CN108258987A - The mounting structure of distributed photovoltaic component - Google Patents

Abstract

The present invention relates to a kind of mounting structures of distributed photovoltaic component, photovoltaic module is made of frame and the solar cell being encapsulated in frame, bearing frame is made of crossbeam and longeron, the frame is equipped with the pressing plate extended to scuncheon towards the end of longeron, it further includes and is fastened on longeron and the back of photovoltaic module is pressed on the pressing device on the longeron, which includes：It is fastened in the middle part of longeron and stressed bilateral pressing device is applied to the pressing plate being arranged on frame, which is respectively pressed at the back of arranged along bearing frame Z axis two adjacent and end overlapping photovoltaic modulies on the longeron；And the unilateral pressing device of longeron end is fastened on, which is pressed on the pressing plate on the frame of the photovoltaic module of longeron end on longeron.The present invention avoids the inhibition encountered during cleaning by the way that the back of the frame of photovoltaic module is assembled with bearing frame.

Description

The mounting structure of distributed photovoltaic component

Technical field

The present invention relates to technical field of photovoltaic power generation, and in particular to a kind of mounting structure of distributed photovoltaic component.

Background technology

Every piece of solar cell module will be separately mounted on mounting bracket, then again from positioned at solar module backside Terminal box carry out wiring, to connect and/or be together in parallel each solar cell module.Therefore, solar cell mould Assembling and wiring of the block on mounting bracket are complex.

Publication No. CN201690385U discloses a kind of floor-mounted type solar cell device and its ground mount, As shown in figure 15, solar cell device mainly includes ground mount 20 and the one or more solar cells installed thereon Module 10, the situation of polylith solar cell module 10 is shown in Figure 15, and polylith solar cell module 10 is in array distribution On ground mount 20.The line number and columns of solar cell module array are not limited to shown in figure.Ground mount 20 have pedestal 22 and the clamper (unilateral clamper 40, bilateral clamper 42) being distributed on pedestal, every piece of solar cell Module 10 is mounted on by corresponding clamper on ground mount.Gripper the frame 3 of solar cell module 10.

For above-mentioned mounting bracket, it is thus evident that clamper (unilateral clamper 40, bilateral clamper 42) is protrusion in the sun On the surface of energy battery module 10, however, in order to ensure the irradiation that solar cell module 10 receives sunlight, usually manage Reason personnel can periodically clean the surface of solar cell module 10, but since clamper and terminal box 5 protrude On the surface of solar cell module 10, therefore, inhibition can be formed to cleaning machine during cleaning.

Invention content

The purpose of the present invention is to provide a kind of mounting structure of distributed photovoltaic component, the present invention is by by photovoltaic module The back of frame assembled with bearing frame, avoid the inhibition encountered during cleaning.

The technical solution for solving above-mentioned technical problem is as follows：

The mounting structure of distributed photovoltaic component, including photovoltaic module, bearing frame, photovoltaic module is by frame and encapsulation Solar cell composition in frame, bearing frame are made of crossbeam and longeron, and the end of the frame towards longeron is equipped with The pressing plate extended to scuncheon, further includes and is fastened on longeron and the back of photovoltaic module is pressed on the pressure on the longeron Tight device, the pressing device include：

It is fastened in the middle part of longeron and stressed bilateral pressing device is applied to the pressing plate being arranged on frame, which compresses The back of arranged along bearing frame Z axis two adjacent and end overlapping photovoltaic modulies is pressed on the longeron by device respectively On；And

The unilateral pressing device of longeron end is fastened on, which will be positioned at the photovoltaic module of longeron end Pressing plate on frame is pressed on longeron.

The back of photovoltaic module is pressed on bearing frame by the present invention by pressing device, is not had on the surface of photovoltaic module With the presence of the object for protruding from photovoltaic module, when being cleaned using cleaning machine to the surface of photovoltaic module, cleaning machine will not Effect hindered.In addition, the end of two adjacent photovoltaic components in the present invention forms overlapping, the effect of the overlapping and roof Tile it is identical, you can with play the role of avoiding infiltration, if by the present invention photovoltaic module be distributed in roof, and with this hair Bright mode is installed, and can replace tile completely, i.e., on roof without using tile, passes through two adjacent photovoltaic components End forms overlapping.Therefore, for mounting means of the invention compared with conventional mounting mode, having prevents rainwater from flowing to light The advantages of lying prostrate component back.

Description of the drawings

Fig. 1 is the structure diagram of the mounting structure of the distributed photovoltaic component of the present invention；

Fig. 2 is the schematic diagram concealed on the basis of Fig. 1 after a part too power battery；

Fig. 3 is the A portions enlarged drawing in Fig. 2；

Fig. 4 is the B portions enlarged drawing in Fig. 2；

The diagrammatic cross-section of frame in this present invention of Fig. 5；

Fig. 6 is along the partial schematic diagram after bearing frame Z-direction cutting on the basis of schematic diagram shown in Fig. 1；

Fig. 7 is schematic diagram after another local cutting on the basis of schematic diagram shown in Fig. 1；

Fig. 8 is a kind of schematic diagram of specific embodiment of the frame pressing device in the present invention；

Fig. 9 is the schematic diagram of the briquetting in Fig. 8；

Figure 10 is the schematic diagram of the support base in Fig. 8；

Figure 11 is the assembling schematic diagram of support base and briquetting；

Figure 12 is the schematic diagram that the Y-axis of support base along the frame in opposite Figure 11 is assembled in different height position and briquetting；

Figure 13 is a kind of schematic diagram of deformation of briquetting shown in Fig. 8；

Figure 14 is the frame pressing device of embodiment illustrated in fig. 8 and the scheme of installation of photovoltaic module；

Figure 15 is the schematic diagram of floor-mounted type solar cell device of the prior art and its ground mount；

In attached drawing, 1 is frame, and 1a is pressing plate, and 2 be solar cell, and 3 be crossbeam, and 4 be longeron, and 5 compress dress for bilateral It puts, 5a is the first supporting plate, and 5b is the first vertical connecting portion, and 5c is the first compressed part, and 5d is first connecting portion, and 5e is vertical for second Connecting portion, 5f are the second compressed part, and 5g is second connecting portion；6 be unilateral pressing device, and 6a is supporting plate, and 6b is vertical connecting portion, 6c is compressed part, and 6d is connecting portion, and 7 be fastener, and 11 be bolt, and 12 be the first connecting plate, and 13 be the second connecting plate, and 14 be the Three connecting plates, 14a are hole, and 15 be the 4th connecting plate, and 19 be support base, and 19a is protrusion.

Specific embodiment

The present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments.

As shown in Figures 1 to 7, the mounting structure of distributed photovoltaic component of the invention, including photovoltaic module, bearing frame Frame, photovoltaic module are made of frame 1 and the solar cell being encapsulated in frame 2, and bearing frame is by 4 groups of crossbeam 3 and longeron Into the frame 1 is equipped with the pressing plate 1a extended to scuncheon towards the end of longeron 3, further includes and is fastened on longeron and incites somebody to action The back of photovoltaic module is pressed on the pressing device on the longeron, which includes being fastened in the middle part of longeron and to setting Pressing plate on frame applies stressed bilateral pressing device 5 and is fastened on the unilateral pressing device 6 of longeron end, described double Pressing plate 1a on arranged along bearing frame Z axis two adjacent and end overlapping photovoltaic modulies is pressed on by side compression device 5 On the longeron 4, the pressing plate 1a on the frame 1 of the photovoltaic module of 4 end of longeron is pressed on longeron by unilateral pressing device 3 On 4.The end of two adjacent photovoltaic components in the present invention forms overlapping, and the effect of the overlapping is identical with the tile on roof, i.e., It can play the role of avoiding infiltration, if the photovoltaic module of the present invention is distributed in roof, and carry out in the manner of the present invention Installation, can replace tile completely, i.e., form overlapping by the end of two adjacent photovoltaic components without using tile on roof .Therefore, for mounting means of the invention compared with conventional mounting mode, having prevents rainwater from flowing to photovoltaic module back Effect.

As shown in figure 3, the bilateral pressing device 5 includes the first supporting plate 5a, is set to the first of first supporting plate 5a one end Upper splenium part, the first pressing member for being set to the first supporting plate 5a other ends, splenium part includes being parallel to bearing frame Y on first One end of first vertical connecting portion 5b of axis, the first vertical connecting portion 5b are equipped with the first compression for being parallel to bearing frame Z axis Portion 5c, the other end of the first vertical connecting portion are equipped with the first connecting portion 5d for being parallel to bearing frame Z axis.First pressing member packet The the second vertical connecting portion 5e for being parallel to bearing frame Y-axis is included, one end of the second vertical connecting portion 5e, which is equipped with, is parallel to carrying Second compressed part 5f of frame Z axis, the other end of the second vertical connecting portion are equipped with the second connecting portion for being parallel to bearing frame Z axis 5g；The height of first vertical connecting portion 5b is more than the height of the second vertical connecting portion 5e.Splenium part on first supporting plate 5a and first Assembly method with the first pressing member is preferably to be set on the first supporting plate 5a there are two through-hole, first connecting portion 5d and second Be equipped with through-hole on connecting portion 5g, using bolt pass through first connecting portion 5d and first connecting portion 5d after be fixed on longeron 4 Fastener 7 be fixedly connected, by bolt pass through first connecting portion 5d and second connecting portion 5g after be fixed on it is tight on longeron 4 Firmware 7 is fixedly connected, so as to which the first supporting plate 5a and splenium part on first and the first pressing member are fastened as a whole.First compresses Portion 5c and the second compressed part 5f applies pressure to the pressing plate 1a on two adjacent photovoltaic components respectively.Fastener 7 has for one The sleeve of internal thread, the circumferential surface of sleeve are equipped with latch, and card slot, sleeve are equipped with along the longitudinal direction of bearing frame on the longeron 4 Latch on circumferential surface is embedded into the card slot on longeron 4, so as to which sleeve is fixed on longeron 4.

As shown in Figure 3 and Figure 5, since splenium part on first and the first pressing member are separately mounted to the two of the first supporting plate 5a End, when the first compressed part 5c applies pressure, and the second compressed part 5f to one of pressing plate 1a in two adjacent photovoltaic components After applying pressure to another pressing plate 1a in two adjacent photovoltaic components, it is connected in this way by a bilateral pressing device 5 Two adjacent photovoltaic modulies, therefore, when one of them in two adjacent photovoltaic modulies generates position in the active force of external force During shifting, at this moment by the limitation of 5 pulling force of bilateral pressing device, inhibition can be formed to the photovoltaic module that this is located at, therefore, this After invention connects two adjacent photovoltaic modulies by bilateral pressing device 5, make photovoltaic module that there is better stability.Together When, since the height of the first vertical connecting portion 5c is more than the height of the second vertical connecting portion 5e, for two adjacent photovoltaics The end of component forms the state of overlapping, can be compressed respectively by the first compressed part 5c and the second compressed part 5f.

As shown in figs. 4 and 7, unilateral pressing device 6 includes supporting plate 6a, and supporting plate 6a one end is equipped with compacting part, the compression Component includes the vertical connecting portion 6b for being parallel to bearing frame Y-axis, and one end of the vertical connecting portion 6b, which is equipped with, is parallel to bearing frame The compressed part 6c of frame Z axis, the other end of vertical connecting portion are equipped with the connecting portion 6d for being parallel to bearing frame Z axis.Due in longeron 4 End is only there are one the end of photovoltaic module, therefore it may only be necessary to set compacting part, compressed part 6c in one end of supporting plate 6a Apply pressure to the pressing plate 1a on frame 1, connecting portion 6d and supporting plate 6a is fastened by bolts the fastener that part is set on longeron 4 On 7.

It is further, above-mentioned to elaborate that edge is held in order to ensure the stationarity of photovoltaic module for the mounting structure of the present invention The Z-direction for carrying frame applies photovoltaic module clamping force, and along the X-direction of bearing frame also there are vacancy, therefore, The frame 1 that the present invention is fastened on 3 end of crossbeam and the photovoltaic module to being located at 3 end of crossbeam by adding is pressed on crossbeam 3 Frame pressing device, as shown in Fig. 8 to Figure 12 and Figure 14, frame pressing device include briquetting and bolt 11, the pressure Block includes the first connecting plate 12, the second connecting plate 13,14 and the 4th connecting plate 15 of third connecting plate, wherein, the first connecting plate 12 both ends extend along the X-axis of frame 1, and the both ends of the second connecting plate 13 extend along the Y-axis of frame 1, third connecting plate 14 Both ends extend along the X-axis of frame 6, the both ends of the 4th connecting plate 15 extend along the Y-axis of frame 1, the first connecting plate 12 One end is free end, and the other end of the first connecting plate 12 is connect with one end of the second connecting plate 13, the second connecting plate 13 it is another End is connect with one end of third connecting plate 14, and third connecting plate 14 is equipped with hole 14a, the other end of third connecting plate 14 and the 4th One end connection of connecting plate 15, the first connecting plate 12, the second connecting plate 13, third connecting plate 14 and the 4th connecting plate 15 are whole Molding, which formed by way of casting.

As shown in Fig. 8 to Figure 12 and Figure 14, the support base 19 that one end is supported with crossbeam formation, the support are further included The raised 19a for being parallel to frame Z axis at least provided with one in the side wall surface of seat 19, it is preferable that raised 19a is multiple, and the 4th It is arranged at intervals with multiple the first groove 15a for being parallel to frame Z axis in the side wall surface of connecting plate 15, the protrusion on support base 19 19a is inserted into the first groove 15a on the 4th connecting plate 15.In this way, 19 and the 4th connecting plate 15 of support base is with the shape of grafting After formula forms cooperation, support base 19 can be disassembled from the 4th connecting plate 15 as needed, for example, when in face of height It is during frame 1 for 30mm, support base 19 and position that the 4th connecting plate 15 coordinates is as shown in figure 11, when being 35mm in face of height Frame 1 when, support base 19 and position that the 4th connecting plate 15 coordinates is as shown in figure 12, therefore, by selecting different match Close position, you can adjustment support base 19 connect with the 4th connecting plate 15 after along frame 1 in the height of Y direction, this adjustment is It is determined according to specific demand, therefore, the present invention is adaptable to the frame 1 of different height.

Although of the prior art there is also frame pressing device, side pressing device of the prior art is in height Upper unadjustable, however, for type has a variety of photovoltaic modulies, their height dimension is inconsistent, for example, having Frame 1 height for 30mm, the height of some frames 1 is 35mm, and the height of frame 1 also is 40mm, is resulted in this way Different frames needs various sizes of frame pressing device to be assembled.The frame of the present invention has also been embodied as a result, Pressing device can compress the frame of different height after height-adjustable.

As a preferred embodiment of the present invention, as shown in Fig. 8 to Figure 10, the 4th connecting plate 15 is inverted U shape, institute The first groove 15a is stated to be set in the interior sidewall surface on the 4th connecting plate.

As a kind of mode of texturing of above-described embodiment, as shown in figure 13, the first groove 15a is located at the 4th connecting plate On 15 outer side surface, the first groove 15a is trapezoidal, and the protrusion on the support base 19 is trapezoidal, by being in that protrusion is in After trapezoidal and trapezoidal the first groove 15a cooperations, it can prevent support base 19 from being moved with the 4th connecting plate 15 along the X-axis of frame, Ensure the reliability of the two connection.

The frame pressing device of the present invention is not limited to above-described embodiment, for example, being arranged at intervals in the side wall surface of support base There are multiple grooves for being parallel to frame Z axis, be arranged at intervals in the side wall surface of the 4th connecting plate and multiple be parallel to the of frame Z axis One is raised, and the first protrusion on the 4th connecting plate is inserted into the groove on support base.That is, the present embodiment and above-described embodiment are not It is with part, is that multiple grooves are arranged on support base, and the first protrusion is arranged on the 4th connecting plate.The structure of briquetting Identical with the structure of embodiment one, details are not described herein.

The preferred structure signal of support base as the present embodiment, the support base take the shape of the letter U, and the groove is set to support In interior sidewall surface on seat.

As a kind of deformation of embodiment two, the groove is located on the outer side surface of support base, and the groove is trapezoidal, The first protrusion on 4th connecting plate is trapezoidal.

As shown in figure 14, the frame pressing device of the present invention is applied to the compression of photovoltaic component frame, the first connecting plate 12 are pressed on frame 1, and bolt 11 passes through 18 screw thread of the attachment device company that the Kong Houyu on third connecting plate 14 is mounted on crossbeam 2 After connecing, the other end and crossbeam 2 that make the 4th connecting plate 15 are supported, in this way, by multiple frame pressing devices, make photovoltaic module Frame 1 is pressed between briquetting and crossbeam 2.For the frame of different height, by selecting 19 and the 4th connecting plate of support base 15 are coordinated in different positions, you can are adjusted after support base 19 is connect with the 4th connecting plate 15 along the height of frame 1Y axis directions Degree, so as to meet corresponding requirements.

Claims (9)

1. the mounting structure of family photovoltaic module, including photovoltaic module, bearing frame, photovoltaic module is by frame and is encapsulated in side Solar cell composition in frame, bearing frame is made of crossbeam and longeron, which is characterized in that the frame is towards the end of longeron Portion is equipped with the pressing plate extended to scuncheon, further includes and is fastened on longeron and the back of photovoltaic module is pressed on the longeron On pressing device, which includes：

It is fastened in the middle part of longeron and stressed bilateral pressing device, the bilateral pressing device is applied to the pressing plate being arranged on frame The back of arranged along bearing frame Z axis two adjacent and end overlapping photovoltaic modulies is pressed on the longeron respectively； And

The unilateral pressing device of longeron end is fastened on, which will be positioned at the frame of the photovoltaic module of longeron end On pressing plate be pressed on longeron.

2. the mounting structure of family photovoltaic module according to claim 1, which is characterized in that the bilateral pressing device packet Include the first supporting plate；

Be set to splenium part on the first of first supporting plate one end, this on first splenium part include being parallel to the of bearing frame Y-axis One vertical connecting portion, one end of the first vertical connecting portion are equipped with the first compressed part for being parallel to bearing frame Z axis, and first is vertical The other end of connecting portion is equipped with the first connecting portion for being parallel to bearing frame Z axis；

The first pressing member of the first supporting plate other end is set to, which includes being parallel to bearing frame Y-axis Second vertical connecting portion, one end of the second vertical connecting portion are equipped with the second compressed part for being parallel to bearing frame Z axis, and second is perpendicular The other end of direct-connected socket part is equipped with the second connecting portion for being parallel to bearing frame Z axis；

The height of first vertical connecting portion is more than the height of the second vertical connecting portion.

3. the mounting structure of family photovoltaic module according to claim 1, which is characterized in that unilateral pressing device includes support Plate, supporting plate one end are equipped with compacting part, which includes the vertical connecting portion for being parallel to bearing frame Y-axis, this connects vertically One end of socket part is equipped with the compressed part for being parallel to bearing frame Z axis, and the other end of vertical connecting portion, which is equipped with, is parallel to bearing frame Z The connecting portion of axis.

4. the mounting structure of the family photovoltaic module according to claims 1 to 3 any one, which is characterized in that further include The frame for being fastened on beam-end and the photovoltaic module to being located at beam-end is pressed on frame pressing device on crossbeam, the side Frame pressing device includes briquetting and bolt, and the briquetting includes the first connecting plate, the second connecting plate, third connecting plate and the The support base that four connecting plates and one end are supported with crossbeam formation, wherein, the both ends of the first connecting plate are along bearing frame X-axis extension, the both ends of the second connecting plate extend along the Y-axis of bearing frame, and the both ends of third connecting plate are along bearing frame X-axis extension, the both ends of the 4th connecting plate extend along the Y-axis of bearing frame, and one end of the first connecting plate is free end, first The other end of connecting plate is connect with one end of the second connecting plate, and the other end of the second connecting plate connects with one end of third connecting plate It connects, third connecting plate is equipped with hole, and the other end of third connecting plate is connect with one end of the 4th connecting plate, which is characterized in that institute The protrusion for being parallel to frame Z axis at least provided with one in the side wall surface of support base is stated, is spaced in the side wall surface of the 4th connecting plate It is provided with multiple the first grooves for being parallel to frame Z axis, the protrusion on support base is inserted into the first groove on the 4th connecting plate In.

5. the mounting structure of family photovoltaic module according to claim 4, which is characterized in that the 4th connecting plate is in U-shaped, first groove are set in the interior sidewall surface on the 4th connecting plate.

6. the mounting structure of family photovoltaic module according to claim 4, which is characterized in that first groove is located at the On the outer side surface of four connecting plates, first groove is trapezoidal, and the protrusion on the support base is trapezoidal.

7. the mounting structure of the family photovoltaic module according to claims 1 to 3 any one, which is characterized in that further include The frame for being fastened on beam-end and the photovoltaic module to being located at beam-end is pressed on frame pressing device on crossbeam, described Briquetting includes the first connecting plate, the second connecting plate, third connecting plate, the 4th connecting plate and one end and is supported with crossbeam formation Support base, wherein, the both ends of the first connecting plate extend along the X-axis of frame, the both ends of the second connecting plate along frame Y-axis Extension, the both ends of third connecting plate extend along the X-axis of frame, and the both ends of the 4th connecting plate extend along the Y-axis of frame, and first One end of connecting plate is free end, and the other end of the first connecting plate connect with one end of the second connecting plate, the second connecting plate it is another One end is connect with one end of third connecting plate, and third connecting plate is equipped with hole, the other end of third connecting plate and the 4th connecting plate One end connection, be arranged at intervals with multiple grooves for being parallel to frame Z axis, the side of the 4th connecting plate in the side wall surface of the support base The first protrusion for being parallel to frame Z axis at least provided with one on wall surface, the first protrusion on the 4th connecting plate are inserted into support In groove on seat.

8. the mounting structure of family photovoltaic module according to claim 7, which is characterized in that the support base takes the shape of the letter U, institute Groove is stated to be set in the interior sidewall surface on support base.

9. the mounting structure of family photovoltaic module according to claim 7, which is characterized in that the groove is located at support base Outer side surface on, the groove is trapezoidal, on the 4th connecting plate first protrusion it is trapezoidal.