CN115095085A

CN115095085A - Assembled roofing ridge structure

Info

Publication number: CN115095085A
Application number: CN202210949988.0A
Authority: CN
Inventors: 贾雨薇; 李鸿飞; 刘格佳; 王汇欢; 蔺勤富
Original assignee: Jilin New Concrete Zhonghui Prefabrication And Assembly Technology Co ltd; Jilin Jianzhu University
Current assignee: Jilin New Concrete Zhonghui Prefabrication And Assembly Technology Co ltd; Jilin Jianzhu University
Priority date: 2022-08-09
Filing date: 2022-08-09
Publication date: 2022-09-23
Anticipated expiration: 2042-08-09
Also published as: CN115095085B

Abstract

The invention is suitable for the technical field of roof ridge structures, and provides an assembled roof ridge structure, which comprises a ridge, a connecting mechanism, a plurality of roof panels fixed on the ridge through the connecting mechanism, and the assembled roof ridge structure also comprises: the roof is characterized in that the guide sliding grooves are formed in two sides of the ridge, the connecting mechanism comprises a connecting section, a pressing plate, a fastening nut, a rubber pad and a pre-tightening structure, and a protruding block is fixed on the connecting section and is in sliding fit with the guide sliding grooves. During installation, the connecting section bar is inserted into the ridge through the sliding fit of the convex block and the guide sliding groove, the rubber pad is placed in a clamping space formed by the connecting section bar and the pressing plate, the roof panel is inserted into the clamping space, the fastening nut is rotated at the moment, the connecting section bar and the pressing plate are enabled to clamp and fix the roof panel through the rubber pad, and therefore water leakage at the joint of the roof panel, the connecting section bar and the pressing plate is prevented, and the waterproof effect is achieved.

Description

Assembled roofing ridge structure

Technical Field

The invention belongs to the technical field of roof ridge structures, and particularly relates to an assembled roof ridge structure.

Background

During construction at an outdoor construction site, temporary houses need to be built for constructors to live in, and the roofs and the ridges of the houses are generally processed and then sent to a construction site to be assembled on site, so that the building effect of the temporary houses is improved.

The existing roof and ridge are generally connected by bolts, and in order to ensure that the water seepage condition cannot occur at the joint, the rubber pad is laid at the joint for waterproof treatment, the rubber pad is slowly aged by being exposed to heat and rain, the elasticity of the aged rubber pad is reduced, the thickness is reduced, and at the moment, the joint is thinned to form a gap, so that the waterproof effect is reduced.

Disclosure of Invention

The embodiment of the invention aims to provide an assembled roof ridge structure, and aims to solve the problem that the elasticity of an aged rubber pad is reduced, so that the waterproof effect is poor due to the occurrence of a gap at a joint.

The invention is realized in this way, an assembled roof ridge structure, including ridge and coupling mechanism, and fix a plurality of roofing panels on the ridge through the coupling mechanism, also include:

the connecting mechanism comprises a connecting section, a pressing plate, a fastening nut, a rubber pad and a pre-tightening structure, wherein a convex block is fixed on the connecting section and is in sliding fit with the guide sliding grooves;

the rubber pad is arranged between the connecting section bar and the pressing plate, the rubber pad is concave, the roof panel is arranged in a concave groove of the rubber pad, the pre-tightening structure is arranged on the connecting section bar, the fastening nut is in threaded fit with the pre-tightening structure, the connecting section bar and the pressing plate are fixedly connected through the fastening nut and the pre-tightening structure, and the pre-tightening structure pulls the pressing plate to move towards the connecting section bar through the fastening nut.

Further technical scheme, pretension structure includes first guide way, first guide block, extension spring and shrink subassembly, first guide way sets up on the connecting profile, first guide block sliding connection is in first guide way, the both ends of extension spring are connected with first guide block and connecting profile respectively, fastening nut and first guide block screw-thread fit, the both ends of shrink subassembly are connected with first guide block and connecting profile respectively, the removal of shrink subassembly through the first guide block of mode restriction of shrink to the clamp plate.

A further technical scheme, shrink subassembly is including fixed cover, fixed axle, rotation cover, direction slider, restriction reversal subassembly and drive assembly, fixed cover and fixed axle are fixed respectively on first guide block and joining profile, the fixed axle slides in fixed cover, the end of fixed cover is provided with the mounting groove, it connects in the mounting groove to rotate the cover rotation, the direction slider is fixed in rotating the cover, be provided with the spiral spout on the lateral wall of fixed axle, direction slider and spiral spout sliding fit, drive assembly sets up on fixed sheathe, the restriction reversal subassembly sets up on drive assembly, the restriction reversal subassembly passes through drive assembly restriction rotation cover reversal, and drive assembly makes restriction reversal subassembly work through fastening nut.

Further technical scheme, the transmission assembly includes third guide way, third guide block, second pressure spring and promotes the piece, the third guide way sets up on fixed sheathe in, third guide block sliding connection is in the third guide way, the both ends of second pressure spring are connected with the one end of fixed cover and third guide block respectively, it fixes on the other end of third guide block to promote the piece, the restriction reversal subassembly sets up on the third guide block, promote piece and fastening nut sliding fit.

According to a further technical scheme, the matching surfaces of the pushing block and the fastening nut are subjected to chamfering treatment.

Further technical scheme, the restriction reversal subassembly includes ratchet ring, second guide way, second guide block, first pressure spring and meshing tooth, the ratchet ring is fixed and is sheathe in rotating, the second guide way sets up on the third guide block, second guide block sliding connection is in the second guide way, first pressure spring and meshing tooth are fixed respectively at the both ends of second guide block, and ratchet ring and meshing tooth meshing cooperation.

According to the further technical scheme, the ridge is fixedly connected with the connecting section bar through bolts.

According to the assembled roof ridge structure provided by the embodiment of the invention, during installation, the connecting section is inserted into the ridge through the sliding fit of the convex block and the guide sliding chute, the rubber pad is placed in the clamping space formed by the connecting section and the pressing plate, the roof panel is inserted into the clamping space, the fastening nut is rotated at the moment, so that the connecting section and the pressing plate clamp and fix the roof panel through the rubber pad, the water leakage at the joint of the roof panel and the connecting section as well as the pressing plate is prevented, the waterproof effect is achieved, when the rubber pad is aged and thinned, gaps occur at the joint of the roof panel and the connecting section as well as the pressing plate, at the moment, the pre-tightening structure pulls the pressing plate to move towards the connecting section, the gaps occur at the joint of the roof panel and the connecting section as well as the pressing plate are prevented, and the good waterproof performance of the joint of the roof panel and the connecting section as well as the pressing plate is ensured.

Drawings

Fig. 1 is a schematic structural diagram of an assembled roof ridge structure according to an embodiment of the present invention;

FIG. 2 is a schematic front view of an assembled roof ridge structure according to an embodiment of the present invention;

FIG. 3 is an enlarged structural diagram of A in FIG. 2 according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of B-B in FIG. 2 according to an embodiment of the present invention;

FIG. 5 is an enlarged structural diagram of C in FIG. 4 according to an embodiment of the present invention;

fig. 6 is an enlarged schematic structural diagram of D in fig. 5 according to an embodiment of the present invention.

In the drawings: the roof structure comprises a ridge 101, a roof panel 102, a convex block 103, a guide sliding groove 104, a connecting mechanism 2, a connecting section bar 201, a pressing plate 202, a fastening nut 203, a rubber pad 204, a pre-tightening structure 3, a first guide groove 301, a first guide block 302, a tension spring 303, a contraction assembly 4, a fixing sleeve 401, a fixing shaft 402, a mounting groove 403, a rotating sleeve 404, a guide sliding block 405, a spiral sliding groove 406, a reverse rotation limiting assembly 5, a ratchet ring 501, a second guide groove 502, a second guide block 503, a first pressure spring 504, an engaging tooth 505, a transmission assembly 6, a third guide groove 601, a third guide block 602, a second pressure spring 603 and a pushing block 604.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1 to 4, an assembled roof ridge structure provided for an embodiment of the present invention includes a ridge 101, a connecting mechanism 2, and a plurality of roof panels 102 fixed on the ridge 101 by the connecting mechanism 2, and further includes:

the roof ridge structure comprises guide sliding grooves 104 arranged on two sides of a ridge 101, wherein a connecting mechanism 2 comprises a connecting section bar 201, a pressing plate 202, a fastening nut 203, a rubber pad 204 and a pre-tightening structure 3, a convex block 103 is fixed on the connecting section bar 201, and the convex block 103 is in sliding fit with the guide sliding grooves 104;

the rubber pad 204 is arranged between the connecting section bar 201 and the pressing plate 202, the rubber pad 204 is concave, the roof panel 102 is arranged in a concave groove of the rubber pad 204, the pre-tightening structure 3 is arranged on the connecting section bar 201, the fastening nut 203 is in threaded fit with the pre-tightening structure 3, the connecting section bar 201 and the pressing plate 202 are fixedly connected with the pre-tightening structure 3 through the fastening nut 203, and the pre-tightening structure 3 pulls the pressing plate 202 to move towards the connecting section bar 201 through the fastening nut 203.

In the embodiment of the invention, during installation, the connecting section bar 201 is inserted into the ridge 101 through the sliding fit of the convex block 103 and the guide chute 104, the rubber gasket 204 is placed in the clamping space formed by the connecting section bar 201 and the pressing plate 202, the roof panel 102 is inserted into the clamping space, at this time, the fastening nut 203 is rotated, so that the connecting section bar 201 and the pressing plate 202 clamp and fix the roof panel 102 through the rubber gasket 204, thereby preventing the water leakage at the joint of the roof panel 102, the connecting section 201 and the pressing plate 202, achieving the waterproof effect, when the rubber mat 204 ages and becomes thin, a gap appears at the joint of the roof panel 102, the connecting profile 201 and the pressing plate 202, at this time, the pre-tightening structure 3 pulls the pressing plate 202 to move towards the connecting profile 201, thereby preventing the seam from appearing in roofing panel 102 and the junction of joining profile 201 and clamp plate 202, guarantee that roofing panel 102 and the junction of joining profile 201 and clamp plate 202 possess good waterproof performance.

As shown in fig. 4, as a preferred embodiment of the present invention, the pretensioning structure 3 includes a first guide groove 301, a first guide block 302, a tension spring 303 and a retraction assembly 4, the first guide groove 301 is disposed on the connection profile 201, the first guide block 302 is slidably connected in the first guide groove 301, two ends of the tension spring 303 are respectively connected with the first guide block 302 and the connection profile 201, the fastening nut 203 is in threaded fit with the first guide block 302, two ends of the retraction assembly 4 are respectively connected with the first guide block 302 and the connection profile 201, and the retraction assembly 4 restricts the movement of the first guide block 302 to the pressing plate 202 in a retraction manner.

In the embodiment of the invention, the fastening nut 203 is rotated, the fastening nut 203 drives the first guide block 302 to move upwards through the thread matching with the first guide block 302 until the fastening nut 203 is fixedly connected with the first guide block 302 through thread self-locking, when the rubber pad 204 is aged and thinned, a gap appears at the joint of the roof panel 102 and the connecting profile 201 and the pressing plate 202, at this time, the tension spring 303 pulls the first guide block 302 to move towards the connecting profile 201, the first guide block 302 pulls the pressing plate 202 to move towards the connecting profile 201 through the fastening nut 203, so that the gap appears at the joint of the roof panel 102 and the connecting profile 201 and the pressing plate 202, the good waterproof performance at the joint of the roof panel 102 and the connecting profile 201 and the pressing plate 202 is ensured, meanwhile, the contraction assembly 4 can contract along with the movement of the first guide block 302, and the contraction assembly 4 limits the movement of the first guide block 302 towards the pressing plate 202 in a contraction mode, therefore, the clamping force effect of the connecting section bar 201 and the pressing plate 202 on the roof panel 102 is avoided when the tension spring 303 is damaged, and the stability of connection and sealing of the connecting section bar 201 and the pressing plate 202 is ensured.

As shown in fig. 4 and 5, as a preferred embodiment of the present invention, the retraction assembly 4 includes a fixing sleeve 401, a fixing shaft 402, a rotating sleeve 404, a guiding slider 405, a reverse rotation limiting assembly 5 and a transmission assembly 6, the fixing sleeve 401 and the fixing shaft 402 are respectively fixed on the first guiding block 302 and the connecting profile 201, the fixing shaft 402 slides in the fixing sleeve 401, the end of the fixing sleeve 401 is provided with a mounting groove 403, the rotating sleeve 404 is rotatably connected in the mounting groove 403, the guiding slider 405 is fixed in the rotating sleeve 404, a spiral sliding groove 406 is arranged on the side wall of the fixing shaft 402, the guiding slider 405 is in sliding fit with the spiral sliding groove 406, the transmission assembly 6 is arranged on the fixing sleeve 401, the reverse rotation limiting assembly 5 is arranged on the transmission assembly 6, the reverse rotation limiting assembly 5 limits the reverse rotation of the rotating sleeve 404 through the transmission assembly 6, the transmission assembly 6 operates the reverse rotation restricting assembly 5 by tightening the nut 203.

In the embodiment of the invention, the fastening nut 203 is rotated, the fastening nut 203 drives the first guide block 302 to move upwards through the thread fit with the first guide block 302, the first guide block 302 drives the fixing sleeve 401 to move upwards, the fixing sleeve 401 rotates clockwise at an overlooking angle through the sliding fit of the guide sliding block 405 and the spiral sliding groove 406 until the fastening nut 203 is fixedly connected with the first guide block 302 through thread self-locking, when the rubber pad 204 becomes thinner due to aging, the tension spring 303 pulls the first guide block 302 to move downwards, at this time, the fixing sleeve 401 rotates counterclockwise at the overlooking angle through the sliding fit of the guide sliding block 405 and the spiral sliding groove 406, the reverse rotation limiting assembly 5 limits the reverse rotation of the rotating sleeve 404 through the transmission assembly 6, and further limits the upward movement of the rotating sleeve 404, thereby avoiding the clamping force effect of the connecting profile 201 and the pressing plate 202 on the roof panel 102 due to the damage of the tension spring 303, the stability of the connection sealing of the connecting section bar 201 and the pressing plate 202 is ensured.

As shown in fig. 4-6, as a preferred embodiment of the present invention, the transmission assembly 6 includes a third guide groove 601, a third guide block 602, a second compression spring 603 and a push block 604, the third guide groove 601 is disposed on the fixing sleeve 401, the third guide block 602 is slidably connected in the third guide groove 601, two ends of the second compression spring 603 are respectively connected with one end of the fixing sleeve 401 and one end of the third guide block 602, the push block 604 is fixed on the other end of the third guide block 602, the reverse rotation limiting assembly 5 is disposed on the third guide block 602, the push block 604 is slidably engaged with the fastening nut 203, and the engaging surfaces of the push block 604 and the fastening nut 203 are chamfered.

In the embodiment of the invention, the fastening nut 203 drives the first guide block 302 to move upwards through the thread matching with the first guide block 302, at this time, the first guide block 302 drives the fixing sleeve 401 to move upwards, the fastening nut 203 moves downwards relative to the pushing block 604, the fastening nut 203 pushes the pushing block 604 to move leftwards, the pushing block 604 drives the third guide block 602 to move leftwards in the third guide groove 601, and the third guide block 602 drives the reverse rotation limiting assembly 5 to work until the fastening nut 203 is fixedly connected with the first guide block 302 through thread self-locking.

As shown in fig. 5 and 6, as a preferred embodiment of the present invention, the reverse rotation limiting assembly 5 includes a ratchet ring 501, a second guide groove 502, a second guide block 503, a first compression spring 504 and engaging teeth 505, the ratchet ring 501 is fixed on the rotating sleeve 404, the second guide groove 502 is arranged on a third guide block 602, the second guide block 503 is slidably connected in the second guide groove 502, the first compression spring 504 and the engaging teeth 505 are respectively fixed on both ends of the second guide block 503, and the ratchet ring 501 is engaged with the engaging teeth 505.

In the embodiment of the present invention, the first compression spring 504 pushes the engagement teeth 505 to engage with the ratchet ring 501 through the second guide block 503, so that the engagement teeth 505 limit the rotation of the ratchet ring 501 in the clockwise direction at the top view angle, and the ratchet ring 501 limits the rotation of the rotating sleeve 404 in the clockwise direction at the top view angle, so as to limit the upward movement of the rotating sleeve 404, and thus the upward movement of the fixing sleeve 401.

As shown in fig. 1 and 2, as a preferred embodiment of the present invention, the ridge 101 and the connecting section bar 201 are fixedly connected by bolts.

In the embodiment of the present invention, after the connecting section bar 201 on the ridge 101 is adjusted to a proper position by sliding, the ridge 101 is fixedly connected with the connecting section bar 201 by using bolts.

The embodiment of the invention provides an assembled roof ridge structure, during installation, the connecting section 201 is inserted into the ridge 101 through the sliding fit of the convex block 103 and the guide sliding chute 104, the rubber pad 204 is placed in the clamping space formed by the connecting section 201 and the pressing plate 202, the roof panel 102 is inserted into the clamping space, at the moment, the fastening nut 203 is rotated, so that the connecting section 201 and the pressing plate 202 clamp and fix the roof panel 102 through the rubber pad 204, thereby preventing water leakage at the joint of the roof panel 102 and the connecting section 201 and the pressing plate 202, achieving the waterproof effect, meanwhile, the fastening nut 203 drives the first guide block 302 to move upwards through the threaded fit with the first guide block 302, the first guide block 302 drives the fixing sleeve 401 to move upwards, the fastening nut 203 moves downwards relative to the pushing block 604, the fastening nut 203 pushes the pushing block 604 to move leftwards, the pushing block 604 drives the third guide block 602 to move leftwards in the third guide groove 601, so that the second guide block 503 pushes the engaging teeth 505 to engage and cooperate with the ratchet ring 501 until the fastening nut 203 is fixedly connected with the first guide block 302 through thread self-locking, when the rubber mat 204 is aged and thinned, a gap appears at the joint of the roof panel 102 and the connecting section 201 and the pressing plate 202, at this time, the tension spring 303 pulls the first guide block 302 to move towards the connecting section 201, the first guide block 302 pulls the pressing plate 202 to move towards the connecting section 201 through the fastening nut 203, so that the gap appears at the joint of the roof panel 102 and the connecting section 201 and the pressing plate 202 is prevented, good waterproof performance is ensured at the joint of the roof panel 102 and the connecting section 201 and the pressing plate 202, and simultaneously, when the fixing sleeve 401 moves towards the connecting section 201, the roof panel rotates anticlockwise at an overlooking angle through sliding fit of the guide slider 405 and the spiral chute 406, when meshing tooth 505 and ratchet ring 501 meshing, meshing tooth 505 restriction ratchet ring 501 is with overlooking the rotation of angle clockwise, ratchet ring 501 restriction rotation cover 404 is with overlooking the rotation of angle clockwise to the restriction rotates cover 404 upward movement, and then the upward movement of restriction fixed cover 401, thereby avoid appearing the condition emergence of connecting section bar 201 and clamp plate 202 to the clamping-force effect of roofing panel 102 when owing to extension spring 303 damages, guarantee to connect section bar 201 and clamp plate 202 to connect sealed stability.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. The utility model provides an assembled roofing ridge structure, includes ridge and coupling mechanism to and fix a plurality of roofing panels on the ridge through coupling mechanism, its characterized in that still includes:

2. The fabricated roof ridge structure of claim 1, wherein the pre-tightening structure comprises a first guide groove, a first guide block, a tension spring and a contraction assembly, the first guide groove is formed in the connecting section bar, the first guide block is slidably connected into the first guide groove, two ends of the tension spring are respectively connected with the first guide block and the connecting section bar, the fastening nut is in threaded fit with the first guide block, two ends of the contraction assembly are respectively connected with the first guide block and the connecting section bar, and the contraction assembly limits the movement of the first guide block to the pressing plate in a contraction mode.

3. The fabricated roof ridge structure as claimed in claim 2, wherein the shrinking component comprises a fixing sleeve, a fixing shaft, a rotating sleeve, a guiding slider, a reverse rotation limiting component and a transmission component, the fixing sleeve and the fixing shaft are respectively fixed on the first guiding block and the connecting profile, the fixing shaft slides in the fixing sleeve, the end of the fixing sleeve is provided with a mounting groove, the rotating sleeve is rotatably connected in the mounting groove, the guiding slider is fixed in the rotating sleeve, the side wall of the fixing shaft is provided with a spiral chute, the guiding slider is in sliding fit with the spiral chute, the transmission component is arranged on the fixing sleeve, the reverse rotation limiting component is arranged on the transmission component, the reverse rotation limiting component limits the reverse rotation of the rotating sleeve through the transmission component, and the transmission component enables the reverse rotation limiting component to work through a fastening nut.

4. The fabricated roof ridge structure of claim 3, wherein the transmission assembly comprises a third guide groove, a third guide block, a second pressure spring and a pushing block, the third guide groove is disposed on the fixing sleeve, the third guide block is slidably connected in the third guide groove, two ends of the second pressure spring are respectively connected with the fixing sleeve and one end of the third guide block, the pushing block is fixed on the other end of the third guide block, the reverse rotation limiting assembly is disposed on the third guide block, and the pushing block is slidably engaged with the fastening nut.

5. The fabricated roof ridge structure of claim 4, wherein the mating surfaces of the pushing block and the fastening nut are chamfered.

6. The fabricated roof ridge structure of claim 4, wherein the reverse rotation limiting assembly comprises a ratchet ring, a second guide groove, a second guide block, a first compression spring and engaging teeth, the ratchet ring is fixed on the rotating sleeve, the second guide groove is arranged on the third guide block, the second guide block is slidably connected in the second guide groove, the first compression spring and the engaging teeth are respectively fixed at two ends of the second guide block, and the ratchet ring is engaged with the engaging teeth.

7. The fabricated roofing ridge structure of claim 1 wherein the ridge is fixedly connected to the connecting profile by bolts.