NL1035819C2 - Insulation screen for e.g. warehouse, has openings formed in screen material, and sidewalls formed for supporting roof of warehouse or greenhouse having foundation - Google Patents

Abstract

The screen (10) has openings formed in screen material. Sidewalls (2) are formed for supporting a roof (4) of a warehouse or greenhouse (1) having a foundation (1a). An independent claim is also included for a method for manufacturing an insulation screen.

Description

Brief indication: Screen for a department store as well as a method for manufacturing such a screen.

DESCRIPTION

The invention relates to a screen for insulating a department store, in particular a greenhouse, which screen has a length and width dimension and can be clamped at some distance from at least the roof construction of the department store in the department store and wherein the screen has several openings.

The invention also relates to a method for manufacturing a screen according to the invention, comprising the steps of i) supplying an endless strip of screen material; ii) providing openings in the endless strip of screen material; Iii) discharging the endless strip of apertured screen material.

For a long time, so-called energy screens have been used in department stores or greenhouses, intended to better control the energy management in such a greenhouse. These energy or insulation screens are tensioned along the side walls and just below the roof construction and serve to counteract the energy losses to the outside. Such thermal insulation requires less energy to heat the greenhouse.

Such an energy-saving measure has the side-effect that the degree of humidity in the greenhouse is disrupted and can become undesirably high. Too high a humidity level is undesirable for the crops to be grown in the greenhouse, as they are so more sensitive to bacteria and fungi, which have a negative effect on harvest quality and quantity.

If the humidity is too high, it is possible to open the insulation screen in limited places, for example at the location where window openings are provided in the roof construction. However, too high energy losses occur, as well as air currents that disrupt the climate in the overall greenhouse.

The invention has for its object to provide an improved insulation screen with which the climate in a greenhouse and in particular the temperature distribution can be better controlled. According to the invention, the insulating screen is characterized for this purpose in that the openings are provided in the screen with a varying density.

Due to the different, varying density with which the openings 5 are arranged in the screen, temperature differences between inside and outside the greenhouse can be collected or corrected locally (near the walls or the roof construction). In addition, an additional heat leak to the outside environment can be created locally (or prevented) depending on the opening density on site. Also the air humidity can be controlled better, which in general positively influences the harvest quality and quantity.

In the case of two or not combined embodiments according to the invention, the opening density varies in the longitudinal direction or in the width direction. This makes it possible to control or influence climate management on a more local scale in the greenhouse.

According to a functional embodiment, the openings are arranged in two or more density areas in the screen, the density areas being more clearly distinguishable from each other.

In another embodiment, the opening density of a first density region gradually changes to the opening density of an adjacent density region.

An effective climate control can be realized in that in one embodiment the opening density in the parts of the screen that can be stretched at the location of the walls is minimal. More specifically, the opening density in the parts of the screen that can be stretched at the location of the walls is equal to 0 openings / m2.

On the other hand, in a combined or non-combined embodiment, the opening density in the parts of the screen that can be clamped at the location of the roof construction is maximum.

Furthermore, in one embodiment the screen can be flexible, which makes it easy to clamp in a generally large greenhouse. The screen can herein be a fabric or a foil.

The openings in the screen can be holes or other-shaped openings such as slots, which can be provided in the screen with known punching, punching, cutting techniques, etc.

In the method according to the invention, step ii) is characterized by step ii-a) arranging the openings in the screen in a varying density.

More specifically, the method is characterized in that step ii-a) is performed during step i).

The invention will now be explained in more detail with reference to a drawing, which drawing successively shows in: Figure 1 a greenhouse or greenhouse with an insulation screen;

Figure 2 shows an insulation screen according to the invention.

The reference number 1 in Figure 1 indicates a department store or greenhouse. The greenhouse 1 is made up of a spatial construction 15 placed on a substrate or foundation 1a. The construction is further composed of side walls 2 and front walls 3, which support a roof construction 4.

In such a greenhouse, a so-called energy screen 10 is used which is tensioned in the greenhouse 1 at some distance from the side walls 2 and the roof construction 4. Such an insulation or energy screen is used to better control the energy management in the greenhouse. In particular, such an insulating screen must prevent unintentional leakage of heat or energy to the outside environment. With such a thermal insulation screen, less energy is needed to heat the greenhouse.

A disadvantage with the current insulation screens is the limited controllability of the climate system in the greenhouse and in particular the air humidity. Current insulation screens have such a high degree of insulation (or value) that the humidity in the greenhouse becomes uncontrollably high. The latter promotes bacterial growth and the development of fungal cultures, which has an adverse effect on the harvesting quality and quantity of the crops grown in the greenhouse.

People often try to control or influence climate management somewhat by opening the insulation screen on site. In this way an energy leak can be created that makes it possible to equalize the temperature in the greenhouse. However, with the current cultivation greenhouses and the insulation screens used therein, unnecessarily high energy losses occur and also air currents, which adversely affect the climate control in the entire greenhouse.

Figure 2 shows an embodiment of an insulation screen according to the invention. The insulation screen 10 has a length dimension 11 and a width dimension 12. The insulation screen 10 is thereby made of an endless strip of material in which openings 13 are provided.

The openings 13 can be holes which are provided in the screen material with the aid of known punching or punching operations. On the other hand, the openings 13 can have a different shape or section, such as slots.

As clearly shown in Figure 2, the openings 13 are arranged in the screen material 10 at a varying density. More in particular, the openings 13 are arranged in the screen material such that the opening density varies, at least in the longitudinal direction 11.

This is indicated in Fig. 2 by reference numerals 21-22-23 which relate to density areas, the apertures 13 having different densities being provided in the screen material 10. As clearly shown in Fig. 2, the density region 21 has a smaller aperture density then the density region 22, while the density region 20 denoted by reference numeral 23 has a high opening density.

However, it is also possible to provide in the screen 10 two or more than three different density areas than the three density areas 21-22-23 shown in Figure 2.

In the embodiment in Figure 2, the density regions 21-25 22-23 can be clearly distinguished from each other, since they are each separated by a strip of screen material in which no openings are provided.

In other words, the different density regions 21-22-23 are separated from each other by a strip of screen material (indicated by the length designation X3 and X5, each having a density of 0 openings / m2).

Furthermore, it is clearly shown in Figure 2 that the opening density in the regions 21-22-23 is constant in both the length dimension and the width dimension. The dimensions of each density region 21-22-23 can be determined as desired depending on the inside dimensions of the greenhouse and therefore the length dimension of the insulation screen 10.

5

In Figure 2, the density regions 21-22-23 have a length dimension indicated by X2, X4 and X6. Given that the width dimension 12 is the same for each density region, the length dimension X2, X4 and X6 can be equal to one another on the one hand and different from each other on the other, depending on the application in the specific cultivation greenhouse. All this is dictated, for example, by the height of the side walls and the shape and dimensions of the roof construction 4 (see Figure 1).

Optionally, the density regions 21-22-23 can be directly adjacent to each other, that is, they are not separated from each other as shown in Fig. 2 by a strip of screen material X3 and X5, respectively.

The densities of adjacent densities are also clearly distinguishable from each other.

In another embodiment, the opening densities of the different density regions 21-22-23 can gradually merge into one another.

In order to achieve good climate control in the respective greenhouse, it may be desirable that the opening density in the part of the screen 10 that is to be clamped directly next to a side wall 2 is minimal. This is indicated in Fig. 2 by the opening density 21. That part of the screen 10 is often tensioned next to the opposite side walls 2. The central part, indicated by the opening densities 22, 23, respectively, is tensioned at the location of the roof construction and makes a better energy exchange with the upper environment possible.

The middle part indicated by reference numeral 24 can either be fully provided with openings with a specific density (whether or not equal to one of the three opening densities 21-22-23, or as shown in figure 2 with an opening density equal to 0 openings / This also applies to the screen strips located at both width dimensions, indicated by the reference number X1.

30 1035819

Claims (12)

Claims 1. A film for insulating a department store, in particular a greenhouse, which film has a length and width dimension and which can be clamped into the department store at some distance from at least the roof construction of the department store and wherein the foil is provided with several openings, characterized in that the openings with a varying density are arranged in the screen for locally correcting climate differences within the greenhouse. 2. Film as claimed in claim 1, characterized in that the opening density varies in the longitudinal direction. Film according to claim 1 or 2, characterized in that the opening density varies in the width direction. 4. Film as claimed in one or more of the foregoing claims, characterized in that the openings are arranged in two or more density areas in the film. Film according to claim 4, characterized in that the density regions are clearly distinguishable from each other. 6. A film according to claim 4, characterized in that the opening density of a first density region gradually changes into the opening density of an adjacent density region. Film according to one or more of the preceding claims, characterized in that the opening density in the parts of the film that can be clamped at the location of the walls of the greenhouse is minimal. 8. Film as claimed in claim 7, characterized in that the opening density in the parts of the film that can be stretched at the location of the walls is equal to 0 openings / m2. Film according to one or more of the preceding claims, characterized in that the opening density in the parts of the film that can be stretched at the location of the roof construction is maximum. Film according to one or more of the preceding claims, characterized in that the film is flexible. A method of manufacturing an insulating film according to any one of the following claims, comprising the steps of 1035819 i) supplying an endless strip of film material; ii) providing openings in the endless strip of film material; iii) discharging the endless strip of apertured foil material, wherein according to the invention step ii) is characterized by step ii-a) arranging the openings in the foil in a varying density. The method of claim 11, further characterized in that step i-a) is performed during step i). 10 1035819