CN213837291U - Outer cover plate of energy-saving daylighting roof - Google Patents

Abstract

The application relates to an outer cover plate of an energy-saving daylighting roof, which comprises an outer cover plate, wherein a cover plate body is sunken downwards to form a concave part, a buckle plate is arranged in the concave part, and one side of the buckle plate, which is close to the bottom wall of the concave part, is connected with a plurality of fixed rods; each fixing rod penetrates through the bottom plate of the concave part and is in sliding connection with the concave part; the outer side wall of one end of each fixed rod penetrating through the concave part is provided with a limiting rod, one end of each limiting rod is hinged with the corresponding fixed rod, and the other end of each limiting rod is connected with the corresponding fixed rod through a limiting spring; each limiting spring is in a natural extension state, each limiting rod penetrates through a preset mounting hole of the cross beam, and each limiting rod is far away from one end, hinged with the corresponding fixing rod, of each limiting rod and abuts against the inner wall of the cross beam. This application has the effect of the operating personnel installation of being convenient for.

Description

Outer cover plate of energy-saving daylighting roof

Technical Field

The application relates to the technical field of constructional engineering, in particular to an outer cover plate of an energy-saving daylighting roof.

Background

The energy-saving daylighting roof acquires green energy through the solar cell panel arranged on the outer surface, applies the green energy to illumination, temperature control and the like of a building, and organically combines daylighting with energy conservation. The energy-saving daylighting roof not only can increase daylighting and form a bright use space, but also can effectively improve the building comfort and greatly save energy.

The prior patent with the publication number of CN2033347116U discloses an outer cover plate of an energy-saving daylighting roof, which comprises an outer cover plate, wherein one side surface of a cover plate body is connected with two fixing plates which are parallel to each other, and each fixing plate is perpendicular to the cover plate body; the cover plate body is sunken along the length of the fixing plate to form a concave part, the concave part faces away from one side of the fixing plate, which is arranged on the cover plate body, and a buckle used for connecting a cross beam is arranged on the outer side wall of the bottom surface of the concave part. Because a plurality of glass plates are connected between the cross beam and the cover plate body, the top of the cross beam is hollow, and a plurality of mounting holes are formed in the top end of the cross beam, when the outer cover plate is mounted, an operator firstly clamps the buckles on the cover plate body with the corresponding cross beam; when the one end of two fixed plates keeping away from the apron body is laminated with the glass plate that corresponds, operating personnel reuse a plurality of self tapping screws and correspond mounting hole threaded connection, with outer apron and crossbeam fixed connection back, operating personnel installs the buckle that is used for sealing the concave part in the concave part, then sets up at every fixed plate and the junction that corresponds the glass plate and is used for waterproof sealed glue.

In view of the above-mentioned related technologies, the inventor thinks that when an operator installs the outer cover plate, the buckle on the outer cover plate needs to be firstly clamped with the cross beam, and then a plurality of self-tapping screws and sealant are installed to fixedly connect the outer cover plate with the cross beam, and the installation buckle plate seals the concave part, so that the installation time of the operator on the outer cover plate is long, and the installation efficiency on the outer cover plate is poor.

SUMMERY OF THE UTILITY MODEL

In order to improve the relatively poor problem of installation effectiveness of outer apron, this application provides an outer apron of energy-conserving daylighting top.

The application provides an outer apron on energy-conserving daylighting top adopts following technical scheme:

the outer cover plate of the energy-saving daylighting roof comprises a cover plate body, wherein the cover plate body is downwards sunken to form a concave part; a buckle plate is arranged in the concave part, and one side of the buckle plate close to the bottom wall of the concave part is connected with a plurality of fixed rods; each fixing rod penetrates through the bottom end of the concave part and is in sliding connection with the concave part; each fixed rod penetrates through the outer side wall of one end of the concave part and is rotatably provided with a limiting rod, one end of each limiting rod, which is far away from the concave part, is hinged with the corresponding fixed rod, and the other end of each limiting rod is connected with the corresponding fixed rod through a limiting spring; each limiting spring is in a natural extension state, each limiting rod penetrates through a preset mounting hole of the cross beam, and each limiting rod is far away from one end, hinged with the corresponding fixing rod, of the limiting rod and abuts against the inner wall of the cross beam.

Through adopting above-mentioned technical scheme, operating personnel all passes the mounting hole that corresponds on the crossbeam with the one end of every dead lever rather than the gag lever post that corresponds, and under spacing spring's effect, the one end that the dead lever was kept away from to every gag lever post all offsets with the crossbeam to accomplish the installation to outer apron, reducible operating personnel is to the installation time of outer apron, improves the relatively poor problem of installation effectiveness of outer apron.

Optionally, each of the limiting rods is arranged on the corresponding fixing rod in pairs.

Through adopting above-mentioned technical scheme, the gag lever post sets up in pairs and can improve the outer apron and the fixed stability of crossbeam.

Optionally, a limiting block is connected to one end of each limiting rod hinged to the corresponding fixing rod; when each spring is in a normal extension state, each limiting block is abutted to the corresponding fixing rod.

Through adopting above-mentioned technical scheme, when the counterbalance of gag lever post and crossbeam, the spring that corresponds is in the natural extension state, and the stopper offsets with the dead lever lateral wall that corresponds this moment to the restriction gag lever post is around dead lever pivoted angle, and the gliding phenomenon takes place for reducible gag lever post after outer apron is fixed with the crossbeam, improves fixed stability.

Optionally, a sleeve is connected between each fixing rod and the buckle plate, one end of each fixing rod, which is close to the buckle plate, is arranged in the corresponding sleeve, and the outer side wall of each fixing rod is in threaded connection with the inner side wall of the corresponding sleeve.

Through adopting above-mentioned technical scheme, the one end of dead lever and the sleeve pipe threaded connection who corresponds, but operating personnel's adjustable dead lever stretches out sheathed tube distance to adjust the distance between the one end that dead lever was kept away from to buckle and gag lever post, the inequality condition of fixed distance between applicable outer multiple apron and the crossbeam improves the suitability of outer apron.

Optionally, an adjusting spring is sleeved outside each sleeve, one end of each adjusting spring is fixedly connected with the buckle plate, and the other end of each adjusting spring abuts against the bottom wall of the concave part; each adjusting spring is in a compressed state, and the pinch plate is connected with the concave part in a sliding manner along the depth direction of the concave part; when the outer cover plate is connected with the cross beam, the buckle plate and the cover plate body are positioned on the same horizontal line.

By adopting the technical scheme, in the process of fixedly connecting the outer cover plate and the cross beam, the buckle plate is driven by the adjusting springs to slide towards the direction far away from the concave part; after the outer cover plate is connected with the cross beam, the buckle plate and the cover plate body are positioned on the same horizontal line, and rainwater can be prevented from being stored in the concave part.

Optionally, the buckle is parallel to the bottom wall of the concave portion, and two ends of the buckle are attached to the side wall of the concave portion.

Through adopting above-mentioned technical scheme, the buckle both ends and the lateral wall laminating of concave part, the buckle can seal whole concave part to reduce the phenomenon of rainwater infiltration.

Optionally, the two ends of the pinch plate, which are attached to the inner wall of the concave part, are both connected with sealing strips.

By adopting the technical scheme, the sealing strip can improve the sealing property between the buckle plate and the concave part and can reduce the phenomenon of rainwater permeating between the buckle plate and the concave part.

In summary, the present application includes at least one of the following beneficial technical effects:

1. an operator enables one end of each fixed rod and the corresponding limiting rod to penetrate through the corresponding mounting hole in the cross beam, and one end, far away from the fixed rod, of each limiting rod is abutted against the cross beam under the action of a limiting spring, so that the mounting of the outer cover plate is completed, the mounting time of the operator on the outer cover plate can be shortened, and the problem of poor mounting efficiency of the outer cover plate is solved;

2. one end of the fixed rod is in threaded connection with the corresponding sleeve, and an operator can adjust the distance of the fixed rod extending out of the sleeve, so that the distance between the buckle plate and one end of the limiting rod far away from the fixed rod is adjusted, the device can be suitable for the conditions that the fixed distances between various outer cover plates and the cross beam are different, and the applicability of the outer cover plate is improved;

3. the two ends of the buckle plate are attached to the side walls of the concave part, and the buckle plate can seal the whole concave part, so that the phenomenon of rainwater infiltration is reduced.

Drawings

Fig. 1 is a schematic structural view of an installation completed state of an outer cover plate according to an embodiment of the present application.

Fig. 2 is an enlarged view of a in fig. 1.

Fig. 3 is a schematic structural diagram for showing a positional relationship between the fixing rod and the casing in the embodiment of the present application.

Fig. 4 is a schematic cross-sectional structure diagram for showing a position relation of a limiting block in an installation process of an outer cover plate according to an embodiment of the present application.

Description of reference numerals: 1. a cover plate body; 2. a recess; 3. buckling the plate; 4. fixing the rod; 5. a limiting rod; 6. a limiting spring; 7. a limiting block; 8. a sleeve; 9. fixing the bolt; 10. adjusting the spring; 11. a sealing strip; 12. a cross beam; 121. an iron pipe; 13. a glass plate; 14. a fixing plate; 15. an arc plate; 16. sealing glue; 17. and (7) installing holes.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses an outer cover plate of an energy-saving daylighting roof. Referring to fig. 1, the outer cover plate of the energy-saving daylighting roof includes a strip-shaped cover plate body 1, two ends of one surface of the cover plate body 1 in the length direction are connected with fixing plates 14 which are parallel to each other, and each fixing plate 14 is perpendicular to the cover plate body 1. The cover plate body 1 is recessed along the length direction to form a rectangular recess 2, and the recess 2 and the fixing plate 14 are both positioned on the same side of the cover plate body 1. Crossbeam 12 sets up in the below of apron body 1, and is equipped with polylith glass plate 13 on crossbeam 12, and this is prior art, and no longer repeated here. One end of each fixing plate 14, which is far away from the cover plate body 1, is bent towards the direction close to the beam 12 to form an arc plate 15, and each arc plate 15 is connected with the glass plate 13 through a sealant 16, so that the phenomenon of rainwater infiltration from the fixing plate 14 to the glass plate 13 is reduced.

Referring to fig. 1, a buckle plate 3 parallel to the bottom wall of the concave part 2 is arranged in the concave part 2, the buckle plate 3 is parallel to the cover plate body 1, and two ends of the buckle plate 3 along the length direction of the concave part 2 are both attached to the inner side wall of the concave part 2. The two ends of the buckle plate 3, which are attached to the side wall of the concave part 2, are both connected with the sealing strips 11, so that the phenomenon that rainwater permeates between the concave part 2 and the buckle plate 3 can be reduced.

Referring to fig. 1, the top of the beam 12 is a hollow rectangular iron pipe 121, and referring to fig. 2, the side of the buckle plate 3 close to the bottom wall of the concave part 2 is provided with a plurality of fixing rods 4 along the length direction, and each fixing rod 4 is perpendicular to the buckle plate 3. Every dead lever 4 all passes the bottom plate and the iron pipe 121 of concave part 2 in proper order, and every dead lever 4 all is along its length direction and concave part 2's bottom plate sliding connection, and the lateral wall that every dead lever 4 passed the part of iron pipe 121 all is equipped with two gag lever posts 5 symmetrically. One end of each limiting rod 5 is hinged to the corresponding fixing rod 4, and the other end of each limiting rod is connected with the corresponding fixing rod 4 through a limiting spring 6. The end of one end of each limiting rod 5 connected with the corresponding limiting spring 6 is abutted against the inner wall of the iron pipe 121, and at the moment, each limiting spring 6 is in a natural extension state.

Referring to fig. 3, one end of each limiting rod 5 hinged to the corresponding fixing rod 4 is connected to a limiting block 7, and in combination with fig. 4, the top end of the iron pipe 121 is provided with a plurality of mounting holes 17 along the length direction thereof. Specifically, in the installation of outer apron, the lateral wall of every gag lever post 5 all offsets with the inside wall of the mounting hole 17 that corresponds, and every spacing spring 6 all is in compression state, and every stopper 7 all rotates around its and the articulated part of corresponding dead lever 4, and every stopper 7 all keeps away from the lateral wall of the dead lever 4 that corresponds. After outer apron fixed mounting, every gag lever post 5 all is located crossbeam 12 and every gag lever post 5 keeps away from the one end of dead lever 4 and the inner wall of crossbeam 12 offsets, and every stopper 7 all offsets with the lateral wall of the dead lever 4 that corresponds this moment to the turned angle that the gag lever post 5 was corresponded in the restriction reduces gag lever post 5 and continues the unstable phenomenon of rotatory outer apron installation that leads to, can improve the outer stability of fixing between apron and the crossbeam.

Referring to fig. 2, each fixing rod 4 is connected with the pinch plate 3 through a sleeve 8, and each sleeve 8 is perpendicular to the pinch plate 3. One end of each sleeve 8 is fixedly connected with the buckle plate 3, one end of each fixing rod 4 close to the buckle plate 3 is arranged in the corresponding sleeve 8, and the outer side wall of each fixing rod 4 is in threaded connection with the inner side wall of the corresponding sleeve 8, so that the distance between the buckle plate 3 and the limiting rod 5 can be adjusted. With reference to fig. 3, each sleeve 8 is provided with a fixing bolt 9, each fixing bolt 9 penetrates through the corresponding sleeve 8 and is in threaded connection with the corresponding sleeve 8, and each fixing bolt 9 penetrates through one end of the corresponding sleeve 8 and abuts against the fixing rod 4 in the corresponding sleeve 8, so that the distance between the buckle plate 3 and the limiting rod 5 is fixed.

Referring to fig. 2, each sleeve 8 is sleeved with an adjusting spring 10, one end of each adjusting spring 10 is fixedly connected with the buckle plate 3, and the other end of each adjusting spring abuts against the bottom wall of the concave part 2. During the installation process of the outer cover plate, each adjusting spring 10 is in a compressed state, and the buckle plate 3 is connected with the concave part 2 in a sliding mode along the length direction of the concave part 2. Specifically, in the installation process of the cover plate body 1, the buckle plate 3 is positioned outside the concave part 2 and slides along the direction close to the bottom wall of the concave part 2, and when the buckle plate 3 slides into the concave part 2, the buckle plate 3 slides towards the direction far away from the bottom wall of the concave part 2 under the elastic force of the adjusting spring 10; after the cover plate body 1 is successfully installed, the buckle plate 3 slides to the top surface of the buckle plate 3 to be flush with the top surface of the cover plate body 1 through the elastic force of the adjusting springs 10, and rainwater can be prevented from being stored in the concave portion 2.

The implementation principle of the outer cover plate of the energy-saving daylighting roof in the embodiment of the application is as follows: before the installation process of the outer cover plate, an operator adjusts the distance between the pinch plate 3 and the corresponding limiting rod 5 by adjusting the distance that the fixed rod 4 extends out of the sleeve 8 according to the actual situation; in the installation of outer apron, operating personnel wears to establish in the mounting hole 17 that corresponds a plurality of dead lever 4 on with buckle 3, and press down buckle 3 and make stopper 7 on a plurality of dead lever 4 offset with the dead lever 4 that corresponds, buckle 3 slides down the top surface of buckle 3 and flushes with the top surface of apron body 1 under a plurality of adjusting spring 10's elasticity effect, the one end that dead lever 4 was kept away from to every gag lever post 5 this moment all with the inner wall butt of ironpipe 121, thereby accomplish the installation to the outer apron.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an outer apron of energy-conserving daylighting top, includes apron body (1), apron body (1) undercut forms concave part (2), its characterized in that: a buckle plate (3) is arranged in the concave part (2), and one side of the buckle plate (3) close to the bottom wall of the concave part (2) is connected with a plurality of fixed rods (4); each fixing rod (4) penetrates through the bottom plate of the concave part (2) and is connected with the concave part (2) in a sliding mode; the outer side wall of one end of each fixing rod (4) penetrating through the concave part (2) is provided with a limiting rod (5), one end of each limiting rod (5) is hinged with the corresponding fixing rod (4), and the other end of each limiting rod is connected with the corresponding fixing rod (4) through a limiting spring (6); each limiting spring (6) is in a natural extension state, each limiting rod (5) penetrates through a preset mounting hole (17) in the cross beam (12), and each limiting rod (5) is far away from one end hinged with the corresponding fixing rod (4) and abuts against the inner wall of the cross beam (12).

2. The outer cover plate of the energy-saving daylighting roof of claim 1, characterized in that: each limiting rod (5) is connected to the corresponding fixing rod (4) in pairs.

3. The outer cover plate of the energy-saving daylighting roof of claim 2, characterized in that: one end of each limiting rod (5) hinged with the corresponding fixing rod (4) is connected with a limiting block (7); when each limiting spring (6) is in a normal extension state, each limiting block (7) is abutted against the corresponding fixing rod (4).

4. The outer cover plate of the energy-saving daylighting roof of claim 1, characterized in that: each dead lever (4) is connected with buckle (3) and all is connected with sleeve pipe (8), each dead lever (4) are close to the one end setting of buckle (3) in sleeve pipe (8) that correspond, each the lateral wall of dead lever (4) all with sleeve pipe (8) inside wall threaded connection that corresponds.

5. The outer cover plate of the energy-saving daylighting roof of claim 4, characterized in that: each sleeve (8) is provided with a fixing bolt (9), each fixing bolt (9) penetrates through the corresponding sleeve (8) and is in threaded connection with the corresponding sleeve (8), and each fixing bolt (9) penetrates through one end of each sleeve (8) and is abutted against the fixing rod (4) in the corresponding sleeve (8).

6. The outer cover plate of the energy-saving daylighting roof of claim 5, characterized in that: an adjusting spring (10) is sleeved outside each sleeve (8), one end of each adjusting spring (10) is fixedly connected with the buckle plate (3), and the other end of each adjusting spring abuts against the bottom wall of the concave part (2); each adjusting spring (10) is in a compressed state, and the buckle plate (3) is connected with the concave part (2) in a sliding manner along the depth direction of the concave part (2); when the outer cover plate is connected with the cross beam (12), the buckle plate (3) and the cover plate body (1) are positioned on the same horizontal plane.

7. The outer cover plate of the energy-saving daylighting roof of claim 1, characterized in that: the buckle (3) is parallel to the bottom wall of the concave part (2), and the side wall of the buckle (3) is attached to the inner wall of the concave part (2).

8. The outer cover plate of the energy-saving daylighting roof of claim 7, characterized in that: the side walls of the pinch plates (3) attached to the inner wall of the concave part (2) are connected with sealing strips (11).

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