CN206323870U - The attachment structure and drainage gutter of rope film greenhouse - Google Patents

Abstract

The utility model provides the attachment structure and drainage gutter of a kind of rope film greenhouse, is related to the technical field of rope film greenhouse, including, truss structure, the first cable-membrane analysis and the second cable-membrane analysis；First cable-membrane analysis is respectively fixedly connected with the both sides of the truss structure with second cable-membrane analysis；By being used in conjunction with each other for first cable-membrane analysis, second cable-membrane analysis and truss structure, the drainage gutter for discharging rainwater is formd on the inside of the truss structure.The rope film greenhouse attachment structure can link together two adjacent monomer rope film greenhouses, and rope film greenhouse can be sealed, and improve the ability of rope film greenhouse anti-disaster；The problem of rope film greenhouse drainage gutter efficiently solves rainy day rope film greenhouse impeded drainage, cable-membrane analysis serious pocket rain.

Description

The attachment structure and drainage gutter of rope film greenhouse

Technical field

The utility model is related to the technical field of rope film greenhouse, a kind of attachment structure more particularly, to rope film greenhouse and Drainage gutter.

Background technology

(appoint to enter gift number of patent application building rope film greenhouse：201510235686.7) when, even two in a rope film greenhouse Adjacent rope film greenhouse monomer needs to link together, and needs to set drainage gutter in connecting portion.It is arranged on draining day The skeleton force structure at ditch position plays a part of resisting the stretching force produced by cable-membrane analysis, i.e., upward pulling force and level side Upward pulling force effect.Rope film (appoints to enter that gift is multinomial applies for a patent application number：201510494848.9、201510764591.4、 201310624103.0th, the joint product 201320463661.9) being made up of drag-line and film.It is in office enter gift patent application Number：In 201510235686.7 patent document, the skeleton force structure for being arranged on drainage gutter position is referred to as tensioning knot Structure, the specific configuration of the tension structure is not disclosed, therefore, build rope film greenhouse when, with a crossbeam (such as steel pipe) come The rope film greenhouse of two adjacent monomers is connected, the company's of being formed rope film greenhouse, the problem of existing is that drainage gutter can only be arranged on horizontal stroke Liang Shang, the upper surface of crossbeam turns into the bottom of trench of drainage gutter, and the first cable-membrane analysis lower edge and the second cable-membrane analysis lower end Edge is on a horizontal plane with drainage gutter bottom, and caused result is rainy day impeded drainage, makes the first cable-membrane analysis The serious pocket rain in lower end and the lower end of the second cable-membrane analysis.

The attachment structure and drainage gutter for the rope film greenhouse that the utility model is provided use cross section for del or The truss structure of person's rectangle, connects the first cable-membrane analysis lower end and the second cable-membrane analysis lower end, is set on the inside of truss structure respectively Drainage gutter is equipped with, the bottom of trench of drainage gutter is less than the first cable-membrane analysis lower edge and the second cable-membrane analysis lower edge； It is used in conjunction with each other by truss structure, the first cable-membrane analysis and the second cable-membrane analysis, can be by two adjacent monomer ropes Film greenhouse is linked together, and rope film greenhouse can be sealed, while the ability of rope film greenhouse anti-disaster is improved, and So that rainy day drainage gutter draining is smooth, so that the first cable-membrane analysis lower end and the second cable-membrane analysis lower end no longer pocket rain.

Utility model content

The purpose of this utility model is the attachment structure and drainage gutter for providing a kind of rope film greenhouse, existing to alleviate The technical problem of rainy day impeded drainage present in technology, the serious pocket rain in cable-membrane analysis lower end.

A kind of rope film greenhouse attachment structure that the utility model is provided, including truss structure, the first cable-membrane analysis and the Two cable-membrane analysis；

The truss structure includes passing through the company respectively between many crossbeams and connector, and every two crossbeams Fitting is fixedly connected；

First cable-membrane analysis and second cable-membrane analysis are separately positioned on the both sides of the truss structure, and with institute Truss structure is stated to be fixedly connected.

Further, the cross section of the truss structure is triangle or rectangle, and many crossbeams are arranged on institute At the position on each summit for stating truss structure, and the crossbeam is connected to one by connector.

Further, the position of each crossbeam of the truss structure is provided with for connecting the first rope film knot Structure is connected office with the cable-membrane analysis of second cable-membrane analysis.

Further, the cable-membrane analysis connection office at least includes film-pressing tank and press mold spring component, and cyclic structure With one in list structure component two；

The film-pressing tank and press mold spring component are used for the film being fixedly connected in cable-membrane analysis, the cyclic structure and strip Construction package is used for the drag-line being fixedly connected in cable-membrane analysis.

Further, first cable-membrane analysis includes at least one layer of rope film knot with second cable-membrane analysis Structure.

A kind of rope film greenhouse drainage gutter that the utility model is provided passes through the truss in the rope film greenhouse attachment structure Structure, the first cable-membrane analysis and the second cable-membrane analysis cooperate and formed, for discharging the rope film greenhouse being made up of rope film The rainwater of roof surface；

The drainage gutter is arranged on the inner side of the truss structure of two adjacent monomer rope film greenhouses of connection；The draining day The upper end of ditch is fixedly connected on the truss structure, and the seamless company between the first cable-membrane analysis and the second cable-membrane analysis Connect.

Further, the cross section of the truss structure is triangle, and first cable-membrane analysis and second rope The lower end of membrane structure is respectively fixedly connected with the position of the crossbeam of three apexes of the truss structure of triangular cross section Put；

First cable-membrane analysis, second cable-membrane analysis and the truss structure cooperate, and in the purlin The inner side of frame structure forms the drainage gutter of V-arrangement.

Further, the cross section of the truss structure is rectangle, and first cable-membrane analysis and the second rope film The lower end of structure is respectively fixedly connected with the position of the crossbeam of four apexes of the truss structure of rectangular cross section；

First cable-membrane analysis, second cable-membrane analysis and the truss structure cooperate, and in the purlin The inner side of frame structure forms the drainage gutter of V-arrangement or upside-down trapezoid.

Further, the drainage gutter is fabricated from a flexible material, and the upper edge of the drainage gutter both sides is fixedly connected On the truss structure.

Further, the drainage gutter is made up of rigid material, and the upper edge and bottom of the drainage gutter both sides It is fixedly connected on the truss structure.

A kind of rope film greenhouse attachment structure and drainage gutter that the utility model is provided pass through the truss in attachment structure Structure, the first cable-membrane analysis and the second cable-membrane analysis are connected with each other and used cooperatively, and the row of foring on the inside of truss structure Water gutter, and the bottom of trench of the drainage gutter is less than the first cable-membrane analysis lower edge and the second cable-membrane analysis lower edge so that The drainage effect of rainy day drainage gutter is better, effectively reduces the first cable-membrane analysis lower end and the second cable-membrane analysis lower end pocket The phenomenon of rain；And first cable-membrane analysis and the second cable-membrane analysis can use individual layer cable-membrane analysis, and double-layer cable film knot can be used Structure, compared with traditional beam-connected greenhouse, the rope film of the rope film greenhouse of the utility model design can use double-decker, enhance rope The heat insulating ability of film greenhouse.

Brief description of the drawings

, below will be to specific embodiment party in order to illustrate more clearly of the technical scheme in the utility model embodiment The accompanying drawing to be used needed for formula description is briefly described, it should be apparent that, drawings in the following description are the utility model Some embodiments, for those of ordinary skill in the art, on the premise of not paying creative work, can be with root Other accompanying drawings are obtained according to these accompanying drawings.

Fig. 1 for rope film greenhouse that the cross section that the utility model embodiment is provided is triangle truss structure；

The rope film greenhouse constituted with the truss structure that cross section is triangle that Fig. 2 provides for the utility model embodiment Drainage gutter；

Fig. 3 for rope film greenhouse that the first cross section that the utility model embodiment is provided is rectangle truss structure；

Fig. 4 is big for the rope film constituted with the truss structure that the first cross section is rectangle that the utility model embodiment is provided The drainage gutter of canopy；

Fig. 5 for rope film greenhouse that second of cross section that the utility model embodiment is provided is rectangle truss structure；

Fig. 6 is big for the rope film constituted with the truss structure that second of cross section is rectangle that the utility model embodiment is provided The drainage gutter of canopy.

Icon：1- crossbeams；2- connecting rods；The bolts of 3- first；The bolts of 4- second；5- drainage gutters；6- films；7- is drawn Rope；8- cable-membrane analysis connection office；100- truss structures；The cable-membrane analysis of 200- first；201- the first outer layer cable-membrane analysis；202- First internal layer cable-membrane analysis；The cable-membrane analysis of 300- second；301- the second outer layer cable-membrane analysis；302- the second internal layer cable-membrane analysis.

Embodiment

The technical solution of the utility model is clearly and completely described below in conjunction with accompanying drawing, it is clear that described Embodiment is a part of embodiment of the utility model, rather than whole embodiments.Based on the embodiment in the utility model, sheet The every other embodiment that field those of ordinary skill is obtained under the premise of creative work is not made, belongs to this practicality Novel protected scope.

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

, it is necessary to which explanation, unless otherwise clearly defined and limited, term " are pacified in description of the present utility model Dress ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or integratedly Connection；Can be mechanical connection or electrical connection；Can be joined directly together, can also be indirectly connected to by intermediary, It can be the connection of two element internals.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 described in further detail below by specific embodiment and with reference to accompanying drawing.

Concrete structure is as shown in figs 1 to 6.Fig. 1 is rope film that the cross section that the utility model embodiment is provided is triangle The truss structure of greenhouse；The rope constituted with the truss structure that cross section is triangle that Fig. 2 provides for the utility model embodiment The drainage gutter of film greenhouse；Fig. 3 for rope film greenhouse that the first cross section that the utility model embodiment is provided is rectangle purlin Frame structure；Fig. 4 is big for the rope film constituted with the truss structure that the first cross section is rectangle that the utility model embodiment is provided The drainage gutter of canopy；Fig. 5 for rope film greenhouse that second of cross section that the utility model embodiment is provided is rectangle truss knot Structure；The rope film greenhouse constituted with the truss structure that second of cross section is rectangle that Fig. 6 provides for the utility model embodiment Drainage gutter.

The present embodiment provide a kind of rope film greenhouse attachment structure include truss structure 100, the first cable-membrane analysis 200 and Second cable-membrane analysis 300；

Wherein, truss structure 100 is arranged between two adjacent monomer rope film greenhouses, and it includes many crossbeams 1 and many Respectively by even between individual connector, and the particular location of the arrangements crossbeam 1 according to truss structure 100, every two crossbeams 1 Fitting is connected, with the fixation of this position for realizing each crossbeam 1；

First cable-membrane analysis 200 and the second cable-membrane analysis 300, and the first rope are set respectively in the both sides of truss structure 100 The lower end of the cable-membrane analysis 300 of membrane structure 200 and second is fixedly connected on truss structure 100.

Can be with it should be noted that the connector is specially the bolt 3 of connecting rod 2 or first, i.e., between two crossbeams 1 It is fixedly connected, can also be fixedly connected by the first bolt 3 by connecting rod 2；Wherein, connecting rod 2 can use steel plate Band or angle steel etc. are made, and crossbeam 1 uses shaped steel, including square tube, pipe, angle steel, T-steel, C-type steel, H profile steel etc.；First spiral shell Bolt 3 has the function of limiting two spacing of crossbeam 1 for being secured to connection, therefore the length and truss structure 100 of the first bolt 3 Specific size it is relevant.

The rope film greenhouse attachment structure that the present embodiment is provided passes through 300 points of the first cable-membrane analysis 200 and the second cable-membrane analysis Both sides not with truss structure 100 are connected, so as to by the both sides sealing of truss structure 100, and in two adjacent monomers The space of a trench is formed between rope film greenhouse, in order to realize other functions.

In the optional technical scheme of the present embodiment, the cross section of truss structure 100 is triangle or rectangle, and these are horizontal Beam 1 is arranged at the position on each summit of truss structure 100 of different shapes, and is fixed each crossbeam 1 by connector Connect as one；

When the cross section of truss structure 100 is triangle, triangle formation handstand state, the base of truss structure 100 is adopted With the first bolt 3, i.e., two crossbeams 1 are fixedly mounted on the two ends of the first bolt 3；Other two sides use connecting rod 2, and respectively One end of individual connecting rod 2 is equally fixed at the position at the two ends of the first bolt 3, and the other end is fixed on by the second bolt 4 At the position of 3rd crossbeam 1.

When the cross section of truss structure 100 is rectangle, two sides use connecting rod 2, and both sides use one up and down Connecting rod 2 and first bolt 3 or two the first bolts 3；Each crossbeam 1 is arranged at the position on four summits of rectangle Put and be fixedly connected between place, two crossbeams 1 by the bolt 3 of connecting rod 2 or first.

Two adjacent monomer rope film greenhouses can be connected to by the truss structure 100 of above different shape cross section Together, and make even a rope film greenhouse it is firmer, be also unlikely to be damaged in the case of bad weather.

It should be noted that setting the technical purpose of triangularity or rectangle to exist the attachment structure of an even rope film greenhouse In：Firstth, the crossbeam 1 set using two, base of del or rectangular upper portion or so apex, installs a lasso trick film Structure connection office 8；Secondth, using del bottom apex crossbeam 1 or two, the base or so of rectangular lower The crossbeam 1 of apex, installs another set of cable-membrane analysis connection office 8；3rd, del or rectangle truss structure are utilized 100 installation peripheral hardwares insulation sunshades equipments and interior set insulation and shelter from heat or light the controlling organization of equipment；4th, del or rectangle are utilized The inner space of truss structure 100 sets drainage gutter 5, makes the bottom of drainage gutter 5 less than the lower edge of the cable-membrane analysis of both sides； 5th, using del or the stability of rectangle truss structure 100, the connected He of first cable-membrane analysis 200 is overcome Second cable-membrane analysis 300 meets with the pulling force and the pulling force of horizontal direction of vertical direction produced during wind and snow weather, prevents purlin Frame structure 100 is deformed.

In the optional technical scheme of the present embodiment, the position of each crossbeam 1 of truss structure 100 is provided with for connecting the One cable-membrane analysis 200 is connected office 8 with the cable-membrane analysis of the second cable-membrane analysis 300；

Cable-membrane analysis connection office 8 is fixedly mounted on truss structure 100 by the first bolt 3 or the second bolt 4 At the position of crossbeam 1, and it is connected with the lower end of the first cable-membrane analysis 200 and the second cable-membrane analysis 300, can be by the first rope film The cable-membrane analysis 300 of structure 200 and second is fixedly connected at the position of crossbeam 1 of truss structure 100, so as at two A trench structure space is formed between adjacent monomer rope film greenhouse, to realize other functions.

It should be noted that the first cable-membrane analysis 200 is oppositely arranged with the second cable-membrane analysis 300, does not limit both and deposit Distinguishing, and the first cable-membrane analysis 200 and the second cable-membrane analysis 300 and del or the company of rectangle truss structure 100 Mode is connect including a variety of, it is preferable that set cable-membrane analysis to connect office 8 in del or rectangle truss structure 100, point The drag-line 7 and film 6 in cable-membrane analysis Yong Yu not connected.

In the optional technical scheme of the present embodiment, cable-membrane analysis connection office 8 at least includes film-pressing tank and press mold spring component, And one in cyclic structure and list structure component two；

Wherein, film-pressing tank and press mold spring component are used for the film 6 being fixedly connected in cable-membrane analysis, cyclic structure and strip knot Structure component is used for the drag-line 7 being fixedly connected in cable-membrane analysis, and list structure is steel pipe or reinforcing bar or steel wire；

Film-pressing tank and press mold spring component and cyclic structure and list structure component can pass through the first bolt 3, second Bolt 4 is fixed at the position of crossbeam 1 of truss structure 100, and cable-membrane analysis can be fixedly connected on to truss structure 100 On, i.e. film 6 can be fixed on truss structure 100 by film-pressing tank and press mold spring component, and cyclic structure and list structure can Drag-line 7 is fixed on truss structure 100, so as to ensure fastness of the cable-membrane analysis on truss structure 100, to avoid Because bad weather causes the phenomenon that cable-membrane analysis is damaged.

In the optional technical scheme of the present embodiment, the first cable-membrane analysis 200 and the second cable-membrane analysis 300 include at least one Layer cable-membrane analysis.

It should be noted that when rope film greenhouse needs good lighting conditions, the first cable-membrane analysis 200 and the second rope film Structure 300 uses individual layer cable-membrane analysis；When rope film greenhouse needs good heat-insulating property, the first cable-membrane analysis 200 and the Two cable-membrane analysis 300 are using double-deck or multilayer cable-membrane analysis；Wherein, the first cable-membrane analysis 200 and the second cable-membrane analysis 300 Include the first outer layer cable-membrane analysis 201 and the first internal layer cable-membrane analysis 202 and the second outer layer cable-membrane analysis 301 and second respectively Internal layer cable-membrane analysis 302, and respective internal layer cable-membrane analysis and outer layer cable-membrane analysis end respectively with setting truss structure 100 On cable-membrane analysis connection office 8 be fixedly connected.

A kind of rope film greenhouse drainage gutter that the present embodiment is provided, is by the truss structure in rope film greenhouse attachment structure 100th, the first cable-membrane analysis 200 and the second cable-membrane analysis 300 are complemented each other to form, and the drainage gutter 5 is primarily to facilitate rain The smooth outflow of water；

Drainage gutter 5 is arranged on the inner side of truss structure 100 of the rope film greenhouse of two adjacent monomers, and is fixedly connected on this On truss structure 100, and formation is seamlessly connected between the first cable-membrane analysis 200 and the second cable-membrane analysis 300.

It should be noted that the first cable-membrane analysis 200 and the second cable-membrane analysis 300 include inside and outside double-deck cable-membrane analysis, That is the first outer layer cable-membrane analysis 201, the first internal layer cable-membrane analysis 202, the second outer layer cable-membrane analysis 301 and the second internal layer rope film Structure 302；Wherein, the first internal layer cable-membrane analysis 202 with and the second internal layer cable-membrane analysis 302 with truss structure 100 End is fixedly connected, so as to which rope film greenhouse is sealed；First outer layer cable-membrane analysis 201 and the second outer layer cable-membrane analysis 301 Upper end with truss structure 100 is fixedly connected, and respectively in both sides, and form class between two adjacent monomer rope film greenhouses Like the space of V-arrangement；It is fixedly connected in the first outer layer cable-membrane analysis 201 and the second outer layer cable-membrane analysis 301 with truss structure 100 The lower section of position sets drainage gutter 5, and the both sides of drainage gutter 5 upper edge respectively with the first outer layer cable-membrane analysis 201 and The lower edge of second outer layer cable-membrane analysis 301 is seamlessly connected；Come interim when the rainy day, rainwater is from the first outer layer cable-membrane analysis 201 Slide downwards and flow into drainage gutter 5 with the surface of the second outer layer cable-membrane analysis 301, then by drainage gutter 5 by rainwater Assemble and discharge, so that rainwater is smoothly discharged, the problem of efficiently solving rope film greenhouse pocket rain.

In the optional technical scheme of the present embodiment, the cross section of truss structure 100 is triangle, and the first cable-membrane analysis 200 and second the lower end of cable-membrane analysis 300 be respectively fixedly connected with three apexes in the truss structure 100 of triangular cross section Crossbeam 1 position；First cable-membrane analysis 200, the second cable-membrane analysis 300 and truss structure 100 cooperate, and in truss The inner side of structure 100 forms the drainage gutter 5 of V-arrangement.

When truss structure 100 cross section be triangle when, and the triangle be in inversion state, the first cable-membrane analysis 200, The first outer layer cable-membrane analysis 201, the second outer layer cable-membrane analysis 301 in second cable-membrane analysis 300 are respectively fixedly connected with three The position of the crossbeam 1 of two apexes of angular upper end, and the first outer layer cable-membrane analysis 201 and the second outer layer cable-membrane analysis 301 lower edge is connected with the upper edge of the both sides of drainage gutter 5, so that rainwater can be arranged from the V-arrangement of the inner side of truss structure 100 Smooth discharge in water gutter 5；First internal layer cable-membrane analysis 202 and the second inner side cable-membrane analysis 302 are fixedly connected with three The position of the crossbeam 1 of the apex of angular lower end, and the insulation by the inside and outside double-deck cable-membrane analysis realization to rope film greenhouse.

In the optional technical scheme of the present embodiment, the cross section of truss structure 100 is rectangle, and the first cable-membrane analysis 200 The horizontal stroke in four apexes of the truss structure 100 of rectangular cross section is respectively fixedly connected with the lower end of the second cable-membrane analysis 300 The position of beam 1；First cable-membrane analysis 200, the second cable-membrane analysis 300 and truss structure 100 cooperate, and in truss structure 100 inner side forms the drainage gutter 5 of V-arrangement or upside-down trapezoid.

When the cross section of truss structure 100 is rectangle, the first outer layer cable-membrane analysis 201 and the second outer layer cable-membrane analysis 301 are respectively fixedly connected with the position of the crossbeam 1 of two apexes in rectangle upper end, and by the first outer layer cable-membrane analysis 201 with And second outer layer cable-membrane analysis 301 and truss structure 100 cooperate and be connected and form drainage gutter 5；First internal layer rope film knot The internal layer cable-membrane analysis 302 of structure 202 and second is respectively fixedly connected with the position of the crossbeam 1 of two apexes of rectangular lower end.

Wherein, the drainage gutter 5 of the inner side of truss structure 100 of rectangular cross section includes two kinds of forms of V-arrangement and upside-down trapezoid； When drainage gutter 5 be V-arrangement when, its be fixedly connected by the upper edge of both sides with truss structure 100 realize undertake drainage gutter 5 and The gravity of its internal rainwater；When drainage gutter 5 is upside-down trapezoid, it passes through the upper edge of both sides and bottom and truss structure 100 are fixedly connected to realize the support to drainage gutter 5 and its internal rainwater.

In the optional technical scheme of the present embodiment, drainage gutter 5 is made of flexible material, and the both sides of drainage gutter 5 Upper edge be fixedly connected on truss structure 100 so that bear drainage gutter 5 and its internal rain in the upper edge of the both sides of drainage gutter 5 The pressure that water is brought.

In the optional technical scheme of the present embodiment, drainage gutter 5 is made of rigid material, and the both sides of drainage gutter 5 Upper edge and bottom be fixedly connected on truss structure 100 so that the upper edge and bottom of the both sides of drainage gutter 5 are born jointly The pressure that drainage gutter 5 and its internal rainwater are brought.

Finally it should be noted that：Various embodiments above is only limited to illustrate the technical solution of the utility model, rather than to it System；Although the utility model is described in detail with reference to foregoing embodiments, one of ordinary skill in the art should Understand：It can still modify to the technical scheme described in foregoing embodiments, or to which part or whole Technical characteristic carries out equivalent；And these modifications or replacement, the essence of appropriate technical solution is departed from this practicality newly The scope of each embodiment technical scheme of type, for example, the crossbeam 1 and connecting rod 2 of composition truss structure 100 can be connected with welding, The cable-membrane analysis connection office 8 of fixed cable-membrane analysis 200 and 300 can also spot welding be connected on truss structure 100 or use oneself Tapping is fixed on truss structure 100.

Claims (10)

1. a kind of rope film greenhouse attachment structure, it is characterised in that including：Truss structure, the first cable-membrane analysis and the second rope film Structure；

The truss structure includes passing through the connector respectively between many crossbeams and connector, and every two crossbeams It is fixedly connected；

First cable-membrane analysis and second cable-membrane analysis are separately positioned on the both sides of the truss structure, and with the purlin Frame structure is fixedly connected.

2. rope film greenhouse attachment structure according to claim 1, it is characterised in that the cross section of the truss structure is three Angular or rectangle, and many crossbeams are arranged at the position on each summit of the truss structure, and pass through connector The crossbeam is connected to one.

3. rope film greenhouse attachment structure according to claim 2, it is characterised in that each described horizontal stroke of the truss structure The position of beam is provided with is connected office for connecting first cable-membrane analysis with the cable-membrane analysis of second cable-membrane analysis.

4. rope film greenhouse attachment structure according to claim 3, it is characterised in that the cable-membrane analysis connection office is at least Including one in film-pressing tank and press mold spring component, and cyclic structure and list structure component two；

The film-pressing tank and press mold spring component are used for the film being fixedly connected in cable-membrane analysis, the cyclic structure and list structure Component is used for the drag-line being fixedly connected in cable-membrane analysis.

5. rope film greenhouse attachment structure according to claim 4, it is characterised in that first cable-membrane analysis and described the Two cable-membrane analysis include at least one layer of cable-membrane analysis.

6. a kind of rope film greenhouse drainage gutter, it is characterised in that knot is connected as the rope film greenhouse described in claim any one of 1-5 Formed by truss structure, the first cable-membrane analysis and the second cable-membrane analysis in structure cooperate；

The drainage gutter is arranged on the inner side of the truss structure of two adjacent monomer rope film greenhouses of connection；The draining day The upper end of ditch is fixedly connected on the truss structure, and the seamless company between the first cable-membrane analysis and the second cable-membrane analysis Connect.

7. rope film greenhouse drainage gutter according to claim 6, it is characterised in that the cross section of the truss structure is three It is angular, and first cable-membrane analysis is respectively fixedly connected with the institute in triangular cross section with the lower end of second cable-membrane analysis State the position of the crossbeam of three apexes of truss structure；

First cable-membrane analysis, second cable-membrane analysis and the truss structure cooperate, and in the truss knot The inner side of structure forms the drainage gutter of V-arrangement.

8. rope film greenhouse drainage gutter according to claim 6, it is characterised in that the cross section of the truss structure is square Shape, and the lower end of first cable-membrane analysis and second cable-membrane analysis is respectively fixedly connected with the purlin of rectangular cross section The position of the crossbeam of four apexes of frame structure；

First cable-membrane analysis, second cable-membrane analysis and the truss structure cooperate, and in the truss knot The inner side of structure forms the drainage gutter of V-arrangement or upside-down trapezoid.

9. the rope film greenhouse drainage gutter according to claim 7 or 8, it is characterised in that the drainage gutter is by flexible material Material is made, and the upper edge of the drainage gutter both sides is fixedly connected on the truss structure.

10. the rope film greenhouse drainage gutter according to claim 7 or 8, it is characterised in that the drainage gutter is by rigid material Material is made, and the upper edge and bottom of the drainage gutter both sides are fixedly connected on the truss structure.