CN209627307U - A kind of photovoltaic component frame - Google Patents

Abstract

The utility model relates to a kind of photovoltaic component frames, including upper side frame, lower frame, left frame and left frame, mutually matched sliding slot and sliding block are provided on left frame and left frame, left frame and the left frame of adjacent photovoltaic component are slidably connected, left frame can be slidably connected with the left frame of adjacent photovoltaic component, the back side of lower frame is provided with fixture block, the card slot matched with fixture block is provided on upper side frame, fixture block is matched with the card slot of adjacent photovoltaic component upper side frame, so that in roof slope installation photovoltaic component, lower frame can be stacked at the top of adjacent photovoltaic component upper side frame, and it will not slide downwards.The installation of the utility model photovoltaic component frame is simple secured, and can prevent water from leaking between left and right and neighbouring photovoltaic module to roofing, and can prevent when sloping roof is laid with photovoltaic module, and the photovoltaic module of upside slides downwards.

Description

A kind of photovoltaic component frame

Technical field

The utility model relates to photovoltaic module equipment technical fields, more particularly, to a kind of photovoltaic component frame.

Background technique

Photovoltaic panel assembly is the power generator that a kind of exposure will generate direct current in the sun, and Solar use is by almost All formed with solid photovoltaic cell made of semiconductor material.Simple photovoltaic cell can provide energy for wrist-watch and computer Source, more complex photovoltaic system can provide illumination and traffic lights and monitoring system for house, and be connected to the grid power supply.

Photovoltaic panel assembly can be used in balcony and building surface, or even is used as the one of window, skylight or masking device Part, especially photovoltaic module are very widely used on roofing, do not have generally when existing photovoltaic module is mounted on sloping roof Standby water-proof function, and often there are some defects in some photovoltaic module connection types for capableing of waterproof, for example connect cumbersome, connection Insecure, waterproof effect is poor.

Utility model content

The technical issues of the utility model devises a kind of photovoltaic component frame, solves is existing photovoltaic module in room Face install when connect it is cumbersome, be not connected firmly, can not waterproof or waterproof effect it is poor.

In order to solve above-mentioned technical problem, the utility model uses following scheme:

A kind of photovoltaic component frame, including upper side frame, lower frame, left frame and left frame, it is characterised in that: the left side It is provided with mutually matched sliding slot and sliding block on frame and the left frame, enables the left frame and adjacent photovoltaic component Left frame is slidably connected, and the left frame can be slidably connected with the left frame of adjacent photovoltaic component, the back side of the lower frame It is provided with fixture block, is provided with the card slot matched with the fixture block on the upper side frame, on the fixture block and adjacent photovoltaic component The card slot of frame matches, so that the lower frame can be stacked at adjacent photovoltaic group in roof slope installation photovoltaic component The top of part upper side frame, and will not slide downwards.

Further, the upper side frame, the lower frame, the left frame and the left frame include be parallel to each other it is upper Snap-gauge and lower snap-gauge, between the upper snap-gauge and the lower snap-gauge by vertical panel connect, the bottom surface of the upper snap-gauge with it is described Vertical panel, the lower snap-gauge top surface form the clamp area for clamping photovoltaic panel, the lower snap-gauge of the left frame extends outwardly Lower connecting plate is formed, is provided perpendicular to the first raised line of the lower connecting plate on the upper side of the lower connecting plate, described the The vertical panel of one raised line, the lower connecting plate and the left frame forms the sliding slot, and the upper snap-gauge of the left frame is to extension It stretches to form upper junction plate, the sliding block of the lower connecting plate is provided perpendicular on the downside of the upper junction plate.

Further, it is additionally provided on the lower connecting plate between first raised line and the left frame vertical panel and described Second raised line of one tab parallel.

Further, the periphery cover of the upper junction plate is located on the left frame of adjacent photovoltaic component above snap-gauge, under described The edge of connecting plate is located under the left frame of adjacent photovoltaic component below snap-gauge, for preventing water from adjacent two pieces of left and right photovoltaic It is leaked between component to roofing.

Further, the thickness at the upper junction plate edge and the lower connecting plate edge is respectively less than the upper snap-gauge and described The thickness of lower snap-gauge.

Further, the upper side of the lower connecting plate on the left of first raised line is inclined-plane inclined to the left.

Further, the upper snap-gauge of the upper side frame and lower snap-gauge extend outward to form the card slot, the lower frame Lower snap-gauge extends internally and bends downward the L-shaped fixture block to be formed and be matched with the card slot, and the fixture block is fastened on the card To prevent in roof slope installation photovoltaic component in slot, the photovoltaic module of top is slid downwards.

Further, the lower snap-gauge of the upper side frame is recessed upwards forms fixing groove, and the fixing groove is used to cooperate with roof It is fixed.

Further, it is offered on the upper side frame for several fixation holes fixed with roofing.

Further, be provided with waterproof adhesive tape on the upside of the upper snap-gauge of the upper side frame, the waterproof adhesive tape for prevent water from It leaks between adjacent two pieces of photovoltaic modulies up and down to roofing.

The photovoltaic component frame has the advantages that

(1) mutually matched sliding slot and cunning are provided on the left frame and left frame of the utility model photovoltaic component frame Block, so that can be slidably connected between the two pieces of adjacent photovoltaic modulies in left and right, installation is simple, and water can be prevented adjacent from left and right Photovoltaic module between leak to roofing, mutually matched fixture block and card slot are provided on upper side frame and lower frame, so that upper and lower two The lower frame lid of the photovoltaic module of upside is located on the upper side frame of the photovoltaic module of downside in the adjacent photovoltaic module of block, can not only It enough prevents water from leaking between neighbouring photovoltaic module to roofing, and can prevent from being laid with photovoltaic module in sloping roof When, the photovoltaic module of upside slides downwards.

(2) the lower connecting plate edge of the left frame of the utility model photovoltaic component frame is located at adjacent photovoltaic component left frame Lower snap-gauge below, the upper junction plate periphery cover of adjacent photovoltaic component left frame is located at the upper card of the left frame of adjacent photovoltaic component Above plate, four-layer seal structure is formed, wherein snap-gauge upper side and adjacent photovoltaic component left frame on the left frame of photovoltaic module Upper junction plate edge downside form first layer sealing, the left frame vertical panel left side of photovoltaic module and adjacent photovoltaic component The sliding block right side of left frame form second layer sealing, the first raised line left side of photovoltaic module left frame and adjacent photovoltaic group The vertical panel right side of part left frame forms third layer sealing, the lower connecting plate edge upper side of photovoltaic module left frame with it is adjacent Snap-gauge downside forms four-layer seal under the left frame of photovoltaic module.

(3) snap-gauge upper side is provided with waterproof adhesive tape on the upper side frame of the utility model photovoltaic component frame, further prevents Sealing penetrates into roofing between adjacent two pieces of photovoltaic modulies up and down.

Detailed description of the invention

Fig. 1: the left frame of the utility model photovoltaic component frame and adjacent left frame connection schematic diagram；

Fig. 2: the left frame schematic diagram of the utility model photovoltaic component frame；

Fig. 3: the upper side frame schematic diagram of the utility model photovoltaic component frame；

Fig. 4: the lower frame schematic diagram of the utility model photovoltaic component frame；

Fig. 5: the adjacent two pieces of photovoltaic module connection schematic diagrams up and down of the utility model photovoltaic component frame.

Description of symbols:

1-upper side frame；2-lower frames；21-fixture blocks；3-left frames；31-sliding slots；4-left frames；41-sliding blocks； 5-upper snap-gauges；6-lower snap-gauges；7-vertical panels；8-upper junction plates；9-lower connecting plates；10-the first raised line；11-card slots； 12-fixing grooves；13-fixation holes；14-the second raised line.

Specific embodiment

Below with reference to Fig. 1 to Fig. 5, the utility model is described further:

As shown in figure 5, a kind of photovoltaic component frame, including upper side frame 1, lower frame 2, left frame 3 and left frame 4, top Frame 1, lower frame 2, left frame 3 and left frame 4 include the upper snap-gauge 5 and lower snap-gauge 6 being parallel to each other, upper snap-gauge 5 and lower snap-gauge It is connected between 6 by vertical panel 7, the top surface of the bottom surface of upper snap-gauge 5 and vertical panel 7, lower snap-gauge 6 is formed for clamping photovoltaic panel Clamp area.

As depicted in figs. 1 and 2, the lower snap-gauge 6 of left frame 3 extends outward to form lower connecting plate 9, the upside of lower connecting plate 9 The first raised line 10 of the lower connecting plate 9 is provided perpendicular on face, between the first raised line 10 and the vertical panel 7 of left frame 3 Second raised line 14 parallel with the first raised line 10, the first raised line 10, lower connecting plate 9 and left frame 3 are additionally provided on lower connecting plate 9 Vertical panel 7 form sliding slot 31, the upper snap-gauge 5 of left frame 4 extends outward to form upper junction plate 8, on the downside of upper junction plate 8 It is provided perpendicular to the sliding block 41 of lower connecting plate 9, left frame 3 can be slidably connected with the left frame 4 of adjacent photovoltaic component, the right Frame 4 can be slidably connected with the left frame 3 of adjacent photovoltaic component.

The periphery cover of upper junction plate 8 is located at 5 top of upper snap-gauge of the left frame 3 of adjacent photovoltaic component, lower connecting plate 9 Edge is located at 6 lower section of lower snap-gauge of the left frame 4 of adjacent photovoltaic component, for preventing water from adjacent two pieces of left and right photovoltaic module Between leak to roofing, the thickness at 9 edge of 8 edge of upper junction plate and lower connecting plate is respectively less than the thickness of upper snap-gauge 5 and lower snap-gauge 6, The upper side of the lower connecting plate 9 in 10 left side of the first raised line is inclined-plane inclined to the left.

As shown in Figure 3 and Figure 4, the upper snap-gauge 5 of upper side frame 1 and lower snap-gauge 6 extend outward to form card slot 11, lower frame 2 Lower snap-gauge 6 upwardly extend and be bent to form the L-shaped fixture block 21 matched with card slot 11 backward, fixture block 21 is fastened on card slot 11 In to prevent in roof slope installation photovoltaic component, lower frame 2 can be stacked at the top of adjacent photovoltaic component upper side frame 1, And it will not slide downwards.

Recess forms fixing groove 12 to the lower snap-gauge 6 of upper side frame 1 upwards, and fixing groove 12 is used to cooperate with roof and fix, top Several fixation holes 13 for fixing with roofing are offered on frame 1, are provided with waterproof adhesive tape on the upside of the upper snap-gauge 5 of upper side frame 1, are used In further preventing water to leak between adjacent two pieces of photovoltaic modulies up and down to roofing.

Illustrative description has been carried out to the utility model above in conjunction with attached drawing, it is clear that the realization of the utility model not by The limitation of aforesaid way, if the method concept of the utility model and the various improvement of technical solution progress are used, or without It improves and the conception and technical scheme of the utility model is directly applied into other occasions, in the protection scope of the utility model It is interior.

Claims (10)

1. a kind of photovoltaic component frame, including upper side frame (1), lower frame (2), left frame (3) and left frame (4), feature exists In: it is provided with mutually matched sliding slot (31) and sliding block (41) on the left frame (3) and the left frame (4), so that described Left frame (3) can be slidably connected with the left frame (4) of adjacent photovoltaic component, and the left frame (4) can be with adjacent photovoltaic group The left frame (3) of part is slidably connected, and the back side of the lower frame (2) is provided with fixture block (21), is provided on the upper side frame (1) The card slot (11) matched with the fixture block (21), the card slot (11) of the fixture block (21) and adjacent photovoltaic component upper side frame (1) It matches, so that the lower frame (2) can be stacked at adjacent photovoltaic component upper side frame in roof slope installation photovoltaic component (1) top, and will not slide downwards.

2. photovoltaic component frame according to claim 1, it is characterised in that: the upper side frame (1), the lower frame (2), institute Stating left frame (3) and the left frame (4) includes the upper snap-gauge (5) and lower snap-gauge (6) being parallel to each other, the upper snap-gauge (5) It is connected between the lower snap-gauge (6) by vertical panel (7), it is the bottom surface of the upper snap-gauge (5) and the vertical panel (7), described The top surface of lower snap-gauge (6) forms the clamp area for clamping photovoltaic panel, and the lower snap-gauge (6) of the left frame (3) extends outwardly shape At lower connecting plate (9), the first raised line of the lower connecting plate (9) is provided perpendicular on the upper side of the lower connecting plate (9) (10), the vertical panel (7) of first raised line (10), the lower connecting plate (9) and the left frame (3) forms the sliding slot (31), the upper snap-gauge (5) of the left frame (4) extends outward to form upper junction plate (8), the downside of the upper junction plate (8) On be provided perpendicular to the sliding blocks (41) of the lower connecting plate (9).

3. photovoltaic component frame according to claim 2, it is characterised in that: first raised line (10) and the left frame (3) second raised line (14) parallel with the first raised line (10) is additionally provided on the lower connecting plate (9) between vertical panel (7).

4. photovoltaic component frame according to claim 3, it is characterised in that: the periphery cover of the upper junction plate (8) is located at phase On the left frame (3) of adjacent photovoltaic module above snap-gauge (5), the edge of the lower connecting plate (9) is located at the right side of adjacent photovoltaic component Under frame (4) below snap-gauge (6), for preventing water from leaking between adjacent two pieces of left and right photovoltaic module to roofing.

5. photovoltaic component frame according to claim 4, it is characterised in that: upper junction plate (8) edge and the lower company The thickness at fishplate bar (9) edge is respectively less than the thickness of the upper snap-gauge (5) and the lower snap-gauge (6).

6. photovoltaic component frame according to claim 5, it is characterised in that: the lower company on the left of first raised line (10) The upper side of fishplate bar (9) is inclined-plane inclined to the left.

7. photovoltaic component frame described in any one of -6 according to claim 1, it is characterised in that: the upper card of the upper side frame (1) Plate (5) and lower snap-gauge (6) extend outward to form the card slot (11), and the lower snap-gauge (6) of the lower frame (2) extends internally simultaneously The L-shaped fixture block (21) to be formed and be matched with the card slot (11) is bent downward, the fixture block (21) is fastened on the card slot (11) to prevent in roof slope installation photovoltaic component in, the photovoltaic module of top is slid downwards.

8. photovoltaic component frame according to claim 7, it is characterised in that: the lower snap-gauge (6) of the upper side frame (1) is concave up It falls into and is formed fixing groove (12), the fixing groove (12) is used to cooperate with roof and fix.

9. photovoltaic component frame according to claim 8, it is characterised in that: offer and be used for and room on the upper side frame (1) The fixed several fixation holes (13) in face.

10. photovoltaic component frame according to claim 9, it is characterised in that: on the upside of the upper snap-gauge (5) of the upper side frame (1) It is provided with waterproof adhesive tape, the waterproof adhesive tape is for preventing water from leaking between adjacent two pieces of photovoltaic modulies up and down to roofing.