NL1026241C2 - Greenhouse, as in a domestic garden, comprises support structure and roof with ridges, barn and panels extending between ridge and support structure - Google Patents

Abstract

The greenhouse (1), as in a domestic garden, comprises a support structure (3) and a roof (4) with ridges (5). Bars (6) and panels (2) extend between a ridge and the support structure. The roof has sun part (7) and a shade part (8). At least the panels allow entry of light from the shade parts. The bars of the sun part, at one end spaced from the part which accommodates the panels, has a locating part for accommodating the sun panels.

Description

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Greenhouse with solar panel The present invention relates to a greenhouse, comprising a bearing construction and a roof, which roof comprises projections, each located at an angle between a projection and the roof. , ""; Supporting structure projecting rods and panels arranged between the projections, the rods and the supporting construction, wherein the roof comprises a sun section and a shadow section, wherein at least the panels of the shadow section are translucent. Such greenhouses are often found, such as in Westland where many such greenhouses are used in greenhouse horticulture. The starting point for such a greenhouse is to let in as much light as possible and further to insulate the greenhouse as much as possible from the outside atmosphere and thus create optimum conditions for growing crops. As a result, all panels of the greenhouse are usually made of glass and therefore translucent. In many applications, however, it is not necessarily necessary to use a maximum light transmittance of the greenhouse. This includes the use of a greenhouse for crops that can be used with less light, such as ferns, orchids or aquatic plants. Furthermore, a greenhouse is often only used for storage, such as the storage of caravans in the winter months or the storage of equipment or raw materials used in horticulture

Another important aspect here is that greenhouses are generally regarded as one of the cheapest buildings.

The invention provides, on the basis of the aforementioned insights, a very useful and economic supplement to the use function of greenhouses, namely the use of the greenhouse for generating solar energy with the aid of solar panels. This is achieved according to the invention by providing a greenhouse mentioned in the introduction, wherein the roof comprises solar panels, which are provided with a spacing on the outside of the panels of the sun section. As a result, one can generate solar energy with the help of a greenhouse, possibly partly while retaining the light-transmitting properties of the greenhouse. The advantage of using a gap is that the solar panels will heat up less quickly, which results in a higher efficiency. The invention can be applied to both existing and new greenhouses, as will be explained in more detail below.

In general, in many industrialized Western countries, such as in the Netherlands and Germany for example, subsidies are provided when solar panels are placed on a roof of a building or a financial compensation is obtained for the self-production of electricity using solar energy. It has already been noted that greenhouses are one of the cheapest buildings. The invention therefore makes it possible to erect a relatively inexpensive structure with, in addition to the appropriate function of the interior space as such, also the function of generating electricity in an environmentally friendly manner. If all costs and revenues are considered in their entirety, it will appear that a greenhouse according to the invention is recouped faster than a corresponding greenhouse without solar panels or an alternative comparable structure with solar panels.

Of course, it is always possible to remove the solar panels again at a later stage, for example when a greater light transmittance is desired.

It will hardly be necessary to argue that the generation of so-called green energy is becoming more and more important. Solar energy is an important potential energy source in this regard, with the capacity generated increasing sharply every year. The solar panels required for this are becoming increasingly efficient and cheaper and the industry is investing more and more in this form of energy.

According to the invention, the solar panels can be attached to the greenhouse in a number of different ways. Thus, when constructing a new greenhouse, it is advantageous to provide the rods of the sun section at an end which is remotely provided with the section that receives the panels, with an abutment part for receiving the solar panels. This mounting part preferably comprises a flange edge for positioning a solar panel. The advantage here is that during the construction of the greenhouse the solar poles can be laid directly on the sun section of the roof. Subsequently, it is only necessary to fix the solar panels at a number of points and to connect them to the electricity grid or to the electrical installation in the greenhouse 25 in the case of an autonomous energy system.

In another embodiment according to the invention, an existing greenhouse is used, wherein attachments are used for attaching the solar panels, wherein these attachments are connectable to the rods and, in the coupled condition, extend from the rods over a distance which the space between the determines 30 The advantage is that compared to the situation of a continuously raised rod, less material is used, has fewer problems with shading and the solar panels are better cooled by better ventilation. Here too, a flanged edge is preferably provided at the end of the mounting part provided at a distance from the rod. This flange edge helps with the installation of a solar panel.

When using add-on parts, in a preferred embodiment the add-on parts each comprise two mutually connectable parts and the rods 5 at an end provided on the outside of the panels comprise a recess extending over the longitudinal direction, one end of the parts each receiving in the recess, with each part slidable in the recess after receiving this end. The advantage of this embodiment is that an attachment part can easily be moved by sliding the two parts in the recess to the desired location.

In another preferred embodiment profile sections are provided which run transversely to the rods and are attached to either the attachment parts or to the rods of the sun section, wherein the solar panels can be accommodated in the profile sections. The advantage here is that the profile parts can be attached to the bars or to the attachment parts at any suitable location and a solar panel can possibly protrude beyond a rod, so that solar panels of different dimensions (height and width) can be used. use that is mounted parallel to a cam on a number of rods or attachments. As a result, a series of solar panels can be placed side by side in two profile parts, which are provided at an appropriate mutual distance.

Furthermore, according to the invention, it is advantageous if the sun section is directed to the south. This will generally ensure the maximum possible yield from the solar panels.

In another preferred embodiment of the invention, both the panels of the shadow section and the panels of the sun section are transparent. This is particularly advantageous if one wishes to maintain a maximum light transmittance and the sun poles cover only a part of the sun section.

In the following, the invention will be further elucidated on the basis of the description of the attached figures, in which: figure 1 schematically shows a perspective view of a greenhouse according to the invention; Figure 2 shows a cross section of a rod; Fig. 3 shows a cross-section of a rod to which a mounting part according to a first preferred embodiment is attached; <Figure 4 shows a cross section of a rod, with an attachment according to Γ 1 "! a second preferred embodiment has been confirmed.

The greenhouse 1 shown in Figure 1 comprises a support structure 3, which supports a roof 4. The roof 4 comprises protrusions 5, rods 6 and panels 2 extending at an angle between a protrusion and the support structure, which panels are accommodated between the protrusions, the rods and the supporting structure. The rods 6 run in such a way that the roof is constructed from parallel V-shaped caps. In general, the support structure 3 consists of columns anchored to the ground and a span built up that connects the columns to each other. The side walls determined by the support structure are generally also provided with light-transmitting panels, such as glass panels (not shown in Fig. 1). ). In practice, the roof will consist of a sun section 7, which is oriented substantially to the south and IS a shadow section 8. At the sun section 7, which thus in each case comprises the sun side of a V-shaped hood, solar panels 9 are provided which separated by a space on the outside of the panels 2.

The gap ensures that a solar panel 9 is heated less quickly from below by the heat from the greenhouse. At the edges of a solar panel, an opening will usually be provided between a roof panel and a solar panel, so that ventilation can take place under the solar panel. Both effects are advantageous for a lower temperature of a solar panel. As is known, with the same amount of light, the efficiency of a solar panel is higher at a lower temperature of the panel. The spacing will have a height that is between approximately 2 cm to approximately 1 cm.

In figure 1 it can be seen that the panels possibly only partially cover the panels 2 of the roof, such as in the rightmost cover where the solar panels do not extend up to the supporting structure 3. Furthermore, it is conceivable not to cover a number of panels 2 of the roof with a solar panel, such as at the left cover where the panels are alternately covered by a solar panel 9. This will depend on the amount of sunlight that people want in a greenhouse.

The solar panels themselves are generally non-illuminating. However, it is also conceivable to use solar panels, wherein the individual solar cells are embedded in a glass matrix. In the latter embodiment, the light transmittance of the solar panel can be adjusted as such by incorporating more or fewer solar cells in the glass. Both types of solar panels are often provided in an aluminum outer frame, whereby this frame can be placed directly on the sun part of the roof. Use of panels without an outer frame is however also possible according to the invention.

The panels of the roof 4 and of the supporting structure 3 are preferably made of glass. However, it is also possible to manufacture the panels from a plastic, which may or may not be light-permeable. At the connection of the roof to the supporting structure, gutters (not shown) are usually provided.

Figure 2 shows a first embodiment of a rod in cross-section, wherein the rod 6 comprises a recess 14, which forms a rebate for the panels 2 of the roof 4. At the end which is provided at a distance L from the recess 14, the rod comprises an abutment part 11, which serves to support a solar panel. This mounting part preferably comprises a flange edge 13, which forms a stop edge for the solar panel. Furthermore, a recess 15 is preferably provided at this end, for receiving a hammer head bolt, so as to be able to attach a solar panel to the rod possibly in cooperation with a cover plate 16.

Figure 3 shows a special embodiment, in which an attachment part 12 is attached to the rod 6, at one end of the rod 6 a recess 15 is provided for a hammer head bolt. From the top of the rod 6, the top part extends over a distance H, which distance determines the space between the panel and the solar panel. A flange edge 13 is again provided at the opposite end of the attachment part 12.

Although the rods 6 shown in figures 2 and 3 are solid, at least for the most part solid, in practice the rods will be largely hollow from the inside. The rods 6 and the cams 5 will preferably comprise extruded aluminum profiles.

Figure 4 shows a special embodiment of the attachment part 7, wherein this attachment part consists of two separate parts 19. The rod 6 herein comprises a recess 18, which extends along the longitudinal direction of the rod, wherein an end 20 of the parts 19 can be received in the recess 18. After one or both parts are received in the recess 18, they can enter the recess 18. recess can be moved to 1026241 6 the correct position for attaching a solar panel. In this position the two parts 19 are connected to each other with the aid of fastening means 23, such as a bolt and a nut. At the other end, the parts 19 are provided with abutment surfaces 21, in which bores 28 are provided for receiving fastening means. Attached to this is a profile part 27, which preferably extends transversely to the bars 6

In addition to providing a contact surface 21 for attaching a profile part 27, it is also possible to design this end of the top part 17, such as the corresponding end of top part 12 of Figure 3, which allows a direct placement of a solar panel on such a top part. makes

Furthermore, it is possible to use a similar mounting part that consists of only a part and can be placed in a recess of a rod

Often the rods 6 used in practice are already provided with a recess extending in the longitudinal direction, so that the attachment part shown in Figure 4 can also be applied to existing greenhouses with such rods. By sliding the top part in the recess, two opposite profile parts can be set at random distances from each other, so that a solar panel of any desired size can be mounted. Mounting of a profile part on the abutment surfaces 21 can take place with standard fixing means. Preferably, the lower profile parts in any case comprise an abutment edge so that a solar panel can support against this edge. In addition to attaching a profile part 27 to the attachment part 17 of Fig. 4, it is also conceivable to attach a profile part 27 to the attachment part of | figure 3 or directly to the rod of figure 1. The use of profile parts 27 is particularly advantageous when solar panels without an outer frame are used.

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Claims (9)

1. Greenhouse (1), such as a horticultural greenhouse, comprising a support structure (3) and a roof (4), which roof comprises projections (5), rods (6) extending at an angle between a projection and the support structure and panels (2) arranged between the ridges, the rods and the supporting structure, wherein the roof comprises a sun section (7) and a shadow section (8), wherein at least the panels of the damage section are translucent, characterized in that the roof (4) comprises solar panels (9) which are provided separated by a gap on the outside of the panels (2) of the sun section (7). 2. Greenhouse as claimed in claim 1, wherein the rods (6) of the sun section (7) at an end which is provided at a distance (L) with the section (14) which receives the panels, comprise an abutment part (11) for pick up the solar panels (9). Greenhouse according to claim 2, wherein the abutment part (11) of the bars (6) comprises a flange edge (13) for positioning a solar panel (9). Greenhouse (1) as claimed in claim 1, wherein attachments (12, 17) are provided for attaching the solar panels (9), wherein the attachments are connectable to the rods (6) and in coupled condition extend from the rod over a distance (H) that determines the gap. Greenhouse (1) according to claim 4, wherein the end of the mounting part (12,17) provided at a distance from the rod (6) comprises a flange edge (13) for positioning a solar panel (9). 6. Greenhouse (1) according to one of claims 4 or 5, wherein the attachment parts (12, 17) each comprise two mutually connectable parts (19) and the bars (6) have an end provided on the outside of the panels lengthwise recess (18), wherein one end (20) of the parts (19) can be received in each case in the recess (18), with each part (19) slidable in the recess after receiving this end. 1026241 ♦ Greenhouse (1) as claimed in any of the foregoing claims 1-6, wherein profile parts (27) are provided which extend transversely to the bars (6) and are fixed to the mounting parts 1 '! (12,17) or on the bars (6) of the sun section (7), the solar panels (9) in the i; ! 5 profile parts (27) can be accommodated. Greenhouse (1) according to one of the preceding claims, wherein the sun section (7) is facing South. Greenhouse (1) according to one of the preceding claims, wherein the panels of the shadow section (8) and the sun section (7) are transparent to light. 1026241 "