CN209620372U - A kind of intelligence wind and rain induction parallel-moving type design of glass lighting roof - Google Patents

Abstract

The utility model discloses a kind of intelligent wind and rain induction parallel-moving type design of glass lighting roof, including daylighting glass plate includes the first glass plate and the second glass plate；Installing frame is installed on a side of daylighting glass plate transversely to enclose with the first glass plate, the second glass plate and be set as installation cavity；Multiple barn doors are laid along the transverse direction of installation cavity, and longitudinal extension and opposite daylighting glass plate movable setting of each barn door along installation cavity, having makes the outward-facing first position of the plate of barn door and make barn door along the second position that introversion and extroversion extends；Driving device is for driving multiple barn doors to switch between first position and the second position to adjust the light transmission capacity of lighting roof main body.The technical solution of the utility model, multiple barn doors are driven to switch in first position and the second position by driving device, the area that multiple barn door shielding lights are shone is adjusted, to adjust the light transmission capacity of lighting roof main body, so that the use of lighting roof main body is more adapted to environmental change, improves the usage experience of user and energy saving.

Description

A kind of intelligence wind and rain induction parallel-moving type design of glass lighting roof

Technical field

The utility model relates to the technical fields of building materials, in particular to the technical field of removable design of glass lighting roof, Parallel-moving type design of glass lighting roof is incuded more particularly to a kind of intelligent wind and rain.

Background technique

It gets better light to realize, design of glass lighting roof can be used on some public buildings with larger space, but It is that the use of design of glass lighting roof is there are still that can not ignore, for example, causing indoor light too strong when summer direct sunlight And temperature increases, and increases burden for indoor refrigeration system, wastes electric power energy.

Utility model content

The main purpose of the utility model is to propose a kind of intelligent wind and rain induction parallel-moving type design of glass lighting roof, it is intended to solve to pass The problem of design of glass lighting roof of uniting can not adjust light transmission capacity according to environmental change.

To achieve the above object, the utility model proposes a kind of intelligent wind and rain incude parallel-moving type design of glass lighting roof, including Lighting roof main body, the lighting roof main body include:

Daylighting glass plate, including spaced first glass plate and the second glass plate from outside to inside；

Installing frame is transversely installed on a side of the daylighting glass plate, with first glass plate, described second Glass plate encloses jointly to be set to form installation cavity；

Multiple barn doors, the transverse direction along the installation cavity are successively laid, and each barn door is along the vertical of the installation cavity To extension and the relatively described daylighting glass plate is in movable setting, has first for appearing the plate face of the barn door outwardly It sets and makes the barn door along the second position that introversion and extroversion is extended；And

Driving device, for drive multiple barn doors to switch between the first position and the second position with Adjust the light transmission capacity of the lighting roof main body.

Optionally, the intelligent wind and rain induction parallel-moving type design of glass lighting roof further includes rainfall control circuit, the rainfall control Circuit processed and the driving device are electrically connected, to control the driving device work by the on-off of the rainfall control circuit Make, wherein rainfall control circuit connection when receiving preset rainfall value is disconnected in rainfall value lower than when presetting.

Optionally, the rainfall control circuit includes:

Precipitation rain fall sensor set on the lateral wall of first glass plate, and has the first high level output end, and described first High level output end exports high level when the precipitation rain fall sensor senses default rainfall value；

First relay, with the precipitation rain fall sensor common cathode, the normally opened contact of first relay is series at described Driving device, and one end of the electromagnet of first relay and first high level output end are electrically connected, the other end Connect the common cathode.

Optionally, the axis that multiple barn doors extend longitudinally can be installed on to lateral rotation the installing frame, and The installing frame transversely offers sliding slot, and the opening of the sliding slot is arranged towards the installation cavity；

The driving device includes:

Power device is set to the installing frame or the daylighting glass plate；

Rack gear, is set to the sliding slot, and the rack gear is driven by the power device and laterally moves setting；And

Multiple driven gears are arranged in a one-to-one correspondence with multiple barn doors, and each driven gear is co-axially mounted In a barn door close to one end of the installing frame, multiple driven gears are meshed with the rack gear, with described Rack drives and drive multiple barn doors transversely to rotate.

Optionally, first glass plate offers logical gas entering opening, and second glass plate offers ventilation and portals, and institute State logical gas entering opening and the ventilation portal between be connected to when multiple barn doors be in the first position and ought be more A barn door is blocked when being in the second position.

Optionally, the logical gas entering opening includes the cross-drilled hole being in communication with the outside and multiple vertical cores for being connected to the cross-drilled hole, Multiple vertical cores are arranged in a one-to-one correspondence with multiple barn doors, so that when multiple barn doors are in the second When setting, the inner end of multiple vertical cores is closed by multiple barn door lids.

Optionally, the intelligent wind and rain induction parallel-moving type design of glass lighting roof further includes lid seaming element, the lid seaming element packet It includes:

Iron connecting tube is inhaled, is installed on one end that the cross-drilled hole is in communication with the outside, and form inwardly toward extended opening； And

Electromagnet cover board can be installed on to elastic telescopic the daylighting glass plate along introversion and extroversion, and when being powered outwardly facing Stretch out and with the suctions iron connecting tube it is attracting be accompanied by lid close it is described be open and when power is off inwardly toward bounce back and with the suction iron Connecting tube separation passes through cross-drilled hole described in the open communication for the external world.

It optionally, further include Boiler pressure control circuit, the Boiler pressure control circuit and the electromagnet cover board are electrically connected, with The electromagnet cover board work is controlled by the on-off of the Boiler pressure control circuit, wherein the Boiler pressure control circuit is receiving Connected when to preset airflow value, airflow value lower than it is default when disconnect.

Optionally, the Boiler pressure control circuit includes:

Air flow sensor set on the lateral wall of first glass plate, and has the second high level output end, and described second High level output end exports high level when the air flow sensor senses default airflow value；

Second relay, with the air flow sensor common cathode, the normally opened contact of second relay is series at described Electromagnet cover board, and one end of the electromagnet of second relay and second high level output end are electrically connected, it is another Terminate the common cathode.

Optionally, each barn door is equipped with a photovoltaic battery panel, so that the photovoltaic battery panel is multiple described Barn door appears outwardly when being in the first position and acquires solar energy.

In the technical solution of the utility model, multiple barn doors are mounted in the installation cavity and by first glass The protection of glass plate, second glass plate and the installing frame；Multiple barn doors are driven to exist by the driving device Switching between the first position and the second position can correspond to and adjust the area that multiple barn door shielding lights are shone, It is mentioned to adjust the light transmission capacity of the lighting roof main body so that the use of the lighting roof main body is more suitable for the variation of environment The usage experience of high user and energy saving.

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, the structure that can also be shown according to these attached drawings obtains other attached drawings.

Fig. 1 is the three-dimensional signal for the embodiment that intelligent wind and rain provided by the utility model incudes parallel-moving type design of glass lighting roof Figure；

Fig. 2 is the schematic diagram of the section structure at the A-A in Fig. 1, wherein barn door is in first position；

Fig. 3 is the schematic diagram of the section structure at the A-A in Fig. 1, wherein barn door is in the second position；

Fig. 4 is the part-structure connection schematic diagram of the rainfall control circuit in Fig. 1；

Fig. 5 is the partial structure diagram of the driving device in Fig. 1；

Fig. 6 is the enlarged structure schematic diagram in Fig. 2 at B, wherein inhales iron connecting tube and mutually separates with electromagnet cover board；

Fig. 7 is the enlarged structure schematic diagram in Fig. 2 at B, wherein inhales iron connecting tube and mutually adsorbs with electromagnet cover board；

Fig. 8 is the part-structure connection schematic diagram of the Boiler pressure control circuit in Fig. 1.

Drawing reference numeral explanation:

Label	Title	Label	Title
				100	Lighting roof main body	41	Power device
1	Daylighting glass plate	42	Rack gear
				11	First glass plate	43	Driven gear
12	Second glass plate	5	Rainfall control circuit
				13	Installation cavity	51	Precipitation rain fall sensor
14	Logical gas entering opening	51a	First high level output end
				14a	Cross-drilled hole	52	First relay
14b	Vertical core	6	Lid seaming element
				15	Ventilation is portalled	61	Inhale iron connecting tube
2	Installing frame	62	Electromagnet cover board
				21	Sliding slot	7	Boiler pressure control circuit
3	Barn door	71	Air flow sensor
				31	Shaft	71a	Second high flat output end
4	Driving device	72	Second relay

The embodiments will be further described with reference to the accompanying drawings for the realization, functional characteristics and advantage of the utility model aim.

Specific embodiment

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 describing, it is clear that described embodiment is only a part of the embodiment of the utility model, rather than all Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are not making creative work premise Under every other embodiment obtained, fall within the protection scope of the utility model.

It is to be appreciated that if related in the utility model embodiment directionality instruction (such as upper and lower, left and right, it is preceding, Afterwards ...), then directionality instruction is only used for explaining opposite between each component under a certain particular pose (as shown in the picture) Positional relationship, motion conditions etc., if the particular pose changes, directionality instruction is also correspondingly changed correspondingly.

In addition, if relating to the description of " first ", " second " etc. in the utility model embodiment, " first ", " the Two " etc. description is used for description purposes only, and is not understood to indicate or imply its relative importance or is implicitly indicated meaning The quantity of the technical characteristic shown." first " is defined as a result, the feature of " second " can explicitly or implicitly include at least one A this feature.In addition, the meaning of the "and/or" occurred in full text, including three schemes arranged side by side, by taking " A and/or B " as an example, packet The scheme for including A scheme or B scheme or A and B while meeting.In addition, the technical solution between each embodiment can be tied mutually Close, but must be based on can be realized by those of ordinary skill in the art, when the combination of technical solution occur it is conflicting Or will be understood that the combination of this technical solution is not present when cannot achieve, also not the protection scope of the requires of the utility model it It is interior.

It gets better light to realize, design of glass lighting roof can be used on some public buildings with larger space, but It is that the use of design of glass lighting roof is there are still that can not ignore, for example, causing indoor light too strong when summer direct sunlight And temperature increases, and increases burden for indoor refrigeration system, wastes electric power energy.

In consideration of it, the utility model provides a kind of intelligent wind and rain induction parallel-moving type design of glass lighting roof, Fig. 1 to Fig. 8 is this reality The embodiment that parallel-moving type design of glass lighting roof is incuded with the intelligent wind and rain of novel offer, below with reference to specific attached drawing to energy wind Rain induction parallel-moving type design of glass lighting roof is illustrated.

It please refers to Fig.1 to Fig.3, in the present embodiment, the intelligence wind and rain induction parallel-moving type design of glass lighting roof includes daylighting Main body 100 is pushed up, the lighting roof main body 100 can be layed in the top of building integrally to form the intelligent wind and rain induction translation Formula design of glass lighting roof, or spliced by the size of multiple lighting roof main bodys 100 as required to form the intelligence Wind and rain incudes parallel-moving type design of glass lighting roof.The lighting roof main body 100 includes daylighting glass plate 1, installing frame 2, multiple barn doors 3 And driving device 4, wherein the daylighting glass plate 1 includes spaced first glass plate 11 and the second glass from outside to inside Glass plate 12, first glass plate 11 and second glass plate 12 can be made of same type of glass material, can also be with The material and structure of first glass plate 11 and second glass plate 12 are adjusted according to actual needs, for example, by It is set to outdoor in first glass plate 11, coarse setting can be made in the outer wall of first glass plate 11, to reduce illumination Diffusing reflection；Either the outer wall of first glass plate 11 opens up guiding gutter or water guide cambered surface, for quickly guiding described first Rainwater at glass plate 11, to prevent rainwater in the accumulation of the lighting roof main body 100；Since second glass plate 12 is set to Interior, can be arranged thermal insulation layer in the inner wall of second glass plate 12, cause indoor temperature to increase to reduce intense light irradiation.Institute State the side that installing frame 2 is transversely installed on the daylighting glass plate 1, with first glass plate 11, second glass Glass plate 12 is enclosed jointly to be set to form installation cavity 13, it should be noted that the transverse direction is not constituted to 2 installation position of installing frame Restriction, conversely, the installing frame 2 is mountable to any side of the daylighting glass plate 1, and can be by the extension side of the side To being defined as transverse direction；In addition, conventional glass joining technique, such as glass can be used in the remaining side of the daylighting glass plate 1 Glue etc. is sealed, or the installing frame can also be used and carry out installation sealing.Multiple barn doors 3 are along the installation cavity 13 transverse direction is successively laid, longitudinal extension and relatively described daylighting glass plate 1 of each barn door 3 along the installation cavity 13 In movable setting, there is the first position for appearing the plate face of the barn door 3 outwardly, at least partly illumination is from outdoor at this time Successively by first glass plate 11, the barn door 3 and second glass plate 12 and the screening need to be made to interior Tabula rasa 3 is along the second position that introversion and extroversion is extended, and at least partly illumination need to be successively by described the from outdoor to interior at this time One glass plate 11 and second glass plate 12.The quantity of multiple barn doors 3 with no restrictions, optionally, is arranged here The transverse area of the installation cavity 13 can be completely covered in splicing to multiple barn doors 3 when in the first position jointly； It is further to note that the light transmittance of the wherein at least part of multiple barn doors 3 and first glass plate 11, described The different setting of light transmittance of second glass plate 12 so that illumination successively pass through first glass plate 11, the barn door 3 with And light transmission capacity when second glass plate 12 is different from illumination and successively passes through first glass plate 11 and second glass Light transmission capacity when plate 12.The driving device 4 is for driving multiple barn doors 3 in the first position and the second Switch between setting to adjust the light transmission capacity of the lighting roof main body 100.

In the technical solution of the utility model, multiple barn doors 3 be mounted in the installation cavity 13 and by described the The protection of one glass plate 11, second glass plate 12 and the installing frame 2；Multiple institutes are driven by the driving device 4 The switching of barn door 3 between the first position and the second position is stated, the multiple barn doors 3 of adjusting can be corresponded to and blocked The area of illumination, so that the light transmission capacity of the lighting roof main body 100 is adjusted, so that the use of the lighting roof main body 100 is more suitable The usage experience of user and energy saving should be improved in the variation of environment.

In order to keep the adjusting of the light transmission capacity of the lighting roof main body 100 more intelligent, referring to Fig. 4, in this implementation In example, when the original state of multiple barn doors 3 is in the first position, the intelligence wind and rain incudes parallel-moving type glass Glass lighting roof further includes rainfall control circuit 5, and the rainfall control circuit 5 is electrically connected with the driving device 4, to pass through The on-off of the rainfall control circuit 5 controls the driving device 4 and works, wherein the rainfall control circuit 5 receive it is pre- If rainfall value when connect, rainfall value lower than it is default when disconnect.The preset rainfall value can be rainfall lowest threshold, make When rainfall is larger, the rainfall control circuit 5 can control the driving device 4 to drive multiple barn doors 3 towards described The second position is mobile, to ensure that interior has enough light transmission capacities；Rainfall it is smaller or without when, the rainfall control circuit 5 can control the driving device 4 that multiple barn doors 3 is maintained to be in the first position or towards the first position It is mobile, suitably to reduce indoor light transmission capacity.

The implementation of the rainfall control circuit 5 in the utility model have it is a variety of, below with most basic structure It is illustrated for composition, specifically, in the present embodiment, the rainfall control circuit 5 includes precipitation rain fall sensor 51 and first Relay 52, the precipitation rain fall sensor 51 is set to the lateral wall of first glass plate 11, and has the first high level output end 51a, first high level output end 51a export high level when the precipitation rain fall sensor 51 senses default rainfall value；Institute The first relay 52 and 51 common cathode of precipitation rain fall sensor are stated, the normally opened contact of first relay 52 is series at described Driving device 4, and one end of the electromagnet of first relay 52 and first high level output end 51a are electrically connected, Another termination common cathode.In addition, the rainfall control circuit 5 can be with tandem photosensitive sensor, the photosensitive sensor For sensing the intensity of illumination of environment, the precipitation rain fall sensor 51 is cooperated to use, so that controlling more when intensity of illumination is larger A barn door 3 is completely in the first position；When intensity of illumination gradually weakens or rainfall value is smaller, control multiple The barn door 3 is mobile accordingly to adjust light transmission capacity towards the second position；When rainfall value is larger, multiple screenings are controlled Tabula rasa 3 is completely in the second position.The circuit connecting mode of the photosensitive sensor can refer to the precipitation rain fall sensor 51 Circuit connecting mode, be not described further herein.

In addition, realizing there are many specific structures of the driving device 4 of above-mentioned function, it is not described in detail one by one herein, with For one of structure, please refer to Fig. 1 and Fig. 5, the axis that multiple barn doors 3 extend longitudinally can lateral rotation It is installed on the installing frame 2, for example, each barn door 3 is fixedly connected on a shaft 31 extended longitudinally, and can be with institute It states the rotation of shaft 31 and rotates, and the installing frame 2 transversely offers sliding slot 21, the opening of the sliding slot 21 is described in Installation cavity 13 is arranged.The driving device 4 includes power device 41, rack gear 42 and multiple driven gears 43, wherein described dynamic Power device 41 is set to the installing frame 2 or the daylighting glass plate 1；The rack gear 42 is set to the sliding slot 21, such as passes through One sliding rail is slidably mounted on the sliding slot 21, and the rack gear 42 is driven by the power device 41 and laterally moves setting；Institute It states multiple driven gears 43 to be arranged in a one-to-one correspondence with multiple barn doors 3, and each driven gear 43 is coaxially installed on One barn door 3 is close to one end of the installing frame 2, and multiple driven gears 43 are meshed with the rack gear 42, with quilt The rack gear 42 drives and multiple barn doors 3 is driven transversely to rotate.The power device 41 can be driving motor or Person's cylinder, can be set under reset condition, and each barn door 3 is in the first position, when the power device 41 is driven When moving the rack gear 42 and sliding along the transverse direction, the rotation of the driven gear 43 can be driven by the intermeshing of the gear teeth, to drive Move the pivoting that the shaft 31 rotates and drives the barn door 3.It should be noted that in practical application, can incite somebody to action The multiple grouping of the barn door 3 settings, the correspondence of barn door 3 described in every group are driven by a rack gear 42 and the power device 41 It is dynamic, so that the translation activity of barn door 3 described in every group can be carried out independently.Also, when multiple lighting roof main bodys 100 are spelled When connecing, the corresponding shaft 31 or the rack gear 42 for splicing the barn door 3 may be selected, realize to the intelligent wind and rain Incude the integrally-regulated of the light transmission capacity of parallel-moving type design of glass lighting roof.

In view of above-mentioned, the intelligence wind and rain induction parallel-moving type design of glass lighting roof can be according to the change of rainfall value or intensity of illumination Change and adjust light transmission capacity, can also further realize the adjusting of ventilatory capacity, please refers to Fig. 2 and Fig. 3, in the present embodiment, described One glass plate 11 offers logical gas entering opening 14, and second glass plate 12 offers ventilation and portals 15, and the logical gas entering opening 14 And the ventilation is portalled and is connected between 15 when multiple barn doors 3 are in the first position, so that gas is from outdoor Entered by the logical gas entering opening 14, through the installation cavity 13, and by the 15 inflows interior of portalling of ventilating, realizes gas Circulation and be blocked when multiple barn doors 3 are in the second position.Due at multiple barn doors 3 When the first position, that is, it is smaller or intensity of illumination is larger to represent the current environment magnitude that rains, therefore, the logical gas entering opening 14 portal with the ventilation 15 is connected to and can promote outdoor and indoor air circulation, increases indoor ventilatory capacity, helps to drop Low indoor temperature, to reduce the use intensity of indoor refrigeration equipment.Conversely, when multiple barn doors 3 are in described second When position, that is, the rainfall value represented under current environment is larger, and temperature is relatively low, therefore, the logical gas entering opening 14 and described logical Gas, which portals, to be blocked between 15 and is blocked and reduces the circulation of air without air circulation, or part, is facilitated to room It is inside kept the temperature, to improve the body-sensing comfort level of indoor resident.Portal 15 quantity of the logical gas entering opening 14 and the ventilation exists Herein with no restriction, it can be set to one or more.

Further, in the present embodiment, the logical gas entering opening 14 include the cross-drilled hole 14a that is in communication with the outside and with institute Multiple vertical core 14b of cross-drilled hole 14a connection are stated, multiple vertical core 14b are arranged in a one-to-one correspondence with multiple barn doors 3, so that When proper multiple barn doors 3 are in the second position, the inner end of multiple vertical core 14b is by multiple barn doors 3 Gai He.The cross-drilled hole 14a's and multiple vertical core 14b is used cooperatively, and has both been able to achieve the mesh of ventilatory capacity in above-mentioned regulation room , it additionally aids and rainwater is avoided to enter the lighting roof main body 100 or interior along the logical gas entering opening 14.In addition, settable The edge that the installation cavity 13 is equal to or slightly less than along introversion and extroversion size when each barn door 3 is in the second position Introversion and extroversion size, so that without the structure for improving the vertical core 14b, the barn door 3 is in the second position Shi Kezhi It connects the inner end for abutting the vertical core 14b, realizes and the lid of the vertical core 14b is closed, to reduce gas through the cross-drilled hole 14a, described Vertical core 14b enters the installation cavity 13.

Further, Fig. 2, Fig. 6 and Fig. 7 are please referred to, in the present embodiment, the intelligence wind and rain incudes parallel-moving type glass Lighting roof further includes lid seaming element 6, and the lid seaming element 6 includes inhaling iron connecting tube 61 and electromagnet cover board 62, and the suction iron connects Adapter tube 61 namely the connecting tube made of suction iron material, the suction iron connecting tube 61 are installed on the cross-drilled hole 14a and are in communication with the outside One end, such as be threadedly connected to the cross-drilled hole 14a, the iron connecting tube 61 of inhaling forms inwardly toward extended opening, institute It states inwardly toward extended opening to be not only easier to cooperate with the electromagnet cover board 62, also rainwater can be further prevented along institute Opening is stated to enter.The electromagnet cover board 62 namely the cover board made of electromagnetism iron material, wherein the electromagnetism iron material and institute It states suction iron material to be used in combination, the electromagnet cover board 62 can be installed on to elastic telescopic the daylighting glass plate along introversion and extroversion 1, and be powered when outwardly facing stretching and with the suctions iron connecting tube 61 it is attracting be accompanied by lid close it is described be open and when power is off It inwardly toward bounces back and is separated with the suction iron connecting tube 61 so that the external world is by cross-drilled hole 14a described in the open communication.It is settable The electromagnet cover board 62 is installed on the daylighting glass plate 1 by a spring, and the electromagnet cover board 62 is in the energized state Towards the mobile mutual absorption to realize the two in the direction for inhaling iron connecting tube 61, the spring is in flexible deformation shape at this time State, and elastic deformation force is equal to electromagnetic adsorption power；When power is off, the electromagnetic adsorption power cancels the electromagnet cover board 62, institute Electromagnet cover board 62 is stated by the elastic deformation force far from magnet connecting tube direction, is realized and the suction iron connecting tube 61 It separates and resets.

Then, referring to Fig. 8, in the present embodiment, the intelligence wind and rain induction parallel-moving type design of glass lighting roof further includes wind Amount control circuit 7, the Boiler pressure control circuit 7 are electrically connected with the electromagnet cover board 62, to pass through the Boiler pressure control electricity The on-off on road 7 controls the electromagnet cover board 62 and works, wherein the Boiler pressure control circuit 7 is receiving preset airflow value When connect, airflow value lower than it is default when disconnect.The preset airflow value can be set as air quantity max-thresholds, in the air quantity control It,, can also be only even if intensity of illumination is larger or rainfall value is smaller when the air quantity of current environment is larger under the control of circuit 7 processed The vertical control lid of electromagnet cover board 62 closes the suction iron connecting tube 61, and too strong air quantity is avoided to cause indoor confusion；Conversely, It, can electromagnetism described in independent control even if the smaller or rainfall value of intensity of illumination is larger when the air quantity of current environment is smaller Iron covering plate 62 and the suction iron connecting tube 61 separation, to realize the body-sensing comfort level for improving indoor resident to indoor ventilation.

Similarly, it can be achieved that the Boiler pressure control circuit 7 of above-mentioned function specific structure composition can there are many, herein It is not described in detail one by one, by taking one of structure as an example, referring to Fig. 8, in the present embodiment, the Boiler pressure control circuit 7 includes Air flow sensor 71 and the second relay 72, wherein the air flow sensor 71 is set to the lateral wall of first glass plate 11, And there is the second high level output end, second high level output end senses default airflow value in the air flow sensor 71 When export high level；Second relay 72 and 71 common cathode of air flow sensor, second relay 72 it is normally opened Contact series are in the electromagnet cover board 62, and one end of the electromagnet of second relay 72 and second high level are defeated Outlet is electrically connected, another termination common cathode.The Boiler pressure control circuit 7 being arranged such has structure simply excellent Point, can effectively save economic cost.

Further, in the present embodiment, each barn door 3 is equipped with a photovoltaic battery panel, in addition, the lighting roof Main body 100 be additionally provided with the photovoltaic battery panel be used cooperatively such as photovoltaic controller, battery and inverter, for Convert solar energy into the household electric used for resident, the photovoltaic battery panel, photovoltaic controller, battery and inverter Deng specific connection relationship can refer to the prior art, be not described further herein.The setting of the photovoltaic battery panel can be when multiple described Barn door 3 appears outwardly when being in the first position and acquires solar energy, so that multiple barn doors 3 be made full use of to be in The direction when first position, to save the electric power resource of resident.

The above is only the preferred embodiment of the present invention, and therefore it does not limit the scope of the patent of the utility model, Under all utility models in the utility model are conceived, equivalent structure made based on the specification and figures of the utility model Transformation, or directly/be used in other related technical areas indirectly and be included in the scope of patent protection of the utility model.

Claims (10)

1. a kind of intelligence wind and rain incudes parallel-moving type design of glass lighting roof, including lighting roof main body, which is characterized in that the lighting roof master Body includes:

Daylighting glass plate, including spaced first glass plate and the second glass plate from outside to inside；

Installing frame is transversely installed on a side of the daylighting glass plate, with first glass plate, second glass Plate encloses jointly to be set to form installation cavity；

Multiple barn doors, the transverse direction along the installation cavity are successively laid, and each barn door prolongs along the longitudinal direction of the installation cavity Stretch and the relatively described daylighting glass plate be in movable setting, have the first position for appearing the plate face of the barn door outwardly, And make the barn door along the second position that introversion and extroversion is extended；And

Driving device, for driving multiple barn doors to switch between the first position and the second position to adjust The light transmission capacity of the lighting roof main body.

2. intelligence wind and rain as described in claim 1 incudes parallel-moving type design of glass lighting roof, which is characterized in that further include rainfall control Circuit, the rainfall control circuit and the driving device are electrically connected, to be controlled by the on-off of the rainfall control circuit The driving device work, wherein rainfall control circuit connection when receiving preset rainfall value is lower than in rainfall value It is disconnected when default.

3. intelligence wind and rain as claimed in claim 2 incudes parallel-moving type design of glass lighting roof, which is characterized in that the rainfall control electricity Road includes:

Precipitation rain fall sensor set on the lateral wall of first glass plate, and has the first high level output end, the described first high electricity Flat output end exports high level when the precipitation rain fall sensor senses default rainfall value；

First relay is series at the driving with the normally opened contact of the precipitation rain fall sensor common cathode, first relay Device, and one end of the electromagnet of first relay and first high level output end are electrically connected, another termination institute State common cathode.

4. intelligence wind and rain as described in claim 1 incudes parallel-moving type design of glass lighting roof, which is characterized in that multiple barn doors The axis extended longitudinally can be installed on to lateral rotation the installing frame, and the installing frame transversely offers sliding slot, institute The opening for stating sliding slot is arranged towards the installation cavity；

The driving device includes:

Power device is set to the installing frame or the daylighting glass plate；

Rack gear, is set to the sliding slot, and the rack gear is driven by the power device and laterally moves setting；And

Multiple driven gears are arranged in a one-to-one correspondence with multiple barn doors, and each driven gear is coaxially installed on one The barn door is close to one end of the installing frame, and multiple driven gears are meshed with the rack gear, by the rack gear It drives and multiple barn doors is driven transversely to rotate.

5. intelligence wind and rain as described in claim 1 incudes parallel-moving type design of glass lighting roof, which is characterized in that first glass plate Offer logical gas entering opening, second glass plate offers ventilation and portals, and the logical gas entering opening and it is described ventilation portal between It is connected to when multiple barn doors are in the first position and when multiple barn doors are in the second position When be blocked.

6. intelligence wind and rain as claimed in claim 5 incudes parallel-moving type design of glass lighting roof, which is characterized in that the logical gas entering opening packet The multiple vertical cores for including the cross-drilled hole being in communication with the outside and being connected to the cross-drilled hole, multiple vertical cores and multiple barn doors It is arranged in a one-to-one correspondence, so that the inner end of multiple vertical cores is more when multiple barn doors are in the second position A barn door lid closes.

7. intelligence wind and rain as claimed in claim 6 incudes parallel-moving type design of glass lighting roof, which is characterized in that further include that lid is combined Part, the lid seaming element include:

Iron connecting tube is inhaled, is installed on one end that the cross-drilled hole is in communication with the outside, and form inwardly toward extended opening；With And

Electromagnet cover board can be installed on to elastic telescopic the daylighting glass plate along introversion and extroversion, and when being powered outwardly facing stretching And it closes the opening with the attracting lid that is accompanied by of the suction iron connecting tube and inwardly toward bounces back and connect with the suction iron when power is off Pipe separation passes through cross-drilled hole described in the open communication for the external world.

8. intelligence wind and rain as claimed in claim 7 incudes parallel-moving type design of glass lighting roof, which is characterized in that further include Boiler pressure control Circuit, the Boiler pressure control circuit and the electromagnet cover board are electrically connected, to pass through the on-off control of the Boiler pressure control circuit Make the electromagnet cover board work, wherein Boiler pressure control circuit connection when receiving preset airflow value, in airflow value Lower than it is default when disconnect.

9. intelligence wind and rain as claimed in claim 8 incudes parallel-moving type design of glass lighting roof, which is characterized in that the Boiler pressure control electricity Road includes:

Air flow sensor set on the lateral wall of first glass plate, and has the second high level output end, the described second high electricity Flat output end exports high level when the air flow sensor senses default airflow value；

Second relay is series at the electromagnetism with the normally opened contact of the air flow sensor common cathode, second relay Iron covering plate, and one end of the electromagnet of second relay and second high level output end are electrically connected, another termination The common cathode.

10. intelligence wind and rain as described in claim 1 incudes parallel-moving type design of glass lighting roof, which is characterized in that each shading Plate be equipped with a photovoltaic battery panel so that the photovoltaic battery panel when multiple barn doors are in the first position outwardly Appear and acquires solar energy.