CN106760613A - A kind of Old building roofing flat-changed-into-sloping regenerative resource integration module and its method - Google Patents
A kind of Old building roofing flat-changed-into-sloping regenerative resource integration module and its method Download PDFInfo
- Publication number
- CN106760613A CN106760613A CN201611193297.3A CN201611193297A CN106760613A CN 106760613 A CN106760613 A CN 106760613A CN 201611193297 A CN201611193297 A CN 201611193297A CN 106760613 A CN106760613 A CN 106760613A
- Authority
- CN
- China
- Prior art keywords
- module
- photo
- metallic support
- carrier
- thermal
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Classifications
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04G—SCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
- E04G23/00—Working measures on existing buildings
- E04G23/02—Repairing, e.g. filling cracks; Restoring; Altering; Enlarging
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J7/00—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
- H02J7/34—Parallel operation in networks using both storage and other dc sources, e.g. providing buffering
- H02J7/35—Parallel operation in networks using both storage and other dc sources, e.g. providing buffering with light sensitive cells
Abstract
A kind of Old building roofing flat-changed-into-sloping regenerative resource integration module and its method, including building roof, there is multigroup module carrier on the building roof, multigroup module carrier is arranged in yi word pattern;Each group of module carrier is made up of module carrier A, module carrier B and the module carrier C being sequentially connected, and the height of module carrier A, module carrier B and module carrier C gradually increases in a gradient;Also include the combination of photo-thermal module, optical-electric module and rainwater-collecting, according to the specific amount of hot water of building, commons electricity, the ratio of this building roof photo-thermal module and optical-electric module is set, corresponding system module is proportionally installed, remaining space is used for arranging that rainwater-collecting is combined.According to building needs, optical-electric module and photo-thermal module are optionally combined, to meet the demand of hot water and public electricity-using in building, rainwater-collecting combination in addition can be played and collect the function that rainwater is recycled.
Description
Technical field
The present invention relates to solar building integrated technical field, specifically a kind of Old building roofing flat-changed-into-sloping renewable energy
Source integration module and its method.
Background technology
There are a large amount of flat-top outdated buildings in many cities of China, and these buildings are built in the 60-80 ages in 20th century mostly, because
To solve the housing problem of boss's surname in the economic shortage age, these most low costs of building, construction are fast, and these are old-fashioned
Building experience 30 or 40 years exposes to wind and rain, water proof thermal insulation function worse and worse, especially top layer, during summer high temperature heat wave is pressing,
Temperature-sensitive is not warmed up during winter severe cold, and resident suffers untold misery.Then " flat-changed-into-sloping " engineering is arisen at the historic moment." flat-changed-into-sloping " refers to be tied in building
Under the conditions of structure is licensed, in the case that foundation bearing capacity reaches requirement, multi-storey building flat roof is reconstructed into inclined roof, and it is right
Alien invasion is rebuild, and reaches the house repairing behavior for improving Residential Property and facade visual effect.
The old building roofing " flat-changed-into-sloping " in present city there are problems that following:First, Old building roofing situation is each
Differ, different " flat-changed-into-sloping " construction technologies not only can cause new broken ring to roofing, can also cause new to urban landscape
It is chaotic;Second, Old building roofing reforming technology is required for live "one off" production, and the lifting of material, installation can be to surrounding and residents
Life causes large effect;3rd, various solar water heater is distributed in a jumble on Old building roofing, " flat-changed-into-sloping " improvement project
After taking roof, solar water heater cannot be placed, and trouble is caused to original resident living.So needing a kind of Old building room
Face flat-changed-into-sloping regenerative resource integration module and its method solve this series of problems.
The content of the invention
According to the deficiencies in the prior art, there is provided a kind of Old building roofing flat-changed-into-sloping regenerative resource integration module and its side
Method, it includes a whole set of composite module, according to building needs, is optionally combined optical-electric module and photo-thermal module, to meet in building
The demand of hot water and public electricity-using, in addition rainwater-collecting combination can be played and collect the function that rainwater is recycled.
The present invention is realized by following technical scheme:
A kind of method of Old building roofing flat-changed-into-sloping regenerative resource integration module, the method is comprised the following steps:
Step one:Multigroup module carrier laterally side by side is placed with building roof, each group of module carrier is again by multiple
Submodule support composition connected longitudinally, the height of multiple submodule support causes its top surface in a single gradient after gradually increasing
Face;
Step 2:Photo-thermal module and insulation water are mounted in each submodule support in one or more groups of module carriers
Case, is mutually serially connected between multiple photo-thermal modules by conduit, and multiple attemperater bottoms and top pass through conduit phase respectively
It is serially connected, two photo-thermal modules of head and the tail are mutually concatenated by two attemperaters of conduit and head and the tail respectively again;
Step 3:Optical-electric module and power storage module are mounted in each submodule support in remaining multigroup module carrier,
Multiple optical-electric modules and polylith power storage module are serially connected by wire;
Step 4:Water tank, multiple water tanks are mounted in each submodule support in remaining one or more groups of module carriers
Bottom is mutually serially connected by conduit respectively with top, is provided with the submodule support of single gradient face least significant end and catchmented
Device, captation is connected further through conduit with its immediate water tank.
Preferably, in the step one, the situation according to different building roofs carries out assembly, when building depth and being narrow
Be assembled into single pitched roof, when roofing enters it is profound when, be assembled into double-slope roof, and according to building needs, be optionally combined photoelectricity mould
Block and photo-thermal module, to meet the demand of hot water and public electricity-using in building, rainwater-collecting combination in addition can play collection rain
The function that water is recycled.
A kind of Old building roofing flat-changed-into-sloping regenerative resource integration module, including building roof, have on the building roof
Multigroup module carrier, multigroup module carrier is arranged in yi word pattern;Each group of module carrier by be sequentially connected module carrier A,
Module carrier B and module carrier C is constituted, and the height of module carrier A, module carrier B and module carrier C gradually increases in a slope
Degree;Also include the combination of photo-thermal module, optical-electric module and rainwater-collecting, according to the specific amount of hot water of building, commons electricity, if
The ratio of fixed this building roof photo-thermal module and optical-electric module, proportionally installs corresponding system module, and remaining space is used
To arrange that rainwater-collecting is combined.
Preferably, the module carrier A includes metallic support A, and the top of the side of the metallic support A is provided with and top
The parallel module slot A of portion's line of slope, the bottom of the side of metallic support A is provided with a horizontal module slot B, in institute
The side for stating metallic support A is provided with multiple spelling attachment holes at module slot B, and collection is provided with before the metallic support A
Ditch, multiple water holes are provided with before metallic support A at the bottom surface of collecting gutter;The back side of the metallic support A
A module slot C is provided with, multiple spelling attachment holes, the metal branch are provided with positioned at the back side of the metallic support A of module slot C surroundings
The bottom surface of frame A is provided with multiple cradles, and the open top face of the metallic support A covers sealing by glass thoroughly high.
Preferably, the module carrier B includes metallic support B, and the top of the side of the metallic support B is provided with and top
The parallel module slot A of portion's line of slope, the bottom of the side of metallic support B is provided with a horizontal module slot B, in institute
The side for stating metallic support B is provided with multiple spelling attachment holes at module slot B, connects with top surface before the metallic support B
There is waterproof buckle at the place of connecing, a module slot C is provided with before metallic support B, positioned at the metallic support B of module slot C surroundings
Multiple spelling attachment holes are above provided with, the back side of the metallic support B is provided with a module slot D, positioned at the gold of module slot D surroundings
The back side of category support B is provided with multiple spelling attachment holes, and the bottom surface of the metallic support B is provided with multiple cradles, the metal
The open top face of support B covers sealing by glass thoroughly high.
Preferably, the module carrier C includes metallic support C, and the top of the side of the metallic support C is provided with and top
The parallel module slot A of portion's line of slope, the bottom of the side of metallic support C is provided with a horizontal module slot B, in institute
The side for stating metallic support C is provided with multiple spelling attachment holes at module slot B, connects with top surface before the metallic support C
There is waterproof buckle at the place of connecing, a module slot D is provided with before metallic support C, positioned at the metallic support C of module slot C surroundings
Multiple spelling attachment holes are above provided with, the back side of the metallic support C is provided with a module slot E, positioned at the gold of module slot E surroundings
The back side of category support C is provided with multiple spelling attachment holes, and the bottom surface of the metallic support C is provided with multiple cradles, the metal
The open top face of support C covers sealing by glass thoroughly high.
Preferably, the photo-thermal module combination in one group of module carrier includes one piece of photo-thermal module A, two pieces of photo-thermal module B
The attemperater not waited with three height, two symmetrical photo-thermal modules are each provided with the upper and lower surfaces of photo-thermal module A
Interface, is each provided with two photo-thermal module interfaces on the two photo-thermal module B adjacent surfaces;Installed on the module carrier B
There are one piece of photo-thermal module A and an attemperater being highly adapted therewith, each peace on the module carrier A and module carrier C
Fill one piece of photo-thermal module B and an attemperater being highly adapted therewith;Pass through chain between photo-thermal module A and photo-thermal module B
Connect flexible pipe to be mutually serially connected, three attemperater bottoms are mutually serially connected by conduit respectively with top, two light of head and the tail
Thermal modules B is mutually concatenated by linking two attemperaters of flexible pipe and head and the tail respectively again.
Preferably, the optical-electric module combination in one group of module carrier includes one piece of optical-electric module A, two pieces of optical-electric module B
With polylith power storage module, two symmetrical photo-thermal module interfaces are each provided with the upper and lower surfaces of optical-electric module A, it is described
Two photo-thermal module interfaces are each provided with two optical-electric module B adjacent surfaces;One piece of photoelectricity is installed on the module carrier B
Modules A and one piece of power storage module, one piece of optical-electric module B of each installation and one piece of electric power storage mould on the module carrier A and module carrier C
Block;Three pieces of optical-electric modules and polylith power storage module are connected wires by chain and are serially connected.
Preferably, the rainwater-collecting combination in one group of module carrier includes the water tank that three height are not waited, the module
Be separately installed with a water tank being highly adapted therewith on support A, module carrier B and module carrier C, three water tank bottoms and
Top is mutually serially connected by conduit respectively, and the water tank on the module carrier A is connected further through link flexible pipe with water hole.
Preferably, the gap between any two groups of adjacent module carriers is sealed by vertical strip of paper used for sealing.
Preferably, photoelectric template uses solar photovoltaic cell panel.
Preferably, photo-thermal module use too can photo-thermal heat collector.
Beneficial effect of the present invention:
Firstth, the modularization chunk of standard, then assembly can be as the case may be carried out on any building roof, it is not necessary to again
Individually it is designed;
Secondth, modular assembly, is easy to carry, and influences smaller beneficial to construction, in work progress;
3rd, solar energy power technology, solar energy techniques, the design of rainwater recycle Integration ofTechnologyization, solve various problems;
4th, system module factorial praluction, reduces cost reduces pollution;
5th, for building user brings intuitively economic benefit, improvement cost is reclaimed.
Situation according to different building roofs carries out assembly, single pitched roof is assembled into when building depth and being narrow, when roofing enters
When profound, double-slope roof is assembled into, and according to building needs, optical-electric module and photo-thermal module are optionally combined, to meet building
The demand of interior hot water and public electricity-using, in addition rainwater-collecting combination can be played and collect the function that rainwater is recycled.
Brief description of the drawings
Fig. 1 is flat to change single slope plane schematic diagram;
Fig. 2 is flat to change double slope plane schematic diagrames;
Fig. 3 cross section A-As are illustrated;
Fig. 4 section B-Bs are illustrated;
Fig. 5 section C-Cs are illustrated;
Fig. 6 module carrier A side elevations;
Fig. 7 module carrier A back elevations;
The positive facades of Fig. 8 module carriers A;
Fig. 9 module carrier A profiles;
Figure 10 module carrier B side elevations;
Figure 11 module carrier B back elevations;
The positive facades of Figure 12 module carriers B;
Figure 13 module carrier B profiles;
Figure 14 module carrier C side elevations;
Figure 15 module carrier C back elevations;
The positive facades of Figure 16 module carriers C;
Figure 17 module carrier C profiles;
Figure 18 optical-electric module A schematic diagrames;
Figure 19 optical-electric module B schematic diagrames;
Figure 20 photo-thermal module A schematic diagrames;
Figure 21 photo-thermal module B schematic diagrames;
Figure 22 attemperater A schematic diagrames;
Figure 23 attemperater B schematic diagrames;
Figure 24 attemperater C schematic diagrames;
Figure 25 water tank A schematic diagrames;
Figure 26 water tank B schematic diagrames;
Figure 27 water tank C schematic diagrames;
Figure 28 power storage module schematic diagrames;
Figure 29 photo-thermal module combination diagrams;
Figure 30 rainwater-collecting combination diagrams;
Figure 31 optical-electric module combination diagrams.
In figure:1st, building roof, 2, module carrier A, 3, module carrier B, 4, module carrier C, 5, ridge strip of paper used for sealing, 6, vertical
Strip of paper used for sealing, 7, metallic support A, 8, collecting gutter, 9, lip block, 10, spell attachment hole, 11, module slot A, 12, module slot B,
13rd, module slot C, 14, glass thoroughly high, 15, water hole, 16, waterproof buckle, 17, module slot D, 18, metallic support B, 19,
Metallic support C, 20, module slot E, 21, optical-electric module A, 22, optical-electric module interface, 23, optical-electric module B, 24, photo-thermal module
A, 25, photo-thermal module interface, 26, attemperater A, 27, attemperater B, 28, attemperater C, 29, water tank interface, 30, water tank
A, 31, water tank B, 32, water tank C, 33, power interface, 34, power storage module, 35, link flexible pipe, 36, chain connect wires, 37, light hot-die
Block B.
Specific embodiment
Below in conjunction with accompanying drawing, by specific embodiment, the present invention is further illustrated.
As shown in Fig. 1, Fig. 3, Fig. 5, a kind of Old building roofing flat-changed-into-sloping solar energy integration module, including building roof 1, build
Building has multigroup module carrier on roofing 1, multigroup module carrier is arranged in yi word pattern;Each group of module carrier is by being sequentially connected
Module carrier A2, module carrier B3 and module carrier C4 are constituted, and module carrier A2, module carrier B3 and module carrier C4 height
It is in a gradient that degree gradually increases, and the gap between any two groups of adjacent module carriers is sealed by vertical strip of paper used for sealing 6.
As shown in Figure 2, Figure 4 shows, the situation according to different building roofs carries out assembly, and single slope is assembled into when building depth and being narrow
Roofing, when roofing enters it is profound when, be assembled into double-slope roof, double slopes need to install ridge strip of paper used for sealing 5 when assembled, and according to building need
Will, optical-electric module and photo-thermal module are optionally combined, the demand of interior hot water and public electricity-using is built to meet, in addition rainwater-collecting group
Conjunction can be played collects the function that rainwater is recycled.
Also include the combination of photo-thermal module, optical-electric module and rainwater-collecting, according to the specific amount of hot water of building, public electricity-using
Amount, sets the ratio of this photo-thermal module of building roof 1 and optical-electric module, proportionally installs corresponding system module, remaining
Space is used for arranging that rainwater-collecting is combined.
As shown in Fig. 6,7,8,9, module carrier A2 includes metallic support A7, the top of the side of metallic support A7 be provided with
The parallel module slot A11 of top line of slope, the bottom of the side of metallic support A7 is provided with a horizontal module slot
B12, multiple spelling attachment holes 10 are provided with the side of metallic support A7 at module slot B12, are pacified before metallic support A7
Equipped with collecting gutter 8, multiple water holes 15 are provided with the bottom surface of collecting gutter 8 before metallic support A7;Metallic support
The back side of A7 is provided with a module slot C13, and being provided with multiple assembly positioned at the back side of the metallic support A7 of module slot C13 surroundings connects
Hole 10, the bottom surface of metallic support A7 is provided with multiple cradles 9, and the open top face of metallic support A7 is by glass 14 thoroughly high
Covering sealing.
As shown in Figure 10,11,12,13, module carrier B3 includes metallic support B18, the top of the side of metallic support B18
A module slot A11 parallel with top line of slope is provided with, the bottom of the side of metallic support B18 is provided with a horizontal mould
Block slot B12, multiple spelling attachment holes 10, metallic support B18 are provided with the side of metallic support B18 at module slot B12
Before have waterproof buckle 16 with top surface junction, a module slot C13 is provided with before metallic support B18, positioned at module insert
Multiple spelling attachment holes 10 are provided with before the metallic support B18 of groove C13 surroundings, the back side of metallic support B18 is provided with a module and inserts
Groove D17, multiple spelling attachment holes 10 are provided with positioned at the back side of the metallic support B18 of module slot D17 surroundings, metallic support B18's
Bottom surface is provided with multiple cradles 9, and the open top face of metallic support B18 covers sealing by glass 14 thoroughly high.
As shown in Figure 14,15,16,17, module carrier C4 includes metallic support C19, the top of the side of metallic support C19
A module slot A11 parallel with top line of slope is provided with, the bottom of the side of metallic support C19 is provided with a horizontal mould
Block slot B12, multiple spelling attachment holes 10, metallic support C19 are provided with the side of metallic support C19 at module slot B12
Before have waterproof buckle 16 with top surface junction, a module slot D17 is provided with before metallic support C19, positioned at module insert
Multiple spelling attachment holes 10 are provided with before the metallic support C19 of groove C13 surroundings, the back side of metallic support C19 is provided with a module and inserts
Groove E20, multiple spelling attachment holes 10 are provided with positioned at the back side of the metallic support C19 of module slot E20 surroundings, metallic support C19's
Bottom surface is provided with multiple cradles 9, and the open top face of metallic support C19 covers sealing by glass 14 thoroughly high.
As shown in Figure 20,21,22,23,24,29, the photo-thermal module combination in one group of module carrier includes one piece of light hot-die
Block A24, two pieces of photo-thermal module B37 and three height attemperater not etc., respectively attemperater A26, attemperater B27 and
Attemperater C28, before attemperater A26 on be provided with a water tank interface 29, two water tank interfaces are provided with the back side
Two water tank interfaces 29, photo-thermal module A24 are respectively arranged with the front and back of 29, attemperater B27 and attemperater C28
Two symmetrical photo-thermal module interfaces 25 are each provided with upper and lower surface, are respectively set on two photo-thermal module B37 adjacent surfaces
There are two photo-thermal module interfaces 25.
Photo-thermal module B37 is installed into metallic support A7 and metallic support C19 by module slot A11, and photo-thermal module A24 is by mould
Block slot A11 is installed into metallic support B18, and attemperater A26, attemperater B27, attemperater C28 are respectively by module slot
C13, module slot D17, module slot E20 are installed on metallic support A7, metallic support B18, metallic support C19;
Mutually be serially connected by linking flexible pipe 35 between photo-thermal module A24 and photo-thermal module B37, three attemperater bottoms and
Top is mutually serially connected by conduit respectively, and module slot B12 is mainly and facilitates connecting conduit, two photo-thermal modules of head and the tail
B37 is mutually concatenated by linking two attemperaters of flexible pipe 35 and head and the tail respectively again, and photo-thermal module uses solar energy optical-thermal heat collector.
As shown in Figure 18,19,28,31, the combination of optical-electric module in one group of module carrier include one piece of optical-electric module A21,
Two pieces of optical-electric module B23 and two pieces of power storage modules 34, are each provided with two symmetrical light on the upper and lower surfaces of optical-electric module A21
Thermal modules interface 22, is each provided with two photo-thermal module interfaces 22, in power storage module 34 on two optical-electric module B23 adjacent surfaces
It is provided with positive and negative power supply interface 33;
Optical-electric module A21 is installed into metallic support A7 by module slot A11, and optical-electric module B23 is installed into gold by module slot A11
Category support B18, metallic support C19, power storage module 34 are installed into metallic support B18, gold by module slot D17, module slot E20
Category support C19, three pieces of optical-electric modules and two pieces of power storage modules 34 are connected wires by chain and 36 are serially connected, and photoelectric template is using too
Positive energy photovoltaic battery panel.
As shown in Figure 25,26,27,30, the rainwater-collecting combination in one group of module carrier includes the water that three height are not waited
Case, respectively water tank A30, water tank B31 and water tank C32, before water tank A30 on be provided with a water tank interface 29, on the back side
Two water tank interfaces 29 are provided with, two water tank interfaces are respectively arranged with the front and back of water tank B31 and attemperater C32
29, water tank A30, water tank B31, water tank C32 are installed into metal by module slot C13, module slot D17, module slot E20 respectively
On support A7, metallic support B18, metallic support C19, three water tank bottoms are mutually serially connected by conduit respectively with top,
Module slot B12 is mainly and facilitates connecting conduit, and the water tank on module carrier A2 is further through link flexible pipe 35 and the phase of water hole 15
Even.
The present invention carries out assembly according to the situation of different building roofs, and single pitched roof is assembled into when building depth and being narrow, when
When roofing enters profound, double-slope roof is assembled into, and according to building needs, is optionally combined optical-electric module and photo-thermal module, with full
The demand of hot water and public electricity-using in foot building, in addition rainwater-collecting combination can be played and collect the function that rainwater is recycled.
Although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with
Understanding can carry out various changes, modification, replacement to these embodiments without departing from the principles and spirit of the present invention
And modification, the scope of the present invention be defined by the appended.
Claims (10)
1. a kind of method of Old building roofing flat-changed-into-sloping regenerative resource integration module, it is characterised in that the method includes following
Step:
Step one:Multigroup module carrier laterally side by side is placed with building roof, each group of module carrier is again by multiple
Submodule support composition connected longitudinally, the height of multiple submodule support causes its top surface in a single gradient after gradually increasing
Face;
Step 2:Photo-thermal module and insulation water are mounted in each submodule support in one or more groups of module carriers
Case, is mutually serially connected between multiple photo-thermal modules by conduit, and multiple attemperater bottoms and top pass through conduit phase respectively
It is serially connected, two photo-thermal modules of head and the tail are mutually concatenated by two attemperaters of conduit and head and the tail respectively again;
Step 3:Optical-electric module and power storage module are mounted in each submodule support in remaining multigroup module carrier,
Multiple optical-electric modules and polylith power storage module are serially connected by wire;
Step 4:Water tank, multiple water tanks are mounted in each submodule support in remaining one or more groups of module carriers
Bottom is mutually serially connected by conduit respectively with top, is provided with the submodule support of single gradient face least significant end and catchmented
Device, captation is connected further through conduit with its immediate water tank.
2. a kind of method of Old building roofing flat-changed-into-sloping regenerative resource integration module according to claim 1, its feature
It is:In the step one, the situation according to different building roofs carries out assembly, and Dan Po rooms are assembled into when building depth and being narrow
Face, when roofing enters it is profound when, be assembled into double-slope roof, and according to building needs, be optionally combined optical-electric module and photo-thermal module,
To meet the demand of hot water and public electricity-using in building, rainwater-collecting combination in addition can be played and collect the work(that rainwater is recycled
Energy.
3. a kind of Old building roofing flat-changed-into-sloping regenerative resource integration module, including building roof(1), it is characterised in that:It is described
Building roof(1)On have multigroup module carrier, multigroup module carrier in yi word pattern arrange;
Each group of module carrier is by the module carrier A that is sequentially connected(2), module carrier B(3)With module carrier C(4)Composition, and
Module carrier A(2), module carrier B(3)With module carrier C(4)Height gradually increase in a gradient;
Also include the combination of photo-thermal module, optical-electric module and rainwater-collecting, according to the specific amount of hot water of building, commons electricity,
Set this building roof(1)The ratio of photo-thermal module and optical-electric module, proportionally installs corresponding system module, remaining empty
Between be used for arrange rainwater-collecting combine.
4. a kind of Old building roofing flat-changed-into-sloping regenerative resource integration module according to claim 3, it is characterised in that:
The module carrier A(2)Including metallic support A(7), the metallic support A(7)The top of side be provided with and top slope
The parallel module slot A in face direction(11), metallic support A(7)The bottom of side be provided with a horizontal module slot B
(12), in the metallic support A(7)Side near module slot B(12)Place is provided with multiple spelling attachment holes(10), the metal
Support A(7)Before collecting gutter is installed(8), in metallic support A(7)Before near collecting gutter(8)Bottom surface at be provided with
Multiple water holes(15);The metallic support A(7)The back side be provided with a module slot C(13), positioned at module slot C(13)Four
The metallic support A in week(7)The back side be provided with and multiple spell attachment holes(10), the metallic support A(7)Bottom surface multiple branch are installed
Rim block(9), the metallic support A(7)Open top face by glass thoroughly high(14)Covering sealing.
5. a kind of Old building roofing flat-changed-into-sloping regenerative resource integration module according to claim 3, it is characterised in that:
The module carrier B(3)Including metallic support B(18), the metallic support B(18)The top of side be provided with and top
The parallel module slot A of line of slope(11), metallic support B(18)The bottom of side be provided with a horizontal module slot
B(12), in the metallic support B(18)Side near module slot B(12)Place is provided with multiple spelling attachment holes(10), the gold
Category support B(18)Before have waterproof buckle with top surface junction(16), metallic support B(18)Before be provided with a module slot
C(13), positioned at module slot C(13)The metallic support B of surrounding(18)Before be provided with and multiple spell attachment holes(10), the metal
Support B(18)The back side be provided with a module slot D(17), positioned at module slot D(17)The metallic support B of surrounding(18)The back side
It is provided with multiple spelling attachment holes(10), the metallic support B(18)Bottom surface multiple cradles are installed(9), the metal branch
Frame B(18)Open top face by glass thoroughly high(14)Covering sealing.
6. a kind of Old building roofing flat-changed-into-sloping regenerative resource integration module according to claim 3, it is characterised in that:
The module carrier C(4)Including metallic support C(19), the metallic support C(19)The top of side be provided with and top
The parallel module slot A of line of slope(11), metallic support C(19)The bottom of side be provided with a horizontal module slot
B(12), in the metallic support C(19)Side near module slot B(12)Place is provided with multiple spelling attachment holes(10), the gold
Category support C(19)Before have waterproof buckle with top surface junction(16), metallic support C(19)Before be provided with a module slot
D(17), positioned at module slot C(13)The metallic support C of surrounding(19)Before be provided with and multiple spell attachment holes(10), the metal
Support C(19)The back side be provided with a module slot E(20), positioned at module slot E(20)The metallic support C of surrounding(19)The back side
It is provided with multiple spelling attachment holes(10), the metallic support C(19)Bottom surface multiple cradles are installed(9), the metal branch
Frame C(19)Open top face by glass thoroughly high(14)Covering sealing.
7. a kind of Old building roofing flat-changed-into-sloping regenerative resource integration module according to claim 3, it is characterised in that:One
Photo-thermal module combination in group module carrier includes one piece of photo-thermal module A(24), two pieces of photo-thermal module B(37)With three height not
Deng attemperater, the photo-thermal module A(24)Two symmetrical photo-thermal module interfaces are each provided with upper and lower surface
(25), the photo-thermal module B(37)Two photo-thermal module interfaces are each provided with two adjacent surfaces(25);
The module carrier B(3)On one piece of photo-thermal module A is installed(24)With an attemperater being highly adapted therewith,
The module carrier A(2)With module carrier C(4)One piece of photo-thermal module B of upper each installation(37)Highly it is adapted therewith with one
Attemperater;
Photo-thermal module A(24)With photo-thermal module B(37)Between by linking flexible pipe(35)Mutually it is serially connected, three attemperaters
Bottom is mutually serially connected by conduit respectively with top, two photo-thermal module B of head and the tail(37)Again respectively by linking flexible pipe
(35)Mutually concatenated with two attemperaters of head and the tail.
8. a kind of Old building roofing flat-changed-into-sloping regenerative resource integration module according to claim 3, it is characterised in that:One
Optical-electric module combination in group module carrier includes one piece of optical-electric module A(21), two pieces of optical-electric module B(23)With polylith electric power storage mould
Block(34), the optical-electric module A(21)Two symmetrical photo-thermal module interfaces are each provided with upper and lower surface(22), it is described
Optical-electric module B(23)Two photo-thermal module interfaces are each provided with two adjacent surfaces(22);
The module carrier B(3)On one piece of optical-electric module A is installed(21)With one piece of power storage module(34), the module carrier A
(2)With module carrier C(4)One piece of optical-electric module B of upper each installation(23)With one piece of power storage module(34);
Three pieces of optical-electric modules and polylith power storage module(34)Connected wires by chain(36)It is serially connected.
9. a kind of Old building roofing flat-changed-into-sloping regenerative resource integration module according to claim 4, it is characterised in that:One
Rainwater-collecting combination in group module carrier includes the water tank that three height are not waited, the module carrier A(2), module carrier B
(3)With module carrier C(4)On be separately installed with a water tank being highly adapted therewith, three water tank bottoms and top are distinguished
Mutually it is serially connected by conduit, the module carrier A(2)On water tank further through link flexible pipe(35)With water hole(15)Phase
Even.
10. a kind of Old building roofing flat-changed-into-sloping regenerative resource integration module according to claim 3, it is characterised in that:
Gap between any two groups of adjacent module carriers passes through vertical strip of paper used for sealing(6)Sealed.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201611193297.3A CN106760613A (en) | 2016-12-21 | 2016-12-21 | A kind of Old building roofing flat-changed-into-sloping regenerative resource integration module and its method |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201611193297.3A CN106760613A (en) | 2016-12-21 | 2016-12-21 | A kind of Old building roofing flat-changed-into-sloping regenerative resource integration module and its method |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN106760613A true CN106760613A (en) | 2017-05-31 |
Family
ID=58896978
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201611193297.3A Pending CN106760613A (en) | 2016-12-21 | 2016-12-21 | A kind of Old building roofing flat-changed-into-sloping regenerative resource integration module and its method |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN106760613A (en) |
Citations (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| DE4319811A1 (en) * | 1993-06-15 | 1994-12-22 | Hans Dipl Ing Grosmann | Modular roofing for slab constructions |
| ES2111416A2 (en) * | 1993-01-20 | 1998-03-01 | Aramburu Arbelaiz Melchor | Process for manufacturing and positioning modular structures for roofs |
| CN101059026A (en) * | 2006-04-18 | 2007-10-24 | 潘戈 | Mounting and fixing structure for solar energy collection room panel building slope top |
| CN101100890A (en) * | 2006-07-03 | 2008-01-09 | 潘戈 | Solar energy utilization system integrative combined with fastigium buildings |
| CN101639291A (en) * | 2008-07-29 | 2010-02-03 | 凌鹤轩 | Peaked roof type solar water heater |
| CN201713952U (en) * | 2010-03-09 | 2011-01-19 | 浙江省建筑科学设计研究院有限公司 | Thermal insulation system for greening roofing and overheading photovoltaic panel combination |
| CN204753994U (en) * | 2015-06-20 | 2015-11-11 | 蒋其云 | Multi -functional roof system of ability make full use of solar energy and air ability |
-
2016
- 2016-12-21 CN CN201611193297.3A patent/CN106760613A/en active Pending
Patent Citations (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| ES2111416A2 (en) * | 1993-01-20 | 1998-03-01 | Aramburu Arbelaiz Melchor | Process for manufacturing and positioning modular structures for roofs |
| DE4319811A1 (en) * | 1993-06-15 | 1994-12-22 | Hans Dipl Ing Grosmann | Modular roofing for slab constructions |
| CN101059026A (en) * | 2006-04-18 | 2007-10-24 | 潘戈 | Mounting and fixing structure for solar energy collection room panel building slope top |
| CN101100890A (en) * | 2006-07-03 | 2008-01-09 | 潘戈 | Solar energy utilization system integrative combined with fastigium buildings |
| CN101639291A (en) * | 2008-07-29 | 2010-02-03 | 凌鹤轩 | Peaked roof type solar water heater |
| CN201713952U (en) * | 2010-03-09 | 2011-01-19 | 浙江省建筑科学设计研究院有限公司 | Thermal insulation system for greening roofing and overheading photovoltaic panel combination |
| CN204753994U (en) * | 2015-06-20 | 2015-11-11 | 蒋其云 | Multi -functional roof system of ability make full use of solar energy and air ability |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN101444176B (en) | Photovoltaic greenhouse with solar module and generating set thereof | |
| CN109339354B (en) | Current collection photovoltaic tile, connection structure, roof structure and roof construction method | |
| JP2009091894A (en) | Roof based energy conversion system | |
| CN101680228B (en) | Weatherproof building shell | |
| CN202969760U (en) | Guide rail-spliced building integrated photovoltaic roof | |
| CN105862612A (en) | Road scaffolding system with grid connection of photovoltaic power generation and wind power generation and used for charging of transport facilities and electric cars | |
| CN101942892A (en) | Photovoltaic array wind cooling system integrated with building roof | |
| CN107060231A (en) | A kind of photovoltaic roofing structures for ease of maintenaince | |
| CN201518457U (en) | Solar energy generation device erected on traffic pavement | |
| CN205741955U (en) | A kind of scene is grid-connected supplies means of transportation and the highway scaffolding system of charging electric vehicle | |
| US20180205343A1 (en) | Systems and methods for building-integrated power generation | |
| CN101876195A (en) | Photovoltaic array waste heat water-cooled recovery system integrated with building roof | |
| CN205596057U (en) | Photovoltaic bicycle shed | |
| CN205857844U (en) | A kind of photovoltaic bicycle shed with water-proof function | |
| CN106760613A (en) | A kind of Old building roofing flat-changed-into-sloping regenerative resource integration module and its method | |
| CN203080827U (en) | Solar energy sunshading rain cover and construction with same | |
| CN215407014U (en) | Distributed photovoltaic slope roof and building integrated construction structure | |
| CN207260471U (en) | A kind of easy-maintaining photovoltaic roofing structures | |
| CN104047402A (en) | Corrugated solar sunshading canopy with high light use efficiency | |
| CN206581332U (en) | A kind of building intelligence energy saver | |
| CN113482252A (en) | Slope roof photovoltaic system and construction method thereof | |
| CN211873599U (en) | Assembled photovoltaic power generation room | |
| CN206844499U (en) | Intelligent family BIPV roofs electricity generation system | |
| Tripathy et al. | Building Integrated Photovoltaic Market trend and its Applications | |
| CN206128454U (en) | Synthetic resin solar photovoltaic tile |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| PB01 | Publication | ||
| PB01 | Publication | ||
| SE01 | Entry into force of request for substantive examination | ||
| SE01 | Entry into force of request for substantive examination |