CN114319745B - Roof ventilation ridge structure and installation method - Google Patents

Abstract

The invention relates to a roof ventilation ridge structure and an installation mode, wherein the roof ventilation ridge structure comprises a steel outer plug group and a ridge cover plate, a ventilation structure is arranged between the steel outer plug group and the ridge cover plate, the ventilation structure comprises a ventilation cover plate which is arranged at the upper end of the steel outer plug group through a bending sheet metal part, one side of the ventilation cover plate is connected with the tail inclined part of the ridge cover plate, a supporting folding part is arranged at the other side of the ventilation cover plate, and the upper end of the supporting folding part is propped against the lower end of the middle inclined part of the ridge cover plate.

Description

Roof ventilation ridge structure and installation method

Technical Field

The invention belongs to the technical field of building ventilation, and particularly relates to a roof ventilation ridge structure and an installation method.

Background

The slope roof is the most common roof between the present workshops, and can efficiently drain water to prevent the occurrence of ponding. The slope type roof of most metal roofs in the market is mainly formed by relatively building slope roofs supported by roof beams and columns of a house, and the intersection gap at the top ends of two opposite slope roofs is closed by members such as a steel outer plug, a ridge cover plate and the like, so that the slope type roof is prevented from leaking.

However, the design of the steel outer plugs, the ridge cover plates and other components is limited to the clearance area for sealing the top of the ridge, so that the sealing and waterproof effects are achieved. In hot summer, the indoor humidity is heavy, the roof is irradiated by sun for a long time, so that the indoor hot and humid air rises to the roof and is difficult to discharge through the roof, the indoor temperature is higher than that in the outdoor environment due to continuous accumulation of the hot and humid air, and the indoor smoldering condition is not beneficial to activities of people in the room.

If the hot and humid air accumulated in the indoor space can be discharged in a rhythmic and circulating way, the situation of excessive stuffy indoor space can be effectively improved, and the indoor space is beneficial to people to engage in daily activities, so that a roof ventilation ridge structure and an installation method are needed, namely, accumulated water on the roof can be safely and orderly discharged from top to bottom, the accumulated water is ensured not to enter the indoor space, and the hot and humid air in the indoor space can be discharged.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, and provides a roof ventilation ridge structure and an installation method, which can safely and orderly drain accumulated water of a roof from top to bottom, ensure that the accumulated water does not enter a room, and drain damp and hot air in the room.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows: the utility model provides a ventilative roof ridge structure of roofing, includes outer end cap group of steel, roof ridge apron, has set up ventilative structure between outer end cap group of steel and the roof ridge apron, ventilative structure includes the ventilative apron of installing in outer end cap group upper end of steel through bending sheet metal component, and one side of ventilative apron links to each other with the afterbody tilting part of roof ridge apron, and support book piece is laid to the opposite side of ventilative apron, support book piece upper end and the middle part tilting lower extreme of roof ridge apron offset.

As a preferable scheme of the invention, the ridge cap plate comprises a head inclined part, a middle inclined part and a tail inclined part, wherein the inclination angle of the head inclined part is larger than that of the middle inclined part and the tail inclined part.

As a preferable scheme of the invention, an air collecting cavity is formed at the lower end of the inclined part of the head, an air discharging cavity is formed between the inclined part of the middle part and the ventilation cover plate, and an external air cavity is formed between the inclined part of the tail and the steel outer plug group.

As a preferable scheme of the invention, a plurality of long hole groups and connecting hole groups are arranged on the ventilation cover plate; the long holes of the long hole group and the connecting holes of the connecting hole group are long waist holes; the long holes of the long hole group are distributed at equal intervals, the connecting holes of the connecting hole group are distributed at equal intervals, and the distance between adjacent long holes is smaller than the distance between adjacent connecting holes.

As a preferable scheme of the invention, butyl rubber cement is arranged between the ventilation cover plate and the inclined part of the tail part, and the butyl rubber cement is arranged at the two ends of the ventilation cover plate, which are propped against the steel outer plug group 1.

As a preferable scheme of the invention, the steel outer plug group is formed by connecting a plurality of steel outer plugs, the bending sheet metal part is fixedly connected to the steel outer plugs, and the supporting folding part is positioned in the middle of a single steel outer plug.

As a preferable scheme of the invention, the steel outer plug group is arranged on the roof board through a clamping structure, the clamping structure comprises a strip buckle and an L-shaped clamping groove, a convex clamping part is formed at the lower end of the strip buckle, the clamping part is clamped into a hollow groove part at the upper end of the L-shaped clamping groove, and the lower end of the L-shaped clamping groove is connected to the roof board through threads.

As a preferable scheme of the invention, a layer of butyl mortar is also arranged between the steel outer plug group and the roof board.

A method for installing a permeable roof ridge structure of a roof includes

Step 1: outer plug group for mounting steel

The butyl mortar is laid under the steel outer plug group and is connected with the roof board through the clamping structure steel outer plug group;

Step 2: mounting ventilation cover plate

The bending sheet metal part is arranged on the steel outer plug according to a designated position, the ventilation cover plate is preinstalled on the steel outer plug group through the bending sheet metal part, and the ventilation cover plate is positioned at the front end of the steel outer plug;

Step 3: mounting support folding piece

The roof stitching nail passes through the support folding piece, the ventilation cover plate and the bending sheet metal part, so that the three parts are fixed together. The supporting folded piece is arranged on the steel outer plug and the bending sheet metal piece in the middle;

Step 4: laying butyl cement

And (3) laying butyl mortar at two ends of the breathable cover plate, which are propped against the steel outer plug group.

Step 5: mounting ridge cover plate

The tail inclined part of the ridge cover plate is connected with the ventilation cover plate by using roof stitching nails through butyl daub, and the middle inclined part is erected on the support folding piece to prevent the ridge cover plate from collapsing.

As a preferable scheme of the invention, the bending sheet metal part in the step 2 is connected with the front end of the steel outer plug group in a threaded manner.

The beneficial effects of the invention are as follows:

1. According to the invention, the ventilation structure is arranged between the steel outer plug group and the ridge cover plate, so that accumulated water on the roof can be safely and orderly discharged from top to bottom, and hot and humid air in a room can be continuously discharged out of the room, thereby being beneficial to daily operation of indoor personnel.

2. According to the invention, the butyl adhesive cement is arranged between the ventilation cover plate and the inclined part of the tail part, the butyl adhesive cement is arranged at the two ends of the ventilation cover plate propped against the steel outer plug group, and the butyl adhesive cement is arranged between the steel outer plug group and the roof board, so that the sealing of the connecting part of parts is ensured, the sealing of the whole structure is ensured, the waterproof and windproof effects are effectively realized, and the service life of the structure is prolonged.

3. The roof ridge cover plate is provided with the head inclined part, the middle inclined part and the tail inclined part, and the smaller inclined angles of the middle inclined part and the tail inclined part are beneficial to the smooth support of the middle inclined part and the tail inclined part by the support folding piece and the ventilation cover plate, so that the influence on the subsequent drainage effect caused by the overload deformation of the roof ridge cover plate is avoided, and the larger air discharge cavity is formed between the middle inclined part and the ventilation cover plate, so that the discharge of damp and hot air is facilitated.

4. The ventilation cover plate is provided with a plurality of long hole groups and connecting hole groups; the long hole group is favorable for uniformly replacing hot and humid air, the connecting holes of the connecting hole group are favorable for adjusting the mounting position of the breathable cover plate according to actual requirements, and roof stitching nails are not damaged.

5. The supporting and folding piece is positioned in the middle of the single steel outer plug, and the centering arrangement of the supporting and folding piece is beneficial to the uniform conduction of the ridge cover plate 2 and the bearing force thereof to the ventilation cover plate and the steel outer plug.

Brief description of the drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

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

FIG. 3 is a schematic view of the structure of the present invention mounted on a roof panel;

FIG. 4 is a schematic view of the structure of the bent sheet metal part of the present invention;

FIG. 5 is an enlarged view of part of the clamping structure in the direction A of the present invention;

Reference numerals in the drawings: the steel outer plug group 1, the ridge cover plate 2, the ventilation structure 3, the clamping structure 4, the butyl cement 5, the roof plate 6, the steel outer plug 11, the tail inclined part 21, the middle inclined part 22, the head inclined part 23, the air accumulation cavity 24, the air discharge cavity 25, the outer air cavity 26, the bending sheet metal part 31, the ventilation cover plate 32, the supporting folding piece 33, the long strip buckle 41, the L-shaped clamping groove 42, the bearing part 311, the folding plate 312, the long hole group 321, the connecting hole group 322, the clamping part 411 and the groove 421.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1-2, a roof ventilation ridge structure comprises a steel outer plug group 1 and a ridge cover plate 2, wherein a ventilation structure 3 is arranged between the steel outer plug group 1 and the ridge cover plate 2, the ventilation structure 3 comprises a ventilation cover plate 32 which is arranged at the upper end of the steel outer plug group 1 through a bending sheet metal part 31, one side of the ventilation cover plate 32 is connected with a tail inclined part 21 of the ridge cover plate 2, a supporting folded part 33 is arranged at the other side of the ventilation cover plate 32, and the upper end of the supporting folded part 33 is propped against the lower end of a middle inclined part 22 of the ridge cover plate 2.

The ridge apron 2 lays 2 steel outer end cap groups 1,2 steel outer end cap groups 1 bilateral symmetry lays, and every steel outer end cap group 1 is formed by connecting a plurality of steel outer end caps 11, and the inwards-facing one end of steel outer end cap 11 is equipped with the blocking part, and the outwards-facing one end of steel outer end cap 11 is equipped with the blocking part, and the inwards-facing blocking part of steel outer end cap 11 accepts the water droplet of part meeting cold liquefaction, simultaneously, when hot and humid air is discharged, avoids hot and humid air to move towards bending sheet metal component 31 direction, plays the guide effect.

The roof boarding 2 includes head tilting portion 23, middle part tilting portion 22, afterbody tilting portion 21, the inclination of head tilting portion 23 is greater than middle part tilting portion 22, afterbody tilting portion 21, the great inclination of head tilting portion 23 helps top rivers to discharge downwards fast, and the less inclination of middle part tilting portion 22, afterbody tilting portion 21 is favorable to middle part tilting portion 22 on the one hand, afterbody tilting portion 21 by the steady support of support folded piece 33, ventilative apron 32, avoid carrying the effect of heavy deformation and then influencing follow-up drainage because of roof boarding 2, the other party is favorable to forming great air discharge chamber 25 between middle part tilting portion 22 and the ventilative apron 32, the discharge of moist hot air of being convenient for.

The lower end of the head inclined part 23 forms an air gathering cavity 24, a large amount of rising hot and humid air is gathered in the air gathering cavity 24, an external air cavity 26 is formed between the tail inclined part 21 and the steel outer plug group 1, and the external air cavity 26 gathers part of the air outside.

Specifically, the hot and humid air in the room rises to the air collecting chamber 24, passes through the gaps between the adjacent supporting flaps 33, reaches the air discharging chamber 25, and is discharged to the outside air chamber 26 through the long hole group 321 of the air permeable cover plate 32, and at the same time, the outside air at the outside air chamber 26 enters the room through the air permeable cover plate 32, thereby lowering the temperature in the room.

As shown in fig. 3, a plurality of long hole groups 321 and connecting hole groups 322 are arranged on the ventilation cover plate 32; the long holes of the long hole group 321, the connecting holes of the connecting hole group 322 are long waist holes, the long holes of the long hole group 321 are distributed at equal intervals, the connecting holes of the connecting hole group 322 are distributed at equal intervals, the distance between adjacent long holes is smaller than that between adjacent connecting holes, denser long holes are favorable for uniformly replacing hot and humid air, the connecting holes of the connecting hole group 322 are favorable for adjusting the mounting position of the breathable cover plate 32 according to actual requirements, and roof stitching nails are not damaged.

Butyl cement 5 is distributed between the ventilation cover plate 32 and the tail inclined part 21, the butyl cement 5 promotes sealing between the ventilation cover plate 32 and the ridge cover plate 2, water flow on the ridge cover plate 2 is prevented from entering a room through gaps between the ventilation cover plate 32 and the tail inclined part 21, the butyl cement 5 is laid at two ends of the ventilation cover plate 32, which are propped against the steel outer plug group 1, and water flow on the ridge cover plate 2 is prevented from entering the room through two ends of the ventilation cover plate 32.

As shown in fig. 4, the bending sheet metal part 31 is fixedly connected to the steel outer plug 11, the upper end of the bending sheet metal part 31 is provided with a receiving part 311 for stably receiving the ventilation cover plate 32, both ends and the bottom of the bending sheet metal part 31 are provided with folded plates 312 adapted to the steel outer plug 11, round holes are orderly arranged on the folded plates 312, screws are screwed into the round holes to realize connection of the bending sheet metal part 31 and the steel outer plug 11, the supporting folded part 33 is positioned in the middle position of the single steel outer plug 11, and the centering arrangement of the supporting folded part 33 is favorable for uniformly transmitting the force of the ridge cover plate 2 and the bearing thereof to the ventilation cover plate 32 and the steel outer plug 11.

As shown in fig. 5, the steel outer plug group 1 is installed on the roof board 6 through the clamping structure 4, the clamping structure 4 comprises a strip buckle 41 and an L-shaped clamping groove 42, a protruding clamping portion 411 is formed at the lower end of the strip buckle 41, the clamping portion 411 is clamped into a hollow groove portion 421 at the upper end of the L-shaped clamping groove 42, the lower end of the L-shaped clamping groove 42 is in threaded connection with the roof board 6, the structure of the clamping structure 4 is ingenious, the installation time is not required to be spent greatly, and the structure installation efficiency is greatly improved.

A layer of butyl mortar is further arranged between the steel outer plug group 1 and the roof board 6, and the butyl mortar promotes sealing between the steel outer plug group 1 and the roof board 6.

The method for installing the breathable roof ridge structure of the roof comprises the following steps of

Step 1: outer plug group for mounting steel

The butyl mortar is laid under the steel outer plug group and is connected with the roof board through the clamping structure steel outer plug group;

Step 2: mounting ventilation cover plate

The bending sheet metal part is arranged on the steel outer plug according to a designated position, the ventilation cover plate is preinstalled on the steel outer plug group through the bending sheet metal part, and the ventilation cover plate is positioned at the front end of the steel outer plug;

Step 3: mounting support folding piece

The roof stitching nail passes through the support folding piece, the ventilation cover plate and the bending sheet metal part, so that the three parts are fixed together. The supporting folded piece is arranged on the steel outer plug and the bending sheet metal piece in the middle;

Step 4: laying butyl cement

Butyl daub is laid at two ends of the ventilation cover plate, which are propped against the steel outer plug group;

step 5: mounting ridge cover plate

The tail inclined part of the ridge cover plate is connected with the ventilation cover plate by using roof stitching nails through butyl daub, and the middle inclined part is erected on the support folding piece to prevent the ridge cover plate from collapsing;

and 2, connecting the bending sheet metal part in the step with the front end of the steel outer plug group in a threaded manner.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention; thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Although the reference numerals in the figures are used more herein: the steel outer plug group 1, the ridge cover plate 2, the ventilation structure 3, the clamping structure 4, the butyl cement 5, the roof plate 6, the steel outer plug 11, the tail inclined part 21, the middle inclined part 22, the head inclined part 23, the air accumulation cavity 24, the air discharge cavity 25, the outer air cavity 26, the bending sheet metal part 31, the ventilation cover plate 32, the supporting folded part 33, the long strip buckle 41, the L-shaped clamping groove 42, the bearing part 311, the folded plate 312, the long hole group 321, the connecting hole group 322, the clamping part 411, the groove 421 and other terms are not excluded from the possibility of using other terms; these terms are used merely for convenience in describing and explaining the nature of the invention; they are to be interpreted as any additional limitation that is not inconsistent with the spirit of the present invention.

Claims (8)

1. The utility model provides a ventilative roof ridge structure of roofing which characterized in that: the novel steel ridge sealing structure comprises a steel outer plug group (1) and a ridge cover plate (2), wherein a ventilation structure (3) is arranged between the steel outer plug group (1) and the ridge cover plate (2), the ventilation structure (3) comprises a ventilation cover plate (32) arranged at the upper end of the steel outer plug group (1) through a bending sheet metal part (31), one side of the ventilation cover plate (32) is connected with a tail inclined part (21) of the ridge cover plate (2), a supporting folded part (33) is arranged at the other side of the ventilation cover plate (32), and the upper end of the supporting folded part (33) is propped against the lower end of a middle inclined part (22) of the ridge cover plate (2); the ridge cover plate (2) comprises a head inclined part (23), a middle inclined part (22) and a tail inclined part (21), wherein the inclined angle of the head inclined part (23) is larger than that of the middle inclined part (22) and the tail inclined part (21); the air collecting cavity (24) is formed at the lower end of the head inclined part (23), the air discharging cavity (25) is formed between the middle inclined part (22) and the ventilation cover plate (32), and the external air cavity (26) is formed between the tail inclined part (21) and the steel external plug group (1).

2. A roof ventilation ridge structure in accordance with claim 1 wherein: a plurality of long hole groups (321) and connecting hole groups (322) are arranged on the ventilation cover plate (32); the long holes of the long hole group (321) and the connecting holes of the connecting hole group (322) are long waist holes; the long holes of the long hole group (321) are distributed at equal intervals, the connecting holes of the connecting hole group (322) are distributed at equal intervals, and the distance between adjacent long holes is smaller than the distance between adjacent connecting holes.

3. A roof ventilation ridge structure in accordance with claim 1 wherein: butyl cement (5) is distributed between the ventilation cover plate (32) and the tail inclined part (21), and the butyl cement (5) is distributed at two ends of the ventilation cover plate (32) propped against the steel outer plug group (1).

4. A roof ventilation ridge structure in accordance with claim 1 wherein: the steel outer plug group (1) is formed by connecting a plurality of steel outer plugs (11), a bending sheet metal part (31) is fixedly connected to the steel outer plugs (11), and a supporting folding part (33) is positioned in the middle of a single steel outer plug (11).

5. A roof ventilation ridge structure in accordance with claim 1 wherein: the steel outer plug group (1) is installed on a roof board through a clamping structure (4), the clamping structure (4) comprises a long buckle (41) and an L-shaped clamping groove (42), a protruding clamping portion (411) is formed at the lower end of the long buckle (41), the clamping portion (411) is clamped into a hollow groove portion (421) in the upper end of the L-shaped clamping groove (42), and the lower end of the L-shaped clamping groove (42) is connected to the roof board through threads.

6. A roof ventilation ridge structure in accordance with claim 5 wherein: a layer of butyl mortar is further arranged between the steel outer plug group (1) and the roof board (6).

7. The method for installing the ventilation ridge structure of the roof is characterized by comprising the following steps of: comprising

Step 1: outer plug set of mounting steel (1)

The butyl mortar is laid under the steel outer plug group, and the steel outer plug group (1) is connected with the roof board (6) through the clamping structure (4);

Step 2: mounting ventilation cover (32)

The bending sheet metal part (31) is arranged on the steel outer plug (1) according to a designated position, the ventilation cover plate (32) is preinstalled on the steel outer plug group (1) through the bending sheet metal part (31), and the ventilation cover plate (32) is positioned at the front end of the steel outer plug (1);

Step 3: mounting support folding member (33)

The roof stitching nails penetrate through the supporting folding piece (33), the ventilation cover plate (32) and the bending sheet metal part (31) to fix the supporting folding piece (33) and the bending sheet metal part (31) together, and the supporting folding piece (33) is arranged on the steel outer plug (1) and the bending sheet metal part (31) in the middle;

Step 4: butyl gum (5)

Butyl daub (5) is laid at two ends of the ventilation cover plate (32) which are propped against the steel outer plug group (1);

step 5: mounting ridge cover board (2)

The tail inclined part of the ridge cover plate (2) is connected with the ventilation cover plate (32) by using roof stitching nails through the butyl daub (5), and the middle inclined part is erected on the supporting folding piece (33) to prevent the ridge cover plate (2) from collapsing.

8. The method of installing a breathable roofing ridge structure of claim 7, wherein: and (2) the bending sheet metal part in the step (2) is in threaded connection with the front end of the steel outer plug group.