SE533020C2 - Method for air flow control - Google Patents

Description

It is therefore an object of the present invention to provide an improved device for effecting rotation with two ropes from the inside of an outer tube during a displacement in the axial direction of a dispute sleeve controlled in relation to the rotation. One end of the dispute sleeve is fixed relative to the outer tube of the channel and the other end is fixed to a rotary sleeve. The outer diameter of the rotary sleeve is only slightly smaller than the inner diameter of the outer tube, so that the rotary sleeve slides easily into the outer tube. The rotary sleeve has a spiral-shaped slot in its mantle surface. On the inside of the outer tube and in the middle of the rotary sleeve is a loop through which the two lines run.

The ropes change direction in the loop so that they partly follow the inside of the outer tube in the axial direction and partly are angled in the loop to run around the rotary sleeve on each side. In the outer tube there is a guide pin, which goes down into the slot of the rotary sleeve. The ropes pull around the rotating sleeve, which also simultaneously moves axially, whereby the free area of the twist sleeve in the center decreases in relation to the initial position.

Description The invention has a device for effecting rotation from the inside with two ropes during a displacement in the axial direction of a dispute sleeve controlled in relation to the rotation. Control dampers of the type to be regulated by the device are used to regulate the air flow in air treatment installations and ventilation systems by causing a pressure drop and to control the air flow to individual rooms and in relation to other rooms within the area of the same ventilation system.

One end of the dispute sleeve is fixed relative to the outer tube of the channel and the other end is fixed to a rotary sleeve. The rotation takes place with two ropes, preferably in 180 degrees, back and forth, at the same time as the rotary sleeve moves axially back and forth.

The outer diameter of the rotary sleeve is only slightly smaller than the inner diameter of the outer tube, whereby the rotary sleeve slides easily into the outer tube. There is also space for the ropes between the outer tube and the rotary sleeve. The rotary sleeve has a spiral-shaped slit in its mantle surface. In the outer tube there is a guide pin, which goes down into the slot of the rotary sleeve. The guide pin holds the rotary sleeve in place and moves the rotary sleeve axially when it is rotated. Between the rotary sleeve and the outer tube on the inside of the outer tube and in the middle of the rotary sleeve is a loop through which the two lines run. The lines fit between the outer tube and the rotary sleeve.

The lines change direction in the loop so that they partly follow the outer tube in the axial direction and partly are angled to run around the rotary sleeve on each side. In the outer tube is a guide pin that goes down into the slot of the rotary sleeve. The liners pull around the rotating sleeve which at the same time moves axially, whereby the free area of the twist sleeve in the center decreases or increases in relation to the initial position. In this way a simple construction is achieved which, with a small collar on the ropes, moves the rotary sleeve. The ropes are marked so that you know which rope to pull in for opening or closing the control damper. The ropes are pulled up to an air diffuser under which they are protected against the unauthorized influence of the adjustment of the control damper.

An embodiment of the invention is described in the following and illustrated in the accompanying drawing, which according to Fig. 1 shows a slit perspective on the control damper for "evil" fate.

Fig. 2 shows a slit perspective on the control damper at restricted flow.

Fig. 3 shows a perspective view of the rotary sleeve and how the ropes are arranged.

Fig. 4 shows a sketch of a control damper built into an air duct.

Device for air flow control and as shown in fig. 1, 2, 3 and 4 may represent the building form applied in the example referred to here.

Device for lult fl fate control according to figure 1 shows a slit perspective on a control damper at full fl fate. The control damper consists of an outer tube (1) containing a rotary sleeve (2) and a twist sleeve (10). One end (1 1) of the twist sleeve (10) is fixed relative to the outer tube (1) of the channel and the other end (12) is fixed to the rotary sleeve (2). The rotary sleeve (2) has a spiral-burnt slot (4) in its outer surface. In the outer tube (1) there is a guide pin (3), which goes down into the slot (4) of the rotary sleeve. The guide pin (3) holds the rotary sleeve (2) in place and moves the rotary sleeve (2) axially when it is rotated. Between the rotary sleeve (2) and on the inside of the outer tube (1) in the middle of the rotary sleeve (2) is a loop (5) through which two ropes (6, 7) run. The lines (6, 7) fit between the outer tube (1) and the rotary sleeve (2). The ropes (6, 7) change direction in the loop (5) so that they partly follow the outer tube (1) in the axial direction and partly are angled to run around the rotary sleeve (2) on each side to more than half The perimeter. The ropes (6, 7) are provided with inserts (8, 9) against the rotary sleeve (2). The ropes (6, 7) pull around the rotating sleeve (2) which also simultaneously moves axially, whereby the free area of the twist sleeve (10) in the center decreases or increases in relation to the initial position. In this way a simple construction is achieved which moves the rotary sleeve (2) with a small force on the ropes (6, 7). The ropes (6, 7) are marked so that you know which rope (6, 7) to pull in for opening or closing the control damper. The linomas (6,7) are pulled up to an air diffuser under which they are protected against the unauthorized influence of the adjustment of the control damper. In addition, you avoid visibly hanging ropes.

Device for lute-flow control according to figure 2 shows a slit perspective on a control damper in the event of a strangled lane. Outer tube (1) containing rotary sleeve (2) and a twist sleeve (10). When pulling one of the ropes (6) according to the arrow (17), the rotary sleeve (2) is rotated according to the arrow (15) at the same time as the rotary sleeve (2) moves in the axial direction according to the arrow (16). This is done by the helical slot (4) guiding the rotary sleeve (2) via the guide pin (3). The second line (7) is then pulled in and around the rotary sleeve (2) according to the arrow (18). Since one end (12) of the dispute sleeve (10) is fixedly attached to the rotary sleeve (2), the dispute sleeve (10) is also rotated, whereby the free area of the dispute sleeve (10) in the center decreases in relation to the initial position and the fate is restricted. To increase the fl fate again, pull on the second line (7) and the process is reversed.

Device for lult flow control according to Figure 3 shows a perspective view of a rotary sleeve (2) which is provided with a helical slot (4) which runs on the outside of a guide pin (3).

The outer diameter of the rotary sleeve (2) is only slightly smaller than the inner diameter of the outer tube (1), so that the rotary sleeve (2) can easily slide in the outer tube (1). There is also space for the ropes (6, 7) between the outer tube (1) and the rotary sleeve (2). The loop (5) is fixedly mounted in the outer tube (1) and on the opposite side of the guide pin (3). The loop (5) is shown oriented in the ratio of the rotary sleeve (2). Furthermore, it is shown how the rope (7) runs around the rotary sleeve (2) in the same spiral shape as the slot (4). The rope (6) runs around the rotary sleeve (2) in the other direction on the opposite side. 10 15 20 25 30 533 ÜEÜ Device for air fl fate control according to figure 4 shows a sketch of a control damper built into an air duct which opens out through an arch (13) to an air device (14).

The ropes (6, 7) are marked so that you know which rope (6, 7) to pull in for opening and closing the control damper, respectively. The linomas (6, 7) are pulled up to the air diffuser (14) under which they are protected against the unauthorized influence of the adjustment of the control damper.

The invention has been described in accordance with the preferred compilation and design, and it is understood that certain exchanges and changes may be made without departing from the spirit. The embodiment now described shows how the device is used to effect control of the air flow in an air damper.

Alternative embodiments are possible, however, for example the device can be used to close or open other valves or adjust positions in pipes. The lines can also be provided with gradations for reading when adjusting the lu fifl flow. Instead of ropes, narrow bands can be used. The invention shall thus not be taken as limited to what has been shown and described above, but similar variants are included in the invention tank and may be considered to be included within the scope of the appended claims.

Claims (3)

10 15 20 25 30 5313 BEG PATENT CLAIMS Device for air fl fate control in an air damper, comprising a twist sleeve (10) of flexible material whose cross-section substantially corresponds to the outer tube (1) in which the flow takes place, the end sleeve (10) of the twist sleeve (10) being fixed on the inside of the outer tube (1) and the other end (12) is fixed in a rotating sleeve (2) which can be rotated during a displacement controlled in relation to the rotation in the axial direction, characterized in that the rotating sleeve (2) is provided with a helical slot (4) in its mantle surface and where there is a guide pin (3) in the outer tube (1), which goes down into the slot (4) of the rotary sleeve and holds the rotary sleeve (2) in place and for the rotary sleeve (2) in the axial direction when it is rotated and where the rotary sleeve (2) and the outer tube (1) on the inside of the outer tube (1) is a loop (5) through which two ropes (6, 7) run and change direction in the loop (5) so that they partly follow the outer tube (1) in axial direction and are angled to run around the rotary sleeve (2) on each side for more than the half of the rotating sleeve (2) increases in relation to the initial position. Air flow control device according to claim 1, characterized in that the outer diameter of the rotary sleeve (2) is slightly smaller than the inner diameter of the outer tube (1), so that the rotary sleeve (2) slides easily in the outer tube (1) and that there is also room for the ropes (6, 7) between the outer tube (1) and the rotary sleeve (2) and where the loop (5) is fixedly mounted in the outer tube (1) and on the opposite side of the guide pin (3) so that the ropes can change direction in the loop (5) to run around on each side of the rotary sleeve (2) some distance away and in the same spiral shape as the slot (4). Device for air control according to claim 1, characterized in that the ropes (6, 7) are marked so that it is known which rope (6, 7) is to be pulled in for opening and closing the control damper and that the ropes (6,7) can be pulled up to a lug (14) under which they are protected against unauthorized influence by the adjustment of the control damper.