CN207355000U - Vibrate rope film greenhouse roofing and rope film greenhouse - Google Patents

Abstract

The utility model provides a kind of vibration rope film greenhouse roofing and rope film greenhouse, is related to the technical field of Plastic film greenhouse.One kind vibration rope film greenhouse roofing includes rope film greenhouse roofing and vibrational structure；The rope film greenhouse roofing includes support membrane structure and membrane material structure, and the membrane material structure setting is in the support membrane structure；The support membrane structure both ends are connected respectively with top girder construction and the connection of bottom girder construction；The vibrational structure is arranged on rope film greenhouse roofing；A kind of rope film greenhouse includes vibration rope film greenhouse roofing, spine structure, side column structure, gutter rod structure and facade structures, so as to form rope film greenhouse；By setting vibrational structure on rope film greenhouse roofing, so as to be conducive to the landing of accumulated snow, so that reducing rope film greenhouse skeleton steel using amount, cost is saved, and easy to snow removing, be conducive to rope film greenhouse and sunlight (including scattering light) is received in snowy day.

Description

Vibrate rope film greenhouse roofing and rope film greenhouse

Technical field

The utility model is related to the technical field of Plastic film greenhouse, more particularly, to one kind vibration rope film greenhouse roofing and Rope film greenhouse.

Background technology

When designing Keelof green house structure, it is necessary to consider the snow load of locality, in order to meet to resist the needs of snow load, need The very solid of Keelof green house structure design, so as to cause the increase of Keelof green house structural steel amount, the dead weight of Keelof green house structure Increase so that greenhouse cost increases.

Existing greenhouse in use, must manually remove the snow once snowing, especially for greenhouse roofing, manually remove It is very big to avenge task difficulty, it is costly；If removing the accumulated snow on greenhouse roof not in time in snowy day, will influence in greenhouse Receive sunlight, or even greenhouse roof structure of crushing.Plastic film greenhouse roofing is very smooth, as long as plastic film greenhouse roofing exists The rational gradient, newly avenging for accumulating on pitched roof will slide from top to bottom under effect of vibration along greenhouse slope surface.

Based on problem above, a kind of rope film greenhouse roofing with vibrational structure provided by the utility model so that setting It need not consider snow load when counting rope film greenhouse, thus greatly reduce the steel using amount of Keelof green house structure, reduce greenhouse structure Cost；It since vibrational structure can be with continuous work, or can at any time be worked, passed through according to the accumulated snow situation in greenhouse roof structure The problem of greenhouse of large area is with regard to snow removing artificial without misgivings is sought, and does not influence greenhouse and receives sunlight in time.

Utility model content

The purpose of this utility model is to provide one kind vibration rope film greenhouse roofing and rope film greenhouse, to alleviate the prior art Middle roofing accumulated snow cannot get timely processing and make it that snow load is larger, increase the steel using amount of Keelof green house structure, and manually snow removing Inconvenience, influences the problems such as greenhouse receives sunlight.

A kind of vibration rope film greenhouse roofing provided by the utility model includes rope film greenhouse roofing and vibrational structure；

The rope film greenhouse roofing includes support membrane structure and membrane material structure, and the membrane material structure connects with the support membrane structure Connect；

One end of the support membrane structure is used to be connected with the top girder construction in rope film greenhouse skeleton, and the other end is used for and rope Bottom girder construction connection in film greenhouse skeleton；

The vibrational structure is arranged in the support membrane structure, the top girder construction and the bottom girder construction at least On one.

Further, the vibrational structure is arranged between the support membrane structure and the top girder construction so that described The upper end of support membrane structure is connected by the vibrational structure with the top girder construction.

Further, the vibrational structure is arranged between the support membrane structure and the bottom girder construction so that described The lower end of support membrane structure is connected by the vibrational structure with the bottom girder construction.

Further, the vibrational structure is arranged on the lower section of the support membrane structure, and in the two of the support membrane structure At the position at end or middle part.

Further, the vibrational structure is arranged on the top of the top girder construction, and the top girder construction both sides The support membrane structure be fixedly connected with the vibrational structure.

Further, the top girder construction includes at least the girder construction made of single sectional, alternatively, by more section bars Manufactured girder frame structure；

The girder frame structure includes top boom, web member and lower boom, and the web member is connected to the top boom and institute State between lower boom；

The vibrational structure is connected with the top boom in the girder frame structure.

Further, the support membrane structure and the composite construction that the membrane material structure is integral type, the membrane material structure bit The membrane material structure is hanged in the lower section of the support membrane structure, or positioned at the top of the support membrane structure, the support membrane structure Sky is at the position of rope film greenhouse roofing setting.

It should be noted that the composite construction of the integral type includes at least three types：First type includes more supports Membrane structure, multiple film bar structures and membrane material structure, and multiple film bar spacing structures are arranged in parallel in a side surface of membrane material structure On, made to form double hot threads between film bar structure and membrane material structure with special heat seal equipment, the two is combined as a whole, in film bar Support membrane structure is provided between structure and membrane material structure and double hot threads；Second of type includes membrane material structure, support membrane structure With shell-like connection structure, shell-like connection structure is wrapped in support membrane structure, and the spaced and parallel surface for being arranged on membrane material structure side On, it is connected to one by the modes such as heat seal and membrane material structure；The third type includes support membrane structure and membrane material structure, support It is connected to one between membrane structure and membrane material structure by modes such as heat seals.Support membrane structure is the tension member of strip, Including ropy (terylene rope), ribbon (polyester belt), filiform (dacron thread) etc..

It should also be noted that, for the awning film equipped with anti-stream drop functional layer construction, it is not easy on the surface of anti-stream drop layer Support membrane structure is set, and support membrane structure will be arranged on a side surface of the not anti-stream drop functional layer of awning film, this kind of membrane material structure , it is necessary to which awning film is equipped with anti-stream drips the one of functional layer when the complex structure formed with support membrane structure is as rope film greenhouse roofing Side surface is downward, so, support membrane structure is located in the top of membrane material structure.

For support membrane structure and membrane material structure for integral type composite construction when being mounted to rope film greenhouse roofing, close to rope The support membrane structure and membrane material structure needs in the integral type composite construction near film greenhouse top girder construction and bottom girder construction It is partially separated out, and is connected at the diverse location of top girder construction and bottom girder construction.

Further, support membrane structure and the membrane material structure are two mutually independent structures, the membrane material structure On the support membrane structure, press mold component is installed in the support membrane structure, and the press mold component is arranged on the film The top of material structure, and the membrane material structure is pressed in the support membrane structure by press mold component.

A kind of rope film greenhouse provided by the utility model includes vibration rope film greenhouse roofing, spine structure, side column structure, day Ditch rod structure, facade structures and breast-wall；

The spine structure is connected between the top girder construction and the earth, is used to support the top girder construction；

The side column structure is located at the outside of the spine structure on rope film greenhouse both sides, is used to support rope film greenhouse both sides The bottom girder construction；

The gutter rod structure is arranged between the two neighboring spine structure, is used to support rope film greenhouse centre position Bottom girder construction；

The facade structures and the breast-wall are arranged at the periphery of rope film greenhouse, and the bottom of the membrane material structure with The facade structures connection, enables rope film greenhouse to seal.

Further, the top end of the gutter rod structure is provided with the gutter structure for draining or row's snow, and institute Gutter structure is stated to be located between two adjacent groups rope film greenhouse roofing.

The beneficial effects of the utility model are：

A kind of vibration rope film greenhouse roofing provided by the utility model includes rope film greenhouse roofing and vibrational structure, wherein, Rope film greenhouse roofing mainly by support membrane structure and membrane material structure composition, and membrane material structure setting in support membrane structure or under, And be connected with support membrane structure, and ask one end of membrane structure to be connected with the top girder construction in rope film greenhouse truss, the other end and rope Bottom girder construction connection in film greenhouse truss structure；Vibrational structure is arranged on support membrane structure, top girder construction and bottom beam knot On at least one in structure, for making rope film greenhouse roofing produce vibration, so that accumulated snow slides from rope film greenhouse roofing.

A kind of rope film greenhouse provided by the utility model includes vibration rope film greenhouse roofing, spine structure, side column structure, day Ditch rod structure, facade structures and breast-wall, wherein, spine structure is connected between top girder construction and the earth, for propping up Support girder construction；Side column structure setting is used to support the bottom beam of rope film greenhouse both sides in the outside of the spine structure to keep to the side Structure；Gutter rod structure is arranged between two neighboring spine structure, is used to support the bottom beam knot in rope film greenhouse centre position Structure；Facade structures and breast-wall are arranged at the periphery of rope film greenhouse, and the bottom of membrane material structure is connected with facade structures so that Rope film greenhouse is sealed.

A kind of vibration rope film greenhouse roofing and rope film greenhouse provided by the utility model by rope film greenhouse roofing or Vibrational structure is set on rope film greenhouse truss and make it that rope film greenhouse roofing produces vibration, so as to be conducive to accumulated snow from rope film greenhouse Slid on roofing, to mitigate squeezing action of the accumulated snow load to rope film greenhouse roofing and whole rope film greenhouse skeleton, therefore, When designing rope film greenhouse, then it need not consider too many accumulated snow load, the steel using amount of rope film greenhouse skeleton structure can be greatly reduced, drop The low construction cost of rope film greenhouse；Also, manually snow removing inconvenience can also be solved the problems, such as using vibration rope film greenhouse roofing； Vibration rope film greenhouse roofing continuous work or can also work at any time according to the accumulated snow situation on rope film greenhouse roofing so that product Snow slides from rope film greenhouse roofing in time, and effectively alleviating accumulated snow influences the problem of rope film greenhouse receives sunlight.

Brief description of the drawings

, below will be right in order to illustrate more clearly of the utility model embodiment or technical solution of the prior art Embodiment or attached drawing needed to be used in the description of the prior art are briefly described, it should be apparent that, describe below In attached drawing be the utility model some embodiments, for those of ordinary skill in the art, do not paying creativeness On the premise of work, other attached drawings can also be obtained according to these attached drawings.

Fig. 1 is that the vibrational structure that the utility model embodiment provides is arranged at shaking between support membrane structure and top girder construction The schematic diagram of dynamic search film greenhouse roofing；

Fig. 2 is that the vibrational structure that the utility model embodiment provides is arranged at shaking between support membrane structure and bottom girder construction The schematic diagram of dynamic search film greenhouse roofing；

Fig. 3 is that the vibrational structure that the utility model embodiment provides is arranged at below support membrane structure close to support membrane structure top The schematic diagram of vibration rope film greenhouse roofing at position；

Fig. 4 is that the vibrational structure that the utility model embodiment provides is arranged at below support membrane structure among support membrane structure The schematic diagram of vibration rope film greenhouse roofing at position；

Fig. 5 is that the vibrational structure that the utility model embodiment provides is arranged at below support membrane structure close to support membrane structure bottom The schematic diagram of vibration rope film greenhouse roofing at position；

Fig. 6 is the vibration rope that the vibrational structure that the utility model embodiment provides is arranged at roof beam superstructure position The schematic diagram of film greenhouse roofing；

Fig. 7 is the schematic diagram of the vibration rope film greenhouse roofing and top girder construction shown in Fig. 6.

Icon：100- rope film greenhouse roofings；110- holds in the palm membrane structure；120- membrane material structures；200- vibrational structures； Girder construction at the top of 300-；310- top booms；320- web members；330- lower booms；400- bottoms girder construction；500- gutter knots Structure；600- spine structures；700- side column structures；800- gutter rod structures.

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 part of the embodiment, instead of all the embodiments.Based on the embodiment in the utility model, sheet Field those of ordinary skill all other embodiments obtained without making creative work, belong to this practicality Novel protected scope.

, it is necessary to explanation in the description of the utility model, term " " center ", " on ", " under ", it is "left", "right", " perpendicular Directly ", the orientation of the instruction such as " level ", " interior ", " outer " or position relationship are based on orientation shown in the drawings or position relationship, are only Described for the ease of description the utility model and simplifying, rather than instruction or imply signified device or element must have it is specific Orientation, with specific azimuth configuration and operation, therefore it is not intended that limitation to the utility model.In addition, term " the One ", " second ", " the 3rd " are only used for description purpose, and it is not intended that instruction or hint relative importance.

, it is necessary to which explanation, unless otherwise clearly defined and limited, term " are pacified in the description of the utility model Dress ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or integratedly Connection；Can mechanically connect or be electrically connected；It can be directly connected, can also be indirectly connected by 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 Concrete meaning of the language in the utility model.

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

Concrete structure is as shown in Fig. 1-Fig. 7.Fig. 1 is that the vibrational structure that the utility model embodiment provides is arranged at support film The schematic diagram of vibration rope film greenhouse roofing between structure and top girder construction；Fig. 2 is shaking for the utility model embodiment offer The schematic diagram of vibration rope film greenhouse roofing of the dynamic structure setting between support membrane structure and bottom girder construction；Fig. 3 is new for this practicality The vibrational structure that type embodiment provides is arranged at the vibration rope film greenhouse at support membrane structure apical position below support membrane structure The schematic diagram of roofing；Fig. 4 is that the vibrational structure that the utility model embodiment provides is arranged at below support membrane structure close to support film knot The schematic diagram of the vibration rope film greenhouse roofing of structure middle position；Fig. 5 is that the vibrational structure that the utility model embodiment provides is set The schematic diagram for the vibration rope film greenhouse roofing being placed in below support membrane structure at support membrane structure bottom position；Fig. 6 is this practicality The vibrational structure that new embodiment provides is arranged at the schematic diagram of the vibration rope film greenhouse roofing at roof beam superstructure position； Fig. 7 is the schematic diagram of the vibration rope film greenhouse roofing and top girder construction shown in Fig. 6.

A kind of vibration rope film greenhouse roofing provided in this embodiment includes rope film greenhouse roofing 100 and vibrational structure 200；Its In, rope film greenhouse roofing 100 includes support membrane structure 110 and membrane material structure 120, which is arranged on support membrane structure 110 On, and be connected with support membrane structure 110；One end of support membrane structure 110 is used to connect with the top girder construction 300 in rope film greenhouse skeleton Connect, the other end is used to be connected with the bottom girder construction 400 in rope film greenhouse skeleton；Vibrational structure 200 is arranged on support membrane structure 110th, at least one in top girder construction 300 and bottom girder construction 400.

Specifically, rope film greenhouse roofing 100 is a slope structure, it is ridge structure positioned at slope surface upper end, as pushes up Portion's girder construction 300, is eaves structure positioned at slope surface lower end, i.e. bottom girder construction 400.Wherein, membrane material structure 120 includes plastics Film, canopy cloth (a kind of by plastic resin filiform by the works that is formed by weaving) and non-woven fabrics etc. be transparent, translucent, no Transparent flexible web；Support membrane structure 110 is one kind tensile structure made of wire rod, or is made of wire rod and auxiliary material Tensile structure thing, can not only hold up the membrane material structure 120 in face attached thereto, but can keep membrane material structure 120 be in tighten, Flattened state, forms the slope surface state of the required stabilization of roofing of rope film greenhouse setting；And the both ends of membrane structure 110 are ask to distinguish It is connected with top girder construction 300 and bottom girder construction 400, forms the setting gradient of rope film greenhouse roofing 100.

It is pointed out that in Plastic film greenhouse field, rope film greenhouse roofing 100 and other types plastic film temperature The structure of room roofing is entirely different, and other types plastic film greenhouse roofing is between each other by firm with multiple steel arch-shelf structures Property connection rigid structure is made for supporting plastic film, 100 supporting plastic film of rope film greenhouse roofing is support membrane structure 110, and be not rigid connection between multiple support membrane structures 110.So as to set vibrational structure 200 on rope film greenhouse roofing 100 Rope film greenhouse roofing 100 can be made to produce vibration, since the setting gradient of rope film greenhouse roofing 100 is larger, and flat surfaced, light Sliding, the accumulated snow that vibrating can be attached on 100 surface of rope film greenhouse roofing slides downwards under effect of vibration along slope surface.Work as rope When the slope surface lower end of film greenhouse roofing 100 is connected to the facade structures in outside, accumulated snow can be then slid to the ground outside rope film greenhouse On face；When the slope surface of rope film greenhouse roofing 100 is connected to gutter structure, accumulated snow can be then slid into gutter structure, for even For rope film greenhouse, accumulated snow, which is slid into gutter structure, just no longer damages rope film greenhouse roofing 100；If gutter knot Structure compression strength and volume are out of question, and snow melting Cheng Shuihou flows out (low latitudes) naturally；If the resistance to compression of gutter structure Intensity, volume are inadequate, or when accumulated snow will not melt (high latitude area), it is necessary to remove slide into gutter structure in time Accumulated snow, and the mode for removing accumulated snow in gutter structure is very much, not only manually can periodically clear up, but also can be set in gutter structure Snow cleaner, so as to clear the snow at any time.

A kind of vibration rope film greenhouse roofing provided in this embodiment be by support membrane structure 110, top girder construction 300 and Vibrational structure 200 is set at least one structure in bottom girder construction 400, wherein, vibrational structure 200 can disposably set more It is a, and multiple be used in conjunction with each other completes effect of vibration, may be set to be strip, and can drive one or more supports at the same time Membrane structure 110 is vibrated；Vibrational structure 200 is made especially by vibrating motor or vibrating motor with other annexes, can also use Various motors are made with the organ that can produce eccentric rotary, and vibrational structure 200 can shake according to predetermined under power drive Fatigue resistance, vibration frequency and amplitude produce effect of vibration, so that rope film greenhouse roofing 100 is overall to produce vibration, so as to drive Membrane material structure 120 in rope film greenhouse roofing 100 is vibrated, and the accumulated snow for being conducive to 120 surface of membrane material structure slides, to mitigate accumulated snow Therefore load, need not consider too many accumulated snow to the squeezing action of rope film greenhouse roofing 100 and rope film greenhouse skeleton in design Load, can greatly reduce the steel using amount of rope film greenhouse skeleton structure, reduce the construction cost of rope film greenhouse；Also, use Vibration rope film greenhouse roofing can also solve the problems, such as manually snow removing inconvenience；Vibrate rope film greenhouse roofing can also continuous work or Person works at any time according to the accumulated snow situation on rope film greenhouse roofing 100 so that accumulated snow is sliding from rope film greenhouse roofing 100 in time Fall, effectively alleviating accumulated snow influences the problem of rope film greenhouse receives sunlight.

In the optional technical solution of the present embodiment, vibrational structure 200 is arranged on support membrane structure 110 and top girder construction 300 Between so that the upper end of support membrane structure 110 is connected by vibrational structure 200 with top girder construction 300.

Specifically, support membrane structure 110 upper end first be connected with vibrational structure 200, by vibrational structure 200 again with roof beam Structure 300 connects, and when vibrational structure 200 works, drives the vibration of 110 upper end of support membrane structure, and by asking membrane structure 110 to shake Dynamic ripple is transmitted from upper end downward end, causes the membrane material structure 120 that is attached in support membrane structure 110 from upper end downward end Vibration wave is transmitted, so that cause the accumulated snow in membrane material structure 120 to slide successively from the top down, meanwhile, 100 slope of rope film greenhouse roofing The accumulated snow of face lower part is also subject to add from the thrust of the accumulated snow of top landing in addition to the effect of ripple vibrated slides Play slides.

In the optional technical solution of the present embodiment, vibrational structure 200 is arranged on support membrane structure 110 and bottom girder construction 400 Between so that the lower end of support membrane structure 110 is connected by vibrational structure 200 with bottom girder construction 400.

Specifically, support membrane structure 110 lower end first be connected with vibrational structure 200, by vibrational structure 200 again with bottom beam Structure 400 connects, and when vibrational structure 200 works, drives the vibration of 110 lower end of support membrane structure, and by asking membrane structure 110 to vibrate Ripple transmits from bottom to top, and causes the membrane material structure 120 being attached in support membrane structure 110 to transmit vibration from bottom to upper end Ripple, so as to cause the accumulated snow in membrane material structure 120 to slide successively from bottom to top.

In the optional technical solution of the present embodiment, vibrational structure 200 is arranged on the lower section of support membrane structure 110, and in support At the both ends of membrane structure 110 or the position at middle part.

It should be noted that vibrational structure 200 is arranged at the position of support membrane structure 110 lower section, except above-mentioned end or It is outer in the middle part of person, it can also be arranged at other positions, but no matter be arranged on and where locate, when vibrational structure 200 works, then Support membrane structure 110 can be driven upward to transmit vibration wave from bottom surface, vibration wave is further sent to the film in support membrane structure 110 In material structure 120, it is set to produce vibration, easy to the landing of accumulated snow.

In the optional technical solution of the present embodiment, vibrational structure 200 is arranged on 300 top of top girder construction, and roof beam The support membrane structure 110 of 300 both sides of structure is fixedly connected with vibrational structure 200.

It is pointed out that vibrational structure 200 can be arranged at any position of top girder construction 300, but if not setting Put in the top of top girder construction 300, and be provided in below the top of roof beam structure 300, then need at least two sets vibrations Structure 200, and the both sides of top girder construction 300 are separately positioned on, and the support membrane structure with 300 both sides of top girder construction respectively 110 connections.Quantity is set to reduce vibrational structure 200, only a set of vibration need to be set on the top of top girder construction 300, that is, top Structure 200, it becomes possible to 110 upper end of support membrane structure of adjacent two side slope is linked together, and 200 work of set vibrational structure When making, it is possible to while drive the support membrane structure 110 of adjacent two side slope to vibrate from the top down, synchronously cause the membrane material knot of both sides Structure 120 vibrates, and therefore, synchronously slides the accumulated snow in both sides membrane material structure 120.

In the optional technical solution of the present embodiment, top girder construction 300 includes at least the girder construction made of single sectional； Alternatively, the girder frame structure made of more section bars；Wherein, girder frame structure includes top boom 310, web member 320 and lower boom 330, and web member 320 is connected between top boom 310 and lower boom 330；Vibrational structure 200 and the top boom in girder frame structure 310 connections.

When vibrational structure 200 is arranged on the 300 i.e. top in top of top girder construction, which may be configured as Mainly it is made of top boom 310, web member 320 and lower boom 330, lower boom 330 is fixed on spine structure, and top boom 310 are connected with vibrational structure 200, or directly drive top boom 310 to produce vibration by vibrating motor, so, wind up Bar 310 had not only been primary structure member, but also vibration can be produced under the driving effect of vibrational structure 200, and vibration wave is transmitted To the support membrane structure 110 and membrane material structure 120 of both sides, in order to the landing of accumulated snow.In the prior art the chord member of truss structure with Web member rigidly fixes connection, and playing prevents truss structure in the case where occurring after installation is in place around bending, and in the present embodiment then Top boom 310 is arranged to be connected by bearing with the connection mode of web member 320 so that top boom 310 is playing truss stress The effect of component, prevent under truss structure around bending while can also rotate, so as to the top boom 310 of the rotation with Vibrating motor connects, and then can play the role of substituting vibrational structure 200.

In the optional technical solution of the present embodiment, support membrane structure 110 and the composite construction that membrane material structure 120 is integral type, Membrane material structure 120 holds in the palm membrane structure 110 by membrane material positioned at the lower section of support membrane structure 110, or positioned at the top of support membrane structure 110 Structure 120 is suspended at the position of the setting of rope film greenhouse roofing 100.

It should be noted that the composite construction of the integral type includes at least three types：First type includes more supports Membrane structure 110, multiple film bar structures and membrane material structure 120, and multiple film bar spacing structures are arranged in parallel in membrane material structure 120 On one side surface, made to form double hot threads between film bar structure and membrane material structure 120 with special heat seal equipment, be combined into the two One, is provided with support membrane structure 110 between film bar structure and membrane material structure 120 and double hot threads；Second of type includes Membrane material structure 120, support membrane structure 110 and shell-like connection structure, shell-like connection structure are wrapped in support membrane structure 110, and are spaced flat Row is arranged on the surface of 120 side of membrane material structure, is connected to one by the modes such as heat seal and membrane material structure 120；The Three types include support membrane structure 110 and membrane material structure 120, hold in the palm between membrane structure 110 and membrane material structure 120 by the side such as heat seal Formula is connected to one.Hold in the palm the tension member that membrane structure 110 is strip, including ropy (terylene rope), ribbon (terylene Band), filiform (dacron thread) etc..When mounted, membrane material structure 120 and support membrane structure 110 are by synchronization for the integral type composite construction It is suspended vacantly in top girder construction 300 and bottom girder construction 400, in this case, support membrane structure 110 had both played picking-up membrane material The effect of structure 120, and play the role of preventing membrane material structure 120 to be blown up.

It should also be noted that, for the awning film equipped with anti-stream drop functional layer construction, it is not easy on the surface of anti-stream drop layer Support membrane structure 110 is set, and support membrane structure 110 will be arranged on a side surface of the not anti-stream drop functional layer of awning film, this kind of film , it is necessary to be equipped with awning film when the complex structure that material structure 120 and support membrane structure 110 form is as rope film greenhouse roofing 100 One side surface of anti-stream drop functional layer is downward, so, support membrane structure 110 is located in the top of membrane material structure 120.

For support membrane structure 110 rope film greenhouse roofing 100 is being mounted to for the composite construction of integral type with membrane material structure 120 When, the support membrane structure in girder construction 300 at the top of rope film greenhouse and the integral type composite construction near bottom girder construction 400 110 and membrane material structure 120 need be partially separated out, and be connected to top girder construction 300 and bottom girder construction 400 not At position.

In the optional technical solution of the present embodiment, support membrane structure 110 and membrane material structure 120 are two mutually independent knots Structure, membrane material structure 120 hold in the palm positioned at the top of support membrane structure 110 and are provided with press mold component in membrane structure 110, and press mold component is set To put in the top of membrane material structure 120, support membrane structure 110 is arranged on the lower section of membrane material structure 120, and by press mold component by membrane material Structure 120 is pressed in support membrane structure 110.

In the case of this kind, membrane material structure 120 and support membrane structure 110 are that point three cargo handling operations are installed on top girder construction 300 with bottom girder construction 400, specifically, support membrane structure 110 was installed before this, is debugged, shape is tightened in setting State, is then placed on membrane material structure 120 in support membrane structure 110, and 120 upper and lower ends of membrane material structure are fixed on roof beam knot On structure 300 and bottom girder construction 400, finally press mold component is arranged on above membrane material structure 120 again, prevents membrane material structure 120 are blown up.

A kind of rope film greenhouse provided in this embodiment includes vibration rope film greenhouse roofing, spine structure 600, side column structure 700th, gutter rod structure 800, facade structures and breast-wall；Wherein, spine structure 600 be connected to top girder construction 300 with Between the earth, top girder construction 300 is used to support；Side column structure 700 is arranged at the outer of the spine structure 600 on rope film greenhouse both sides Side, is used to support the bottom girder construction 400 of rope film greenhouse both sides；Gutter rod structure 800 is arranged at two neighboring spine structure 600 Between, it is used to support the bottom girder construction 400 in rope film greenhouse centre position；Facade structures and breast-wall are arranged at rope film greenhouse The periphery of skeleton, and the bottom of membrane material structure 120 is connected with facade structures, rope film greenhouse is sealed.

In the optional technical solution of the present embodiment, the top end of gutter rod structure 800 is provided with for draining or row's snow Gutter structure 500, and the gutter structure 500 is located between two adjacent groups rope film greenhouse roofing 100.

A kind of rope film greenhouse with vibration roofing provided in this embodiment, membrane structure is held in the palm by vibrational structure 200 110th, membrane material structure 120 or even whole rope film greenhouse roofing 100 produce vibration, so as to be conducive on rope film greenhouse roofing 100 Accumulated snow easily slides.

It should be noted that the present embodiment Fig. 1 is into Fig. 6, selected top girder construction 300 and bottom girder construction 400 All be cross section be triangle girder frame structure, the truss that the top girder construction 300 selected by Fig. 7 is made of two chord members Girder construction, what bottom girder construction 400 was selected is the girder frame structure that cross section is triangle.These are optional roof beam knot A part in structure 300 and bottom girder construction 400, can also select the girder truss being made of more chord members such as four chord members, five chord members Structure, and the cross section being made of closed circle chord member is circular girder frame structure, and cross section can also be selected larger Top girder construction 300 and bottom girder construction 400 made of single sectional, such as select H profile steel, pipe, the square tube of larger cross section Deng section bar directly as top girder construction 300 or bottom girder construction 400.

Finally it should be noted that：Various embodiments above is only to illustrate the technical solution of the utility model, rather than it is limited System；Although the utility model is described in detail with reference to foregoing embodiments, those of ordinary skill in the art should Understand：It can still modify the technical solution described in foregoing embodiments, either to which part or whole Technical characteristic carries out equivalent substitution；And these modifications or replacement, the essence of appropriate technical solution is departed from this practicality newly The scope of each embodiment technical solution of type.

Claims (10)

1. one kind vibration rope film greenhouse roofing, it is characterised in that including：Rope film greenhouse roofing and vibrational structure；

The rope film greenhouse roofing includes support membrane structure and membrane material structure, and the membrane material structure is connected with the support membrane structure；

One end of the support membrane structure is used to be connected with the top girder construction in rope film greenhouse skeleton, and the other end is used for and rope film temperature Bottom girder construction connection in the skeleton of room；

The vibrational structure is arranged at least one in the support membrane structure, the top girder construction and the bottom girder construction On.

2. vibration rope film greenhouse roofing according to claim 1, it is characterised in that the vibrational structure is arranged on the support Between membrane structure and the top girder construction so that the upper end of the support membrane structure passes through the vibrational structure and the roof beam Structure connects.

3. vibration rope film greenhouse roofing according to claim 1, it is characterised in that the vibrational structure is arranged on the support Between membrane structure and the bottom girder construction so that the lower end of the support membrane structure passes through the vibrational structure and the bottom beam Structure connects.

4. vibration rope film greenhouse roofing according to claim 1, it is characterised in that the vibrational structure is arranged on the support The lower section of membrane structure, and at the position at the both ends of the support membrane structure or middle part.

5. vibration rope film greenhouse roofing according to claim 1, it is characterised in that the vibrational structure is arranged on the top Above portion's girder construction, and the support membrane structure of the top girder construction both sides is fixedly connected with the vibrational structure.

6. it is according to claim 5 vibration rope film greenhouse roofing, it is characterised in that the top girder construction include at least by Girder construction made of single sectional；Alternatively, the girder frame structure made of more section bars；

The girder frame structure includes top boom, web member and lower boom, and the web member be connected to the top boom with it is described under Between chord member；

The vibrational structure is connected with the top boom in the girder frame structure.

7. vibration rope film greenhouse roofing according to claim 1, it is characterised in that the support membrane structure and the membrane material knot Structure is the composite construction of integral type, and the membrane material structure is located at the lower section of the support membrane structure, or positioned at the support membrane structure Top, it is described support membrane structure by the membrane material structure be suspended vacantly in the rope film greenhouse roofing setting position at.

8. vibration rope film greenhouse roofing according to claim 1, it is characterised in that the support membrane structure and the membrane material knot Structure is two mutually independent structures, and the membrane material structure is installed on the top of the support membrane structure, the support membrane structure There is a press mold component, and the press mold component is arranged on the top of the membrane material structure, and by press mold component by the membrane material knot Structure is pressed in the support membrane structure.

9. a kind of rope film greenhouse, including claim 1-8 any one of them vibration rope film greenhouse roofing, it is characterised in that also Including spine structure, side column structure, gutter rod structure, facade structures and breast-wall；

The spine structure is connected between the top girder construction and the earth, is used to support the top girder construction；

The side column structure is located at the outside of the spine structure on rope film greenhouse both sides, is used to support the rope film greenhouse both sides The bottom girder construction；

The gutter rod structure is arranged between the two neighboring spine structure, is used to support the bottom in rope film greenhouse centre position Portion's girder construction；

The facade structures and the breast-wall are arranged at the periphery of rope film greenhouse, and the bottom of the membrane material structure with it is described Facade structures connect, and rope film greenhouse is sealed.

10. rope film greenhouse according to claim 9, it is characterised in that the top end of the gutter rod structure is provided with use In draining or the gutter structure of row's snow, and the gutter structure is located between two adjacent groups rope film greenhouse roofing.