CN220187122U - Water circulation heat collection stepping lifting aluminum alloy solar frame - Google Patents

Abstract

The utility model relates to a water circulation heat collection stepping lifting aluminum alloy solar frame which comprises a rotatable aluminum alloy solar frame, wherein solar frame lifting support frames are arranged on two sides of the rotatable aluminum alloy solar frame, and a rotatable stepping motor is arranged at the joint of the rotatable aluminum alloy solar frame and the solar frame lifting support frames. The utility model combines the solar frame and the water circulation heat collection, not only realizes the photoelectric conversion of sunlight, but also can timely absorb the strong heat energy released by the sunlight, realizes the multi-stage and multi-way utilization of energy, controls the lifting of the integral structure through hydraulic multi-stage, the solar energy frame rotation angle is maximized and controllable, the device is convenient and fast to adjust and control on the whole, the structure is optimized from the design, reasonable output is achieved from the adjustment and control, the components are matched with each other to realize the absorption and utilization of solar energy, the solar energy utilization efficiency is greatly improved, and the solar energy frame rotation angle adjusting device has excellent technical performance and practicability.

Description

Water circulation heat collection stepping lifting aluminum alloy solar frame

Technical Field

The utility model relates to the technical field of aluminum alloy frames, in particular to a water circulation heat collection stepping lifting aluminum alloy solar frame.

Background

Solar energy is a renewable energy source; solar energy refers to thermal radiation energy of the sun (see three modes of thermal energy propagation: radiation), and is mainly represented by so-called solar rays; are commonly used in modern times as power generation or to provide energy for water heaters.

At present, a solar panel can generate a large amount of heat when absorbing light energy, the heat can increase the load of an internal circuit of the solar panel, and the solar panel is easy to short-circuit, so that the fault of the solar panel is caused, at present, manufacturers are often provided with a heat conducting pipe filled with cooling liquid at the bottom of the solar panel in order to solve the problem, the heat of the surface of the solar panel can be absorbed, but after the cooling liquid absorbs heat and is saturated, the excessive heat can evaporate the cooling liquid, the pressure of the heat conducting pipe can be increased, and once the heat conducting pipe is swelled, the cooling liquid can easily flow into the solar panel, and the internal structure of the solar panel is damaged.

The solar frame is used for protecting the solar panel, however, the current solar frame is hard connected with the solar panel, so that the solar panel is easy to crack due to the fact that the solar panel does not have buffering capacity when vibration occurs, and the solar panel cannot be well protected.

Solar energy aluminum alloy frame among the prior art can initiatively generate heat under the condition that receives the direct sunlight, and then can influence the stability factor of aluminum alloy frame material, can also totally waste the heat that produces moreover, is unfavorable for the recycle of energy. Therefore, a new aluminum alloy solar frame is needed to collect and utilize the waste heat generated during solar irradiation.

Disclosure of Invention

The utility model aims to design a water circulation heat collection stepping lifting aluminum alloy solar frame, which combines solar frames with water circulation heat collection, so that not only is photoelectric conversion of sunlight realized, but also powerful heat energy released by the sunlight can be absorbed in time, multi-stage and multi-way utilization of energy is realized, the lifting of an integral structure is controlled through hydraulic multi-stage, the maximization and controllability of the rotation angle of the solar frame are realized, the convenient regulation and control of the device are realized on the whole, the structure is optimized in design, reasonable output is realized from regulation and control, and each component is mutually matched to realize the absorption and utilization of solar energy.

In order to achieve the aim of the utility model, the technical scheme adopted is as follows:

the water circulation heat collection stepping lifting aluminum alloy solar frame comprises a rotatable aluminum alloy solar frame, wherein solar frame lifting support frames are arranged on two sides of the rotatable aluminum alloy solar frame, and a rotatable stepping motor is arranged at the joint of the rotatable aluminum alloy solar frame and the solar frame lifting support frames; the solar frame lifting support frame is connected with a support rod hydraulic lifting cylinder through a lifting support frame support rod, the support rod hydraulic lifting cylinder is connected with a hydraulic cylinder power box through a hydraulic lifting cylinder power pipe, and a hydraulic power controller is arranged at the upper part of the hydraulic cylinder power box; one side of the solar frame lifting support frame is provided with a water circulation heat collection tank, the upper part of the water circulation heat collection tank is provided with a water circulation heat collection pump directly connected with the water circulation heat collection tank, and the water circulation heat collection pump is connected with a rotatable aluminum alloy solar frame through a water circulation heat collection water inlet pipe and a water circulation heat collection water outlet pipe.

Preferably, the lower part of the supporting rod hydraulic lifting cylinder is provided with a lifting support frame mounting seat, and the hydraulic cylinder power box is directly arranged on the lifting support frame mounting seat.

Preferably, a step rotary connecting rod is arranged between the rotatable step motors, a solar frame mounting head is sleeved on the step rotary connecting rod, a solar angle sensor is arranged on the upper surface of the solar frame mounting head, the solar frame mounting head is directly connected with a rotatable aluminum alloy solar frame, a step rotary regulator is arranged between the rotatable step motors and the solar frame mounting head, and the step rotary regulator is in control connection with the rotatable step motors.

Preferably, the lower part installation of rotatable aluminum alloy solar energy frame is provided with hydrologic cycle heat collection chamber, installs between rotatable aluminum alloy solar energy frame and the hydrologic cycle heat collection chamber and is provided with hydrologic cycle heat collection piece, and hydrologic cycle heat collection transfer pipe is installed at the both ends of hydrologic cycle heat collection chamber, and hydrologic cycle heat collection inlet tube, hydrologic cycle heat collection outlet pipe and hydrologic cycle heat collection transfer pipe are scalable deformation hose.

The beneficial effects of the utility model are as follows: according to the water circulation heat collection stepping lifting aluminum alloy solar frame, the solar frame and the water circulation heat collection are combined, so that the photoelectric conversion of sunlight is realized, strong heat energy released by the sunlight can be absorbed timely, the multi-stage and multi-way utilization of energy is realized, the lifting of the whole structure is controlled through hydraulic multi-stage, the maximization and the controllability of the rotation angle of the solar frame are realized, the convenient regulation and control of the device are realized on the whole, the structure is optimized in design, the reasonable output is realized in terms of regulation and control, the absorption and the utilization of solar energy are realized through the mutual matching of all components, the energy utilization efficiency of the sunlight is greatly improved, and the device has excellent technical innovation and practical application values.

Drawings

Fig. 1 is a schematic diagram of a front view structure of a water circulation heat collection stepping lifting aluminum alloy solar frame.

Fig. 2 is a schematic diagram of a side view structure of a water circulation heat collection stepping lifting aluminum alloy solar frame of the utility model.

Fig. 3 is a schematic diagram of a top view structure of the water circulation heat collection stepping lifting aluminum alloy solar frame of the utility model.

Fig. 4 is a schematic diagram of a partial cross-sectional structure of a water circulation heat collection step-by-step lifting aluminum alloy solar frame of the utility model.

In the figure: 1. rotatable aluminum alloy solar frame; 2. lifting support frames of solar frames; 3. a rotatable stepper motor; 4. a lifting support frame support rod; 5. a supporting rod hydraulic lifting cylinder; 6. a hydraulic lifting cylinder power pipe; 7. a hydraulic power controller; 8. a hydraulic cylinder power box; 9. a lifting support frame mounting seat; 10. a water circulation heat collection tank; 11. a solar energy angle sensor; 12. a step rotation controller; 13. step-by-step rotating the connecting rod; 14. step-by-step rotating the connecting rod; 15. a water circulation heat collection pump; 16. a water circulation heat collection water inlet pipe; 17. a water circulation heat collection water outlet pipe; 18. a water circulation heat collection transfer pipe; 19. a water circulation heat collecting sheet; 20. a water circulation heat collection cavity.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

Referring to fig. 1, a water circulation heat collection stepping lifting aluminum alloy solar frame comprises a rotatable aluminum alloy solar frame 1, solar frame lifting support frames 2 are arranged on two sides of the rotatable aluminum alloy solar frame 1, and a rotatable stepping motor 3 is arranged at the joint of the rotatable aluminum alloy solar frame 1 and the solar frame lifting support frames 2; the solar frame lifting support frame 2 is connected with a support rod hydraulic lifting cylinder 5 through a lifting support frame support rod 4, the support rod hydraulic lifting cylinder 5 is connected with a hydraulic cylinder power box 8 through a hydraulic lifting cylinder power pipe 6, and a hydraulic power controller 7 is arranged at the upper part of the hydraulic cylinder power box 8; one side of the solar frame lifting support frame 2 is provided with a water circulation heat collection tank 10, the lower part of the supporting rod hydraulic lifting cylinder 5 is provided with a lifting support frame installation seat 9, and the hydraulic cylinder power box 8 is directly installed on the lifting support frame installation seat 9.

Referring to fig. 2 and 3, a water circulation heat collection step lifting aluminum alloy solar frame is shown, a water circulation heat collection pump 15 directly connected with the water circulation heat collection tank 10 is installed on the upper portion of the water circulation heat collection tank 10, the water circulation heat collection pump 15 is connected with a rotatable aluminum alloy solar frame 1 through a water circulation heat collection water inlet pipe 16 and a water circulation heat collection water outlet pipe 17, a step rotation connecting rod 13 is installed between the rotatable step motors 3, a solar frame installation head 14 is sleeved on the step rotation connecting rod 13, a solar angle sensor 11 is installed on the upper surface of the solar frame installation head 14, the solar frame installation head 14 is directly connected with the rotatable aluminum alloy solar frame 1, a step rotation regulator 12 is installed between the rotatable step motors 3 and the solar frame installation head 14, and the step rotation regulator 12 is controlled to be connected with the rotatable step motors 3.

Referring to fig. 4, a water circulation heat collection step lifting aluminum alloy solar frame is provided with a water circulation heat collection cavity 20 at the lower part of a rotatable aluminum alloy solar frame 1, a water circulation heat collection sheet 19 is provided between the rotatable aluminum alloy solar frame 1 and the water circulation heat collection cavity 20, water circulation heat collection transfer pipes 18 are provided at two ends of the water circulation heat collection cavity 20, and the water circulation heat collection water inlet pipe 16, the water circulation heat collection water outlet pipe 17 and the water circulation heat collection transfer pipes 18 are flexible deformation hoses.

Working principle: in the initial state, the rotatable aluminum alloy solar frame 1 and the solar frame lifting support frame 2 are kept parallel to the ground, a hydraulic power controller 7 and a hydraulic cylinder power box 8 for protecting and shielding the lower part of the rotatable aluminum alloy solar frame 1 and the solar frame lifting support frame from being corroded and damaged by rainwater and dew at night, when the sun breaks down from the east, a solar angle sensor 11 arranged on the upper surface of a solar frame mounting head 14 automatically senses the direct angle of sunlight and transmits real-time information to a stepping rotation controller 12;

the stepping rotation regulator 12 converts direct sunlight information into an angle rotation signal, controls the rotatable stepping motor 3 to rotate around the stepping rotation connecting rod 13 by a proper angle, so that the rotatable aluminum alloy solar frame 1 synchronously rotates in a stepping way under the action of the stepping rotation connecting rod 13, and further the rotatable aluminum alloy solar frame 1 is perpendicular to direct sunlight rays and performs direct-irradiation photoelectric conversion of the solar panel point to point;

when the rotatable aluminum alloy solar frame 1 is activated and started from the initial position for 30-60min, the water circulation heat collection pump 15 is started, heat collection circulating water in the water circulation heat collection tank 10 is pumped into the water circulation heat collection cavity 20 at the lower part of the rotatable aluminum alloy solar frame 1 through the water circulation heat collection water inlet pipe 16, heat collected at the lower part of the solar electric plates in the rotatable aluminum alloy solar frame 1 is recovered and reused, heat recovery and cooling treatment are carried out on the plurality of solar electric plates through the water circulation heat collection transfer pipe 18, and finally the heat collection circulating water is pumped into the water circulation heat collection tank 10 through the water circulation heat collection water outlet pipe 17;

when the sun moves, the solar angle sensor 11 arranged on the upper surface of the solar frame mounting head 14 automatically senses the direct angle of the sunlight and transmits real-time information to the stepping rotation controller 12 to control the stepping rotation of the rotatable aluminum alloy solar frame 1 in real time until the sun goes down a mountain, and the rotatable aluminum alloy solar frame 1 and the solar frame lifting support frame 2 are retracted to an initial state and all keep parallel to the ground;

when the height of the rotatable aluminum alloy solar frame 1 needs to be adjusted so that the rotatable aluminum alloy solar frame 1 can be adjusted at a larger angle, the hydraulic power controller 7 is manually adjusted and controlled, the hydraulic cylinder power box 8 is further controlled to transmit hydraulic power to the supporting rod hydraulic lifting cylinder 5, the supporting rod hydraulic lifting cylinder 5 is hydraulically controlled to lift the supporting rod 4 of the lifting support frame to hydraulically lift, the solar frame lifting support frame 2 is further controlled to lift, and the whole rotatable aluminum alloy solar frame 1 is integrally lifted.

Example 2

This embodiment differs from embodiment 1 in that:

the water circulation heat collection step lifting aluminum alloy solar frame is characterized in that a flame-retardant/antistatic composite coating with obvious flame-retardant and antistatic effects is coated on the outer surface of the aluminum alloy frame, the aluminum alloy frame is well flame-retardant and antistatic, heat absorption filling materials with strong heat absorption effects are filled in the aluminum alloy frame, heat irradiated to the surface of the aluminum alloy frame is collected and then transferred to a water circulation heat collection sheet 19, finally transferred to heat collection circulating water in a water circulation heat collection cavity 20, and collected to a water circulation heat collection tank 10 for storage through a water circulation heat collection pump 15, a water circulation heat collection water inlet pipe 16, a water circulation heat collection water outlet pipe 17 and a water circulation heat collection transfer pipe 18.

Example 3

This embodiment differs from embodiments 1 and 2 in that:

the utility model provides a hydrologic cycle heat collection step by step lift aluminum alloy solar energy frame, hydrologic cycle heat collection jar 10 is including being used for storing the organic glass jar body of heat collection circulating water, set up at the inlayer, the outside parcel at the organic glass jar body has jar body heat preservation for keep warm the inside heat collection circulating water of organic glass jar body, the skin parcel at jar body heat preservation has jar body insulating layer, be used for reflecting the inside heat of jar body, and absorb outside heat and carry out blackbody radiation and enter into the organic glass jar body in, the surface parcel at jar body insulating layer has the blackbody material again, be used for absorbing the diffuse scattering energy from the sun.

According to the water circulation heat collection stepping lifting aluminum alloy solar frame, the solar frame and the water circulation heat collection are combined, so that not only is photoelectric conversion of sunlight realized, but also powerful heat energy released by the sunlight can be absorbed timely, multi-stage and multi-way utilization of energy is realized, the lifting of the integral structure is controlled through hydraulic multi-stage, the maximization and controllability of the rotation angle of the solar frame are realized, the convenient regulation and control of the device are realized, the structure is optimized in design, reasonable output is realized in terms of regulation and control, and all components are mutually matched to realize absorption and utilization of solar energy, so that the energy utilization efficiency of the sunlight is greatly improved, and the water circulation heat collection stepping lifting aluminum alloy solar frame has excellent technical innovation and practical application value.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a hydrologic cycle heat collection step by step lift aluminum alloy solar energy frame which characterized in that: the solar energy power generation device comprises a rotatable aluminum alloy solar energy frame (1), wherein solar energy frame lifting support frames (2) are arranged on two sides of the rotatable aluminum alloy solar energy frame (1), and a rotatable stepping motor (3) is arranged at the joint of the rotatable aluminum alloy solar energy frame (1) and the solar energy frame lifting support frames (2);

the solar frame lifting support frame (2) is connected with a support rod hydraulic lifting cylinder (5) through a lifting support frame support rod (4), the support rod hydraulic lifting cylinder (5) is connected with a hydraulic cylinder power box (8) through a hydraulic lifting cylinder power pipe (6), and a hydraulic power controller (7) is arranged at the upper part of the hydraulic cylinder power box (8);

one side of the solar frame lifting support frame (2) is provided with a water circulation heat collection tank (10), the upper part of the water circulation heat collection tank (10) is provided with a water circulation heat collection pump (15) directly connected with the water circulation heat collection tank (10), and the water circulation heat collection pump (15) is connected with a rotatable aluminum alloy solar frame (1) through a water circulation heat collection water inlet pipe (16) and a water circulation heat collection water outlet pipe (17).

2. The water circulation heat collection stepping lifting aluminum alloy solar frame according to claim 1, wherein: the lower part installation of bracing piece hydraulic pressure lift cylinder (5) is provided with lift support frame mount pad (9), and pneumatic cylinder headstock (8) direct mount is at lift support frame mount pad (9).

3. The water circulation heat collection stepping lifting aluminum alloy solar frame according to claim 1, wherein: a stepping rotary connecting rod (13) is arranged between the rotatable stepping motors (3), and a solar frame mounting head (14) is sleeved on the stepping rotary connecting rod (13).

4. A water circulation heat collection step lifting aluminum alloy solar frame as claimed in claim 3, wherein: the solar energy frame comprises a solar energy frame mounting head (14), wherein a solar energy angle sensor (11) is arranged on the upper surface of the solar energy frame mounting head (14), and the solar energy frame mounting head (14) is directly connected with a rotatable aluminum alloy solar energy frame (1).

5. A water circulation heat collection step lifting aluminum alloy solar frame as claimed in claim 3, wherein: the rotatable stepper motor (3) and the solar frame mounting head (14) are provided with a stepping rotation regulator (12), and the stepping rotation regulator (12) is in control connection with the rotatable stepper motor (3).

6. The water circulation heat collection stepping lifting aluminum alloy solar frame according to claim 1, wherein: the solar energy water circulation heat collection device is characterized in that a water circulation heat collection cavity (20) is arranged at the lower part of the rotatable aluminum alloy solar energy frame (1), and a water circulation heat collection sheet (19) is arranged between the rotatable aluminum alloy solar energy frame (1) and the water circulation heat collection cavity (20).

7. The water circulation heat collection stepping lifting aluminum alloy solar frame according to claim 6, wherein: the two ends of the water circulation heat collection cavity (20) are provided with water circulation heat collection transfer pipes (18), and the water circulation heat collection water inlet pipe (16), the water circulation heat collection water outlet pipe (17) and the water circulation heat collection transfer pipes (18) are flexible deformation hoses.