NL1016598C2 - Ventilation method for removing air laden with substances, uses vessel and suction system for removing air from vessels, taking in outside air and discharging air - Google Patents

Abstract

A method for removing air laden with substances from a number of spaces (1), each of which is connected via an exit pipe (2) to the end of a suction pipe (4), comprises regulating air flow so that it is less than 1 m/sec at the end of the suction pipe. Air is taken from several optionally sealable suction pipes and collected inside a vessel (8) connected to a suction system (3) so that a regulated flow of air into the vessel is obtained. The same suction system can be used to allow outside air to enter the vessel, and to remove an essentially constant amount of air from the vessel at an essentially constant velocity, irrespective of how many suction pipes are connected to the vessel. An Independent claim is also included a ventilation system for carrying out this method.

Description

Brief indication: Method and system for extracting dust-laden air from a number of rooms.

The invention relates to a method for discharging dust-laden air from a number of spaces, wherein a discharge pipe is connected to each space and an end of this discharge pipe remote from the relevant space is situated opposite a distance of this end end of a suction line located from the discharge line, wherein the air flow 10 during operation can be controlled such that it is lower than 1 m / sec at the end of the suction line.

Such a method can be taken from Dutch patent 1014741, the description of which is incorporated herein by reference.

When this method is applied, it is possible to extract at several extraction points at a low speed, so that as little material as possible is discharged from the relevant spaces and also as little as possible of this material is dispersed in the outside air.

It has been found in practice that the method and system described in this patent application are satisfactory, but on the other hand there is a need for the option of stopping the extraction of air from one or more spaces if these spaces are not in use .

According to the invention, this can be effectively achieved in that air is sucked in from a plurality of suction lines that can be closed off as desired, into a vessel to which a suction system is connected, and in the vessel outside the suction lines connected to the vessel, air can be controlled in an adjustable manner. the vessel is sucked in, such that independently of the number of suction lines connected to the vessel, which is closed off, an at least substantially constant amount of air is sucked out of the vessel by the suction system at a substantially constant speed.

By applying the method according to the invention, the extraction system will always work with constant capacity and constant air velocity in the pipes, wherein all dust-laden air 1016598 "2 is transported from the extraction pipes to the vessel and from the vessel, for example, to a system with the extraction system. connected filter installation is supplied.

As more suction lines are open, the amount of air supplied to the vessel outside the suction lines can be reduced in order to ensure that the air is always sucked out of the vessel through the suction system at at least substantially the same speed.

A further aspect of the invention relates to a system for discharging dust-laden air from a number of spaces to each of which a discharge line is connected whose end remote from the relevant space is situated a short distance from the end of a suction line to which means are connected with the aid of which the supply of outside air in the extraction line can be controlled.

According to the invention, the suction lines of a number of spaces equipped with closing members are connected to a vessel which is connected to a suction system, while controllable means are connected to the vessel with the aid of which the supply of outside air to the vessel can be controlled .

In this way a simple system can be obtained with the aid of which a method as described above can be realized in an effective manner.

The invention will be explained in more detail below with reference to the accompanying figures.

Figure 1 shows schematically the structure of a system according to the invention.

Figure 2 shows on a larger scale a part of a discharge line connected to a space and suction line cooperating with it, as well as an ancillary line connected to the suction line.

Figure 3 shows a modified embodiment of a vessel with means arranged thereon for controlling the inflow of outside air drawn into the vessel.

As also explained in the above-mentioned Dutch patent application 1014741, certain spaces 1, such as for example 1016593 3 storage bunkers of materials to be extruded, will be provided with vent openings to prevent the pressure in such spaces 1 from rising in an undesired manner. In a system comprising a number of such spaces, the air often loaded with dust 5 is therefore sucked in from the spaces 1, whereby it is often desirable on the one hand to prevent the loss of dust as much as possible and on the other hand to prevent the emission of dust into the environment. avoid.

For this purpose, as explained in Dutch patent application 1014741, a discharge line 2 is connected to each space 1, which line is connected via 10 a suction structure 3 to a suction line 4. Upstream of the suction structure 3, a secondary line 5 is connected to the suction line 4. The suction line is further connected via a branch line 6, in which a valve 7 is included, to a vessel 8. As can be seen from figure 1, the vessel 8 is provided with a number of connecting stubs 9 regularly distributed over the circumference of the vessel on each of which a branch line 6 can be connected. It will therefore be clear that, although only one space 1 is shown in Figure 1, a number of such spaces will be connected to the vessel 8 in the manner described above.

As is further described in the above-mentioned Dutch patent application 1014741, the diameter of an end portion 10 of the discharge conduit 2 gradually increases in size in the direction of the free end 11 of this discharge conduit 2. A baffle plate 12 is thereby arranged in this end portion 10.

At some distance from the end 11 of the discharge line 2, the end 13 of the suction line 4 extending parallel to the end 11 is situated. The end 13 forms the lower edge of a cylindrical casing part 14, the cross-section of which is slightly larger than the cross-section of the end 11 of the discharge conduit 2. A cylindrical casing part 15 connects to the cylindrical casing part 14, the cross-section of which is in one of the lateral portion 14 gradually decreases.

The line portion of the suction line 4 connecting to the casing portion 15 is provided with a control mechanism 17 with the aid of which outside air can be admitted in the suction line 4 in a controllable manner.

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The secondary line 5 connected to the suction line 4 is provided at its open end with an adjustable closing member 18 with the aid of which the size of the open passage from the end of the secondary line 5 can be adjusted as required.

In the secondary line 5, a throttling member 19 is further arranged, which is, for example, of the type as described and shown in Dutch patent 1006635.

As is furthermore apparent from Figure 1, the vessel 8 comprises a first casing part 20 having the shape of a truncated cone, which increases in cross-section from bottom to top. Connected to the upper end of this casing part 20 is a second casing part 21 having the shape of a truncated cone, the cross-section of which gradually decreases in a direction remote from the casing part 20. The pipe stubs 9 are connected to the casing part 20 approximately halfway up the casing part 20. Connected to the casing part 21 is a radially extending conduit 22 via which ambient air can be drawn into the vessel 8 during operation. Arranged on the end of the pipe 22 is a closing member 23, the passage of which is adjustable for controlling the passage of ambient air to the interior 20 of the vessel 8.

The setting of the closing member 23 will be controlled during operation with the aid of a microprocessor 24 to which signals are supplied via a line 25 from a sensor measuring the pressure in the vessel 8, not further shown. As is furthermore apparent from Figure 1, a system can comprise a plurality of such vessels 8 to each of which a number of spaces 1 can be connected in the manner described above. The lower ends of the vessels 8 are then connected via lines 26 to a line 27 of a suction system, which comprises a filter mechanism 28 and a fan 29 draining air from the filter mechanism or the like.

In order to be able to control the flow in the various pipes 26, throttling members 30 will also be provided in these pipes, for example of the type as described and shown in Dutch patent 1006635.

35 During operation, air will be drawn in from the various vessels 8 with the aid of the fan 29. If air is not to be extracted from any of the spaces 1 connected to a vessel 8, the connection between such a vessel 8 and the fan may be 29 are broken by a valve, not further shown in the figure, which is accommodated in a pipe 26 connecting to the relevant vessel 8.

The underpressure generated with the aid of the fan 29 will propagate to near the end 13 of the suction line 4. As explained in patent application 1014741, the underpressure at the end 13 of the suction line 14 will generally be lower than 1 Pa , for example, to 0.1 Pa. This can be influenced in part by every suction line 4 sucked into a vessel 8 by the possible admission of ambient air or "false air" via the control mechanism 17 and / or via the auxiliary line 5. With a favorable setting, the air speed during operation will thereby be 15 from the end 13 of the suction line are 4 ± 0.5 m / sec.

If one or more of the spaces 1 connected to a vessel 8 are out of operation, the suction from such a space (s) can be stopped by closing off the line 6 connected to the relevant space 20 1 with the aid of the Valve 7 included in this conduit 7. However, in order not to disturb the suction at the spaces 1 still connected to the vessel 8, it is necessary to adjust the amount of air drawn in from the vessel 8 per unit of time and the speed with which the air from the vessel is kept as constant as possible. This is now achieved by controlling the size of the passage of the closing member 23 connected to the respective vessel, through which ambient air or "false air" is admitted into the vessel. This control takes place with the aid of the microprocessor 24, which receives signals from the pressure sensor 25, all such that a substantially constant underpressure in the vessel is maintained.

Preferably, the "false air" sucked into the vessel 8 will be brought into a swirling movement by the use of a suitable guide member so that this air flows through the vessel 8 in a swirling movement, which will precipitate dust particles present in the air in the vessel 8. counteract.

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Also when several vessels 8 are connected to the extraction system, such a regulation of the suction of air from the relevant vessels can be effected that a suction of air from the spaces connected to the vessels 8 is effected in the manner as described in Dutch patent 1014741.

As is furthermore shown in Figure 3, the closing member 23 can be arranged on top of the vessel 8 instead of on the laterally extending conduit 22, this depending on the installation conditions. It will be clear that the opening 10 in the vessel to which the closing member is not connected will be sealed.

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Claims (8)

Method for discharging dust-laden air from a number of spaces, wherein a discharge pipe is connected to each space and an end of this discharge pipe remote from the relevant space is situated opposite an end which is situated some distance from this end of the discharge pipe of a suction line, wherein the air flow during operation can be regulated such that it is lower than 1 m / sec at the end of the suction line, characterized in that air is sucked into a plurality of suction lines to be closed off as desired a vessel to which a suction system is connected and air is sucked into the vessel outside the suction lines connected to the vessel in a controllable manner, all such that independently of the number of suction lines connected to the vessel that is closed off an at least substantially constant amount of air with an at least substantially constant speed through the extraction system from the v which is sucked in. 2. Method as claimed in claim 1, characterized in that the sucking in of air in the vessel outside the suction lines is regulated such that the pressure in the vessel is kept at least substantially constant. 3. System for discharging dust-laden air from a number of spaces to each of which a discharge pipe is connected, an end of which is remote from the relevant space and situated a short distance from the end of a suction pipe to which means are connected by means of which the supply of outside air to the suction line can be controlled, characterized in that the suction lines of a number of spaces equipped with closing members are connected to a vessel which is connected to a suction system, while controllable means are connected to the vessel by means of whose supply of outside air to the vessel can be controlled. 4. System as claimed in claim 3, characterized in that the vessel is provided with means for measuring the pressure in the vessel for controlling the controllable means with the aid of which the supply of outside air to the vessel can be controlled. J -> - J O u .... δ 5. System as claimed in claim 3 or 4, characterized in that a plurality of vessels are connected to the extraction system via pipes, in which throttling elements are arranged. 6. System as claimed in any of the claims 3-5, characterized in that the vessel is made up of two conical casing parts which connect to each other at their ends having the largest cross-section. 7. System as claimed in claim 6, characterized in that the means for controlling the supply of air are connected to one casing part and the suction lines are connected to the other casing part. 8. System as claimed in any of the claims 3-6, characterized in that means are provided for swirling the air admitted into the vessel via the controllable means. 1016598