FI100645B - Cleaning device for cleaning the inside of a rectangular air duct - Google Patents

Description

100645

CLEANING DEVICE FOR CLEANING THE INSIDE OF A RECTANGULAR AIR DUCT IN CROSS-SECTION

The invention relates to a cleaning device as defined in recital 1.

SE 502348 and CH 681141 already disclose a cleaning device for cleaning inside a rectangular air duct, the cleaning device comprising a body 10 arranged to be movable in the air duct and resting on the inner wall of the air duct, an actuator having a rotating shaft, and a rotating shaft, is connected to the shaft, and an angle gear or the like is arranged between the shaft and the brush device for rotating the brush device about an axis transverse to the longitudinal direction of the air duct.

The rectangular channels do not have a constant cross-section, but have contractions and expansions. Since the rectangular channel is to be kept low, the reductions and extensions of the cross-sectional area are obtained by making reductions and extensions in the width direction of the channel, and the height of the channel is kept substantially constant. No cleaning device is already known which can adapt to these changes in the size of the rectangular channel without having to repeatedly change the brush device to a different size, which is cumbersome and time-consuming because the cleaning device has to be removed from the channel to change the brush device.

The object of the invention is to eliminate the above-mentioned drawbacks.

In particular, it is an object of the invention to provide an improved cleaning device which does not need to be moved in the transverse direction of the channel and which can be easily adapted to changes in the width of the rectangular channel by eliminating the need for brush sets of several different sizes.

The cleaning device according to the invention is characterized by what is stated in claim 1.

According to the invention, the brush device comprises means for adjusting the length of the brush device in a direction transverse to the longitudinal direction of the air duct.

An advantage of the invention is that brushing can be performed efficiently in a single passage of the channel without having to remove the device from the channel for changing the brush device when the device encounters contractions or expansions in the channel.

In one embodiment of the cleaning device 15, the cleaning device comprises two brush devices arranged symmetrically with respect to the central body on opposite sides thereof. This allows the cleaning device to proceed in the middle of the duct.

In one embodiment of the cleaning device, the brush device 20 comprises at least two brush bodies to which the bristles are attached radially. The brush bodies are telescopically nested relative to each other.

In one embodiment of the cleaning device, the brush device 25 includes a rotation shaft connected to the bevel gear. The telescopic displacement of the brush bodies with respect to each other is arranged by a movement screw / nut mechanism arranged in connection with the axis of rotation. The position of the brush devices relative to each other is adjustable by changing the direction of rotation of the axis of rotation. The mechanical screw nut mechanism is simple and the telescopic adjustment can be achieved by rotating the shaft of the brush device without the need for any other force members.

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In one embodiment of the cleaning device, the brush device includes a first brush body and a second brush body. The first brush body is mounted on a axis of rotation in which a first movement space 5 is provided; the second brush body is mounted on a first movement nut cooperating with the first movement screw. A first stop member is provided on the first movement screw to determine the extreme position of movement of the first movement nut with respect to the first movement screw 10.

In one embodiment of the cleaning device, the brush device comprises a third brush body to which the bristles are attached radially. The third brush body is telescopically nested relative to the second brush body.

In one embodiment of the cleaning device, a tubular extension shaft coaxial with respect to the first movement screw is connected to the first movement nut, having an elongate hollow space within it for receiving the first movement screw. A second set screw is arranged on the extension shaft. The third brush body is connected to a second movement nut which cooperates with the second movement screw. A second stop member is provided on the second movement screw to determine the extreme position of movement of the second movement nut 25 with respect to the second movement screw.

In one embodiment of the cleaning device, the first stop member is arranged to be adjusted in position relative to the first movement screw to adjust the maximum length of the brush device.

30 In one embodiment of the cleaning device, the second stop member is arranged to be adjusted in position Γ with respect to the second movement screw to adjust the maximum length of the brush device.

In one embodiment of the cleaning device 35, the brush bodies are cylindrical in shape and the bristles are attached to the outer circumference of the brush body as plate-like bristle bundles parallel to the longitudinal direction of the brush body.

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The outer wall of the first brush body and / or the second brush body includes grooves for receiving the inner bristle bundles of the second brush body and / or the third brush body.

The invention will now be described in detail by means of application examples with reference to the accompanying drawing, in which Figure 1 shows a perspective view of an embodiment of a cleaning device according to the invention, Figure 2 shows the brush device of Figure 1 in a compressed state, Figure 3 shows the brush device of Figure 1 in an enlarged state; the brush device of Figures 2 and 3 in the expanded state, and Figure 5 shows a schematic cross-section of the brush device of Figures 2 and 3 in the retracted state,

Figure 1 shows an example of a cleaning device capable of moving within rectangular air ducts 20. The cleaning device comprises an elongate body 1 arranged to be moved in the air duct in its longitudinal direction and to rest on the inner wall of the air duct. The cleaning device has an actuator 2 arranged inside the body 1, e.g. a motor driven by a pressure medium, with a rotating shaft 3 in the direction of travel. 6 so that the brush devices 4, 5 can be rotated about an axis transverse to the longitudinal direction of the air duct.

In order for the device to pass frictionally against the inner walls of the air duct 35, the body 1 is provided with a centering base 22 which rests on the inner wall of the duct and centers the body of the device on a central axis parallel to the length of the duct. The centering base 22 comprises four legs 23 projecting radially from the body 1, two of which in the foreground are shown in Figure 1 and which are pivotally articulated to the body 1.

The leg 23 is pivoted relative to the body 1 by a force member (not shown) arranged to act between the body and the leg. At the free end of each leg arm 23 is a power-driven traction sheave 24 which frictionally rests on the wall of the duct 10 so that the device can advance in the duct. Thanks to its base structure, the device can adapt to variable-sized and shaped channels.

As shown in Figures 1 to 5, each brush device 4, 5 comprises three telescopically nested brush bodies 7, 8, 9 to which the bristles 10 are attached radially. The brush bodies 7, 8, 9 are cylindrical in shape and the bristles 10 are attached to the outer circumference of the brush bodies 7, 8, 9 as longitudinal plate-like bristle bundles 20. In the walls of the outer first body 20 and the second brush body 8 there are to receive the bristle bundles 20 of the brush body 8 and the third brush body 9 so that the bristle bundles 20 can reciprocate in the slots 21 during the mutual telescopic length adjustment of the brush-body 25, 8, 9.

Figures 4 and 5 show in more detail the motion screw / motion nut mechanisms by which the telescopic extension and shortening of the brush bodies 7-9 are realized. the brush device 4, 5 comprises a rotation shaft 11 connected to the bevel gear 6. The position of the brush devices 4, 5 relative to each other can be adjusted by changing the direction of rotation of the rotation shaft 11.

The brush device 4, 5 thus comprises, in this cat-example 35, three brush bodies 7, 8, 9. The telescopic extension can, of course, be achieved on the same principle by using only two brush bodies. It is clear that the same principle can also be applied to the brush device structure of more than three brush bodies.

The brush device of Fig. 4 thus has a first brush body 7, a second brush body 8 and a third brush body 5 9. The first brush body 7 is mounted on a rotating shaft 11, the outer surface of which is formed by a helical screw thread, hereinafter referred to as the first movement screw 12. The second brush body 8 is mounted to a first movement nut 13 having internal threads corresponding to the first movement screw 10 12 and thus cooperating with the first movement screw 12. At the end of the first movement screw 12, i.e. at the end of the axis of rotation 11, there is a first stop member 14, e.g. a transverse flange, which determines the limit of movement of the first movement nut 15, i.e. stops its size.

Attached to the first movement nut 13 is a coaxial straight tubular extension shaft 15 coaxial with the first movement screw 12, having an elongate hollow space 16 therein which receives the first movement screw 12 as it rotates in the first movement nut 13. A movement screw thread is formed on the outer surface hereinafter referred to as the second movement screw 17. The third brush body 9 is fixedly connected to the second movement nut 18, which has internal threads corresponding to the second movement screw 17 and thus cooperates with the second movement screw 16. At the end of the second movement screw 17, i.e. at the end of the extension shaft 15, a second stop member 19 is arranged, e.g. The extension shaft 15, the first movement nut 13, the second movement screw 17 and the second stop member 19 are here one integral piece. The stop members 35 and 19 can also be made adjustable in position with respect to the movement screws 12 and 17 so that they can be moved to the desired position along the length of the movement screws 12, 17 7 100645 and locked in place. This makes it possible to adjust the maximum length of the brush device 4, 5.

In Fig. 5, the brush device of Fig. 4 is in the retracted state so that the cylindrical brush bodies 7-9 5 are nested. When the brush device 4, 5 is expanded from this collapsed state to the position of Fig. 4, the following occurs.

The cleaning device is inside the air duct, with the bristle bundles 20 resting on the inner wall of the duct, tending to hold the brush bodies 7-9 in place, providing a small but sufficient counterforce to the screw / nut mechanism to operate. The axis of rotation 11 is rotated, whereby the assembly formed by the first movement nut 13, the extension shaft 15 and the second and third brush bodies 8, 9 begins to move out from inside the first brush body 7 as the first movement nut 13 rotates under the control of the first movement screw 12. At the same time, the second movement nut 18 fixed to the third brush body 9 can also start to rotate under the control of the second movement screw 17, whereby the third brush body 9 starts to protrude from inside the second brush body 8. Since the brush bodies 7 and 8 are mounted on the rotation shaft l1 and the first movement nut 13, respectively, none of the brush bodies 7-9 begin to rotate with the rotation shaft 11 until the first movement nut 13 has encountered the first stop member • 14. The whole brush assembly begins to rotate in the channel also the second movement nut 18 has encountered a second stop member 19, forming a transmission line from the rotation shaft 11 30 through the first movement nut 13 and the stop wall 14 to the extension shaft 15, from the second movement nut 18 and the stop member 19 to the third brush body 9, further to the brush bodies 8 and 7

The brushing of the brush device occurs in the reverse order of 35 when the direction of rotation of the rotation shaft 10 is changed. The reversal of the direction of rotation can be effected by changing the direction of rotation of the shaft 3 8 100645 of the actuator 2 or by arranging a reversing device in connection with the bevel gear 5.

The invention is not limited solely to the application examples presented above, but many modifications are possible while remaining within the scope of the inventive idea defined by the claims.

Claims (10)

100645 A cleaning device for cleaning inside a rectangular air duct, the cleaning device comprising a body 5 (1) arranged to be moved in the air duct and resting on the inner wall of the air duct, an actuator (2) having a rotating shaft (3), the actuator connected to the frame a brush device (4, 5) connected to the shaft (3) and a bevel gear (6) or its housing pressure arranged between the shaft (3) and the brush device (4, 5) for rotating the brush device about an axis transverse to the longitudinal direction of the air duct, known in that the brush device (4, 5) comprises means (7-19) for adjusting the length of the brush device in a direction transverse to the longitudinal direction of the air duct 15. Cleaning device according to Claim 1, characterized in that the cleaning device comprises two brush devices (4, 5) which are arranged 20 symmetrically with respect to the central body (1) on opposite sides thereof. Cleaning device according to Claim 1 or 2, characterized in that the brush device (4, 5) comprises at least two brush bodies (7, 8, 9) to which the bristles (10) are fastened radially, · and that the brush bodies are telescopically arranged one on top of the other. regarding. Cleaning device according to Claim 3, characterized in that the brush device (4, 5) 30 comprises a rotation shaft (11) which is connected to the bevel gear (6); that the displacement of the brush bodies (7, 8, 9) telescopically with respect to each other is arranged by a movement screw / nut mechanism arranged in connection with the axis of rotation; and that the position of the brush devices (4, 5) 35 relative to each other is adjustable by changing the direction of rotation of the axis of rotation (11). 100645 Cleaning device according to claim 4, characterized in that the brush device comprises a first brush body (7) and a second brush body (8), · that the first brush body (7) is mounted on a rotating shaft (11) provided with a first movement screw (12) ; that the second brush body (8) is mounted on a first movement nut (13) cooperating with the first movement screw (12); and that a first stop-10 (14) is provided in the first movement screw (12) to determine the extreme position of movement of the first movement nut (13) with respect to the first movement screw. Cleaning device according to claim 5, characterized in that the brush device (4, 5) comprises a third brush body (9) to which the bristles (10) are fixed radially and which are arranged telescopically nested with respect to the second brush body (8). A cleaning device according to claim 6, characterized in that a tubular extension shaft (15) coaxial with the first movement screw (12) is connected to the first movement nut (13) and has an elongate hollow space (16) for receiving the first movement screw (12); that a second set screw (17) is arranged on the extension shaft (15); that the third brush body (9) is connected to a second movement nut (18) cooperating with the second movement screw (17); and that a second stop member (19) is arranged on the second movement screw (17) to determine the extreme position of movement of the second movement nut (18) relative to the second movement screw. Cleaning device according to one of Claims 5 to 7, characterized in that the first stop element (14) is arranged to be adjusted in position relative to the first movement screw (12) in order to adjust the maximum length of the brush device (4, 35 5). Cleaning device according to one of Claims 5 to 8, characterized in that the second stop member (19) is arranged to be adjusted in position relative to the second movement screw (17) in order to adjust the maximum length of the brush device (4, 5). Cleaning device according to one of Claims 3 to 9, characterized in that the brush bodies (7, 8, 9) have a cylindrical shape and the bristles (10) are fastened to the outer circumference of the brush body in the form of plate-like bristle bundles (20); and that the wall of the outer first brush body (7) 10 and / or the second brush body (8) includes grooves (21) for receiving the inner bristle bundles of the second second brush body (8) and / or the third brush body (9). 100645