HUT72959A - Instrument for leading air out - Google Patents

Abstract

In the case of an air outlet for insertion into an air-guiding system having slots (6) in a pipe section (1), a slotted-slide arrangement is arranged in front of the slots (6) in the interior of the pipe section (1). <IMAGE>

Description

BACKGROUND OF THE INVENTION The present invention relates to an air transfer device for air conveying, guiding and / or deflecting systems having slots formed in the wall of a pipe section.

DE-8700243.4 discloses an air outlet having a pipe inserted into an air supply system into which slots are formed. The device further comprises slotted inserts which are inserted into a properly formed opening inside the tube section.

A disadvantage of the known air outlet device is that it provides an uneven air outlet through the slots. The air outlet is smaller in the downstream region compared to the front. A further disadvantage is that the air is discharged at an acute angle, which makes airflow much more difficult. Flow diverters i that can be installed in this case cannot help either.

It is an object of the present invention to overcome the shortcomings of the known solution, that is, to provide an air passage device in which the air flow is uniform and the possibility of efficient air deflection is greatly improved.

To accomplish this object, an air passage device is provided which has slots formed in the wall of the pipe section, and according to the invention a slit valve arrangement is installed inside the pipe section before the slots.

The effect of the slit valve arrangement according to the invention is that the air flow in the air conveying system does not exit directly through the slots, but first flows through the slit valve arrangement and then arrives at the slots. Due to the slit piston arrangement, the slots will be uniformly loaded along the length of the pipe section and provide a flow of air to the rectifiers ··· ···· ··· ·················.

Preferably, the air vent device arrangement of the present invention comprises a slit valve and a slider. A suitable slide is known, for example, from DE-OS 3807559.1. The section cabinet preferably has side walls, front walls and an inner wall with transverse slots. For example, if the gaps run in the longitudinal direction of the pipe section, the transverse gaps are perpendicular thereto. The proposed arrangement ensures that the air flow through the transverse gaps is also inclined to the outlet gaps diagonally - transversely. Thus, the outlet slit is fed substantially uniformly over a plurality of transverse slots along its entire length.

The opening width of the transverse slots is preferably adjustable. The control, adjusting the through-flow cross-section, is carried out, if necessary, by means of a slider slider located on the inner wall of the slit cabinet.

The pusher plate is preferably flanked on one side by side strips which are guided by guides. This design ensures that the gap slider can be displaced along a given path in the cupboard. This is a relatively easy way to guide and fix. Since the sliding plate itself is provided with transverse slots, the opening width of the transverse slots formed in the inner wall of the sliding cabinet can be adjusted. The adjustment can be made before or after the pipe section is installed in the air supply system.

In an advantageous embodiment of the air transport device according to the invention, the slots are provided with air deflection fins. With the help of the baffle blades, the direction of the outgoing air flow is relatively precise, so the desired direction of the flow can be determined.

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In a further preferred embodiment of the air transport device according to the invention, a gap valve arrangement is associated with at least two parallel outlet slots. Thus, two pairs of outlet slots can be arranged on top of each other in the tube section, and two additional pairs of 90 ° rotations can be assigned to these two pairs. Of course, the scope of the invention includes other alternative arrangements.

Another essential alternative feature of the air-permeable device of the present invention is that the tube section is perforated between the gaps, i.e. between the gaps, which act as a source outlet so that a significant amount of air can flow through them. However, this amount of air is always carried by the air flow through the gaps. Thus, according to the invention, not only a limited amount of air can be guided in a particular direction by means of an air transfer device, but this limited amount of air can be enriched by the amount of air flowing through the stroke series. Thus, the performance of the air passage device can be significantly increased.

The advantage of the air passage device according to the invention in relation to the latter feature is that at least twice the air passage power can be achieved with the same number of air outlets, which means that less air passage devices are required, saving both investment and installation costs.

The invention will now be described with reference to the drawing. In the drawing:

Figure 1 is a top view of an exemplary embodiment of the air permeable device of the present invention;

FIG. 2 is a view illustrating FIGS. cross section.

As shown in the drawings, the air passage R according to the present invention is based on a pipe section 1 which is closed on both sides by connection ports 2 and 3, by means of which the air passage device R can be inserted into an air conveying, guiding and / or deflecting system. The tube section 1 is provided with longitudinally extending slots 6, to which air baffles 7 are optionally attached. The baffle blades 7 are pivotally embedded in bearings 8, as described, for example, in DE-OS 9206475 or DE-87 00243. In our example, the tube section 1 has two pairs of longitudinal slots which are rotated 90 ° relative to one another. It is understood that the number of slots 6 and slice pairs can be varied according to the task.

As shown in Figure 2, the slots 6 are assigned slit cabinets 9 having side walls 10 and 11, front walls 12 and inner walls 13. Transverse slots 14 are provided in the inner wall 13, which are perpendicular to the longitudinal slots 6, i.e. the longitudinal direction A of the pipe section.

Inside the cabinet, a slider 15 is provided in front of the inner wall 13, whereby a slider 16 is provided with flanges 17 on both sides. The flanges 17 are guided longitudinally by guides 18 which are inserted into the respective openings in the side walls 10 and 11 respectively.

Advantageously, the sliding plate 16 itself has slots 19 which can be overlapped by transverse slots 14 of the inner wall 13 of the sliding box 9.

In a preferred embodiment of the air passage device R according to the invention, the peripheral wall of the tube section 1 is perforated with rows of holes 21 between the annular convexities 4 and 5 and the slots 6.

The air transfer device R according to the present invention operates as follows: The pipe section 1 of the air transfer device R is integrated in an air supply system. Before or after installation, the position of the sliding blade can be adjusted by displacement along the inner wall 13 of the compartment 9. By adjusting the position of the slide blade 16 accordingly, the effective free-flow cross-section of the transverse slots 14 and the slots 19 is adjusted. At the same time, the flow to the longitudinal slots 6 provided with the baffle blades 7 is evened out, and as a result, a directed air stream flows out of the slots 6. The direction of the outlet air flow is controlled by adjusting the position of the baffles 7.

The number of rows of holes 21 is preferably determined in proportion to the longitudinal slots 6. The longitudinal slots 6 provide a carrier flow which carries with it a significant amount of significant air passing through the perforated surface and defines the direction of the total flow of air. Thus, it is possible to achieve significantly higher air extraction performance compared to the known solutions and, in addition, to reduce the noise level despite the significantly higher volume of air transported. For example, ventilation of a room by means of the present invention can be accomplished by means of substantially less air permeability means compared to prior art solutions.

Claims (9)

An air supply device for an air conveying, guiding and / or deflecting system having a slit formed in the wall of the pipe section, characterized in that a slider valve arrangement is provided inside the pipe section (1) in front of the slot (s) (6). installed. The air passage device according to claim 1, characterized in that the slit valve arrangement comprises a slit cabinet (9) and a slider (15). Air passage device according to Claim 2, characterized in that the slit cabinet has side walls (10, 11), end walls (12) and an inner wall (13) with transverse slots (14). The air passage device according to claim 3, characterized in that the slot (s) (6) is substantially parallel to the longitudinal direction (A) of the pipe section (1) and the transverse slots (14) are perpendicular thereto. Air passage device according to claim 3 or 4, characterized in that the gap valve (15) has a sliding plate (16) which lies on the inner wall (13). The air passage device according to claim 5, characterized in that the pusher (16) is flanked on both sides by side strips (16) which are guided by guides (18). • ·· 7. Air passage device according to any one of claims 1 to 4, characterized in that air diverting fins (7) are associated with the slit (s). 8. Air supply device according to any one of claims 1 to 3, characterized in that a slit valve arrangement is associated with at least two parallel slots (6). 9. Air passage device according to one of Claims 1 to 3, characterized in that foil rows (21) are formed between the slots (6) for the tube section (1).