CN203896274U - Rainproof frame used for photoelectric assembly - Google Patents

Abstract

The utility model discloses a rainproof frame used for a photoelectric assembly. The rainproof frame is composed of a group of rectangular frames fitting the photovoltaic assembly in size and composed of an upper frame, a lower frame, a left frame and a right frame that are connected together fixedly. The outer side of the upper frame is provided with an upward groove. The outer side of the lower frame is provided with a downward groove. The outer side of the left frame is provided with a downward groove. The outer side of the right frame is provided with an upward groove. The upper rectangular frame is connected with the lower rectangular frame by buckling groove frames of the upper frame and the lower frame together. The left rectangular frame is connected with the right rectangular frame by buckling groove frames of the left frame and the right frame together. By adopting the frame structure provided by the utility model, integral plane connection of the photovoltaic assembly can be realized. The frame structure provided by the utility model can replace a metal board structure or a tile structure and the frame can serve for roof building. Therefore, building integrated photovoltaics can be achieved. Besides, the rainproof frame is low in mounting cost and high in structural strength, and realizes the aim of being waterproof.

Description

A kind of photovoltaic component frame that can be rainproof

Technical field

The utility model belongs to photovoltaic module Blast Furnace Top Gas Recovery Turbine Unit (TRT) field, is specifically related to a kind of photovoltaic component frame that can be rainproof.

Background technology

Distributed photovoltaic is an important applied field of photovoltaic generation, and distributed photovoltaic power generation is mainly to generate electricity on the spot to use on the spot, and photovoltaic generation relies on electricity consumption building and builds.BIPV is a kind of form of distributed photovoltaic power generation, and it combines photovoltaic module with building, and photovoltaic module can rationally be applied as building materials.The desired site of photovoltaic module and Integration of building is roofing, conventionally has color steel metal Roof and watt two kinds of forms of roofing processed.At present photovoltaic module be combined the often form of employing fixture with color steel metal Roof, by fixture, purlin is fixed on metallic plate, and installation component on purlin, photovoltaic module can not replace color steel building materials, and installs loaded down with trivial details.Photovoltaic module and watt roofing processed are combined with three kinds of forms: the first be adopt roofing hook from watt in the form of stretching out, structure and install loaded down with trivial details and can not replace building materials; The second is the form of photovoltaic tile, at the middle preformed hole of resin tile, and the middle photovoltaic generation chip of installing, this form can replace building materials, but because the little product cost that causes of monomer tile generated output is too high; The third form is by aluminium frame, to be changed and added connector to realize and connecting and waterproof, left and right side frame snapping, and upper and lower inter-module connects by connector, installs loaded down with trivial details and connector is larger to structural strength and security implication, and assembly plane and monolithic devices are poor.

Summary of the invention

The utility model is installed the problems such as loaded down with trivial details, installation cost is high, structural strength is poor and globality is poor for photovoltaic module in prior art and Integration of building, a kind of photovoltaic component frame structure convenient, easy construction of installing is provided, can make photovoltaic module really as roofing materials, use, can reach the object that replaces roof metallic plate and tile, the building materials in roof own have been saved, save photovoltaic bracket and fixture, solved roof water-proof problem simultaneously, can really realize BIPV.

In order to achieve the above object, the technical solution adopted in the utility model is:

A kind of photovoltaic component frame that can be rainproof, by one group of upper side frame, lower frame, left frame and left frame adaptive with photovoltaic module size, being fixedly connected with the rectangular frame forming forms, there is groove upwards in wherein said upper side frame outside, there is downward groove in lower frame outside, there is downward groove in left frame outside, and there is groove upwards in left frame outside.Groove frame hasp by upper and lower frame between upper and lower two groups of rectangular frames is connected, and the groove hasp by left and right frame between the rectangular frame of two groups of left and right is connected.

Wherein, groove outer end is connected with bolt fixing hole outside described upper side frame, for module frame and building are fixed.

Wherein, when the groove hasp by left and right frame between the rectangular frame of two groups of described left and right is connected, the groove of left frame leaves a fixed gap, forms guiding gutter.The two ends up and down of described left frame and the two ends up and down of left frame are equipped with breach, to coordinate up and down, form whole guiding gutter.

Wherein, described photovoltaic component frame is such as but not limited to aluminum alloy material.

The integral planar that border structure of the present utility model can be realized photovoltaic module connects, and alternative metallic plate or tile structure are used as roofing materials, have realized real BIPV.And installation cost is low, structural strength is high, reached the object of waterproof.

Accompanying drawing explanation

Fig. 1 is the basic structure schematic diagram of the utility model photovoltaic module assembling;

Fig. 2 is the basic structure schematic diagram of the utility model monoblock battery edges of boards frame;

Fig. 3 is the cutaway view that upper and lower two cell panels of the utility model tilt to install;

Fig. 4 is the utility model upper side frame cross-sectional view;

Fig. 5 is the utility model lower frame cross-sectional view;

Fig. 6 is the cross-sectional view that is clasped of the utility model upper and lower side frame;

Fig. 7 is the utility model left frame cross-sectional view;

Fig. 8 is the utility model left frame cross-sectional view;

Fig. 9 is the cross-sectional view that is clasped of the utility model left and right side frame;

Figure 10 is overall structure and the generalized section of the utility model upper side frame;

Figure 11 is overall structure and the generalized section of the utility model lower frame;

Figure 12 a-d is integral body and the partial structurtes enlarged diagram of the utility model left frame;

Figure 13 a-d is integral body and the partial structurtes enlarged diagram of the utility model left frame;

Figure 14 a-i is that each frame after the utility model has assembled coordinates node schematic diagram.

Embodiment

Six photovoltaic module installation effect schematic diagrames of the utility model as shown in Figure 1, have assembled rear each cell panel in same plane, and of a tightly knit structure, frame contact portion tight.Upper side frame 11, lower frame 12, left frame 13 and the left frame 14 adaptive with photovoltaic module size are fixedly connected into rectangular frame 1, each scuncheon has respectively draw-in groove that can installation photovoltaic component, between the two groups of rectangular frames in left and right, by the mutual hasp of left and right frame, be connected, between upper and lower two groups of rectangular frames, by the mutual hasp of upper and lower side frame, be connected.

As shown in Figure 2, upper side frame 11 tops are with bolt fixing hole 100 for the basic structure schematic diagram of the utility model monoblock battery edges of boards frame, and there is water guide bar 101 on left frame right side.

The cutaway view that upper and lower two frames tilt to install as shown in Figure 3, interlocks with ground cell panel upper and lower side frame at an angle, forms and connects, and upper and lower cell panel is in a plane.

Upper and lower side frame profile and the generalized section while being clasped are as Figure 4-Figure 6.As shown in Figure 4, the lower end of upper side frame 11 is the draw-in groove 21 of installation photovoltaic component 10, upper end be self tapping from auger shell bolt fixing hole 100, there is the draw-in groove 31 of opening upwards centre, draw-in groove 31 is with downward hook 41.As shown in Figure 5, the upper end of lower frame 12 is the draw-in groove 22 of installation photovoltaic component 10, and lower end is the draw-in groove 32 that Open Side Down, and draw-in groove is with the hook 42 making progress, and has the rain visor 200 of giving prominence to outside draw-in groove.As shown in Figure 6, when the upper side frame 11 of upper row's rectangle frame and 12 assembling of the lower frame of lower row's rectangle frame, the downward draw-in groove 32 of the draw-in groove 31 that lower row's rectangle frame upper side frame 11 makes progress and upper row's rectangle frame lower frame 12 interlocks, the downward hook 41 of upper side frame draw-in groove hooks mutually with the hook 42 that lower frame draw-in groove makes progress, the bolt fixing hole 100 of lower row's rectangle frame upper side frame is fixed on building by total, the draw-in groove 22 of the draw-in groove 21 of lower row's rectangle frame upper side frame other end and upper another section of row's rectangle frame lower frame is the fixing photovoltaic module 10 of two rows respectively, the outer outstanding rain visor 200 of upper row's rectangle frame lower frame draw-in groove has played the effect that prevents lower row's rectangle frame upper side frame and the water inlet of connected component internal thereof.

Left and right side frame profile and the generalized section while being clasped are as Figure 7-9.As shown in Figure 7, the draw-in groove 23 that left frame 13 right sides are installation photovoltaic component, left side is the draw-in groove 33 that Open Side Down, draw-in groove is with downward hook 43.As shown in Figure 8, the draw-in groove 24 that the left side of left frame 14 is installation photovoltaic component, the draw-in groove 34 that right side is opening upwards, draw-in groove is with the hook 44 making progress, and draw-in groove below is water guide bar 101.As shown in Figure 9, when the left frame 13 of right row's rectangle frame and 14 assembling of the left frame of left bank rectangle frame, the downward draw-in groove 33 of right row's rectangle frame left frame 13 interlocks with the draw-in groove 34 that left bank rectangle frame left frame 14 makes progress, and the downward hook 43 of left frame 13 draw-in grooves hooks mutually with the hook 44 that left frame 14 draw-in grooves make progress.The length of hook 43 is less than the length of hook 44, makes the formation space, lower end 101 of left frame draw-in groove 34, and this space forms the water guide bar of rainwater, is used for discharging the rainwater of falling assembly surface.

As shown in figure 10, the overall structure of lower frame and generalized section are as shown in figure 11 for the overall structure of upper side frame and generalized section.

The integral body of the utility model left frame and partial structurtes enlarged diagram are as shown in Figure 12 a-d.Figure 12 a is integral body and the generalized section of left frame, Figure 12 b is the profile of left frame, similar to Fig. 7, Figure 12 c is the upper end-face edge partial enlarged drawing of left frame, edge jagged 53, be to cooperatively interact for the lower frame of the left frame with left bank rectangular shaped rim, upper row's rectangular shaped rim and the upper side frame of this group rectangular shaped rim, form whole water guide bar structure.Figure 12 d is the partial enlarged drawing of left frame lower edge, same jagged 63, role is similar to left frame upper end-face edge breach 53, cooperatively interacts with the lower frame of the left frame of left bank rectangular shaped rim, the upper side frame of lower row's rectangular shaped rim and this group rectangular shaped rim, forms whole water guide bar structure.

The integral body of the utility model left frame and partial structurtes enlarged diagram are as shown in Figure 13 a-d.Figure 13 a is integral body and the generalized section of left frame, Figure 13 b is the profile of left frame, similar to Fig. 8, Figure 13 c is the upper end-face edge partial enlarged drawing of left frame, edge jagged 54, be to cooperatively interact for the lower frame of the left frame with right row's rectangular shaped rim, upper row's rectangular shaped rim and the upper side frame of this group rectangular shaped rim, form whole water guide bar structure.Figure 13 d is the partial enlarged drawing of left frame lower edge, same jagged 64, role is similar to left frame upper end-face edge breach 54, cooperatively interacts with the lower frame of the left frame of right row's rectangular shaped rim, the upper side frame of lower row's rectangular shaped rim and this group rectangular shaped rim, forms whole water guide bar structure.

Figure 14 a-i is that each frame after having assembled coordinates node schematic diagram.Figure 14 a is node on left frame, Figure 14 b is the upper and lower cooperation place of left frame node, Figure 14 c is left frame lower node, Figure 14 d is the upper node that left bank assembly left frame and right row's assembly left frame interlock, Figure 14 e is that four block assemblies coordinate intermediate node, and Figure 14 f is the lower node that left bank assembly left frame and right row's assembly left frame interlock, and Figure 14 g is node on left frame, Figure 14 h is the upper and lower cooperation place of left frame node, and Figure 14 i is left frame lower node.

Figure 14 a-i in conjunction with integral body six block assemblies that form as shown in Figure 1.Assembled rear photovoltaic module in same plane, and of a tightly knit structure, frame contact portion tight.The alternative metallic plate of this structure or tile structure, used as roofing materials, thereby realize real BIPV.And installation cost is low, structural strength is high, reached the object of waterproof.

The above is preferred embodiment of the present utility model; the not restriction to technical solutions of the utility model; in the situation that not deviating from the utility model spirit and essence thereof; those of ordinary skill in the art are when making various corresponding changes and distortion according to the utility model, but these corresponding changes and distortion all should belong to the protection range of the appended claim of the utility model.

Claims (4)

1. One kind can be rainproof photovoltaic component frame, by one group of upper side frame, lower frame, left frame and left frame adaptive with photovoltaic module size, being fixedly connected with the rectangular frame forming forms, there is groove upwards in wherein said upper side frame outside, there is downward groove in lower frame outside, there is downward groove in left frame outside, there is groove upwards in left frame outside, it is characterized in that, groove hasp by upper and lower frame between upper and lower two groups of rectangular frames is connected, and the groove hasp by left and right frame between the rectangular frame of two groups of left and right is connected.
2. 2. photovoltaic component frame that can be rainproof as claimed in claim 1, is characterized in that, groove outer end is connected with bolt fixing hole outside described upper side frame.
3. 3. photovoltaic component frame that can be rainproof as claimed in claim 1, is characterized in that, when the groove hasp by left and right frame between the rectangular frame of two groups of described left and right is connected, the groove of left frame leaves a fixed gap, forms guiding gutter.
4. 4. photovoltaic component frame that can be rainproof as claimed in claim 3, is characterized in that, the two ends up and down of described left frame and the two ends up and down of left frame are equipped with breach, to coordinate up and down, forms whole guiding gutter.