CN219834950U - Glass greenhouse ridge connection node - Google Patents

Abstract

The utility model discloses a glass greenhouse ridge connection node, which comprises: the roof support section bars are connected with each other through ridge connecting nodes; the ridge connecting node comprises ridge bottom buckles, a house Liang Suoka and ridge purlins, wherein the ridge bottom buckles are arranged below the ridges of the two roof supporting profiles, and the house Liang Suoka is arranged between the ridges of the two roof supporting profiles and on the ridge bottom buckles and is fixed through bolts; the ridge purline is arranged between ridges of the two roof support profiles and above the roof Liang Suoka, and the ridge bottom buckle, the roof Liang Suoka and the ridge purline are matched with the ridges of the roof support profiles; the roof glass is arranged in the groove of the roof supporting section bar, and the end part of the roof glass is inserted in the ridge purline. The roof supporting section bars on two sides are connected through the ridge connecting node, and the roof supporting section bar connecting device is simple in structure, reasonable in design, easy to install and capable of effectively improving stability and safety of installation.

Description

Glass greenhouse ridge connection node

Technical Field

The utility model belongs to the technical field of glass greenhouses, and particularly relates to a ridge connecting node of a glass greenhouse.

Background

The glass greenhouse is a greenhouse with glass as a main light-transmitting covering material, belongs to one type of greenhouse, and is suitable for various areas and various climatic conditions as a form with the longest service life in cultivation facilities. In the practical construction process, the ridge between the two side roofs needs to be connected, and the prior art adopts welding for direct fixation and connection through connecting sectional materials.

The Chinese patent CN202222248508.6 discloses a novel greenhouse aluminum profile system, wherein each bay comprises aluminum gutter, herringbone beams and ridges, the upper part of each bay is symmetrically provided with a first upper ridge connection and a second upper ridge connection, the upper parts of the first upper ridge connection and the second upper ridge connection are fixed together through hexagon head bolts, the lower parts of the first upper ridge connection and the lower parts of the second upper ridge connection are clamped with the ridges through symmetrically arranged sliding grooves on the ridges, and the lower parts of the ridges are fixedly connected with adjacent ridges of the bay through lower ridge connection and square head bolts. The first upper connection of the ridge, the second upper connection of the ridge and the upper part of the ridge are all positioned outside the greenhouse, the lower part of the ridge is positioned inside the greenhouse, one end of the square head bolt is penetrated in the ridge, and the other end of the square head bolt penetrates under the ridge to realize the interconnection of the ridges in the same room.

However, the ridge and the herringbone beam are connected through the fastener, so that the appearance of the roof is affected, the installation is complicated, the structural strength of the connection between the parts is still to be improved, the herringbone beam is integral, and the difficulty of carrying and high-altitude installation is high.

Therefore, we propose a new glass greenhouse ridge connected node, through ridge bottom knot, room Liang Suoka and ridge purlin and roofing support section bar mutually support, improve ridge connected node and roofing end connection's compactness and leakproofness, also can effectively improve stability and the security of installation.

Disclosure of Invention

The utility model aims to: in order to overcome the defects, the utility model aims to provide the roof ridge connecting node of the glass greenhouse, which has the advantages of simple structure, reasonable design, simplified installation procedure, easy installation, improvement of the tightness and the tightness of the connection between the roof ridge connecting node and the end part of the roof, and effective improvement of the stability and the safety of the installation.

The technical scheme is as follows: in order to achieve the above object, the present utility model provides a glass greenhouse ridge connecting node, comprising: the roof support section comprises a group of roof support sections, roof ridge connecting nodes and roof glass, wherein the roof ridges of the roof support sections are connected through the roof ridge connecting nodes; the ridge connecting node comprises ridge bottom buckles, a house Liang Suoka and ridge purlines, wherein the ridge bottom buckles are arranged below ridges of the two roof support profiles, and the house Liang Suoka is arranged between the ridges of the two roof support profiles, is arranged on the ridge bottom buckles and is fixed through bolts; the ridge purline is arranged between ridges of the two roof support profiles and above the roof Liang Suoka, and the ridge bottom buckle, the roof Liang Suoka and the ridge purline are matched with the ridges of the roof support profiles; the roof glass is arranged in the groove of the roof supporting section bar, and the end part of the roof glass is inserted in the ridge purline.

According to the glass greenhouse ridge connecting node, roof supporting sections on two sides are connected through the ridge connecting node, the structure is simple, the design is reasonable, the glass greenhouse ridge connecting node is easy to install, the ridge bottom buckle is used for connecting the two roof supporting sections, meanwhile, a good supporting effect is achieved, the roof Liang Suoka is used for connecting the two roof supporting sections, the ridge purline is used for connecting the two roof supporting sections, meanwhile, the end portions of glass are well connected, the ridge bottom buckle, the roof Liang Suoka, the ridge purline and the roof supporting sections are matched with each other, the connection tightness and the sealing performance of the ridge connecting node and the end portions of the roof are greatly improved, and the installation stability and safety are also effectively improved.

The roof support profile comprises a support beam body, wherein the support beam body comprises a support beam lower body and a support beam upper body, the support beam upper body is connected with the support beam lower body through a reinforcing partition board, and an installation groove for installing roof glass is formed in the outer side of the reinforcing partition board;

the support beam upper body and the support beam lower body are respectively provided with a first upward notch and a first downward notch at one end of the ridge;

the support beam body is positioned at one end of the ridge and is also provided with a first groove, and the mounting groove, the first upward notch, the first downward notch and the first groove are all obliquely arranged;

the lower edge of the supporting beam body is arranged in the upward groove. The support beam lower body and support beam upper body ridge one end sets up first recess, mounting groove, first upward breach, first downward breach and first recess and upward recess let its can with each part interconnect in the ridge connected node, realize interactive connection between the section bar, further improve its part connection structure's stability and overall structure intensity.

Further, the ridge bottom buckle comprises a ridge bottom buckle body, a downward groove is formed above the ridge bottom buckle body, supporting frames are arranged on two sides of the downward groove, the downward groove is matched with a gap between two adjacent roof supporting sectional materials, and the supporting frames are arranged below the roof supporting sectional materials;

the support frame the both sides of ridge end knot body are equipped with the bracket, the tip of bracket is the inclined plane setting, be equipped with the connecting block on the inclined plane, the connecting block inserts in upwards the recess.

Further, the house Liang Suoka adopts the herringbone Liang Suoka, and it includes the house Liang Suoka body, the upper portion of house Liang Suoka body is equipped with V word convex part, and the both sides that are located V word convex part are equipped with supporting platform, and the both sides that are located supporting platform are equipped with the lock cardboard, the lower part of house Liang Suoka body is equipped with upwards recess, and the both sides that are located upwards recess are equipped with the anticreep portion. The setting of anticreep portion has greatly improved the stability that room Liang Suoka detained with the roof ridge bottom and is connected, prevents both to separate.

Preferably, the house Liang Suoka body is provided with a cavity, and inner walls on two sides of the cavity are provided with protrusions. The arrangement of the cavity reduces the weight of the cavity under the condition that the supporting property of the section bar can be ensured, thereby reducing the bearing burden of the greenhouse roof.

Further preferably, the lower part of the house Liang Suoka body is inserted into the downward groove and fixed by bolts, and the locking plate is inserted into the first groove.

Further, the ridge purline comprises a ridge purline body, and the ridge purline body and the roof supporting section bar are arranged between the two roof supporting section bars and are matched with each other;

a group of extension supporting frames are arranged below the ridge purline body, are arranged on the supporting platform and are matched with each other;

the upper part of the extension support frame is symmetrically provided with oblique reinforcing ribs, the upper part of the oblique reinforcing ribs is symmetrically provided with a group of first inserting rib plates, the upper part of the first inserting rib plates is provided with a second inserting rib plate, the first inserting rib plates and the second inserting rib plates are respectively inserted into the first upward notch and the first downward notch, an inserting groove is formed between the first inserting rib plates and the second inserting rib plates, and one end of the roof glass is inserted into the inserting groove. The first grafting gusset and the setting of second grafting gusset let it can cooperate with first upward breach, the first downward breach on the roofing support section bar, further improve the stability that both connect.

Preferably, a sealing strip is arranged in the inserting groove and positioned between the roof glass and the reinforced partition plate. The sealing strip not only can improve the tightness between the roof glass and the reinforced partition board, but also can play a good role in protecting the roof glass.

Further preferably, the end part of the extension support frame is provided with a support part, the lower surface of the support part is arranged in a plane, the support part and the support part are arranged on the support platform and are matched with each other, and the upper part of the support part is provided with an upward protruding part.

Further, the diameter of the downward groove gradually decreases from bottom to top, and the distance between the two anti-falling parts at the lower part of the house Liang Suoka is larger than the diameter of the opening of the downward groove. The roof Liang Suoka can be effectively prevented from being separated from the ridge bottom buckle, and the stability of the connection of the components is further improved.

The technical scheme can be seen that the utility model has the following beneficial effects:

1. according to the glass greenhouse ridge connecting node, roof supporting sections on two sides are connected through the ridge connecting node, the structure is simple, the design is reasonable, the glass greenhouse ridge connecting node is easy to install, the ridge bottom buckle is used for connecting the two roof supporting sections, meanwhile, a good supporting effect is achieved, the roof Liang Suoka is used for connecting the two roof supporting sections, the ridge purline is used for connecting the two roof supporting sections, meanwhile, the end portions of glass are well connected, the ridge bottom buckle, the roof Liang Suoka, the ridge purline and the roof supporting sections are matched with each other, the connection tightness and the sealing performance of the ridge connecting node and the end portions of the roof are greatly improved, and the installation stability and safety are also effectively improved.

2. The support beam lower body and support beam upper body ridge one end sets up first recess, mounting groove, first upward breach, first downward breach and first recess and upward recess let its can with each part interconnect in the ridge connected node, realize interactive connection between the section bar, further improve its part connection structure's stability and overall structure intensity.

3. And a sealing strip is arranged in the inserting groove and between the roof glass and the reinforced partition plate. The sealing strip not only can improve the tightness between the roof glass and the reinforced partition board, but also can play a good role in protecting the roof glass.

4. The space between the two anti-falling parts at the lower part of the house Liang Suoka is larger than the diameter of the opening of the downward groove. The roof Liang Suoka can be effectively prevented from being separated from the ridge bottom buckle, and the stability of the connection of the components is further improved.

Drawings

FIG. 1 is a schematic view of a glass greenhouse ridge connection node according to the present utility model;

FIG. 2 is a schematic view of the structure of the roof support section bar of the present utility model at one end of the ridge;

FIG. 3 is a schematic view of the structure of the ridge bottom fastener of the present utility model;

FIG. 4 is a schematic view of a house Liang Suoka of the present utility model;

FIG. 5 is a schematic view of a roof purlin of the utility model;

FIG. 6 is a schematic cross-sectional view of a roof support profile of the present utility model;

in the figure: roof support profile 1, roof ridge connecting node 2, roof glass 3, support beam lower body 11, support beam upper body 12, reinforcement spacer 13, mounting groove 14, first upward notch 15, first downward notch 16, first groove 17, upward groove 18, roof ridge bottom button 21, roof Liang Suoka, roof ridge purlin 23, downward groove 211, support frame 212, bracket 213, connection block 214, V-shaped protrusion 221, support platform 222, lock clip plate 223, upward groove 224, drop-out prevention 225, cavity 226, roof ridge purlin body 231, extension support frame 232, diagonal reinforcement bar 233, first insertion rib 234, second insertion rib 235, insertion groove 236, sealing strip 4.

Detailed Description

The utility model is further elucidated below in connection with the drawings and the specific embodiments.

Example 1

A glass greenhouse ridge connection node as shown in fig. 1, comprising: the roof support profile comprises a group of roof support profiles 1, roof connecting nodes 2 and roof glass 3, wherein the roof connecting nodes 2 comprise roof bottom buckles 21, houses Liang Suoka and roof purlins 23, and the roof of the roof support profiles 1 are connected through the roof connecting nodes 2; the ridge bottom buckles 21 are arranged below the ridges of the two roof support profiles 1, the houses Liang Suoka are arranged between the ridges of the two roof support profiles 1 and on the ridge bottom buckles 21, and are fixed through bolts; the ridge purline 23 is arranged between ridges of the two roof support profiles 1 and above the house Liang Suoka, and the ridge bottom buckle 21, the house Liang Suoka and the ridge purline 23 are matched with the ridges of the roof support profiles 1; the roof glass 3 is arranged in the groove of the roof supporting section bar 1, and the end part of the roof glass is inserted into the ridge purline 23. It can also be seen from fig. 1 that the end face of the roof support profile 1 at one end of the ridge is completely attached to the ridge bottom buckle 21, the roof Liang Suoka and the ridge purline 23 by the structures of the profiles, so that the tightness and stability of the connection of the components are greatly improved.

As shown in fig. 2, the roof support section 1 comprises a support beam body, the support beam body comprises a support beam lower body 11 and a support beam upper body 12, the support beam upper body 11 and the support beam lower body 12 are connected through a reinforced partition 13, and a mounting groove 14 for mounting the roof glass 3 is arranged outside the reinforced partition 13; the support beam upper body 11 and the support beam lower body 12 are respectively provided with a first upward notch 15 and a first downward notch 16 at one end of the ridge; the support beam lower body 12 is further provided with a first groove 17 at one end of the ridge, and the mounting groove 14, the first upward notch 15, the first downward notch 16 and the first groove 17 are all arranged in an inclined manner; the lower edge of the support beam lower body 12 is provided with an upward groove 18.

As shown in fig. 3, the ridge bottom fastener 21 includes a ridge bottom fastener body, a downward groove 211 is disposed above the ridge bottom fastener body, supporting frames 212 are disposed at two sides of the downward groove 211, the downward groove 211 is matched with a gap between two adjacent roof support profiles 1, and the supporting frames 212 are disposed below the roof support profiles 1; the support frame 212 both sides of the ridge bottom knot body are equipped with the bracket 213, the tip of bracket 213 is the inclined plane setting, be equipped with the connecting block 214 on the inclined plane, the connecting block 214 inserts in upwards recess 14.

As shown in fig. 4, the house Liang Suoka employs a chevron Liang Suoka, which includes a house Liang Suoka body, V-shaped protrusions 221 are disposed on an upper portion of the house Liang Suoka body, support platforms 222 are disposed on two sides of the V-shaped protrusions 221, locking plates 223 are disposed on two sides of the support platforms 222, an upward groove 224 is disposed on a lower portion of the house Liang Suoka body, and anti-falling portions 225 are disposed on two sides of the upward groove 224.

As shown in fig. 4, the house Liang Suoka body is provided with a cavity 226, and inner walls on two sides of the cavity 226 are provided with protrusions.

As shown in fig. 1, the lower portion of the house Liang Suoka body is inserted into the downward groove 211 and is fixed by a bolt, and the locking plate 223 is inserted into the first groove 17.

As shown in fig. 5, the ridge purlin 23 includes a ridge purlin body 231, and the ridge purlin body 231 and the roof support profiles 1 are disposed between the two roof support profiles 1 and cooperate with each other; a group of extension supporting frames 232 are arranged below the ridge purline body, and the extension supporting frames 232 are arranged on the supporting platform 222 and are matched with each other; oblique reinforcing ribs 233 are symmetrically arranged above the extending support frame 232, a group of first inserting rib plates 234 are symmetrically arranged above the oblique reinforcing ribs 233, a second inserting rib plate 235 is arranged above the first inserting rib plates 234, the first inserting rib plates 234 and the second inserting rib plates 235 are respectively inserted into the first upward notch 15 and the first downward notch 16, inserting grooves 236 are formed between the first inserting rib plates 234 and the second inserting rib plates 235, and one end of the roof glass 3 is inserted into the inserting grooves 236.

And a switching part for connecting the hanging hinge type structure of the skylight opening is arranged above the ridge purline body 231.

The sealing strip 4 is arranged between the roof glass 3 and the reinforcing partition 13 in the insertion groove 236 as shown in fig. 6. It is conceivable that the sealing strip 4 may be other sealing elements, and may meet the requirements of sealing and protecting glass, and as shown in the figure, an O-ring is preferably used in this case.

The end of the extension support 232 is provided with a support portion, the lower surface of the support portion is provided with a plane, the support portion and the support portion are arranged on the support platform 222 and are matched with each other, and the upper portion of the support portion is provided with an upward protruding portion. The planar arrangement allows for a more stable connection with the support platform 222.

The diameter of the downward groove 211 gradually decreases from bottom to top, and the space between the two anti-falling parts 225 at the lower part of the house Liang Suoka is larger than the diameter of the opening of the downward groove 211. It should be noted that, the house Liang Suoka needs to be inserted from one end of the downward groove 211 on the ridge bottom fastener 21, and the space between the two anti-falling portions 225 at the lower portion of the house Liang Suoka is larger than the diameter of the opening of the downward groove 211, so that the lower portion of the house Liang Suoka cannot be separated from the upper portion of the downward groove 211, thereby achieving a good anti-falling effect.

Example 2

The glass greenhouse ridge connecting node in the embodiment has the same structure as that in the embodiment 1, and is different in that:

as shown in fig. 6, the lower supporting section body 11 is provided with a glass supporting platform 112 at the port of the mounting groove 14, the lower supporting section body 11 is provided with a cavity 113, and the inner walls at two sides of the cavity 113 are provided with reinforcing supporting ribs 114. The structure and shape of the reinforcing ribs 114 can be adjusted according to actual needs.

The support profile upper body 12 is equipped with a set of first downward convex 121 below, support profile upper body 12 top both sides are equipped with the strengthening top muscle 122, and are equipped with the clearance between two strengthening top muscle 122, the strengthening top muscle 122 is located the one side below in clearance and is equipped with the second downward convex 123. The arrangement of the first downward protruding portion 121 can further improve the overall structural strength of the profile, and plays a role in secondary buffering when rainwater on the windward side flows in, so that deformation pressure of the sealing strip 3 is reduced, and water leakage caused by pressure deformation of the sealing strip is guaranteed. The setting of second downward convex part 123 can further strengthen the structural strength of body 12 on the support section bar, and it should be noted that, if be equipped with the skylight on the roofing, can increase the leakproofness of sky window when the sky window is closed, can also strengthen structural stability, reduce the section bar and warp.

The foregoing is merely a preferred embodiment of the utility model, and it should be noted that modifications could be made by those skilled in the art without departing from the principles of the utility model, which modifications would also be considered to be within the scope of the utility model.

Claims (10)

1. The utility model provides a glass greenhouse roof ridge connected node which characterized in that: comprising the following steps:

the roof support profiles (1) are connected through ridge connecting nodes (2);

the ridge connecting node (2) comprises ridge bottom buckles (21), a house Liang Suoka (22) and ridge purlines (23), wherein the ridge bottom buckles (21) are arranged below ridges of the two roof support profiles (1), and the house Liang Suoka (22) is arranged between ridges of the two roof support profiles (1) and is arranged on the ridge bottom buckles (21) and fixed through bolts;

the ridge purline (23) is arranged between ridges of the two roof support profiles (1) and above the house Liang Suoka (22), and the ridge bottom buckle (21), the house Liang Suoka (22) and the ridge purline (23) are matched with the ridges of the roof support profiles (1);

the roof glass (3), the roof glass (3) is arranged in the groove of the roof supporting section bar (1), and the end part of the roof glass is inserted in the ridge purline (23).

2. The glass greenhouse ridge connection node of claim 1, wherein: the roof support profile (1) comprises a support beam body, wherein the support beam body comprises a support beam lower body (11) and a support beam upper body (12), the support beam upper body (11) is connected with the support beam lower body (12) through a reinforced partition plate (13), and an installation groove (14) for installing roof glass (3) is formed in the outer side of the reinforced partition plate (13);

a first upward notch (15) and a first downward notch (16) are respectively arranged at one end of the support beam upper body (11) and one end of the support beam lower body (12) which are positioned on the ridge;

the support beam body is positioned at one end of the ridge and is also provided with a first groove (17), and the mounting groove (14), the first upward notch (15), the first downward notch (16) and the first groove (17) are all obliquely arranged;

the lower edge of the support beam body is provided with an upward groove (18).

3. The glass greenhouse ridge connection node of claim 2, wherein: the ridge bottom buckle (21) comprises a ridge bottom buckle body, a downward groove (211) is formed above the ridge bottom buckle body, supporting frames (212) are arranged on two sides of the downward groove (211), the downward groove (211) is matched with a gap between two adjacent roof supporting sectional materials (1), and the supporting frames (212) are arranged below the roof supporting sectional materials (1);

the support frame (212) both sides of the ridge bottom knot body are equipped with bracket (213), the tip of bracket (213) is the inclined plane setting, be equipped with connecting block (214) on the inclined plane, connecting block (214) insert in upwards recess (14).

4. A glass greenhouse ridge connection node according to claim 3, characterized in that: the house Liang Suoka (22) adopts the herringbone Liang Suoka, and it includes the house Liang Suoka body, the upper portion of house Liang Suoka body is equipped with V word convex part (221), is located the both sides of V word convex part (221) and is equipped with supporting platform (222), and the both sides that are located supporting platform (222) are equipped with lock cardboard (223), the lower part of house Liang Suoka body is equipped with upwards recess (224), and the both sides that are located upwards recess (224) are equipped with anticreep portion (225).

5. The glass-greenhouse ridge connection node of claim 4, wherein: the house Liang Suoka body is provided with a cavity (226), and the inner walls of the two sides of the cavity (226) are provided with protrusions.

6. The glass-greenhouse ridge connection node of claim 4, wherein: the lower part of the house Liang Suoka body is inserted into the downward groove (211) and fixed by bolts, and the locking plate (223) is inserted into the first groove (17).

7. The glass-greenhouse ridge connection node of claim 4, wherein: the ridge purline (23) comprises a ridge purline body (231), and the ridge purline body (231) and the roof supporting section bars (1) are arranged between the two roof supporting section bars (1) and are matched with each other;

a group of extension supporting frames (232) are arranged below the ridge purline body, and the extension supporting frames (232) are arranged on the supporting platform (222) and are matched with each other;

the upper part of the extension support frame (232) is symmetrically provided with an oblique reinforcing rib (233), the upper part of the oblique reinforcing rib (233) is symmetrically provided with a group of first inserting rib plates (234), the upper part of the first inserting rib plates (234) is provided with a second inserting rib plate (235), the first inserting rib plates (234) and the second inserting rib plates (235) are respectively inserted into the first upward notch (15) and the first downward notch (16), inserting grooves (236) are formed between the first inserting rib plates (234) and the second inserting rib plates (235), and one end of the roof glass (3) is inserted into the inserting grooves (236).

8. The glass-greenhouse ridge connection node of claim 6, wherein: and a sealing strip (4) is arranged between the roof glass (3) and the reinforced partition plate (13) in the inserting groove (236).

9. The glass-greenhouse ridge connection node of claim 6, wherein: the end of extension support frame (232) is equipped with supporting part, the lower surface of supporting part is the plane setting, and it locates on supporting platform (222), and the two are mutually supported, the upper portion of supporting part is equipped with upwards protruding portion.

10. The glass-greenhouse ridge connection node of claim 6, wherein: the diameter of the downward groove (211) gradually decreases from bottom to top, and the distance between the two anti-falling parts (225) at the lower part of the house Liang Suoka (22) is larger than the diameter of the opening of the downward groove (211).