DE102013100800A1 - Airway means - Google Patents

Abstract

The invention relates to an air duct device having an air duct element (12) which comprises a housing (13) in which at least one device (17) is flowed through which flows through a gaseous medium whose inlet nozzle (18) to the upstream end side (14). of the housing (13) and its outlet nozzle (19) is aligned with its downstream end face (15) of the housing (13) with an end wall (21) arranged on the upstream end face (14) and having an inlet opening (22) the inlet nozzle (18) of the device (17) is assigned, wherein on an outflow end face (15) of the housing (13) an end wall (23) is arranged, which has an outlet opening (24) in an outlet nozzle (19) of the Device (17) passes.

Description

The invention relates to an air duct device with an air duct element, in which a device is arranged, which is flowed through by a gaseous medium whose inflow side is aligned with an inlet side of the air duct element and its downstream side to the outlet side of the air duct element and with an arranged on the inlet side of the air duct element end wall , which has an inlet opening, which merges into an inlet nozzle of the device.

Such air duct devices are used as a replacement of air duct fans, which have in an air duct a fan with backwardly curved vanes, whose axis of rotation is aligned perpendicular to the flow direction in the air duct. In such duct fans, an increased static pressure build-up is possible due to the double deflection of the flow through 90 °. However, regulated motors are used in such motors to meet an ERP (Energy Related Products) standard. Such regulated motors are expensive. In addition, these duct fans in conventional design, regardless of the engine technology used on an increased noise emission.

The duct fans, in which, for example, a radial or axial fan is used with the flow axis coaxial with the air duct element and on the inlet side of the air duct element having an end wall with an inlet opening, which merges into the inlet nozzle of the radial and / or axial fan, has with respect to the above Air duct fan on the advantage that the sound emission could be reduced. In addition, non-controllable motors can be used to fulfill the ERP standard. Due to the increasing demands on the reduction of the acoustic emission, it is necessary to further develop such air duct fans.

The invention has for its object to propose an air duct device, in which an improved acoustic emission is given.

This object is achieved by an air duct device according to the features of claim 1. Further advantageous embodiments and further developments are specified in the further claims.

By the configuration of the air duct device, in which both the inlet side and the outlet side of the air duct element comprises an end wall, each having an inlet and outlet opening, wherein the inlet opening in the end face of the air duct element in the inlet nozzle of the device and the outlet nozzle of the device in the Outlet opening merges in the end face of the air duct element, a sound produced in the device is not emitted into the air duct element, but passed through the device and thus through the air duct element. In addition, the sound generated via an outer housing wall portion of the device can be absorbed in the air duct element itself, since it is formed closed. In any case, the sound is not passed through the air duct element in the environment to the outside. In addition, there are no pressure losses in the air duct device. By this arrangement, an increase in the overall efficiency is achieved.

The device is preferably arranged by means of at least one suspension device, in particular elastic suspension device, at the inlet opening and the outlet opening of the respective end wall of the air channel element. Thereby, the device is arranged levitating in the air duct element, that is, that the device has no additional brackets or fasteners, by means of which the device is attached to one of the side walls of the air duct element. As a result, a sound decoupling can be given to further wall sections of the air duct element. Due to the free-floating arrangement, furthermore, a vibration reduction can also be achieved. Due to the suspended mounting of the device in the air duct element, a two-shell construction can be achieved. An outer shell is formed by the circumferential side walls of the air channel element. An inner shell is formed by a housing or housing portion surrounding the device. As a result, a closed cavity can be created in the air duct element, which represents a sound absorber space.

The elastic suspension device for receiving the device in the air duct element preferably has at least one connecting element which positions the inlet opening of the end wall and the inlet nozzle of the device and / or the outlet opening of the end wall and the outlet nozzle of the device to each other. As a result, a simple connection and installation of the device to the inlet side and / or outlet side of the air channel element can be made possible. In addition, this creates a structurally simple structure.

The at least one connecting element of the elastic suspension device is advantageously arranged on an outer side of the inlet nozzle and inlet opening and / or on an outer side of the outlet nozzle and the outlet opening. As a result, the elastic suspension device for the flow channel of the device can be positioned without interference be to allow an elastic suspension of the device to the inlet side and / or outlet side.

The inlet opening on the end wall and the inlet nozzle of the device each have a connecting portion, which lies outside the flow cross-section of the device and at least partially associated with each other. As a result, a flexible configuration of the at least one connecting element can be made possible in order to position and fix the connecting sections relative to one another and also to design the connecting elements. The same applies to the outlet opening and outlet nozzle.

An alternative embodiment of the invention provides that the inlet nozzle and the inlet opening each have a connecting portion, the inside of which form a portion of the flow channel of the device. As a result, a structurally further simplified embodiment of the air duct device for connecting the device to the inlet opening and outlet opening of the air duct element can be provided. By analogy with the configuration of the inlet opening and inlet nozzle, the outlet opening and outlet nozzle can also be formed.

The at least one connecting element of the elastic suspension device is preferably designed as a detachable tensioning or clamping element. This allows a simple and quick installation. As a result, a quick replacement of a device can be made possible. Preferably, such a releasable clamping or clamping elements, a clamping band or a clamp is provided which completely surround the outer periphery of the connecting portions of the inlet opening and the inlet nozzle. The same applies to the outlet side. As an alternative to the releasable clamping or clamping element, a screw connection can also be used as a connecting element, which acts directly on the connecting sections.

An end edge of the inlet opening and an end edge of the inlet nozzle are preferably arranged as a butt joint to each other. The respective end edges lie, for example, directly against each other and form a continuous transition to avoid turbulence at the joint. The same can also be provided on the outlet side.

Alternatively, a damping element may be provided between the front edge of the inlet opening and an end edge of the inlet nozzle. This creates an additional decoupling between the end wall of the air duct device and the device mounted in the housing of the air duct element. An analogous arrangement of the damping element can also be provided between an end edge of the outlet opening and an end face of the outlet nozzle.

A further preferred embodiment of the invention provides that at least one damping element is provided between an outer side of the connecting section of the inlet opening and an outer side of the connecting section of the inlet nozzle and the at least one connecting element acting on the connecting sections. As a result, a further damping effect and sound absorption can be achieved.

A further preferred embodiment of the invention provides in the housing of the air duct element before a removable inspection cover. As a result, when the air duct element is incorporated into a duct system, a subsequent revision is made possible without the air duct element having to be dismantled with respect to the further air duct elements arranged on the inlet side and outlet side.

A further preferred embodiment of the invention provides at least one insulating element in the housing of the air duct element. This insulating element may extend partially or completely along one or all of the side walls of the housing of the air duct element. Such an insulating element can also fill a cavity formed between the housing and the end walls and the device. The at least one insulating element is preferably provided to prevent cold bridges. As a result, condensation can also be prevented. In addition and / or alternatively, this insulating element can also be used for sound absorption.

The device provided in the air duct device is preferably designed as a fan, in particular a radial or axial fan. This has the advantage that a sound generated by the fan is guided through the flow channel and the radially radiating sound is absorbed in the air channel element.

According to a further advantageous embodiment of the air duct device, the device is designed as a pipe silencer. As a result, an additional noise reduction can be achieved. Such an air duct device with a pipe sound damping can be upstream and / or downstream of an air duct device with a fan. Due to the arrangement of the pipe silencer in an air duct element and the fan in an air duct element, these air duct devices constitute modular units which can be connected to one another in any desired manner and integrated into further air duct elements for an air duct system. Of the Pipe muffler preferably has a pipe diameter corresponding to the flow channel, so that a same flow outside diameter are formed, whereby little or almost no pressure losses occur and the overall efficiency can be increased.

The device designed as a pipe silencer can be arranged according to a first embodiment by the receiving device to the inlet nozzle or to the outlet nozzle, as for example for a device designed as a fan according to 5 is described in more detail. Alternatively, the device designed as a pipe muffler can be attached to the inlet nozzle and / or to the outlet nozzle by means of a plug connection. As a result, the assembly can be further simplified and shortened in time.

The invention and further advantageous embodiments and developments thereof are described in more detail below with reference to the examples shown in the drawings and explained. The features to be taken from the description and the drawings can be applied individually according to the invention individually or in combination in any combination. Show it:

1 a perspective view from the front of the air duct device according to the invention with a fan,

2 a perspective rear view of the air duct device according to 1 .

3 a schematic partial section of the air duct device according to 1 .

4 a schematically enlarged view of the detail "X" according to 3 .

5 a schematically enlarged view of the detail "Y" according to 3 .

6 a schematic partial section of an air duct device according to the invention with a pipe muffler

7 a schematically enlarged view of the detail "Z" in 6 ,

In 1 is a perspective view from the front of a first embodiment of an air duct device 11 shown. The 2 shows a rear perspective view of the air duct device 11 according to 1 , The air duct device 11 includes an air duct element 12 which is a housing 13 with an upstream end face 14 and a downstream end face 15 having. This case 13 For example, is rectangular in shape and has four circumferential and juxtaposed side walls 16 on. On each end flange elements are provided, which are provided for easy integration into an air duct on a plurality of air channel elements. Alternatively, the air duct element may also have a round housing.

In the case 13 is a device 17 positioned. This device 17 is in this embodiment, a fan and is below as a fan 20 designated. The ventilator 20 has an inlet opening 18 on, to the upstream side 14 is aligned and an outlet opening 19 facing the downstream side 15 is aligned. The longitudinal axis of the fan 20 lies in the flow direction of a flow through the air channel element 12 ,

At an upstream side 14 of the housing 13 is an end wall 21 with an inlet opening 22 provided, which with the inlet nozzle 18 of the fan 20 communicates. Downstream is on the air duct element 12 another front wall 23 with an outlet opening 24 provided, which with an inlet nozzle 19 of the fan 20 communicates. By this configuration of the air channel element 12 is the case 13 completely closed except for a flow channel 25 that is through the fan 20 which extends with the inlet opening 22 and the outlet opening 24 communicates.

The ventilator 20 is by at least one receiving device 26 in the air duct element 12 arranged and to the inlet opening 22 and outlet opening 24 the front wall 21 . 23 positioned.

In 3 is a schematic sectional view of the air channel element 11 shown. For example, as a fan 20 a diagonal fan is provided, which is described in more detail below. Alternatively, other devices, such as an axial fan or the like, can be used.

The diagonal fan has an outer housing section 27 on, in particular, comprises a housing shell and encloses a circular cylindrical straight cylinder interior. The diagonal fan has a diagonal impeller 28 , the upstream of a suction unit 29 assigned. Downstream of the diagonal impeller is a guide 30 and then on the same a diffuser 31 formed within the diagonal fan. The diffuser 31 is through a blow-out unit 32 educated. The by diagonal impeller 28 through the diagonal fan guided gaseous flow medium flows around a central interior of the diagonal fan, the inside is demarcated, creating a support disc 33 of the diagonal impeller 28 and a to the support disk 33 streamlined subsequent intermediate jacket 34 is formed. The support disk 33 curves downstream in the axial direction, so that this streamlined at the aligned in the axial direction intermediate jacket 34 abuts. The flow medium thus flows radially outward on the support disk 33 and the intermediate coat 34 past.

The diagonal impeller 28 has circumferentially distributed blades 36 , with one side on the support disk 33 are attached. Opposite have free blade ends 37 the blades 36 to a peripheral surface 39 a cover disk 40 , which according to the embodiment attached to the outer blade ends and as a rotating cover plate 40 is trained. Alternatively, the cover disc 40 also on the housing section 27 be attached. The shovels 36 For example, profiled in cross section and three-dimensional wound or profiled in cross section and twisted, so that the surfaces are not developed unwound. The downstream inlet edges of the blades 36 are aligned approximately perpendicular to the flow direction of the inflowing flow medium and provided with a fillet. The downstream edge of the blades 36 is also aligned perpendicular to the flow leaving diagonal flow. The cover disk 40 can be a piece of the inlet nozzle 18 form. Alternatively, the inlet nozzle 18 , as shown in the embodiment, on the housing portion 27 be attached and the cover disc 40 embrace or carry, allowing a streamlined transition from the suction unit 29 and to the guide 30 given is. Unless the inlet nozzle 18 and the cover disk 40 are formed separately, resulting in an intermediate annular gap, which can be sealed by a sealing element. Alternatively, such an annular gap may also be designed as a flow labyrinth.

The diagonal impeller 28 leaving flow then flows through the area of the guide 30 , In this section of the diagonal fan are between the intermediate jacket 34 and the housing section 27 circumferentially distributed stationary vanes 45 arranged. Through the vanes 45 becomes the helical diagonal direction of the diagonal impeller 28 leaving flow deflected in an axial flow direction. Just like the shovels 36 of the diagonal impeller 28 are also the vanes 45 profiled in the present example and trained three-dimensional wound. Alternatively, with the blades 26 and / or the vanes 45 also be dispensed with the profiling.

In the from the support disk 33 of the diagonal impeller 28 or from the intermediate coat 34 the guide 30 formed interior 47 there is an engine 50 , the diagonal wheel 28 by means of a drive shaft 51 drives. The motor 50 is flanged to a motor holder extending from the intermediate sheath 34 in the interior 47 extends into it.

Following the guide 30 is the downstream side of the diffuser 31 educated. The diffuser 31 is provided by an upstream enlarged flowring channel between an engine cover 54 and a housing wall of the blow-out unit 32 realized constructively. The engine cover 54 is by means of several screws, not shown here on the intermediate jacket 34 the guide 30 attached and closes the interior 27 downstream.

The support disk 33 of the diagonal impeller 28 can via an adjusting device not shown to the engine 50 , in particular to the drive shaft, be attached, so that the setting of a gap between the free blade ends 37 of the diagonal impeller 28 and the peripheral surface 39 the cover disk 40 is possible.

The recording device 26 for the arrangement of the fan 20 in the air duct element 12 , in particular of the diagonal fan, is described below with reference to 4 and 5 shown in more detail, which is a schematically enlarged detail view "X" and detail view "Y" according to 3 demonstrate.

In 4 is the schematically enlarged detail view "X" of the receiving device arranged upstream 26 shown. On the housing section 27 of the fan 20 is in the direction of flow extending a connecting portion 61 arranged, which by means of a groove 62 separated from the housing section 27 is trained. The groove 62 and the connecting section 61 can be integral with the housing section 27 be formed. At the inlet opening 22 the front wall 21 is further a connection section 63 molded or formed in the direction of the connecting portion 61 of the housing section 27 has. By at least one connecting element 65 the receiving device 27 become the connecting sections 61 . 63 assigned to each other and fixed to each other. The connecting element 65 can for example be designed as a clamping or clamping element, in particular as a tension band, which - as in 1 is shown - is clamped, for example by a screw, so that the connecting portions 61 . 63 are fixed to each other. Between the circumferential front edges 66 the connecting sections 61 . 63 can be a damping element 67 be positioned so that the front edges 66 under lower Bias to each other and through the damping element 67 can be arranged separately to each other. Furthermore, additionally or alternatively, between the connecting element 65 or the strap and the respective adjoining connecting sections 61 . 63 also a damping element 67 be provided so that a vibration-decoupled recording of the connecting portion 61 from the housing section 27 to the connection section 63 the front wall 21 is possible - ie from the fan 20 to the front wall 21 of the air guide element 12 , Preferred is both between the end edges 66 and the connecting sections 61 . 63 as well as between the connecting sections 61 . 63 and the connecting element 65 a damping element 67 intended. In the embodiment according to 4 is the front edge 66 of the connection section 61 for example, formed by the fact that at the upstream end of the connecting portion 61 a folded portion of the inlet nozzle 18 attacks, over which the inlet nozzle 18 to the connection section 61 or housing section 27 connected is. Instead of this outer clasping of the connection section 61 through the folded edge of the inlet nozzle 18 The folded edge can also be on the inside of the connecting section 61 be arranged so that the front edge of the connecting portion 61 the front edge 66 of the connection section 63 is opposite.

In addition, a ring element between the inlet opening 22 and the inlet nozzle 18 be positioned so that from an entrance edge 58 the inlet opening 22 a continuous transition to the curved surface of the inlet nozzle 18 given is. Such a ring element can also by the connecting element 61 with clamped or at the connecting portion 63 and / or the inlet nozzle 18 be plugged or fastened.

For easy installation and correct arrangement of the connecting element 65 is the circumferential groove 62 provided so that a front-side contact of the connecting element 65 at the groove 62 given is.

In 5 is schematically enlarged the detail "Y" shown, which is the inlet-side receiving direction 26 enlarged represents.

This downstream arranged receiving device 26 and the arrangement and positioning of the connecting sections 61 . 63 in principle correspond to the inclusion of the fan 20 on the inflow side according to 4 , Deviating from 5 is that the inlet nozzle 18 eliminated. Consequently, the front edges 66 the connecting sections 61 . 63 arranged directly opposite each other. At the in 5 illustrated embodiment is the connecting element 65 the receiving device 26 on the outsides of the connecting sections 61 . 63 arranged so that on an inside 64 of the flow channel 25 a closed flow surface is formed. Preferably, the damping element 67 designed such that this between the end edges 66 lies, but not over the front edges 66 inside in the flow channel 25 protrudes into it.

Alternatively, the connecting sections 61 . 63 additionally have a portion which is radially outward of the flow channel 25 is considered bent, so that these two connection portions are adjacent to each other and can be connected to each other, for example by screw or clamp connections, such as a clamp.

In the case 13 of the air duct element 12 can at least partially or partially an insulating 69 be arranged as exemplified in 1 is shown. In particular, the peripheral side walls 16 with such an insulating element 69 lined. This serves to avoid cold spots and the formation of condensation. At the same time, such an insulating element 69 also serve for further sound reduction.

A side wall 16 is opposite the case 13 as a revision cover 71 ( 1 ), for example by releasable fasteners 72 , removable, allowing accessibility inside the housing to the fan 20 even after installation of the air duct element 12 in adjacent thereto and not shown air duct elements is possible.

Due to the design of the receiving device 26 can the fan 20 floating in the housing 13 of the air duct element 12 be arranged and over the inlet opening 22 the upstream end wall 21 and the outlet opening 24 the downstream end wall 22 be worn. Additional brackets attached to the housing section 27 of the fan 20 attack and with a side wall 16 of the housing 13 are not required. Due to the design of the receiving device 26 can be given an elastic recording, which leads to vibration reduction and thus serves to reduce noise. In addition, damping elements 67 can be used, which allow further noise reduction.

In 6 is a second embodiment of the air duct device according to the invention 11 shown. This air duct device 11 deviates from the first embodiment according to the 1 to 5 to the effect that the device 17 as a pipe silencer 74 is trained. The pipe silencer 74 consists of a housing section 27 with preferably a perforated plate, which on the outer circumference, for example, with a silencer element, in particular a glass wool, wrapped and on this a final protective layer, in particular a film having. This is just an exemplary construction for a silencer. Various other suitable structures are also conceivable. With regard to the design of the air duct device 11 , the air duct element 12 , the recording device 26 as well as the integration of the pipe silencer 74 over the receiving device 26 in the air duct element 12 as well as all other features and embodiments that are among the 1 to 5 are described, also apply to this pipe silencer 74 , In particular, in the embodiment of the pipe silencer 74 the receiving device 26 according to the detail "Y" in 5 both downstream of its positioning in the air duct element 12 and provided on the inflow side. An alternative embodiment of the receiving device is described below in 7 described.

The air duct device 11 according to the 1 to 5 which has a fan 20 absorbs and the air duct device 11 according to 6 , which the pipe silencer 74 includes, preferably have the same connections, so that the air duct means 11 be connected in a simple manner to each other to an air duct. As a result, an air duct device 11 with a pipe silencer 74 before and / or after the air duct element 12 with the fan 17 be positioned. The diameter of the pipe silencer is preferred 64 the same size as the housing section 27 of the fan 20 , so that a continuous flow channel is created when juxtaposing these two modules, without causing pressure losses.

This embodiment also has the advantage that the air duct elements 12 can be formed as a modular unit, which optionally with a fan 20 or pipe silencer 74 can be equipped.

In 7 is schematically enlarged the detail "Z" in 6 shown. This detail shows an alternative embodiment of the receiving device 26 to the 4 and 5 , At the pipe silencer 74 can the downstream side 15 In analogy to 5 be constructed, that is, the downstream side 15 an end wall 23 having a curved inwardly extending outlet nozzle 19 includes, to which the connecting portion 63 followed. Between the side wall 16 and the connection section 63 the outlet nozzle 19 becomes a front end portion of the pipe silencer 74 inserted, so that a radially encircling edge portion of the connecting portion 61 forms the connecting section 63 engages behind. With this configuration, a simple and quick installation is possible because the end wall 63 only on the pipe silencer 74 attachable or vice versa, so that subsequently the end wall 23 detachably connected to a frame or frame structure not shown, in particular screwed, can be. Alternatively, a riveting may be provided.

The above comments on the detail "Z" according to 7 were only for example on the downstream side 15 discussed. The same applies to the upstream side 14 ,

The above-described features may be essential to the invention in each case as well as in any combination with each other.

Claims (15)

Air duct device with an air duct element ( 12 ), which is a housing ( 13 ), in which at least one device ( 20 ) is arranged, which is traversed by a gaseous medium whose inlet nozzle ( 18 ) to the upstream side ( 14 ) of the housing ( 13 ) and its outlet nozzle ( 19 ) to its downstream end face ( 15 ) of the housing ( 13 ) is aligned, with a on the upstream side ( 14 ) arranged end wall ( 21 ), which has an inlet opening ( 22 ), which the inlet nozzle ( 18 ) of the device ( 17 ), characterized in that at a downstream end face ( 15 ) of the housing ( 13 ) an end wall ( 23 ) is arranged, which an outlet opening ( 24 ), which in an outlet nozzle ( 19 ) of the device ( 17 ) passes over. Air duct device according to claim 1, characterized in that the device ( 17 ) by means of at least one receiving device ( 26 ), in particular elastic receiving device, at the inlet opening ( 22 ) of the front wall ( 21 ) and the outlet opening ( 24 ) of the front wall ( 23 ) is arranged. Air duct device according to claim 1, characterized in that the receiving device ( 26 ) at least one connecting element ( 65 ), which the inlet nozzle ( 18 ) and inlet opening ( 22 ) and / or the outlet nozzle ( 19 ) and the outlet opening ( 24 ) are positioned to each other. Air duct device according to claim 3, characterized in that the at least one connecting element ( 65 ) on an outside of the inlet nozzle ( 18 ) and inlet opening ( 22 ) and / or on an outer side of the outlet nozzle ( 19 ) and outlet opening ( 24 ) is arranged. Air duct device according to one of the preceding claims, characterized in that the inlet nozzle ( 18 ) and inlet opening ( 22 ) and / or the outlet nozzle ( 19 ) and outlet opening ( 24 ) each have a connecting portion which outside the flow cross-section of the fan ( 20 ) and at least partially assigned to each other. Air duct device according to claim 1, characterized in that the inlet nozzle ( 18 ) and inlet opening ( 22 ) and / or the outlet nozzle ( 19 ) and outlet opening ( 24 ) each have a connecting section ( 61 . 63 ) whose inside ( 64 ) a portion of the flow channel ( 25 ) in the housing section ( 27 ) of the fan ( 20 ) form. Air duct device according to claim 3, characterized in that the at least one connecting element ( 65 ) is designed as a releasable clamping or clamping element, in particular as a clamping band, or as a screw or clamp element. Air duct device according to claim 6, characterized in that the end edges ( 66 ) of the connecting sections ( 61 . 63 ) of the inlet nozzle ( 18 ) and inlet opening ( 22 ) and / or the outlet nozzle ( 19 ) and outlet opening ( 24 ) are assigned to each other in the manner of a butt joint. Air duct device according to claim 6, characterized in that between the end edges ( 66 ) of the connecting sections ( 61 . 63 ) of the inlet nozzle ( 18 ) and inlet opening ( 22 ) and / or the outlet nozzle ( 19 ) and the outlet opening ( 24 ) at least one damping element ( 67 ) is provided. Air duct device according to claim 1, characterized in that between an outer side of the connecting sections ( 61 . 63 ) of the inlet nozzle ( 18 ) and the inlet opening ( 22 ) and / or the outlet nozzle ( 19 ) and the outlet opening ( 24 ) in which at least one of the connecting sections ( 61 . 63 ) engaging connecting element ( 65 ) at least one damping element ( 67 ) is provided. Air duct device according to claim 1, characterized in that the housing ( 13 ) of the air channel element ( 12 ) a removable inspection cover ( 71 ) having. Air duct device according to claim 1, characterized in that in the housing ( 13 ) at least one insulating element ( 69 ) is arranged. Air duct device according to claim 1, characterized in that the device ( 17 ) as a fan ( 20 ), in particular a radial or axial fan, is formed. Air duct device according to claim 1, characterized in that the device ( 17 ) as a pipe silencer ( 74 ) is trained. Air duct device according to claim 14, characterized in that the pipe silencer ( 74 ) to the inlet nozzle ( 18 ) and / or to the outlet nozzle ( 19 ) with a plug-in connection ( 76 ) receiving device ( 26 ) is arranged.

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