EP0586783A1 - Apparatus for exhausting emissions of pollutants - Google Patents

Abstract

The apparatus is an apparatus for extracting gaseous, vaporous, aerosol-form and/or dusty emissions during a manual or mechanical activity generating the pollutant emissions, the apparatus being constructed as an extractor hood covering the desired working area, having a head piece surrounded by a flexible curtain and having an inlet forming an intake sector and having a cover closing the intake sector and having a suction connection (9). In order to make possible reliable extraction both when the intake sector is open and when it is closed, it is proposed that in the head piece there are arranged in parallel and at a distance to each other air guide vanes which are horizontally arranged and leave clear at least the intake sector, the upper guide vane reaching with its leading edge roughly to the intake sector and overlapping with its rear edge the significantly trailing leading edge of the lower guide vane and the space between the lower guide vane and a head plate (20, 21) being connected to the suction connection (9). <IMAGE>

Description

The invention relates to a device for the extraction of gaseous, vapor, aerosol and / or dust-like emissions during a manual or mechanical activity producing these emissions, the device being designed as an extraction hood covering the desired working area, with a hood surrounded by a flexible curtain Headboard and with an indentation forming an entry sector and a cover closing the entry sector, and with a suction connection.

Devices of the type mentioned are already known from DE-OS 38 26 340. However, it has been shown that the suction effect z. B. is unsatisfactory when the entry sector is open. During the manual filling of the containers, dusts and / or vapors are not extracted sufficiently, so that an unreasonable burden remains on the person performing the filling. Since the suction cannot be arranged centrally due to the agitator inlet, suction is relatively good in the vicinity of the inlet inlet, while the rest is unsatisfactorily suctioned, so that dust and / or vapors escape after opening the inlet sector.

The invention is therefore based on the object of proposing a device of the type described at the outset with which a reliable suction is possible both when the entry sector is open and when it is closed. This object is achieved according to the invention in that the suction connection is arranged below a head plate, an air baffle leaving the entry sector at a distance below the head plate, which extends over the entire area of the head plate and opens in the cross section of the suction connection. This will in the area of Entry sector generates a strong flow, so that the vapors and dusts are extracted at a strong flow rate. The entry sector thus remains almost completely free of dusts and vapors even when open. Due to the opening of the air baffle mentioned in the cross section of the suction connection, a partial cross section of the suction connection remains open below this air baffle. This ensures that the remaining space below the suction hood is sucked free of vapors and dusts. Satisfactory suction performance is thus achieved both in the open and in the closed state of the suction hood.

One embodiment of the invention provides that a short baffle extending into the suction space is arranged directly below the free cross-section of the suction connection under the air baffle. This significantly improves the suction performance for the inner area of the suction hood.

Another embodiment of the invention provides that the air baffle is arranged inclined relative to the head plate, such that the distance from the head plate at the inlet sector is smaller than at the suction connection, so that a suction nozzle effect is produced. In this way, the suction performance in the entry sector can be improved.

Another embodiment of the invention provides that the head plate except for the entry sector and if necessary. the suction connection is circular. This improves production and creates a favorable shape for the flow course inside the suction hood.

Furthermore, it is also proposed according to the invention that the suction connection is arranged on the region of the head plate opposite the entry sector. This also creates cheap ones
Flow conditions inside the suction hood and it can be the suction connection in the range mentioned, depending on how this further conditions, such. B. require the premises on site, be provided in different places.

The object on which the invention is based is also achieved according to an alternative proposal in that in the head part horizontally arranged and at least sparing the entry sector, air guide plates are arranged in parallel and at a distance from one another, the upper guide plate reaching with its front edge approximately to the entry sector and with its rear edge the clearly back leading edge of the lower baffle overlaps and the space between the lower baffle and a top plate is connected to the suction connection. The baffles also cause a strong flow in the area of the inlet sector, so that the vapors and dusts are sucked out between the baffles at a strong flow rate. The entry sector thus remains almost completely free of dusts and vapors even when open. The far lower lower baffle also ensures that there is a sufficient suction flow in the entire hood space, so that a satisfactory suction performance is achieved both in the open and in the closed state of the suction hood.

In a further embodiment of the invention, it is proposed that the space mentioned is separated into two entry sectors by a partition opening into the suction opening of the suction connection. The size of the two inlet sectors can be influenced by the position of the partition, so that the flow velocities in the individual suction sectors can also be influenced. As a result, the suction power can be adapted to the specific situation. According to a further embodiment of the invention, this is particularly facilitated in that the Partition is slidable in the space mentioned and is connected at least at one end to an adjusting mechanism. As a result, the entire device can always be built in the same design and be adapted on the spot to individual needs by moving the partition by means of the adjusting mechanism. Here, as proposed according to a further embodiment of the invention, it is particularly advantageous if the adjustment mechanism is arranged in the region of the suction connection. As a result, the cross section of the suction opening can then be divided in a simple manner by displacing the partition in the area of the suction opening, so that different suction power is available to the sectors to be suctioned off.

It is particularly advantageous if, as proposed according to another embodiment of the invention, the partition is designed as a double wall, each of which is adjustable independently of the other. The design of the partition as a double wall allows the flow velocity and the mass flow rate of one chamber to be influenced without simultaneously influencing the other chamber. Mass throughput, flow speed and thus suction power can be optimized for each individual sector.

It is further proposed according to the invention that in a region of the hood facing away from the entry sector, a suction channel extends away from the lower running plate. This suction channel thus opening into the interior of the suction space also allows, if necessary, reliable suction of the area under the suction hood which, compared to the other suctioned areas, has only a slower flow rate during the suction process. The above-mentioned additional suction channel also ensures reliable extraction of all vapors and dusts in this area. This suggests, as further suggested is, this suction channel advantageously has a suction nozzle at the lower end. It is particularly advantageous if the height of this suction nozzle and the angle of rotation of the suction nozzle can be changed.

Another embodiment of the invention provides that the head part consists essentially of a head plate, the air baffles and means for fastening the air baffles. This is an easy to manufacture but reliable construction. In addition, it is proposed that the head part has a circular cross-section except for a quarter-circle sector and the entry sector, which continues in the quarter-circle sector in a rectangular cross-section with edges that are perpendicular to one another in this area and form a corner with one another, the edge in the area of the corner has the suction opening and the suction connection. This creates a large free work space that can still be reliably vacuumed. In addition, the side arrangement of a suction opening and the suction connection is often preferable to a central arrangement, because through this side arrangement dusts and vapors are not simply extracted upwards, but rather are sucked away from the input sector, which is also ensured by the air baffles.

A construction variant of the invention provides that the head part has a central opening with a circular cross section, which is enclosed by a circumferential wall which extends at least as far as through the lower air baffle. Such a central opening allows, for example, the introduction of a stirrer shaft of a mixer or the introduction of another implement that is to work in the suction area of the hood.

It is also proposed according to the invention that the circumferential wall projects above the head part and that a on the projecting area Cover plate with a flexible curtain is pivotally mounted to cover the entry sector. It is a simple construction that is easy to handle, easy to manufacture and yet reliable.

It is also proposed that the cover plate be equipped with a tinted, unbreakable anti-glare glazing instead of the flexible curtain. This version is particularly advantageous if the extraction hood is used on welding robots.

Furthermore, a limit switch monitoring is also provided for the cover plate in order to control further measures depending on the position of the cover plate.

It is also proposed according to the invention that the cover opening and closing the entry sector is equipped with unbreakable glazing to cover at least the essential area of the entry sector in the "closed position". As a result, the inner area always remains clearly visible from the outside, even when the hood is closed. If necessary, the mentioned glazing can be tinted.

It is further provided according to the invention that the suction hood is connected to the stirring head. This is an easy way to attach the suction hood in space, since the stirrer head is in turn attached to other device means, so that the suction hood always maintains its position relative to the stirrer head.

An alternative embodiment finally provides that the suction hood is kept independent and stationary. The suction hood is no longer connected to the stirrer head, but has its own attachment or stand. As a result, the suction hood may Do not participate in lifting movements of the stirrer head, which is often advantageous.

The invention will now be explained in more detail with reference to the accompanying drawings.

Figur 1

Draufsicht auf eine erste Ausführungsform der Absaughaube

Figur 2

Schnitt A - A nach Figur 1

Figur 3

Ansicht wie Figur 1 jedoch mit geschlossenem Eintrittssektor

Figur 4

Vorderansicht nach Figur 3

Figur 5

Schnitt B - B nach Figur 6

Figur 6

Draufsicht nach Figur 5

Figur 7

Darstellung wie Figur 5, jedoch ohne Abdeckplatte

Figur 7a

Draufsicht der Kopfplatte

Figur 7b

Draufsicht der oberen Luftleitbleche

Figur 7c

Draufsicht des unteren Luftleitbleches

Figur 8

Darstellung wie Figur 6, jedoch mit geschlossenem Eintrittssektor

Figur 9

Teilschnitt (ohne Absauganschluß) C-C nach Fig. 10

Figur 10

Draufsicht in Richtung des Pfeils D nach Fig. 9

Die Figuren 1 bis 4 Zeigen eine erste Bauform einer erfindungsgemäßen Absaughaube.Show it:

Figure 1

Top view of a first embodiment of the suction hood

Figure 2

Section A - A according to FIG. 1

Figure 3

View as Figure 1, but with the entrance sector closed

Figure 4

Front view according to FIG. 3

Figure 5

Section BB according to FIG. 6

Figure 6

Top view according to FIG. 5

Figure 7

Representation as in Figure 5, but without a cover plate

Figure 7a

Top view of the headstock

Figure 7b

Top view of the upper air baffles

Figure 7c

Top view of the lower air baffle

Figure 8

Representation as in FIG. 6, but with the entrance sector closed

Figure 9

Partial section (without suction connection) CC according to Fig. 10

Figure 10

Top view in the direction of arrow D according to FIG. 9

Figures 1 to 4 show a first design of an exhaust hood according to the invention.

A head plate 1 has a central opening 28 in a circular shape. If this central opening is placed with the center of the circle in the origin of a Cartesian coordinate system, the head plate 1 in the first quadrant of the Cartesian coordinate system is limited by edges which are each perpendicular to the axes of the coordinate system and which are therefore also perpendicular to one another and one Form an angle with each other. These two angled edges continue on the one hand in the second and on the other hand in the fourth quadrant in a circular arc. The arc of the second quadrant continues in the third quadrant in the form of an arc. However, the arcs of the third and fourth quadrants are not completely executed, but are terminated at about half of their quarter arc. The two ends are then connected to one another with an arcuate edge, the center of the arc being closer to the coordinate origin than the two ends of the arc. This arch delimits the entry sector 14 with its front edge 15.

The central opening 28 is delimited by a peripheral wall 30 which, for. B. can be made from a piece of pipe. This peripheral wall 28 extends to a smaller part above the head plate 1 and to a greater extent below the head plate 1. The extension below the head plate 1 must be so large that on the outside of the peripheral wall 30 air baffles 2 and 3 parallel to each other and can be attached to each other at a desired and required distance. The two mentioned air baffles are arranged so that the air baffle 2, which has a recess for the entry sector 14, overlaps with its rear edges 16 and 17 the front edges 18 and 19 of the air baffle 2 arranged below. The outer contours of the air baffles 2 and 3 correspond to the course of the edge of the head plate 1 and can advantageously, if the edge of the head plate 1 is not surrounded by a peripheral edge 24, this edge of the head plate 1 slightly, for. B. protrude by an amount of 2 or 3 mm.

In the first quadrant of the Cartesian coordinate system mentioned at the beginning, the suction connection 9 is arranged in an arrangement opposite the entry sector 14. The suction connection 9 can have a rectangular cross section and be designed as a welded construction. The upper side visible in FIG. 1 can be screwed or welded to the associated edge of the head plate. The underside opposite the visible upper side can be screwed or welded to the corresponding edge of the lower rear air baffle. The vertical side edges are sealed by the flexible curtain 4, which, with the exception of the entry sector 14, is guided around the circumferential edge of the head plate 1. The fact that the corresponding outer edges of the air baffles 2 and 3 protrude slightly beyond the outer edges of the head plate 1 ensures that the flexible curtain 4 also always lies firmly against these peripheral edges. However, it would also be possible to close the height between the head plate 1 and the lower air baffle 3 by means of an edge 14 running around the head plate 1 with the exception of the entry sector 14. This edge should have a corresponding opening in the area of the suction connection 9. At this edge 24 the air baffles 2 and 3 could then be fastened on the inside, so that fastening to the circumferential wall 30 of the central opening 28 would not be necessary. This is particularly beneficial when a hood is in one Design is to be used that does not make such a central opening 28 necessary. This can e.g. B. the case when the suction hood is used on a welding robot to extract the smoke generated during welding. The space between the head plate 1 and the air baffles 2 and 3 of the head part 13 is divided by a partition 5 into the suction sectors 20 and 21. For this purpose, the partition 5 is connected on the one hand and in the exemplary embodiment according to FIG. 2 via two initially divided and then integrally converging partial elements to the peripheral wall 30 on the one hand and an adjusting mechanism 22 on the other hand. The partition 5 is flexible. The adjustment mechanism 22 is arranged in the area of the suction connection 9. In its simplest form, it consists of a rotating spindle 11, which is rotatably mounted in the suction connection 9 and is adjustable from the outside. On this rotary spindle 11, a nut can be arranged in the area of the free cross section of the suction connection 9, said nut being fastened to the free end of the partition 5. If the rotary spindle 11 is now rotated, the nut moves along this rotary spindle 11, so that the partition wall 5 can be pushed back and forth in this area, thereby changing the respective extraction cross sections which are connected to the extraction sectors 20 and 21, respectively can be. This can also influence the mass flow rate in these sectors and thus the flow rate and suction power.

Approximately in the corner formed by the peripheral edge of the head plate 1 in the first quadrant, the lower air baffle 3 has a preferably square opening, to which a suction channel 6 with a square cross section is connected. This suction channel 6 extends approximately perpendicularly from the lower air baffle 3 into the suction space of the suction hood. It is advantageous if the length of this suction channel can be changed, for example in that this suction channel is designed as a telescopic tube. At the bottom of the suction channel Advantageously, a suction nozzle 7 is arranged, which can thus be adjustable in height.

The inlet opening of the suction channel 6 in the lower air baffle can have an adjusting flap 8 which can close or open this inlet opening. Preferably, the control flap 8 can be pivoted upwards about an axis 34 on a side edge, so that the opening created by the pivoting of the control flap 8 about the axis 34 opens toward the suction cross section of the suction connection 9. With the swivel angle position of the flap 8, the flow rate in the suction channel 6 can also be influenced. For better clarification of the position of the air baffles 2 and 3, hatching is provided in Figure 1. With respect to the X axis of the Cartesian coordinate system shown in FIG. 1, hatching runs from this axis downward to the right. This hatching characterizes the surface area of the upper air baffle plate 2. The hatching which runs to the top right with respect to the named X-axis characterizes the surface area of the lower air baffle plate 3.

The circumferential wall 30 of the central opening 28 forms an edge which projects beyond the top plate 1. This edge forms the seat for a pivot bearing 10, on which a cover plate 12, which can cover the entire entry sector 14, is rotatably mounted. Figure 3 shows this cover plate 12 in such a position that the entry sector 14 is covered. The circumferential edge of the cover plate 12 also has a flexible curtain 32, so that when the cover plate 12 is in the position according to FIG. 3, there is an all-round closed cover hood.

Through the central opening 28 and supported on the upper end face of the circumferential wall 30 z. B. a stirrer head can be arranged with a stirrer shaft projecting into the interior of the suction hood, such as this is shown schematically in FIG. 4. A support plate 35 can ensure that the stirrer head is supported on the end face of the circumferential wall 30 and at the same time thus closes the central opening 28 to the outside, so that dusts or vapors cannot escape there. Inside the suction hood can then z. B. are a container, the contents of which can be stirred via the stirrer head. Here, with the suction switched on, the cover plate 12 can be pivoted away into an open position (see FIG. 6), so that now with the inlet sector 14 open, the interior of the suction hood is accessible when the suction is switched on, so that additives are manually poured into the container located in the suction hood can. The resulting dusts and vapors are reliably extracted. After the pouring process has ended, the cover plate 12 can be moved back into the closed position according to FIG. 3 and the stirring process or other processing can be continued with the suction switched on. During its use, the suction hood according to the invention can be carried by separate and not shown supporting devices. This can be a three-legged frame or a cantilever arm of an agitator or one or more ceiling anchors, but also any other construction suitable for the respective application. This support frame is not the subject of the invention. As far as the suction hood is used in welding robots, the construction can be retained and the support plate 35 can be designed as a cover plate so that the central opening 28 is sealed.

Figures 5 to 8 show an exhaust hood according to the invention, which has some minor design changes compared to the already described exhaust hood according to Figures 1 to 4. 6 corresponds to FIG. 1 in its view. The only difference from FIG. 1 is that the suction connection 9 'according to FIG. 6 is in the second quadrant of the input defined Cartesian coordinate system is arranged and thus compared to the embodiment of Figure 1 on the other side of the Y axis of said coordinate system. In this area, the suction channel 6 'which is arranged on the air baffle 3' is then necessarily provided. Figures 7a, 7b and 7c show the shape of the head plate 1 ', the air baffles 2' and 2 '' which are made in two parts in this embodiment compared to the embodiment according to Figure 1, and the rear air baffle 3 with the opening 38 for the suction channel 6 '. In this embodiment, the opening 38 is circular and of course an opening with a rectangular cross-section could also be provided here. The central opening 29, which corresponds to the central opening 28 in the embodiment according to FIG. 1, can be seen both in the head plate 1 'and in the air baffle 3'. It can be seen in particular in FIGS. 6, 7a and 8 that the design of the entry sector 14 'has been changed slightly compared to the embodiment according to FIG. The entry sector 14 'is now delimited by radially directed, rectilinear body edges of the head plate 1', which together form an angle of approximately 90 °. However, this angle could equally well be 60 ° or 120 ° or have another suitable opening amount. The front air baffle arranged below the head plate 1 'and at a distance parallel to it consists of two pieces, namely the air baffle 2' and the air baffle 2 ''. The front edge 15 'of the air baffle 2' and the front edge 15 '' of the air baffle 2 '' essentially coincide with the corresponding edges of the entry sector 14 'of the head plate 1'. The rear edge 16 'of the air baffle 2' and the rear edge 17 'of the air baffle 2''again overlaps the respectively assigned front edges 18' and 19 'of the rear and lower air baffle 3'. The air baffles 2 'and 2''are attached to the peripheral wall 31 of the central opening 29 in accordance with the attachment according to FIG.

As can be seen in particular from FIG. 5, a cover plate 12 'is also rotatably fastened to a rotary bearing connected to the peripheral wall 31 in a suitable manner, which also has a flexible curtain 33 or a tinted, unbreakable windbreak glazing. Furthermore, limit switches 36 and 37 are fastened to the head plate 1 ', with which the fully open position or the completely closed position of the cover plate 12' can be determined. These determinations can be used, for example, to carry out safety shutdowns or to cancel an existing safety shutdown or to increase or decrease suction power or to initiate other measures dependent on the respective position of the cover plate 12 '.

In the embodiment according to FIGS. 5 to 8, the suction space between the lower air baffle 3 'and the head plate 1' is again divided into two suction sectors 20 'and 21'. These suction sectors are in turn separated by the partition 5 ', which is, however, in two parts here. There are two separate walls, both of which are firmly connected at one end to the outside of the peripheral wall 31 and are connected at their other end in the region of the opening of the suction connection 9 'to an adjusting mechanism 23. The adjustment mechanism 23 can essentially consist of an elongated hole 39 in the head plate 1 'and an elongated hole 40 arranged below it in the air baffle 3'. In these two elongated holes, unspecified displaceable pins are arranged, which in turn are connected to the free ends of a respective partition 5 '. A displacement of the above-mentioned pins in the elongated holes 39, 40 ensures a corresponding movement of the partition walls 5 'and thus a respective change in the extraction cross section with which the respective extraction sector 20' or 21 'is extracted. Here, the opening 38 may also lie between the partitions 5 ', so that the corresponding Suction power for the suction channel 6 'can also be metered.

Even in an embodiment according to FIGS. 5 to 8, it is not absolutely necessary for the flexible curtain 4 'to be attached to the edge of the head plate 1' and to rotate there. Rather, just as in the embodiment according to FIG. 1, it is possible for an edge 25 to run along the outer contour of the head plate 1 ', with the exception of the area of the entry sector 14', which extends in height from the head plate 1 'to the air baffle 3'.

In Figure 8, a dust cloud 41 is schematically entered, the deduction is symbolized by the arrows shown there. To the extent that 41 parts of such a cloud of dust sink and, due to the general direction of flow, reach the quarter circle sector 27 or, in the embodiment according to FIG. 1, the four circle sector 26, this part can pass through the suction channel 6 ′ with a suction nozzle 7 ′ or, in an embodiment according to FIG. 1 can be suctioned off safely and reliably via the suction channel 6 with suction nozzle 7. The suction power can be adjusted in the manner described.

FIGS. 9 and 10 schematically show a construction variant of the already described device for extracting pollutant emissions. Here, too, a suction space 47 is provided below a head plate 43, which, if necessary, is in turn equipped with a flexible curtain or other protective wall to delimit this suction space 47 from the surroundings, although such a curtain is not shown here. This head plate 43 is in turn circular except for the area of an entry sector 44. In the area which does not form the entry sector 44, a suction port 42 is provided below the top plate 43 and is connected to a suction device. Via this suction connection 42, the suction space 47 below the top plate 43 be sucked off, as already described in the previous figure descriptions.

As in the case of the device already described, a circumferential wall 49 in the manner of a through-tube is inserted through the head plate 43 through a corresponding central opening of the head plate 43, through which a stirrer can be passed or which can be guided Stirrer head can be connected.

At a distance below the head plate 43, an air baffle 45 is arranged which, like the head plate 43, is essentially circular and leaves the entry sector 44 free. The air baffle 45 is placed obliquely below the head plate 43 such that in the area of the inlet sector 44 the air baffle 45 lies closer to the head plate 43 than in the area of the suction connection 42, the air baffle 45 protruding into the cross section 46 of the suction connection 42, but below part of the cross section of the suction connection 42 can still be opened. Below this free cross-sectional area of the suction connection 42 and thus also below the air baffle 45 in this area, a baffle 48 is provided in an arrangement parallel to the head plate 43, which extends over a short area into the suction space 47. In this way, the entire area of the suction space 47 can be extracted reliably and with a large mass throughput.

In the exemplary embodiment according to FIGS. 9 and 10, the suction connection 42 can be closed completely or partially via a shut-off plate 50. Here, this butterfly valve 50 z. B. operated via a pneumatic cylinder 51.

As with the previously described embodiments, the embodiment according to FIGS. 9 and 10 also has a cover for the entry sector 44. In the embodiment according to FIGS. 9 and 10, however, not a single cover plate is rotatably mounted on the central circumferential wall 49, but rather two independently rotatably mounted cover plates 52 and 53 are provided there, which in turn have a flexible curtain or a on their circular front sides Protective glass can be provided. In the exemplary embodiment according to FIGS. 9 and 10, the cover plates are rotatably mounted on the circumferential wall 49 in the form of a tube as a central region in a stacked arrangement. With this mounting, the cover plate 52 can first be opened until a front edge with a driver bears against the front edge of the cover plate 53, which is further back in the direction of rotation, and takes it along with a further rotational movement, so that the entire entry sector 44 is free in the end position. In the opposite direction of rotation, the cover plate 52 is now rotated again in the closing direction until a driver 54 comes to rest on a rear edge of the cover plate 53 and takes it along, until the entire entry sector 44 is closed again.
However, it must be expressly pointed out that the invention does not depend on the two-part cover plate or its type of storage in order to close and open the entry sector 44. The difference between the design variants according to FIGS. 9 and 10 compared to those already described essentially consists in the arrangement of the air baffles.

List of the reference symbols used

1.1 '

Headstock

2.2 ', 2' '

Air baffle

3.3 '

Air baffle

4.4 '

curtain

5.5 '

partition wall

6.6 '

Suction channel

7.7 '

Suction nozzle

8th

Butterfly valve

9.9 '

Suction connection

10th

Pivot bearing

11

Lathe spindle

12.12 '

Cover plate

13

Headboard

14.14 '

Entry sector

15.15 ', 15' '

Leading edge

16.16 '

Trailing edge

17.17 '

Trailing edge

18.18 '

Leading edge

19.19 '

Leading edge

20.20 '

Extraction sector

21.21 '

Extraction sector

22

Adjustment mechanism

23

Adjustment mechanism

24th

edge

25th

edge

26

Quarter circle sector

27

Quarter circle sector

28

central opening

29

central opening

30th

circumferential wall

31

circumferential wall

32

flexible curtain

33

flexible curtain

34

axis

35

Support plate

36

Limit switch

37

Limit switch

38

opening

39

Long hole

40

Long hole

41

Cloud of dust

42

Suction connection

43

Headstock

44

Entry sector

45

Air baffle

46

cross-section

47

Extraction room

48

Air sheet

49

circumferential wall

50

Butterfly valve

51

Pneumatic cylinder

52

Cover plate

53

Cover plate

54

Carrier

Claims (22)

Device for the extraction of gaseous, vapor, aerosol and / or dust emissions during a manual or mechanical activity which generates the pollutant emissions, the device being designed as an extraction hood covering the desired work area, with a head part surrounded by a flexible curtain and with one an indentation forming an entry sector and a cover opening and closing the entry sector and having a suction connection, characterized in that the suction connection (42) is arranged below a head plate (43), with the entry sector (44) at a distance below the head plate (43) ) free air baffle (45) is provided, which extends over the entire area of the top plate (43) and opens in the cross section (46) of the suction connection (42). Device according to claim 1, characterized in that a short baffle (48) extending into the suction space (47) is arranged directly below the cross section of the suction connection (42) which remains free under the baffle (45). Device according to claim 1 or 2, characterized in that the air baffle (45) is arranged inclined relative to the head plate (43) such that the distance to the head plate (43) at the inlet sector (44) is smaller than at the suction connection (42), so that there is a suction nozzle effect. Device according to one of claims 1 to 3, characterized characterized in that the head plate (43) except for the entry sector (44) and if necessary. the suction connection (42) is circular. Device according to one of claims 1 to 4, characterized in that the suction connection (42) is arranged on the area of the head plate (43) opposite the inlet sector (44). Device for the extraction of gaseous, vapor, aerosol and / or dust emissions during a manual or mechanical activity which generates the pollutant emissions, the device being designed as an extraction hood covering the desired work area, with a head part surrounded by a flexible curtain and with one an indentation forming an entry sector and a cover opening and closing the entry sector and having a suction connection, characterized in that in the head part (13, 13 ') horizontally arranged and at least the entry sector (14, 14') sparing air baffles (2, 3, 2 ') , 2 '', 3 ') are arranged in parallel and at a distance from one another, the upper guide plate (2,2', 2 '') with its front edge (15, 15 ', 15' ') up to approximately the entry sector (14 , 14 ') and with a rear edge (16, 17, 16', 17 ') overlaps the clearly back front edge (18, 18', 19, 19 ') of the lower guide plate (3.3') and the space between the lower baffle (3,3 ') and a head plate (1,1') with the suction connection (9,9 ') in connection. Device according to claim 6, characterized in that the said space is separated into two suction sectors (20, 21; 20 ', 21') by a partition (5,5 ') opening into the suction opening of the suction connection (9,9'). Device according to claim 7, characterized in that the partition (5,5 ') is displaceable in said space and is connected at least at one end to an adjusting mechanism (22, 23). Device according to claim 8, characterized in that the adjusting mechanism (22, 23) is arranged in the area of the suction connection (9, 9 '). Device according to one of claims 7 to 9, characterized in that the partition (5 ') is designed as a double wall, each of which is adjustable independently of the other. Device according to one of claims 6 to 10, characterized in that in a region of the hood facing away from the inlet sector (14, 14 ') a suction duct (6, 6') extends away from the lower air baffle (3, 3 '). Device according to claim 11, characterized in that the suction channel (6, 6 ') has a suction nozzle (7, 7') at the lower end. Device according to one of claims 1 to 12, characterized in that the head part (13, 13 ', 13' ') essentially consists of a head plate (1, 1', 1 ''), the air baffles (2, 2 ', 2 ''; 3,3 '; 3' ', 3a) and means for fastening the air baffles. Device according to one of claims 6 to 13, characterized in that the head part (13, 13 ') except for a quarter circle sector (26, 27) and the entry sector (14, 14') has a circular cross-section which continues in the quarter-circle sector (26, 27) in a rectangular cross-section with edges (24, 25) which run at right angles to one another in this region and form a corner, the edge (24, 25) in the region of the corner has the suction opening and the suction connection (9,9 '). Device according to claim 14, characterized in that the head part (13, 13 ') has a central opening (28, 29) with a circular cross-section, which is surrounded by a peripheral wall (30, 31) which extends at least as far as through the lower air baffle (3 , 3 ') passes through, is enclosed. Device according to claim 15, characterized in that the circumferential wall (30, 31) projects above the head part (13, 13 ') and that a cover plate (12, 12') with a flexible curtain (32, 33) can be pivoted on the projecting area is stored as a cover for the entry sector (14, 14 '). Device according to one of claims 6 to 16, characterized in that the cover plate (12, 12 ') instead of the flexible curtain (32, 33) is equipped with tinted, unbreakable anti-glare glazing. Device according to one of claims 6 to 17, characterized in that a limit switch (36) is arranged on the head plate (1,1 '), which detects the "open position" of the cover plate (12, 12'). Device according to one of claims 6 to 18, characterized characterized in that a limit switch (37) is arranged on the head plate (1,1 '), which detects the "closed position" of the cover plate (12, 12'). Device according to claim 1, characterized in that the cover opening and closing the entry sector is equipped with an unbreakable glazing to cover at least the essential area of the entry sector in the "closed position". Device according to one of claims 1 to 20, characterized in that the suction hood is connected to the stirrer head. Device according to one of claims 1 to 20, characterized in that the suction hood is kept independent and stationary.

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