CN208965731U - Membrane building roofing device and even membrane building - Google Patents

Abstract

The utility model provides a kind of membrane building roofing device and even membrane building, is related to the technical field of membrane building.A kind of membrane building roofing device includes: bottom of slope component, roof support component, roofing assembly and day window assembly；Wherein, for bottom of slope inter-module described at least two groups every setting, the day window assembly is set to the top between bottom of slope component described in two adjacent groups and being located at the bottom of slope component；The roof support component is connected between bottom of slope component described in the day window assembly and each group；The roofing assembly is connected between bottom of slope component described in the day window assembly and each group, and the roofing assembly is arranged on the roof support component.A kind of company membrane building includes above-mentioned membrane building roofing device.Alleviate the problems such as attached-greenhouse in the prior art (a kind of company membrane building) is aeration-cooling ineffective, vent seal is poor, heat insulating ability is poor.

Description

Membrane building roofing device and even membrane building

Technical field

The utility model relates to the technical fields of membrane building, build more particularly, to a kind of membrane building roofing device and company's film It builds.

Background technique

Plastic film steelframe beam-connected greenhouse is a kind of even membrane building.Plastic film steelframe beam-connected greenhouse on the market at present In, a part of top is covered with complete plastic film and is sealed, that is, is not provided at top for aeration-cooling day Window, roofing ventilation opening are arranged on gutter top, are directly covered and opened with the mode of " long axis+wound membrane ", so that greenhouse ventilation Mouth is lower than top of greenhouse；Aeration structure is equipped at the top of another part, with reference to Fig. 1, Fig. 2, but aeration structure is arranged in steel arch-shelf The triangle support frame structure at top, is not window frame skeleton structure, and window cover structure is vertically arranged plastic film wound membrane knot Structure, window cover film vertically lean against on the vertical edge of triangle support frame, and opening and closing organ is rotatable long axis, and window cover plastics are thin Film roll is located on long axis, and the window cover thinfilms of ventilation opening on long axis, roll window cover film and open ventilation opening by long axis, and window cover is thin Film is discharged from long axis, falls closing ventilation opening with long axis.

Top be not provided with traditional attached-greenhouse for aeration-cooling skylight there are the problem of are as follows: due to hot-air richness Top of greenhouse is combined in, so, during midsummer, the aeration-cooling effect that ventilation opening is arranged at gutter is limited, cannot be effective Discharge is enriched in the hot-air of top of greenhouse.And in order to reduce the hot-air in top of greenhouse enrichment, greenhouse roof length of grade is contracted It is short, so that the difference in height between greenhouse roof and bottom of slope is become very little, so, span very little (e.g., the Wen Luoshi of single roofing The single roofing span in greenhouse only has two meters or so, other plastic film attached-greenhouse monomer spans are at 4-8 meters), if often across room Upright supports are all directly used in face, and the indoor column of temperature will be made excessively dense, influence using.

Top be arranged aeration-cooling skylight traditional attached-greenhouse even membrane building there are the problem of are as follows: ventilation window cover be " long axis+wound membrane " component, the component upper end film are fixedly connected with aeration structure, and lower end is free end, which is blowing When can swing incessantly, that is to say, that ventilation opening incessantly by wind, " beat slightly by pico- opening-closing- Open ", in winter, this kind of greenhouse heat-insulating is very poor.

In the prior art, rope film tension structure is used there are also some, ventilation knot is set in top of greenhouse although can be realized Structure, but the use of normal film is limited, so that the application of the greenhouse with ventilation opening has certain limitation.

Based on problem above, propose that a kind of air permeability is good, and heat insulating ability also good company membrane building (including Lian Dongwen Room) it is particularly important.

The information disclosed in the background technology section is intended only to deepen the reason to the general background technology of the utility model Solution, and it is known to those skilled in the art existing to be not construed as recognizing or imply that the information is constituted in any form Technology.

Utility model content

The purpose of this utility model is to provide a kind of membrane building roofing device and even membrane building (including attached-greenhouse), To alleviate the problems such as attached-greenhouse in the prior art is aeration-cooling ineffective, vent seal is poor, heat insulating ability is poor.

In order to solve the above-mentioned technical problem, the technological means that the utility model is taken are as follows:

A kind of membrane building roofing device provided by the utility model, comprising: bottom of slope component, roof support component, roofing group Part and day window assembly.The bottom of slope component and the day window assembly are strip, the length of the day window assembly and the slope The length of bottom component is corresponding, this company of allowing for membrane building roofing device has good top portion ventilation condition；

Wherein, bottom of slope inter-module described at least two groups is set to bottom of slope described in two adjacent groups every setting, the day window assembly Top between component and positioned at the bottom of slope component；

The roof support component is connected between bottom of slope component described in the day window assembly and each group；

The roofing assembly is connected between bottom of slope component described in the day window assembly and each group, and the roofing assembly is set It sets on the roof support component.

It should be noted that the complex structure of bottom of slope component, roof support component and day window assembly three composition, so that Roofing assembly is divided into two parts, is covered each by the roof support component of day window assembly two sides, and upper end is connect with day window assembly, Lower end is connect with bottom of slope component, so that membrane building roofing device be made to be provided with daylighting, shading and heat insulation function, and realizes top The potential function of large area ventilation.Due to using day window assembly, so that membrane building ventilation opening is when needing to keep the temperature, heat insulating ability It will not be influenced by Changes in weather, especially the influence of wind-force effect.In contrast, (a kind of company film is built for traditional attached-greenhouse Build) the ventilation opening of " film+long axis " be difficult to the influence for overcoming weather to its heat insulating ability.

As a kind of further technical solution, the day window assembly include at least window frame skeleton structure, window cover structure and Open and close organ；

The window frame skeleton structure includes at least two strip window frames and multiple window frame rod pieces, and multiple window frame bars Part is connected to strip window frame described in each item by predetermined way, and the window frame skeleton structure is made to become the complex knot of stable strong Structure；

The window cover structure can be arranged in the window frame skeleton structure with opening, the window cover structure and the headstock gear It closes and the window frame skeleton structure connects；Alternatively, the window cover structure connects with headstock gear connection；

The opening and closing organ can drive the window cover structure to move relative to the window frame skeleton structure, for open or Person closes the window cover structure；

The two sides of the window frame skeleton structure are connect with the roof support component respectively, and respectively with the roofing group Part connection, the window cover structure can be arranged in the window frame skeleton structure with opening, and the headstock gear connection is connected to the window Between lid structure and the window frame skeleton structure；

The opening and closing organ can drive the window cover structure to move relative to the window frame skeleton structure, for open or Person closes the window cover structure.

Window frame skeleton structure includes strip window frame and multiple window frame rod pieces, and strip window frame includes at least two and sets in parallel The section components positioned at approximately the same plane set, multiple window frame rod pieces are in strip window frame along the prolonging direction of strip window frame Arranged for interval, both ends are connect with the long frame edge of strip window frame respectively；So, providing ventilation mouth is formed by plane Shape is connected to extraneous aerial and membrane building space up and down, so that skylight cover is also covered on window frame skeleton knot in planar when closed On structure, it is entirely avoided traditional greenhouse skylight wound membrane-long axis component, which is vertically arranged, to be affected by the wind usually in " closing-micro- It is crack to open " state in.

It should be noted that opening and closing organ is different from traditional greenhouse skylight ventilation opening wound membrane-long axis component, wound membrane-length Shaft assembly leans on self gravity and the synergistic effect of wind resistance film pressing rope to resist the influence blown, and opening and closing organ is the power by itself Window cover structure is tightened in window frame skeleton structure by square effect, for example, opening and closing organ is " shaft+connecting rod+brake motor " group At device start motor when needing to open skylight cover, drive shaft pushes connecting rod, jack up skylight cover to setting position, Shutdown brake, skylight cover are locked；When needing to close skylight cover, start motor reversal, be driven in the reverse direction shaft, pulls connecting rod, Skylight cover is pulled down to setting position, shutdown brake, skylight cover is locked again.Skylight cover not will receive setting wind once locking The influence of power.

Preferably, window frame skeleton structure includes at least two strip window frames and multiple window frame rod pieces, two window slots Frame is arranged in parallel in a plane, and multiple window frame rod pieces are connected to strip window frame；

One long side of window cover structure is connect by multiple hinge arrangements with a strip window frame, and organ and window cover are opened and closed Connection in the middle part of structure；

Alternatively, being connect only in the middle part of window cover structure with headstock gear connection.

The top of roof support component and the top of roofing assembly are connect with strip window frame respectively.

Preferably, window frame skeleton structure includes three strip window frames and multiple window frame rod pieces, and three strip window frames are flat Row setting is connected to each strip window frame by predetermined way in a three-dimensional space, multiple window frame rod pieces, and composition section is top The window frame skeleton structure of the downward up-side down triangle of point；

One long side of window cover structure is connect by multiple hinge arrangements with a superposed strip window frame, is opened and closed It is connect in the middle part of organ and window cover structure；

Alternatively, top peripheral of the window cover structure in up-side down triangle window frame skeleton structure, only connects with headstock gear connection.

The top of roof support component and the top of roofing assembly connect with positioned at two strip window frames of top peripheral respectively It connects.

Preferably, window frame skeleton structure includes four strip window frames and multiple window frame rod pieces, and four strip window frames are flat Row setting is connected to each strip window frame in a three-dimensional space, by predetermined way, and composition section is the window frame skeleton of rectangle Structure；

One long side of window cover structure is connect by multiple hinge arrangements with a superposed strip window frame, is opened and closed It is connect in the middle part of organ and window cover structure；

Alternatively, top peripheral of the window cover structure in rectangular frame skeleton structure, only connects with headstock gear connection.

The top of roof support component and the top of roofing assembly respectively with two strip window frames being located at top peripheral Connection.

As a kind of further technical solution, the day window assembly further includes thermal-insulating sealing part, the first connector and Two connectors；

The thermal-insulating sealing part is set to the strip window frame and the window cover structure in the window frame skeleton structure Between, the thermal-insulating sealing part is connect with the window cover structure and/or the strip window frame, is closed for the window cover structure Afterwards, it is sealed between the window cover structure and the strip window frame；

First connector is arranged on the strip window frame of the window frame skeleton structure, for connecting the room Face component, second connector are arranged on the strip window frame and/or the window frame rod piece in the window frame skeleton structure, For connecting the roof support component.

It should be noted that day window assembly is due to using window frame skeleton structure and window cover structure, so as to window cover knot Structure is designed to heat preservation insulation window cover (preferably, being insulated the thermal resistance material of window cover using foamed plastic plate, such as extruded sheet), Ke Yi The good thermal-insulating sealing structure of air-tightness, i.e. thermal-insulating sealing part are set between window cover structure and window frame structure, done so, once window Lid structure be open and close organ closing, will between window cover structure and window frame skeleton structure due to the presence of thermal-insulating sealing part structure It is tight to combine, the thermal energy in even membrane building (including attached-greenhouse) can be made not scatter and disappear from day window assembly easily in winter Fall, plays the role of heat preservation and energy-efficient, using window frame skeleton structure, the organ for open and close skylight cover can be installed, it is real The free switch of existing skylight cover.And traditional window cover structure is the assembly of " wound membrane+long axis ", in windy day, it is difficult to overcome frequency It is numerous to be swung away from ventilation opening, make the defect that air heat energy is lost with convected air outflow in greenhouse.

It should also be noted that, the strip window frame in window frame skeleton structure can be with strip clod wash at " Z-shape steel " of setting It is made, in this way, multiple window frame rod pieces, the first connector, the second connector, thermal-insulating sealing part structure and headstock gear can be made Close respectively with " Z-shape steel " present on multiple faces are connect.

As a kind of further technical solution, the bottom of slope component includes the first girder construction, third connector and the 4th Connector；

The third connector and the 4th connector are all set in first girder construction, and the third connector is used In connecting the roofing assembly and first girder construction, the 4th connector is for connecting the roof support component and institute State the first girder construction.

It should be noted that the both ends of roof support component and bottom of slope component, day window assembly connection type there are many, than Such as, it can weld.But the second connector and the 4th connector is respectively set on day window assembly and bottom of slope component, room may be implemented The assembled of the both ends of face support component and day window assembly, bottom of slope component is installed, and electric welding technique, the company of being more advantageous to are eliminated The anti-corrosion of socket part position is durable.

As a kind of further technical solution, first girder construction includes beam framework and the row that is arranged on beam framework Water gutter, the third connector are arranged on the beam framework or are arranged on the drainage gutter, the drainage gutter It is connected to the beam framework, the bottom end of the roofing assembly is connect with the third connector, enables rainwater from the room It is flowed on the component of face in the drainage gutter；

It should be noted that when truss structure of the beam framework using " Z-shape steel " structure composition of setting, third connector It can be separately positioned in the different sides of " Z-shape steel " with the upper edge of drainage gutter, third connector is arranged in drainage gutter The upper place on upper edge enables rainwater to flow into drainage gutter from roofing assembly.

Alternatively, first girder construction has female groove structures, the third connector is arranged in the female groove structures On, the bottom end of the roofing assembly is correspondingly connected with the third connector on the female groove structures, enables rainwater It is flowed into the female groove structures from the roofing assembly.

It should be noted that beam framework includes at least the truss structure equipped with empty stomach chamber, drainage gutter can use membrane material system At can also be made of sheet metal or plastic plate, third connector is pressed in the upper edge of drainage gutter, or draining day Edge is upper on ditch, and is fixed as one with chord member of truss, and third connector includes at least film-pressing tank and press mold spring, such It talks about, building enclosure (such as plastic film or fabric membrane material) and third connector (film-pressing tank+press mold spring) in roofing assembly Connection, when raining, the rainwater on roofing assembly flows into drainage gutter along slope surface.

As a kind of further technical solution, the roof support component includes steel frame construction and longitudinal connection structure, Steel frame construction described in multiple groups is along the longitudinal direction of even membrane building object monomer (including attached-greenhouse monomer) (that is, day window assembly and slope The extending direction of bottom component) arranged for interval, and steel frame construction described in multiple groups is connect with the longitudinal connection structure, in this way, can So that roofing assembly has the stability of setting in the longitudinal direction, the effect of longitudinal wind-force in setting range can be resisted；

Preferably, the steel frame construction is located at day window assembly two sides, and the steelframe by the way of seperated The upper end of structure is connect with the two sides of the day window assembly respectively, lower end respectively with the bottom of slope at day window assembly two sides Component connection；(in this case, day window assembly becomes each side connector in roofing assembly semi-laminar, semi-laminar There is split type steel frame construction the chamfered shape of setting not only may be used after connecting with day window assembly and bottom of slope component in roofing assembly To resist the deformation of self gravity initiation, and the external load (such as snow load) in setting range can be resisted.)

Another advantage of split type steel frame construction is that space needed for manufacturing is small, is simple to manufacture, convenient transport, assembling is light Ingeniously.

Other scheme is, the steel frame construction by the way of one, and the both ends of the steel frame construction respectively with institute The bottom of slope component connection at day window assembly two sides is stated, top is connect with the day window assembly.

It should be noted that steel frame construction is steel arch-shelf form when the steel frame construction of roofing assembly is an integral structure, The top of steel arch-shelf is arranged in its window assembly, and in this case, day window assembly is suitble to the window frame being made of two strip window frames Skeleton structure, the setting of window frame skeleton structure in steel arch-shelf top outer, roofing assembly upper end directly with the strip of corresponding side The connection of shape window frame.

Preferable scheme is that steel frame construction is made of " a few word steel ", longitudinal connection structure is made of U-shaped steel, in this way, Steel frame construction is suitble to quickly be assembled with assembled mode.

As a kind of further technical solution, the roofing assembly includes roofing ontology, and the roofing ontology at least wraps Plastic film or fabric membrane material are included, the upper end of the roofing ontology is connect with the strip window frame in the day window assembly, Lower end is connect with the bottom of slope component, and middle part is laid on the outside of the roof support component；

Alternatively, the roofing assembly includes roofing ontology and roofing miscellaneous function part, the roofing miscellaneous function part is at least Including film pressing rope, the upper end of the roofing ontology and roofing miscellaneous function part is connect with the day window assembly, and lower end is and bottom of slope Component connection, the middle part of the roofing ontology are connect with the roof support component, are pressed in the middle part of the film pressing rope described The bottom of slope component is fixed at the top of roofing ontology and the strip window frame, both ends, is supported for enhancing the roofing ontology The ability of wind resistance power effect.

It should also be noted that, fabric membrane material refers to the composite wood for being coated with plastic resin on textile fabric or braided fabric Material.When plastic film and fabric membrane material are transparent material or trnaslucent materials, the membrane building being made of roofing ontology can be made Planting is used for for greenhouse；When plastic film and fabric membrane material are opaque material, the membrane building that is made of roofing ontology Paulin room be can be used as planting edible mushroom, perhaps for animal-breeding perhaps for workshop or for storehouse etc..

A kind of company membrane building provided by the utility model includes membrane building roofing device, bottom of slope support device, membrane building Facade device and membrane building gable device；

The edge of the membrane building roofing device is built with the membrane building facade device being correspondingly arranged and the film respectively Build the connection of gable device；

The bottom of slope support device includes rod structure, and the rod structure is set to the lower section of the bottom of slope component, and described Rod structure is fixedly connected with the bottom of slope component；Alternatively, the bottom of slope support device includes rod structure and the second girder construction, it is described Bottom of slope component is arranged at intervals in second girder construction, and the more rod structures are supported below second girder construction.

Compared with prior art, a kind of membrane building roofing device provided by the utility model and even possessed by membrane building Technical advantage are as follows:

A kind of membrane building roofing device provided by the utility model includes bottom of slope component, roof support component, roofing assembly With day window assembly, the bottom of slope component of day window assembly and two sides is linked together respectively by roof support component, to constitute Then roofing assembly is arranged on roof support component, thus forms membrane building roofing by the basic framework of membrane building roofing； Further, day window assembly is arranged in membrane building top of the slope position, and day window assembly passes through respectively along the two sides of membrane building transverse direction Roofing assembly sealing, day window assembly can be used in being connected to membrane building inner air and outer air as a result, to play the role of connection cooling, together When, a part of roof support component as membrane building roofing basic framework substitutes the ridge in a kind of traditional greenhouse (membrane building) Column, so that greenhouse roof does not have barrier with down space, is conducive to below a kind of greenhouse (membrane building) roofing without backbone Removable thermal insulation device is installed in space, the mechanized farming in field when being also beneficial to the following planting plants of roofing.

In addition, membrane building roofing device provided by the utility model, supports roofing assembly by roof support component, by This, can be used general thin or fabric membrane material, and independent of using rope film；Also, since the day for ventilation is arranged Window assembly is capable of increasing the span of membrane building roofing, so that the relative height differential between membrane building top of the slope and bottom of slope is bigger, in turn It is capable of forming stack effect, is further conducive to membrane building top portion ventilation.

A kind of company membrane building provided by the utility model, including above-mentioned membrane building roofing device, the company film is built as a result, Building technical advantage and effect achieved includes above-mentioned membrane building roofing device technical advantage achieved and effect, herein no longer It repeats.

Detailed description of the invention

It, below will be right in order to illustrate more clearly of specific embodiment of the present invention or technical solution in the prior art Specific embodiment or attached drawing needed to be used in the description of the prior art are briefly described, it should be apparent that, it is described below In attached drawing be that some embodiments of the utility model are not paying creativeness for those of ordinary skill in the art Under the premise of labour, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the schematic diagram of the top portion ventilation structure (closed state) of company membrane building in the prior art；

Fig. 2 is the schematic diagram of the top portion ventilation structure (open state) of company membrane building in the prior art；

Fig. 3 be the first form provided by the embodiment of the utility model membrane building roofing device (day window assembly be in close Closed state) schematic diagram；

Fig. 4 be the first form provided by the embodiment of the utility model membrane building roofing device (day window assembly movement opens Open mode) schematic diagram；

Fig. 5 be the first form provided by the embodiment of the utility model membrane building roofing device (day window assembly rotation open Open mode) schematic diagram；

Fig. 6 be second of form provided by the embodiment of the utility model membrane building roofing device (day window assembly be in close Closed state) schematic diagram；

Fig. 7 be the third form provided by the embodiment of the utility model membrane building roofing device (day window assembly be in close Closed state) schematic diagram；

Fig. 8 be the 4th kind of form provided by the embodiment of the utility model membrane building roofing device (day window assembly be in close Closed state) schematic diagram；

Fig. 9 is membrane building roofing device (the skylight group provided by the embodiment of the utility model with roofing miscellaneous function part Part is in close state) schematic diagram；

First schematic diagram of day window assembly in the membrane building roofing device that Figure 10 provides for utility model embodiment；

Figure 11 is the second schematic diagram of day window assembly in membrane building roofing device provided by the embodiment of the utility model；

Figure 12 is that the bottom of slope component of the first form in membrane building roofing device provided by the embodiment of the utility model shows It is intended to；

Figure 13 is that the bottom of slope component of second form in membrane building roofing device provided by the embodiment of the utility model shows It is intended to；

Figure 14 is the schematic diagram of the company membrane building of the first form provided by the embodiment of the utility model；

Figure 15 is the schematic diagram of the company membrane building of second of form provided by the embodiment of the utility model；

Figure 16 is the schematic diagram of the company membrane building provided by the embodiment of the utility model with heat-proof device.

Icon:

100- days window assemblies；110- window frame skeleton structure；120- window cover structure；130- opens and closes organ；131- turns Axis；132- connecting rod；133- lever；140- thermal-insulating sealing part；The first connector of 150-；The second connector of 160-；

200- roof support component；210- steel frame construction；220- longitudinal connection structure；

300- bottom of slope component；The first girder construction of 310-；311- beam framework；312- drainage gutter；The connection of 320- third Part；The 4th connector of 330-；

400- roofing assembly；410- roofing ontology；420- roofing miscellaneous function part；

500- bottom of slope support device；510- rod structure；The second girder construction of 520-；

600- membrane building facade device；

700- heat-proof device；710- heat insulation sheet；720- slideway；730- draws organ.

Specific embodiment

The technical solution of the utility model is clearly and completely described below in conjunction with attached drawing, it is clear that described Embodiment is the utility model a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, originally Field those of ordinary skill every other embodiment obtained without making creative work belongs to practical Novel protected range.

It is in the description of the present invention, it should be noted that term " center ", "upper", "lower", "left", "right", " perpendicular Directly ", the orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only For ease of description the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have it is specific Orientation, be constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.In addition, term " the One ", " second ", " third " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection；It can be mechanical connection, be also possible to be electrically connected；Can be directly connected, can also indirectly connected through an intermediary, It can be the connection inside two elements.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition The concrete meaning of language in the present invention.

The utility model is further described in detail below through specific implementation examples and in conjunction with the accompanying drawings.

Specific structure is as shown in Fig. 3-Figure 16.

A kind of membrane building roofing device provided in this embodiment includes bottom of slope component 300, roof support component 200, roofing Component 400 and day window assembly 100, by roof support component 200 respectively by the bottom of slope component 300 of day window assembly 100 and two sides It links together, to constitute the basic framework of membrane building roofing, then roofing assembly 400 is arranged in roof support component On 200, membrane building roofing is thus formed；Further, day window assembly 100 is arranged in membrane building top of the slope position, and skylight Component 100 passes through roofing assembly 400 along the two sides of membrane building transverse direction respectively and seals, and day window assembly 100 can be used in being connected to as a result, Membrane building inner air and outer air, to play the role of connection cooling, meanwhile, roof support component 200 is used as the basic bone of membrane building roofing A part of frame substitutes the backbone in a kind of traditional greenhouse (membrane building), without backbone, so that greenhouse roof does not have with down space There is barrier, is conducive to that removable thermal insulation device is installed with down space in a kind of greenhouse (membrane building) roofing, is also beneficial to roofing The mechanized farming in field when following planting plants.

In addition, membrane building roofing device provided in this embodiment, supports roofing assembly by roof support component 200 400, thus, it is possible to using general thin or fabric membrane material, and independent of using rope film；Also, due to being arranged for leading to The day window assembly 100 of wind, is capable of increasing the span of membrane building roofing, so that the relative height differential between membrane building top of the slope and bottom of slope It is bigger, and then day window assembly 100 is made to be capable of forming stack effect in ventilation, be further conducive to membrane building top portion ventilation.

It should be noted that the mesh of day window assembly 100 is arranged for the company membrane building as planting purposes Are as follows: first, transparent lighting structure (including roofing ontology 410 and the roofing miscellaneous function in the roofing assembly 400 of membrane building Part 420) it is separated at the top of membrane building, and the adjacent end portion of transparent lighting structure in roofing assembly 400 can be connected, fix, with Just aeration-cooling airflow channel is formed；Second, the opening and closing organ 130, Neng Goushe for opening and closing and using freely can be set Set the window cover structure 120 and high gas barrier thermal-insulating sealing part 140, the cooling of realization summer ventilation and Winter protection energy conservation of high heat preservation Double effects；Third makes the top of roof support component 200 become stationary state by free state, improves membrane building skeleton Structure integral strength；4th, it can use the synergistic effect of day window assembly 100 and bottom of slope component 300, be arranged built in membrane building The roofing miscellaneous function part 420 of the functions such as heat preservation, shading, dehumidifying；5th, membrane building roof structure span can be made to become more Greatly, membrane building summer ventilation is neither influenced, and can be reduced the use of membrane building roof structure supporting member (that is, rod structure 510) Quantity.

The purpose of roof support component 200 are as follows: first, support day window assembly 100；Second, roofing assembly 400 is supported, and Undertake external force suffered by roofing assembly 400；Third substitutes spine structure 510, saves backbone, facilitate the production in membrane building Using.Since (day window assembly 100 is corresponding with 300 length of bottom of slope component, i.e. length for the top portion ventilation structure provided with large area Quite), very big (e.g., being greater than 8 meters) that the span of single membrane building roof structure can be arranged, so that membrane building roof and slope Relative height differential between bottom becomes much larger, and makes the window cover structure 120 of day window assembly 100 when opening, can form significant cigarette Chimney effect, is conducive to top portion ventilation.

The purpose of bottom of slope component 300 is set are as follows: first, setting connects the drainage gutter 312 of a membrane building；Second, connection is solid Surely connect the adjacent roof support component 200 of a membrane building, improve the integral strength of roof support component 200；Third, even film The adjacent end portion for building the roof membrane structure of transparent (or opaque) in adjacent roofing assembly 400 is connected to drainage gutter 312；4th, it can use the synergistic effect of day window assembly 100 and bottom of slope component 300, the heat preservation built in membrane building be set, is hidden The roofing functional structure layer (that is, roofing miscellaneous function part 420) of the functions such as yin, dehumidifying.

The purpose of roofing assembly 400 is set are as follows: while sealing membrane building roof structure, utilizes day window assembly 100 Roofing assembly 400 is disconnected, is separated, and forms top portion ventilation air stream outlet channel, so that roofing assembly 400 be made to form two parts.It needs It should be noted that the roofing assembly 400 for being located at 100 two sides of day window assembly can be it is symmetrical, can also be according to actually making It is asymmetrical with needing to be designed to.

Day window assembly 100 is arranged in the highest point of membrane building, skylight group in membrane building roofing device provided in this embodiment Part 100 is along the longitudinally elongated setting of membrane building monomer, that is, and the length of day window assembly 100 and the longitudinal length of membrane building are corresponding, this Sample one can make membrane building top portion ventilation area accomplish to match with membrane building occupied area, and allowing most had in summer The discharge of effect ground is enriched in the hot-air at the top of membrane building inner space, achievees the purpose that cool down rapidly.

In the present embodiment, since the setting of day window assembly 100 is in membrane building highest point, day window assembly 100 and membrane building facade Aeration structure matches, and is used for membrane building summer ventilation, when window cover structure 120 is opened, can form stack effect, pass through chimney The effect of effect can quickly form strong air convection phenomenon up and down in membrane building, play strong ventilation drop Temperature effect.

In the optional technical solution of the present embodiment, with reference to Fig. 3-10, day window assembly 100 includes at least window frame skeleton structure 110, window cover structure 120 and opening and closing organ 130；The two sides of window frame skeleton structure 110 are connect with roof support component 200 respectively, And connect respectively with roofing assembly 400, window cover structure 120 can be arranged in window frame skeleton structure 110 with opening, and open and close organ 130 are connected between window cover structure 120 and window frame skeleton structure 110；Opening and closing organ 130 can drive window cover structure 120 opposite It is moved in window frame skeleton structure 110, for being turned on or off day window assembly 100.

Specifically, window frame skeleton structure 110 is the strip frame structure made of profile, two strips are included at least Window frame and multiple window frame rod pieces, and multiple window frame rod pieces are connected to each strip window frame by predetermined way, make window frame skeleton knot Structure 110 becomes stable and firm complex structure；Profile used be for membrane building roofing device it is specific need and it is special Manufacture and design.The planar structure body that a kind of rectangle can be made in window frame skeleton structure 110 (is flat on sky similar to plane girder In), it is also possible to a kind of stereochemical structure (being the space truss of triangle similar to section) of strip.Window frame skeleton structure 110 mainly include long margin frame, short frame and multiple window frame supporting rods (that is, window frame rod piece).

Needs are manufactured according to practical, and in the present embodiment preferably, the profile for manufacturing long margin frame is about 6-12 meters, this length Degree is not only suitble to truck transport, but also the opposite usage quantity for reducing membrane building window frame, reduces window frame connection operation amount.In order to window frame Skeleton structure 110 manufactures into standard component with industrialized mode, and the length of single window frame skeleton structure 110 is arranged to 6-12 meters, Width is arranged to 30-100 centimetres, correspondingly, window cover structure 120 also manufactures into the structure that 6-12 meters long, 30-100 centimetres wide Body, so, the day window assembly 100 of a monomer membrane building may include a window frame skeleton structure 110 and window cover structure 120, or be connected as one and formed by multiple window frame skeleton structures 110 and 120 head and the tail of window cover structure.Window frame skeleton structure 110 Need to be arranged sealing strip (that is, thermal-insulating sealing part 140) between window cover structure 120, sealing strip is elastomeric hydrophobic structure Body does not absorb water, does not freeze, is anti-aging, and the sectional area of sealing strip wants sufficiently large, to overcome window frame skeleton structure 110 micro After deformation, window cover structure 120 still can closely be covered in window frame skeleton structure 110, keep the temperature membrane building in winter. Thermal-insulating sealing part 140 can connect in window cover structure 120, also can connect in window frame skeleton structure 110.

Opening and closing organ 130 in its window assembly 100 is a systematic structure, is mounted in window frame skeleton structure 110, and It is connected between window cover structure 120 and window frame skeleton structure 110 by multiple connecting rods 132 or lever 133, drive link 132 Or there are many mode that lever 133 moves, and can be with 131 drive link 132 of shaft, can also pass through wirerope pull lever 133 movement, can also with rack drives connecting rod 132 perhaps lever 133 thus make window cover structure 120 close or open.

In the optional technical solution of the present embodiment, day window assembly 100 further includes thermal-insulating sealing part 140, the first connector 150 With the second connector 160；Thermal-insulating sealing part 140 is set to strip window frame and window cover structure 120 in window frame skeleton structure 110 Between, thermal-insulating sealing part 140 is connect with window cover structure 120 and/or strip window frame, for right after the closing of window cover structure 120 It is sealed between window cover structure 120 and strip window frame；First connector 150 is arranged on strip window frame, for connecting Roofing assembly 400 and window frame skeleton structure 110, the second connector 160 are set to strip window frame and/or window frame rod piece, are used for Connect roof support component 200 and window frame skeleton structure 110.

It should be noted that above scheme is preferred embodiment, it is suitable for fabricated membrane building roofing device, roof support There are many component 200 and the connection type of window frame skeleton structure 110, can be welding, rivet, are bolted.In window slot Second connector 160 (200 connector of roof support component) is set on frame, is suitable for bolt 200 He of roof support component Window frame skeleton structure 110 is connected as one.

If using plastic film as the transparent configuration in roofing assembly 400, so that it may be cooperated with film-pressing tank and press mold spring It uses, as the first connector 150, plastic film is fixed in window frame skeleton structure 110, to make membrane building roofing device (in addition to skylight) is sealed.

Since single window frame skeleton structure 110 and window cover structure 120 are all very long (preferred length reaches 6-12 meters), applying In the process, membrane building roofing device is influenced by snow and rain, so, whether window frame skeleton structure 110 or window cover Structure 120 is likely to that a certain amount of deformation occurs, if sealing strip sectional dimension is less than window frame skeleton structure 110 and window cover knot The deflection of structure 120 just will appear gap between window frame skeleton structure 110 and window cover structure 120, this is in winter can not be to film Building heat preservation.As a result, the thermal-insulating sealing part 140 in the present embodiment be a kind of biggish Special sealing strips of sectional area (preferably, Diameter of section is about at 5-10 centimetres), it is sufficient to make up window frame skeleton structure 110 and the deformation of window cover structure 120 and the seam of generation Gap.It is made Preferable scheme is that thermal-insulating sealing part 140 is wrapped in flexible floccule with watertightness membrane material, e.g., uses film It is wrapped in the works of glue spraying cotton strip shape.

In the optional technical solution of the present embodiment, with reference to Figure 12,13, bottom of slope component 300 includes the first girder construction 310, the Three connectors 320 and the 4th connector 330；Third connector 320 and the 4th connector 330 are all set in the first girder construction 310 On, and third connector 320, for connecting roofing assembly 400 and the first girder construction 310, the 4th connector 330 is for connecting room Face support component 200 and the first girder construction 310.

It should be noted that bottom of slope component 300 is set at the eaves of membrane building, bottom of slope for only membrane building Component 300 is directly arranged at ground for junctional membrane building roof device and membrane building facade device 600 or bottom of slope component 300 Face, the first girder construction 310 being set in the bottom of slope component 300 on ground can be beams of concrete.For even membrane building, The case where positioned at the bottom of slope component 300 of marginal position, is located at the bottom of slope component 300 at middle part as in only membrane building, Play the role of connecting adjacent membranes building roof device, also act as to form membrane building lowest spatial, and excludes film and build Rain water on roof is built, the effect of membrane building roofing accumulated snow pressure is undertaken.

First girder construction 310 is the skeleton of bottom of slope component 300, and many related function structures can be set on this skeleton Part, for example, third connector 320 (400 connector of roofing assembly), the 4th connector 330 (200 connector of roof support component) It is arranged in the first girder construction 310.

In the optional technical solution of the present embodiment, the first girder construction 310 includes beam framework 311 and is arranged in beam framework 311 On drainage gutter 312, the space truss structure that the first girder construction 310 is made of four chord members, not according to chord member structure Together, third connector 320 can be not only fixed on corresponding chord member with the upper edge of drainage gutter 312 in same position, but also can To be separately positioned at the different location of corresponding chord member with drainage gutter 312；The bottom end of roofing assembly 400 and drainage gutter 312 are correspondingly arranged, and roofing assembly 400 is connect with third connector 320, and rainwater is flowed into from roofing assembly 400 In drainage gutter 312；Alternatively, the first girder construction 310 has female groove structures, third connector 320 is arranged in female groove structures On, and the bottom end of roofing assembly 400 is corresponding with female groove structures, and the third on roofing assembly 400 and female groove structures connects Fitting 320 connects, and rainwater is flowed into female groove structures from roofing assembly 400.

It should be noted that in the present embodiment preferably, the first girder construction 310 is arranged to beam framework with reference to Figure 12 311, and drainage gutter 312 is set on beam framework 311, drainage gutter 312 is in addition to being also used to for adjacent rain water on roof to be discharged The roofing assembly 400 of two neighboring membrane building monomer is connected, so that two neighboring monomer membrane building is tightly combined and sealed, makes phase Sleet on adjacent two roofings directly slides in drainage gutter 312.Third connector 320 and the first connector 150 can be used Identical object is made, and e.g., is combined using film-pressing tank+press mold spring of same size.

Alternatively, using the U-shaped steel structure with setting intensity as 310 (the first girder construction of the first girder construction with reference to Figure 13 310 have female groove structures), it not only played a supporting role, but also play the role of drainage gutter 312；Or with U-shaped steel structure and its The assembly of his profile structure is as the first girder construction 310.

In the optional technical solution of the present embodiment, roof support component 200 includes steel frame construction 210 and longitudinal connection structure 220, multiple groups steel frame construction 210 is along between bottom of slope component 300 and the prolonging direction (longitudinal direction of membrane building monomer) of day window assembly 100 Every arrangement, and multiple groups steel frame construction 210 is connect with longitudinal connection structure 220.

Further, steel frame construction 210 is located at 100 two sides of day window assembly, and steel frame construction by the way of seperated 210 upper end is connect respectively by predetermined way with the two sides of the window frame skeleton structure 110 in day window assembly 100, lower end respectively with Bottom of slope component 300 at its 100 two sides of window assembly connects.

Alternatively, steel frame construction 210 using one by the way of, and the both ends of steel frame construction 210 respectively with 100 liang of day window assembly Bottom of slope component 300 at side connects, and top is connect by predetermined way with the window frame skeleton structure 110 in day window assembly 100.

It should be noted that day window assembly 100 is connected as one two parts roof support component 200 for a preferred side Case, the program make the individual smalltype and lightweight of the roof support component 200, are conducive to manufacture, transport and assembling.Roofing There are many support component 200 and the connection type of day window assembly 100, bottom of slope component 300, can be welding, riveting, bolt connect.

Further, roof support component 200 includes skewed steel frame construction 210 (that is, cant beam) and longitudinally connected knot Structure 220 (that is, longitudinal bar member), longitudinal connection structure 220 is arranged in parallel with window frame skeleton structure 110, the first girder construction 310, more A cant beam is arranged along the prolonging direction interval of window frame skeleton structure 110, longitudinal bar member and the first girder construction 310, each cant beam The second connector 160 connection in the window frame skeleton structure 110 of side corresponding with being arranged in, lower end and setting exist respectively for upper end The 4th connector 330 connection in first girder construction 310 of corresponding side, middle part is connected with the longitudinal bar member of corresponding side.

It should be noted that cant beam (that is, steel frame construction 210) can be of a straight line type or arc-shaped, can be single It, can also the truss structure made of a variety of section combinations made of profile.Preferably, cant beam is made of oval bend pipe, Or " several " word steel made of strip is bent, such cant beam is simple to manufacture, body in the case where meeting setting intensity Type is small, light-weight.

Longitudinal connection structure 220 (longitudinal bar member/longitudinal tie) is at least one of setting on steel frame construction 210, for preventing Only cant beam is swung in the longitudinal direction, to improve the stability of steel frame construction 210 and the overall stability of membrane building roofing device.

Spacing between multiple cant beams (that is, steel frame construction 210) is preferably 1-3 meters, and composition steel frame construction 210 owns The structure composition of cant beam can be identical, can also be different.In order to reduce the cost of steel frame construction 210, cant beam be can be set At two kinds, i.e. alternate combinations of the cant beam of truss-like and single sectional cant beam, it is preferable that be arranged between every two truss-like cant beams Two single sectional cant beams, mutual spacing are 1-2 meters, cant beam end and the 4th connector 330 or the second connector It is preferably bolted between 160.

With reference to Fig. 3-7,9, steel frame construction 210 may include two independent structural bodies, and two independent structural bodies are logical It crosses day window assembly 100 to be connected as one, becomes a new complete structural body.The mode for building this new structural body has very It is more, for example, can first be arranged row's prop day window assembly 100 support and be temporarily fixed at it is scheduled aerial, then again Each cant beam lower end of composition steel frame construction 210 is separately connected and is fixed on corresponding bottom of slope component 300, then, then each The upper end of a cant beam, which is separately connected, to be fixed on the corresponding position of day window assembly 100, then, longitudinal tie is arranged, finally removes Prop.

With reference to Fig. 8, steel frame construction 210 can also use integral structure, both ends respectively with 100 down either side of day window assembly Bottom of slope component 300 connect, top is connect with day window assembly 100, specifically, the steel frame construction 210 of integral type both can be at this It is directly laid with one whole plastic film on a complete structural body, builds up greenhouse roof structure in the prior art, it can also Day window assembly 100 is arranged in the top outer of this complete structural body, it is then laid with two relatively small plastics of area Film builds up the membrane building roofing device in the present embodiment, it is clear that day window assembly 100 plays compartment roofing component 400, shape The effect in film forming building top draft channel.

Further, roof support component 200 includes multiple inverted U steel frame constructions 210 and longitudinal connection structure 220, is indulged It is arranged in parallel to connection structure 220 (longitudinal bar member) and window frame skeleton structure 110, the first girder construction 310, multiple inverted U steelframes Structure 210 along longitudinal direction connection structure 220 prolonging direction interval setting, the top of each inverted U steel frame construction 210 respectively with it is right Answer the window frame skeleton structure 110 of position to connect, middle part is connect with longitudinal connection structure 220 respectively, lower end respectively with the first beam knot The 4th connector 330 connection on structure 310.The inverted U steel frame construction 210 includes the semicircular structure object that Open Side Down, parabolic Cable architecture object etc. can be single sectional and be made, and be also possible to the inverted U truss structure made of more profiles.

In the optional technical solution of the present embodiment, roofing assembly 400 includes roofing ontology 410, and roofing ontology 410 at least wraps Plastic film or fabric membrane material are included, the upper end of the roofing ontology 410 is by predetermined way and the window being arranged in day window assembly 100 The first connector 150 connection in frame skeleton structure 110, lower end connect with the third connector 320 being arranged on bottom of slope component 300 It connects, middle part is connected to roof support component 200；Alternatively, roofing assembly 400 includes roofing ontology 410 and roofing miscellaneous function part 420, which includes at least film pressing rope, and the upper end of roofing ontology 410 and roofing miscellaneous function part 420 is equal It is connect with the window frame skeleton structure 110 in day window assembly 100, lower end is connect with bottom of slope component 300, in roofing ontology 410 Portion is connected to roof support component 200, and top (such as press mold of roofing ontology 410 is arranged in multiple roofing miscellaneous function parts 420 Rope) or lower section (such as based Dehumidification Membranes).

It should be noted that the roofing ontology 410 uses transparent configuration, including flexible and transparent structure, the flexible and transparent knot Structure is including at least one in plastic film, transparent fabric membrane material, layer flexible plastic hollow coiled material.Preferably, the first connection Part 150 and third connector 320 select film-pressing tank and press mold spring component, film-pressing tank to be respectively fixedly connected in window frame skeleton structure 110 and beam framework 311 on, flexible and transparent structure perhaps transparent fabric membrane material plastic film or transparent is knitted using plastic film Object membrane material top and bottom edge is used cooperatively by film-pressing tank and press mold spring and is connect with day window assembly 100 and bottom of slope component 300, Wherein, film-pressing tank is to be arranged on day window assembly 100 and bottom of slope component 300 in advance, plastic film or transparent fabric membrane material Middle part tightened by the support of steel frame construction 210 in roof support component 200, taut exhibition.Wherein, transparent fabric membrane material is transparent It is coated made of transparent plastic resin on textile fabric or transparent braid object.

It should be noted that roofing assembly 400 further includes film pressing rope in windy area, film pressing rope is auxiliary as a kind of roofing On the plastic film or transparent fabric membrane material for helping functor 420 to be arranged between two neighboring steel frame construction 210 (that is, cant beam) The plastic film between two neighboring inverted U steel frame construction 210 or transparent fabric membrane material upper surface is either arranged in surface, Both ends are fastened respectively between bottom of slope component 300 and day window assembly 100, alternatively, both ends are fastened respectively to 100 two sides of day window assembly Bottom of slope component 300 on, middle part pressing in the window frame skeleton structure 110 of roofing ontology 410 and day window assembly 100, with enhancing 410 plastic film of roofing ontology or transparent fabric membrane material resist the function of wind-force effect.

Further, in the indoor and outdoor of membrane building there are in the case where the larger temperature difference, roofing assembly 400 only includes one layer of modeling Expect film, that is, outer layer plastic film, it is possible to occur the problem that first, outer layer plastic film inner surface can condense drop Water；Second, the thermal energy in membrane building can be conducted to outside membrane building quickly by outer layer plastic film, be made under membrane building heat insulating ability Drop；Third increases the air humidity in membrane building, is unfavorable for plant growth and development, or influence normal use.For above-mentioned Problem, effective solution method are that at least one layer of inner plastic is arranged in the inside of outer layer plastic film (that is, roofing ontology 410) Film (that is, roofing miscellaneous function part 420) plays the role of following three: first accordingly, receives outer layer plastic film drippage Dew drop, and received dew is guided to the preset reception position (exsiccation) of bottom of slope component 300；Second, it is in membrane building Portion's heat preservation energy-saving reduces heat-energy losses (insulation effect) caused by heat radiation, thermal convection, heat transfer；Third improves in membrane building Air themperature reduces relative air humidity in membrane building (improvement environment).The inner plastic film being arranged as a result, is another kind Roofing miscellaneous function part 420.

But in the skeleton structure of conventional plastic film steelframe booth, due to being not provided with corresponding mounting structure, Inner plastic film can not be just set, that is, roofing miscellaneous function part 420, conventional plastic film steelframe booth especially passes as a result, The plastic film steelframe beam-connected greenhouse of system, just can not normal use when the subzero several years occurs in the external world due to that can not keep the temperature.

Membrane building roofing device provided in this embodiment, since top is provided with day window assembly 100 and is equipped with window frame skeleton Structure 110, bottom are provided with bottom of slope component 300 and are provided with the first girder construction 310, so that under roof support component 200, At least one layer of inner plastic film can be set between day window assembly 100 and bottom of slope component 300 (that is, another roofing auxiliary Functor 420), for uncovering, keeping the temperature and dehumidify.

It should be noted that this roofing miscellaneous function part 420 is only applicable to uncover, keep the temperature and dehumidify, due to there is roofing The outer layer plastic film of ontology 410 is protected, and the inner plastic film of composition roofing miscellaneous function part 420 is not exposed to snow and rain Infringement, inner plastic film does not need very thick very heavy very solid as a result, as long as the transparency is good, ageing resistance is good, preferably Ground selects the plastic film of 6 or less thickness as inner plastic film.

The set-up mode of the inner plastic film of this roofing miscellaneous function part 420 is formed including at least following two: the One, directly rope film, perhaps fascia is hung between day window assembly 100 and bottom of slope component 300 the modeling in rope film or fascia Material film top and bottom edge is fixed on day window assembly 100 and bottom of slope component 300 (rope film and fascia on preset film-pressing tank It is all the complex structure of tensile structure and membrane material, the tensile structure of rope film and the material of membrane material are different, the tension member of fascia It is identical as the material of membrane material)；Second, interval setting support film rope, holds in the palm film rope two between day window assembly 100 and bottom of slope component 300 End be anchored in the window frame skeleton structure 110 of day window assembly 100 and the first girder construction 310 of bottom of slope component 300 on, then modeling Material film is placed on support film rope and tightens, and the upper end and lower edge are fixed on day window assembly 100 and bottom of slope component 300 and preset Film-pressing tank on.

A kind of company membrane building provided in this embodiment includes membrane building roofing device, bottom of slope support device 500, membrane building Facade device 600, membrane building gable device and heat-proof device 700；The edge of membrane building roofing device respectively be correspondingly arranged Membrane building facade device 600 and membrane building gable device connection；Bottom of slope support device 500 includes rod structure 510, rod structure 510 are set to the lower section of bottom of slope component 300, and rod structure 510 is fixedly connected with bottom of slope component 300；Alternatively, bottom of slope support device 500 include rod structure 510 and the second girder construction 520, and bottom of slope component 300 is arranged at intervals in the second girder construction 520, more column knots Structure 510 is supported on 520 lower section of the second girder construction.

It should be noted that even membrane building includes at least two membrane building roofing devices, two neighboring membrane building roofing Device is connected as one by bottom of slope component 300, the bottom of slope component 300 and membrane building facade device 600 close to transverse edge side Connection, membrane building roofing device longitudinal direction both ends are connect with membrane building gable device, and company's membrane building is enable to seal.

It should be noted that company membrane building provided in this embodiment, bottom of slope component 300 are arranged in bottom of slope support device On 500, the first way of the bottom of slope support device 500 be include rod structure 510, the second way be include rod structure 510 With the second girder construction 520.

First way: referring to Figure 14, and the first girder construction 310 is connect with the upper end of rod structure 510, more rod structures 510 are arranged along the length direction interval of the first girder construction 310, are used to support the first girder construction 310, bear the first girder construction 310 The advantage of the external force of transmitting, this kind of mode is, not any in the membrane building space between two neighboring bottom of slope component 300 Structural obstacle object is conducive to large scale equipment and carries out production operation in membrane building.

The second way: referring to Figure 15, when connecting a membrane building interior space does not need that dense pillar is arranged, or be not required to When longer steel frame construction 210 is set, the second girder construction 520 can be set, and the second girder construction is supported by rod structure 510 520, so, rod structure 510 is arranged under the first girder construction 310 along the length direction of the first girder construction 310, But be arranged under the second girder construction 520 along the length direction of the second girder construction 520, multiple first girder constructions 310 are arranged On the second girder construction 520, so as to reduce the usage amount of rod structure 510.

Further, heat-proof device 700 is set to below membrane building roofing device, and heat-proof device 700 is along bottom of slope component 300 and day window assembly 100 length direction be one piece of seamless connection bonded structure, heat-proof device 700 is suspended at multiple cunnings On road 720, slideway 720 includes at least plastic-steel line, which is connected between two adjacent groups bottom of slope component 300, or connection Between adjacent bottom of slope component 300 and day window assembly 100, heat-proof device 700 can be opened up under external force along slideway 720 It opens or folds, for being even membrane building daylighting or heat preservation.

Specifically, heat-proof device 700 is along even one end of membrane building transverse direction and bottom of slope component 300 with reference to Figure 16 Fixed seal connection, the other end are connect with adjacent 300 air-tight movable of bottom of slope component, and along even membrane building longitudinal direction Both ends are sealed against with membrane building gable device respectively；Bottom of slope component of the heat-proof device 700 relative to air-tight movable connection side 300 can turn on or off, for being connected to or separating the company membrane building space of about 700 two sides of heat-proof device.

It should be noted that fixed seal connection refers between one end of heat-proof device 700 and bottom of slope component 300 after connection It is irremovable, and junction is in sealing condition, and air stream cannot be flowed up and down by the heat-proof device 700 of junction； It seals against and refers to and can be moved apart at any time after the both ends of heat-proof device 700 are connect with membrane building gable device respectively, however, After connection, junction is in sealing condition；After air-tight movable connection refers to that heat-proof device 700 is connect with bottom of slope component 300 It can separate, after connection, junction is in sealing condition, and air stream cannot pass through heat-proof device 700 in junction It flows up and down.

In company membrane building provided in this embodiment, it is not provided with spine structure 510 under day window assembly 100, such one Come, so that without any structural obstacle object in the membrane building space between two groups of bottom of slope components 300, it is excellent based on such structure A complete heat-proof device 700, this complete heat-proof device 700 can be arranged in gesture between adjacent two bottom of slope component 300 Four edges sealing can be sufficiently connect and realized with two neighboring bottom of slope component 300, can also be with corresponding membrane building mountain Wall device connects and realizes sealing, thus, separate the space of about 700 two sides of heat-proof device.It can be according to actual needs The contexture for designing heat-proof device 700, makes thermal resistance, air-tightness and the thermal radiation resistance permeability of heat-proof device 700 reach pre- Fixed requirement makes Lian Dong so that heat-proof device 700 be made to meet actual needs in terms of preventing heat transfer, thermal convection and heat radiation Membrane building reaches scheduled thermal insulation property, to allow even membrane building is annual to be used for vegetables production or other activities, especially It is that transparent company membrane building in the winter of northern cold season, equipped with heat-proof device 700 can plant warm season vegetable.It should The thermal insulation construction layer of heat-proof device 700 can be made of the monolayer material of setting thickness, that is, thermal insulation layer is thicker, can also be with setting The multilayer insulation techonosphere for determining thickness is made, i.e., every layer of thermal insulation layer is relatively thin.

In the optional technical solution of the present embodiment, heat-proof device 700 includes the heat insulation sheet 710 of multiple head and the tail connection；Phase It is connected with slideway 720 between adjacent two groups of bottom of slope components 300, heat insulation sheet 710 is slidably connected with slideway 720,710 energy of heat insulation sheet It is enough to be unfolded or fold along slideway 720.

It should be noted that heat insulation sheet 710 includes at least polyethylene foamed sheet material, bubble film sheet, plastic film, nothing Woven fabric, benzene plate, one in extruded sheet, in order to extend the service life of heat insulation sheet 710, improve its ageing resistance, improve it Aluminizer can be arranged on the surface of heat insulation sheet 710 in mechanical strength.Slideway 720 can be made of flexible wire, can also be used Profile is made.Wire rod includes metal wire rod, nonmetallic wire rod or composite material.

Heat insulation sheet 710 be arranged on slideway 720, also can be set under slideway 720, be provided with multilayer every In thermal 700, heat-proof device 700 can also be arranged above and/or under slideway 720 simultaneously.Heat insulation sheet 710 is arranged in cunning Method on road 720 includes heat-proof device 700 being arranged on 720 surface of slideway, one end thereof is anchored on the first beam of side In structure 310, another end can be pulled on slideway 720 and move, or pave expansion in keeping warm mode, or fold It shrinks and is in non-keeping warm mode.By the way that corresponding connector is arranged for connecting heat insulation sheet 710 and slideway 720, connector is extremely It include less close ring and connecting rod, connecting rod is parallel to the first girder construction 310, in 710 predetermined position of heat insulation sheet and heat shield The connection of the interval of material 710, close ring are arranged along the length direction interval of connecting rod, are connected between connecting rod and slideway 720, are closed Ring can move under the action of drawing organ 730 along slideway 720, to drive heat insulation sheet 710 mobile.

Further, containment member, sectional area are set between 710 movable end of heat insulation sheet and the first girder construction 310 Sufficiently large, so, after suitable bending occurs for movable end, containment member also can be 710 movable end of heat insulation sheet and the Gap sealing between one girder construction 310 is tight.Containment member can be made of gum sprayed cotton and watertightness coiled material, can also use length Strip shaped air sac is made.

Finally, it should be noted that the above various embodiments is only to illustrate the technical solution of the utility model, rather than it is limited System；Although the present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should Understand: it is still possible to modify the technical solutions described in the foregoing embodiments, or to some or all of Technical characteristic is equivalently replaced；And these are modified or replaceed, it does not separate the essence of the corresponding technical solution, and this is practical new The range of each embodiment technical solution of type.

Claims (10)

1. a kind of membrane building roofing device characterized by comprising bottom of slope component, roof support component, roofing assembly and skylight Component；

Wherein, bottom of slope inter-module described at least two groups is set to bottom of slope component described in two adjacent groups every setting, the day window assembly Between and be located at the bottom of slope component top；

The roof support component is connected between bottom of slope component described in the day window assembly and each group；

The roofing assembly is connected between bottom of slope component described in the day window assembly and each group, and roofing assembly setting exists On the roof support component.

2. membrane building roofing device according to claim 1, which is characterized in that the day window assembly includes at least window frame bone Frame structure, window cover structure and opening and closing organ；

The window frame skeleton structure includes at least two strip window frames and multiple window frame rod pieces, and multiple window frame rod pieces are pressed Predetermined way is connected to strip window frame described in each item, and the window frame skeleton structure is made to become the complex structure of stable strong；

The window cover structure can be arranged in the window frame skeleton structure with opening, the window cover structure and the opening and closing organ and The window frame skeleton structure connection；Alternatively, the window cover structure connects with headstock gear connection；

The opening and closing organ can drive the window cover structure to move relative to the window frame skeleton structure, for opening or closing Close the window cover structure；

The top of the roof support component and the top of the roofing assembly respectively correspondingly connect with the window frame skeleton structure It connects.

3. membrane building roofing device according to claim 2, which is characterized in that the day window assembly further includes thermal-insulating sealing Part, the first connector and the second connector；

The thermal-insulating sealing part is set between the strip window frame and the window cover structure in the window frame skeleton structure, The thermal-insulating sealing part is connect with the window cover structure and/or the strip window frame, for after window cover structure closing It is sealed between the window cover structure and the strip window frame；

First connector is arranged on the strip window frame, for connecting the roofing assembly, second connector It is set to the strip window frame and/or the window frame rod piece, for connecting the roof support component.

4. membrane building roofing device according to claim 1, which is characterized in that the bottom of slope component includes the first beam knot Structure, third connector and the 4th connector；

The third connector and the 4th connector are all set in first girder construction, and the third connector is for connecting Connect the roofing assembly and first girder construction, the 4th connector is for connecting the roof support component and described the One girder construction.

5. membrane building roofing device according to claim 4, which is characterized in that first girder construction include beam framework and Drainage gutter, the third connector are arranged on the beam framework or the drainage gutter, and the drainage gutter is connected to On the beam framework, the bottom end of the roofing assembly is correspondingly arranged with the drainage gutter, and the roofing assembly and described the The connection of three connectors, enables rainwater to flow into the drainage gutter from the roofing assembly；

Alternatively, first girder construction has female groove structures, the third connector is arranged on the female groove structures, institute The bottom end and the female groove structures for stating roofing assembly are correspondingly arranged, and the on the roofing assembly and the female groove structures The connection of three connectors, enables rainwater to flow into the female groove structures from the roofing assembly.

6. membrane building roofing device according to claim 1-5, which is characterized in that the roof support component Including steel frame construction and longitudinal connection structure, steel frame construction described in multiple groups is stretched along the bottom of slope component and the day window assembly Length direction arranged for interval, and steel frame construction described in multiple groups is connect with the longitudinal connection structure.

7. membrane building roofing device according to claim 6, which is characterized in that the steel frame construction is using seperated side Formula, is located at day window assembly two sides, and the upper end of the steel frame construction by predetermined way respectively with the day window assembly In window frame skeleton structure two sides connection, lower end is connect with the bottom of slope component at day window assembly two sides respectively.

8. membrane building roofing device according to claim 6, which is characterized in that the steel frame construction is using integrated side Formula, and the both ends of the steel frame construction are connect with the bottom of slope component at day window assembly two sides respectively, top is by predetermined Mode is connect with the window frame skeleton structure in the day window assembly.

9. membrane building roofing device according to claim 1-5, which is characterized in that the roofing assembly includes Roofing ontology, the roofing ontology include at least plastic film or fabric membrane material, and predetermined party is pressed in the upper end of the roofing ontology Formula is connect with the first connector in the window frame skeleton structure being arranged in the day window assembly, and lower end and setting are in the bottom of slope Third connector connection on component, middle part is connected to the roof support component；

Alternatively, the roofing assembly includes roofing ontology and roofing miscellaneous function part, the roofing miscellaneous function part is included at least Film pressing rope, the roofing ontology are connect with the first connector in the window frame skeleton structure in the day window assembly, lower end with Third connector on bottom of slope component connects, and is connected to the roof support component, the press mold in the middle part of the roofing ontology It is pressed in the middle part of rope on the roofing ontology and the window frame skeleton structure, both ends are connected to the bottom of slope component, for increasing The strong roofing ontology resists the ability of wind-force effect.

10. a kind of company membrane building, which is characterized in that including the described in any item membrane building roofing devices of claim 1-9, It further include bottom of slope support device, membrane building facade device and membrane building gable device；

The edge of the membrane building roofing device respectively with the membrane building facade device and the membrane building mountain that are correspondingly arranged Wall device connection；

The bottom of slope support device includes rod structure, and the rod structure is set to the lower section of the bottom of slope component, and the column knot Structure is fixedly connected with the bottom of slope component；Alternatively, the bottom of slope support device includes rod structure and the second girder construction, the bottom of slope Component is arranged at intervals in second girder construction, and the more rod structures are supported below second girder construction.