CN215442628U

CN215442628U - Novel energy-saving roof steel structure

Info

Publication number: CN215442628U
Application number: CN202121682097.0U
Authority: CN
Inventors: 戚荣标; 高尔华; 高国祥; 谢水林; 陈顺成; 沈建娣; 姚益明; 姜建龙
Original assignee: Zhejiang Yuanyuan Steel Structure Manufacturing Co ltd
Current assignee: Zhejiang Yuanyuan Steel Structure Manufacturing Co ltd
Priority date: 2021-07-22
Filing date: 2021-07-22
Publication date: 2022-01-07
Anticipated expiration: 2031-07-22

Abstract

The utility model discloses a novel energy-saving roof steel structure which comprises a fixed frame, wherein a controller is arranged on the inner wall of the fixed frame, a lifting assembly is arranged at one end of the fixed frame and is electrically connected with the controller, the lifting end of the lifting assembly is vertically upwards and is connected with a lifting plate, an air speed sensor is arranged on the surface of the lifting plate and is electrically connected with the controller; the side that the lifter plate is close to fixed frame center rotates and is connected with the loading board that is used for installing solar panel, and the tip that lifting unit was kept away from to fixed frame is provided with auxiliary stay pole, auxiliary stay pole and loading board sliding fit. According to the utility model, the wind speed sensor and the controller are matched to detect the wind speed, the controller controls the lifting assembly to drive the lifting plate to be adjusted in height according to the wind speed, so that the inclination angle of the bearing plate is adjusted, the overall wind force of the device can be reduced, the installation stability of the solar panel is ensured, the solar panel is prevented from falling, and the safety is high.

Description

Novel energy-saving roof steel structure

Technical Field

The utility model relates to the field of energy-saving roofs, in particular to a novel energy-saving roof steel structure.

Background

The roof energy saving mainly comprises a heat preservation and insulation type roof, a roof flat-changed slope, a ventilation roof, a planting roof (greening roof), a water storage roof and other novel roofs. Installing solar panels on roofs is a common energy-saving roof form, and steel structure supports are needed for installing the solar panels.

However, the inclination of present steel structure support is not adjustable, and when meetting strong wind weather, the steel construction receives the wind-force to strike great, influences solar panel's installation steadiness, has the potential safety hazard. Accordingly, those skilled in the art have provided novel energy-saving roofing steel structures to solve the problems set forth in the background art described above.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a novel energy-saving roof steel structure to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme:

the novel energy-saving roof steel structure comprises a fixed frame, wherein a controller is arranged on the inner wall of the fixed frame, a lifting assembly is arranged at one end of the fixed frame and is electrically connected with the controller, the lifting end of the lifting assembly is vertically upwards and is connected with a lifting plate, an air speed sensor is arranged on the surface of the lifting plate and is electrically connected with the controller; the side that the lifter plate is close to fixed frame center rotates and is connected with the loading board that is used for installing solar panel, and the tip that lifting unit was kept away from to fixed frame is provided with auxiliary stay pole, auxiliary stay pole and loading board sliding fit.

The lifting assembly is arranged along the length direction of the fixing frame, the auxiliary supporting rod is used for carrying out auxiliary supporting on the bearing plate and realizing the inclination angle adjustment of the bearing plate

Preferably, lifting unit includes the fixed plate, and the fixed plate is connected at fixed frame inner wall, and the fixed plate extends along the width direction of fixed frame, and the fixed plate surface rotates and installs the internal thread pipe, and the internal thread pipe runs through the fixed plate and along the length direction evenly distributed of fixed plate, and there is the elevating screw through threaded connection inside the internal thread pipe, and the elevating screw upper end is connected with the lifter plate, and fixed frame inner wall is provided with the drive assembly who is used for driving all internal thread pipe synchronous revolution.

The fixed plate is close to the one end of fixed frame length direction, and the fixed plate extends along the width direction of fixed frame.

Preferably, the driving assembly comprises a driving motor and a driven sprocket, the driven sprocket is regularly distributed and installed at the outer side of the bottom of the internal thread pipe, the output end of the driving motor is connected with a driving sprocket, and a chain is meshed and connected between the driving sprocket and the driven sprocket.

The driven chain wheel is provided with a plurality of regularly distributed installation parts arranged on the outer side of the bottom of the internal thread pipe

Preferably, fixed frame inner wall connection has the mounting panel, and the mounting panel surface runs through and is provided with the spout, and the inside guide bar that is provided with of spout, guide bar outside sliding connection have the movable block, and the spout is worn out and the sliding block upper end is connected with the sliding plate, and driving motor installs on the sliding plate upper surface, and the outside cover that the guide bar is located between spout and the movable block is equipped with the extension spring, and the extension spring both ends are connected with spout inner wall and movable block respectively.

The spout extends the setting along the length direction of fixed frame, and the extension spring is used for pulling the movable block to make the movable block keep away from the internal thread pipe.

Preferably, the steel balls are uniformly embedded into the bottom surface of the sliding plate, the steel balls are in contact with the mounting plate, and the steel balls and the sliding grooves are arranged in a staggered mode.

Preferably, the upper end face of the auxiliary supporting rod is connected with a universal ball, and the universal ball is in contact with the bottom face of the bearing plate.

Preferably, the bottom surface of the bearing plate is provided with a guide groove plate in an inverted U-shaped structure, and the auxiliary support rod extends into the guide groove plate.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the wind speed sensor and the controller are matched to detect the wind speed, the controller controls the lifting assembly to drive the lifting plate to be adjusted in height according to the wind speed, so that the inclination angle of the bearing plate is adjusted, the overall wind force of the device can be reduced, the installation stability of the solar panel is ensured, the solar panel is prevented from falling, and the safety is high.

2. According to the utility model, all the internal threaded pipes are driven to synchronously rotate by the driving assembly, and the lifting screw drives the lifting plate to lift by utilizing thread transmission, so that the lifting stability of the lifting plate is ensured.

3. According to the utility model, the tension spring pulls the moving block, so that the moving block drives the sliding plate to be far away from the internal thread pipe, elastic support on the chain is realized, the chain is always in a tensioning state, and accurate chain transmission is ensured.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a right side cross-sectional view of the present invention.

Fig. 3 is an enlarged view of a portion a of fig. 2.

Fig. 4 is a schematic diagram of the distribution structure of the driven gear.

FIG. 5 is a schematic view of a matching structure of the auxiliary supporting rod and the supporting plate.

In the figure: 1. a fixing frame; 2. a lifting assembly; 21. a fixing plate; 202. an internally threaded tube; 23. lifting a screw rod; 241. a drive motor; 242. a drive sprocket; 243. a chain; 244. a driven sprocket; 245. mounting a plate; 246. a sliding plate; 247. a tension spring; 248. a moving block; 249. a chute; 250. a guide bar; 251. a steel ball; 3. a lifting plate; 4. a wind speed sensor; 5. a carrier plate; 501. a guide groove plate; 6. an auxiliary support bar; 61. a universal ball; 7. and a controller.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 5, in the embodiment of the utility model, the novel energy-saving roof steel structure comprises a fixed frame 1, a controller 7 is arranged on the inner wall of the fixed frame 1, a lifting assembly 2 is arranged at one end of the fixed frame 1, the lifting assembly 2 is electrically connected with the controller 7, the lifting end of the lifting assembly 2 is vertically upward and is connected with a lifting plate 3, an air speed sensor 4 is arranged on the surface of the lifting plate 3, and the air speed sensor 4 is electrically connected with the controller 7; the side that lifter plate 3 is close to fixed frame 1 center rotates and is connected with bearing board 5 that is used for installing solar panel, and the tip that lifting unit 2 was kept away from to fixed frame 1 is provided with auxiliary stay pole 6,

auxiliary stay pole

6 and 5 sliding fit of bearing board.

Lifting unit 2 sets up along fixed frame 1 length direction, and auxiliary stay pole 6 is used for carrying out auxiliary stay and realizing the inclination of loading board 5 and adjusting loading board 5 to loading board 5.

As a preferred embodiment, the lifting assembly 2 includes a fixing plate 21, the fixing plate 21 is connected to the inner wall of the fixing frame 1, the fixing plate 21 extends along the width direction of the fixing frame 1, an internal threaded pipe 202 is rotatably installed on the surface of the fixing plate 21, the internal threaded pipe 202 penetrates through the fixing plate 21 and is uniformly distributed along the length direction of the fixing plate 21, a lifting screw 23 is connected to the inside of the internal threaded pipe 202 through a thread, the upper end of the lifting screw 23 is connected to the lifting plate 3, and a driving assembly for driving all the internal threaded pipes 202 to rotate synchronously is arranged on the inner wall of the fixing frame 1.

The fixing plate 21 is close to one end of the fixing frame 1 in the length direction, and the fixing plate 21 extends along the width direction of the fixing frame 1; all the internal threaded pipes 202 are driven to synchronously rotate by the driving assembly, the lifting screw 23 is lifted in the internal threaded pipes 202 by utilizing thread transmission, the lifting screw 23 drives the lifting plate 3 to lift, the bearing plate 5 is driven to rotate by the lifting plate 3, and the inclination angle of the bearing plate 5 is adjusted.

In a preferred embodiment, the driving assembly includes a driving motor 241 and driven sprockets 244, the driven sprockets 244 are regularly distributed and installed at the outer side of the bottom of the internally threaded tube 202, a driving sprocket 242 is connected to the output end of the driving motor 241, and a chain 243 is engaged and connected between the driving sprocket 242 and the driven sprockets 244.

The driven chain wheel 244 is provided with a plurality of chain wheels which are regularly distributed and arranged on the outer side of the bottom of the internal thread pipe 202; the driving motor 241 is operated to drive all the internally threaded pipes 202 to rotate synchronously by meshing transmission of the driving sprocket 242, the chain 243 and the driven sprocket 244.

In a preferred embodiment, a mounting plate 245 is connected to the inner wall of the fixed frame 1, a sliding groove 249 is arranged on the surface of the mounting plate 245 in a penetrating manner, a guide rod 250 is arranged inside the sliding groove 249, a moving block 248 is slidably connected to the outer side of the guide rod 250, the upper end of the moving block 248 penetrates through the sliding groove 249 and is connected with a sliding plate 246, a driving motor 241 is installed on the upper surface of the sliding plate 246, a tension spring 247 is sleeved on the outer side of the guide rod 250 between the sliding groove 249 and the moving block 248, and two ends of the tension spring 247 are respectively connected with the inner wall of the sliding groove 249 and the moving block 248.

The sliding groove 249 extends along the length direction of the fixed frame 1, and the tension spring 247 is used for pulling the moving block 248 to enable the moving block 248 to be far away from the internal threaded pipe 202; the moving block 248 is pulled by the pulling force of the tension spring 247, so that the moving block 248 pulls the sliding block 246, the sliding block 246 drives the driving motor 241 to be away from the internal threaded pipe 202, the chain 243 is elastically pressed through the driving sprocket 242, the chain 243 is ensured to be always in a tensioning state, the chain 243 is prevented from falling off, and the transmission stability of the chain 243 is ensured.

In a preferred embodiment, steel balls 251 are uniformly embedded in the bottom surface of the sliding plate 246, the steel balls 251 are in contact with the mounting plate 245, and the steel balls 251 and the sliding groove 249 are arranged in a staggered manner.

The steel balls 251 reduce the friction between the sliding plate 246 and the mounting plate 245, thereby facilitating the sliding of the sliding plate 246 on the surface of the mounting plate 245.

In a preferred embodiment, the upper end surface of the auxiliary support rod 6 is connected with a universal ball 61, and the universal ball 61 is in contact with the bottom surface of the bearing plate 5.

Realize the supplementary slip support of auxiliary stay pole 6 to loading board 5 through universal ball 61, supplementary realization loading board 5's inclination is adjusted.

As a preferred embodiment, the bottom surface of the loading plate 5 is provided with a guide groove plate 501 having an inverted U-shaped structure, and the auxiliary support bar 6 extends into the guide groove plate 501.

The bearing plate 5 is guided in a limiting manner through the guide groove plate 501 and the auxiliary support rod 6, so that the stability of the bearing plate 5 is ensured.

The working principle of the utility model is as follows: when the wind speed sensor is used, the wind speed is detected through the wind speed sensor 4, the detection structure is transmitted to the controller 7, the controller 7 controls the lifting assembly 2 to work according to the wind speed, the lifting assembly 2 drives the lifting plate 3 to lift, in the lifting process of the lifting plate 3, the auxiliary support rod 6 is in sliding fit with the bearing plate 5, the bearing plate 5 is subjected to auxiliary sliding support through the auxiliary support rod 6, the bearing plate 5 is rotatably connected with the lifting plate 3, the inclination angle of the bearing plate 5 is increased when the lifting plate 3 rises, the inclination angle of the bearing plate 5 is decreased when the lifting plate 3 descends, and when the wind is strong, the lifting assembly 2 drives the lifting plate 3 to descend, so that the inclination angle of the bearing plate 5 is decreased, even the bearing plate 5 is in a horizontal state, the wind force borne by the bearing plate 5 is reduced, the installation stability of the solar panel is ensured, the solar panel is prevented from falling off, and the safety of the solar panel is ensured; when the wind is small or no wind exists, the lifting plate 3 is driven to ascend through the lifting assembly 2, so that the inclination angle of the bearing plate 5 is increased, the sunlight can be ensured to accurately irradiate the solar panel, and the power generation effect of the solar panel is ensured; the specific working process of the lifting assembly 2 is as follows: the driving motor 241 drives the driving sprocket 242 to rotate, and the driving sprocket 242, the chain 243 and the driven sprocket 244 are used for meshing transmission, so that all the internally threaded pipes 202 are driven to synchronously rotate, the lifting screw 23 is lifted in the internally threaded pipes 202 by utilizing thread transmission, the lifting screw 23 drives the lifting plate 3 to lift, and the height adjustment of the lifting plate 3 is realized; because the internal thread pipes 202 are provided with a plurality of internal thread pipes and are uniformly distributed along the length direction of the fixed plate 21, the lifting plate 3 can be stably lifted; the moving block 248 is pulled by the pulling force of the tension spring 247, so that the moving block 248 pulls the sliding block 246, the sliding block 246 drives the driving motor 241 to be away from the internal threaded pipe 202, the chain 243 is elastically pressed through the driving sprocket 242, the chain 243 is ensured to be always in a tensioning state, the chain 243 is prevented from falling off, and the transmission stability of the chain 243 is ensured.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims

1. Novel energy-conserving roofing steel construction, including fixed frame, its characterized in that: the inner wall of the fixed frame is provided with a controller, one end of the fixed frame is provided with a lifting assembly, the lifting assembly is electrically connected with the controller, the lifting end of the lifting assembly is vertically upward and is connected with a lifting plate, the surface of the lifting plate is provided with an air speed sensor, and the air speed sensor is electrically connected with the controller; the side that the lifter plate is close to fixed frame center rotates and is connected with the loading board that is used for installing solar panel, and the tip that lifting unit was kept away from to fixed frame is provided with auxiliary stay pole, auxiliary stay pole and loading board sliding fit.

2. The novel energy-saving roof steel structure according to claim 1, characterized in that: lifting unit includes the fixed plate, and the fixed plate is connected at fixed frame inner wall, and the fixed plate extends along the width direction of fixed frame, and the fixed plate surface rotates installs the internal thread pipe, and the internal thread pipe runs through the fixed plate and follows the length direction evenly distributed of fixed plate, and the internal thread is inside to have lead screw through threaded connection, and the lead screw upper end is connected with the lifter plate, and fixed frame inner wall is provided with the drive assembly who is used for driving all internal thread pipe synchronous revolution.

3. The novel energy-saving roof steel structure of claim 2, characterized in that: the driving assembly comprises a driving motor and a driven sprocket, the driven sprocket is regularly distributed and installed at the outer side of the bottom of the inner threaded pipe, the output end of the driving motor is connected with a driving sprocket, and a chain is meshed between the driving sprocket and the driven sprocket.

4. The novel energy-saving roof steel structure of claim 3, characterized in that: the inner wall of the fixed frame is connected with a mounting plate, a sliding groove is formed in the surface of the mounting plate in a penetrating mode, a guide rod is arranged inside the sliding groove, a moving block is connected to the outer side of the guide rod in a sliding mode, the upper end of the moving block penetrates out of the sliding groove and is connected with a sliding plate, the driving motor is mounted on the upper surface of the sliding plate, a tension spring is sleeved on the outer side, located between the sliding groove and the moving block, of the guide rod, and the two ends of the tension spring are connected with the inner wall of the sliding groove and the moving block respectively.

5. The novel energy-saving roof steel structure according to claim 4, characterized in that: the steel balls are uniformly embedded into the bottom surface of the sliding plate, are in contact with the mounting plate and are arranged in a staggered mode with the sliding grooves.

6. The novel energy-saving roof steel structure according to claim 1, characterized in that: the upper end face of the auxiliary supporting rod is connected with a universal ball, and the universal ball is in contact with the bottom face of the bearing plate.

7. The novel energy-saving roof steel structure of claim 6, characterized in that: the loading board bottom surface is provided with the guide way board that is the type of falling U structure, and the auxiliary stay pole stretches into inside the guide way board.