CN201518636U - Insert for greenhouses - Google Patents

Abstract

The utility model discloses an insert for greenhouses, which comprises a holding portion and a supporting portion. The holding portion is used for hold the edge portion of a greenhouse covering, space shape of the holding portion corresponds to the edge portion of the covering, and the supporting portion is sued for fixedly supporting the insert on a stringer. The holding portion comprises a first holding portion and a second holding portion, and the first holding portion and the second holding portion are disposed on opposite sides of the insert and connected together by the supporting portion. By aid of the insert, the greenhouse covering can be connected to the stringer conveniently, and the insert can be tightly engaged with the greenhouse covering.

Description

A kind of cutting that is used for the greenhouse

Technical field

The utility model relates to the structure in greenhouse, particularly a kind of cutting that is used for the greenhouse.

Background technology

Greenhouse (as glass greenhouse and PC plate greenhouse) has been widely used in the soilless culture of crops such as various vegetables and flowers at present owing to have good light transmittance and heat-insulating property.In order to make the top, greenhouse can better absorb sunlight, improve light transmittance, and discharge rainwater easily, common greenhouse two domatic roof structures, for example common Wen Luoshi greenhouses of adopting more.Fig. 1 shows the general schematic diagram of Keelof green house structure.As shown in Figure 1, the skeleton in greenhouse comprises a plurality of stringers 103 that a plurality of columns 101, ridge 102 and this ridge 102 both sides are provided with, and this stringer 103 is used to inlay the glass as the roof.Above-mentioned column 101 is vertically fixed on the ground, is used to carry the weight of whole greenhouse structure, and is inlaid with the glass as the greenhouse sidewall.Between adjacent two ridges 102, be provided with gutter 104, be used to discharge the rainwater that accumulates on the roof and, and realize the function of a part of load-bearing because variations in temperature condenses in the condensed water on the roof.The span direction in greenhouse is provided with the truss 105 of level, the load on glass greenhouse roof is delivered to gutter 104 by the stringer 103 that glass is installed, by gutter 104 load is passed to truss 105 and column 101 on the span direction again, finally be delivered to the greenhouse ground by column 101.As shown in Figure 1, a plurality of such greenhouse structures link together, and have just constituted attached-greenhouse.

In above-mentioned glass greenhouse, described gutter 104 is connected in ridge 102 by stringer 103, side as the glass on roof is connected on the gutter 104, and the opposite side relative with this side is connected on the ridge 102, and both sides are connected between two adjacent stringers 103 relatively in addition.In the prior art, when directly connecting between glass and the stringer 103, the slit can occur usually, make that the sealing effectiveness in greenhouse is bad, and cause roof glass to fix unsettled situation.In order to address this problem, propose again in the prior art to adopt glass cement to carry out filleting and sealing, strengthen sealing effectiveness with this.But above-mentioned glass cement can solidify phenomenon in use for some time, and the glass cement after the curing is easy to come off from the junction of glass and stringer 103.Because this junction is arranged on the top in greenhouse, thereby again can be very inconvenient at stringer 103 and roof glass junction interpolation glass cement.In addition, use glass cement to seal the method step of junction of above-mentioned stringer 103 and roof glass on the roof in existing greenhouse more loaded down with trivial details, causes the installation and removal in greenhouse very inconvenient.In addition, for the greenhouse that uses the PC plate, then be that the effect because the PC plate can expand with heat and contract with cold causes the sealing effectiveness in PC plate greenhouse very bad, and can damage the PC plate by fixing described stringer 103 of tapping screw and PC plate.

In view of the above problems, need provide a kind of cutting that is used for the greenhouse, can easily covering be connected on the stringer, to solve the above problems.

The utility model content

In order to address the above problem, the utility model proposes a kind of cutting that is used for the greenhouse.This cutting comprises holding part and support portion, and holding part is used to hold obducent marginal portion, greenhouse, and the spatial form of holding part is corresponding with obducent marginal portion, and the support portion is used for cutting is fixedly fastened on stringer.

Preferably, this holding part can be arranged to comprise first holding part and second holding part, and first holding part and second holding part are arranged on the opposite side of cutting, and the support portion links together first holding part and second holding part.

Further, this support portion is walked around stringer and first holding part and second holding part is linked together.

Further, holding part also comprises the 3rd holding part and the 4th holding part, the 3rd holding part is parallel to first holding part and is arranged on first holding part below, the 4th holding part is parallel to second holding part and is arranged on second holding part below, and the 3rd holding part and the 4th holding part have and first holding part and the second ccontaining same or analogous structure.

Further, holding part comprises first, second portion and third part, first is parallel to third part, and second portion is connected between the end of end of first and third part, and first, second portion and third part form the U-shaped shape on the cross section of transplanting a cutting.

Further, first contacts with the lower surface of obducent marginal portion, and second portion contacts with obducent side, and third part contacts with the upper surface of obducent marginal portion.

In addition, cutting of the present utility model can be an integrative-structure.This cutting can have identical length with stringer on bearing of trend.

By this cutting of the present utility model, realize easily the greenhouse covering being connected on the stringer, and realize closely cooperating between cutting and the greenhouse covering.

Introduced the notion of a series of reduced forms in the utility model content part, this will further describe in the embodiment part.Utility model content part of the present utility model does not also mean that key feature and the essential features that will attempt to limit technical scheme required for protection, does not more mean that the protection domain of attempting to determine technical scheme required for protection.

Description of drawings

Following accompanying drawing of the present utility model is used to understand the utility model at this as a part of the present utility model.Embodiment of the present utility model and description thereof have been shown in the accompanying drawing, have been used for explaining principle of the present utility model.In the accompanying drawings,

Fig. 1 is the general schematic diagram of Keelof green house structure;

Fig. 2 A is the sectional view according to the cutting of the utility model embodiment;

Fig. 2 B is the stereogram according to the cutting of the utility model embodiment;

Fig. 3 is the combination schematic diagram of the cutting shown in Fig. 2 A and stringer, glass;

Fig. 4 is the sectional view according to the cutting of another embodiment of the utility model.

Embodiment

In the following description, having provided a large amount of concrete details understands the utility model more completely so that provide.Yet, it will be apparent to one skilled in the art that the utility model can need not one or more these details and implemented.In other example,, be not described for technical characterictics more well known in the art for fear of obscuring with the utility model.

The utility model provides a kind of cutting that is used for the greenhouse, is used for being connected stringer as coverings such as the glass of greenhouse roof or PC plates.This cutting firmly is inserted on the stringer, can not damage covering in order to receive covering, to use to transplant a cutting, and the cutting good airproof performance, and installation and removal are all convenient, and can reuse.Below be example with the glass greenhouse to the structure of this cutting with and and stringer, glass between connection describe.

With reference to figure 2A and Fig. 2 B, show cutting 200 according to the utility model embodiment.Wherein Fig. 2 A is the sectional view of cutting 200, and Fig. 2 B is the stereogram of cutting 200.Shown in Fig. 2 A, cutting 200 comprises first holding part 210, second holding part 220 and support portion 230.First holding part 210 and second holding part 220 are respectively applied for the marginal portion of the glass of ccontaining cutting 200 both sides.Like this, adjacent two transplant a cutting 200 can ccontaining same block of glass relative edge parts at both sides, so that glass is fixedly mounted on the stringer.Be understandable that the holding part of cutting 200 of the present utility model also can be one, promptly transplant a cutting and 200 can have only first holding part 210 or have only second holding part 220.For example be arranged on cutting 200 on the limit of greenhouse roof owing to only need to receive the glass of a side, just can be arranged to only have a holding part.Preferably, transplant a cutting and 200 to have first holding part 210 and second holding part 220, below only this situation is described.Support portion 230 is used for cutting is supported on stringer, and first holding part 210 and second holding part 220 are linked together.For the ease of being described, set the reference axis shown in Fig. 2 A and 2B to transplanting a cutting 200 structure.That is, when transplanting a cutting 200 horizontal positioned, the horizontal direction residing plane, cross section in is an X-axis, perpendicular to X-axis and what pass through 230 middle parts, support portion is Y-axis, perpendicular to X-axis and Y-axis be the Z axle, Z-direction is also promptly transplanted a cutting 200 bearing of trend.

First holding part 210 can be formed by first 211, second portion 212 and third part 213.That is, these three define first holding part 210.Similarly, second holding part 220 can be formed by the 4th part 224, the 5th part 225 and the 6th part 226.Three parts of second holding part 220 and three parts of first holding part 210 are same or analogous.Therefore three parts to first holding part 210 are described below.

First 211 and third part 213 are parallel to the X-axis setting.Second portion 212 is perpendicular to the X-axis setting, and is connected between the end of end of first 211 and third part 213, makes three parts couple together like this.First 211, second portion 212 and third part 213 can be one as shown in the figure, can certainly be three independent parts.Normally, first 211, second portion 212 and third part 213 form " U " shape on the cross section, can glass be sticked in first holding part 210 easily like this.But the shape of these three part formation is not limited to this, as long as the spatial form of three first holding parts 210 that part limited is consistent with the shape of the glass that will receive.The length of first 211 on X-direction can be provided with as required.For example, heavier at glass, and adjacent two transplanted a cutting distance between 200 when longer, can suitably increase first 211 length, to receive glass securely.Lighter at glass, and the distance between adjacent two cutting 200 is more in short-term, can suitably reduce the length of first 211.If when being provided with other devices and coming the weight of support glass, for example utilize stringer 300 to come support glass in Fig. 3, the length of this first 211 then can not be subjected to the influence of above-mentioned factor so, can make unified length.The length of second portion 212 on Y direction and the length of the side of glass also are that the thickness of glass adapts.For the cooperation between facility cutting 200 and the glass, the length of second portion 212 can be slightly larger than the thickness of glass, the marginal portion of glass can be contained in more conveniently in first holding part 210 like this.The length setting of third part 213 and the shape of stringer adapt, and will be discussed in more detail below.

Support portion 230 is used for cutting 200 is remained on stringer.Support portion 230 is connected to an end of the 6th part 226 of second holding part 220 from an end of the third part 213 of first holding part 210.Preferably, install for the ease of making, support portion 230 is arranged to walk around stringer and first holding part 210 and second holding part 220 is linked together.Transplant a cutting like this and 200 become axially symmetric structure with respect to Y-axis.The 6th receiving part of the third part 213 of the support portion 230 and first holding part 210 and second holding part 220 divides 226 to form a space, and this space is used to receive the support section that is used for supporting cutting on the following stringer.Like this, the support section on support portion 230 and the stringer contacts, and 200 is supported on the stringer so that transplant a cutting.Therefore the length of the 6th part 226 of the third part of first holding part 210 or second holding part 220 is arranged so that the support section that above-mentioned space can hold on the stringer gets final product.

Preferably, first holding part 210 and second holding part 220 have certain distance on X axis, to form passage between first holding part 210 and second holding part 220, the connecting portion on the following stringer is connected to the support section on the stringer on the stringer body by this passage.The shape of first holding part 210 and second holding part 220 connecting portion on the distance on the X axis can be according to stringer is done suitable setting.In addition, be understandable that first holding part 210 and second holding part 220 also can link together.When being in the below of first holding part 210 and second holding part 220 such as the space that forms when support portion 230, the support section of stringer does not need by between first holding part 210 and second holding part 220, and therefore first holding part 210 and second holding part 220 just can not have the setting of distance ground on X axis.

Shown in Fig. 2 B, be stereogram according to the cutting 200 of the utility model embodiment.As can be seen from the figure, cutting 200 is extended on whole stringer direction, also promptly extends on Z-direction.On Z-direction, cutting 200 has same or analogous cross section.Preferably, cutting 200 has identical shaped cross section on the bearing of trend of stringer.But, if the thickness of glass is to increase or when reducing, first holding part 210 and second holding part 220 also can correspondingly increase or reduce at this bearing of trend.

As shown in Figure 3, the combination schematic diagram (glass of a side only is shown) that links together for cutting 200 and stringer 300, glass 400 according to the utility model embodiment.Preferably, on Z-direction, transplant a cutting and 200 to have identical length (not shown) with stringer 300.Cutting 200 at first is inserted in the stringer 300, both is linked together.Adopt this method, transplant a cutting and 200 can be connected easily and dismantle, equally also can realize changing easily cutting 200 with stringer 300.Then, glass 400 is connected in the cutting 200.So just can finish the connection between the three easily.Glass 400 is connected to transplants a cutting after 200, the first 211 of first holding part 210 contacts with the lower surface of the marginal portion of glass 400, second portion 212 contacts with the side of glass 400, and third part 213 contacts with the upper surface of the marginal portion of glass 400.Be contained in first holding part 210 with this marginal portion glass 400.Second holding part 220 is the glass of ccontaining opposite side in an identical manner, does not repeat them here.Stringer 300 shown in Figure 3 comprises stringer body 310, support section 320 and connecting portion 330.Stringer body 310 and support section 320 are used to support the cutting 200 that is inserted on the stringer 300, and connecting portion 330 is used for support section 320 is connected with stringer body 310.Support section 320 is contained in the support portion 230 of cutting 200, and connecting portion 330 connects support section 320 and stringer body 310 by the passage that forms between first holding part 210 and second holding part 220.The 4th part 224 of the first 211 of first holding part 210 and second holding part 220 is arranged on the upper surface of stringer body 310.In addition, stringer body 310 also is used for the weight of support glass.Because stringer 300 is normally by the aluminium alloy manufacturing, and compares and transplant a cutting 200, stringer 300 can have more solid structure, therefore can mainly come support glass with stringer 300.

Fig. 4 shows according to another embodiment of the present utility model, in this embodiment, cutting 500 comprises first holding part 510, second holding part 520 and support portion 550, first holding part 210, second holding part 220 and the support portion 230 of these parts and above-mentioned cutting 200 are same or similar, do not repeat them here.Transplant a cutting in addition and 500 also comprise the 3rd holding part 530 and the 4th holding part 540.The 3rd holding part 530 is parallel to first holding part 510 and is provided with, and the 4th holding part 540 is parallel to second holding part 520 and is provided with.And the 3rd holding part 530 and the 4th holding part 540 are separately positioned on the opposite side of cutting 500.The 3rd holding part 530 and the 4th holding part 540 are used to hold the edge of another piece glass.Can transplant a cutting adjacent two like this two blocks of glass up and down are set between 500, can satisfy the needs in different greenhouses.First holding part 210 of the setting of the 3rd holding part 530 and the 4th holding part 540 and above-mentioned cutting 200 and second ccontaining 520 same or similar.Though a kind of arrangement mode of two holding parts up and down has been shown among Fig. 4, but be understandable that the Y between first holding part 510 and the 3rd holding part 530, second holding part 520 and the 4th holding part 540 can do corresponding setting according to the distance between two blocks of glass up and down to distance.Like this, can between adjacent two cutting 500, two blocks of glass up and down be set.

By foregoing description, the cutting in the utility model can be connected to glass on the stringer easily as can be seen, and can realize closely cooperating between glass and the cutting, thereby has solved problems of the prior art.In addition, the cutting in the utility model can adopt the PVC material to make, and more can increase the compactness that cooperates between glass and the cutting, also can form integrative-structure easily in addition.Need to prove that the cutting of present embodiment does not limit use on glass greenhouse, also can be applied on the PC plate greenhouse.

The utility model is illustrated by the foregoing description, but should be understood that, the foregoing description just is used for for example and illustrative purposes, but not is intended to the utility model is limited in the described scope of embodiments.It will be understood by those skilled in the art that in addition; the utility model is not limited to the foregoing description; can also make more kinds of variants and modifications according to instruction of the present utility model, these variants and modifications all drop in the utility model scope required for protection.Protection domain of the present utility model is defined by the appended claims and equivalent scope thereof.

Claims (8)

1. cutting that is used for the greenhouse, it is characterized in that, described cutting is arranged on the stringer, described cutting has same or analogous cross section on its bearing of trend, described cutting comprises holding part and support portion, described holding part is used to hold obducent marginal portion, greenhouse, and the spatial form of described holding part is corresponding with described obducent described marginal portion, and described support portion is used for described cutting is fixedly fastened on described stringer.

2. the cutting that is used for the greenhouse according to claim 1, it is characterized in that, described holding part comprises first holding part and second holding part, described first holding part and described second holding part are arranged on the opposite side of described cutting, and described support portion links together described first holding part and described second holding part.

3. the cutting that is used for the greenhouse according to claim 2 is characterized in that described support portion is walked around described stringer and described first holding part and described second holding part are linked together.

4. the cutting that is used for the greenhouse according to claim 2, it is characterized in that, described holding part also comprises the 3rd holding part and the 4th holding part, described the 3rd holding part is parallel to described first holding part and is arranged on described first holding part below, described the 4th holding part is parallel to described second holding part and is arranged on described second holding part below, and described the 3rd holding part and described the 4th holding part have and described first holding part and the described second ccontaining same or analogous structure.

5. the cutting that is used for the greenhouse according to claim 1, it is characterized in that, described holding part comprises first, second portion and third part, described first is parallel to described third part, described second portion is connected between the end of described first and described third part, and described first, described second portion and described third part form the U-shaped shape on the cross section of described cutting.

6. the cutting that is used for the greenhouse according to claim 5, it is characterized in that, described first contacts with the lower surface of described obducent described marginal portion, described second portion contacts with described obducent side, and described third part contacts with the upper surface of described obducent described marginal portion.

7. according to each described cutting that is used for the greenhouse of claim 1 to 6, it is characterized in that described cutting is an integrative-structure.

8. according to each described cutting that is used for the greenhouse of claim 1 to 6, it is characterized in that described cutting has identical length with described stringer on bearing of trend.

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