CN214423781U - Oblique roofing mounting structure - Google Patents

Abstract

The application relates to an inclined roof installation structure, which relates to the field of house construction and comprises a water guiding strip, a tile hanging strip arranged on the water guiding strip and tiles arranged on the tile hanging strip, wherein a bearing plate is arranged on the water guiding strip, and a reinforcing plate is arranged on the bearing plate; the one end of accepting the board is connected on the water bar, the other end is the free end, the one end of gusset plate is connected on the free end of accepting the board, the other end is the free end, set up flutedly on the battens, the gusset plate is arranged in the recess, the tile is arranged in the top of battens, all be equipped with first set screw on accepting board and the battens, first set screw passes and accepts behind the board with battens threaded connection, first set screw passes behind battens and the gusset plate with water bar threaded connection. This application has the effect that makes battens more firm on the water strip.

Description

Oblique roofing mounting structure

Technical Field

The application relates to the field of house construction, in particular to an oblique roof installation structure.

Background

The inclined roof mainly aims at the roof with a large gradient, and tiles are required to be installed on the inclined roof to achieve the effects of draining water and beautifying the roof.

In the installation process of the tile on the inclined roof, the water guiding strip needs to be installed on the inclined roof, then the tile hanging strip is installed on the water guiding strip, and then the tile is installed on the tile hanging strip. But loose tiles are easily caused by the insecure connection of the tile hanging strips on the water guiding strips, so that the tiles are easily damaged.

SUMMERY OF THE UTILITY MODEL

In order to make the battens more firm on the water bar, this application provides an oblique roofing mounting structure.

The application provides an oblique roofing mounting structure adopts following technical scheme:

an inclined roof installation structure comprises a water guiding strip, a tile hanging strip arranged on the water guiding strip and tiles arranged on the tile hanging strip;

the water-guiding strips are provided with bearing plates, and reinforcing plates are arranged on the bearing plates; one end of the bearing plate is connected to the water-guiding strip, the other end of the bearing plate is a free end, one end of the reinforcing plate is connected to the free end of the bearing plate, and the other end of the reinforcing plate is a free end;

the tile hanging structure is characterized in that grooves are formed in the tile hanging strips, the reinforcing plate is located in the grooves, tiles are located above the tile hanging strips, first fixing screws are arranged on the bearing plate and the tile hanging strips, the first fixing screws penetrate through the bearing plate and then are in threaded connection with the tile hanging strips, and the first fixing screws penetrate through the tile hanging strips and the reinforcing plate and then are in threaded connection with the water guiding strips.

Through adopting above-mentioned technical scheme, the staff will be installed on oblique roofing with the water bar, the water bar is used for installing the battens, then the staff will hang the battens install on the water bar, it accepts the battens to accept the board, the gusset plate injects in the recess of battens, then the staff will accept the board with hang the battens with first set screw and fix together, then with first set screw with the gusset plate, hang the battens and be in the same place with the water bar is fixed, it is more firm with being connected with the water bar to hang the battens this moment, then the staff with the tile install on the battens can.

Optionally, the water guiding strip is provided with a reinforcing plate, and the bearing plate is connected with the reinforcing plate.

Through adopting above-mentioned technical scheme, the staff installs the reinforcing plate on the water strip, and it is more firm to accept the board and install on the water strip through the reinforcing plate.

Optionally, a concave portion and a convex portion are arranged on the tile, and the convex portion of the tile is abutted to the concave portion of the adjacent tile.

Through adopting above-mentioned technical scheme, the gap of adjacent tile junction has been reduced to the protruding portion and the depressed part butt of adjacent tile, makes the rainwater be difficult to pass the tile and the seepage appears to make the tile more neat pleasing to the eye.

Optionally, the tiles at the bottom of the recess and projection are provided with corrugations.

Through adopting above-mentioned technical scheme, the leakproofness of two adjacent tile junctions has been improved to the ripple portion, makes two adjacent tiles connect more compactly.

Optionally, the tile is provided with a water chute;

the water chute is positioned on one surface of the tile, which is far away from the tile hanging strip.

Through adopting above-mentioned technical scheme, when meetting rainy weather, during the rainwater flows to the guiding gutter, the guiding gutter plays the guide effect, the drainage of being convenient for.

Optionally, tiles on adjacent tile hanging strips are in staggered lap joint;

the joint of the adjacent tiles on the upper tile hanging strip is positioned above the water chute of the tiles on the lower tile hanging strip.

Through adopting above-mentioned technical scheme, the rainwater on the top tile flows to the guiding gutter on the tile of below through the junction of tile, and the tile dislocation overlap joint on every string of tiles has improved the effect of discharging the rainwater.

Optionally, a baffle plate is arranged on the tile, and a second fixing screw is arranged on the baffle plate;

and the second fixing screw penetrates through the baffle and then is in threaded connection with the battens.

Through adopting above-mentioned technical scheme, the back on the batten is placed with the tile to the staff, baffle and batten butt, and the tile passes through the baffle and hangs on the batten, and the staff uses second set screw to fix the baffle on the batten after that, has improved the fastness of tile on the batten.

Optionally, the water-guiding strips and the battens are both provided with an anticorrosive layer.

By adopting the technical scheme, the corrosion resistance of the water-guiding strip and the battens is improved by the anticorrosive coating, so that the water-guiding strip and the battens are not easy to damage.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the method comprises the following steps that a worker installs a water-guiding strip on an inclined roof, the water-guiding strip is used for installing a tile-hanging strip, then the worker installs the tile-hanging strip on the water-guiding strip, a bearing plate bears the tile-hanging strip, a reinforcing plate is inserted into a groove of the tile-hanging strip, then the worker fixes the bearing plate and the tile-hanging strip together by using a first fixing screw, then fixes the reinforcing plate, the tile-hanging strip and the water-guiding strip together by using the first fixing screw, at the moment, the tile-hanging strip and the water-guiding strip are connected more firmly, and then the worker installs tiles on the tile-hanging strip;

2. after the staff placed the tile on the batten, baffle and batten butt, the tile passed through the baffle and hangs on the batten, and the staff uses second set screw to fix the baffle on the batten after that, has improved the fastness of tile on the batten.

Drawings

FIG. 1 is an isometric view of a pitched roof installation according to an embodiment of the present application.

Fig. 2 is a partial schematic structural view of the sloping roof installation shown in fig. 1.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Fig. 4 is another partial schematic view of the pitched roof installation structure shown in fig. 1.

Description of reference numerals: 10. a screw; 1. water-guiding strips; 2. hanging battens; 21. a groove; 3. a tile; 31. a recessed portion; 32. a protrusion; 33. a corrugated portion; 34. a water chute; 41. a bearing plate; 42. a reinforcing plate; 43. a reinforcing plate; 5. a first set screw; 6. a baffle plate; 7. a second set screw; 8. and (4) an anticorrosive layer.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

The embodiment of the application discloses oblique roofing mounting structure.

Referring to fig. 1 and 2, the sloping roof installation structure includes a plurality of battens 1, a plurality of battens 2, a plurality of tiles 3, a reinforcing plate 43, a receiving plate 41, and a reinforcing plate 42.

Referring to fig. 2 and 3, a worker uniformly arranges a plurality of the streamers 1 on the inclined roof along the inclined plane direction of the inclined roof, and fixes the streamers 1 to the inclined roof by using screws 10. Then the worker installs the reinforcing plate 43 on the water guiding strip 1, the position of the reinforcing plate 43 is determined by the position of the tile hanging strip 2 placed on the water guiding strip 1, the reinforcing plate 43 comprises a transverse plate and two vertical plates, the two vertical plates are vertical to the transverse plate, the transverse plate and the two vertical plates are integrally formed, the transverse plate is contacted with one surface of the water guiding strip 1 away from the inclined roof, the vertical plates are contacted with two side surfaces of the water guiding strip 1, then the worker fixedly connects the transverse plate of the reinforcing plate 43 with the water guiding strip 1 by using the screw 10, then fixedly connects the reinforcing plate 43 with the water guiding strip 1 by using the screw 10, the reinforcing plate 43 is firmer on the water guiding strip 1, the bearing plate 41 is fixedly connected on the transverse plate of the reinforcing plate 43, the bearing plate 41 is vertical to the reinforcing plate 43, one end of the bearing plate 41 is fixedly connected on the reinforcing plate 43, the other end is a free end, the reinforcing plate 42 is fixedly connected on the free end of the bearing plate 41, the reinforcing plate 42 is perpendicular to the receiving plate 41.

The battens 2 are arranged above the water guiding strips 1 and are perpendicular to the water guiding strips 1, and the plurality of battens 2 are uniformly distributed along the inclined direction of the inclined roof. Seted up recess 21 on batten 2, on the staff placed batten 2 to reinforcing plate 43, accept board 41 played the effect of accepting to batten 2, reinforcing plate 42 was located recess 21 this moment, the staff uses first set screw 5 to pass batten 2, reinforcing plate 42 and reinforcing plate 43 and 1 threaded connection of water flow strip after that, uses first set screw 5 to pass accept board 41 and 2 threaded connection of batten after that, batten 2 is more firm on water flow strip 1.

The worker then places tile 3 on batten 2 and uses screw 10 to pass through tile 3, screw 10 passing through tile 3 and then turns screw 10 and tightens tile 3 against batten 2.

Referring to fig. 1 and 3, the tile 3 is provided with a concave portion 31 and a convex portion 32, the concave portion 31 and the convex portion 32 are respectively located on two end surfaces of the tile 3, and when a worker installs the tile 3, the convex portion 32 of the adjacent tile 3 abuts against the concave portion 31, so that a gap at a joint of the adjacent tiles 3 is reduced. The corrugated parts 33 are arranged on the tiles 3 at the bottoms of the concave parts 31 and the convex parts 32, and when the convex parts 32 and the concave parts 31 of the adjacent tiles 3 are abutted, the corrugated parts 33 on the two tiles 3 are mutually meshed, so that the tightness of the joint of the adjacent tiles 3 is improved, and the whole body is more attractive and smooth.

A water guide groove 34 is further formed in one end face, not in contact with the tile hanging strip 2, of the tile 3, rainwater flows along the water guide groove 34, and the water guide groove 34 improves the water drainage effect of the tile 3.

Tile 3 on a hanging batten 2 is one row, when installing tile 3, from the eave lower right corner spread first tile 3, from bottom to top, from right to left arranges, after spreading first row tile 3, when spreading second row tile 3, with last row tile 3 with 3 crisscross overlap joints of tile down, make whole roofing more firm, the junction of the adjacent tile 3 of going up is located directly over 3 guiding gutters 34 of tile down. When the rainwater falls into the joint of the upper row of adjacent tiles 3 in rainy weather, the rainwater flows into the water chute 34 of the lower row of tiles 3 along the gap of the joint, and the rainwater drainage effect is improved.

Referring to fig. 4, in order to make the tile 3 more firm on the batten 2, a baffle 6 is arranged on the tile 3, the baffle 6 is integrally formed with the tile 3, and the baffle 6 is perpendicular to the tile 3. After the staff placed tile 3 on tile hanging strip 2, baffle 6 and tile hanging strip 2 butt, baffle 6 made tile 3 hang on tile hanging strip 2, use screw 10 to fix tile 3 back on tile hanging strip 2 when the staff, then the staff uses second set screw 7 to pass baffle 6, and second set screw 7 passes behind baffle 6 staff rotates second set screw 7 and pushes up baffle 6 tightly on tile hanging strip 2. Tiles 3 are further made stronger on battens 2 by baffles 6.

Referring to fig. 4, the water guide strip 1 and the battens 2 are easily corroded and damaged after being used for a long time, and in order that the water guide strip 1 and the battens 2 are not easily damaged, an anticorrosive coating 8 is coated on the water guide strip 1 and the battens 2, and the anticorrosive coating 8 is made of anticorrosive paint such as asphalt oil or epoxy anticorrosive paint. The anticorrosive coating 8 plays a role in protecting the water guiding strip 1 and the battens 2, so that the water guiding strip 1 and the battens 2 are not easy to corrode, and the service lives of the water guiding strip 1 and the battens 2 are prolonged.

The implementation principle of the oblique roof installation structure of the embodiment of the application is as follows: the staff passes through screw 10 with on the oblique roofing of following water bar 1 fixed mounting, then uses screw 10 to install reinforcing plate 43 on following water bar 1, place hanging battens 2 on following water bar 1 next, and insert reinforcing plate 42 in the recess 21 of hanging battens 2, use first set screw 5 to pass behind hanging battens 2, the reinforcing plate 42 with following water bar 1 threaded connection, use first set screw 5 to pass behind the board 41 with hanging battens 2 threaded connection, hanging battens 2 are more firm on following water bar 1.

On the staff placed batten 2 with tile 3 after that, use screw 10 to fix tile 3 on batten 2 to tightly push up baffle 6 on batten 2 with second set screw 7, tile 3 is more firm on batten 2, and the crisscross overlap joint of tile 3 of going up and tile 3 of lower row has improved drainage effect.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an oblique roofing mounting structure which characterized in that: comprises a water guiding strip (1), a tile hanging strip (2) arranged on the water guiding strip (1) and tiles (3) arranged on the tile hanging strip (2);

the water guiding strip (1) is provided with a bearing plate (41), and the bearing plate (41) is provided with a reinforcing plate (42); one end of the bearing plate (41) is connected to the water-flowing strip (1), the other end of the bearing plate is a free end, one end of the reinforcing plate (42) is connected to the free end of the bearing plate (41), and the other end of the reinforcing plate is a free end;

the tile hanging structure is characterized in that a groove (21) is formed in the tile hanging strip (2), the reinforcing plate (42) is located in the groove (21), the tile (3) is located above the tile hanging strip (2), the bearing plate (41) and the tile hanging strip (2) are provided with first fixing screws (5), the first fixing screws (5) penetrate through the bearing plate (41) and then are in threaded connection with the tile hanging strip (2), and the first fixing screws (5) penetrate through the tile hanging strip (2) and the reinforcing plate (42) and then are in threaded connection with the water guiding strip (1).

2. A sloping roof installation according to claim 1, wherein: the water guiding strip (1) is provided with a reinforcing plate (43), and the bearing plate (41) is connected with the reinforcing plate (43).

3. A sloping roof installation according to claim 1, wherein: the tile is characterized in that a concave part (31) and a convex part (32) are arranged on the tile (3), and the convex part (32) of the tile (3) is abutted against the concave part (31) of the adjacent tile (3).

4. A sloping roof installation according to claim 3, wherein: the tiles (3) at the bottom of the concave part (31) and the convex part (32) are provided with corrugated parts (33).

5. A sloping roof installation according to claim 1, wherein: a water chute (34) is formed in the tile (3);

the water chute (34) is positioned on one surface of the tile (3) far away from the tile hanging strip (2).

6. A sloping roof installation according to claim 1, wherein: tiles (3) on the adjacent tile hanging strips (2) are in staggered lap joint;

the upper part is that the joint of the adjacent tiles (3) on the tile hanging strip (2) is positioned above the water chute (34) of the tiles (3) on the tile hanging strip (2).

7. A sloping roof installation according to claim 1, wherein: a baffle plate (6) is arranged on the tile (3), and a second fixing screw (7) is arranged on the baffle plate (6);

and the second fixing screw (7) penetrates through the baffle (6) and then is in threaded connection with the battens (2).

8. A sloping roof installation according to claim 1, wherein: and the water-guiding strips (1) and the tile hanging strips (2) are both provided with an anticorrosive layer (8).

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