NL1023114C2 - Greenhouse, has connecting parts between wall and roof sections and greenhouse frame which compensate for thermal expansion differences in frame - Google Patents

Abstract

The connecting parts between the wall and roof sections of the greenhouse frame are designed to allow a limited displacement between the wall and roof sections and the frame caused by thermal expansion differences in the latter.

Description

Short description: Department store.

DESCRIPTION

The invention relates to a greenhouse suitable for cultivating crops built up from a metal spatial support structure composed of mutually connected stands and beams, against which façade and roof parts can each be mounted with the aid of connecting means, which façade or roof parts each built are made of at least one glass pane surrounded by a frame.

A department store is also called a greenhouse and often covers many hundreds of square meters of ground surface, in order to obtain effective utilization of the surface for cultivating crops. Each department store is made up of a spatial support structure, which is usually made of steel. The supporting structure is constructed from a spatial construction of vertical uprights and horizontal beams or gutter profiles, which gutter profiles serve for supporting the roof and more particularly for supporting the roof parts. A vertical wall is built up against the vertical posts by mounting several façades against the posts. Every façade part as well as every roof part is made up of a frame in which one or more glass panes are included. The façade or roof parts can therefore be considered as separate parts which, after the supporting structure has been built up, are mounted against the vertical uprights or on the horizontal beams / gutter profiles, respectively.

25 With regard to the design and construction of a department store construction, various circumstances must be taken into account, which are laid down in various standard sheets.

One of those circumstances is the requirements that a department store must meet as a result of the thermal expansion of the greenhouse construction.

The support structure, and more particularly the vertical uprights, are anchored on a foundation, which foundation is unable to absorb a thermal expansion of the support structure.

Thus, the entire bearing structure will start to slip under the influence of thermal expansion phenomena.

The deformation or dislocation of the supporting structure caused by the thermal expansion phenomena I is also passed on to the facade c.q.

I roof parts which are fixedly connected to the supporting structure.

Thus, also in the frames, usually made of aluminum, in which the glass panes are accommodated, there is a scaling, with the risk of a life-limiting deformation of the façade part and I and / or a cracking of the glass pane.

The thermal expansion can to a large extent be absorbed by including the glass panes with a certain play in the frames, so that during the shifting the glass panes are not directly crushed by the deformed frame.

Because of this construction of the façade, it is true that the entire bearing construction can absorb a certain offset or tilt as a result of thermal expansion phenomena. However, the risk of damage to the glass panes is still present, since the glass panes cannot return properly or less completely in the frames of the frame during the back-sliding of the supporting structure.

The working of the steel structure due to thermal expansion also causes undesired or uncontrolled movements, which can cause a break in the glass panes.

I On the other hand limits the maximum deviation c.q.

I expansion the maximum length of the department store.

The object of the present invention is precisely to provide a department store which does not have the above-mentioned disadvantages, and for this purpose the department store is characterized in that the connecting means are arranged such that they are a mutual displacement between the supporting structure and the facade or roof parts. allow for the effect of thermal expansion phenomena of the supporting structure.

Because, in contrast to the known department stores, the façade or roof parts are no longer firmly connected to the support structure, the above-mentioned measure according to the invention offers the possibility of absorbing deformation or displacement of the support structure as a result of thermal expansion phenomena by the connecting means and cannot be routed to the façade or roof sections.

Because the façade or roof parts are not subjected to thermal expansion or deformation, this reduces any damage to the façade or roof parts. This again entails a considerable cost saving during the life of the department store.

An additional and much more important advantage of the aspect of the invention resides in the fact that the department store can now be constructed with larger dimensions, since the thermal expansion of the supporting structure no longer determines the maximum structural dimensions. In this way, department stores with a larger and more efficiently utilized growing surface can be constructed.

According to a further aspect of the invention, the connecting means comprise a coupling element, which coupling element is on the one hand fixedly connected to the frame of a façade or roof part and on the other hand is connected to the bearing construction by means of a flexible coupling. These construction measures guarantee on the one hand a solid connection of the façade or roof parts with the bearing construction, but on the other hand offer the possibility of not passing on a deformation or dislocation of the bearing construction as a result of thermal expansion phenomena to the façade or roof parts. This also considerably limits the occurrence of damage to the façade or roof parts.

More in particular, in an embodiment of the greenhouse according to the invention, the flexible coupling between the coupling element and the supporting structure is formed as a bolt slidably received in a slot.

More in particular, the coupling element can be designed as a strip with bent ends, the slot being arranged in a bent end of the strip.

For an effective absorption of the thermal expansion of the support structure by the connecting means, the slot according to the invention extends in the horizontal direction.

In order to accommodate the thermal expansion of the supporting structure occurring in the vertical direction, in another embodiment the slot can also extend in the vertical direction.

Because the connecting means according to the invention allow a displacement of the sliding spatial structure relative to at least the facade parts, the connecting means actually have a reduced to no bearing capacity for supporting the facade parts to the spatial structure.

According to the invention, at least the facade parts are designed to be self-supporting for this purpose.

The invention will now be explained in more detail with reference to the drawing, which drawing successively shows: figure 1 a greenhouse according to the state of the art during the shifting under the influence of thermal expansion phenomena; Figure 2 is a side view of a department store according to the invention; figure 3 shows a detailed view of the connecting means I according to the invention; Figure 4 shows another detail view of the connecting means according to the invention.

Figure 1 discloses a greenhouse 1 consisting of a supporting structure 2 placed on a foundation 3 built up of mutually connected vertical uprights 2a and horizontal beams or gutter profiles 2b. Different façade or roof sections 4 resp. 5, wherein the roof parts 5 are supported by the different horizontally extending gutter profiles 2b 5.

The façade or roof parts 4 resp. Figure 5 shows diagrammatically in Figure 1, however, the wall and roof parts 4 and 5 are usually constructed from a frame of aluminum profiles in which one or more glass panes are included. At the well-known department stores the façade-10 and roof parts are 4 resp. 5 fixedly connected to the support structure 2.

A known drawback of the known department store is the distortion due to thermal expansion phenomena. The supporting structure 2, usually made of steel, is fixedly mounted on a foundation 3, which the foundation cannot expand as a result of temperature changes. The thermal deformation of the vertical uprights 2a and more particularly the horizontally extending beams / gutter profiles 2b leads to a shift of the entire bearing structure 2 relative to the fixed foundation 3.

This deformation or scaling is shown in Figure 1 by means of the dotted lines, the two arrows indicating the deformation dx in the longitudinal direction.

This deformation dx created by the skidding effect of the support structure 2 deformed by thermal expansion phenomena also results in a deformation or shift in particular of the façade parts 4 fixedly connected to the support structure 2. Therefore, the façade parts 4 fixedly connected to the support structure 2 are also deformed which can lead to undesired stresses in the glass panes, resulting in breakage.

The glass panes are usually incorporated in the façade parts 4 with a certain amount of play, in order to be able to absorb or compensate as much as possible for the skid effect. The disadvantage, however, is that when the supporting structure 2 returns to its original orientation, the glass panes do not fully return to the rebates of the I frame of the façade parts 4, so that damage or breakage to the glass panes can still occur.

In addition to the risk of damage and the necessity to replace the façade parts 4, the displacement of the supporting structure over the distance dx limits the maximum structural dimensions of the department store 1.

Figure 2 shows a side view of a department store I according to the invention. The corresponding parts with the department store as shown in figure 1 are indicated with identical reference numbers. Here too, the greenhouse 1 according to the invention is formed by a support structure 2 built up of vertical uprights 2a and horizontally extending beams or trough profiles 2b connected thereto.

In the roof construction, roof gutters 6 are also included for draining rainwater, which may be slanted on the roof structure 2, slantingly into the supporting structure 2.

As already explained above, the facade parts 4 are constructed from a frame 7, 7 ', 7 "of aluminum profiles in which one or more glass panes 8, 8', 8" are included. Thus, each facade part 4, 4 'can only be composed of one or more glass panes 8. In this embodiment, the shown side facade of the department store 1 is composed of two layers A and B of facade parts 4 and 4, respectively. 4 '. The layer A of façade parts 4 here rests on the horizontal bar 2b, indicated in Figure 2 by 2b '.

According to the invention, the different façade parts 4, 4 'are connected to the support structure 2 by means of connecting means, which connection means are arranged such that they allow mutual displacement between the support structure 30 and the façade parts 4 as a result of thermal expansion phenomena of the support structure 2 to make.

7

Detailed views of these connecting means are shown in Figures 3 and 4.

Figure 3 shows a profile element 7 of the framework from which a facade part 4 is built. The horizontally extending profile 7 shown in figure 3 serves for receiving two glass panes 8 and 8 respectively. 8 'as shown in Figure 2.

The connecting means between the frame 7-7 'of each façade part 4 and the bearing construction 2 (see also figure 4) is formed by a coupling element 9 which is designed as a strip provided with two bent ends 9a and 8a respectively. 9b.

The bent end 9b is thereby connected to the profile part 7 of the frame of wall part 4, while the other bent end 9a is connected to a vertical upright 2a of the support structure 2 and, as in figure 4, possibly via an intermediate element 11.

The intermediate element 11 forms part of the vertical upright 2a and allows a simple mounting of the coupling element 9 with the supporting structure 2.

According to the invention, the connection between the wall part 4 via the connecting means 9 with the support structure 2 is such that it can absorb a shift of the support structure 2 as a result of thermal expansion phenomena and does not pass on to the facade parts and 4. For this purpose it has been bent over end 9a of the coupling element 9 provided with a slot 12 in which a bolt 13 is received. The bolt 13 is fixedly connected to the intermediate element 11 by means of a nut 14, but allows a shift in the slot 12 if the vertical upright 2a, as a result of the thermal expansion of the overall supporting structure 2, moves in the direction of the double arrow moved. For this purpose, the slot 12 (12 ') is arranged in the horizontal direction in the upstanding end or bent end 9a (9a') of the coupling element 9 (9 ').

A f) O 1 1 λ I To prevent that during the expansion c.q.

I shifting of the supporting structure 2 the coupling elements 9 resp. 9 'come into contact with each other and if each facade still has parts 4 resp. 4 'and the glass window 8 incorporated therein. 8 ', a space 10 is included between the coupling elements 9 and 9'. The gap 10 is also present between the adjacent gutter profiles 7 resp.

7 'of the facade parts 4 resp. 4 '(see also figure 2).

In order to prevent draft and moisture from entering as much as possible, a sealing element 14 is included between the two sections 1 and 7-7 'in the space 10, which sealing element 14 may, for example, be a flexible sealant or a different flexible seal 14.

Each profile part 7 (7 ') is provided with a slot 7a (7a') in which a glass window 8 (8 ') can be received. With the aid of rebate clamps 12 (12 '), each glass pane 8 (8') is enclosed around the frame of the facade parts 4 (4 ') formed by the gutter profiles 7 (7').

Although a sealing element 14 is included between the gap 10 of the adjacent channel sections 7-7 ', the gap 10' can be closed further on the outside of the facade parts 4-4 'by a sealing strip 13 which is provided with resilient I projecting parts 13a-13b which can engage behind the flange edges 15 (15 ') of the gutter profiles 7 (71). This guarantees a good sealing of the façade parts 4 arranged next to each other against the bearing construction 2 against the ingress of moisture and draft, but also makes a simple dismantling, for example as a result of damage or maintenance to the façade parts 4 (4 ') possible.

The inclusion of the glass panes 8 (8 ') in the frames 13 (13') with the aid of the frame clamping elements 12 (12 ') also make a simple form-locked confinement of the glass panes 8 (8') in each wall part, as well as a simple replacement due to fracture I possible.

9 •.

Because the connecting means according to the invention allow a shift of the foamy spatial structure relative to at least the facade, the connecting means actually have a reduced to no bearing capacity for supporting the facade parts to the spatial structure.

According to the invention, at least the facade parts are designed to be self-supporting.

As shown in figure 2, the facade parts 4 'in layer B support on the foundation 3, while the facade parts 4 in layer A again support the facade parts 4'.

in? q 11 a

Claims (8)

Warehouse suitable for cultivating crops built from a metal spatial support structure composed of 5 uprights and beams connected to each other, against which façade and roof parts can each be mounted with the aid of connecting means, which façade or roof parts are each composed of at least one a glass pane surrounded by a frame, characterized in that the connecting means are arranged such that they enable mutual displacement between the bearing construction and the facade or roof parts as a result of thermal expansion phenomena of the bearing construction. 2. Warehouse according to claim 1, characterized in that the connecting means comprise a coupling element, which coupling element is on the one hand fixedly connected to the frame of a façade or roof part and on the other hand is connected to the supporting construction by means of a flexible coupling. Department store according to claim 2, characterized in that the flexible coupling between the coupling element and the supporting structure is formed by a bolt slidably received in a slot. Department store according to claim 2 or 3, characterized in that the coupling element is designed as a strip with bent ends. Department store according to claim 4, characterized in that the slot is arranged in a bent end of the strip. 6. Warehouse according to claim 4 or 5, characterized in that the slot extends in the horizontal direction. Department store according to claim 4, 5 or 6, characterized in that the slot extends in the vertical direction. Department store according to one or more of the preceding claims, characterized in that the façade parts are self-supporting. 30