CN113846807A - Roof of waterproof fast-assembling board house for building - Google Patents

Abstract

The invention relates to the field of water prevention of movable houses, in particular to a roof of a waterproof quick-mounting board house for buildings, which comprises a roof board, four top plate water leaking ports are arranged on the upper end face of the roof plate in a rectangular array, water passing bulges in the horizontal direction are respectively arranged on two sides of the lower end face of the roof plate, each top plate water leaking port respectively penetrates through the water passing bulges, a bottom plate is arranged below the roof plates, a connecting rotating shaft is arranged between the two roof plates, the two sides of the connecting rotating shaft are respectively provided with an arc track plate, a rotating shaft baffle plate is arranged between the two arc track plates, the purpose of the arrangement is to facilitate the roof connection of the board house, can rotate the formation angle and become sharp top room after connecting to there is precipitation etc. to fall on roof surface after can be discharged ponding from both sides when the outside, the portion of not discharging then can be used to indoor cooling under the high temperature weather.

Description

Roof of waterproof fast-assembling board house for building

Technical Field

The invention belongs to the field of water prevention of movable houses, and particularly relates to a roof of a waterproof quick-mounting board house for a building.

Background

The board house is widely used as a large temporary living facility on a construction site because of its advantages of convenient assembly, low cost, convenient transportation, etc., but the board house often has the following disadvantages:

firstly, the board house is usually made of metal so as to be light and convenient, but meanwhile, because a plurality of boards are connected, water leakage can be caused if the connection parts are not well treated;

secondly, the metal plate house is easy to heat up to cause heatstroke for indoor personnel in high-temperature weather such as summer and under the insolation of the sun;

consequently this scheme has designed one kind and can be when the installation inside press from both sides dress waterproofing membrane to thereby the junction seals and reaches water-proof effects, discharges the in-process at unnecessary moisture and holds back partly water and store in the roof, and the water that can utilize to store when solar insolate or temperature is too high leads to the roof to heat up cools down, and the roof of waterproof fast-assembling board house for building of easy to assemble is in order to solve above-mentioned problem.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a roof of a waterproof quick-mounting board house for buildings, which can clamp a waterproof coiled material inside during installation, can seal the joint to achieve a waterproof effect, can intercept a part of water body to be stored in the roof during the discharge of redundant moisture, can utilize the stored water body to cool when the roof is heated due to sun exposure or over-high temperature, and is convenient to install.

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

the roof of the waterproof fast-assembly board house for the building comprises roof plates, wherein four roof water leaking openings are formed in a rectangular array on the upper end face of each roof plate, water passing protrusions in the horizontal direction are arranged on two sides of the lower end face of each roof plate respectively, each roof water leaking opening penetrates through the water passing protrusions respectively, a roof bottom plate is arranged below each roof plate, a connecting rotating shaft is arranged between the two roof plates, arc track plates are arranged on two sides of the connecting rotating shaft respectively, and a rotating shaft baffle is arranged between the two arc track plates.

Preferably, two sides of the upper end surface of the house bottom plate are respectively provided with an arc-shaped groove and correspond to the water passing protrusions above the house bottom plate, the upper end surface of the house bottom plate and two sides of the lower end surface of the house bottom plate are respectively provided with a containing groove outside the grooves, a connecting shaft rotating shaft is respectively and rotatably arranged in each containing groove, an upper plate connecting shaft sleeve and a lower plate connecting shaft sleeve are respectively sleeved outside each connecting shaft rotating shaft, a connecting shaft spring is respectively arranged in each upper plate connecting shaft sleeve and each lower plate connecting shaft sleeve, and a slidable upper plate connecting shaft and a slidable lower plate connecting shaft are connected between the upper plate connecting shaft sleeve and the lower plate connecting shaft sleeve which correspond to each other.

Preferably, each roof drainage port is arranged above the water passing protrusion and penetrates through the water passing protrusion, a water passing channel is formed between a group of two roof drainage ports in the same direction along the water passing protrusion in each roof plate and is connected with each other, a middle water storage cavity is formed between the two roof drainage ports, a roof seat is arranged on the lower end face of the middle water storage cavity, three grooves are formed in the roof seat in the horizontal direction, an expandable roof expansion column is arranged in each groove, and a roof is fixedly connected to the upper end faces of the three roof expansion columns.

Preferably, an outer water storage cavity is formed in one end, far away from the connecting rotating shaft, of each roof plate outside the roof plate water leakage port, a supporting base is fixedly arranged on one side wall, far away from the roof plate water leakage port, of each outer water storage cavity, an expandable expansion column is arranged in the middle of each supporting base, and a push plate is fixedly connected to one end, close to the roof plate water leakage port, of each expansion column in the vertical direction.

Preferably, a water discharging plate is arranged outside one end, far away from the connecting rotating shaft, of each middle water storage cavity in the vertical direction, a pressure inclined plane is arranged on one side, close to the middle water storage cavity, of the upper end of each water discharging plate, a sliding block sliding groove is formed in the lower end of the pressure inclined plane of each water discharging plate, a reset sliding block is arranged in each sliding block sliding groove, one end, close to the middle water storage cavity, of each reset sliding block is fixedly connected with a water discharging plate reset spring, one end, far away from the reset sliding block, of each water discharging plate reset spring is fixedly connected with a roof plate, a water discharging plate sliding groove is formed in the roof plate at the lower end of each water discharging plate, each water discharging plate sliding groove is L-shaped, and a vertical spring is fixedly connected in one end, far away from the middle water storage cavity.

Preferably, a connecting column is respectively arranged in one end, close to the connecting rotating shaft, of each water channel, one end, extending out of the water channel, of each connecting column is rotatably connected with the connecting rotating shaft, a connecting column water-passing cavity is respectively formed in one end, close to the top plate water leakage opening, of each connecting column, a sliding groove is respectively formed in each connecting column water-passing cavity from top to bottom, a positioning column is respectively arranged in each sliding groove, and a positioning column spring is sleeved outside each positioning column.

Preferably, each connecting column is connected with a water pipe at the rear end of the connecting column water passing cavity, and one end of each water pipe, far away from the connecting column water passing cavity, extends into the arc track plate above the connecting column water passing cavity.

Preferably, every a baffle sliding tray, two have been seted up respectively in the arc track inboard baffle sliding tray the baffle sliding tray is close to one end of each other and installs a sliding seal circle respectively, two the sliding seal circle endotheca is equipped with the pivot baffle, it walks the water course to have seted up the baffle in the pivot baffle, the pivot baffle is walked the water course up end rectangular array at the baffle and has been seted up a plurality of baffles and leaked the hole, the pivot baffle stretches into baffle sliding tray both ends respectively fixedly connected with baffle slide spacing, every be connected with the water pipe in the baffle slides spacing respectively, the water pipe overcoat is equipped with baffle reset spring.

Advantageous effects

1. The inserting grooves are formed between the two roof plates, the installation process is simplified through the connecting members and the fixing pieces which are arranged independently, the fixing pieces are used for positioning after installation, and water on the surfaces of the connecting members is discharged into the drainage channel of the roof to improve the waterproof capacity;

2. the through holes are formed in the surface of the roof plate, so that water on the surface of the roof plate can flow into the roof plate and flow into the two water storage cavities inside under the action of the clamped waterproof coiled material, and the water storage can be utilized to cool the inside of a room when the roof plate is heated due to external heating or sun exposure.

Drawings

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

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a left side view of the present invention;

FIG. 4 is a cross-sectional view taken at A-A of FIG. 2;

FIG. 5 is a cross-sectional view taken at B-B of FIG. 2;

FIG. 6 is an enlarged view of FIG. 4 at D;

FIG. 7 is an enlarged view of E in FIG. 4;

in the figure: the water storage device comprises a roof plate 10, a rotating shaft baffle plate 11, an arc track plate 12, a top plate water leakage opening 13, a bottom plate 14, a water passing bulge 15, a connecting rotating shaft 16, an upper plate connecting shaft sleeve 18, a lower plate connecting shaft sleeve 18, a containing groove 19, a supporting base 20, an expansion column 21, a push plate 22, a water discharging plate 23, a slide block chute 24, a pressure inclined plane 25, a reset slide block 26, a water discharging plate reset spring 27, a water discharging plate chute 28, a vertical spring 29, a top plate 30, a top plate expansion column 31, a top plate seat 32, a water passing channel 33, a connecting column 34, a connecting column water passing cavity 35, a positioning column 36, a positioning column spring 37, a baffle sliding groove 38, a sliding sealing ring 39, a baffle water leakage hole 40, a baffle water passing channel 41, a baffle sliding limit 42, a water passing pipe 43, a baffle reset spring 44, an upper plate connecting shaft 46, a lower plate connecting shaft 46, a connecting shaft spring 47, a connecting shaft rotating shaft 48, a middle water storage cavity 49 and an outer water storage cavity 50.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

In the description of the present invention, it should be noted that the terms "inside", "below", and the like refer to orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention conventionally place when used, and are used only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

With reference to fig. 1, a roof of waterproof fast-assembling board house for building, including roof board 10, four roof mouth of leaking 13 have been seted up to roof board 10 up end rectangular array, the terminal surface both sides are provided with the arch of leaking water 15 of a horizontal direction respectively under roof board 10, every roof mouth of leaking 13 runs through the arch of leaking water 15 respectively, roof board 10 below is provided with roof board 14, be provided with between two roof boards 10 and connect pivot 16, it is provided with an arc track board 12 respectively to connect 16 outer both sides of pivot, be provided with pivot baffle 11 between two arc track boards 12.

Further combine attached figure 1, figure 5, an arc recess has been seted up respectively to bottom plate 14 up end both sides and corresponds with the arch 15 that walks water of top, bottom plate 14 up end and roof board 10 down end both sides have seted up respectively outside the recess and have accomodate the recess 19, it is provided with a connecting axle pivot 48 to rotate respectively in every accomodating the recess 19, it is equipped with an upper and lower board connecting axle sleeve 18 to overlap respectively outside every connecting axle pivot 48, be provided with a connecting axle spring 47 in every upper and lower board connecting axle sleeve 18 respectively, be connected with slidable upper and lower board connecting axle 46 between the upper and lower board connecting axle sleeve 18 that a set of correspondence about.

Further with reference to fig. 4, each roof drain hole 13 is respectively opened above the water drain protrusion 15 and penetrates through the water drain protrusion 15, a water drain channel 33 is opened between a group of two roof drain holes 13 along the same direction of the water drain protrusion 15 in each roof slab 10 and is connected with each other, a middle water storage cavity 49 is opened between the two roof drain holes 13, a roof seat 32 is arranged on the lower end surface of the middle water storage cavity 49, three grooves are opened in the horizontal direction in the roof seat 32, an expandable roof expansion column 31 is respectively arranged in each groove, and a roof 30 is fixedly connected to the upper end surface of each three roof expansion column 31.

Further referring to fig. 4, an outer water storage cavity 50 is formed outside the top plate water leakage port 13 at one end of each roof plate 10, which is far away from the connecting rotating shaft 16, a supporting base 20 is fixedly arranged on one side wall of each outer water storage cavity 50, which is far away from the top plate water leakage port 13, an expandable expansion column 21 is respectively arranged in the middle of each supporting base 20, and a push plate 22 is fixedly connected to one end of each expansion column 21, which is close to the top plate water leakage port 13, in the vertical direction.

Further, with reference to fig. 4 and 6, a water discharging plate 23 is respectively arranged in the vertical direction outside one end of each middle water storage cavity 49 far away from the connecting rotating shaft 16, a pressure inclined plane 25 is arranged at one side of the upper end of each water discharging plate 23 close to the middle water storage cavity 49, a sliding block chute 24 is formed at the lower end of the pressure inclined plane 25 of the water discharging plate 23, a reset sliding block 26 is respectively arranged in each sliding block chute 24, one end of each reset sliding block 26 close to the middle water storage cavity 49 is respectively and fixedly connected with a water discharging plate reset spring 27, one end of each water discharging plate reset spring 27 far away from the reset sliding block 26 is respectively and fixedly connected with the roof plate 10, a water discharging plate chute 28 is respectively formed at the lower end of each water discharging plate 23 in the roof plate 10, and each water discharging plate chute 28 is L-shaped and is fixedly connected with a vertical spring 29 in one end far away from the middle water storage cavity 49.

Further referring to fig. 4, each water channel 33 is provided with a connecting post 34 in the end close to the connecting rotating shaft 16, each connecting post 34 extends out of the water channel 33 and is rotatably connected with the connecting rotating shaft 16, a connecting post water-passing cavity 35 is respectively arranged in the end close to the top plate water leakage port 13 of each connecting post 34, a chute is respectively arranged above and below each connecting post water-passing cavity 35, a positioning post 36 is respectively arranged in each chute, and a positioning post spring 37 is respectively sleeved outside each positioning post 36.

Further referring to fig. 4 and 7, each connecting column 34 is connected with a water pipe 43 at the rear end of the connecting column water-passing cavity 35, and one end of each water pipe 43, which is far away from the connecting column water-passing cavity 35, extends into the upper arc track plate 12.

Further combine attached figure 4, attached figure 7, a baffle sliding tray 38 has been seted up respectively in every arc track board 12, two baffle sliding trays 38 are close to one end of each other and install a slip sealing washer 39 respectively, two slip sealing washer 39 endotheca are equipped with pivot baffle 11, it walks water course 41 to have seted up the baffle in the pivot baffle 11, pivot baffle 11 is walked water course 41 up end rectangular array at the baffle and has been seted up a plurality of baffle holes 40 that leak, pivot baffle 11 stretches into in the baffle sliding tray 38 both ends respectively fixedly connected with baffle slide spacing 42, be connected with the water pipe 43 in every baffle slides spacing 42 respectively, water pipe 43 overcoat is equipped with baffle reset spring 44.

Principle of operation

Firstly, opening the roof plate 10 and the bottom plate 14, paving a waterproof coiled material on the upper surface of the bottom plate 14, then pressing the roof plate 10 down to be closed, taking out the connecting structure, respectively pressing the upper and lower positioning columns 36 of the two connecting columns 34 at two sides into the connecting columns 34, then inserting the connecting columns into holes corresponding to one side of the roof plate 10, respectively popping up the upper and lower positioning columns 36 to be clamped after the connecting columns 34 are inserted in place, and then rotating the roof plates 10 at two sides to realize the forming of a pointed roof, wherein at the moment, the two bottom plates 14 are close to each other and the top and bottom plate connecting shaft sleeves 18 only can rotate around the connecting shaft rotating shaft 48, so the bottom plate 14 cannot be opened to reinforce the roof;

when external precipitation or water is accumulated above a roof, due to the existence of the plurality of roof plate water leakage holes 13 arranged on the upper surface of the roof plate 10, water flows through the roof plate water leakage holes 13 and falls into the lower part, and continues to flow under the action of the waterproof coiled material, one part of the water flows on the surface of the waterproof coiled material along the inclined roof and is discharged out of the roof, the other part of the water finally enters the outer water storage cavity 50 and the middle water storage cavity 49 to be collected, water falling into the surface of the middle connecting structure enters the channel of the inner baffle water drainage channel 41 under the action of the baffle water leakage holes 40 on the surface of the rotating shaft baffle 11 and flows into the connecting column 34 below through the water drainage pipe 43 arranged at the tail end, and due to the installation in place, the upper and lower positioning columns 36 are opened to enable the connecting column water drainage cavity 35 not to be closed, and the water flows into the water drainage channel 33 through the connecting column water drainage cavity 35 to be drained together;

when the external temperature rises, the expansion column 21 arranged in the outer water storage cavity 50 is heated to expand, the push plate 22 is gradually retreated outwards, at the moment, the water stored in the outer water storage cavity 50 is gradually extruded out and gradually flows out to the surface of the waterproof coiled material through the water channel 33, so that the water flows on the surface of the waterproof coiled material to realize temperature reduction, the top plate expansion column 31 in the middle water storage cavity 49 is also heated to expand, the top plate 30 is pushed up, the water level stored in the middle water storage cavity 49 is gradually increased, thrust is generated on the water discharging plate 23 on one side to push the water discharging plate 23 to move outwards, after the water discharging plate 23 moves for a certain distance, the lower part is vacant, so that the water discharging plate 23 falls, the reset slide block 26 arranged in the slide block sliding groove 24 is lifted and is kept to be pulled by the water discharging plate reset spring 27, when the water discharged from the middle water storage cavity 49 flows over the upper end of the water discharging plate 23, an additional downward pressure is generated to press the vertical spring 29 to be temporarily unable to reset, thereby realizing continuous drainage to cool the roof;

when the temperature of the roof is reduced, the expansion column 21 and the top plate expansion column 31 are not heated to expand any more, so the push plate 22 and the top plate 30 return to the original position, at the moment, the middle water storage cavity 49 does not discharge water outwards because the top plate 30 returns to the original position, the pressure acting on the surface of the pressure inclined plane 25 is reduced, the water discharging plate 23 can rise under the action of the vertical spring 29, the reset slide block 26 slides in the water discharging plate 23 to be connected with the water discharging plate reset spring 27, and after the water discharging plate 23 reaches a certain height, the reset slide block 26 resets under the action of the water discharging plate reset spring 27 and drives the water discharging plate 23 to move to the original position.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (8)

1. The roof of the waterproof fast-assembly board house for the building comprises roof plates (10) and is characterized in that four roof water leaking openings (13) are formed in a rectangular array on the upper end faces of the roof plates (10), water passing protrusions (15) in the horizontal direction are arranged on two sides of the lower end faces of the roof plates (10) respectively, each roof water leaking opening (13) penetrates through the water passing protrusion (15) respectively, a roof plate (14) is arranged below the roof plates (10), a connecting rotating shaft (16) is arranged between every two roof plates (10), arc track plates (12) are arranged on two outer sides of the connecting rotating shaft (16) respectively, and a rotating shaft baffle (11) is arranged between every two arc track plates (12).

2. The roof of a waterproof quick-mounting board house for buildings as claimed in claim 1, wherein both sides of the upper end surface of the bottom board (14) are respectively provided with an arc-shaped groove and correspond to the water passing protrusions (15) above, both sides of the upper end surface of the bottom board (14) and both sides of the lower end surface of the roof board (10) are respectively provided with a receiving groove (19) outside the grooves, each receiving groove (19) is respectively and rotatably provided with a connecting shaft rotating shaft (48), each connecting shaft rotating shaft (48) is respectively and externally sleeved with an upper and lower board connecting shaft sleeve (18), each upper and lower board connecting shaft sleeve (18) is respectively and internally provided with a connecting shaft spring (47), and a slidable upper and lower board connecting shaft (46) is connected between the upper and lower board connecting shaft sleeves (18).

3. The roof of the fast-assembled waterproof board house for buildings as claimed in claim 1, wherein each roof board drainage port (13) is opened above the water-passing protrusion (15) and penetrates through the water-passing protrusion (15), a water-passing channel (33) is opened between a set of two roof board drainage ports (13) in each roof board (10) along the same direction of the water-passing protrusion (15) and is connected with each other, a middle water storage cavity (49) is opened between the two roof board drainage ports (13), a roof board seat (32) is arranged on the lower end surface of the middle water storage cavity (49), three grooves are opened in the roof board seat (32) in the horizontal direction, an expandable roof board expansion column (31) is arranged in each groove, and a roof board (30) is fixedly connected to the upper end surfaces of the three roof board expansion columns (31).

4. The roof of the waterproof quick-installation board house for the building as claimed in claim 3, wherein an outer water storage cavity (50) is opened outside the roof drain port (13) at an end of the inside of each roof board (10) far away from the connecting rotating shaft (16), a supporting base (20) is fixedly arranged on a side wall of each outer water storage cavity (50) far away from the roof drain port (13), an expandable expansion column (21) is respectively arranged in the middle of each supporting base (20), and a push plate (22) is respectively fixedly connected to one end of each expansion column (21) close to the roof drain port (13) in the vertical direction.

5. The roof of the waterproof fast-assembling board house for the building as claimed in claim 3, wherein a water discharging board (23) is vertically provided outside one end of each of the middle water storage cavities (49) away from the connecting rotating shaft (16), one side of the upper end of each of the water discharging boards (23) close to the middle water storage cavity (49) is provided with a pressure slope (25), the lower end of the pressure slope (25) of each of the water discharging boards (23) is provided with a slide block chute (24), a reset slide block (26) is provided in each of the slide block chutes (24), one end of each of the reset slide blocks (26) close to the middle water storage cavity (49) is fixedly connected with a water discharging board reset spring (27), one end of each of the water discharging board reset springs (27) away from the reset slide block (26) is fixedly connected with the roof slab (10), the lower end of each of the water discharging boards (23) is provided with a water discharging board chute (28) in the roof slab (10), each water discharging plate sliding groove (28) is L-shaped, and one end of the water discharging plate sliding groove (28) far away from the middle water storage cavity (49) is internally and fixedly connected with a vertical spring (29).

6. The roof of the waterproof fast-assembling board house for the building as claimed in claim 3, characterized in that a connecting column (34) is respectively disposed in one end of each of said water channels (33) close to the connecting rotating shaft (16), one end of each of said connecting columns (34) extending out of the water channels (33) is respectively rotatably connected to the connecting rotating shaft (16), a connecting column water-passing cavity (35) is respectively disposed in one end of each of said connecting columns (34) close to the roof drain opening (13), a sliding groove is respectively disposed above and below each of said connecting column water-passing cavities (35), a positioning column (36) is respectively disposed in each of said sliding grooves, and a positioning column spring (37) is respectively sleeved outside each of said positioning columns (36).

7. The roof of a waterproof fast-assembling board house for building of claim 6, characterized in that each connecting column (34) is connected with a water pipe (43) at the rear end of the connecting column water through cavity (35), and one end of each water pipe (43) far away from the connecting column water through cavity (35) extends into the arc track board (12) above.

8. The roof of the building waterproof quick-mounting board house as claimed in claim 1, wherein each of the arc track boards (12) is provided with a baffle sliding groove (38), one end of each of the two baffle sliding grooves (38) close to each other is provided with a sliding seal ring (39), the two sliding seal rings (39) are sleeved with a rotating shaft baffle (11), a baffle water channel (41) is arranged in the rotating shaft baffle (11), a plurality of baffle water leakage holes (40) are arranged on the rotating shaft baffle (11) in a rectangular array on the upper end surface of the baffle water channel (41), the pivot baffle (11) stretch into in baffle sliding tray (38) both ends difference fixedly connected with baffle slip spacing (42), every be connected with in the baffle slip spacing (42) respectively and walk water pipe (43), it is equipped with baffle reset spring (44) to walk water pipe (43) overcoat.

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