CN208656689U - A kind of distributed photovoltaic power generation system - Google Patents

Abstract

The utility model discloses a kind of distributed photovoltaic power generation systems, are related to distributed photovoltaic power generation technical field.The system includes photovoltaic module and photovoltaic bracket, the photovoltaic bracket includes: cant beam, at least one front column and the height-adjustable rear column of at least one, the bottom end of the rear column is fixedly connected on earth's surface or building, the rear column is used to support the cant beam, wherein the height of the rear column is adjustable, is adjusted with the tilt angle to the photovoltaic module.The utility model embodiment provides a kind of distributed photovoltaic power generation system, in the case where no replacement is required photovoltaic bracket, realizes the movement to photovoltaic module.

Description

A kind of distributed photovoltaic power generation system

Technical field

The utility model embodiment is related to distributed photovoltaic power generation technical field more particularly to a kind of distributed photovoltaic power generation System.

Background technique

Distributed photovoltaic power generation refers to using photovoltaic module, and solar energy is converted directly into the distributed power generation system of electric energy System.Distributed photovoltaic power generation system becomes the new development priority of photovoltaic industry because of its good on-site elimination feature.And it answers extensively For industrial premises, public building and family roof.

Currently, distributed photovoltaic power generation system is by the way that multi-disc photovoltaic module to be respectively and fixedly installed on photovoltaic bracket, light Volt bracket is fixedly mounted on building or earth's surface, to realize the acquisition to solar energy.Wherein, photovoltaic bracket needs professional It is specially designed according to the height situation of installation site.

Utility model people has found that the prior art has following defects that in the process of implementing the utility model

If desired the position of photovoltaic module is moved, then needs the height situation according to new installation site, is redesigned new Photovoltaic bracket, the problem of so as to cause the wasting of resources.

Utility model content

The utility model embodiment provides a kind of distributed photovoltaic power generation system, with no replacement is required the photovoltaic bracket the case where Under, realize the movement to photovoltaic module.

The utility model embodiment provides a kind of distributed photovoltaic power generation system, which includes photovoltaic module and photovoltaic Bracket, the photovoltaic bracket include: cant beam, at least one front column and the height-adjustable rear column of at least one,

The one side of the cant beam is connect with the photovoltaic module, the another side that the cant beam is oppositely arranged respectively with it is described after The top of column is connected with the top of the front column, and the cant beam is for carrying the photovoltaic module；

The bottom end of the front column is fixedly connected on earth's surface or building, and the front column is used to support the cant beam, Make the photovoltaic module inclination set angle, wherein the height of the front column is less than the height of the rear column；

The bottom end of the rear column is fixedly connected on earth's surface or building, and the rear column is used to support the cant beam, Wherein the height of the rear column is adjustable, is adjusted with the tilt angle to the photovoltaic module.

Further, the rear column includes: upper pillar stand and lower pillar stand,

One end of the upper pillar stand is connect with the cant beam, and the two sides of the other end of the upper pillar stand are provided with convex It rises；

The lower pillar stand is cannula structure, and two sides are provided with multiple location holes, fixed by will have in the upper pillar stand The connection for realizing the upper pillar stand and the lower pillar stand is inserted into the cannula structure of the lower pillar stand in one end of position protrusion, wherein institute The positioning protrusion for stating upper pillar stand is caught in the positioning hole of the lower pillar stand.

Further, the spacing between two location holes of ipsilateral setting is 50 millimeters.

Further, when the photovoltaic bracket includes at least two height-adjustable rear columns, the photovoltaic bracket is also It include: at least two braces,

The brace is connect by one end with the top of a rear column, the bottom of the other end and another rear column The mode of connection is held, it is arranged in a crossed manner between the rear column, for improving the stability of the rear column.

Further, the photovoltaic module includes at least two photovoltaic battery panels, and the back side of the photovoltaic battery panel is arranged There is at least one crossbeam, is flexibly connected between the crossbeam of two neighboring photovoltaic battery panel by connector, to realize adjacent photovoltaic The folding of solar panel.

Further, the connector includes the first face, the second face and third face,

Second face connects the first face and third face, constitutes slot structure；

The nearly connector end of the crossbeam of two neighboring photovoltaic battery panel, is respectively embedded into the both ends of the slot structure, and pass through Screw rod across the first face, crossbeam and the second face connects.

Further, the screw rod includes rotary screw and standing screw,

The standing screw is disposed adjacent with the rotary screw, and the standing screw is used to pass through the rotary screw After the connection for determining connector and photovoltaic battery panel, the expanded angle of the fixed photovoltaic battery panel.

The utility model embodiment, which passes through, sets highly adjustable for the rear column for supporting cant beam, thus by standing after adjusting The tilt angle for the photovoltaic module being carried on cant beam is adjusted in the height of column, realization.If desired photovoltaic module is moved Position then only needs the height situation according to installation site, adjusts the height of rear column.It solves needs to redesign newly Photovoltaic bracket, the problem of leading to the wasting of resources.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram for photovoltaic bracket that the utility model embodiment one provides；

Fig. 2 is a kind of structural schematic diagram for rear column that the utility model embodiment one provides；

Fig. 3 is a kind of structural schematic diagram for rear column connection brace that the utility model embodiment one provides；

Fig. 4 a is a kind of front view for photovoltaic module that the utility model embodiment two provides；

Fig. 4 b is a kind of top view for photovoltaic module that the utility model embodiment two provides；

Fig. 4 c is the folded front view of a kind of photovoltaic module that the utility model embodiment two provides；

Fig. 4 d is the folded top view of a kind of photovoltaic module that the utility model embodiment two provides；

Fig. 5 is a kind of structural schematic diagram for connector that the utility model embodiment two provides；

Fig. 6 is the top view for another photovoltaic module that the utility model embodiment two provides；

Fig. 7 is a kind of structural schematic diagram for distributed photovoltaic power generation system that the utility model embodiment three provides；

Fig. 8 is a kind of scheme of installation for distributed photovoltaic power generation system that the utility model embodiment three provides.

Specific embodiment

The utility model is described in further detail with reference to the accompanying drawings and examples.It is understood that herein Described specific embodiment is used only for explaining the utility model, rather than the restriction to the utility model.It further needs exist for It is bright, part relevant to the utility model is illustrated only for ease of description, in attached drawing rather than entire infrastructure.

Embodiment one

Fig. 1 is a kind of structural schematic diagram for photovoltaic bracket that the utility model embodiment one provides.The present embodiment is applicable In the tilt angle to photovoltaic module is adjusted the case where.Referring to Fig. 1 distributed photovoltaic power generation system provided in this embodiment It include: photovoltaic module and photovoltaic bracket 20, the photovoltaic bracket 20 includes: cant beam 210, at least one front column 220 and at least A piece height-adjustable rear column 230,

Wherein, the one side of the cant beam 210 is connect with the photovoltaic module, the another side that the cant beam 210 is oppositely arranged It is connect respectively with the top on the top of the rear column 230 and the front column 220, the cant beam 210 is for carrying the light Lie prostrate component；

The bottom end of the front column 220 is fixedly connected on earth's surface or building, and the front column 220 is used to support described Cant beam 210 makes the photovoltaic module inclination set angle, wherein the height of the front column 220 is less than the rear column 230 Highly；

The bottom end of the rear column 230 is fixedly connected on earth's surface or building, and the rear column 230 is used to support described Cant beam 210 is adjusted wherein the height of the rear column 230 is adjustable with the tilt angle to the photovoltaic module.

Optionally, the structure of the rear column 230 can be arbitrary height adjustable structure.Specifically, the rear column 230 Structure can be by a rod structure and sleeve structure composition.The inner surface of its middle sleeve is provided with screw thread, the appearance of rod structure Face is provided with corresponding screw thread.By the way that rod structure is screwed in the connection that casing realizes the two.Casing is screwed in by adjusting rod structure Interior length realizes the adjusting of height.

Illustratively, if desired rear column is turned down, then it is a little rod structure can mostly to be screwed in casing；If desired it is stood by after Column is turned up, then it is a little rod structure can be screwed out casing.

Typically, referring to fig. 2, the rear column 230 includes: upper pillar stand 231 and lower pillar stand 232,

One end of the upper pillar stand 231 is connect with the cant beam, and the two sides of the other end of the upper pillar stand 231 are provided with fixed Position protrusion 233；

The lower pillar stand 232 is cannula structure, and two sides are provided with multiple location holes 234, by by the upper pillar stand 231 In one end with positioning protrusion 233 be inserted into the cannula structure of the lower pillar stand 232 realize the upper pillar stand 231 and it is described under The connection of column 232, wherein the positioning protrusion 233 of the upper pillar stand 231 is caught in the location hole 234 of the lower pillar stand 232.

Illustratively, if desired rear column is turned down, then the positioning protrusion of upper pillar stand can be caught in lower position Positioning hole；If desired rear column is turned up, then the positioning protrusion of upper pillar stand can be caught in the positioning hole of higher position.

Specifically, the distance between two location holes of ipsilateral setting can be arranged according to actual needs.To improve photovoltaic group The degree of regulation of part tilt angle the distance between two location holes of ipsilateral setting can be arranged smaller.Typically, ipsilateral The spacing between two location holes being arranged is 50 millimeters.

Positioning protrusion by adjusting upper pillar stand is caught in the relative position of location hole, realizes the tune of rear column whole height Section.Typically, adjustable extent is 0~500 millimeter on the basis of calibrated altitude, so that it is best to photovoltaic module to meet different regions The requirement at inclination angle, to guarantee user's generated energy.

The technical solution of the utility model embodiment, by setting highly adjustable for the rear column for supporting cant beam, thus By adjusting the height of rear column, the tilt angle for the photovoltaic module being carried on cant beam is adjusted in realization.If desired it moves The position of dynamic photovoltaic module, then only need the height situation according to installation site, adjust the height of rear column.Solving needs The problem of redesigning new photovoltaic bracket, leading to the wasting of resources.

It is vertical after the photovoltaic bracket includes at least two height-adjustable for the stability for improving rear column referring to Fig. 3 When column 230, the photovoltaic bracket further include: at least two braces 240,

The brace 240 is connect by one end with one end of the rear column 230, the other end and the rear column 230 The other end connection mode, it is arranged in a crossed manner between the rear column 230, for improving the stability of the rear column 230.

Specifically, the brace is connect by anchor ear with the rear column.

Further, the low side of front column and rear column is equipped with suspension column.In the smaller place of long-term wind speed or use When family needs often migration, weight can be used to be pressed on suspension column to fix photovoltaic bracket.

And in the biggish place of long-term wind speed or the permanent place that is fixedly mounted, built-in fitting can be embedded in concrete matched In weight block, then front and back column is mounted on built-in fitting and carries out installation fixation.

Embodiment two

Fig. 4 a is a kind of front view for photovoltaic module that the utility model embodiment two provides.The present embodiment is in above-mentioned reality Apply a kind of optinal plan proposed on the basis of example.A and Fig. 4 b referring to fig. 4, distributed photovoltaic power generation system provided in this embodiment System includes: photovoltaic module 10 and photovoltaic bracket, and photovoltaic module 10 includes at least two photovoltaic battery panels 110, the photovoltaic cell The back side of plate 110 is provided at least one crossbeam 120, passes through connector between the crossbeam 120 of two neighboring photovoltaic battery panel 110 130 are flexibly connected, to realize the folding of adjacent photovoltaic cell plate 110.Specific folding effect c and Fig. 4 d referring to fig. 4.Wherein, institute The back side for stating photovoltaic battery panel 110 is nearly backboard face.

Optionally, connector 130 can be any hinge arrangement.

Typically, include the first face 131, the second face 132 and third face 133 referring to connector 130 described in Fig. 5,

Second face 132 connects the first face 131 and third face 133, constitutes slot structure；

The nearly connector end of the crossbeam of two neighboring photovoltaic battery panel, is respectively embedded into the both ends of the slot structure, and pass through Screw rod across the first face 131, crossbeam and the second face 132 connects.

The technical solution of the utility model embodiment is flexibly connected adjacent two photovoltaic battery panel by connector, thus real The folding of existing adjacent two photovoltaic battery panel.And then improve the portability of photovoltaic battery panel.

It include rotary screw 134 and fixation referring to screw rod described in Fig. 6 for the expanded angle of the fixation photovoltaic battery panel Screw rod 135,

The standing screw 135 is disposed adjacent with the rotary screw 134, and the standing screw 135 is used for passing through It states rotary screw 134 and determines that connector 130 with after the connection of photovoltaic battery panel 110, fixes the expansion of the photovoltaic battery panel 110 Angle.

To reduce packaging space, convenient transportation, photovoltaic module is connected to according to the photovoltaic battery panel folding of setting quantity One group of photovoltaic module.It, can be by multiple groups photovoltaic module combining completion system when distributed photovoltaic power generation system scale is larger Configuration.Typically, above-mentioned setting quantity can be 3.

For convenience of transport, after above-mentioned photovoltaic module folds, long profundity size can be determine according to actual needs.Typically, The above-mentioned folded length of photovoltaic module is no more than 2 meters, and height is wide to be no more than 0.5 meter no more than 1 meter, can be with photovoltaic DC-to-AC converter, peace It fills cable and is packaged installation and transportation, the cost of dispersion transport is greatly saved.

Embodiment three

Fig. 7 is a kind of structural schematic diagram for distributed photovoltaic power generation system that the utility model embodiment three provides.This reality Applying example is a kind of optinal plan proposed on the basis of the above embodiments.Referring to Fig. 7, distributed photovoltaic provided in this embodiment Electricity generation system includes photovoltaic module 10 and photovoltaic bracket 20, which is characterized in that the photovoltaic bracket 20 includes: cant beam, before two Column, two height-adjustable rear columns and two braces.The photovoltaic module 10 includes at least two photovoltaic battery panels, institute The back side setting of photovoltaic battery panel is stated there are two crossbeam, is connected between the crossbeam of two neighboring photovoltaic battery panel by connector activity It connects, to realize the folding of adjacent photovoltaic cell plate.

Wherein, the one side of the cant beam is connect with the photovoltaic module, the another side that the cant beam is oppositely arranged respectively with The top of the rear column is connected with the top of the front column, and the cant beam is for carrying the photovoltaic module；

The bottom end of the front column is fixedly connected on earth's surface or building, and the front column is used to support the cant beam, Make the photovoltaic module inclination set angle, wherein the height of the front column is less than the height of the rear column；

The bottom end of the rear column is fixedly connected on earth's surface or building, and the rear column is used to support the cant beam, Wherein the height of the rear column is adjustable, is adjusted with the tilt angle to the photovoltaic module.

The rear column includes: upper pillar stand and lower pillar stand,

One end of the upper pillar stand is connect with the cant beam, and the two sides of the other end of the upper pillar stand are provided with convex It rises；

The lower pillar stand is cannula structure, and two sides are provided with multiple location holes, fixed by will have in the upper pillar stand The connection for realizing the upper pillar stand and the lower pillar stand is inserted into the cannula structure of the lower pillar stand in one end of position protrusion, wherein institute The positioning protrusion for stating upper pillar stand is caught in the positioning hole of the lower pillar stand.

Typically, the spacing between two location holes of ipsilateral setting is 50 millimeters.

The brace is connect by one end with the top of a rear column, the bottom of the other end and another rear column The mode of connection is held, it is arranged in a crossed manner between the rear column, for improving the stability of the rear column.

The connector includes the first face, the second face and third face, and the second face connects the first face and third face, constitutes slot knot Structure；

The nearly connector end of the crossbeam of two neighboring photovoltaic battery panel, is respectively embedded into the both ends of the slot structure, and pass through Screw rod across the first face, crossbeam and the second face connects.

The screw rod includes rotary screw and standing screw,

The standing screw is disposed adjacent with the rotary screw, and the standing screw is used to pass through the rotary screw After the connection for determining connector and photovoltaic battery panel, the expanded angle of the fixed photovoltaic battery panel.

The installation of distributed photovoltaic power generation system can be described as in practical applications:

1) factory installation section:

The installation of photovoltaic module: photovoltaic battery panel 110 is first mounted on crossbeam 120 by a in factory referring to fig. 4, then Three groups of mounted crossbeams 120 such as are linked together, and be unfolded, folded at the test jobs by folding connection piece 130, are surveyed Ping the installation for completing photovoltaic module later；

The installation of photovoltaic bracket: referring to Fig. 1 and Fig. 2, will support cant beam 120 and upper pillar stand 231 fit together, and will before Column 220 and lower pillar stand 232 and mounted cant beam 120 bundle, and complete the installation of photovoltaic bracket；

Above-mentioned photovoltaic module, above-mentioned photovoltaic bracket, photovoltaic DC-to-AC converter, cable, installation auxiliary material and light instrument etc. are packaged Packaging is sent to user scene.

2) in-site installation part:

When naturally with re-mounting: the photovoltaic module of folding being unfolded, is consolidated the expansion of photovoltaic module by fixing bolt It is fixed；Front column is fixedly connected with cant beam, lower pillar stand is connect with upper pillar stand；And according to this area earth's surface or the height of building Situation adjusts the relative position of upper pillar stand and lower pillar stand, adjusts the inclination angle of cant beam；It, will be upper after adjusting the inclination angle of cant beam Column and lower pillar stand are fixed, and natural counterweight are pressed on the suspension column of front and back column；The volt component of expansion is installed on cant beam, and It is fixed；Finally by brace cross-fixing on rear column, whole distributed photovoltaic power generation system installations are completed.Wherein, Natural counterweight refers to the weight in nature, can be stone, be also possible to brick etc..

Referring to Fig. 8, when using the installation of concrete fixed weight: first making concrete block 30, and built-in fitting is embedded in mixed In solidifying soil block 30；After concrete curing, photovoltaic bracket is fixedly mounted on concrete block 30；It is fixed by photovoltaic bracket After leveling, photovoltaic module is mounted on cant beam, brace intersection is installed between rear column, completes whole distributed photovoltaics Electricity generation system installation.

The beneficial effect of above-mentioned mounting means is: by assembled and photovoltaic module and photovoltaic bracket of folding, with The full set photovoltaic generating system equipment packing and transporting such as photovoltaic combining inverter, wire and cable.Because photovoltaic module is folded state, To save occupied space, and then substantially reduce transportation cost.

Because photovoltaic module and photovoltaic bracket are partially installed and debugged and complete, so that field-mounted process is without profession Personage's processing, and then reduce field erected cost.Realize the plug and play application of similar household appliance.

The technical solution of the utility model embodiment is permanently fixed by the way that the accordion structure of photovoltaic module is met user The demand of installation and migration formula installation, has expanded the application space of the distributed light power generating system in family significantly.In addition, when be equipped with from When net type photovoltaic DC-to-AC converter, the photovoltaic support structure of tilt adjustable greatly reduces family and is answered with distributed photovoltaic power generation system For buying the complexity used without electric remote districts or nomadic people, photovoltaic power generation is made to become the mobile energy.

It should be noted that technical teaching based on the above embodiment, those skilled in the art have motivation by above-mentioned implementation Mode is combined, to improve the portability of distributed light power generating system.Problem of resource waste caused by solving because of migration.

Note that above are only the preferred embodiment and institute's application technology principle of the utility model.Those skilled in the art's meeting Understand, the utility model is not limited to specific embodiment described here, is able to carry out for a person skilled in the art various bright Aobvious variation, readjustment and substitution is without departing from the protection scope of the utility model.Therefore, although passing through above embodiments The utility model is described in further detail, but the utility model is not limited only to above embodiments, is not departing from It can also include more other equivalent embodiments in the case that the utility model is conceived, and the scope of the utility model is by appended Scope of the claims determine.

Claims (6)

1. a kind of distributed photovoltaic power generation system, including photovoltaic module and photovoltaic bracket, which is characterized in that the photovoltaic bracket packet It includes: cant beam, at least one front column and the height-adjustable rear column of at least one,

The one side of the cant beam is connect with the photovoltaic module, the another side that the cant beam is oppositely arranged respectively with the rear column Top connected with the top of the front column, the cant beam is for carrying the photovoltaic module；

The bottom end of the front column is fixedly connected on earth's surface or building, and the front column is used to support the cant beam, makes institute Photovoltaic module inclination set angle is stated, wherein the height of the front column is less than the height of the rear column；

The bottom end of the rear column is fixedly connected on earth's surface or building, and the rear column is used to support the cant beam, wherein The height of the rear column is adjustable, is adjusted with the tilt angle to the photovoltaic module；

Wherein, when the photovoltaic bracket includes at least two height-adjustable rear columns, the photovoltaic bracket further include: at least Two braces,

The brace is connect by one end with the top of a rear column, and the bottom end of the other end and another rear column connects The mode connect, it is arranged in a crossed manner between the rear column, for improving the stability of the rear column.

2. system according to claim 1, which is characterized in that the rear column includes: upper pillar stand and lower pillar stand,

One end of the upper pillar stand is connect with the cant beam, and the two sides of the other end of the upper pillar stand are provided with positioning protrusion；

The lower pillar stand is cannula structure, and two sides are provided with multiple location holes, by will have convex in the upper pillar stand The connection for realizing the upper pillar stand and the lower pillar stand is inserted into the cannula structure of the lower pillar stand in the one end risen, wherein on described The positioning protrusion of column is caught in the positioning hole of the lower pillar stand.

3. system according to claim 2, which is characterized in that the spacing between two location holes of ipsilateral setting is 50 millis Rice.

4. system according to claim 1 to 3, which is characterized in that the photovoltaic module includes at least two photovoltaic electrics Pond plate, the back side of the photovoltaic battery panel are provided at least one crossbeam, pass through between the crossbeam of two neighboring photovoltaic battery panel Connector is flexibly connected, to realize the folding of adjacent photovoltaic cell plate.

5. system according to claim 4, which is characterized in that the connector includes the first face, the second face and third face,

Second face connects the first face and third face, constitutes slot structure；

The nearly connector end of the crossbeam of two neighboring photovoltaic battery panel, is respectively embedded into the both ends of the slot structure, and by across The screw rod in the first face, crossbeam and the second face connects.

6. system according to claim 5, which is characterized in that the screw rod includes rotary screw and standing screw,

The standing screw is disposed adjacent with the rotary screw, and the standing screw is used to determine by the rotary screw After the connection of connector and photovoltaic battery panel, the expanded angle of the fixed photovoltaic battery panel.