CN114059812A - Photovoltaic bicycle shed device - Google Patents

Abstract

The invention discloses a photovoltaic car shed device.A photovoltaic component and an LED lamp bead matrix are respectively fixed at the upper part and the bottom of a component support, a control module is fixed between the photovoltaic component and the LED lamp bead matrix, the control module is connected with the photovoltaic component and the LED lamp bead matrix, and two interfaces of power generation and lighting display are respectively formed at the upper end and the lower end of the control module; the multipurpose of power generation display is realized; a plurality of photovoltaic LED subassemblies are installed in array in the support main part, with two adjacent photovoltaic LED subassembly sealing connection, form stable sealing connection structure, set up wiring module in photovoltaic module inside simultaneously, the stability of connecting between the photovoltaic module has been improved, adopt the modular structure installation, mounting structure is simple, high convenience and fast, and avoided the circuit external, the security of photovoltaic structure has been improved greatly, set up a plurality of mounting grooves through the interval on supporting main sandalwood strip, support vice sandalwood strip bottom cover and locate in the mounting groove, be convenient for aim at the installation fast, and the installation back stable in structure, be convenient for maintain.

Description

Photovoltaic bicycle shed device

Technical Field

The invention belongs to the technical field of solar photovoltaic power generation, and particularly relates to a photovoltaic car shed device.

Background

At present, the cost of the photovoltaic cell is reduced year by year, and the application is wider and wider. The parking shed in the city is particularly suitable for installing a photovoltaic system due to simple and standard structure and moderate area.

The scheme of the existing photovoltaic bicycle shed, namely the bicycle shed accessory type, is characterized in that a photovoltaic module is attached to a color steel tile of an original bicycle shed, and the photovoltaic module is installed on the bicycle shed as an accessory. Its advantages are simple structure and easy installation. But the disadvantage is that the appearance is poor and the installation of the photovoltaic system may damage the original color steel tile structure. Moreover, due to repeated investment on the color steel tiles and the photovoltaic modules, the overall cost is higher.

The other photovoltaic module ceiling type photovoltaic car shed is characterized in that the photovoltaic modules are directly laid on a car shed keel as photovoltaic tiles to form a ceiling, the car shed ceiling does not need to be additionally arranged, the photovoltaic modules play a role of shielding the parked car from the sun, but the photovoltaic module ceiling type photovoltaic car shed has the defect that the risk of rainwater leakage exists among the photovoltaic modules, the role of shielding the car below from the rainwater cannot be played, and the photovoltaic modules are fixed on a support frame structure as the ceiling and connected through external wiring, so that the wiring of photovoltaic cables is messy, and great potential safety hazards exist; the installation process is complicated.

Disclosure of Invention

The invention aims to provide a photovoltaic car shed device, which overcomes the defects of the prior art, can realize the sealing connection between photovoltaic modules, and meanwhile, the wiring module is arranged in the photovoltaic modules, so that the connection stability between the photovoltaic modules is improved.

A photovoltaic bicycle shed device comprises a photovoltaic LED assembly, a control module and a supporting main body for supporting and installing the photovoltaic LED assembly;

the photovoltaic LED assembly comprises an assembly support, the upper part and the bottom of the assembly support are respectively fixed with a photovoltaic assembly and an LED lamp bead matrix, the control module is fixed between the photovoltaic assembly and the LED lamp bead matrix, the control module is connected with the photovoltaic assembly and the LED lamp bead matrix, and two interfaces of power generation and lighting display are respectively formed at the upper end and the lower end of the control module; the multipurpose of power generation display is realized; a plurality of photovoltaic LED assemblies are arranged on the supporting main body in an array mode, and two adjacent photovoltaic LED assemblies are connected in a sealing mode.

Furthermore, the support main body comprises a support column and a support beam fixed at the upper end of the support column, and the lower end of the support column is fixed on the ground.

Further, two adjacent groups of photovoltaic LED assemblies are connected through a sealing assembly.

Furthermore, a main supporting sandal strip is fixed at the upper end of the supporting main body and fixedly connected with the supporting main body through bolts.

Furthermore, a plurality of auxiliary supporting sandalwood strips are arranged at the upper end of the main supporting sandalwood strip in an array mode, and a photovoltaic LED assembly is installed on two adjacent auxiliary supporting sandalwood strips.

Furthermore, a plurality of mounting grooves are formed in the main supporting sandalwood strips at intervals, the bottoms of the auxiliary supporting sandalwood strips are sleeved in the mounting grooves, and the distance between the auxiliary supporting sandalwood strips mounted in the two adjacent mounting grooves is the width distance of one photovoltaic LED assembly.

Furthermore, two sliding grooves are respectively formed in two sides of the auxiliary supporting sandalwood strips, one side of the photovoltaic LED assembly can be inserted into the sliding grooves of the auxiliary supporting sandalwood strips, and the photovoltaic LED assembly is fixedly connected with the auxiliary supporting sandalwood strips through bolts or screws.

Further, a sealing strip is arranged between the photovoltaic LED assembly and the sliding groove for supporting the auxiliary sandal wood strips.

Furthermore, the photovoltaic LED assembly comprises two assembly cross bars which are arranged in parallel, the bottoms of the two assembly cross bars are connected through the assembly auxiliary cross bar, a plurality of assembly auxiliary cross bars are arranged at the bottoms of the two assembly cross bars, an inverter junction box is arranged between the two assembly cross bars, and the control module is arranged in the inverter junction box.

Furthermore, the control module comprises a processor module, a power carrier module, an LED matrix control module and an inversion module; the power carrier module, the LED matrix control module and the inversion module are all connected with the processor module; the LED matrix control module is connected with the LED lamp bead matrix input, and the inversion module is connected with the output of the processor module.

Compared with the prior art, the invention has the following beneficial technical effects:

according to the photovoltaic car shed device, the photovoltaic component and the LED lamp bead matrix are respectively fixed at the upper part and the bottom part of the component support, the control module is fixed between the photovoltaic component and the LED lamp bead matrix, the control module is connected with the photovoltaic component and the LED lamp bead matrix, and two interfaces of power generation and lighting display are respectively formed at the upper end and the lower end of the control module; the multipurpose of power generation display is realized; a plurality of photovoltaic LED assemblies are arranged on the support main body in an array mode, two adjacent photovoltaic LED assemblies are connected in a sealing mode to form a stable sealing connection structure, meanwhile, the wiring modules are arranged inside the photovoltaic assemblies, the connection stability between the photovoltaic assemblies is improved, the modular structure is adopted for installation, the installation structure is simple, convenience and rapidness are achieved, the circuit is prevented from being connected externally, and the safety of the photovoltaic structure is greatly improved.

Furthermore, a plurality of mounting grooves are formed in the main supporting sandalwood strips at intervals, the bottoms of the auxiliary supporting sandalwood strips are sleeved in the mounting grooves, quick alignment and installation are facilitated, and the installation structure is stable and convenient to maintain.

Furthermore, the two sides of the supporting auxiliary sandalwood strips are respectively provided with a sliding groove, one side of the photovoltaic LED assembly can be inserted into the sliding groove of the supporting auxiliary sandalwood strips, the connecting structure is simple, and the sealing performance is strong.

Furthermore, the photovoltaic LED assembly comprises two assembly cross bars which are arranged in parallel, and the bottoms of the two assembly cross bars are connected through the assembly auxiliary cross bar to form a stable photovoltaic installation module which is convenient to transport and assemble.

Furthermore, the control module with an integrated structure is arranged in the photovoltaic LED assembly, so that the wiring is prevented from being exposed, and the wiring is safe and stable.

Drawings

Fig. 1 is a schematic view of an installation structure of a photovoltaic car shed device in the embodiment of the invention.

Fig. 2 is a schematic structural diagram of a photovoltaic LED module according to an embodiment of the present invention.

Fig. 3 is a schematic diagram of a circuit connection structure of a control module according to an embodiment of the present invention.

Fig. 4 is a schematic diagram of an LED lamp bead matrix structure in the embodiment of the present invention.

In the figure, 1, a photovoltaic LED assembly; 2. a control module; 3. a support body; 4. a support pillar; 5. a support beam; 6. supporting the main sandal wood; 7. supporting the auxiliary sandal wood; 8. a component rail; 9. a secondary cross bar of the assembly; 10. an LED lamp bead chip; 11. a photovoltaic module; 12. an inverter junction box.

Detailed Description

In order to make the technical solutions of the present invention better understood, 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.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The invention is described in further detail below with reference to the accompanying drawings:

the photovoltaic bicycle shed device is arranged in a sandalwood strip structure, sealing connection between photovoltaic modules can be achieved, and meanwhile, the wiring module is arranged inside the photovoltaic modules, so that the connection stability between the photovoltaic modules is improved; the method specifically comprises the following steps:

the photovoltaic LED assembly comprises a photovoltaic LED assembly 1, a control module and a supporting main body 3 for supporting and installing the photovoltaic LED assembly 1, wherein the supporting main body 3 is used as a supporting structure, the bottom of the supporting main body 3 is used for parking a vehicle, the requirement of a vehicle parking space is met, the vehicle can enter and exit conveniently through the requirement, and the normal parking of the vehicle is not influenced; the supporting main body 3 adopts a steel structure supporting structure and comprises supporting columns 4 and supporting beams 5 fixed at the upper ends of the supporting columns 4, the supporting columns 4 are fixed on the ground, and a plurality of supporting stands divide the ground into a plurality of parking space spaces for parking vehicles;

the supporting cross beam 5 stretches across the upper end of the supporting column 4, and the supporting cross beam 5 is fixed on the supporting column 4 through welding or fixedly installed by adopting a bolt group to form a detachable installation assembly which is convenient to transport and install; or a support frame capable of serving as a support structure is arranged according to the specific parking lot specification; the stability and the safety of the support are ensured, and enough parking space is reserved at the bottom, so that the vehicles can conveniently enter and exit.

The supporting height of the supporting body 3 meets the requirements of parking lighting, single-row arrangement or multi-row parallel arrangement is adopted, the photovoltaic LED assemblies 1 on the same row are obliquely arranged, the rainwater is discharged, and the front end or the rear end of each row of photovoltaic assemblies is provided with a channel for maintaining, replacing or cleaning the photovoltaic LED assemblies.

The photovoltaic LED assemblies 1 are fixed at the upper end of the support main body 3, two adjacent groups of photovoltaic LED assemblies 1 are connected in a sealing manner, and the photovoltaic LED assemblies 1 are sealed to form a whole, so that the sealing of the whole shed structure is improved; specifically, to this application, photovoltaic LED subassembly 1 sets up seal assembly through screw or bolt fastening in 3 upper ends of supporting the main part between adjacent two sets of photovoltaic LED subassemblies 1, and the seal assembly both sides respectively with two sets of 1 sealing connection of photovoltaic LED subassembly, can realize quick erection joint.

The upper end of the supporting main body 3 is provided with a supporting main sandalwood strip 6 serving as an installation foundation of the photovoltaic LED assembly 1, and the supporting main sandalwood strip 6 is fixedly connected with the supporting main body 3 through bolts; the bolt holes are prefabricated in the supporting cross beam 5 at the upper end of the supporting main body 3, and the through holes corresponding to the prefabricated bolt holes in the supporting cross beam 5 are arranged in the supporting main sandal wood strips 6 and serve as fixing points of bolt connecting parts. The main supporting sandalwood strips 6 are perpendicular to the supporting beams 5, namely the supporting beams 5 are connected with two supporting columns in the length direction or connected with two supports in the width direction, the main supporting sandalwood strips 6 are perpendicular to the supporting beams 5, and the main supporting sandalwood strips 6 are connected with two supporting columns in the width direction or connected with two supports in the length direction.

The supporting main sandalwood strips 6 serve as the mounting foundation of the photovoltaic LED assemblies 1, a plurality of supporting auxiliary sandalwood strips 7 are arranged at the upper ends of the supporting main sandalwood strips 6 in an array mode, the supporting auxiliary sandalwood strips 7 serve as sealing assemblies of two adjacent photovoltaic LED assemblies 1, and the distance between the two adjacent supporting auxiliary sandalwood strips 7 is the width of the photovoltaic LED assemblies 1 and is used for being mounted and connected with the photovoltaic LED assemblies 1 in a sealing mode.

As an installation body directly connected with the photovoltaic LED assembly 1, the auxiliary supporting sandalwood 7 is connected with the photovoltaic LED assembly 1 through bolts, and the installation of the auxiliary supporting sandalwood 7 directly influences the efficiency and stability of the photovoltaic LED assembly 1; the supporting auxiliary sandal wood strips 7 and the supporting main sandal wood strips 6 are spliced; the supporting main sandalwood strips 6 are provided with a plurality of mounting grooves at intervals, the bottoms of the supporting auxiliary sandalwood strips 7 are sleeved in the mounting grooves, the distance between the supporting auxiliary sandalwood strips 7 mounted in two adjacent mounting grooves is the width distance of one photovoltaic LED assembly 1, the supporting auxiliary sandalwood strips 7 are quickly positioned and mounted, and the bottoms of the supporting auxiliary sandalwood strips 7 are sleeved in the mounting grooves in the supporting main sandalwood strips 6 and then fixed by bolts or screws.

The supporting auxiliary sandal wood strips 7 and the supporting main sandal wood strips 6 can both adopt an I-shaped beam structure, and have simple structure and high installation and connection strength.

The two sides of the supporting auxiliary sandal wood strips 7 are respectively provided with a sliding groove, one side of the photovoltaic LED assembly 1 can be inserted into the sliding groove of the supporting auxiliary sandal wood strips 7, and the photovoltaic LED assembly 1 and the supporting auxiliary sandal wood strips 7 are fixedly connected through bolts or screws. A sealing strip is arranged between the photovoltaic LED assembly 1 and the sliding groove for supporting the auxiliary sandal wood strip 7, and the sealing performance between the photovoltaic LED assembly 1 and the sliding groove is improved.

As shown in fig. 2, the photovoltaic LED module 1 includes two module cross bars 8 arranged in parallel, the bottoms of the two module cross bars 8 are connected by a module secondary cross bar 9, and the module cross bar 8 is used as a main support structure of the photovoltaic LED module; a plurality of assembly auxiliary cross bars 9 are arranged at the bottom of the two assembly cross bars 8, and the assembly auxiliary cross bars 9 are perpendicular to the assembly cross bars 8 to form a complete closed plate structure. The auxiliary assembly cross bar 9 is fixed at the lower end of the assembly cross bar 8 through screws. The assembly horizontal bar 8 is arranged in the sliding groove on one side of the supporting auxiliary sandal bar 7 in a sliding manner.

A plurality of LED lamp bead chips 10 are arranged on each assembly auxiliary cross bar 9 and fixed on the assembly auxiliary cross bar in a row to form an LED lamp bead matrix as shown in FIG. 4; a photovoltaic module 11 is fixed at the upper end of the module horizontal bar 8; an assembly transverse bar 8 is arranged between the photovoltaic assembly 11 and the assembly auxiliary transverse bar 9, a cavity is arranged between the two assembly transverse bars 8 and serves as a heat dissipation channel of the photovoltaic assembly 11, an inverter junction box 12 is arranged between the two assembly transverse bars 8, a control module is arranged in the inverter junction box 12, and the control module is connected with an LED lamp bead matrix and the photovoltaic assembly 11. Inverter terminal box 12 and subassembly horizontal bar send simultaneously and play main part bearing structure, and inverter terminal box is as LED lamp pearl matrix and photovoltaic module wiring groove.

As shown in fig. 3, a control module is arranged in the inverter junction box 12, and the control module includes a processor module, a power carrier module, an LED matrix control module and an inverter module; the power carrier module, the LED matrix control module and the inversion module are all connected with the processor module; the LED matrix control module is connected with the LED lamp bead matrix input, and the inversion module is connected with the output of the processor module. The quick socket is arranged at the end part of the inverter junction box 12 and used for connecting two photovoltaic LED assemblies, the structure is simple, the photovoltaic LED assemblies can be quickly installed, the wiring is arranged in the inverter junction box 12, the circuit is prevented from exposing and aging risks, and the installation risk of the photovoltaic assemblies is reduced.

The processor module adopts stm32 series chips, and the photovoltaic module is controlled to convert direct current into alternating current. The processor module controls the LED matrix control module at the same time, and the processor receives instructions of an upper computer and controls the LED array to display contents such as characters, pictures, animations, videos and the like by sending instructions to the LED matrix control module.

The power carrier module is used for realizing the communication between the processor module and the upper computer, is divided into a transmitting part and a receiving part and comprises a transmitting processing unit, a logic processing unit, a carrier generator and a carrier transformer; the signal sending processing unit of the power carrier module sends signals through a serial port, the logic processing unit of the power carrier module combines the signals with a base frequency signal generated by a carrier generator, and the signals are amplified through power and generate high-frequency signals on a power line through a carrier transformer to be transmitted to an upper computer. The receiving part amplifies, detects and shapes the high-frequency signal transmitted by the power line, extracts information and transmits the information to the serial port of the processor module.

The foregoing detailed description is exemplary and is intended to provide further details of the invention. Unless otherwise defined, all technical terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the invention.

Claims (10)

1. The photovoltaic bicycle shed device is characterized by comprising a photovoltaic LED assembly (1), a control module and a supporting main body (3) for supporting and installing the photovoltaic LED assembly (1);

the photovoltaic LED assembly (1) comprises an assembly support, a photovoltaic assembly (11) and an LED lamp bead matrix are respectively fixed at the upper part and the bottom of the assembly support, a control module is fixed between the photovoltaic assembly (11) and the LED lamp bead matrix, and the control module is connected to the photovoltaic assembly (11) and the LED lamp bead matrix;

a plurality of photovoltaic LED assemblies (1) are arranged on the supporting main body (3) in an array mode, and the two adjacent photovoltaic LED assemblies (1) are connected in a sealing mode.

2. A photovoltaic carport device according to claim 1, characterized in that the support body (3) comprises a support column (4) and a support beam (5) fixed to the upper end of the support column (4), the lower end of the support column (4) being fixed to the ground.

3. The photovoltaic bicycle shed device according to claim 1, wherein two adjacent groups of photovoltaic LED assemblies (1) are connected through a sealing assembly.

4. The photovoltaic bicycle shed device according to claim 2, wherein a main supporting sandalwood strip (6) is fixed on the upper end of the supporting main body (3), and the main supporting sandalwood strip (6) is fixedly connected with the supporting main body (3) through bolts.

5. The photovoltaic bicycle shed device according to claim 4, characterized in that a plurality of auxiliary supporting sandalwood strips (7) are arrayed at the upper end of the main supporting sandalwood strip (6), and one photovoltaic LED assembly (1) is installed on two adjacent auxiliary supporting sandalwood strips (7).

6. The photovoltaic bicycle shed device according to claim 5, wherein a plurality of mounting grooves are formed in the main supporting sandalwood strips (6) at intervals, the bottoms of the auxiliary supporting sandalwood strips (7) are sleeved in the mounting grooves, and the distance between the auxiliary supporting sandalwood strips (7) mounted in two adjacent mounting grooves is the width distance of one photovoltaic LED assembly (1).

7. The photovoltaic bicycle shed device according to claim 5, wherein two sides of the supporting auxiliary sandalwood strips (7) are respectively provided with a sliding groove, one side of the photovoltaic LED assembly (1) can be inserted into the sliding groove of the supporting auxiliary sandalwood strips (7), and the photovoltaic LED assembly (1) and the supporting auxiliary sandalwood strips (7) are fixedly connected through bolts or screws.

8. Photovoltaic carport device according to claim 7, characterized in that a sealing strip is arranged between the photovoltaic LED module (1) and the chute supporting the secondary sandalwood strips (7).

9. The photovoltaic bicycle shed device as claimed in claim 1, wherein the photovoltaic LED assembly (1) comprises two assembly cross bars (8) which are arranged in parallel, the bottoms of the two assembly cross bars (8) are connected through an assembly auxiliary cross bar (9), a plurality of assembly auxiliary cross bars (9) are arranged at the bottoms of the two assembly cross bars (8), an inverter junction box (12) is arranged between the two assembly cross bars (8), and the control module is arranged in the inverter junction box (12).

10. The photovoltaic bicycle shed device according to claim 1, wherein the control module comprises a processor module, a power carrier module, an LED matrix control module and an inverter module; the power carrier module, the LED matrix control module and the inversion module are all connected with the processor module; the LED matrix control module is connected with the LED lamp bead matrix input, and the inversion module is connected with the output of the processor module.

Images