CN108894435B - Roofing system - Google Patents

Abstract

The invention provides a roof system, and relates to the technical field of building construction engineering. This roofing system includes roof boarding and rectangular basin fossil fragments, and the basin fossil fragments include: the water tank comprises a support and a water tank which is positioned at the top end of the support and extends along the length direction of the water tank keel, wherein the length of the water tank is matched with the length of the roof board along the length direction of the water tank keel, two edges which are close to each other in the adjacent roof boards are respectively lapped on two opposite edges of the top end opening of the water tank, the two edges which are close to each other in the adjacent roof boards are fixedly connected with the water tank at the lapped position, and the bottom of the support is provided with a connecting part. The roof system provided by the invention is used for solving the problem that when a support and a plurality of windproof clamps which are arranged in a segmented way are connected in a matched way, the situation that the windproof clamps and the support are misplaced possibly occurs, so that the occlusion capacity is greatly reduced, and the roof board is loosened.

Description

Roofing system

Technical Field

The invention relates to the technical field of house construction engineering, in particular to a roof system.

Background

In natural environment, wind load is huge to building roofing influence, and the roofing windward side can produce positive wind pressure, and roofing and side can produce negative wind pressure, and the wind is taken off the destruction if exceeding the wind pressure value, especially when natural wind blows from the roofing, receives the negative wind pressure influence, can produce great upward pulling force for the roof boarding pine takes off, connects the failure, and then causes the wind to take off the destruction.

FIG. 1 is a front view of a prior art upright serging roofing system. As shown in fig. 1, the existing roofing system includes a plurality of wind clips 01, a roof board 02, a plurality of supports 03 arranged in sections, insulation cotton 04, steel wire mesh 05 and sandal wood strips 06. Wherein, be provided with wire net 05 on the sandal strip 06, the upper surface of wire net 05 is provided with support 03 to fix support 03 on wire net 05 through the fastener, roof boarding 02 sets up in the top of wire net 05, and is filled with thermal insulation cotton 04 between roof boarding 02 and wire net 05, roof boarding 02 is provided with the turn-up, and the top of support 03 is located to the turn-up of two adjacent roof boarding 02, and bites the turn-up of two adjacent roof boarding 02 through preventing wind to press from both sides 01.

It can be seen that the above-described upright serging roofing system connects two adjacent roof panels 02 by means of a plurality of supports 03 arranged in segments and a wind clip 01 engaging each support 03, in general the length of each support 03 being the length of each wind clip 01 ("length" being the length in the direction perpendicular to the plane of the paper in fig. 1) and having the greatest ability to engage when aligned. However, due to the sectional arrangement of the support 03, when the wind-proof clip 01 is installed, the situation that the wind-proof clip 01 and the support 03 are dislocated can occur, or in windy weather, after the wind-proof clip 01 is acted by wind, the fixing bolt can be loosened, and the wind-proof clip 01 can deviate from the original position relative to the support 03, so that the engagement capacity of the wind-proof clip 01 and the support 03 is greatly reduced, and further the roof board 02 is loosened.

Disclosure of Invention

The embodiment of the invention provides a roof system, which is used for solving the problem that when a support and a plurality of windproof clamps which are arranged in a segmented way are connected in a matched way, the windproof clamps and the support are misplaced, so that the occlusion capacity is greatly reduced, and the roof board is loosened.

In order to achieve the above purpose, the embodiment of the present invention adopts the following technical scheme:

A roofing system comprising: roof boarding and rectangular shape basin fossil fragments, the basin fossil fragments include: the water tank is located at the top end of the support and extends along the length direction of the water tank keel, the length of the water tank is matched with that of the roof board along the length direction of the water tank keel, two edges, close to each other, of the adjacent roof board are respectively lapped on two opposite edges of the top end opening of the water tank, the two edges, close to each other, of the adjacent roof board are fixedly connected with the water tank at the lapped position, and the bottom of the support is provided with a connecting part.

Optionally, the water tank is further provided with a cover plate, and the cover plate is buckled on the water tank and is used for shielding the top opening of the water tank and detachably and fixedly connected with the water tank.

Optionally, two edges of adjacent roof boards, which are close to each other, are sandwiched between the water tank and the cover plate.

Optionally, sealing elements are arranged on two sides of the lower surface of the cover plate along the width direction of the trough keel, and two edges, close to each other, of the adjacent roof boards are clamped between the trough and the sealing elements.

Optionally, the upper surface of the cover plate is arched.

Optionally, the trough keel further comprises: the water tank comprises a water tank body, a supporting piece arranged in the water tank body, and a first clamping piece positioned at the top end of the supporting piece, wherein a second clamping piece is arranged on the lower surface of the cover plate, and the first clamping piece is clamped with the second clamping piece.

Optionally, the first clamping piece is a plugboard, the second clamping piece comprises two clamping plates, and the plugboard can be inserted between the two clamping plates and clamped by the two clamping plates.

Optionally, the trough keel includes a multi-section sub-keel, the sub-keel including: the sub-support and be located the top of sub-support and follow sub-basin that the length direction of sub-fossil fragments extends, adjacent two the end connection that is close to each other of sub-basin.

Optionally, the sub-sink has a hollow cavity along two ends of the length direction of the sink keel, the sink keel further comprises a sleeve core, and two opposite ends of the sleeve core are respectively sleeved in the hollow cavities of the adjacent two adjacent ends of the sub-sink.

Optionally, the roof panel includes: the water tank comprises a main body plate, edges lapped on the water tank and a connecting plate for connecting the main body plate and the edges; the connection plate is bent upward with respect to the body plate.

Optionally, the two edges of the adjacent roof boards that are close to each other include: the lap joint part is positioned on the edge of the top end opening of the water tank, and the hem exceeds the edge of the water tank and extends towards the bottom in the water tank.

According to the technical scheme, the roof system provided by the embodiment of the invention is provided with the strip-shaped trough keels, and the length of the trough is matched with the length of the roof board along the length direction of the trough keels, namely, the trough is continuous and long; two edges close to each other in the adjacent roof boards are lapped on two opposite edges of the top opening of the water tank, and the edges close to each other in the adjacent roof boards are fixedly connected with the water tank at the lapped position. Because the water tank is continuous and long, when the wind-proof clip is used for fixing the roof board and the water tank, after the wind-proof clip is dislocated, the contact area between the wind-proof clip and the roof board and the water tank can not be changed, thereby solving the problems that the biting capacity of the wind-proof clip and the water tank is greatly reduced and the roof board is loosened due to the dislocation of the wind-proof clip and the support in the prior art.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a front view of a prior art upright serging roofing system;

FIG. 2 is a schematic view of a roofing system according to an embodiment of the present invention;

FIG. 3 is a front view of a roofing system in accordance with an embodiment of the present invention;

FIG. 4 is a side view of a roofing system according to an embodiment of the present invention;

FIG. 5 is a front view of a roofing system in another embodiment of the invention;

fig. 6 is a schematic structural view of a sub-keel according to an embodiment of the invention;

Fig. 7 is a schematic view of the installation of a keel and core according to an embodiment of the invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

The terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more.

The roof system comprises a roof board and a support, and when the support and a plurality of windproof clamps which are arranged in a segmented mode are connected in a matched mode, the situation that the windproof clamps and the support are misplaced can occur, so that the engagement capacity of the windproof clamps and the support is greatly reduced, and the roof board is loosened. The roof system provided by the invention is used for respectively improving the roof plate and the support in order to prevent the roof plate from loosening. Wherein, the top end of the support is provided with a strip-shaped water tank, the length of the water tank is matched with the length of the roof board (the meaning is that the length of the water tank is equal to or approximately equal to the length of the roof board, wherein, the approximate equality means that the difference between the length of the water tank and the length of the roof board is far smaller than the length of the water tank or the length of the roof board, so to speak, the difference between the length of the water tank and the length of the roof board is smaller than a threshold value), namely, the water tank is continuous and long, and two edges which are close to each other in the adjacent roof boards are lapped on two opposite edges of the top end opening of the water tank and are fixedly connected with the water tank; therefore, the trough is continuous and long, even if the wind-proof clip is used for fixing the roof board and the trough, the contact area between the wind-proof clip and the roof board and the trough can not be changed after the wind-proof clip is misplaced, so that the biting capability can not be reduced, and the improved roof board and the support are not required to be fixed by the wind-proof clip.

See the roofing system shown in fig. 2 and 3. The roof system provided by the invention comprises a cover plate 1, a roof plate 2, a strip-shaped water tank keel 3, a sealing piece 4, heat preservation cotton 7, a steel wire mesh 8 and a main sandal wood strip 9. The roof boarding 2 is located the below of apron 1, presss from both sides between apron 1 and the roof boarding 2 and is equipped with sealing member 4, and the border 23 overlap joint of roof boarding 2 is on the top 301 of basin fossil fragments 3 to with the top 301 fixed connection of basin fossil fragments 3, the bottom 322 of basin fossil fragments 3 is fixed on the upper surface of wire net 8, is filled with heat preservation cotton 7 between the upper surface of roof boarding 2 and the wire net 8 (the upper surface of wire net will be provided with waterproof ventilated membrane generally), and main sandal strip 9 sets up in the lower surface of wire net 8. The roof board 2 has opposite upper and lower surfaces, one side of the roof board 2 pointing to the cover board 1 is the upper surface, and the other side pointing to the opposite direction is the lower surface; the steel wire mesh 8 has opposite upper and lower surfaces, and the side of the steel wire mesh 8 directed to the cover plate 1 is the upper surface and the side directed to the opposite direction is the lower surface.

See the roofing system shown in figures 2,3 and 4. The cover plate 1 includes: an upper surface 11 and a lower surface 12. Alternatively, the shape of the upper surface 11 of the cover plate 1 is an arch, and the arch refers to a cross section of the upper surface of the cover plate 1 being an arch (the cross section is a cross section perpendicular to the length direction of the trough runner 3), specifically, the arch may be a part of a circle, a parabola, an ellipse, where in the case that the arch may be a part of a circle, the upper surface 11 of the cover plate 1 may be regarded as a part of dividing a cylinder along its axial section, or a part of dividing a cylinder along a plane parallel to its axial section, or a part of dividing a sphere along a plane parallel to its spherical center. The shape of the cover plate 1 is not limited thereto, and it may be other shapes, for example, a trapezoid having an upper surface length smaller than a lower surface length, the trapezoid means that the cross section of the upper surface 11 of the cover plate 1 is a trapezoid (the cross section is a cross section perpendicular to the length direction of the sink keel 3), and the upper surface 11 of the cover plate 1 may be regarded as a terrace. The top of the arch is smooth, so that water or sundries easily slide off when falling on the top surface of the cover plate, water or sundries cannot be accumulated on the top of the cover plate, the prismatic upper surface is not easy to slide off when water or sundries fall on the top surface of the cover plate, water or sundries can be accumulated on the top of the cover plate, excessive accumulation can increase the load of the cover plate, and the cover plate is easy to damage. Therefore, the cover plate 1 with an arched upper surface is selected in this embodiment.

For example, referring to fig. 3, the lower surface 12 of the cover plate 1 has no opening, and the cross section of the cover plate 1 perpendicular to the length direction of the trough runner 3 is a closed whole.

As another example, referring to fig. 5, the lower surface 12 of the cover plate 1 is provided with an opening in the width direction of the trough runner 3, and the cover plate 1 is not closed in a cross section perpendicular to the length direction of the trough runner 3.

See the roofing system shown in fig. 3 and 4. The trough runner 3 includes: the support 32 and the basin 31 that is located the top of support 32 and extends along the length direction of basin fossil fragments 3, wherein, along the length direction of basin fossil fragments 3, the length of basin 31 suits with the length of roof boarding 2, and two border that are close to each other in adjacent roof boarding 2 overlap joint respectively on the two opposite borders of the top 301 opening of basin 31, and two border 23 that are close to each other in adjacent roof boarding 2 all with basin 31 fixed connection in the position of overlap joint, the bottom 322 of support 32 has connecting portion 321. The roof boarding 2 is suitable for the length of the water tank 31, which means that the water tank keel 3 is continuous and long, the edge of the roof boarding 2 can be completely overlapped on the edge of the water tank, the roof boarding 2 can be firmly fixed on the edge of the water tank 31 by using screws, if the water tank keel 3 is fixed by using the windproof clamp, when the windproof clamp is installed, the contact area between the windproof clamp and the roof boarding 2 and the water tank 31 is not changed when the edges of the windproof clamp and the water tank 31 are misplaced, and therefore, the occlusion capacity is not greatly reduced when the windproof clamp is installed at any position of the water tank 31. The water tank 31 is provided so that water flowing down from the cover plate 1 is discharged through the water tank 31 and does not flow into the room from the gap between the cover plate 1 and the roof plate 2.

For example, referring to fig. 3, the roof panel 2 includes: the main body plate 21, the edge overlapping the water tank 31, and the connection plate 22 connecting the main body plate 21 and the tip 301 are bent upward with respect to the main body plate 21. The connection plate 22 bent upward is provided so that water flowing down from the cover plate 1 flows onto the body plate 21 by gravity along the connection plate 22 and is discharged from the body plate 21.

For example, referring to fig. 3, two mutually adjacent edges 23 of adjacent roof panels 2 comprise: the lap joint part and the hem 24 are connected, the lap joint part is positioned on the edge of the opening of the top end 301 of the water tank 31, the hem 24 extends out of the edge of the water tank 31 and extends towards the bottom in the water tank 31, and the hem 24 is arranged to enable water flowing into the lap joint part to flow into the water tank 31 along the hem 24, so that the hem 24 plays a role in diversion. The water tank 31 has a top end and a bottom end opposite to each other, and one end fixedly connected to the roof plate 2 is the top end and the other end is the bottom.

Referring to fig. 3, 6 and 7, the elongated trough runner 3 includes a plurality of sections of sub-runners 003, the sub-runners 003 comprising: the sub-mount 0032 and a sub-water tank 0031 located at the tip of the sub-mount 0032 and extending in the longitudinal direction of the sub-keel 003 are connected to each other at the end portions of adjacent two sub-water tanks 0031 which are close to each other. There are two schemes for interconnecting the two sub-tanks 0031: firstly, two ends of each sub-water groove 0031 along the length direction of the water groove keel 3 are provided with hollow cavities, the water groove keel 3 further comprises a sleeve core 302, opposite ends of the sleeve core 302 are respectively sleeved in the hollow cavities of the mutually adjacent ends of the adjacent two sub-water grooves 0031, and a weather-proof adhesive is coated at a gap between the sleeve core 302 and the hollow cavities for sealing; secondly, the sub-water tanks 0031 comprise an inner layer 304 and an outer layer 303, the inner layer 304 and the outer layer 303 are hollow, a sleeve core 302 is arranged between the inner layer 304 and the outer layer 303 at the end parts close to each other in the adjacent two sub-water tanks 0031, the sleeve core 302 extends along the length direction of the water tank keel 3, the adjacent sub-water tanks 0031 are connected through the sleeve core 302, and the sleeve core 302 is fixedly connected with the sleeve position of the adjacent sub-water tanks 0031 through screws 6; third, the adjacent ends of the adjacent two sub-tanks 0031 overlap each other, and are fixed by screws 6 at the overlapping positions. According to the invention, the first scheme is selected, because the thickness of the sleeve core 302 is matched with the thickness of the hollow cavity when the sleeve core 302 is sleeved in the hollow cavity, the sleeve core 302 is in interference fit with the hollow cavity, the sleeve core 302 and the hollow cavity can be connected without fixing by means of screws or other fasteners, the cost of parts is saved, holes are required to be arranged on the sleeve core 302 and the sub-water tank 0031 when the sleeve core is fixed by means of the screws or other fasteners, and water can flow out from the contact place of the holes and the screws due to the existence of the holes, so that water leakage is caused; two adjacent sub-tanks 0031 are provided with hollow cavities only at the end parts close to each other instead of making the whole sub-tank 0031 hollow, so that the processing is convenient; the provision of the sleeve core 302 allows for the connection of two sub-sinks 0031, ensures that the sink runners 3 are continuous in length, and allows for the reception of water where the sub-sinks 0031 contact, leading to the introduction of water into the sub-sink 0031.

See the roofing system shown in figures 2,3 and 5. The cover plate 1 is fastened to the water tank 31 for shielding (shielding means that both sides of the upper surface 11 of the cover plate 1 in the width direction of the water tank keel 3 are aligned with two opposite edges of the opening of the top end 301 of the water tank 31) the top end opening of the water tank 31, and is detachably and fixedly connected with the water tank 31. The cover plate 1 and the water tank 31 are detachably and fixedly connected in two modes: first, referring to fig. 3, a support 52 is provided in the water tank 31, a first clamping member 51 is provided at the top end of the support 52, a second clamping member 13 is provided at the symmetrical position of the lower surface 12 of the cover plate 1 in the width direction of the water tank keel 3, and the first clamping member 51 is clamped with the second clamping member 13; second, referring to fig. 5, the support 5 is disposed in the water tank 31, the first clamping member 51 is disposed at the top end of the support 52, the connecting member 130 is disposed at a symmetrical position of the upper surface 11 of the cover plate 1 along the width direction of the water tank keel 3, the connecting member 130 extends toward the bottom in the water tank 31, the second clamping member 13 is disposed at the bottom end of the connecting member 130, and the first clamping member 51 is clamped with the second clamping member 13. It should be noted that the connecting member 130 has opposite top and bottom ends, and one end connected to the upper surface 11 of the cover plate 1 is the top end and the end remote from the upper surface of the cover plate 1 is the bottom end. Alternatively, the first clamping member 51 is a board, and the second clamping member 13 includes two clamping plates, and the board can be inserted between and clamped by the two clamping plates.

See the roofing system shown in fig. 3 and 5. Two mutually adjacent edges 23 of adjacent roof panels 2 are sandwiched between the trough 31 and the deck 1, such that when positioned the deck 1 is above the roof panels 2, water will flow from the deck 1 onto the roof panels 2 and drain down the roof panels 2 as it falls. The lower surface 12 of the cover plate 1 is provided with sealing members 4 along both sides of the width direction of the trough runner 3. Optionally, the sealing member is a rubber pad. Two edges 23 close to each other in adjacent roof boards 2 are clamped between the water tank 31 and the sealing member 4, and the sealing member 4 is arranged so that water flowing down on the cover board 1 does not flow into the water tank 31 from a gap where the cover board 1 and the roof boards 2 are contacted, but is discharged through the roof boards 2, and the sealing effect is achieved. The sealing member 4 and the cover plate 1 are connected by a fixing portion 14, the fixing portion 14 is disposed on two sides of the lower surface 12 of the cover plate 1 along the width direction of the trough keel 3, the fixing portion 14 includes a first fixing plate 141 and a second fixing plate 142, the first fixing plate 141 and the second fixing plate 142 are disposed opposite to each other, the shape of the first fixing plate 141 is square or L-shaped, the cross section of the first fixing plate 141 is square (the cross section is a cross section perpendicular to the length direction of the trough keel) or L-shaped, and the shape of the second fixing plate 142 is square or a symmetrical pattern with the long side of the L-shaped as a symmetry axis.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (6)

1. A roofing system, comprising: roof boarding and rectangular shape basin fossil fragments, the basin fossil fragments include: the water tank comprises a support, a water tank, a supporting piece and a first clamping piece, wherein the water tank is arranged at the top end of the support and extends along the length direction of a water tank keel, the supporting piece is arranged in the water tank, the first clamping piece is arranged at the top end of the supporting piece, the length of the water tank is matched with the length of a roof board along the length direction of the water tank keel, two edges, close to each other, of the adjacent roof boards are respectively lapped on two opposite edges of an opening at the top end of the water tank, the two edges, close to each other, of the adjacent roof boards are fixedly connected with the water tank at the lapped position, and a connecting part is arranged at the bottom of the support;

The cover plate is buckled on the water tank, is used for shielding the top opening of the water tank, is detachably and fixedly connected with the water tank, the upper surface of the cover plate is arched, the lower surface of the cover plate is provided with a second clamping piece, the first clamping piece is clamped with the second clamping piece, the first clamping piece is an inserting plate, the second clamping piece comprises two clamping plates, and the inserting plate can be inserted between the two clamping plates and clamped by the two clamping plates;

Two edges of adjacent roof boards, which are close to each other, comprise: the lap joint part is positioned on the edge of the top end opening of the water tank, and the hem exceeds the edge of the water tank and extends towards the bottom in the water tank.

2. The roofing system of claim 1 wherein two adjacent edges of the roof panels are sandwiched between the trough and the deck.

3. The roofing system according to claim 2 wherein the lower surface of the deck is provided with seals on both sides of the trough keel in the width direction, and two edges of adjacent roof panels that are adjacent to each other are sandwiched between the trough and the seals.

4. The roofing system of claim 1 wherein the trough runner includes a plurality of sections of sub-runners, the sub-runners including: the sub-support and be located the top of sub-support and follow sub-basin that the length direction of sub-fossil fragments extends, adjacent two the end connection that is close to each other of sub-basin.

5. The roofing system according to claim 4, wherein the two ends of the sub-trough in the longitudinal direction of the trough keel have hollow cavities, the trough keel further comprising a sleeve core, opposite ends of the sleeve core being respectively sleeved in the hollow cavities of the mutually adjacent ends of the adjacent two sub-troughs.

6. The roofing system of claim 1 wherein the roof panel comprises: the water tank comprises a main body plate, edges lapped on the water tank and a connecting plate for connecting the main body plate and the edges; the connection plate is bent upward with respect to the body plate.