CN208918151U - A kind of sink connector, Photovoltaic Building Integration discharge structure and photovoltaic building - Google Patents

A kind of sink connector, Photovoltaic Building Integration discharge structure and photovoltaic building Download PDF

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Publication number
CN208918151U
CN208918151U CN201821631425.2U CN201821631425U CN208918151U CN 208918151 U CN208918151 U CN 208918151U CN 201821631425 U CN201821631425 U CN 201821631425U CN 208918151 U CN208918151 U CN 208918151U
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China
Prior art keywords
sink
groove portion
dewatering
photovoltaic building
photovoltaic
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Active
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CN201821631425.2U
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Chinese (zh)
Inventor
宋明玉
梅晓东
吴国欧
张超
周申
徐双正
徐长火
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Sungrow Renewables Development Co Ltd
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Sungrow Power Supply Co Ltd
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Priority to CN201821631425.2U priority Critical patent/CN208918151U/en
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Abstract

The utility model relates to a kind of sink connector, Photovoltaic Building Integration discharge structure and photovoltaic buildings, the sink connector includes external groove portion and inscribed groove portion, the flow channels being connected to are formed between external groove portion and inscribed groove portion, external groove portion is used to be cooperatively connected on the outside of the end sink A with sink A, inscribed groove portion is used to be cooperatively connected from sink B tip inside and sink B, and flow channels are for sink A to be connected with sink B;Utilize above-mentioned sink connector connection water channel A and sink B, it only need to be mating with sink A and sink B respectively by sink connector, without welding, drilling or gluing, it is not high for construction personnel's level requirement, the not influence vulnerable to construction personnel's level of sink joint waterproof performance, and installation is easy to operate, helps to mitigate construction personnel's working strength, it is time-consuming to shorten construction, improves working efficiency.

Description

A kind of sink connector, Photovoltaic Building Integration discharge structure and photovoltaic building
Technical field
The utility model relates to photovoltaic building technical field, in particular to a kind of sink connector, Photovoltaic Building Integration Discharge structure and photovoltaic building.
Background technique
When photovoltaic building roofing length is longer, longitudinal sink length in discharge structure will also lengthen accordingly, if vertical Integral structure is used to sink, then longitudinal gutter members are larger, are not easy to production, transport and installation, therefore generally use more The mode of a longitudinal direction sink splicing meets length requirement.
Currently, longitudinal sink splices mainly by way of installation of welding or drill, above-mentioned connecting method is for construction The level of personnel has higher requirements, and waterproof performance is easy to be influenced by construction personnel's level, it is difficult to guarantee, and great work intensity, Time-consuming.
Utility model content
It is assembled convenient for sink in order to reach the influence for making sink waterproof performance from construction personnel's level, it is strong to reduce work Degree shortens time-consuming purpose, and the utility model discloses a kind of sink connectors, comprising:
External groove portion and inscribed groove portion, form the flow channels being connected between the external groove portion and the inscribed groove portion, The external groove portion is used to be cooperatively connected on the outside of the end sink A with the sink A, and the inscribed groove portion is used for from the end sink B It is cooperatively connected on the inside of portion with the sink B, the flow channels are for the sink A to be connected with the sink B.
Preferably, be provided on the inside of the joint of the external groove portion and the inscribed groove portion for the sink A End face contact first abut sealing station terrace, be provided with for being supported with the end face of the sink B on the outside of joint Connect cooperation second abuts sealing station terrace.
Preferably, transition slope surface, the transition are provided on the inside of the external groove portion and the inscribed groove portion joint The bottom of slope of slope surface abuts sealing station terrace with described first and connects.
Preferably, the external groove portion is used on the wall surface that contacts be provided with a plurality of clamping fin with the sink A, and/ Or, being provided with a plurality of clamping fin on the wall surface that the inscribed groove portion is used to contact with the sink B.
A kind of Photovoltaic Building Integration discharge structure, comprising:
Dewatering stand, the two sides of the dewatering stand are formed with the support platform for being used to support photovoltaic module, described in two Recessed rhone is formed between support platform, one rhone in the two neighboring dewatering stand is sink A, separately One rhone is sink B;
Sink connector described in any one as above, the two neighboring dewatering stand pass through the sink connector pair Connect conducting.
It preferably, further include limit pressing plate, the limit pressing plate is respectively with two dewatering stand cooperations so that two The dewatering stand holds out against the sink connector after the limit pressing plate and two dewatering stand cooperations to just.
Preferably, the dewatering stand two sides are respectively arranged with limit card board, and the two sides of the limit pressing plate are respectively set Have a limit card slot, the limit card slot on the limit pressing plate cooperate respectively with the limit card board on two dewatering stands so that Two dewatering stands are to just.
Preferably, the limit pressing plate lock onto the dewatering stand by the first threaded fastener
, first threaded fastener includes clamping screw and locking nut, and the clamping screw passes through the limit The two sidewalls of card slot and the locking nut cooperate so that the limit card slot clamps the limit card board.
Preferably, the dewatering stand is connected to photovoltaic building roofing by the second threaded fastener
, the at L-shaped snap-gauge of dewatering stand two sides shape, second threaded fastener includes that installation bolt and C-shaped are buckled Plate, the C-shaped buckle and the L shape snap-gauge snapping, the installation bolt pass through the C-shaped buckle and the photovoltaic building roofing The dewatering stand is fixed on the photovoltaic building roofing by cooperation.
Preferably, the dewatering stand includes bottom plate, two support platforms, two interior cant boards and two outsides With the rhone is encircled into, two outer cant boards are located at institute for vertical plate, two interior cant boards and the bottom plate The two sides of rhone are stated, the support platform is across the interior cant board and the outer cant board of described rhone the same side Top, formed between the interior cant board and the outer cant board for the cooperation of the external groove portion of the sink connector Card slot is installed.
Preferably, further include mounting structure for installation photovoltaic component, the mounting structure includes top board and Three threaded fasteners, the third threaded fastener pass through the top board and are connect with the dewatering stand so that the support is flat Platform cooperates with the top board clamps photovoltaic module.
It preferably, further include lower platen, two support platforms extend to form claw to the rhone inside respectively, The two sides of the lower platen are engaged in the lower section of two claws and two claws respectively, and the third screw thread is tight Firmware connect with the lower platen across the top board lower platen being connected to the dewatering stand.
A kind of photovoltaic building, comprising:
Building body;
Photovoltaic module;
Photovoltaic Building Integration discharge structure described in any one as above, the photovoltaic module pass through the photovoltaic building Integrated discharge structure is installed on the roofing of the building body.
As can be seen from the above technical solutions, the sink connector disclosed in the utility model, including external groove portion with Inscribed groove portion, forms the flow channels being connected between external groove portion and inscribed groove portion, external groove portion is used on the outside of the end sink A It is cooperatively connected with sink A, groove portion is inscribed and is used to be cooperatively connected from sink B tip inside and sink B, flow channels are used for sink A is connected with sink B;
In use, sink connector is preferably able to apply between the sink A and sink B with certain drop, i.e. water Slot A is located at the upstream of sink B, and such sink A is overlapped in sink connector, and sink connector is overlapped in sink B, to play anti- The effect of water;
In conclusion using above-mentioned sink connector connection water channel A and sink B, only need to by sink connector respectively with water Slot A and sink B are mating, and without welding, drilling or gluing, not high for construction personnel's level requirement, sink is connect The waterproof performance not influence vulnerable to construction personnel's level at conjunction, and installation is easy to operate, helps to mitigate construction personnel's work by force Degree shortens construction time-consuming, improves working efficiency.
Based on above-mentioned sink connector, the utility model additionally provides a kind of Photovoltaic Building Integration discharge structure and has The photovoltaic building of the Photovoltaic Building Integration discharge structure, since the Photovoltaic Building Integration discharge structure uses as described above Sink connector, therefore Photovoltaic Building Integration discharge structure and photovoltaic building have both the beneficial effect of above-mentioned sink connector Fruit, details are not described herein.
Detailed description of the invention
In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, it is also possible to obtain other drawings based on these drawings.
Fig. 1 is sink connector disclosed in an embodiment of the present invention and sink package assembly axonometric drawing;
Fig. 2 is sink connector disclosed in an embodiment of the present invention and sink package assembly explosive view;
Fig. 3 is the axonometric drawing of sink connector disclosed in an embodiment of the present invention;
Fig. 4 is Photovoltaic Building Integration discharge structure axonometric drawing disclosed in an embodiment of the present invention;
Fig. 5 is Photovoltaic Building Integration discharge structure dewatering stand junction disclosed in an embodiment of the present invention Explosive view;
Fig. 6 is the axonometric drawing of limit pressing plate disclosed in an embodiment of the present invention;
Fig. 7 is the main view of Photovoltaic Building Integration discharge structure disclosed in an embodiment of the present invention;
Fig. 8 is the main view of dewatering stand disclosed in an embodiment of the present invention;
Fig. 9 is the axonometric drawing of mounting structure disclosed in an embodiment of the present invention.
Wherein:
1 is sink connector;101 be external groove portion;102 be inscribed groove portion;103 abut sealing station terrace for second;104 For transition slope surface;105 be clamping fin;106 abut sealing station terrace for first;
2 be sink A;3 be sink B;
4 be dewatering stand;401 be support platform;402 be bottom plate;403 be rhone;404 be interior cant board;405 be outer Cant board;406 be L shape snap-gauge;407 be retention bead;
5 be photovoltaic module;
6 be limit pressing plate;601 be limit card slot;
7 be mounting structure;701 be top board;702 be third threaded fastener;703 be lower platen;704 is recessed to limit Slot;
8 be the first threaded fastener.
Specific embodiment
One of core of the utility model is to provide a kind of sink connector, makes sink waterproof performance from construction to reach The influence of proficiency, it is assembled convenient for sink, working strength is reduced, time-consuming purpose is shortened.
Another core of the utility model is to provide a kind of Photovoltaic Building Integration draining based on above-mentioned sink connector Structure and photovoltaic building.
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.
Fig. 1-Fig. 3 is please referred to, Fig. 1 is sink connector disclosed in an embodiment of the present invention and sink package assembly Axonometric drawing, Fig. 2 are sink connector disclosed in an embodiment of the present invention and sink package assembly explosive view, and Fig. 3 is this The axonometric drawing of sink connector disclosed in utility model embodiment.
A kind of sink connector 1 is disclosed in the utility model embodiment, the water to be connect with it of sink connector 1 Groove shape is roughly the same, including the biggish external groove portion 101 of relative size and the lesser inscribed groove portion 102 of relative size, external The flow channels being connected to are formed between groove portion 101 and inscribed groove portion 102, which extends from one end of sink connector 1 To the other end, external groove portion 101 is used to be cooperatively connected on the outside of the end sink A2 with sink A2, and groove portion 102 is inscribed and is used for from water Slot B3 tip inside and sink B3 are cooperatively connected, and flow channels are for sink A2 to be connected with sink B3.
It should be noted that in use, sink connector 1 be preferably able to the sink A2 applied with certain drop with Between sink B3, i.e. sink A2 is located at the upstream of sink B3, and such sink A2 is overlapped in sink connector 1, and sink connector 1 is taken It is connected to sink B3, to play the effect of waterproof.
As can be seen that compared with prior art, the sink connector 1 disclosed in above-described embodiment only need when in use by Sink connector 1 is mating with sink A2 and sink B3 respectively, without welding, drilling or gluing, for constructor Member's level requirement is not high, the not influence vulnerable to construction personnel's level of sink joint waterproof performance, and installation is easy to operate, helps In mitigating construction personnel's working strength, shortens construction time-consuming, improve working efficiency.
It preferably, is the waterproof effect for improving sink connector 1 and sink seam crossing, as shown in Figures 2 and 3, outside It is provided on the inside of access slot portion 101 and the joint of inscribed groove portion 102 for being supported with the end face of sink A2 contacts first Connect sealing station terrace 106, be provided on the outside of joint for the end face of sink B3 contacts second abuts sealing station Terrace 103, first abut sealing station terrace 106 and second abut sealing station terrace 103 be smooth plane, with sink End face is fitted close, and avoids the occurrence of gap, improves waterproof effect.
First abutting sealing station terrace 106 and the second abutting sealing station terrace 103 can open up direction with flow channels Vertically, it can also be opened up with flow channels between direction as the angle less than 90 °, corresponding, sink A2 and sink The end face of B3, which is also respectively adopted, abuts sealing station terrace 106 and the second abutting identical angle of sealing station terrace 103 with first Setting.
The external groove portion 101 of the end sink A2 insertion screw clamp connector 1 when in use, water flow to sink from sink A2 and connect Fitting 1, to avoid forming manger step between sink A2 and sink connector 1, in the utility model embodiment, first is abutted The width of sealing station terrace 106 be no more than sink A2 wall thickness, it is such first abut sealing station terrace 106 on along in sink A2 Wall surface flush or below sink A2 inner wall, to enable water to smoothly flow to sink connector 1 from sink A2.
Above-mentioned technical proposal is advanced optimized, to enable external groove portion 101 and the inner sidewall of inscribed groove portion 102 smoothly to connect It connects, passes through convenient for water flow, be provided with transition slope surface 104, transition slope on the inside of external groove portion 101 and inscribed 102 joint of groove portion The bottom of slope in face 104 abuts sealing station terrace 106 with first and connects.
It is understood that being grafting between sink connector 1 and sink, to guarantee the steady of sink connector 1 and sink It is solidly connected, is usually to be interference fitted between sink connector 1 and sink, if sink connector 1 and the entire contact surface of sink mistake It is full of cooperation, then resistance is larger in assembly, more arduously, for this purpose, preferably, external groove portion 101 with sink A2 for connecing A plurality of clamping fin 105 is provided on the wall surface of touching, and/or, it is arranged on the wall surface that inscribed groove portion 102 is used to contact with sink B3 There is a plurality of clamping fin 105.
Above-mentioned technical proposal is advanced optimized, as shown in Fig. 2, being provided on sink A2 for cooperating with external groove portion 101 Slot, external groove portion 101 two sides stress when cooperating with sink A2, therefore resistance suffered by external groove portion 101 is maximum, does not allow most It is easily assembled in place, above-mentioned clamping fin 105 is only arranged on the outer surface of external groove portion 101 thus, and is clamped the length of fin 105 It is identical as assembly direction to spend direction, in this way, neither influencing between external groove portion 101 and sink A2 and inscribed groove portion 102 and water Close contact between slot B3, and assembly resistance can be reduced.
Preferably, in the settable guiding surface in front end of clamping fin 105, in order to which external groove portion 101 is inserted into water The slot of slot A2.
Based on above-mentioned sink connector 1, the utility model embodiment additionally provides a kind of Photovoltaic Building Integration draining knot Structure, referring to Fig. 4, Fig. 4 is Photovoltaic Building Integration discharge structure axonometric drawing disclosed in an embodiment of the present invention, the row Water-bound includes sink connector 1 described in dewatering stand 4 and any embodiment as above, wherein the two sides shape of dewatering stand 4 At there is the support platform for being used to support photovoltaic module 5 401, recessed rhone 403 is formed between two support platforms 401, One rhone in two neighboring dewatering stand 4 is sink A, another rhone is sink B, two neighboring draining branch Frame 4 passes through the flow channels of sink connector 1 by the docking conducting of sink connector 1, the rhone 403 of two dewatering stands 4 Conducting.
Transition connection only can be realized by sink connector 1 between two dewatering stands 4, but this is to sink connector 1 Intensity, length propose higher requirement, and the cost of manufacture of sink connector 1 is caused to increase, and assembly difficulty increases, and if two Occurs installation deviation between a dewatering stand 4, two dewatering stands 4 can apply pressure to sink connector 1, be easy to cause sink Connector 1 or two dewatering stands 4 deform, to make to form gap between sink connector 1 and dewatering stand 4, influence waterproof Effect, to avoid the above problem, above-mentioned Photovoltaic Building Integration discharge structure further includes limit pressing plate 6, limit pressing plate 6 respectively with Two dewatering stands 4 cooperate so that two dewatering stands 4 to just, cooperated respectively with two dewatering stands 4 using limit pressing plate 6 with The rigging error between two dewatering stands 4 is eliminated, limit pressing plate 6 is avoided to be deformed by the extruding of two dewatering stands 4.
Integral structure can be used in above-mentioned limit pressing plate 6, can also adopt a split structure, and both can be set in draining branch The bottom of frame 4 also can be set in the side or top of dewatering stand 4.
Above-mentioned technical proposal is advanced optimized, guiding pair is carried out to two dewatering stands 4 due to using limit pressing plate 6 Just, therefore, the length of sink connector 1 can suitably shorten, in this case, to guarantee that sink connector 1 still can With 4 secure fit of dewatering stand, can make to hold out against sink connector 1 after limiting pressing plate 6 and two cooperations of dewatering stands 4, to be Sink connector 1 provides support, prevents its loosening, guarantees drainage effect.
Limit pressing plate 6 can be used various ways and be connected to dewatering stand 4, to avoid on the rhone 403 of dewatering stand 4 Aperture limits the mode between pressing plate 6 and dewatering stand 4 preferably with clamping and connects, for example, can in 4 two sides of dewatering stand and It limits and limit card board is set at one in the two sides of pressing plate 6, it is another in the two sides of 4 two sides of dewatering stand and limit pressing plate 6 Place's setting limit card slot 601, limit card slot 601 cooperate respectively with limit card board so that two dewatering stands 4 are to just, such as Fig. 5 institute Show, pass through above structure, it is only necessary to arrange two limit pressing plate 6 with mating can be realized of two dewatering stands 4 respectively Water bracket 4 to just, it is easy to operate.
Specifically, as shown in fig. 6, Fig. 6 gives a kind of specific embodiment of limit pressing plate 6, which includes Body panel, body panel two sides bend inwards to be formed, and the flanging of formation and body panel surround limit card slot 601, and two The opening of limit card slot 601 is oppositely arranged.
Dewatering stand 4 is only fixed on for pressing plate 6 is limited by the cooperation of limit card slot 601 and limit card board, limits pressing plate 6 It is easy to slide along dewatering stand 4, for this purpose, limit pressing plate 6 lock onto dewatering stand 4, the first screw thread by the first threaded fastener 8 Fastener 8 can directly through on dewatering stand 4 limit card board and limit pressing plate 6 by limit pressing plate 6 be fixed on draining branch Frame 4 can also extend only through the two sidewalls of the limit card slot 601 of limit pressing plate 6, and the two sidewalls of limit card slot 601 is made to clamp limit Snap-gauge realizes regulation.
Specifically, as shown in figure 5, the first threaded fastener 8 includes clamping screw and locking nut, clamping screw is passed through The two sidewalls of limit card slot 601 and locking nut cooperate so that limit card slot 601 clamps limit card board.
Above-mentioned technical proposal is advanced optimized, the first threaded fastener 8 is located at the limiting card of two 4 the same sides of dewatering stand Between plate, in this way, the first threaded fastener 8 can either make limit card slot 601 clamp limit card board, while it can also prevent to limit Pressing plate 6 is slided relative to dewatering stand 4.
To realize the firm support to photovoltaic module 5, dewatering stand 4 must be mounted to photovoltaic building roofing, practical at this In new embodiment, dewatering stand 4 is connected to photovoltaic building roofing by the second threaded fastener.
Specifically, the second threaded fastener includes stay bolt, and stay bolt passes through support platform 401 and matches with photovoltaic building roofing It closing and dewatering stand 4 is fixed on photovoltaic building roofing, there are two support platforms 401 for the tool of dewatering stand 4, then during installation, draining Bracket 4 can be fixed from two sides, it is to be understood that arrange photovoltaic module 5 is fixed on above-mentioned Photovoltaic Building Integration When water-bound, the stress point of Photovoltaic Building Integration discharge structure is typically in medium position, passes through branch by two stay bolts Support platform 401 is fixed dewatering stand 4 from two sides, and three stress points of dewatering stand 4 can be made to form triangular structure, It is more stable.
Certain dewatering stand 4 can also use other fixed forms, for example, in some embodiments, 4 liang of dewatering stand Side forms mounting plate, and the second threaded fastener includes installation bolt, and installation bolt passes through mounting plate and photovoltaic building roofing cooperates Dewatering stand 4 is fixed on photovoltaic building roofing.
In further embodiments, as shown in Figure 7 and Figure 8, the at L-shaped snap-gauge 406 of 4 two sides shape of dewatering stand, the second screw thread Fastener includes installation bolt and C-shaped buckle, and C-shaped buckle and 406 snapping of L shape snap-gauge, installation bolt pass through C-shaped buckle and light Dewatering stand 4 is fixed on photovoltaic building roofing by volt building roof cooperation.
It should be noted that several fixed forms above-mentioned are preferred implementation provided by the embodiment of the utility model Scheme is actually not limited thereto, and those skilled in the art can be to the fixed knot between dewatering stand 4 and photovoltaic building roofing Structure is adjusted, it is not limited here.
Preferably, as shown in figure 8, dewatering stand 4 includes edge-on in the support platform 401, two of bottom plate 402, two Plate 404 and two outer cant boards 405, for two interior cant boards 404 with bottom plate 402 with rhone 403 is encircled into, two outer edge-on Plate 405 is located at the two sides of rhone 403, support platform 401 be across the interior cant board 404 of 403 the same side of rhone with The top of outer cant board 405 is formed between interior cant board 404 and outer cant board 405 for the external groove portion with sink connector 1 The installation card slot of 101 cooperations can either provide installation card by above structure for the cooperation of dewatering stand 4 and external groove portion 101 Slot, and firm support can be provided for support platform 401.
Above-mentioned mounting plate and L shape snap-gauge 406 can be extended to form from the bottom end of outer cant board 405 to two sides, certainly, It can also extend from bottom plate 402 to two sides and constitute.
Above-mentioned technical proposal is advanced optimized, in the utility model embodiment, limit card board and above-mentioned L shape snap-gauge 406 or mounting plate be structure as a whole.
Preferably, Photovoltaic Building Integration discharge structure further includes the mounting structure 7 for installation photovoltaic component 5, As shown in fig. 7, mounting structure 7 includes top board 701 and third threaded fastener 702, third threaded fastener 702 passes through upper Pressing plate 701 is connect with dewatering stand 4 so that support platform 401 and top board 701 cooperate clamps photovoltaic module 5, dewatering stand 4 The upper settable fit structure for cooperating with third threaded fastener 702, the fit structure can be integrated with dewatering stand 4 Structure, or split type structure.
Above-mentioned technical proposal is advanced optimized, fit structure includes lower platen 703, and two support platforms 401 are respectively to row Claw is extended to form on the inside of sink 403, the two sides of lower platen 703 are contacted in the lower section of two claws with two claws respectively matches It closing, third threaded fastener 702 connect with lower platen 703 across top board 701 lower platen 703 being connected to dewatering stand 4, on Fit structure is stated, smaller for the occupancy of rhone 403, the influence for 403 drainability of rhone is smaller.
Please refer to Fig. 8 and Fig. 9, for guarantee claw and lower platen 703 secure fit, in the utility model embodiment, It is formed with retention bead 407 on one in claw and lower platen 703, is formed with limiting groove 704, retention bead on another 407 limit lower platen 703 with the cooperation of limiting groove 704, to limit lower platen 703, prevent from installing or tearing open During unloading, lower platen 703 is rotated relative to dewatering stand 4.
Based on above-mentioned Photovoltaic Building Integration discharge structure, the utility model embodiment additionally provides a kind of photovoltaic building, Including Photovoltaic Building Integration discharge structure described in building body, photovoltaic module 5 and any one as above, photovoltaic module 5 The roofing of building body is installed on by Photovoltaic Building Integration discharge structure, since the photovoltaic building uses above-described embodiment Middle Photovoltaic Building Integration discharge structure, therefore the beneficial effect of photovoltaic building please refers to above-described embodiment.
Each embodiment in this specification is described in a progressive manner, the highlights of each of the examples are with other The difference of embodiment, the same or similar parts in each embodiment may refer to each other.
The foregoing description of the disclosed embodiments can be realized professional and technical personnel in the field or using originally practical new Type.Various modifications to these embodiments will be readily apparent to those skilled in the art, and determine herein The General Principle of justice can be realized in other embodiments without departing from the spirit or scope of the present utility model.Cause This, the present invention will not be limited to the embodiments shown herein, and is to fit to and principles disclosed herein The widest scope consistent with features of novelty.

Claims (13)

1. a kind of sink connector, which is characterized in that including external groove portion and inscribed groove portion, the external groove portion is inscribed with described The flow channels of connection are formed between groove portion, the external groove portion is used on the outside of the end sink A connect with sink A cooperation It connects, the inscribed groove portion is used to be cooperatively connected from sink B tip inside and the sink B, and the flow channels are used for will be described Sink A is connected with the sink B.
2. sink connector according to claim 1, which is characterized in that the phase of the external groove portion and the inscribed groove portion Be provided on the inside of the place of connecing for the end face of the sink A contacts first abuts sealing station terrace, joint it is outer Side be provided with for the end face of the sink B contacts second abuts sealing station terrace.
3. sink connector according to claim 2, which is characterized in that the external groove portion connects with the inscribed groove portion Transition slope surface is provided on the inside of place, the bottom of slope of the transition slope surface abuts sealing station terrace with described first and connects.
4. sink connector according to claim 1 to 3, which is characterized in that the external groove portion is used for and institute It states and is provided with a plurality of clamping fin on the wall surface of sink A contact, and/or, what the inscribed groove portion was used to contact with the sink B A plurality of clamping fin is provided on wall surface.
5. a kind of Photovoltaic Building Integration discharge structure characterized by comprising
Dewatering stand, the two sides of the dewatering stand are formed with the support platform for being used to support photovoltaic module, two supports Recessed rhone is formed between platform, one rhone in the two neighboring dewatering stand is sink A, another Rhone be sink B;
Sink connector as described in claim 1-4 any one, the two neighboring dewatering stand are connected by the sink Fitting docking conducting.
6. Photovoltaic Building Integration discharge structure according to claim 5, which is characterized in that further include limit pressing plate, institute It states limit pressing plate to cooperate with two dewatering stands respectively so that two dewatering stands are to just, the limit pressing plate and two The sink connector is held out against after a dewatering stand cooperation.
7. Photovoltaic Building Integration discharge structure according to claim 6, which is characterized in that the dewatering stand two sides point It is not provided with limit card board, the two sides of the limit pressing plate are respectively arranged with limit card slot, the limiting card on the limit pressing plate Slot cooperates respectively with the limit card board on two dewatering stands so that two dewatering stands are to just.
8. Photovoltaic Building Integration discharge structure according to claim 7, which is characterized in that the limit pressing plate passes through the One threaded fastener lock onto the dewatering stand, and first threaded fastener includes clamping screw and locking nut, institute Clamping screw is stated to cooperate across the two sidewalls of the limit card slot and the locking nut so that described in limit card slot clamping Limit card board.
9. according to Photovoltaic Building Integration discharge structure described in claim 5-8 any one, which is characterized in that the draining Bracket is connected to photovoltaic building roofing by the second threaded fastener, the at L-shaped snap-gauge of dewatering stand two sides shape, and described second Threaded fastener includes installation bolt and C-shaped buckle, and the C-shaped buckle and the L shape snap-gauge snapping, the installation bolt are worn It crosses the C-shaped buckle and photovoltaic building roofing cooperation and the dewatering stand is fixed on the photovoltaic building roofing.
10. according to Photovoltaic Building Integration discharge structure described in claim 5-8 any one, which is characterized in that the row Water bracket includes bottom plate, two support platforms, two interior cant boards and two outer cant boards, two interior cant boards With the bottom plate with the rhone is encircled into, two outer cant boards are located at the two sides of the rhone, the branch Support platform is across the interior cant board of described rhone the same side and the top of the outer cant board, the interior cant board and It is formed between the outer cant board for the installation card slot with the cooperation of the external groove portion of the sink connector.
11. according to Photovoltaic Building Integration discharge structure described in claim 5-8 any one, which is characterized in that further include For the mounting structure of installation photovoltaic component, the mounting structure includes top board and third threaded fastener, the third Threaded fastener passes through the top board and is connect with the dewatering stand so that the support platform and top board cooperation will Photovoltaic module clamps.
12. Photovoltaic Building Integration discharge structure according to claim 11, which is characterized in that it further include lower platen, two A support platform is respectively to extending to form claw on the inside of the rhone, and the two sides of the lower platen are respectively described in two The lower section of claw is engaged with two claws, and the third threaded fastener passes through the top board and the lower platen The lower platen is connected to the dewatering stand by connection.
13. a kind of photovoltaic building characterized by comprising
Building body;
Photovoltaic module;
Photovoltaic Building Integration discharge structure as described in claim 5-12 any one, the photovoltaic module pass through the light Volt architecture-integral discharge structure is installed on the roofing of the building body.
CN201821631425.2U 2018-09-28 2018-09-28 A kind of sink connector, Photovoltaic Building Integration discharge structure and photovoltaic building Active CN208918151U (en)

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Application Number Priority Date Filing Date Title
CN201821631425.2U CN208918151U (en) 2018-09-28 2018-09-28 A kind of sink connector, Photovoltaic Building Integration discharge structure and photovoltaic building

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111364702A (en) * 2020-03-17 2020-07-03 安徽世慧科技有限公司 Combined spliced roof rainwater ditch

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111364702A (en) * 2020-03-17 2020-07-03 安徽世慧科技有限公司 Combined spliced roof rainwater ditch

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