CN113898072A - Connecting structure of modular floor and corridor - Google Patents

Abstract

The utility model belongs to the technical field of building installation, and particularly relates to a connecting structure of a modular floor and a corridor. The utility model comprises a floor plate body and a supporting frame for paving a gallery plate, wherein an installation cantilever is arranged on the supporting frame, an installation cavity is arranged in the supporting frame, a detachable escape window is arranged in the installation cavity, a locking structure for fixedly connecting the supporting frame with other brackets is arranged on the installation cantilever, and the floor plate body is connected with the locking structure. According to the corridor, the corridor is paved by the support frame, the support frame is fixed with other parts by matching the installation cantilever and the locking structure, the support frame is provided with the escape window in a matching way, so that the corridor is reasonable in structure, economical and practical, and the detachable structure is adopted by matching with the floor plate body, so that the installation efficiency between the floor and the corridor is improved by connecting the floor plate body and the locking structure, the structure is stable, and the practicability is strong.

Description

Connecting structure of modular floor and corridor

Technical Field

The utility model belongs to the technical field of building installation, and relates to a connecting structure of a modular floor and a corridor.

Background

The light integrated house, the temporary house and the box house used in the market at present mainly adopt a one-layer and two-layer structure, and adopt standardized production in factories, and the main components thereof are as follows: the beam, the upright post, the wall panel unit, the roof beam, the door, the window and the related connecting fittings can be assembled on site. All need set up the corridor to two-layer structure and because of the one deck structure of ground unevenness, and the corridor that uses on the integrated house of light body in the market all is the independent structure, and is comparatively troublesome when being connected with the floor structure, and the installation effectiveness is lower, and structural strength and practicality are comparatively general.

For example, the chinese utility model discloses a modular unit combination house [ application number: 201020512705.9], be equipped with end fixing base, the bottom plate frame, the corner post, the top frame, the corridor balcony, roof triangular truss, the purlin, the roofing tile, the floor, the wall body curb plate, the smallpox roof, set up the floor above the chassis, connect end fixing base below the floor frame, the wall body keeps warm the curb plate, the smallpox curb plate, the corner post sets up and is connected constitution overall frame with roof truss and chassis respectively in the house four corners, by including the purlin on the roof triangular truss, the roof that the roofing tile constitutes passes through the top frame roof beam setting at the smallpox roof, be equipped with the window on the wall body heated board, there is the installation door between the frame, can set up corridor and balcony. The utility model has simple structure, quick assembly and disassembly and convenient transportation. Easy expansion and combination into any number of rooms, good heat insulation performance, strong wind resistance, and can be adapted to different areas and meet the requirements of office work, residence and the like on houses. But this scheme does not possess supporting corridor structure in the use, still is comparatively troublesome when being connected with floor structure, has the defect that installation effectiveness is lower, structural strength and practicality are comparatively general.

Disclosure of Invention

The utility model aims to solve the problems and provides a connecting structure of a modular floor and a corridor, which is reasonable in structure, economical and practical.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a connection structure in modularization floor and corridor, includes the floor plate body and is used for laying the braced frame in corridor board, braced frame on be provided with the installation cantilever, braced frame in be provided with the installation cavity, the installation cavity in be provided with dismantled and assembled window of fleing, be equipped with the locking structure that is used for braced frame to link firmly mutually with other supports on the installation cantilever, the floor plate body links to each other with locking structure, the floor plate body offsets the cooperation near locking structure one end with braced frame.

In the connecting structure of the modular floor and the corridor, the locking structure comprises a mounting part and a connecting bracket, wherein the mounting part is arranged on the mounting cantilever;

the linking bridge include backup pad and bottom suspension fagging, last backup pad pass through the curb plate with the bottom suspension fagging and support to be connected, go up and be formed with the inner chamber between backup pad, bottom suspension fagging and the curb plate.

In the above connecting structure of the modular floor and the corridor, the connecting plate comprises a plate body, the upper end of the plate body is provided with an upper connecting part which penetrates out of the upper supporting plate, the lower end of the plate body is provided with a lower connecting part which penetrates out of the lower supporting plate, and the plate body, the upper connecting part and the lower connecting part are all provided with connecting structures;

each connecting structure comprises a plurality of connecting holes, and the connecting holes are uniformly distributed on the corresponding plate body or the upper connecting part or the lower connecting part.

In the connecting structure of the modular floor and the corridor, the mounting part comprises a mounting plate which is parallel to the plate body, the mounting plate is provided with clamping grooves for clamping an upper supporting plate and a lower supporting plate respectively, the mounting plate is provided with mounting holes which are matched with the connecting holes in a one-to-one correspondence manner, and the mounting holes are fixed through bolts after being butted with the connecting holes;

the side plates are distributed on the surfaces of two sides of the upper supporting plate, transverse side grooves for accommodating other transverse supports are formed between the outer ends of the side plates and the lower supporting plate, and axial slots for inserting and fixing other vertical supports are formed in the upper supporting plate and the lower supporting plate;

at least one switching component is arranged between the escape window and the support frame, one end of each switching component is connected to the support frame, the other end of each switching component is connected to the escape window, and the support frame is provided with a limiting bulge used for abutting against the bottom of the escape window.

In the connecting structure of the modular floor and the corridor, each switching component comprises a first hinge and a second hinge, the first hinge and the second hinge are connected through a pin shaft, the first hinge is connected to the escape window, and the second hinge is connected to the supporting frame;

the first hinge is arranged on the upper surface of the escape window, the second hinge is arranged on the supporting frame corresponding to the inner surface of the installation cavity, and the escape window can be turned upwards relative to the supporting frame.

The connecting structure of the modular floor and the corridor further comprises an outer floor frame, wherein the outer floor frame comprises at least one mounting cavity, the floor plates are mounted in the mounting cavity, and the floor plates and the mounting cavity are arranged in a one-to-one correspondence manner;

the number of the installation cavities is multiple, a reinforcing beam is arranged between every two adjacent installation cavities, and two ends of each reinforcing beam are fixedly connected with the outer frame of the floor;

the outer frame of the floor is also connected with a wiring assembly, and the circuit is positioned in the wiring assembly.

In the connecting structure of the modular floor and the corridor, the wiring assembly comprises a wire passing groove which is positioned on the surface of one side of the outer floor frame, which is close to the installation cavity, and is sunken towards the interior of the outer floor frame, the wire passing groove is communicated with the installation cavity, and wire passing holes communicated with the installation cavity are arranged on the outer floor frame and the reinforcing beam;

the wire passing holes are provided with a plurality of wires and are sequentially arranged along the length direction of the outer frame or the reinforcing beam of the floor, and the centers of the wire passing holes are on the same straight line.

In the connecting structure of the modular floor and the corridor, the wiring assembly further comprises a reinforcing folded plate arranged in the wire passing groove, the reinforcing folded plate comprises two reinforcing plates which are perpendicular to each other, and the two reinforcing plates are respectively attached to the adjacent two side surfaces of the wire passing groove;

the installation cavity is internally provided with a strength reinforcing plate for enhancing the pressure bearing capacity of the floor, the strength reinforcing plate is positioned below the floor plate body, and the upper end of the strength reinforcing plate is attached to the lower surface of the floor plate body;

the strength reinforcing plate comprises a plate main body, wherein at least one reinforcing rib protruding out of the surface of the plate main body is arranged on the plate main body, a supporting surface parallel to the floor plate body is arranged at the upper end of the reinforcing rib, and the floor plate body is pressed on the supporting surface;

the reinforcing convex arris is equipped with and is parallel to each other between two arbitrary, and reinforcing convex arris lower surface is equipped with to reinforcing convex arris inside sunken heavy recess that subtracts.

In foretell connection structure of modularization floor and corridor, still including setting up the drain pipe in the installation cavity, drain pipe one end link up the floor plate body and is linked together with floor plate body upper surface, the side surface of other end outer frame of floor and with external intercommunication.

In the connection structure of foretell modularization floor and corridor, the outer frame in floor inserts in horizontal side groove and the outer frame in floor and curb plate looks butt cooperation, the cooperation is met to outer frame lateral surface in floor and braced frame medial surface, horizontal side groove is half-open right angle form, the outer frame in floor matches with the shape in horizontal side groove and suits.

Compared with the prior art, the utility model has the advantages that:

1. the corridor is integrally paved by the supporting frame, the supporting frame is fixed with other parts by the aid of the matching of the installation cantilever and the locking structure, the supporting frame is provided with the escape window in a matching mode, so that the corridor is reasonable in structure, economical and practical, the detachable structure is adopted by the aid of the matching of the installation cantilever and the locking structure, installation efficiency between the floor and the corridor is improved by the aid of the connection between the floor plate body and the locking structure, and the corridor is stable in structure and high in practicability.

2. According to the utility model, the mounting cantilever penetrates into the inner cavity through the mounting part and is fixedly connected with the connecting plate after penetrating into the inner cavity, so that the connection strength is ensured and the two parts can be conveniently and quickly disassembled and assembled.

3. According to the utility model, the supporting frame is provided with the mounting cavity, the openable escape window is arranged in the mounting cavity, and the escape window can be used for quickly transferring a higher floor to a lower floor, so that the safety of a house is improved.

4. The floor structure in the utility model takes the outer floor frame and the floor plate body as different modules respectively, and the floor plate body is installed in the installation cavity of the outer floor frame during installation, namely, a modularized installation structure is adopted, so that the whole transportation is not needed, and meanwhile, the floor structure is convenient to disassemble and assemble and is convenient to install.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic connection diagram of the locking structure of the present invention.

Fig. 3 is a schematic view of the connection structure of the connection bracket and the mounting plate in the present invention.

Fig. 4 is a schematic view of the structure of the connecting bracket of the present invention.

Fig. 5 is a schematic view of the structure of the mounting plate of the present invention.

Fig. 6 is a schematic structural view of a support frame according to the present invention.

Fig. 7 is a schematic view illustrating a connection structure of an escape window according to the present invention.

Fig. 8 is a schematic view of the structure of the floor panel body.

Fig. 9 is an exploded view in the direction of fig. 8.

In the figure, 200, connecting bracket; 201. mounting a cantilever; 202. an inner cavity; 203. a connecting plate; 204. an installation part; 205. an upper support plate; 206. a lower support plate; 207. a side plate; 208. a lower connecting portion; 209. an upper connecting portion; 210. a plate body; 211. a connecting structure; 212. connecting holes; 213. mounting a plate; 214. a card slot; 215. mounting holes; 216. a lateral side groove; 217. an axial slot; 250. a locking structure; 251. a support frame; 252. a mounting cavity; 253. an escape window; 254. a changeover member; 255. a first hinge; 256. a second hinge; 257. a limiting bulge; the floor panel body 420, the floor outer frame 421, the mounting cavity 422, the reinforcing beams 423, the wiring assemblies 424, the wires 425, the wire passing grooves 426, the wire passing holes 427, the reinforcing flaps 428, the strength reinforcing plates 429, the panel body 430, the reinforcing ribs 431, the supporting surfaces 432, the weight reducing grooves 433 and the drainage pipes 434.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

As shown in fig. 1 to 9, a connecting structure of a modular floor and a corridor comprises a floor body 420 and a supporting frame 251 for laying the corridor plate, wherein the supporting frame 251 is provided with a mounting cantilever 201, the supporting frame 251 is provided with a mounting cavity 252, the mounting cavity 252 is provided with a detachable escape window 253, the mounting cantilever 201 is provided with a locking structure 250 for fixedly connecting the supporting frame 251 with other brackets, the floor body 420 is connected with the locking structure 250, and one end of the floor body 420, which is close to the locking structure 250, of the supporting frame 251 is abutted and matched.

In the embodiment, the corridor is paved by the support frame 251 as a whole, the support frame 251 is fixed with other parts by the matching of the installation cantilever 201 and the locking structure 250, and the escape window 253 is arranged on the support frame 251 in a matching way, so that the corridor is reasonable in structure, economical and practical; and the cooperation floor plate body 420 adopts dismantled and assembled structure, through being connected between floor plate body 420 and the locking structure 250, has improved the installation effectiveness between floor and the corridor, stable in structure, and the practicality is stronger.

Specifically, the locking structure 250 includes a mounting portion 204 disposed on the mounting arm 201 and a connecting bracket 200, the connecting bracket 200 is provided with a connecting plate 203, and the mounting portion 204 is detachably connected to the connecting plate 203.

The connecting bracket 200 includes an upper supporting plate 205 and a lower supporting plate 206, the upper supporting plate 205 and the lower supporting plate 206 are supported and connected by a side plate 207, and an inner cavity 202 is formed between the upper supporting plate 205, the lower supporting plate 206 and the side plate 207.

Connecting bracket 200 is used for the connection of each crossbeam and axle beam, and is used for installing the fixed of cantilever 201 after crossbeam, axle beam installation, and installation cantilever 201 penetrates to inner chamber 202 and links firmly with connecting plate 203 after penetrating to inner chamber 202 through its installation department 204 that has, makes things convenient for the quick assembly disassembly of two parts when guaranteeing joint strength.

The connecting plate 203 comprises a plate body 210, the plate body 210 is arranged between an upper support and a lower support plate 206 and plays a role of supporting similar to the side plate 207, an upper connecting part 209 penetrating out of the upper support plate 205 is arranged at the upper end of the plate body 210, a lower connecting part 208 penetrating out of the lower support plate 206 is arranged at the lower end of the plate body 210, connecting structures 211 are arranged on the plate body 210, the upper connecting part 209 and the lower connecting part 208, and the installation cantilever 201 is fixedly connected with the connecting support 200 through the connecting structures 211 on each part.

In order to facilitate the installation of the installation cantilever 201 and the connection plate 203, the plate body 210, the upper connection portion 209 and the lower connection portion 208 are located on the same straight line, and all the three are arranged parallel to the side plate 207, i.e. the whole connection plate 203 is arranged perpendicular to the upper support plate 205 and the lower support plate 206.

In this embodiment, in order to achieve quick assembly and disassembly, each connecting structure 211 includes a plurality of connecting holes 212, and the plurality of connecting holes 212 are uniformly distributed on the corresponding plate body 210 or the upper connecting portion 209 or the lower connecting portion 208.

Specifically, the mounting portion 204 includes a mounting plate 213 parallel to the plate body 210, a slot 214 is formed in the mounting plate 213 for the upper support plate 205 and the lower support plate 206 to be clamped in, mounting holes 215 are formed in the mounting plate 213 and are in one-to-one corresponding fit with the connecting holes 212, and the mounting holes 215 are fixed by bolts after being abutted to the connecting holes 212.

When the installation portion 204 is butted with the connecting bracket 200, the edges of an upper supporting plate 205 and a lower supporting plate 206 of the connecting bracket 200 are clamped into the two clamping grooves 214 on the installation portion 204, the part between the two clamping grooves 214 of the installation portion 204 enters the inner cavity 202, the part, located on the upper side of the clamping groove 214, of the installation portion 204 is attached to the side surface of the upper connecting portion 209, the part, located on the lower side of the clamping groove 214, of the installation portion 204 is attached to the side surface of the lower connecting portion 208, and after the installation hole 215 is butted with the connecting hole 212, the fixing is achieved through bolts.

The side plates 207 are distributed on the surfaces of two sides of the upper supporting plate 205, transverse side grooves 216 for accommodating other transverse supports are formed between the outer ends of the side plates 207 and the lower supporting plate 206, and axial slots 217 for inserting and fixing other vertical supports are formed in the upper supporting plate 205 and the lower supporting plate 206. The function of conveniently connecting the bracket 200 with each vertical bracket and each transverse bracket is achieved.

At least one adapting member 254 is arranged between the escape window 253 and the supporting frame 251, one end of each adapting member 254 is connected to the supporting frame 251, the other end of each adapting member 254 is connected to the escape window 253, and the supporting frame 251 is provided with a limiting protrusion 257 for abutting against the bottom of the escape window 253. Specifically, each of the adaptor members 254 includes a first hinge 255 and a second hinge 256, the first hinge 255 and the second hinge 256 are connected by a pin, the first hinge 255 is connected to the escape window 253, and the second hinge 256 is connected to the support frame 251.

Specifically, the first hinge 255 is disposed on an upper surface of the escape window 253, the second hinge 256 is disposed on the support frame 251 corresponding to an inner surface of the installation cavity 252, and the escape window 253 can be flipped upward relative to the support frame 251.

The first hinge 255 and the second hinge 256 may be adjusted in position according to actual conditions, and the whole hinge may be accommodated in the escape window 253 or the support frame 251 during the installation of the hinge, so that the hinge does not protrude from the ground when the escape window 253 is installed, thereby preventing stumbling. Regardless of the method of installation, the escape window 253 is turned upward relative to the support frame 251 to be opened. In this embodiment, the cross-sectional area of the escape window 253 is smaller than the area of the installation cavity 252, so as to facilitate the opening of the escape window 253, the escape window 253 is in clearance fit with the inner wall of the installation cavity 252, meanwhile, a limiting protrusion for abutting against the bottom of the escape window 253 is arranged in the installation cavity 252, and when the escape window 253 is accommodated in the installation cavity 252, the supporting strength of the escape window 253 is improved through the limiting protrusion 257.

As shown in fig. 8 to 9, the floor frame 421 further includes at least one mounting cavity 422, the floor plate 420 is mounted in the mounting cavity 422, and the floor plate 420 and the mounting cavity 422 are disposed in a one-to-one correspondence. A plurality of mounting cavities 422 may be disposed in each floor outer frame 421, for example, two mounting cavities 422 may be disposed, a reinforcing beam 423 is disposed between two adjacent mounting cavities 422, and both ends of the reinforcing beam 423 are fixedly connected to the floor outer frame 421.

When the floor is used, the floor outer frame 421, the floor plate body 420 and other structures can be detached and transported in the transportation process, and when the floor plate body 420 is installed, the floor plate body 420 is installed in the installation cavity 422 of the floor outer frame 421 as a module. Therefore, the floor structure of the utility model takes the floor outer frame 421 and the floor plate 420 as different modules respectively, and the floor plate 420 is installed in the installation cavity 422 of the floor outer frame 420 during installation, namely, the floor structure adopts a modularized installation structure, thereby being free from integral transportation, convenient to disassemble and assemble and convenient to install.

As shown in fig. 9, the floor outer frame 421 further has a wiring assembly 424 connected thereto, and the wires 425 are located in the wiring assembly 424. This facilitates the placement of associated wiring 425 within the building.

Specifically, the wire assembly 424 includes a wire passing groove 426 that is located on a side surface of the floor outer frame 421 near the installation cavity 422 and is recessed toward the floor outer frame 421, the wire passing groove 426 is communicated with the installation cavity 422, and the floor outer frame 421 and the reinforcing beam 423 are both provided with a wire passing hole 427 that is communicated with the installation cavity 422. The wires 425 extend in the floor outer frame 421 through the wire passing grooves 426 and extend between different floor outer frames 421 through the wire passing holes 427, so that the specification of the extending paths of the wires 425 is ensured.

Preferably, the plurality of wire passing holes 427 are sequentially arranged along the length direction of the outer frame 421 or the reinforcing beam 423 of the floor, the centers of the wire passing holes 427 are on the same straight line, and different wire passing holes 427 can be selected for the wire outlet positions of the wires 425 according to requirements.

As shown in fig. 9, the trace assembly 424 further includes a reinforcing flap 428 disposed in the wire passing groove 426, wherein the reinforcing flap 428 includes two reinforcing plates perpendicular to each other, and the two reinforcing plates respectively abut against two adjacent side surfaces of the wire passing groove 426. The reinforcement flaps 428 may be used to increase the compressive and bending strength of the sides of the floor outer frame 421.

As shown in fig. 9, a strength reinforcing plate 429 for enhancing the pressure bearing capacity of the floor is further disposed in the installation cavity 422, the strength reinforcing plate 429 is located below the floor plate body 420, and the upper end of the strength reinforcing plate 429 is attached to the lower surface of the floor plate body 420.

In order to reduce the overall weight of the floor, after the floor board body 420 is installed in the installation cavity 422, there is still a large gap in the installation cavity 422, which results in that the overall strength of the floor board is to be strengthened. Therefore, the present invention provides a strength-reinforcing plate 429 under the floor panel body 420 to enhance the supporting strength of the floor panel as a whole.

Specifically, the strength reinforcing plate 429 includes a plate body 430, the plate body 430 has at least one reinforcing rib 431 protruding from the surface of the plate body 430, the upper end of the reinforcing rib 431 has a supporting surface 432 parallel to the floor panel 420, and the floor panel 420 is pressed on the supporting surface 432. The strength reinforcing plate 429 is designed to have an uneven structure, which prevents stress concentration.

Preferably, the reinforcing convex ridges 431 are provided with a plurality of and any two of the reinforcing convex ridges 431 are parallel to each other, and the lower surfaces of the reinforcing convex ridges 431 are provided with weight reduction grooves 433 which are recessed towards the insides of the reinforcing convex ridges 431. The parallel arrangement of the reinforcing ribs 431 ensures that the supporting forces are parallel to each other, so that a greater resultant force is formed, and the arrangement of the weight reduction grooves 433 can further reduce the overall weight.

As shown in fig. 8 and 9, the water draining pipe 434 is disposed in the installation cavity 422, and one end of the water draining pipe 434 penetrates through the floor panel 420 and is communicated with the upper surface of the floor panel 420, and the other end thereof is communicated with the outside through the side surface of the floor outer frame 421. Water on the upper surface of the floor plate 420 can be drained through the drain pipe 434 to prevent water from being accumulated on the upper surface of the floor plate 420.

With reference to fig. 1 to 9, the floor outer frame 421 is inserted into the transverse side groove 216, the floor outer frame 421 is in abutting fit with the side plate 207, the outer side surface of the floor outer frame 421 is in abutting fit with the inner side surface of the supporting frame 251, the transverse side groove 216 is in a half-open right-angle shape, and the floor outer frame 421 is in fit with the transverse side groove 216.

In this embodiment, when the floor outer frame 421 is fixedly connected to the mounting portion 204, the floor outer frame 421 is only inserted into the transverse side groove 216, and the floor outer frame 421 is in contact with and engaged with the side plate 207, so as to complete the alignment connection, the transverse side groove 216 is in a half-open right-angle shape, the floor outer frame 421 is in fit with the transverse side groove 216 in shape, and the connection precision is high.

The working principle of the utility model is as follows:

regarding the installation of the locking structure 250: connecting bracket 200 is used for the connection of each crossbeam and axle beam, and is used for installing the fixed of cantilever 201 after crossbeam, axle beam installation, and installation cantilever 201 penetrates to inner chamber 202 and links firmly with connecting plate 203 after penetrating to inner chamber 202 through its installation department 204 that has, makes things convenient for the quick assembly disassembly of two parts when guaranteeing joint strength.

Specifically, when the mounting portion 204 is butted with the connecting bracket 200, the two clamping grooves 214 on the mounting portion 204 are used for clamping the edges of the upper supporting plate 205 and the lower supporting plate 206 of the connecting bracket 200, the part between the two clamping grooves 214 of the mounting portion 204 can enter the inner cavity 202, the part of the mounting portion 204 located on the upper side of the clamping groove 214 is attached to the side surface of the upper connecting portion 209, the part of the mounting portion 204 located on the lower side of the clamping groove 214 is attached to the side surface of the lower connecting portion 208, and after the mounting hole 215 is butted with the connecting hole 212, the fixing is realized through a bolt.

Regarding the specific structure of the escape window 253: braced frame 251 is used for the installation of corridor upper corridor board, and simultaneously, has seted up installation cavity 252 on braced frame 251, is provided with the escape window 253 that can open in the installation cavity 252, shifts to lower floor through the higher floor that escape window 253 can be quick, promotes the security in house.

Specifically, the support frame 251 and the escape window 253 are connected by hinges, the first hinge 255 and the second hinge 256 can adjust the positions according to actual conditions, the first hinge 255 is disposed on the upper surface of the escape window 253, the second hinge 256 is disposed on the support frame 251 corresponding to the inner surface of the installation cavity 252 or the first hinge 255 is disposed on the upper surface of the escape window 253, and in the installation process of the hinges, the whole hinge can be accommodated in the escape window 253 or the support frame 251, so that when the escape window 253 is installed, the hinge does not protrude from the ground, and tripping is prevented. Regardless of the method of installation, the escape window 253 is turned upward relative to the support frame 251 to be opened.

The specific embodiments described herein are merely illustrative of the spirit of the utility model. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the utility model as defined in the appended claims.

Although the connecting bracket 200, the mounting bracket 201, the inner cavity 202, the connecting plate 203, the mounting portion 204, the upper support plate 205, the lower support plate 206, the side plate 207, the lower connecting portion 208, the upper connecting portion 209, the plate body 210, the connecting structure 211, the connecting hole 212, the mounting plate 213, the catching groove 214, the mounting hole 215, the lateral side groove 216, the axial catching groove 217, the locking structure 250, the support frame 251, the mounting cavity 252, the escape window 253, the adapter member 254, the first hinge 255, the second hinge 256, and the restraining protrusion 257 are used more frequently herein; floor panel 420, floor outer frame 421, mounting cavity 422, reinforcing beams 423, wiring assemblies 424, wiring 425, wiring grooves 426, wiring holes 427, reinforcing flaps 428, strength reinforcing plates 429, panel body 430, reinforcing ribs 431, support surfaces 432, lightening grooves 433, drains 434, etc., but does not preclude the use of other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention and they are to be interpreted as any additional limitation which is not in accordance with the spirit of the present invention.

Claims (10)

1. The utility model provides a connection structure of modularization floor and corridor, includes floor plate body (420) and is used for laying the braced frame (251) of corridor board, its characterized in that, braced frame (251) on be provided with installation cantilever (201), braced frame (251) in be provided with installation cavity (252), installation cavity (252) in be provided with dismantled and assembled window (253) of fleing, be equipped with on installation cantilever (201) and be used for braced frame (251) to link firmly locking structure (250) with other supports mutually, floor plate body (420) link to each other with locking structure (250), floor plate body (420) and braced frame (251) are close to the counterbalance cooperation of locking structure (250) one end.

2. The modular floor and corridor connection structure according to claim 1, wherein the locking structure (250) includes a mounting portion (204) provided on the mounting cantilever (201) and a connecting bracket (200), the connecting bracket (200) is provided with a connecting plate (203), the mounting portion (204) is detachably connected to the connecting plate (203);

connecting bracket (200) including last backup pad (205) and bottom suspension fagging (206), last backup pad (205) with bottom suspension fagging (206) support through curb plate (207) and be connected, go up backup pad (205), bottom suspension fagging (206) and curb plate (207) between be formed with inner chamber (202).

3. The connecting structure of the modular floor and the corridor as claimed in claim 2, wherein the connecting plate (203) comprises a plate body (210), the upper end of the plate body (210) is provided with an upper connecting part (209) penetrating out of the upper supporting plate (205), the lower end of the plate body (210) is provided with a lower connecting part (208) penetrating out of the lower supporting plate, and the plate body (210), the upper connecting part (209) and the lower connecting part (208) are all provided with a connecting structure (211);

each connecting structure (211) comprises a plurality of connecting holes (212), and the connecting holes (212) are uniformly distributed on the corresponding plate body (210) or the upper connecting part (209) or the lower connecting part (208).

4. The connecting structure of the modular floor and the corridor as claimed in claim 3, wherein the mounting portion (204) comprises a mounting plate (213) parallel to the plate body (210), the mounting plate (213) is provided with a slot (214) for the upper support plate (205) and the lower support plate (206) to be clamped in, the mounting plate (213) is provided with mounting holes (215) correspondingly matched with the connecting holes (212) one by one, and the mounting holes (215) are fixed by bolts after being butted with the connecting holes (212);

the side plates (207) are distributed on the surfaces of two sides of the upper supporting plate (205), transverse side grooves (216) for accommodating other transverse supports are formed between the outer ends of the side plates (207) and the lower supporting plate (206), and axial slots (217) for inserting and fixing other vertical supports are formed in the upper supporting plate (205) and the lower supporting plate (206);

at least one switching component (254) is arranged between the escape window (253) and the supporting frame (251), one end of each switching component (254) is connected to the supporting frame (251), the other end of each switching component (254) is connected to the escape window (253), and the supporting frame (251) is provided with a limiting protrusion (257) for abutting against the bottom of the escape window (253).

5. The modular floor and corridor connection structure according to claim 4, wherein each of the transition members (254) includes a first hinge (255) and a second hinge (256), the first hinge (255) and the second hinge (256) are connected by a pin, the first hinge (255) is connected to the escape window (253), and the second hinge (256) is connected to the support frame (251);

the first hinge (255) is arranged on the upper surface of the escape window (253), the second hinge (256) is arranged on the supporting frame (251) corresponding to the inner surface of the installation cavity (252), and the escape window (253) can be turned upwards relative to the supporting frame (251).

6. The modular floor to corridor connection according to claim 5, further comprising a floor outer frame (421), wherein the floor outer frame (421) comprises at least one installation cavity (422), the floor plates (420) are installed in the installation cavity (422) and the floor plates (420) are arranged in one-to-one correspondence with the installation cavity (422);

a plurality of mounting cavities (422) are arranged, a reinforcing beam (423) is arranged between every two adjacent mounting cavities (422), and two ends of each reinforcing beam (423) are fixedly connected with an outer frame (421) of the floor;

the outer frame (421) of the floor is also connected with a wiring assembly (424), and the circuit (425) is positioned in the wiring assembly (424).

7. The connecting structure of the modular floor and the corridor as claimed in claim 6, wherein the routing assembly (424) comprises a wire passing groove (426) which is located on one side surface of the outer floor frame (421) close to the installation cavity (422) and is recessed towards the inside of the outer floor frame (421), the wire passing groove (426) is communicated with the installation cavity (422), and wire passing holes (427) communicated with the installation cavity (422) are respectively arranged on the outer floor frame (421) and the reinforcing beams (423);

the plurality of wire passing holes (427) are sequentially arranged along the length direction of the outer frame (421) or the reinforcing beam (423) of the floor, and the centers of the wire passing holes (427) are on the same straight line.

8. The modular floor to corridor connection according to claim 7, wherein the trace assembly (424) further comprises a reinforcement flap (428) disposed within the wire passing groove (426), the reinforcement flap (428) comprising two mutually perpendicular reinforcement plates, the two reinforcement plates respectively abutting adjacent side surfaces of the wire passing groove (426);

a strength reinforcing plate (429) for enhancing the pressure bearing capacity of the floor is further arranged in the mounting cavity (422), the strength reinforcing plate (429) is positioned below the floor body (420), and the upper end of the strength reinforcing plate (429) is attached to the lower surface of the floor body (420);

the strength reinforcing plate (429) comprises a plate main body (430), wherein at least one reinforcing convex rib (431) protruding out of the surface of the plate main body (430) is arranged on the plate main body (430), the upper end of the reinforcing convex rib (431) is provided with a supporting surface (432) parallel to the floor body (420), and the floor body (420) is pressed on the supporting surface (432);

strengthen bead (431) and be equipped with a plurality of and be parallel to each other between arbitrary two, strengthen bead (431) lower surface and be equipped with to strengthen bead (431) inside sunken heavy recess (433) that subtracts.

9. The modular floor and corridor connection structure according to claim 6, further comprising a drain pipe (434) disposed in the installation cavity (422), wherein one end of the drain pipe (434) penetrates the floor plate body (420) and communicates with an upper surface of the floor plate body (420), and the other end of the drain pipe communicates with a side surface of the outer floor frame (421) and communicates with the outside.

10. The modular floor to corridor connection according to claim 6, wherein the floor outer frame (421) is inserted into the lateral side groove (216) and the floor outer frame (421) is in abutting engagement with the side plate (207), the outer side of the floor outer frame (421) is in abutting engagement with the inner side of the support frame (251), the lateral side groove (216) is in a half-open right angle shape, and the floor outer frame (421) is matched with the lateral side groove (216) in shape.

Images