SE539939C2 - Drawing room with perforated wall - Google Patents

Abstract

The invention relates to a drawing space (1) with a wall (8) with perforations (5, 5a-b) for air extraction from the drawing space. The perforated wall (8) is divided into segments by segment delimiters (7, 11-13), typically a work table or a shelf. The perforations cover over the main part of the perforated wall (8) a first part of the wall surface per unit area. The perforations in the segments, at least at the upper part of the first segment, cover a second part of the wall surface per unit area, or the perforations at the lower part of the segments cover a third part of the wall surface per area unit, where the second and third parts are larger than the first part. particularly efficiently removes powder particles or volatile vapors of higher density than air discharged on or above the upper surfaces of the segment delimiters or it may particularly effectively remove volatile vapors of lower density than air discharged on or above the upper surfaces of the segment delimiters.In one embodiment the perforations cover both the upper part of the segment and at its lower part a proportion which is greater than the proportion at the middle of the segment. As a result, the drawing space has an increased efficiency for extraction of both powder and light or heavy vapors.

Description

The present invention relates to a drawing room with a perforated wall according to the preamble of the independent claim.

Background of the Invention A drawer is a device similar to a drawer, but so large that an operator can operate the indoor drawer. Traction is used when handling dangerous, contagious or irritating substances that emit gases or particles that must be removed from the operator. In the traction chamber, air continuously moves towards an exhaust to remove gases or particles. The removal is efficient for elements with the same density as air, but less efficient for elements with higher or lower density than air because these sink or rise on their way to the extraction. In particular, particles can have time to fall to the floor or to a work surface and get stuck there, so that they are not sucked out.

An object of the invention is therefore to provide a drawing space with a perforated wall which is capable of sucking out contaminants which are lighter or heavier than air with increased efficiency.

These and other objects are achieved by a drawing room with a perforated wall according to the characterizing parts of the independent claim. Summary of the invention The invention relates to a drawing room 1 with at least one wall 8 with perforations 5, Sa-b pre-air extraction from the drawing room. The perforated wall 8 is divided into at least two segments by the at least segment delimiter 7, 11-13, typically a work table or a shelf. The perforations cover the main part of the perforated wall 8 a first part of the wall surface per unit area and the part is typically substantially homogeneously distributed over this main part of the wall surface. The perforations in at least a first of the segments, at least at the upper part of the first segment, cover a second part of the wall surface per unit area, where the second part is larger than the first part or the perforations in at least a second of the segments at least at the second segment lower cover a third part of the wall surface per unit area unit, where the third proportion is greater than the first proportion.

The dragium according to the invention can advantageously, in a particularly effective manner, draw away powder particles or volatile vapors with a higher density than air discharged on or above the upper surfaces of the segment delimiters.

The drawing space according to the invention can advantageously particularly efficiently draw off light-weight vapors with a lower density than air discharged on or above the upper surfaces of the segregation delimiters.

In an advantageous embodiment, the perforations in at least one of the segments, both the upper part of the wide segment, cover a second part of the wall surface per area unit, where the second part is larger than the first part and in addition, and at the lower part of the segment, a third part of the wall surface perar area unit, where the third the proportion is greater than the first proportion. As a result, the drawing space advantageously has an increased efficiency for extraction of both powder and light or heavy vapors.

In a further embodiment, the perforations, in all segments, at least the upper part of the wide segments cover a second part of the wall surface per area unit, where the second part is larger than the first part or at least at the lower part of the segments a third part of the wall surface per area unit, where the third part is larger than the first proportion.

Brief description of the figures Fig. 1 shows in cross section a drawing room according to the prior art seen from the side Figs. Fig. 2 shows in cross section a drawing space according to the invention seen from the side Fig. 3 shows an inner wall according to a first embodiment of the invention seen from the front Fig. 4 shows an inner wall according to a second embodiment of the invention seen from the front Fig. 5 shows an inner wall according to a third embodiment of The invention seen from the front Description of preferred embodiments A drawer 1 is a device similar to a drawer, but so large that an operator can operate the indoor drawer. Traction is used when handling dangerous, contagious or irritating substances that emit gases or particles that must be removed from the operator. The operator normally sits or stands in the drawbar and works with the hazardous substance on a work table 7.

Fig. 1 shows in cross section a drawing room 1 according to known technology seen from the side. The traction ruin consists of a wooden block-shaped space delimited by four outer walls, a floor 13 and a roof 12, and also comprises an inner wall 8. The traction space is divided into two parts by the inner wall 8, where the larger part consists of an operator space 2 and the smaller part consists of a and filter space 3. In the kt and teltei space 3 there is often a fl ect and filter arranged, where the fan draws air through perforations 5 in the inner wall, further through a filter and the purified air is then discharged through the rear wall 9 which is also provided with perforations. Perforations 5 in the inner wall are evenly sized and evenly distributed over the inner wall, which gives an even distribution of extraction area per wall area.

Air is drawn through a front perforated outer wall 10 into the operator space and the air then moves through the operator space towards the inner wall, so that there is a constant exchange of air and continuous air movement in the space. The purpose of this is that any contaminated air is quickly replaced and sucked away from the operator. In the drawing room, a row of shelves 11 for storage is arranged on the inner wall 8.

When working with the hazardous substance, the substance in gaseous or particulate form tends to be released from containers with the substance. Substances in powder form tend to emit particles that are heavier than air and these are driven by the air flow through the drawing space towards the inner wall, but they can fall on the work table 7 or the shelf 11 due to their own weight. Once on the work table the particles get stuck and the air draft may be insufficient to make them loosen. When working with substances that emit volatile vapors, the vapors spread quickly in the environment, faster than the speed of movement of the air. If the vapors are lighter than air, they also tend to rise preferentially.

Fig. 2 shows in cross section a drawing room according to the invention seen from the side. It is designed as a single drawing room according to the invention, but with the proviso that the perforations 5, Sa-b through the inner wall 8 are not evenly sized, which gives an uneven distribution of extraction area per wall area. The perforations 5 through the inner wall 8 are some distance from the drawing room floor 11 are of equal size with a first size and evenly distributed to give an even distribution of extraction area per wall area. The perforations 5b through the inner wall 8 immediately below the roof of the drawing room, the underside of the work table 7 and the underside of the shelves 11 have a second size which is larger than the first. This results in an increased extraction area per wall area in the upper part of each delimitation. The perforations Sb through the inner wall 8 immediately above the floor of the living room, the upper side of the work table 7 and the upper side of the shelves 11 have a third size larger than the first. In the described embodiment, the second and third sizes are the same size, but this need not generally be the case.

F ig. 3 shows an inner wall according to a first embodiment of the invention seen from the front. Over the main part of the segments, i.e. a distance from the segment delimiters 7, 11-13, the perforations are equal in size with the first size and evenly distributed so that they give a first homogeneous extraction area per wall area. that they give a second homogeneous extraction area per wall area, which is higher than the first. The second embodiment is particularly adapted for work with substances in powder form and effectively removes powder particles that are emitted on or above the upper surfaces of the segment delimiters, i.e. where an operator typically handles the substances. The second embodiment is also particularly adapted for work with substances which emit volatile vapors with a higher density than air and effectively drains away such heavy, volatile vapors emitted on or the upper surfaces of the upper pre-segment delimiters. The majority of the segments, i.e. a distance from the segment delimiters 7, 11-13, the perforations are large with a first size and evenly distributed so that they give a first homogeneous extraction wall area. Just at the upper edge of the segment delimiters, the perforations 5b are equal in size and evenly distributed so that they give a second homogeneous extraction area per wall area, which is higher than the first. The second embodiment is particularly adapted for work with substances that emit volatile vapors with a lower density than air and effectively removes such light, volatile vapors that are emitted on or above the upper surfaces of the segin delimiter, ie where an operator typically handles the substances.

Fig. 5 shows an inner wall according to a third embodiment of the invention seen from the front. The main part of the segment, i.e. a distance from the segment delimiters 7, 11-13, the perforations are equal in size with a first size and evenly distributed so that they give a first homogeneous extraction area per wall area. Both in the upper and lower edge of the segment delimiters, the perforations Sa-b are equal in size to a second size and evenly distributed so that they give a second homogeneous extraction area per wall area, which is higher than the first. The third embodiment is adapted both for working substances that emit volatile vapors with a lower density than air and for working substances in powder form. In the third embodiment, both powder particles and light, slightly volatile vapors are effectively removed.

In the described embodiments, the perforations of the first size are all equal in size, evenly shaped and evenly distributed. Obviously, they do not have to be exactly the same size, equally shaped and evenly distributed, but the average extraction area per wall area over these surfaces must be at a substantially homogeneous first level. Potentially, they can thus be of clearly different sizes, if in return the corresponding ones are clearly differently densely arranged, so that the average extraction area per wall area over these surfaces still has a substantially homogeneous first level.

In the described embodiments, the perforations of the second and third sizes are all equal, equally shaped and evenly distributed. These can also similarly be allowed to have different sizes, different shapes and be unevenly distributed, as long as the extraction area per wall area above the design surfaces is at a different level than the first and where this second level is higher than the first. This second level does not necessarily have to be homogeneous, but this can be advantageous. The perforations are described as being arranged immediately next to the segment boundaries in a single row, but obviously they can be distributed over your rows or be randomly distributed or distributed in other ways and they do not have to touch the segment boundaries. .

In the described embodiments, the drawing space is divided into two parts by an inner wall with perforations. The drawing space can of course be designed differently, so the perforations do not necessarily have to be distributed over such an inner wall, even if this is a common and suitable solution.

Claims (5)

A claim 1 A pull space (1) with at least one wall (8) with perforations (5, Sa-b) for the air extraction pull-out space, wherein the perforated wall (8) is divided into at least two segments of at least one segment delimiters (7, 11-13 ), where the segment delimiter consists of a mainly plant element extending substantially horizontally from the wall, and where the perforations over the main part of the perforated wall (8) cover a first part of the wall surface perarea unit, characterized in that the perforations in all segments, at least the second proportion of the wall area per unit area, where the second proportion is greater than the first proportion or that the perforations in all segments at least the lower part of the wide segments cover a third proportion of the wall surface per area unit, where the third proportion is greater than the first proportion, where further air extraction through the perforations at segment lower parts are intended to suck away elements that are heavier than air or the air is sucked out through the perforations at the upper part of the segments is intended to suck away elements that are lighter than air. A drawing space (1) according to claim 1, characterized in that the first part is substantially homogeneously distributed over the main part of the wall surface. A drawing space (1) according to claim 1 or 2, characterized in that the perforations in at least one of the segments, at least at the upper part of the segment, cover a second part of the wall surface per area unit, where the second part is larger than the first part. A drawing space (1) according to any one of the preceding claims, characterized in that the perforations in at least one of the segments, at least at the lower part of the segment, cover a third part of the wall surface per unit area, the third part being larger than the first part. A drawing space (1) according to any one of the preceding claims, characterized in that the perforations in at least one of the segments, both at the upper part of the segment, cover a second part of wall surface area unit, where the second part is larger than the first part and in addition, at the lower part of the segment , covers a third proportion of the wall area per unit area, where the third proportion is greater than the first proportion.