chassis, and vestibule chassis is rectangular frame, and Undercarriage structure is that stabilization is unlikely to deform, with electricity Terraced skeleton is connected by the connector of the prior art, supports corridor body, supporting & stablizing, support reliability height.

Embodiment 6

The present embodiment provides the installation methods of elevator skeleton and gallery structure in a kind of embodiment 1：

S₁ ：Elevator skeleton is pre-assembled：By the transversal web 201 of lateral H profile steel respectively with the web that is set to longitudinal H profile steel Mounting plate 302, wing plate mounting plate 301 are bolted, and substrate 501 is fixedly installed in 201 lateral surface of transversal web；

S₂ ：Vestibule chassis is pre-assembled：It is sequentially connected right plate 4014, front side board 4011, left plate 4013 and back side panel 4012 form frame structure；Trapezoidal wave folded plate is fixedly installed in 4012 upper end of front side board 4011 and back side panel；Bottom plate 403 is fixed It is installed on trapezoidal wave folded plate upper end；

S₃ ：It will be set on the connecting plate 404 of front side board 4011 and 4012 lateral surface of back side panel and the stringer board for being set to substrate 501 5021 are bolted, connection elevator skeleton and vestibule chassis；

S₄：Corridor body is fixedly installed in vestibule chassis；

S₅：The multiple reinforcing plates of spaced set, reinforcing plate and front side board between left plate 4013 and back side panel 4012 4011 are mutually parallel, and reinforcing plate upper end is fixedly connected with 402 lower end of support plate.

By the way that reinforcing plate is arranged, prevents rectangular frame stress from deforming upon, enhance the stability of rectangular frame, to improve The stability of elevator skeleton and vestibule connection structure.

It is above the wherein specific implementation of the present invention, the description thereof is more specific and detailed, but can not therefore manage Solution is the limitation to the scope of the claims of the present invention.For those of ordinary skill in the art, present inventive concept is not being departed from Under the premise of, various modifications and improvements can be made, these obvious alternative forms all belong to the scope of protection of the present invention.

Claims (10)

1. a kind of elevator skeleton and gallery structure, which is characterized in that including：

Elevator skeleton：Including longitudinal H profile steel and lateral H profile steel, longitudinal H profile steel include longitudinal web and two pieces be mutually parallel it is vertical To wing plate, two blocks of longitudinal wing plates are connected by longitudinal web, and longitudinal web is vertically installed between two blocks of longitudinal wing plates；Lateral H Shaped steel includes transversal web and two blocks of lateral wing plates being mutually parallel, and two blocks of lateral wing plates are connected by transversal web, lateral abdomen Plate is vertically installed between two blocks of lateral wing plates, and transversal web is equipped with web through-hole；

Mounting plate：Including wing plate mounting plate and web mounting plate, wing plate mounting plate and longitudinal wing plate lateral surface vertical connection, wing plate Mounting plate is equipped with the first mounting hole in web through-hole corresponding position, and wing plate mounting plate is bolted with transversal web；Web mounting plate With longitudinal web vertical connection, web mounting plate is correspondingly provided with the second mounting hole, web mounting plate and transverse direction in web through hole Web is bolted；

Vestibule chassis：Including rectangular frame, rectangular frame includes join end to end successively rectangular right plate, front side board, left side Plate and back side panel；

Corridor body：It is fixedly connected on above rectangular frame；

Connector：For connecting vestibule chassis and elevator skeleton.

2. elevator skeleton and gallery structure according to claim 1, which is characterized in that vestibule chassis further includes support plate and bottom Plate, support plate are fixedly installed in front side board and back side panel upper end, and support plate is setback plate；Bottom plate is set to above support plate.

3. elevator skeleton and gallery structure according to claim 2, which is characterized in that support plate is trapezoidal wave folded plate.

4. elevator skeleton and gallery structure according to claim 3, which is characterized in that front side board and back side panel outside vertical are set It is useful for the connecting plate being connect with connector, connecting plate is equipped with connection through-hole.

5. elevator skeleton and gallery structure according to claim 4, which is characterized in that connector includes substrate, and substrate is vertical Equipped with L-shaped fixed plate；Fixed plate includes stringer board and transverse slat, and stringer board is equipped with stringer board through-hole, stringer board in connection through-hole corresponding position It is bolted with connecting plate；Transverse slat upper surface is fixedly connected with stringer board；Transverse slat lower surface is equipped with floor；Substrate is fixedly installed in cross To web outside.

6. elevator skeleton and gallery structure according to claim 5, which is characterized in that floor is perpendicularly fixed at substrate, floor Perpendicular to transverse slat, floor is right angle triangle.

7. elevator skeleton and gallery structure according to claim 1, which is characterized in that corridor body includes left wallboard and right wallboard, Left plate top and bottom, right plate top and bottom are respectively equipped with mounting groove, and left wallboard is sticked in installation respectively with right wallboard In slot.

8. elevator skeleton and gallery structure according to claim 7, which is characterized in that left plate and right plate are groove profile Steel；Left plate is opposite with the notch of right plate, and front side board is sticked in back side panel upper and lower ends in notch.

9. a kind of installation method of elevator skeleton and gallery structure described in claim 5, which is characterized in that including following step Suddenly：

S₁ ：Elevator skeleton is pre-assembled：By the transversal web of lateral H profile steel respectively be set to longitudinal H profile steel web mounting plate, Wing plate mounting plate is bolted, and substrate is fixedly installed in transversal web lateral surface；

S₂ ：Vestibule chassis is pre-assembled：It is sequentially connected right plate, front side board, left plate and back side panel and forms frame structure；It will be trapezoidal Setback plate is fixedly installed in front side board and back side panel upper end；Bottom plate is fixedly installed in trapezoidal wave folded plate upper end；

S₃ ：It will be bolted with the stringer board for being set to substrate set on the connecting plate of front side board and back side panel lateral surface, connect elevator Skeleton and vestibule chassis；

S₄：Corridor body is fixedly installed in vestibule chassis.

10. the installation method of elevator skeleton and gallery structure according to claim 9, which is characterized in that in left plate with after The multiple reinforcing plates of spaced set, reinforcing plate are mutually parallel with front side board between side plate, under reinforcing plate upper end and trapezoidal wave folded plate End is fixedly connected.