CN105141224A - Installing system for installing photovoltaic assembly and installing method of photovoltaic assembly - Google Patents

Abstract

The invention provides an installing system for installing a photovoltaic assembly and an installing method of a photovoltaic assembly. The installing system comprises at least one support body and a second support body; the opposite sides of the photovoltaic assembly are fixed and supported by two opposite mounting slots; and the support bodies are fixed with an external fixation surface in advance. During installation, only the two opposite sides of the photovoltaic assembly need to be embedded into the two opposite mounting slots and thus the photovoltaic assembly is pushed to slide and move along the length directions of the mounting slots. After completion of installation of a plurality of photovoltaic assembles, sliding movement of the photovoltaic assembles along the length directions of the mounting slots is limited with arrangement of limiting elements, so that sliding movement of the photovoltaic assembles occurs due to the weighs of the assemblies or external pressures after long-term usage. Moreover, on the premise that the using effect of the photovoltaic assembly is not affected, the structure is simple, the wind loading rating is high, the production and installation become convenient, and the production cost is lowered.

Description

For the installation system of installation photovoltaic component and the installation method of photovoltaic module

Technical field

The present invention relates to photovoltaic module equipment technical field, especially a kind of mounting bracket for being installed together by multiple photovoltaic module and concrete installation method.

Background technology

General on roof during installation photovoltaic component, need to preset a mounting bracket on roof, then photovoltaic module is arranged on mounting bracket, simultaneously in order to ensure the fixing reliability of mounting bracket on roof, and meet certain rated wind velocity requirement, also need to place briquetting or clump on mounting bracket, be shifted to avoid mounting bracket.

At present, the mounting bracket that market uses generally comprises three large parts: photovoltaic module, supporting traverse, with roofing firm banking, and the middle parts connected between these three large parts are fixed, cause parts in whole installation system various like this, operational sequence is many and complicated, the function of Fast Installation and dismounting and change can not be realized, mounting bracket high in cost of production problem, extend the set-up time of installation personnel simultaneously and increase the workload of installation personnel.

Therefore, how to realize Fast Installation and the dismounting of multiple photovoltaic module, can improve again wind loading rating is the problem that those skilled in the art need solve simultaneously.

Summary of the invention

The object of this invention is to provide a kind of installation system for installation photovoltaic component, the installation and removal of photovoltaic module can be completed fast, can ensure that the photovoltaic module wind loading rating after installing is stronger simultaneously.

Another object of the present invention is to provide a kind of installation method of photovoltaic module.

Technical scheme provided by the invention is as follows:

For an installation system for installation photovoltaic component, comprising:

At least comprise the first stake body and the second stake body, the side of described first stake body forms the first mounting groove of a strip, and the side of described second stake body forms the second mounting groove of a strip;

Under application state, described first stake body and described second stake body are parallel to each other layout, described first mounting groove and described second mounting groove in the same plane, and notch in opposite directions, one side of described photovoltaic module is embedded in described first mounting groove, and another side is embedded in described second mounting groove.

The technical program, the relative both sides of photovoltaic module are set in parallel in by the first support and the second support, utilize the first mounting groove of setting and the second mounting groove to solve photovoltaic module can not the fixing problem of comprehensive constraint simultaneously, and the photovoltaic module be embedded in the first mounting groove and the second mounting groove can along the length direction slippage of two mounting grooves, only need promote photovoltaic module during installation successively and can complete installation, the destruction problem of the photovoltaic module can effectively avoiding installation personnel to trample causing above photovoltaic module.And this mounting support structure is simple, and easy for installation, fail safe is high.

As an improvement of above-mentioned technology, the side, side of described first stake body described first mounting groove dorsad forms the 3rd mounting groove of a strip.

The side of the first stake body the first mounting groove dorsad forms the 3rd mounting groove further, the first mounting groove arranged by the both sides on same stake body and the 3rd mounting groove, the connectivity problem between adjacent photovoltaic assembly can be solved, realizing two adjacent photovoltaic modulies only needs a stake body to complete connection, minimizing material, reduces production cost.

As an improvement of above-mentioned technology, described first stake body is by the first plate, the second plate, and the 3rd plate is formed;

Described first plate, described second plate and described 3rd plate composition drum structure, described first plate is the upper cross plate of drum structure, and described second plate is the vertical plate of drum structure, and described 3rd plate is the lower cross plate of drum structure.

By the stake body being spliced to form drum structure of plurality of plates, photovoltaic module uniform force can be ensured, and convenient installation.

As an improvement of above-mentioned technology, the width being greater than described first plate of the width setting of described 3rd plate.

By the first mounting groove and the second mounting groove, realize photovoltaic module both sides to be fixed.And the 3rd plate effect wherein arranged realizes supporting to photovoltaic module, and can bear photovoltaic module to the pressure of stake body, therefore the larger area just correspondingly increasing support photovoltaic module of the width of the 3rd plate, reduces the pressure of support.First mounting groove and the second mounting groove not only fix between about photovoltaic module, photovoltaic module can also be fixed up and down, therefore the first plate arranged not only plays fixing effect, certain covering effect can also be played, because masked area can not be too large, be afraid of the lighting effect affecting photovoltaic module surface, reduce the service efficiency of photovoltaic module, and then the width arranged is shorter.

As an improvement of above-mentioned technology, the width of described second plate is more than or equal to described photovoltaic module height.

The second plate arranged can ensure that the photovoltaic module be embedded does not offset along certain length direction slippage in the process of slippage, and the width of the second plate is with the equal of photovoltaic module height or be greater than, object is can slippage smoothly when can ensure that multiple photovoltaic module is installed, and avoids blocking rear continuation slippage and causes photovoltaic module to damage.

As the fixed form after the installation of above-mentioned technology photovoltaic module, be provided with the locating part for limiting described photovoltaic module generation slippage at the two ends of described first mounting groove.

And the described locating part arranged is preferably screw, alignment pin or block.

The object of the locating part arranged in the technical program is the photovoltaic module avoiding installing along the length direction slippage of the first mounting groove and the second mounting groove, ensure the many photovoltaic modulies after installing can constrain in be limited to two between directly.Therefore, by the two ends at mounting groove, locating part is set, and locating part can be set in one end of mounting groove when specifically installing in advance, make it form a positive stop end, the other end is free end, and such photovoltaic module only needs to be embedded from a free end degree of freedom then being retrained this direction by locating part, without the need to any briquetting, screws etc. fix, and greatly reduce the operation needed for photovoltaic module installation, improve installation effectiveness.

As another improvement of above-mentioned technology, arrange the 4th plate be connected with described first stake body, described 4th plate is extend certain width along described first stake body bottom surface towards the direction away from described first mounting groove to obtain.

The arranging of the 4th plate distance that can solve between photovoltaic module and stationary plane is too closely easily made moist problem, easily ruptures simultaneously, thus extend the useful life of photovoltaic module after can avoiding photovoltaic module pressurized.

As another improvement of above-mentioned technology, described 4th plate forms a L-type structure, and the vertical plate end face of described L-type structure is connected with described first stake body bottom surface, and transverse slat is connected with external stability face.

Further preferably, described 4th plate forms an inverted T shape structure, and the vertical plate end face of described inverted T shape structure is connected with described first stake body bottom surface, and transverse slat is connected with external stability face.

L-type structure or inverted T shape structure not only can be played a supporting role, and can increase the contact area with stationary plane simultaneously, ensure the stability of whole mounting bracket.

Further preferably, the basis of said mechanism also comprises the 3rd stake body, described 3rd stake body structure is identical with described first stake body structure.

Present invention also offers a kind of installation method of photovoltaic module, comprise multiple photovoltaic module, and multiple photovoltaic module adopts the above-mentioned installation system for installation photovoltaic component to install, installation process comprises the steps:

A), described first stake body, described second stake body or described 3rd stake body are fixed;

B), successively the relative both sides of multiple described photovoltaic module are embedded respectively in described first mounting groove and described second mounting groove, and slippage along its length;

C), by locating part fix, complete installation.

By provided by the invention for the installation system of installation photovoltaic component and the installation method of photovoltaic module, following at least one beneficial effect can be brought:

1, installation system structure of the present invention is simple, can complete installation fast.The first stake body can be utilized to realize the relative both sides fixed support of photovoltaic module with the second stake body, stake body can be fixed with external stability face in advance, only need the relative both sides of photovoltaic module be embedded in the first mounting groove relative on two stands body and the second mounting groove during installation, promoting photovoltaic module makes it along the length slippage of both sides mounting groove, realizes multiple photovoltaic module installation.And then by the locating part arranged, photovoltaic module slippage on the length direction of both sides mounting groove can be limited, avoid the long gravity due to photovoltaic module self or be subject to external pressure and slippage occurs service time one, affect result of use.

2, installation system of the present invention simplifies procedures, and improves fail safe.Utilize photovoltaic module slippage in the first mounting groove and the second mounting groove, trample when avoiding installation personnel to install and install on photovoltaic module, reducing the setting tool such as screw, nut to be fixed simultaneously, when ensureing installation personnel personal safety, substantially increasing installation effectiveness.

3, installation system compression capability of the present invention is strong, good looking appearance.Wherein, the first stake body is made up of the first plate, the second plate and the 3rd plate, and photovoltaic module plate edge junction can hide by the width of the first plate, avoids seam Problems existing exposed between adjacent photovoltaic assembly, and appearance is better.The 3rd plate simultaneously arranged increases the contact area with photovoltaic module, increases the support strength to photovoltaic module.

4, installation system of the present invention can not only make photovoltaic module realize longitudinal arrangement, also can realize transversely arranged, and can share a stake body between adjacent two photovoltaic modulies, can have the function of dispersive pressure, can not produce concentrated stress to photovoltaic module.

5, after installation system installation of the present invention, whole array is level and smooth, and be not easy leaf, foreign material etc. are accumulated on photovoltaic module, improves lighting effect, and can avoid foreign material crushing.

6, do not have outstanding block between adjacent photovoltaic assembly, screw etc., can not cause stop to hairbrush etc. during clear light photovoltaic assembly, involve, and also dust etc. can not be blocked, and improve cleaning efficiency.

7, installation system of the present invention is further by the 4th plate be connected with stake body, can make to maintain a certain distance between the photovoltaic module after installation and stationary plane, avoid contacting completely with stationary plane, can not only be moistureproof, and crushing after contacting with stationary plane after pressurized can be prevented, increase the service life.

Accompanying drawing explanation

Below by clearly understandable mode, accompanying drawings preferred implementation, is further described a kind of above-mentioned characteristic of the installation system for installation photovoltaic component, technical characteristic, advantage and implementation thereof.

Fig. 1 is the front view of the present invention for the first embodiment of the installation system of installation photovoltaic component;

Fig. 2 is the front view after installing for the installation system of installation photovoltaic component in Fig. 1;

Fig. 3 is the front view of the present invention for the second embodiment of the installation system of installation photovoltaic component;

Fig. 4 is the front view after installing for the installation system of installation photovoltaic component in Fig. 3;

Fig. 5 is the front view of the present invention for the third embodiment of the installation system of installation photovoltaic component;

Fig. 6 is the front view of the present invention for the 4th kind of embodiment of the installation system of installation photovoltaic component;

Fig. 7 is the front view after installing for the installation system of installation photovoltaic component in Fig. 6;

Fig. 8 be for the installation system of installation photovoltaic component and locating part in Fig. 6 in conjunction with perspective view;

Fig. 9 is that the present invention is for the installation system of installation photovoltaic component and the another kind of perspective view of the combination of locating part;

Figure 10 is the structural representation after integral installation of the present invention.

Drawing reference numeral illustrates:

1a-first stake body; 1b-second stake body; 1c, the 3rd stake body;

101-first plate; 102-second plate; 103-the 3rd plate; 104-the 4th plate; 105-connecting rod;

2a-first mounting groove; 2b-second mounting groove; 2c-the 3rd mounting groove;

3-photovoltaic module;

4-locating part.

Embodiment

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, contrast accompanying drawing is illustrated the specific embodiment of the present invention below.Apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings, and obtain other execution mode.

For making simplified form, only schematically show part related to the present invention in each figure, they do not represent its practical structures as product.In addition, be convenient to make simplified form understand, there are the parts of same structure or function in some figure, only schematically depict one of them, or only marked one of them.In this article, " one " not only represents " only this ", also can represent the situation of " more than one ".

In embodiments of the invention one, referring to Fig. 1, Fig. 2, installation system for installation photovoltaic component comprises at least the first support 1a and the second support 1b, first support 1a is identical with the structure of the second support 1b, the side of the first stake body 1a forms the first mounting groove 2a of a strip, and the side of the second stake body 1b forms the second mounting groove 2b of a strip.During practice, the first stake body 1a and the second support 1b is parallel to each other layout, ensure that the first mounting groove 2a and the second mounting groove 2b is in the same plane, and notch in opposite directions, and object is that it is clamping to realize photovoltaic module 3 by notch design in opposite directions.

In embodiments of the invention two, referring to Fig. 3, Fig. 4, when being installed by the installation system for installation photovoltaic component in embodiment one, because multiple photovoltaic module 3 is mounted to an entirety by needs.Therefore, not only need to be realized the arrangement in the vertical of multiple photovoltaic modulies 3 by the first stake body 1a and the second stake body 1b, also need to meet the arrangement realized transversely.So form the 3rd mounting groove 2c of a strip in the side, side of the first stake body 1a the first mounting groove 2a dorsad, the first mounting groove 2a of both sides and the 3rd mounting groove 2c is symmetrical, and two mounting groove 2a, 2c notch directions are contrary.Adjacent two photovoltaic modulies 3 can be realized and share stake body 1a, a 1b, effectively reduce mounting material, simplify installation procedure, reduce installation cost.

Certainly can according to concrete demand when practice, the first stake body 1a can be become identical with the vibrational power flow of the second stake body 1b or not identical, only need ensure that relative mounting groove is in the same plane, and notch be in opposite directions.The installation system for installation photovoltaic component in embodiment one and embodiment two can use simultaneously, and does rational selection according to the difference of installation site.As when adjacent photovoltaic module 3 being connected, the stake body structure in embodiment two can be selected, otherwise embodiment one can be selected.

Again referring to Fig. 1, Fig. 3, first stake body 1a (also can select the second stake body 1b, even more stake body, just understand for the ease of those skilled in the art, the first stake body 1a is selected to be specifically described) can 1 to be made up of the first plate 101, second plate 102 and the 3rd plate 103 for connecting with external stability face (be generally roof top, can determine according to installation site during practice).

Wherein, first plate 101, second plate 102 and the 3rd plate 103 can be form by having certain thickness single section bar, also can by two, three and many root type material splice and combine formation, and compound mode can be assembled by screw, bonding and agree with formation mutually by the convex-concave structure of section bar between this.Section bar may be made up of plane, also may be by the line at the top of the striped of multiple protrusion, and the plane that face etc. are formed is formed.Wherein, section bar comprises extruded aluminium section, extruding plastic section bar, cold-rolled forming section or other all section bars by combination different materials.

In embodiments of the invention two, as shown in Figure 3, the first plate 101, second plate 102 and the 3rd plate 103 form drum structure, and wherein the first plate 101 is the upper cross plate of drum structure, and the second plate 102 is the vertical plate of drum structure; And the 3rd plate 103 is the lower cross plate of drum structure, and bottom surface is connected with external stability face, and the mode wherein connected has multiple, can be screw, welds or be connected together.Also can be understood as the first plate 101 and the 3rd plate 103 is a pair extended plate that the two ends of the vertical plate of drum structure extend to both sides, and this pair extended plate is all parallel, is connected or angled connection with the second plate 102 is vertical.

As shown in Figure 4, mounting groove 2a, 2c of the both sides formation of the first stake body 1a, concrete can be understood as the both sides cell wall that the first plate 101 and the 3rd plate 103 are mounting groove 2a, 2c, and the second plate 102 is bottom surfaces of mounting groove a, 2c, the opening direction of mounting groove 2a, 2c contrary (dorsad the second plate 102 and all towards relative photovoltaic module 3); Only need meet two adjacent photovoltaic module 3 adjacent edges is embedded in the first mounting groove 2a and the 3rd mounting groove 2c, and adjacent two photovoltaic modulies keep at grade.

The height of the width of second plate 102 of stake body 1a, 1b (distance between upper and lower shown in figure) and photovoltaic module 3 (illustrated up and down between distance, but be only be not schematically concrete actual size) equal, or be greater than the height of photovoltaic module 3, only need meet the first stake body 1a and the second stake body 1b fixing after, photovoltaic module 3 can be embedded in the first mounting groove 2a and the second mounting groove 2b, and photovoltaic module 3 can be made along the length direction slippage of mounting groove 2a, 2b of stake body 1a, 1b.

Again referring to Fig. 1,3, reach maximum in multiple photovoltaic modulies 3 utilance that can ensure to install, the contact area with mounting groove surface can be improved simultaneously, improve by force intensity.By the width (distance between illustrated left and right directions of the 3rd plate 103, but be only be not schematically concrete actual size) width being greater than the first plate 101 that need arrange, the contact area with photovoltaic module 3 can be increased by the 3rd plate 103, play certain supporting role, the first plate 101 simultaneously arranged can hide adjacent two photovoltaic module 3 seams, but the surperficial lighting effect of photovoltaic module 3 can not be affected, ensure that photovoltaic module 3 utilance after installing is high, outward appearance is better more level and smooth.

Referring to Fig. 8, Fig. 9, when same photovoltaic module 3 is embedded in the first mounting groove 2a and the second mounting groove 2b, after photovoltaic module 3 both sides of the edge be embedded are hidden by first plate 101 of the first stake body 1a and the second support 1b completely, for preventing photovoltaic module 3 slippage, all arrange a locating part 4 at the two ends of arbitrary mounting groove or each mounting groove with certain length, locating part 4 can be that screw, alignment pin or block are fixed or with other difform part that can play restriction photovoltaic module 3DOF.Wherein the concrete length of the first mounting groove 2a and the second mounting groove 2b equal the size of the length direction of the required photovoltaic module 3 installed and/or the size sum of Width, during actual installation also can again according to locating part 4 need do length increase or reduce, and multiple photovoltaic module 3 can share the stake body of same first stake body 1a as photovoltaic module 3 side when installing, can not only be easy to connect, and stable connection between multiple photovoltaic module 3, save material, reduce production cost.

Thus fix in the first mounting groove 2a and the second mounting groove 2b of the first stake body 1a and the second stake body 1b at guarantee photovoltaic module 3, ensure simultaneously the photovoltaic module 3 after installing no matter upwards or downward compressive deformation time, the both sides cell wall (the first plate 101 and the 3rd plate 103) of mounting groove 2a, 2b all can in time and photovoltaic module 3 realize plane-plane contact, and then while fixing is played to photovoltaic module 3, play a supporting role.It should be noted that the strength and stability for increasing stake body 1a, 1b further, as Fig. 3, the second plate 102 can be arranged in parallel two or more, also can be have certain thickness solid.And the width of the second plate 102 can design according to the height of concrete photovoltaic module 3, can adapt to the installation needs of different types of photovoltaic module 3, photovoltaic module 3 can comprise single glass photovoltaic module, two glass photovoltaic modulies etc.

In embodiments of the invention three, referring to Fig. 5, the structure of above-mentioned two embodiments arranges the 4th plate 104 further that be connected with stake body 1a, 1b, and the 4th plate 104 obtains for extending certain width (distance between upper and lower shown in figure) along stake body 1a, 1b bottom surface towards the direction away from mounting groove 2a, 2b, the object arranging the 4th plate 104 avoids the photovoltaic module 3 after fixing too near with stationary plane distance, not only the problem of making moist can be solved, can prevent again pressurized and stationary plane from colliding impaired, increase the service life.

The width of the 4th plate 104 can do rational setting according to the actual requirements, because the 4th plate 104 is when ensureing to have certain distance between photovoltaic module 3 and stationary plane, also needs to be fixedly connected with stationary plane.Therefore, concrete forms an inverted T shape structure by the 4th plate 104, the vertical plate end face of inverted T shape structure is connected with the bottom surface (the 3rd plate 103 bottom surface) of stake body 1a, 1b, transverse slat bottom surface is connected with external stability face, the mode wherein connected has multiple, can be screw, welds or be connected together.Bonding strength can be improved by plane-plane contact.

Certainly for ensureing the stability connected, also can increase the vertical plate of the 4th plate 104 further, ensureing stake body 1a, 1b uniform force.Should be noted that, after the vertical plate of the 4th plate 104 reaches one fixed width, for ensureing the stability of structure, can also arrange a connecting rod 105 further between two adjacent vertical plates, the magnitude setting of connecting rod 105 can have more actual demand and do rational adjustment.Certain vertical plate, with having certain thickness solid to replace, only need meet the effect of support.

In embodiments of the invention four, referring to Fig. 6,7, be that the 4th plate 104 is formed a L-type structure with embodiment three difference, the vertical plate end face of L-type structure can be made to be connected with the 3rd plate 103 bottom surface, transverse slat is connected with external stability face, and same plane-plane contact can improve bonding strength.See Fig. 6, certainly for also can increase by the 4th plate 104 further, and the bearing of trend of the 4th plate 104 transverse slat set up is contrary or relative, can be understood as transverse slat and extends along vertical plate towards the side of photovoltaic module 3, also can be extend dorsad, and ensure parallel with the 3rd plate 103.

Present invention also offers a kind of installation method of photovoltaic module, referring to Figure 10, it is fixing that multiple photovoltaic module 3 adopts the installation system for installation photovoltaic component in above-described embodiment to realize installation, and its process of installing comprises the steps:

A), the first stake body 1a and the second stake body 1b is fixed and (certainly can have more the stake body that actual demand also can increase the 3rd stake body 1c or more, and the first stake body 1a, the second stake body 1b or the 3rd stake body 1c structure identical or different, only need meet the mounting groove process same plane on fixing after-poppet body); Distance between the first relative mounting groove 2a and the second mounting groove 2b pre-determines according to the length of photovoltaic module 3 or width;

B), then successively the relative both sides of multiple photovoltaic module 3 are embedded in the first mounting groove 2a and the second mounting groove 2b, and along two mounting groove 2a, 2b length (length of the first plate 101, second plate 102, the 3rd plate 103) direction slippage, after installing a photovoltaic module 3 like this, when second photovoltaic module 3 is installed again, the slippage of first photovoltaic module 3 can be promoted by during promotion second photovoltaic module 3 simultaneously, installation personnel effectively can be avoided to trample on photovoltaic module 3, simplify installation procedure.

C), after photovoltaic module 3 installation, fixed at free end (initiating terminal that photovoltaic module 3 is embedded) by locating part 4, complete installation.Certainly for the photovoltaic module 3 installed successively is fixed in the setting width range of stake body 1a, 1b, a locating part 4 can be pre-set at the other end (positive stop end) of free end in advance and limit.Do not affect the installation of photovoltaic module 3, make can close contact between adjacent two photovoltaic modulies 3 simultaneously.

Above-mentioned is only do to installation process the description had, and after certainly only the locating part 4 of mounting groove one end need being removed during dismounting, then is removed from mounting groove by multiple photovoltaic module 3 successively slippage.

It should be noted that above-described embodiment all can independent assortment as required.The above is only the preferred embodiment of the present invention; it should be pointed out that for those skilled in the art, under the premise without departing from the principles of the invention; can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (10)

1. for an installation system for installation photovoltaic component, it is characterized in that, comprising:

At least comprise the first stake body and the second stake body, the side of described first stake body forms the first mounting groove of a strip, and the side of described second stake body forms the second mounting groove of a strip;

Under application state, described first stake body and described second stake body are parallel to each other layout, described first mounting groove and described second mounting groove in the same plane, and notch in opposite directions, one side of described photovoltaic module is embedded in described first mounting groove, and another side is embedded in described second mounting groove.

2. the installation system for installation photovoltaic component according to claim 1, is characterized in that:

The side, side of described first stake body described first mounting groove dorsad forms the 3rd mounting groove of a strip.

3. the installation system for installation photovoltaic component according to claim 2, is characterized in that:

Described first stake body is by the first plate, the second plate, and the 3rd plate is formed;

Described first plate, described second plate and described 3rd plate composition drum structure, described first plate is the upper cross plate of drum structure, and described second plate is the vertical plate of drum structure, and described 3rd plate is the lower cross plate of drum structure.

4. the installation system for installation photovoltaic component according to claim 3, is characterized in that:

The width of described 3rd plate is greater than the width of described first plate;

And/or;

The width of described second plate is more than or equal to described photovoltaic module height.

5. the installation system for installation photovoltaic component according to claim 1, is characterized in that:

The two ends of described first mounting groove are provided with the locating part for limiting described photovoltaic module generation slippage.

6. the installation system for installation photovoltaic component according to claim 1, is characterized in that:

Described locating part is screw, alignment pin or block.

7. the installation system for installation photovoltaic component according to claim 1, is characterized in that:

Also comprise the 4th plate be connected with described first stake body, described 4th plate is extend certain width along described first stake body bottom surface towards the direction away from described first mounting groove to obtain.

8. the installation system for installation photovoltaic component according to claim 7, is characterized in that:

Described 4th plate forms a L-type structure, and the vertical plate end face of described L-type structure is connected with described first stake body bottom surface, and transverse slat is connected with external stability face;

Or;

Described 4th plate forms an inverted T shape structure, and the vertical plate end face of described inverted T shape structure is connected with described first stake body bottom surface, and transverse slat is connected with external stability face.

9. any one according to claim 1-8 is used for the installation system of installation photovoltaic component, it is characterized in that:

Further comprise the 3rd stake body, described 3rd stake body structure is identical with described first stake body structure.

10. an installation method for photovoltaic module, comprises multiple photovoltaic module, it is characterized in that: multiple described photovoltaic module adopts the installation system for installation photovoltaic component described in any one of claim 1-9 to install, and installation process comprises the steps:

A), described first stake body, described second stake body or described 3rd stake body are fixed;

B), successively the relative both sides of multiple described photovoltaic module are embedded respectively in described first mounting groove and described second mounting groove, and slippage along its length;

C), by locating part fix, complete installation.