FI85423C - Air damper control and method for using the damper in rectangular ducts of different sizes - Google Patents

Description

«5423

Air flow damper and method of using the damper in rectangular ducts of different sizes Reglerspjäll för luftström och förfarande för att 5 använda regullerspjället i rektangulära kanaler av olika storlek

The invention relates to a control damper for controlling the air flow, which is suitable for rectangular ducts of different sizes. It is also an object of the invention to provide a method for enabling the use of the same damper in different sized ducts.

Only control damper solutions are known from the prior art in which the same damper is only suitable for a certain duct size. The invention seeks to provide an improvement over the prior art and to provide a control damper structure suitable for rectangular ducts of all sizes. The goal is a hardware solution in which the damper can be easily removed from the duct and which damper can be easily installed in the ductwork.

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In the invention, it has been realized to provide the ductwork with an elongate opening in the direction of the longitudinal axis of the ductwork, into which opening a hatch comprising a damper bearing can be further inserted to cover the opening.

In the invention, in a preferred embodiment thereof, the damper can be extended from its longitudinal axis, the damper comprising a telescopic structure. Thus, the length of the damper can be varied according to the different duct sizes.

In a preferred embodiment of the invention, the hardware assembly for the second end shaft of the damper comprises bearing means, the bearing means being formed of a collapsible support frame which can be inserted through an opening in the elongate duct body into the duct system and which is when it is inserted from the side opening of the ductwork into the ductwork.

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In the solution according to the invention, the damper can be easily removed for maintenance from inside the ductwork. Thus, the bearing can be checked and the same damper can be easily put back into the duct 5, for example, after cleaning the ductwork and replacing or cleaning the bearings.

The damper structure according to the invention is mainly characterized in that the damper structure comprises an opening in the wall of the rectangular ductwork having a maximum length at least equal to the width of the damper and that the opening is preferably at least rectangular. , which is fitted to the cover which will cover the above-mentioned opening in the ductwork, wherein the control damper 15 can be suspended at least on the bearing associated with the cover and wherein the control damper can be inserted inside the rectangular duct through said opening in the rectangular duct.

The method according to the invention is mainly characterized in that the rectangular duct system is provided with a through hole in which a separate cover can be mounted, which cover comprises a damper shaft bearing, the duct system being provided with a through hole having a straightness 25 having a longitudinal axis parallel to the longitudinal axis of the ductwork.

The invention will now be described with reference to some preferred embodiments of the invention shown in the figures of the accompanying drawings, to which, however, the invention is not intended to be exclusively limited.

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Figure 1 shows the damper structure according to the invention in an axonometric view.

Figure 2 shows the application of the idea according to the invention to different rectangular channels.

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Figure 3 shows the extensibility of the damper according to the invention.

Fig. 1 shows an axonometric view of the damper structure according to the invention, the parts related to the mounting of the damper being spaced apart. The damper structure 10 comprises an opening 11 in the ductwork 14 with a rectangular cross-section, which is located parallel to the ductwork axis X in its longer longitudinal axis Y.

The opening 11 is longer than the maximum width of the damper. The length of the opening is denoted in the figure by L 1 and the width of the damper by 10 L 2.

As shown in the figure, the damper structure 10 comprises a cover 12 to be fastened to the opening 11, the damper 13 itself being fastened to the bearing 15 of the cover 12 from the end shaft 13a. The cover 12 can be fastened to the duct 11 with screws 18 or hooks so as to cover the grille 11

As shown in the figure, the slat part 13 also comprises a second bearing point 13b, of which the slat part can be fastened inside the ductwork 11 to the counter-bearing point 16. The counter-bearing point 16 is located in the bearing frame 17. As shown in the figure. through.

The structural frame and the damper itself can be inserted through the opening 11 on the side of the rectangular duct 14 into the ductwork. In the export situation, the structural frame 17 can be brought into the folded state, shown in broken lines in the figure.

Figure 2 shows a basic idea according to the invention. In the rectangular duct, the duct size of which is shown in Fig. 2 as H to 100 mm, the control damper 13 is set in a relatively oblique position with respect to the longitudinal axis X in a closed situation in which the slat part prevents the passage of passing.

Correspondingly, in the second representation of Fig. 2, the duct size is H - 200 mm, whereby the same damper is placed in a less oblique position with respect to the central axis. In Fig. 2, in the third case, the duct size is H - 300 mm, i.e. the height of the duct is 300 mm, the damper also being 300 mm. In this case, in the closing situation, the closing part 13 is positioned perpendicular to the flow in its surface plane T. Thus, the same damper can be utilized as shown in the figure for three different duct sizes. According to the invention, it is possible to utilize the same damper for different duct size structures by providing the side wall of the rectangular ductwork with an elongate opening at least equal to the width L2 of the damper. The cross section of the opening is preferably rectangular.

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Figure 3 shows a front control damper according to the invention. The control damper 13 is a telescopic structure in which the portion 130a is slid inside the portion 130b. A spring 131 is placed inside the damper, which is clamped between the slat portions 130a and 130b. Thus, the spring 131 15 pushes the parts 130a, 130b to the maximum length by its spring force.

Claims (9)

Design (10) of damper intended for rectangular ducts, characterized in that the construction of damper 5 comprises an opening in the rectangular duct system, the greatest length of which at least corresponds to the width of the damper and that the opening is advantageously a rectangular opening, (Y) is advantageously directed according to the longitudinal axis (X) of the duct system (14) and the control damper structure comprises a bearing (15) adjacent to at least one axis (13a and / or 13b) of the control damper (13), provided at the cover (12) which will cover the aperture (11) made in the above-mentioned duct system, wherein the damper can be suspended so as to be supported by a bearing adjacent the at least lid and wherein the damper can be inserted before the rectangular channel (14) through the opening made in said rectangular channel. Control damper structure according to claim 1, characterized in that the cover (12) comprises fastening means (18) and the control damper (13) adjacent thereto can be fixed to the rectangular duct system (14). Control damper structure according to claim 1 or 2, characterized in that the control damper comprises a bearing (16) for the pivot shaft (13b) at one end thereof, which can be inserted inside the duct system (14) during the installation of the control damper (13) and attached to this. 4. Damper damper structure according to the preceding claim, characterized in that the bearing (16) is formed in a separate frame system (17) or another separate bearing suspension, which at its smallest size can be inserted through the opening (11) in the duct system within the duct system ( 14) and which can be set to a larger size and subsequently fixed inside the duct system (14). 35 8 85423 5. A damper structure according to the preceding claim, characterized in that the frame system (17) comprising a bearing (16) is a cross-sectional structure (17a, 17b) which can be mounted in a spring loaded way (19) between opposite duct walls in the the rectangular duct (14), when first inserted into the duct system (14) via the opening (11) in the rectangular duct. Control damper structure according to any one of the preceding claims, characterized in that the control damper (13) can be extended. 10 Control damper structure according to the preceding claim, characterized in that the control damper (13) comprises telescopic parts (130a, 130b) which can be mounted in such a manner that the maximum length of the control damper can be set according to size. on the duct system. Control damper structure according to any of the preceding claims, characterized in that the control damper structure comprises a spring (131) operating between the various parts (130a, 130b) of the control damper (13), the control damper being able to use a spring force. (131) is mounted to its maximum length inside the duct system. The method of utilizing a control damper 1 of rectangular duct system of various sizes, characterized in that the rectangular duct system (14) is provided with the passage opening (11), to which a separate cover (12) can be mounted, which lid comprises a bearing (15) for the shaft (13a) of the control damper (13), wherein the duct system (14) is provided with such a passage opening (11), the maximum width of which corresponds to At least the width (L2) of the control damper and that said opening (11) advantageously has a rectangular cross section, whose longitudinal axis (Y) is directed along the central axis (X) of the duct system.