CN207475467U - The border structure of photovoltaic module - Google Patents

Abstract

The utility model provides a kind of border structure of photovoltaic module, the first frame and the second frame including mutual cooperation, first frame includes the first frame ontology, the front of the first frame ontology is equipped with the first groove, the back side is equipped with extending direction with the first groove notch towards the first opposite convex edge, and the back side of first convex edge is equipped with supporter；Second frame includes the second frame ontology, and the front of the second frame ontology is equipped with the second groove, and the edge both sides of photovoltaic module panel are able in the first groove and the second groove.The border structure can be convenient for the installation of photovoltaic module.

Description

The border structure of photovoltaic module

Technical field

The utility model is related to photovoltaic products technical fields, and in particular to a kind of border structure of photovoltaic module.

Background technology

Installation photovoltaic component is carried out in large-sized photovoltaic power station in order to increase generated energy commonly using tracking stent at present.It is many with In track supporting structure, flat uniaxial tracking bracket is able to large-scale use since sexual valence is higher.In general, on flat uniaxial tracking bracket Bearing is equipped at intervals with, therefore photovoltaic module need to be by being mounted on certain thickness fixture on flat uniaxial tracking bracket, institute It states fixture and includes opposite the first groove and the second groove, the edge of photovoltaic module both sides is respectively embedded into two adjacent fixtures In first groove of one fixture and the second groove of another fixture, but when such fixture is used to fix photovoltaic module, phase Height between adjacent two photovoltaic modulies is difficult to keep consistent, so that installation alignment step is cumbersome.

Invention content

In order to solve to exist in the prior art deficiency, the border structure of photovoltaic module provided by the utility model.The side Mount structure can be convenient for the installation of photovoltaic module.

According to technical solution provided by the utility model, a kind of border structure of photovoltaic module, including mutual cooperation One frame and the second frame, first frame include the first frame ontology, and the front of the first frame ontology is equipped with first Groove, the back side are equipped with extending direction with the first groove notch towards the first opposite convex edge, and the back side of first convex edge is equipped with Supporter；Second frame includes the second frame ontology, and the front of the second frame ontology is equipped with the second groove, photovoltaic group The edge both sides of part panel are able in the first groove and the second groove.

Further, the front of first convex edge elongated end is equipped with the first protrusion.

Further, the supporter includes support plate and positioned at support plate both ends and perpendicular to the of the support plate One riser and the second riser.

Further, the support plate is located at the back side of the first convex edge and is wholely set with the first convex edge.

Further, first riser and the second riser are located at the back side of the first convex edge and are integrally set with the first convex edge It puts.

Further, the second convex edge is extended at the back side of the second frame ontology.

Further, the front of second convex edge elongated end forms the second protrusion.

Further, the first frame ontology and the second frame ontology are aluminum alloy hollow prism.

Further, the first frame ontology and the opposite inner wall of the second frame ontology are equipped with reinforcing rib.

Further, first groove and the second groove for dovetail groove, the first groove notch and the second groove notch by It tapers into from inside to outside.

It can be seen that the border structure of photovoltaic module provided by the utility model from the above, compared with prior art Has advantages below：First, the nesting of adjacent photovoltaic module frame can increase the horizontal and vertical positioning function of component, it can Height convenient for adjacent photovoltaic component is consistent, and improves installation effectiveness.Second, the utility model can avoid using existing skill Fixture in art carrys out installation photovoltaic component, can save material so as to save financial cost.Third, asymmetric border structure mistake Design does not need to increase exceptional space when pack stacks, will not increase packed and transported cost.

Description of the drawings

Fig. 1 is the schematic cross-section of the first embodiment of the utility model.

Fig. 2 is the schematic cross-section after the utility model the first embodiment adjacent photovoltaic component connection.

Fig. 3 is the structure diagram of second of embodiment of the utility model.

Fig. 4 is the attachment structure schematic diagram of second of embodiment adjacent photovoltaic component of the utility model.

Fig. 5 is the schematic cross-section of the third embodiment of the utility model.

Fig. 6 is the attachment structure schematic diagram of the third embodiment adjacent photovoltaic component of the utility model.

Fig. 7 is the schematic cross-section of the 4th kind of embodiment of the utility model.

Fig. 8 is the attachment structure schematic diagram of the 4th kind of embodiment adjacent photovoltaic component of the utility model.

Fig. 9 is the schematic cross-section of the 5th kind of embodiment of the utility model.

Figure 10 is the attachment structure schematic diagram of the 5th kind of embodiment adjacent photovoltaic component of the utility model.

Figure 11 is the schematic cross-section of the 6th kind of embodiment of the utility model.

Figure 12 is the attachment structure schematic diagram of the 6th kind of embodiment adjacent photovoltaic component of the utility model.

Figure 13 is the structure diagram of the utility model supporter,

101. the first frame ontology, 102. first grooves, 103. first convex edges, 104. first protrusions, 201. second frames Ontology, 202. second grooves, 203. second convex edges, 204. second protrusions, 3. photovoltaic module panels, 4. supporters, 401. supports Plate, 402. first risers, 403. second risers, 5. reinforcing ribs.

Specific embodiment

For the purpose of this utility model, technical solution and advantage is more clearly understood, below in conjunction with specific embodiment, and With reference to attached drawing, the utility model is further described.Wherein identical parts are presented with like reference characters.It needs Illustrate, for the ease of statement, be described below described in the word "front", "rear", "left", "right", the "up" and "down" that use Refer to the direction in attached drawing, the word " interior " used and " outer " are referred respectively to towards or away from particular elements geometric center Direction, but it is not intended as the determinant attributes of parts.

Fig. 1 is the schematic cross-section of the first embodiment of the utility model, and Fig. 2 is the first embodiment of the utility model Schematic cross-section after two neighboring photovoltaic component frame connection, as depicted in figs. 1 and 2, the frame of the present embodiment is included mutually The first frame and the second frame of cooperation, first frame include the first frame ontology 101, the first frame ontology 101 Front be equipped with the first groove 102, the back side is equipped with the first opposite convex edge 103 of extending direction and 102 notch of the first groove direction, The back side of first convex edge 103 is equipped with the supporter 4 for being used for being mounted on tracking stent；Second frame includes the second side Frame ontology 201, the front of the second frame ontology 201 are equipped with the second groove 202, the edge point of 3 both sides of photovoltaic module panel It can not be embedded in the first groove 102 and the second groove 202.The notch of first groove 102 is oriented the photovoltaic module from The extending direction of one groove, 102 position to 202 position of the second groove.The width d1 of first convex edge 103 of the first frame be more than or Equal to the width d2 at 201 back side of the second frame ontology of the second frame so that the two neighboring one of photovoltaic group of photovoltaic module First convex edge 103 of the first frame of part can support 201 back side of the second frame ontology of another the second frame of photovoltaic module, use When, the supporter 4 of the first frame is mounted on tracking stent, the back of the body of the second frame of front side supports ontology 201 of the first convex edge 103 Face so that photovoltaic module is sequentially connected by frame, and by adjust the first convex edge 103 and the second frame ontology 201 it Between relative altitude the height of adjacent photovoltaic component is consistent.

Fig. 3 is the schematic cross-section of second of embodiment of the utility model, and Fig. 4 is second of embodiment of the utility model Schematic cross-section after two neighboring photovoltaic component frame connection, as shown in Figure 3 and Figure 4, the frame of the present embodiment is included mutually The first frame and the second frame of cooperation, first frame include the first frame ontology 101, the first frame ontology 101 Front be equipped with the first groove 102, the back side is equipped with the first opposite convex edge 103 of extending direction and 102 notch of the first groove direction, The back side of first convex edge 103 is equipped with the supporter 4 for being used for being mounted on tracking stent, and 103 elongated end of the first convex edge is just Face is equipped with the first protrusion 104；Second frame includes the second frame ontology 201, and the front of the second frame ontology 201 is set There is the second groove 202, the edge of 3 both sides of photovoltaic module panel is able in the first groove 102 and the second groove 202. The notch of first groove 102 is oriented the photovoltaic module from the extension side of 102 position of the first groove to 202 position of the second groove To.The distance between first frame ontology, 101 left side and first raised 104 right sides d3 are greater than or equal to the second side of the second frame The width d2 at 201 back side of frame ontology so that the first convex edge of two neighboring one of the first frame of photovoltaic module of photovoltaic module 103 can support 201 back side of the second frame ontology of another the second frame of photovoltaic module, in use, the supporter 4 of the first frame On tracking stent, the back side of the second frame of front side supports ontology 201 of the first convex edge 103 is so that photovoltaic module leads to It crosses frame to be sequentially connected, and by adjusting the relative altitude between the first convex edge 103 and the second frame ontology 201 come phase The height of adjacent photovoltaic module is consistent, and first protrusion 10 and the first convex edge 103 can play the second frame ontology 201 Position-limiting action so that the connection between photovoltaic module is more reliable.

As shown in Fig. 5 ~ 8, the frame of the present embodiment includes the first frame and the second frame that cooperate, first side Frame includes the first frame ontology 101, and the front of the first frame ontology 101 is equipped with the first groove 102, and the back side is equipped with extension side To, towards the first opposite convex edge 103, the back side of first convex edge 103 is equipped with to be mounted on 102 notch of the first groove Track the supporter 4 on stent；Second frame includes the second frame ontology 201, the front of the second frame ontology 201 Equipped with the second groove 202, the second convex edge 203 is extended at the back side of the second frame ontology 201.3 both sides of photovoltaic module panel Edge be able in the first groove 102 and the second groove 202.The notch of first groove 102 is oriented the photovoltaic Component is from the extending direction of 102 position of the first groove to 202 position of the second groove.The notch of second groove 202 is oriented described Photovoltaic module is from the extending direction of 202 position of the second groove to 102 position of the first groove.First frame ontology, 101 first convex edge 103 width d1 is greater than or equal to the sum of 201 back side width of 203 width of the second convex edge and the second frame ontology d4 so that adjacent First convex edge 103 of one of the first frame of photovoltaic module of two photovoltaic modulies can support another the second frame of photovoltaic module 201 back side of the second convex edge 203 and the second frame ontology, in use, the supporter 4 of the first frame be mounted on tracking stent On, front side supports the second convex edge 203 of the first convex edge 103 and the back side of the second frame ontology 201, so that photovoltaic module leads to It crosses frame to be sequentially connected, and by adjusting the relative altitude between the first convex edge 103 and the second convex edge 203 come adjacent light The height of volt component is consistent, for Fig. 5 and embodiment shown in fig. 6,203 extending direction of the second convex edge and the second groove 202 notches are towards on the contrary, in such embodiment, there are a certain distance between adjacent photovoltaic component, suitable for adjacent photovoltaic In the case of having larger mounting distance claimed range between component.For Fig. 7 and embodiment shown in Fig. 8, the second convex edge 203 is prolonged Direction and 202 notch of the second groove are stretched towards identical, and in such embodiment, the distance between adjacent photovoltaic component is smaller, is applicable in In the case of having smaller mounting distance claimed range between adjacent photovoltaic component.

On the basis of Fig. 5 and embodiment illustrated in fig. 6, the front of 103 elongated end of the first convex edge is equipped with the first protrusion 104, The front of second convex edge, 203 elongated end forms the second protrusion 204（As shown in Figure 9 and Figure 10）.Wherein, the first frame ontology 101 The left side be greater than or equal to second raised 204 right sides and the second frame ontology 201 with the distance between first raised 104 right sides d5 The distance between left side d6 so that 103 energy of the first convex edge of two neighboring one of the first frame of photovoltaic module of photovoltaic module Enough support the second convex edge 203 and the second frame ontology 201 of another the second frame of photovoltaic module.In use, two neighboring photovoltaic The right side of first protrusion 104 of the one of photovoltaic module of component and the left side of the second frame ontology 201 of another photovoltaic module Contact, 101 left side of the first frame ontology are contacted with the right side of the second protrusion 204, the two neighboring one of photovoltaic of photovoltaic module The first convex edge 103 support of component and 201 back side of the second convex edge 203 and the second frame ontology of another photovoltaic module.

On the basis of Fig. 7 and embodiment illustrated in fig. 8, the front of 103 elongated end of the first convex edge is equipped with the first protrusion 104, The front of second convex edge, 203 elongated end forms the second protrusion 204（As is illustrated by figs. 11 and 12）.

Wherein, the distance between the left side of the first frame ontology 101 and first raised 104 right sides d5 are greater than or equal to second The distance between 201 right side of frame ontology and second raised 204 left sides d7 so that the two neighboring one of photovoltaic of photovoltaic module First convex edge 103 of the first frame of component can support the second convex edge 203 and the second frame of another the second frame of photovoltaic module Ontology 201.In use, the right side of the first protrusion 104 of the two neighboring one of photovoltaic module of photovoltaic module and another photovoltaic The left side contact of second protrusion 204 of component, 101 left side of the first frame ontology are contacted with the right side of the second frame ontology 201, phase The first convex edge 103 support of adjacent two one of photovoltaic modulies of photovoltaic module and 203 He of the second convex edge of another photovoltaic module Second frame ontology, 201 back side.As shown in figure 13, supporter 4 described in specific embodiment includes support plate 401 and positioned at branch 401 both ends of fagging and perpendicular to the first riser 402 and the second riser 403 of the support plate 401, such structure facilitates acquirement The weight of frame entirety can be mitigated again, the supporter 4 is set on 103 back side of the first convex edge and includes following two structures：First, The support plate 401 is located at the back side of the first convex edge 103 and is wholely set with the first convex edge 103.Second, first riser 402 and second riser 403 be located at the back side of the first convex edge 103 and be wholely set with the first convex edge 103.

It can also be opposite in the first frame ontology 101 and the second frame ontology 201 in each embodiment described above Inner wall is equipped with reinforcing rib 5.The reinforcing rib 5 can improve the bearing capacity of the utility model cost-effective while.

The first groove 102 and the second groove 202 in each embodiment described above are dovetail groove, 102 slot of the first groove Mouth and 202 notch of the second groove taper into from inside to outside, and the first trapezoidal groove 102 and the second groove 202 can more securely Photovoltaic module panel 3 is fixed on ground.

Those of ordinary skills in the art should understand that：The foregoing is merely specific embodiment of the utility model , it is not intended to limit the utility model, all any modifications within the purport of the utility model, made, change equivalent replacement Into etc., it should be included within the scope of protection of this utility model.

Claims (10)

1. a kind of border structure of photovoltaic module, which is characterized in that the first frame and the second frame including mutual cooperation, it is described First frame includes the first frame ontology（101）, the first frame ontology（101）Front be equipped with the first groove（102）, the back of the body Face is equipped with extending direction and the first groove（102）The first opposite convex edge of notch direction（103）, first convex edge（103）'s The back side is equipped with supporter（4）；Second frame includes the second frame ontology（201）, the second frame ontology（201）Just Face is equipped with the second groove（202）, photovoltaic module panel（3）Edge both sides be able to embedded in the first groove（102）With second Groove（202）In.

A kind of 2. border structure of photovoltaic module as described in claim 1, which is characterized in that first convex edge（103）Extension The front at end is equipped with the first protrusion（104）.

A kind of 3. border structure of photovoltaic module as described in claim 1, which is characterized in that the supporter（4）Including support Plate（401）And positioned at support plate（401）Both ends and perpendicular to the support plate（401）The first riser（402）It is vertical with second Plate（403）.

A kind of 4. border structure of photovoltaic module as claimed in claim 3, which is characterized in that the support plate（401）Positioned at One convex edge（103）The back side and with the first convex edge（103）It is wholely set.

A kind of 5. border structure of photovoltaic module as claimed in claim 3, which is characterized in that first riser（402）With Two risers（403）Positioned at the first convex edge（103）The back side and with the first convex edge（103）It is wholely set.

A kind of 6. border structure of photovoltaic module as described in claim 1, which is characterized in that the second frame ontology（201） The back side extend the second convex edge（203）.

A kind of 7. border structure of photovoltaic module as claimed in claim 6, which is characterized in that second convex edge（203）Extension The front at end forms the second protrusion（204）.

A kind of 8. border structure of photovoltaic module as described in claim 1, which is characterized in that the first frame ontology（101） With the second frame ontology（201）For aluminum alloy hollow prism.

A kind of 9. border structure of photovoltaic module as claimed in claim 8, which is characterized in that the first frame ontology（101） With the second frame ontology（201）Opposite inner wall is equipped with reinforcing rib（5）.

A kind of 10. border structure of photovoltaic module as described in claim 1, which is characterized in that first groove（102）With Two grooves（202）For dovetail groove, the first groove（102）Notch and the second groove（202）Notch tapers into from inside to outside.