WO1994013559A1

WO1994013559A1 - Bulk material container

Info

Publication number: WO1994013559A1
Application number: PCT/EP1993/003575
Authority: WO
Inventors: Egon Wurr
Original assignee: Eurea Verpackungs Gmbh & Co. Kg
Priority date: 1992-12-17
Filing date: 1993-12-16
Publication date: 1994-06-23
Also published as: NO943013D0; ATE150416T1; EP0625951A1; DE59305880D1; EP0625951B1; ES2101497T3; NO943013L; DE9217248U1; DK0625951T3

Abstract

A bulk material container, in particular a flexible bulk container (FIBC) essentially consists of a fabric made of high-resistance plastic threads or strips. In order to determine the stress due to solar radiation, the bulk material container bears at least one indicator element (4; 4') at a spot (6; 7; 7') exposed to the sun. The indicator element senses reproducibly visible or measurable property changes depending on the solar radiation acting on the fabric. In particular, the indicator elements (4') consist of plastic foil strips which may be cut off for testing transport containers.

Description

Bulk container

The invention relates to a bulk goods container, in particular a flexible bulk container (FIBC), which is essentially made from a fabric of high-strength plastic threads or tapes.

Bulk goods containers of the type described are used for a wide variety of bulk goods. They are manufactured, for example, from polypropylene ribbon fabric. Other olefins or mixed olefin polymers are also used.

However, polyolefins, in particular polypropylene, are susceptible to the UV component of sunlight. The plastic changes due to UV radiation; the fabric gradually loses strength and can tear under normal use. If such a bulk container with reduced strength is raised, the tissue tears and the container empties. It has also happened that the loops come loose from the fabric and the bulk container falls from the lifting device. If such damage occurs, it is often very difficult to determine whether the damage was caused by overloading or material degradation due to UV radiation. The question of whether the damage is only caused by UV radiation remains open was influenced or whether chemical reactions of the bulk material have caused a change in the tissue.

The invention is based on the object of making the loading of a bulk goods container of the type mentioned at the outset easy and reliable by exposure to light, in particular UV radiation, in order to make as precise a statement as possible about the amount of radiation that has acted Has.

In the physical measurement in relation to the examination and use of polyolefin fabrics, only the so-called global radiation that strikes the surface of the earth has a practical meaning. It is the sum of the direct solar radiation and the sky radiation scattered by the components of the earth's atmosphere. The global radiation encompasses the wavelength range from approximately 290-1400 nm, the proportion of long-wave radiation in the IR region (780-1400 nm) is approximately 53%, the visible region (400-780 nm) provides approximately 43% and the UV component (290 - 400 nm) only about 4 - 6% of the total global radiation. The radiation energy is measured with a pyrheliometer. The energy is given in joules. In practice, however, the Langley unit is still generally used, in particular in Kilo-Langley. 1 kilo-Langley - kLy - corresponds to the solar radiation of 1 kCal / cm ² . The intensity is generally given in kLy per year. Weather maps show that e.g. B. In Central Europe there is sunshine of about 1000 kLy per year. In areas of America and Africa, over 220 kLy are measured annually.

The aforementioned object is achieved in that the bulk container carries at least one indicator element at a point which is exposed to the sun, and that the indicator element reproducibly sees or measurable changes in properties according to the solar radiation acting on the tissue. The indicator element can be a fabric, a film, a nonwoven or a layer which, in the case of defined solar radiation, has at least one of its physical properties, e.g. B. their Festig¬ speed or color, measurable and reproducible changes.

For example, small flags made of polyethylene with white pigment, e.g. B. TiO and used as an indicator element. Laboratory tests can empirically determine the service life of such indicator elements, so that after a certain time of irradiation, simple strain measurements can be used to determine what stability the indicator element still has after a certain time of use.

With the present invention it is therefore possible to determine the cumulative intensity which has acted on the container. The indicator elements used can therefore provide information about the intensity of radiation which has already acted on the bag, so that a decision can be made immediately on the spot for the further usability or the further use of the bulk goods container. Indicator elements in the form of strips or flags, which are sewn on at exposed points of the bulk goods container and which are separated for examination, come closest to the practice. The same plastic quality can be selected here that also applies to the yarns of the fabric.

However, it is also possible to weave indicator elements into the fabric, with particular reference being made to indicator elements that become characteristic over time discolor. Dyes are known which cause discoloration or discoloration due to solar radiation and can therefore also be used as cumulative measurement indicators.

The fabric yarn of the bulk goods container is usually equipped with suitable UV stabilizers or UV absorbers, which are used as light stabilizers both for improving the light resistance and as sun protection agents. There are various chemotechnical possibilities here (cf. article UV absorber in RÖMPP, chemical lexicon), some of which can also be used in mixed form and in many cases are a manufacturing secret.

When indicator elements of the same composition as the base fabric are used, statements can easily be made at any time as to which solar radiation has already worked. In particular, the manufacturer can also give a guarantee that with a certain UV resistance of the FIBC fabric of 80, 150 or 200 kLy, a statement can be made that after the existing radiation there is still a residual strength of 50 % of the original strength is present, observing the ASTM standards.

It is also advantageous to use a colored indicator which changes color in the case of defined solar radiation. A color indicator can e.g. B. be partially introduced in a white tissue. The amount of accumulated solar radiation can be determined with a used FIBC if an indicator is available. Has the indicator z. B. after an irradiation of 50 kLy changed color, a corresponding UV radiation has become effective. In addition, it is proposed that indicator elements combined with characteristic threads counteract a certain stability. to hint at sun exposure, for example

50 kLy yellow tracer

75 kLy green tracer

100 kLy red tracer

150 kLy black tracer thread.

In particular, it is advantageous to weave colored indicator threads 0 into the tissue, since this is a measure that is practically tamper-proof. A einge¬ woven indicator thread or a corresponding ribbon has found that it can not be subsequently again inject into a tissue such that an existing ₅ indicator member indicating the advantage of the state of the tissue.

In particular, it is proposed to choose meaningful places for the attachment of indicator elements, such as. B. 0 - the collar area,

- the lid area,

- The side surfaces and / or

- the transport loops.

5 In this way, the points are equipped with an indicator which are both most exposed to the sun's rays and which may be subject to the greatest loads. This gives you a statement that is of the greatest importance for practical use. The _Q indicator element indicates that a certain residual strength of the original strength is still present in the fabric, in the carrying loops or in the sewing thread after a certain amount of solar radiation.

₅ This also applies if the fabric is made of plastic threads as polyolefins, since these plastics enable an inexpensive and relatively inexpensive fabric. The plastic threads can also be electrical conductive threads are woven. In this way, charges are safely derived when filling, transporting and emptying the bulk container. These conductive threads are advantageously made of polypropylene in the base substance and can be produced, for example, according to EP 298 767 A3. Because both the non-conductive and the conductive threads of the fabric are made of the same basic substance, the indicator element essentially indicates the condition of the entire fabric used.

In this context, it should be pointed out that an indicator for the detection of UV-B radiation is known (DE 92 05 575 Ul). It consists of a receptor made of phototropic material and a filter which is selectively transparent to electromagnetic radiation with a wavelength of 280 nm to 315 nm and above about 500 nm. The filter is placed over the material. However, this indicator embodiment cannot be used for the purpose presented here.

The invention is explained in more detail below using an exemplary embodiment. Show it:

FIG. 1 shows a bulk goods container with indicator elements in a perspective schematic representation,

FIG. 2 shows a fabric structure of the fabric used to manufacture a bulk goods container according to FIG. 1, with individual threads used as indicator elements.

In Figure 1, a bulk container 1, a so-called FIBC, is shown. It consists of a carrying bag 5, which is provided with lifting loops 7 and 7 'at the top. In its lid area 10, the carrying bag 5 has a filler neck 8, in its bottom area 11 an outlet neck 9.

The carrier bag is made of a high-strength fabric 2

Plastic threads 3 are produced, in which electrically conductive threads 3 'are woven in. These electrically conductive threads 3 'consist of a polyolefin made electrically weakly conductive by the addition of carbon black, preferably polypropylene, as can be produced, for example, according to EP 208 767 A3. As a result of the weaving in, the mesh is interspersed with a grid of intersecting, electrically conductive threads, via which, with appropriate grounding, the static electricity which arises when the bulk material containers are used, in particular when filling or emptying, can be dissipated.

This bulk goods container 1 is exposed to the sun's radiation, which is measured in kLy. The threads of fabric 2 are usually equipped with suitable UV stabilizers. In this way, a UV resistance of 150 kLy is achieved until the strength has dropped to 50% of the original value. For the lighter parts, the outlet nozzle 9, the inlet nozzle 8 and the lid area 10, a UV resistance of 80 kLy is common and required.

In order to be able to determine the sun's radiation and thus the possible UV damage, indicator elements 4, 4 'or 4 "are attached to important informative points on the bulk material container. An indicator element 4 is preferably attached in the collar area. Wei ¬ furthermore, it is possible to attach indicator elements 4 ", 4" in the lid area or on the lifting loops 7 and 7 'and on the side surfaces 12 and 12 ".

The indicator elements 4, 4 'and 4 "can be designed as color change indicators or else as flags sewn on both ends, which can easily be cut for examination. In addition, color indicator elements in the form of ribbons or threads can also be woven into the container fabric, whereby they are easily recognizable within an otherwise white fabric (reference number 40). The fabric 2 itself, as can be seen in particular from FIG. 2, consists of UV-resistant plastic threads 3 into which conductive (dark) threads 3 'are woven at certain intervals. Indicator elements 40 in the form of colored threads can also be seen.

Equipping the fabric 2 with a UV resistance of 150 or 80 kLy means that after this irradiation the tear strength of the fabric may have decreased by 50% compared to the original strength. Are Erfin dung according indicator elements 4, 4 ^1, 4 'and 40 at said locations 6, 7, 7', 10, 12 and 12 befe- _Q Stigt, far because these sites lie¬ meaningful measurement results. It is possible, but also to weave in the indicator elements 4, 4 ', 4 "during the manufacture of the fabric 2. In this way, a statement about the fabric condition is possible, free of mechanical influences or possible manipulations.

The indicator elements 4, 4 ¹ and 4 "or 40 can provide information about the sun exposure by a change or color reaction, since at least one of their physical properties, e.g. their strength or color, can be measured. and has changed reproducibly.

Another possibility is to attach indicators 4, 4 'and 4 "made of a piece of tissue, film, fleece or coated material which has an empirically set, defined UV stability and, for example, with an irradiation of 50, 100 or 150 kLy breaks, crumbles or becomes brittle. Such used material can then already be recognized by visual inspection as no longer provided with sufficient strength.

It should be pointed out that in particular a used "second hand" FIBC cannot be seen which UV radiation has affected it. The user and buyer of the container should be informed in good time when replacement of the container is necessary. On the other hand, the indicator ensures that not only the pure time factor plays a role, but also the radiation as the main element that determines aging. Therefore, a container can usually be used longer than before because it is not taken out of service prematurely for safety reasons. On the other hand, improper filling conditions, for example with non-approved filling goods in the event of damage, can be attributed to the behavior of the transporter, since the indicator elements indicate that damage to the sun which has caused damage has not hitherto been observed.

Claims

Expectations

1. Bulk goods container, in particular a flexible bulk container (FIBC), which is essentially made from a fabric of high-strength plastic threads or tapes, characterized in that the bulk goods container has at least one indicator element (4; 4 '; 4 "; 40 ) at a point (6; 7; 7 '; 10; 12; 12') that is exposed to the sun, and that the indicator element reproducibly sees or undergoes measurable changes in properties in accordance with the solar radiation acting on the tissue.

2. Bulk goods container according to claim 1, characterized gekenn¬ characterized in that the indicator element (4; 4 '; 4 ") consists of a fabric, a film, a nonwoven or a layer which at least one of their physical properties at a defined solar radiation , for example their strength or color, measurably and reproducibly changes.

3. Bulk goods container according to claim 1 or 2, characterized in that the indicator element (s) (40; 4 ', 4 ") woven into the fabric (2) and / or attached to the fabric (2).

4. Bulk goods container according to at least one of claims 1 to 3, characterized in that the indicator elements (4 ") consist of plastic film strips which can be cut off from the transport containers for testing. 1

5. bulk container according to at least one of claims 1 to 4, characterized in that indicator elements are attached

_ - in the collar area (6) of the container, b

- in the lid area (10),

- On the side surfaces (12, 12 ') and / or

- on the transport loops / 7, 7 ¹ ).

Bulk goods container according to at least one of claims 1 to 5, characterized in that the fabric (2) is made from olefin threads (3) or tapes with which optionally electrically conductive threads (3 ') or tapes are woven, which are also consist essentially of an olefin. 5

5