RU2588478C2 - Device and ventilation device - Google Patents

Abstract

FIELD: ventilation.

SUBSTANCE: present invention relates to a ventilation device containing device for holding and control of air channel. Device comprises an air channel, lever structure located along outer surface of air channel, lever structure comprises two lever sections, first joint which connects first lever part with a fastening device which holds and supports base of lever position and which provides different positioning of lever structure and air channel, second joint which connects first lever section with second lever section and provides various positioning of lever structure and air channel. Each lever section comprises an elongated profile, wherein first joint comprises first part attached to fixing device, and second part attached to first lever section, wherein parts of first joint are interconnected by axis around which they can rotate relative to each other around, and second joint comprises first part attached to first lever section, and second part attached to second lever section, wherein parts of second joint are interconnected by axis which passes through first part and second part and about which they can rotate relative to each other. Further, at least one part joint comprises a part in form of cradle, comprising two parts, arranged in parallel and spaced apart, wherein said parts are located at each side of flat part, which is contained in second part of joint. Device also comprises balancing device, which is located between one joint and one of lever section, and fastener arranged around axis of rotation and rigidly attached to one part of joint to outer surface of joint, and having part projecting from joint, and tension structure, which is attached by one of its ends to provide rotation of projecting part of fastener and other end to provide rotation of lever section of lever part of joint, wherein central line of projecting part is located at an angle from 80° to 100° relative to central line of lever section, which is rigidly attached to part of joint, to which is a fastener is rigidly fixed.

EFFECT: ensuring more stable operation of balancing device.

25 cl, 17 dwg

Description

FIELD OF THE INVENTION

The present invention relates to a device intended for use in a ventilation device for holding and controlling an air channel. The invention also relates to a ventilation device comprising such a device.

State of the art

Known devices that can be used in ventilation devices to hold and control the channel through which air can be vented and with it dangerous substances and gases. The term "ventilation device" is used in the present description to refer to all parts and fittings that form the ventilation device, and such a device, among other things, also contains a node capable of creating negative pressure, suction force that acts on the air in the flexible channel, and various parts and structures that guide, distribute, hold, guide, regulate and in other ways ensure the operation of the ventilation device in the required manner. Such devices have relatively heavy structures made of steel. They are difficult to transport and assemble, they are difficult to maneuver and therefore they require a lot of space for work.

Disclosure of invention

One object of the present invention is to provide a device for use in a ventilation device for holding and controlling the air channel and which is light in weight, as well as creating a ventilation device containing such a device.

This task is achieved by a device having technical features described in the characterizing part of claim 1 and a ventilation device according to claim 31.

Brief Description of the Drawings

Figure 1 is a device of the present invention.

Figure 2 is a section A through the device, the lever structure, the lever section of the present invention.

Figure 3 is a section In through the device, the lever structure, the lever section of the present invention.

Figure 4 is a section B through the device, the lever structure, the lever section and the mounting device of the present invention.

5 is a first joint of the present invention.

6 is a first joint of the present invention.

7 is a surface of an articulated element of a first articulation of the present invention.

Fig. 8 is a first joint of the present invention.

Fig.9 is an axis in the first joint of the present invention.

Figure 10 is a second joint of the present invention.

11 is a second joint of the present invention.

12 is an axis in a second joint of the present invention.

13 is a second joint of the present invention.

Fig. 14 is a fixing means in a balancing means on a second joint of the present invention.

Fig is a lever structure containing a shutter structure, which is a fastener for the free end of the air channel, and the cap of the present invention.

Fig is a lever structure containing a shutter structure, which is a fastener for the free end of the air channel, and the cap of the present invention.

17 is a shutter controller of the present invention.

Detailed Description of Embodiments

Lever construction

The present invention relates to a device 1, intended for use in a ventilation device for holding and controlling the air channel 2. The air channel 2 is designed to suck out air and at least one of the unwanted particles and gases from various places, usually from different types of work areas. The air channel 2 is connected to a node (not shown in the drawings), which creates negative pressure in the flexible channel 2, i.e. the force that draws air.

The device 1 contains a single lever structure 1.1, which extends along the outer surface of the air channel 2A.

The lever structure 1.1 of the present invention, shown in figure 1, contains two lever sections 3 and 4, two connecting levers, the first lever section 3 and the second lever section 4, located one after the other. The lever structure 1.1 further comprises a first joint 5, a friction joint that connects the first lever section to the fastening device 6, which holds and sets the base position of the lever structure, and which allows the lever structure 1.1 to be installed, bent and pulled in different ways. The lever structure 1.1 further comprises a second joint 7, a friction joint that connects the first link section 3 to the second link section 4 and allows the linkage 1.1 to be installed, bent and pulled in different ways.

Each lever section 3 and 4 contains an elongated aluminum profile 8 and 9, which is respectively made by extrusion (see figure 1). Each lever sections 3 and 4 are mainly formed by aluminum profiles 8 and 9 in the central part, which determines the longitudinal size of the section.

The device 1 has a low weight, which means that it is easy to move during transportation, during assembly and during operation and, thus, when moving the device 1 and the air duct 2 together, since the device 1 contains only one lever structure 1.1 with lever sections 3 and 4, which contain an aluminum profile of 8 and 9. The use of aluminum allows you to make the design easier than steel devices.

The use of aluminum also makes it possible to make device 1, the lever structure 1.1, more elegant and attractive than devices with steel lever sections, since parts made of aluminum, due to the properties of this material, can be molded in different ways and can be made smaller than parts made of steel, at the same time as stable, but more attractive in shape.

The fact that the structure 1.1 is lighter, has a smaller size and attractiveness, allows you to place the lever structure 1.1 in full visibility on the outer surface of the air channel 2A. This facilitates the execution, transportation and installation, since the elements can be manufactured and delivered separately and assembled on site. The operation and adaptation of the linkage structure 1.1 is also facilitated since an air duct 2 suitable for a particular task can be used. It becomes possible to use the same lever structure 1.1 in different conditions, simply replacing the air channel 2.

The adjustment and repair of the lever structure 1.1 is facilitated when it is not enclosed inside the air duct. You can also see and interpret the lever structure 1.1 on the basis of its functions so that the operation of the device 1 is facilitated.

The air channel 2 is flexible, it can be bent, at least in those areas that coincide in position with joints 5 and 7. The air channel can be formed or consist of a pipe or more rigid parts.

The aluminum profile 8 or 9 of each link section in the shown embodiment is a hollow profile (see FIG. 2), which contains at least four side sections 10a-10d.

Each lever section 3 and 4 contains a side 11 and 12, respectively, the outer surface of which is facing the air channel 2, a side section 10d, the exterior of which is formed to support the air channel 2, which is located outside of the lever structure 1.1 (see figure 3) .

It is sufficient that the air channel 2 is partially round, and one side 11, 12 and 10d of each link section has an external concave shape that corresponds to the convex external shape of the channel to provide maximum support to the channel.

Mounting device

The device 1 contains a mounting device 13, which secures, holding in place, the flexible channel 2 on the lever structure 1.1 (see figures 1 and 4). The lever structure 1.1 and the air channel 2 are parallel to each other, side by side. The fastening device 13 comprises means 14 and 15, which are connected to each lever section 3 and 4 on the outer surface of each lever section 3 and 4 and which are held in tension around the air channel 2.

One of these means 14 contains a free end 14a that contains a first locking part 16, and the second of these means 15 contains a free end 15a that contains a second locking part 17, said locking parts 16, 17 being in locking interaction with each other for keeping the air channel 2 in place. The locked position is shown in dashed lines in FIG.

The means 15 and 16 in the shown embodiment are cable tie type clamps, wherein the first locking part 16 or 17 comprises a protruding part, and the second locking part 16 or 17 comprises an opening or a cavity, the protruding part 16 and the opening or cavity 17 having a reciprocal design to perform the locking function.

The fastening device 13 includes fasteners 18 on each lever section 3 and 4, which connects the means 13 and 14 with the corresponding lever section 3 and 4. The fastener 18 contains at least one guide 19 that extends along the lever sections 3 or 4 and into which are inserted funds 14 or 15 or their parts 14.1 or 15.1. The fastener 18 shown in the drawings contains two parallel guides 19 that extend parallel to each lever section 3, 4 and in which the means 14 and 15 or parts 14.1 and 15.1 of these fastening tapes are located. Each guide 19 and each means 14 or 15 have a reciprocal design so that one end 14b or 15b of the means can be inserted into the guide 19 at one end of the lever 3a, 3b, 4a or 4b, into the end of the guide and slide along the guide to the desired position.

First joint

The first joint 5 comprises a first part 20 connected to the mounting device 6, and a second part 21 connected to the first link section 3. The parts 20 and 21 of the joint are connected to each other by an axis 22, which passes through the first part 20 of the joint and the second part 21 of the joint and around which the first joint part 20 and the second joint part 21 can rotate relative to each other. See FIGS. 5 and 6.

One of the parts 20 and 21, in this case the articulation part 21, comprises a cradle-shaped part 23 that has two parts 24 and 25 located parallel to each other and spaced apart by a certain distance, while these parts, in turn, are located on each side of the flat portion 26, which refers to the second joint portion 20. Each of the two parallel parts 24 and 25 contains a friction surface 27 located on the surface 24a and 25a of the corresponding part, which faces the flat part 26 of the second joint part. The parallel parts 24 and 25 and the corresponding surface 24b and 25a facing the flat part 26 of the second joint part have concave surfaces (see Fig. 7).

The axis 22 in the first joint 5 contains a screw 28 passing through the first part 20 of the joint and the second part 22 of the joint and having at one end 28a an enlarged faceted head 29, for example, a hexagonal one, which in the assembled state is located in the recess 30, which coincides in shape on one side 5A of the joint to create a fixed contact with the joint 5 and to distribute the force that holds the joint assembled over most of the surfaces 24a and 25a of the parts of the joint. See FIGS. 8 and 9.

The axis 22 comprises a nut 31 that is screwed onto the threaded end 28b of the screw and a washer 31.1 that distributes force and is located between the nut 31 and the second joint side 5B.

These two parts 20 and 21 of the first joint are made of polymeric material by injection molding.

The first part 20 of the first joint comprises a part 32 which protrudes from the joint 5 and is mounted on the mounting device 6. See FIG. 5. The first part 20 of the first joint, alternatively, may be part of the mounting device 6. This first part in this case may be made of steel. The first part 20 may also contain an inner part of steel coated with a polymeric material.

The second part 21 of the first joint includes a part 33, which protrudes from the first joint 5 and allows you to mount the second part 21 of the joint on the first lever section 3.

Part 33 has a shape that allows you to insert it into the profile 8 of the first lever section and attach it to it with fastening means 33.1, screws or bolts that pass through and enter the lever section 3. Fastening means 33.1, bolts, are closed by a cover 33.2.

Second joint

The second joint 7 of the linkage structure, which is a friction joint, comprises a first part 34 connected to the first link section 3 and a second joint part 35 connected to the second link section 4. The joint parts 34 and 35 are connected to each other by an axis 36 that extends through the first articulation part 34 and the second articulation part 35 and around which the first articulation part 34 and the second articulation part 35 can rotate relative to each other. See FIG. 10.

One of the articulation portions 34 or 35, in the illustrated embodiment, part 35, comprises a cradle-shaped part 37 comprising two parts 38 and 39 arranged parallel to each other and spaced apart by a certain distance. In turn, these parts are located on each side of the flat part 40, which belongs to the second part 34 of the joint. See FIG. 11. Two parallel parts 38 and 39 contain a friction surface 41 located on the surfaces 38a and 29a of the corresponding part, which faces the flat part 40 of the second joint part. The parallel parts 38 and 39 and the corresponding surfaces 38a and 39a facing the flat part 40 of the second joint part have a concave surface shape. See the corresponding shape of the surfaces 24a, 25a of the first joint in FIG.

The axis 36 in the first joint 7 contains a screw 41, which passes through the first part 34 of the joint and the second part 35 of the joint, while at one end 41a of the screw there is an enlarged faceted head 42, for example a hexagonal one, which in the assembled state is located in the recess 43 in the outer surface 7A of the articulation having a reciprocal form to provide fixed contact with the articulation 7 and to distribute the force that holds the articulation over a large part of the articulation surface 38a and 39a. See FIGS. 12 and 13.

The axis 36 comprises a nut 44, which is screwed onto the threaded second end 41b of the screw, and a washer 45, which distributes the force and is installed between the nut 44 and the second joint side 7B.

Two parts 34 and 35 of the second joint are made of a polymer material by injection molding.

One joint part 34 or 35, in the shown embodiment, part 34 containing the flat part 40, contains an internal part 46, which is an amplifier. The inner part 46 is made of steel and is completely or partially surrounded by a joint part 34 or 35 of a polymeric material.

The first part 34 of the second joint includes a part 47 that protrudes from the second joint 7 and which allows the first part 38 of the joint to be mounted on the first link section 3. The second part 35 of the second joint also contains a part 48 that protrudes from the second joint and which allows the second part to be installed 39 joints on the second link section 4. Parts 47 and 48 have a shape that allows parts 47 and 48 to be inserted into profile 8 of the first link section and into profile 9 of the second link section. Parts 47 and 48 are held together by means of fastening means 47.1 and 48.1, for example, screws or bolts, in the respective link sections 3 and 4. The fastening means 47.1 and 48.1, i.e. bolts closed by a lid 49.

Balancing device

The device 1, the lever structure 1.1, contains a balancing device 50, which is located between the second joint 7 and the first lever section 3 and contains fastening means 51, a mounting disk located around the axis 36 of rotation of the joint and rigidly attached to the outer surface 7B of the joint and containing part 52 which protrudes from the joint 7 and the tension structure 53, for example a gas spring, which is attached at one end 53a so as to rotate the protruding portion 52, i.e. its outer free part, and which is secured by a second end 53b so as to enable rotation of the first link section 3. See FIG. 11.

The center line 52L of the protruding portion extends at an angle α of 75 ° to 105 ° to the center line 4L of the lever section 4, which is attached to the joint portion 35, i.e. the second part of the second joint, to which the fastening means 51 is rigidly attached. The interval of angles from 80 ° to 100 ° additionally provides a better, more stable operation of the balancing device 50.

The fastening means 51 comprises a through hole 54 into which the axis 36 is inserted, and it has a predetermined shape that interacts with a part 55 directed outward from the joint 7 located around the axis 36, the shape corresponding to the shape of the hole so that the position of the fastening means 51 are determined with respect to articulation 7. See FIG. The hole 54 and the outwardly directed portion 55 in the shown embodiment have an interacting cross shape so that the position of the fastening means, i.e. the fastening disk can be changed by disconnecting the fastening means 51 from the outwardly directed part 55, by turning the fastening means 51 relative to the outwardly directed part 55 and reintroducing the fastening device into interaction with the outwardly directed part 55.

Lever structure comprising a shutter structure and fasteners

The device 1, the lever structure 1.1, comprises on the free end 1a of the lever structure a lever device 56 attached to the outer lever section 4, the lever device comprising a shutter structure 57 that provides fastening, a mounting area, the free end 2a of the air channel. See figures 1, 15 and 16.

In the embodiment shown in the drawings, there are two lever sections 3 and 4. The device of the present invention may have a larger number of lever sections and hinges if it is necessary to extend the lever structure or if it is necessary to move the lever structure to additional angular positions. The lever device 56 is mounted on the external lever section, in the shown embodiment, on the lever section 4.

The lever device 56 is attached to the outer, second lever section 4 by means of a fastening device 58, which comprises fasteners 18 on the second lever section 4 and which connects the lever device 56 to the lever section 4. See FIGS. 3 and 16. The fastener 18 comprises at least one guide 19, which extends along the lever section 4, and a portion 56.1 of the lever device 56 is inserted into this guide.

The guide 19 and the lever mechanism part 56.1 have structures that are responsive to each other, so that the lever structure part 56.1 can be inserted into the guide 19 on one side of the lever 4a or 4b and shifted along the guide to the desired position. The fixture 18 contains two parallel guides 19, which extend along the lever section 4 and in which two parts 56.1 of the lever structure are located.

The lever device 56 comprises an annular structure 59 of limited length, which at one end 59a comprises a mounting region 60 on which the flexible channel 2 is mounted so that it can be disconnected. The installation area 60 for the outer end of the air channel 2 includes a cavity 61 into which the channel end 2a is inserted and secured by the installation device 62. The ring structure 59 has an opening 59.1 at the edge of one end 59a, which allows access to the installation device 62.

The damper structure 57 comprises a plate 63 located inside the lever device 56 so that it can rotate between a position in which the plate 63 is parallel to the lever 4 and allows full airflow through the lever device 56 and a position in which the plate 63 is transverse to the lever device 56 and blocks the air flow The shutter structure 57 allows you to adjust the air flow in the flexible channel 2 and through the lever device 56 from the full air flow to the air flow, and on e intermediate flow value. The plate 63 comprises an edge channel 64, which extends across the plate 63 in which the edge axis 65 is located, the axis 65 passing through the lever section 4 and attached so that it can be rotated, with one end 65a thereof being in the lever device 56 , the second end 65b passes through the lever section 4, and the axis ends with a handle 66 on the outer surface of the lever section 4 to control the position of the axis 65 and, therefore, the position of the plate 63 and the air transmission.

The lever device 56 also includes a part 56A, a handle that can be gripped with one hand and which can transmit power from a person to the device 1 so as to adjust the position of the device 1, the lever structure 1.1, and the air channel 2. This part 56A is shown only in FIG. one.

The lever device 56 is made mainly of polymeric material by injection molding.

Air intake design

The device 1, the lever structure 1.1, contains an inlet structure 67 for air, the position of which can be adjusted. The air inlet structure 67 has a cap shape (see FIGS. 1 and 15-17), which is connected to the lever device 56 and which is attached to the external lever section 4 of the lever structure, and comprises a shutter structure 57. The cap 67 is connected to the lever device 56 structure 68, which is attached to the lever device 56 and located inside the cap 67, and is located inside the second air channel 69, which is also attached to the lever device 56, and inside the cap 67, while the structure 68 allows you to adjust the position, angle, inclination n and the direction of the cap 67 relative to the lever device 56. The lever device 56, its ring structure 59, contains at its second end 59b a mounting area 60.1, where the second air channel 69 is detachably attached.

The structure 68 includes an articulation system 70, which provides three-dimensional movement of the cap 67 relative to the lever structure 1.1, the lever device 56, the air channel 2a. The structure 68 comprises a first mounting portion 71, comprising two levers 72 and 73, diametrically relative to each other and each of which is attached at one end 72a and 73a to the lever device 56, and which is connected to the joint system 70, and on which there are two points 74 and 75 are fasteners for the through axis 76, around which a part 77, which contains another axis 78, can rotate, and where the second fastening part 79, the third lever, are arranged to rotate around the second axis 78, and contains a free end 79a on which set cap.

The first axis 76 is oriented in one direction, and the second axis 78 is oriented in a direction rotated 90 ° to the first axis, which allows you to move the cap in three dimensions relative to the lever structure 1.1, device 56.

Other items

The mounting device 6, and therefore the entire linkage 1.1, is attached to a wall, floor, ceiling, or to a free-standing, possibly movable assembly.

The outer free end 1a of the lever structure, the outer end 4a of the second lever section 4, ends with the soft part 80. The soft part 80 is made of polymer material by injection molding and contains part 81, which is inserted into the profile 9 of the lever section and mounted on the lever section 4 via the axis 65, which passes through the lever section 4, i.e. the axis by which the damper is adjusted.

The device 1, the lever structure 1.1, is intended for use in a ventilation device for holding and regulating the air channel 2 on the outer surface of the channel 2A (see Fig. 1) with only a single lever structure 1.1.

The device 1 of the present invention can be described on the basis of the device 1, also containing a flexible channel 2. The invention also relates to a complete ventilation device containing the above-described device 1. In addition, a complete ventilation device can be more easily transported and installed if the device 1 comprises a lever structure 1.1 of this type.

The above description of the various technical specifications should not be construed in a limiting sense. Various technical features can be combined without going beyond the scope of an inventive idea, while maintaining the required functionality.

Claims (25)

1. Device (1) for holding and regulating the air channel (2) in the ventilation device containing the air channel (2), a single lever structure (1.1), which is located along the outer surface (2A) of the air channel (2), while the lever the structure (1.1) contains two lever sections (3, 4), located one after another, the first joint (5), which connects the first lever part (3) with the mounting device (6), which holds and supports the basic position of the lever structure (1.1 ), and which provides various positions ionization of the lever structure (1.1) and the air channel (2), the second joint (7), which connects the first lever section (3) with the second lever section (4) and provides different positioning of the lever structure (1.1) and the air channel (2), moreover, each lever section (3, 4) contains an elongated aluminum profile (8, 9), while the first joint (5) contains the first part (20) attached to the mounting device (6), and the second part (21) attached to the first link section (3), while the parts (20, 21) of the first joint (5) are connected to each other the angular axis (22), which passes through the first part (20) of the joint and the second part (21) of the joint, and around which the first part (20) of the joint and the second part (21) of the joint can rotate around each other, and the second joint ( 7) contains the first part (34) attached to the first lever section (3), and the second part (35) attached to the second lever section (4), while the parts (34, 35) of the second joint (7) are connected to each other the other axis (36), which passes through the first part (34) of the joint and the second part (35) of the joint and around which the second part (34) of the joint and the second part (35) of the joint can rotate relative to each other, at least one of the parts (20, 21, 34, 35) of the joint contains a part (23, 37) in the form of a cradle containing two parts (24, 25, 38, 39) located parallel to each other and spaced apart, and these parts, in turn, are located on each side of the flat part (26, 40), which is contained in the second part (20, 21, 34, 35) joints, characterized in that it contains a balancing device (50), which is located between one joint (7) and one lever section (3), and contains fastening means (51) located around the axis (36) of rotation of the joint and rigidly attached to one part (35) of the joint, to the outer surface (7B) of the joint, and containing part (52) protruding from the joint (7), and the tension structure (53), which is attached to one of its ends (53a) so as to ensure the rotation of the protruding part (52) of the fastening means (51), and the other with its end (53b) so as to provide rotation to the link section (3) of the link arm (3), with the center line (52L) protruding portion is angled (α) from 80 ° to 100 ° relative to the central line (4L) linkage section (4) which is rigidly attached to a portion (35) articulation to which is rigidly attached a fastening means (51). 2. The device according to claim 1, in which each lever section (3, 4) comprises a side (10d, 11, 12) that is turned to face the flexible channel (2) and has a concave exterior shape that corresponds to the external shape of the air channel (2). 3. The device according to claim 1 or 2, containing a mounting device (13) that attaches, holds in place, the air channel (2) on the lever structure (1). 4. The device according to claim 3, in which the mounting device (13) comprises means (14, 15) that are connected to each link section (3, 4) and which are held in tension around the air channel (2). 5. The device according to p. 3, in which the mounting device (13) contains fasteners (18) on each lever section (3, 4), which connects the means (14, 15) with the corresponding lever section (3, 4). 6. The device according to claim 5, in which the fixture (18) contains at least one guide (19), which extends along the lever section (3, 4) and in which the means (14, 15) or parts (14.1, 15.1) are located ) appropriate funds. 7. The device according to claim 1, in which each of the two parallel parts (24, 25, 38, 39) contains a friction surface (27, 41) located on the surface (24a, 25a, 38a, 39a) of the corresponding part, which faces to the flat part (26, 40) of the second part of the joint. 8. The device according to claim 7, in which two parallel parts (24, 25, 38, 39), the surface (24a, 25a, 38a, 39a) of the corresponding part, facing the flat part (26, 40) of the second joint part, have concave surface shape. 9. The device according to claim 7 or 8, in which the axis (22, 36) comprises a screw (28, 41), which passes through the first part (20, 34) of the joint and the second part (22, 35) of the joint, wherein at one end (28a, 41a) contains an enlarged faceted head (29, 42), a hexagonal head, which in the assembled state is located in a recess (30, 43), matching in shape on one side (5A, 7A) of the joint to achieve fixed contact with the joint (5, 7) and for distributing the force that holds the joint to most of the surfaces (24a, 24a, 38a, 39a) of the joint. 10. The device according to claim 7 or 8, in which at least two parts (20, 21, 34, 35) of one of the joints are made of a polymeric material. 11. The device according to claim 7, in which at least one part (26, 40) of the joint (5, 7) contains an internal amplifier (46) made of steel. 12. The device according to claim 7, in which at least two parts (20, 21, 34, 35) of the joints are molded. 13. The device according to claim 1, in which the fastening means (51) comprises a through hole (54) through which the axis (36) is inserted and it has a predetermined shape, which interacts with the part (55) directed outward from the joint ( 7) located around the axis (36), the shape corresponding to the shape of the hole so that the position of the fastening means (51) is determined relative to the joint (7). 14. The device according to claim 1, comprising a lever device (56) attached to the external lever section (4) of the lever structure, comprising a shutter structure (57) and a mounting area at the free end (2a) of the flexible channel. 15. The device according to claim 14, in which the lever device (56) is attached using a fastening device (58) containing fasteners (18) on the lever section (4). 16. The device according to p. 15, in which the fixture (18) contains at least one guide (19), which extends along the lever section (4) and in which is located part (56.1) of the lever device (56). 17. The device according to p. 15 or 16, in which the shutter structure (57) contains a plate (63) located so that it can be rotated inside the lever device (56), and so that it can be rotated between position, in which plate (63) is parallel to the lever (4) and provides a full air flow through the lever device (56) and the air channel (2), and the position in which the plate (63) is located across the lever device (56) and cuts off the air flow, and in all intermediate positions. 18. The device according to p. 17, in which the plate (63) contains an edge channel (64), which extends across the plate (63) and in which the edge axis (65) is located, the axis being attached at one end (65a) so to ensure rotation of the lever device (56), and its second end (65b) is attached so as to provide rotation by the lever section (4) and ends with a handle (66) for adjusting the position of the axis (65) and, therefore, the plate (63), and air passage. 19. The device according to p. 15, in which the lever device (56) comprises a part (56A), a handle that can be gripped with one hand and which transfers power from a person to the structure (1) so that the position of the structure (1) can be adjusted , lever construction (1.1). 20. The device according to claim 1, containing an inlet structure (67) for air. 21. The device according to claim 20, in which the air inlet structure (67) is attached to the lever device (56) attached to the external lever section (4) of the lever structure and which comprises a shutter structure (57). 22. The device according to p. 21, in which the inlet structure (67) for air is attached to the lever device (56) through the structure (68), which is attached to the lever device (56) and is located in the exhaust structure (67) for air and which located inside the second channel (69), which is also fixed in the lever device (56) and the exhaust structure (67) for air, while the structure (68) provides adjustment of the position of the exhaust structure (67) for air. 23. The device according to p. 22, in which the structure (68) comprises an articulation system (70) comprising a first axis (76) and a second axis (78), the second axis (78) being located 90 ° offset the first axis (76), which provides three-dimensional movement of the inlet structure (67) for air relative to the lever structure (1.1), the lever device (56), the end (2a) of the air channel. 24. The device according to claim 1, in which the mounting device (6) is attached to a wall, floor, ceiling or a free-standing, possibly mobile, unit. 25. A ventilation device comprising a device (1) according to claim 1.

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