SE412110B - DEVICE BY STRYPDON - Google Patents

Description

These and other objects are achieved in that the device according to the invention has obtained the features stated in the following claims.

The invention and further advantages thereof will be described in the following in connection with a preferred embodiment in connection with the drawing.

Figure 1 shows in perspective a throttle device provided with a purge device according to the invention.

Figure 2 shows a cross section through the device in figure 1.

In the drawing, the wall 10 denotes a supply air duct connected in a ventilation system in which air which is supplied by means of a pressure fan (not shown) flows in the direction indicated by an arrow 12. The air transported through the duct 10 is introduced, for example, by means of a blowing means into a room, as described in more detail in Swedish Offenlegungsschrift 359,367. Inserted in the channel 10 is a throttling member 14, which is also described in more detail in said document, and which consists of a body with a number of parallel, continuous passages 11 which extend in the longitudinal direction of the channel 10. The throttle member 14 is sealed against the channel wall 10 by means of a ring seal 16.

Depending on the design of the throttling member, there is a greater or lesser tendency for dust and other solid particles to settle on the inlet side 14 of the throttling member 14. In order to continuously remove these particles, according to the invention a cleaning device 15 is arranged, which comprises a tubular shaft 20 mounted centrally in the throttling member 14 and which is divided by a partition 22 into two semicircular shaft halves which also form channels 24, 26. (see also Fig. 2).

The shaft 20 is preferably mounted by means of ball bearings 28 or in another way, so that the shaft is easily rotatable in the throttle member 14. At each end of the shaft 20, one shaft half 24 and 26 outside the surface of the choke member and carries a closed, leather-shaped screen member or arm 30 resp. 32 on the inlet and outlet side of the choke member. The arms 30, 32 which are substantially equal and lie opposite each other on the upper 18 resp. lower 34 surface has on its side facing the surface of the restrictor a sector-shaped opening 36, 38 which extends over the radius of the circular restrictor. Each arm 30, 32 also has an opening 40 and 26, respectively, corresponding to the contour of the semicircular shaft half 24, 26. 42 on the side of the arm 30, 32 facing the throttling member and a similar opening 44 resp. 46 on the side facing away from the surface of the choke member. The peripheral edge of each opening 40, 42, 44 and 46 is sealingly connected to the corresponding shaft half 24, 26, so that the arms in this way are supported by the shaft 20 and each shaft channel 24, 26 opens partly inside the inner surface of one arm 30, 32, partly into the outer surface of the other arm 32, 30.

At least one of the arms 30, 32 - in the embodiment shown in the lower 32 - has a wing 48, which is arranged so that it is hit by the air flowing through the channel 10 and the throttling member. The wing 48 thus serves to effect the rotation of the blower, so that the arms 30, 32 continuously sweep over the surfaces of the throttle member 14 indicated by the arrow 50 at the top of Figure 1.

The described purge device operates as follows: While the majority of the supply air 12 passes through the ducts of the throttle member 14 in the usual manner, some of the air will flow in through the opening 44 in the upper arm 30, as indicated by the arrow 52.

This divided air flow flows through the shaft channel 24 to the opening 42 of the lower articulated arm or screen member 32 into its interior and turns and flows upwards through the sector-shaped opening 38. The purge air passes back through the choke member 14 and into the corresponding, sector-shaped opening 36 in the upper arm or shield member 30. Thereby, any deposited dust particles or the like are removed from the upper surface 18 of the throttle member 18 over the portion covered by the sector-shaped opening 36 of the arm 30, which coincides with the corresponding opening 38 of the lower arm 32. The purge air and particles begin in the second semicircular portion 26 of the tubular shaft which is connected to the interior of the upper arm 30. Through the shaft half 26 the purge air and the removed particles are finally led to the outside of the lower arm 32 and are blown out into the channel 10 on the outlet side of the throttle member 14 through the opening 46, indicated by the arrow 56. The path of the purge air between inlet and outlet 44, 46 is shown with the dashed line 54.

Throttling means of the type described above with a plurality of fine, parallel channels have the essential property for the function of the throttling device to be able to achieve high pressure drops without disturbing sound generation. It should be noted that this function, which is essential from a sound point of view, is also maintained for the purge air, which also passes through the fine channels of the throttling device, although in the opposite direction.

It is clear that the embodiment shown and described is only an example of the realization of the invention and that this can be changed and varied within the scope thereof. Thus, even if it is shown to be driven by the air flow in certain applications, the purifier can be driven by a special motor. Likewise, the throttling means 10 may also be of a type other than that shown (which corresponds to that shown and described in said disclosure 359,367).

Blowing sectors and blowing devices can also have other shapes and extensions than those shown.

In the example it is mentioned that the throttle passing through the air consists of supply air. In a well-executed system, the supply air is filtered before it reaches the throttles so efficiently that purification in itself would hardly be needed. However, it often happens that fibers and particles detach from the duct system, for example from insulation material and silencers, and this takes place in the duct system after the filter. Here, the risk of clogging is pronounced, if you do not introduce a purge device. L The need for restrictors for regulating and reading the air volume also exists with exhaust air ducts. Here, the exemplified type of throttling means with fine ducts has previously not been able to be used, because the exhaust air is not provided with filters. Dust present in the room air very quickly gives rise to such coatings on the throttling members that they are deactivated. With the purge device according to the invention, the exhaust air system also becomes available for the use of throttling means of the type in question.

In the exemplified embodiment, the central part of the throttling member has been used to connect the high-pressure resp. position pressure sides with the main air flow before and after its passage of the choke, i.e. the pressure drop across the choke is utilized to provide the opposite purge flow. Of course, it is also conceivable that either or both of the connecting ducts, whereby the air is forced into resp. sucked out of the blower, runs as by-pass wires next to the throttle member. It is essential, however, that the pressure drops arising over the restrictor are used to provide the purge flow directed towards the main air flow. -ew-

Claims (4)

78-07129-'7 PATENT CLAIMS 1. A device for throttling devices of the type intended to be fitted in ventilation ducts for an air stream and comprising a body with a large number of parallel, fine continuous passages for this air stream, characterized by a purge device which is caused to sweep over the inlet surface of the restrictor and has shielding means which direct a part of the air flow passing the restrictor in the opposite direction to the main air flow through the body for purifying the passages and the inlet surface. Device according to claim 1, characterized in that the purge device has a tubular shaft centrally located in the throttling member through which the purge air is conveyed to and / or from the shielding means belonging to the device. 3. Device according to claim 2, characterized in that the shielding means of the blowing device are fixedly connected to the tubular shaft in such a way that they are caused to rotate over the inlet and outlet sides of the body. Z 4. Device according to claim 3, characterized in that a blade or the like located in the main air flow or the like is attached to the purge device in order to effect the rotating movement of the shielding means.