CN217734520U - Self-waterproof structure of inclined roof surface layer - Google Patents

Abstract

The utility model relates to the technical field of roofing engineering, in particular to a self-waterproof structure of an inclined roof surface layer, which comprises an inverted V-shaped roof board, a U-shaped fixing piece which is arranged on the roof board and symmetrically arranged along the length direction of a ridge, an inverted V-shaped component which is arranged above the ridge, an inverted V-shaped piece of which two ends respectively extend into the U-shaped fixing piece, and inclined plates which are symmetrically arranged along the length direction of the ridge and of which one end extends into the U-shaped fixing piece; the opening of the U-shaped fixing piece is arranged on one side far away from the ridge. The utility model discloses the construction is simple, can effectual reinforcing roofing waterproof system, and to a great extent reduces the roofing and appears the seepage risk.

Description

Self-waterproof structure of inclined roof surface layer

Technical Field

The utility model relates to a roofing engineering technology field, more specifically say, relate to an oblique roofing surface course is from waterproof structure.

Background

Roofing engineering is an important component of house construction, and the design quality, especially the waterproof and heat insulation problems of the roofing, has important influence on the use function of the house for a long time; the inverted heat-insulating waterproof roof is a novel energy-saving heat-insulating waterproof roof and is widely applied in recent years; but the common quality problems such as roof leakage and the like often occur when the building is improperly applied in construction, and the using function of the building is seriously influenced.

At present, the seepage-proofing treatment mode for the ridge of the sloping roof at home and abroad is to arrange a tile roof, but when the slope is steeper, the tile roof has limitation, the seepage-proofing method of the tile roof is single, and the service life is short.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a to one side roofing surface course is from waterproof structure is provided, the construction is simple, can effectual reinforcing roofing waterproof system, and to a great extent reduces the roofing and appears the seepage risk.

The utility model provides a solution that technical problem adopted is:

a self-waterproof structure of an inclined roof surface layer comprises an inverted V-shaped roof panel, U-shaped fixing pieces, inverted V-shaped components and inclined plates, wherein the U-shaped fixing pieces are installed on the roof panel and symmetrically arranged along the length direction of a ridge; the opening of the U-shaped fixing piece is arranged on one side far away from the ridge.

Firstly, installing U-shaped fixing pieces along two sides of the long direction of the ridge so that the opening of the U-shaped fixing pieces is positioned on one side far away from the ridge;

then installing the inclined plate, and enabling one end of the inclined plate to extend into the U-shaped fixing piece and be fixed in the U-shaped fixing piece, wherein the U-shaped fixing piece is fixed on the roof panel, and one end of the inclined plate is fixed in the U-shaped fixing piece, so that the inclined plate, the U-shaped fixing piece and the roof panel are connected into a whole;

finally, the inverted V-shaped piece is installed on the ridge, and two ends of the inverted V-shaped piece respectively extend into the U-shaped fixing piece and are buckled to form a whole;

in rainy days, rainwater will act on the V-shaped piece and move downwards along the inclined plane of the V-shaped piece to stay on the inclined plate, so that rainwater is effectively prevented from entering the ridge.

In some possible embodiments, in order to effectively enable the matched installation of the inverted V-shaped piece and the U-shaped fixing piece, the buckling connection is realized;

the inverted V-shaped parts comprise two groups of U-shaped parts which have the same structure and are symmetrically arranged along the long direction of the ridge, and inverted V-shaped parts which are used for connecting the two groups of U-shaped parts; the two groups of U-shaped pieces and V-shaped pieces are connected to form a V-shaped cavity; the openings of the two groups of U-shaped pieces are opposite to the openings of the U-shaped fixing pieces, and one sides of the two groups of U-shaped pieces, which are close to the roof panel, extend into the V-shaped cavity.

In some possible embodiments, in order to effectively realize the installation of the inclined plate and enable the inclined plate to meet the requirements of expansion with heat and contraction with cold;

the inclined plate comprises a plate body with one end extending into the opening of the U-shaped fixing piece and a sliding connection seat which is arranged on the roof panel and is in sliding connection with the plate body.

In some possible embodiments, in order to effectively achieve an effective connection of the plate body with the slide connection socket;

the plate body comprises a connecting end and a plate body, wherein one end of the connecting end extends into the opening of the U-shaped fixing piece, and the plate body is connected with the other side of the connecting end and arranged in parallel with the roof panel; the plate body is connected with the sliding connection seat.

In some possible embodiments, in order to effectively realize the matching installation of the connecting end and the U-shaped fixing piece, the connecting end and the U-shaped fixing piece are connected into a whole;

the connecting end comprises a U-shaped fixing part which is in a U-shaped structure and is positioned in the U-shaped fixing part, and a connecting part which is connected with the U-shaped fixing part and penetrates through the opening of the U-shaped fixing part to be connected with the plate body; the opening direction of the U-shaped fixing part is consistent with that of the U-shaped fixing part; the end part of the U-shaped piece extends into the U-shaped fixing part.

In some possible embodiments, to effectively achieve leakage protection for roof panels;

the number of the inclined plates is multiple and is arranged along the long direction of the ridge, and the sliding connection seats are arranged between two adjacent plate bodies along the long direction of the ridge and are multiple.

In some possible embodiments, in order to effectively realize the matching of the plate body and the sliding connection seat;

the cross section of the plate body is of a structure shaped like a Chinese character 'ji', and comprises a bottom plate arranged in parallel with the roof panel, a sliding connection part connected with one side of the bottom plate and shaped like a Chinese character '7', and a fixing part connected with the other side of the bottom plate and sleeved outside the sliding connection seat.

In some possible embodiments, the sliding connection seat comprises a moving part which is positioned between and matched with two adjacent plate bodies, and a support seat which is in sliding fit with the moving part along the length direction of the plate bodies and is installed on a roof.

In some possible embodiments, in order to effectively realize the matching of the moving part with the plate body and the supporting seat, the movable part can be enabled;

the moving part comprises a buckling piece which is installed in a matched mode with two adjacent plate bodies and is provided with a slot, and a moving body which is connected with the buckling piece and is in sliding fit with the supporting seat; one end of the sliding connection part of each of the two adjacent groups of plate bodies is inserted into the slot, and the fixing part of the other group of plate bodies is sleeved on the outer side of the clamping piece.

In some possible embodiments, the U-shaped fixing piece, the inverted V-shaped piece and the inclined plate are made of titanium zinc plates.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model effectively avoids the water leakage of the ridge by arranging the inverted V-shaped piece and the U-shaped fixing piece on the ridge to be matched with each other, and well prevents the leakage of the ridge;

the utility model can effectively fix the sloping plate installed on the roof board through the arrangement of the U-shaped fixing piece, and the good anti-seepage of the roof board can be realized when the sloping plate is installed on the roof board; the U-shaped fixing piece effectively realizes the fixation of the inverted V-shaped piece and the inclined plate to form a whole, so that the phenomenon of slipping is avoided;

the utility model supports the plate body by arranging the sliding connecting seat, can effectively meet the sliding demand of the plate body under the condition of expansion with heat and contraction with cold, and effectively avoids the damage of the swash plate caused by fixed connection;

the utility model has simple structure, strong practicability and simple and convenient construction; construction cost can be effectively reduced.

Drawings

Fig. 1 is a schematic sectional structure of the present invention;

fig. 2 is a schematic view of the connection relationship between the middle plate body, the sliding connection seat and the roof panel;

FIG. 3 is an enlarged schematic view at A in FIG. 2;

FIG. 4 is a schematic cross-sectional view of a middle V-shaped member of the present invention;

FIG. 5 is a schematic cross-sectional view of the U-shaped fixing member of the present invention;

fig. 6 is a schematic structural view of the sliding connection seat of the present invention;

fig. 7 is a top view of the connection relationship between the middle sloping plate and the sliding connection seat of the present invention;

fig. 8 is a schematic cross-sectional view of the swash plate of the present invention;

wherein: 1. a roof panel; 2. a U-shaped fixing member; 3. a screw; 4. a plate body; 401. a plate body; 41. a base plate; 42. a sliding connection portion; 421. a transverse plate; 422. a third vertical plate; 43. a fixed part; 431. a connecting plate; 432. a first vertical plate; 433. a third vertical plate; 434. a bottom plate; 402. a connecting end; 5. a sliding connection seat; 51. a moving part; 52. a supporting base; 6. and (5) reversing the V-shaped part.

Detailed Description

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; they may be directly connected or indirectly connected through intervening media, or may be connected through the use of two elements or the interaction of two elements.

Reference herein to "first," "second," and similar words, does not denote any order, quantity, or importance, but rather are used to distinguish one element from another. Also, the use of the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one. In the implementation of the present application, "and/or" describes an association relationship of associated objects, which means that there may be three relationships, for example, a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. In the description of the embodiments of the present application, the meaning of "a plurality" means two or more unless otherwise specified. For example, the plurality of positioning pillars refers to two or more positioning pillars. The specific meaning of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

The present invention will be described in detail below.

As shown in fig. 1-8:

a self-waterproof structure of an inclined roof surface layer comprises an inverted V-shaped roof panel 1, U-shaped fixing pieces 2 which are installed on the roof panel 1 and symmetrically arranged along the length direction of a ridge 11, inverted V-shaped components 6 which are positioned above the ridge 11 and of which two ends respectively extend into the U-shaped fixing pieces 2, and inclined plates which are symmetrically arranged along the length direction of the ridge 11 and of which one ends extend into the U-shaped fixing pieces 2; the opening of the U-shaped fixing member 2 is arranged at a side far away from the ridge 11, that is, as shown in fig. 1, the opening of the U-shaped fixing member 2 faces downward, so that the sloping plate can extend into the inside of the sloping plate to be connected and fixed with the U-shaped fixing member 2.

Firstly, installing U-shaped fixing pieces 2 along two sides of the ridge 11 in the length direction, so that the openings of the U-shaped fixing pieces are positioned on one side far away from the ridge 11;

then installing the inclined plate, and enabling one end of the inclined plate to extend into the U-shaped fixing piece 2 and be fixed inside the U-shaped fixing piece 2, fixing the U-shaped fixing piece 2 on the roof panel 1, and enabling one end of the inclined plate to be fixed in the U-shaped fixing piece, so that the inclined plate, the U-shaped fixing piece 2 and the roof panel 1 are connected into a whole;

finally, the inverted V-shaped piece 6 is installed on the ridge 11, and two ends of the inverted V-shaped piece 6 respectively extend into the U-shaped fixing piece 2 and are buckled to form a whole;

in rainy days, rainwater will act on the V-shaped pieces 6 and move downwards along the inclined planes of the V-shaped pieces 6 to stay on the inclined plates, and rainwater is effectively prevented from entering the ridge 11.

In some possible embodiments, in order to effectively enable the matched installation of the inverted-V part 6 and the U-shaped fixing part 2, a snap connection is realized;

the inverted V-shaped part 6 comprises two groups of U-shaped parts which have the same structure and are symmetrically arranged along the length direction of the ridge 11 and an inverted V-shaped part for connecting the two groups of U-shaped parts; the two groups of U-shaped pieces and V-shaped pieces are connected to form a V-shaped cavity; the openings of the two groups of U-shaped pieces are opposite to the openings of the U-shaped fixing pieces 2, and one sides of the two groups of U-shaped pieces, which are close to the roof board 1, extend into the V-shaped cavity.

As shown in fig. 1: the included angle formed by the V-shaped part is consistent with the included angle of the ridge 11, and the two ends of the V-shaped part are respectively connected with the symmetrically arranged U-shaped parts with the same structure; the opening setting of U type spare is in the one side that is close to ridge 11 opposite with the opening of U type mounting 2, and its one end that is close to each other pegs graft each other, and U type mounting 2 will stretch into the V type intracavity with ridge 11 unconnected one side promptly, and the one side that U type spare is close to U type mounting 2 will stretch into the structure of pegging graft each other in the opening of U type mounting 2.

In some possible embodiments, in order to effectively realize the installation of the inclined plate and enable the inclined plate to meet the requirements of expansion with heat and contraction with cold;

the inclined plate comprises a plate body 4 with one end extending into the opening of the U-shaped fixing piece 2 and a sliding connection seat 5 which is arranged on the roof panel 1 and is in sliding connection with the plate body 4.

In some possible embodiments, in order to effectively achieve leakage protection for the roof panel 1;

the quantity of swash plate is the polylith and sets up along ridge 11's long direction, sliding connection seat 5 sets up between two blocks of adjacent plate bodies 401 along ridge 11 long direction and be a plurality ofly.

Preferably, as shown in fig. 7, the plate body 4 is laid along the slope of the roof panel 1 with its axis perpendicular to the long direction of the ridge 11; the plurality of sloping plates are provided with two adjacent sloping plates along one side of the long direction of the ridge 11 and are connected with each other in a sliding way through the sliding connection seat 5.

Further, the plate body 4 has a longitudinal structure.

One end of the plate body 4 extends into the opening of the U-shaped fixing piece 2, and the plate body 4, the U-shaped fixing piece 2 and the roof panel 1 are fixed into a whole through bolts, so that the plate body 4 is prevented from sliding off; the side of the plate body 4 along the length direction is provided with a sliding connection seat 5 to realize the fixation with the roof plate 1.

In the use, because the change of weather, this body 4 of board will realize expend with heat and contract with cold along with the change of temperature, with this body 4 of board and the both sides along length direction respectively with sliding connection seat 5 sliding fit to avoid making board body 4 can adapt to the expend with heat and contract with cold that the temperature variation produced and can not damage, make its production deformation that can freely.

In some possible embodiments, in order to effectively achieve an effective connection of the plate body 4 with the sliding connection seat 5;

the plate body 4 comprises a connecting end 402 with one end extending into the opening of the U-shaped fixing piece 2 and a plate body 401 which is connected with the other side of the connecting end 402 and is arranged in parallel with the roof plate 1; the plate body 401 is connected to the slide coupling seat 5.

In some possible embodiments, in order to effectively realize the matching installation of the connecting end 402 and the U-shaped fixing member 2, the connecting end is connected into a whole;

the connecting end 402 comprises a U-shaped fixing part which is in a U-shaped structure and is positioned in the U-shaped fixing part 2, and a connecting part which is connected with the U-shaped fixing part and passes through the opening of the U-shaped fixing part 2 to be connected with the plate body 401; the opening direction of the U-shaped fixing part is consistent with that of the U-shaped fixing part 2; the end part of the U-shaped piece extends into the U-shaped fixing part.

The connecting part is an inclined plane, and the distance from the connecting part of the connecting part and the plate body 401 to the roof panel 1 is larger than the distance from the connecting part of the connecting part and the U-shaped fixing piece 2 to the roof panel.

In some possible embodiments, in order to effectively achieve the fitting of plate 401 with slide connection seat 5;

as shown in fig. 2 and 3, the plate body 401 has a cross-section of a "hex" shape, and includes a bottom plate 41 disposed parallel to the roof panel 1, a sliding connection portion 42 connected to one side of the bottom plate 41 and having a "7" shape, and a fixing portion 43 connected to the other side of the bottom plate 41 and fitted around the outside of the sliding connection base 5.

One end of the bottom plate 41 is connected with the sliding connection part 42, and the other end thereof away from the sliding connection part 42 is connected with the fixing part 43;

preferably, the fixing portion 43 includes a connecting plate 431 parallel to the bottom plate 41, a first vertical plate 432 connected to the connecting plate 431 and the bottom plate 41, a second vertical plate 433 connected to a side of the connecting plate 431 far away from the first vertical plate 432, and a bottom plate 434 connected to one end of the second vertical plate 433 far away from the connecting plate 431 and parallel to the connecting plate 431 to form a fixing cavity, the width of the second vertical plate 433 is smaller than that of the first vertical plate 432, and a gap is formed between the bottom plate 434 and the second vertical plate 433, through which the sliding connection socket 5 passes and enters the fixing cavity;

the sliding connection part 42 is in a 7 shape and comprises a transverse plate 421 arranged parallel to the bottom plate 41 and a vertical plate III 422 respectively connected with the transverse plate 421 and the bottom plate 41; the horizontal plate 421, the vertical plate 422 and the bottom plate 41 form a U-shaped structure with an opening close to one side of the fixing portion 43, and the fixing portion 43 is arranged on the same side as the sliding connection portion 42.

In some possible embodiments, the slide connector holder 5 includes a moving portion 51 located between two adjacent plate bodies 401 and engaged with the two plate bodies 401, and a support seat 52 slidably engaged with the moving portion 51 along the length direction of the plate body 4 and installed on the roof. The moving part 51 will be located within the fixed cavity of the fixed part 43.

Preferably, as shown in fig. 6, the support seat 52 has an L-shaped cross section and includes a support plate mounted on the roof panel 1 and a vertical plate vertically connected to the support plate; the vertical plate is provided with a sliding chute, and the moving part 51 is clamped with the vertical plate and interacts in the sliding chute; the slide groove is provided along the longitudinal direction of the plate body 4.

In some possible embodiments, in order to effectively realize the matching of the moving part 51 with the plate body 401 and the supporting seat 52, it is possible;

the moving part 51 comprises a buckling piece which is installed in a matched manner with two adjacent plate bodies 401 and is provided with a slot, and a moving body which is connected with the buckling piece and is in sliding fit with the supporting seat 52; one end of the sliding connection part 42 of one of the two adjacent plate bodies 401 is inserted into the slot, and the fixing part 43 of the other plate body 401 is sleeved on the outer side of the fastener.

The clamping piece is of a U-shaped structure, an opening of the clamping piece is arranged at one side close to the moving body, and the moving body is clamped with the vertical plate and can move along the length direction of the sliding chute;

the moving body comprises a straight plate and a clamping plate, one end of the straight plate is connected with the clamping piece, one end of the clamping plate is far away from the clamping piece, the clamping plate is in a U-shaped structure, and an opening of the clamping plate is arranged on one side close to the clamping piece; cardboard, buckle spare homonymy set up, and cardboard and vertical integrated circuit board buckle formula are connected and sliding fit.

When assembling, the transverse plate 421 of the plate body 4 is inserted into the slot, and the third vertical plate 422 is parallel to the straight plate; the other group of fixing parts 43 of the plate body 4 adjacent to the other group of fixing parts are sleeved on the outer side of the buckling part, so that the fixing parts are buckled together to form a whole;

in some possible embodiments, the U-shaped fixing member 2, the inverted V-shaped member 6 and the inclined plate are made of titanium zinc plates; the screw 3 is a stainless steel screw 3;

the present invention is not limited to the foregoing embodiments. The invention extends to any novel feature or any novel combination of features disclosed in this specification, and to any novel method or process steps or any novel combination of features disclosed.

Claims (10)

1. A self-waterproof structure of an inclined roof surface layer is characterized by comprising an inverted V-shaped roof panel, U-shaped fixing pieces, inverted V-shaped components and inclined plates, wherein the U-shaped fixing pieces are installed on the roof panel and symmetrically arranged along the length direction of a ridge; the opening of the U-shaped fixing piece is arranged on one side far away from the ridge.

2. The self-waterproof structure of the inclined roof surface layer as claimed in claim 1, wherein the inverted-V-shaped members comprise two groups of U-shaped members which have the same structure and are symmetrically arranged along the long direction of the ridge, and V-shaped members which are used for connecting the two groups of U-shaped members and are in an inverted-V shape; the two groups of U-shaped parts and V-shaped parts are connected to form a V-shaped cavity; the openings of the two groups of U-shaped pieces are opposite to the openings of the U-shaped fixing pieces, and one sides of the two groups of U-shaped pieces, which are close to the roof board, extend into the V-shaped cavity.

3. The self-waterproofing construction of a sloping roof covering according to claim 2 wherein the sloping panel comprises a panel body having one end extending into the opening of the U-shaped anchor member, and a sliding connection socket mounted on the roof panel and slidably connected to the panel body.

4. The self-waterproofing construction of a sloping roof covering according to claim 3, wherein the panel body comprises a connecting end with one end extending into the opening of the U-shaped fixing member, and a panel body connected to the other side of the connecting end and arranged in parallel with the roof panel; the plate body is connected with the sliding connection seat.

5. The self-waterproofing structure of a sloping roof covering according to claim 4, wherein the connecting end comprises a U-shaped fixing portion which is in a U-shaped structure and is positioned in the U-shaped fixing member, and a connecting portion which is connected with the U-shaped fixing portion and passes through the opening of the U-shaped fixing member to be connected with the plate body; the opening direction of the U-shaped fixing part is consistent with that of the U-shaped fixing part; the end part of the U-shaped piece extends into the U-shaped fixing part.

6. The self-waterproofing structure of a sloping roof surface layer according to claim 5, wherein said sloping plates are provided in plurality and arranged along the length direction of the ridge, and said sliding connection seats are provided in plurality between two adjacent plates along the length direction of the ridge.

7. The self-waterproofing structure of a sloping roof covering according to claim 5, wherein the cross section of the plate body is of a cross-section of a structure like a Chinese character ji, and the self-waterproofing structure comprises a bottom plate arranged in parallel with the roof panel, a sliding connection part connected with one side of the bottom plate and in a shape like a Chinese character ji (7), and a fixing part connected with the other side of the bottom plate and sleeved outside the sliding connection seat.

8. The self-waterproofing construction for a sloping roof covering according to claim 7 wherein the sliding connection base comprises a moving part which is located between and engages with two adjacent panels, and a support base which is slidably engaged with the moving part along the length of the panel body and is mounted on the roof.

9. The self-waterproofing structure for sloping roof coverings according to claim 8, wherein the moving part comprises a fastener installed in cooperation with two adjacent panels and provided with a slot, and a moving body connected with the fastener and slidably engaged with the supporting seat; one end of the sliding connection part of each of the two adjacent groups of plate bodies is inserted into the slot, and the fixing part of the other group of plate bodies is sleeved on the outer side of the clamping piece.

10. The pitched roof covering self-waterproofing construction according to any of the claims 1 to 9, wherein said U-shaped anchor, inverted V-shaped anchor, sloping plate are made of titanium zinc plate.

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