DE3814233A1 - Device for mixing flow-medium streams - Google Patents

Abstract

In a device for mixing flow-medium streams, preferably air streams, in particular for ventilation, heating or air-conditioning installations, having a mixing chamber (17) provided with at least one outlet opening (15) and a plurality of inset openings (11, 12), good mixing of a plurality of flow-medium streams, with low pressure loss and full impingement of the entire cross-section available, is achieved by providing, in the region between the inlet openings (11, 12) and the outlet opening (15), at least one mixing wheel (18) which is designed in the form of a turbine wheel. <IMAGE>

Description

The invention relates to a device for mixing Fluid flows, preferably air flows, especially for ventilation, heating or air conditioning rungseinrichtung, with one with at least one Aus inlet and several inlet openings provided mixing chamber.

In a known mixing device mentioned above Type for mixing fresh air and circulating air in ventilation and air conditioners are so-called in the mixing chamber Mixing tubes installed. This is a Package of spaced apart, la  plate-shaped flat tubes that have an inner to which one inlet port and one outer, to the other one limit the flow path connected and which are diagonally bevelled on the outlet side. Night egg lig here is that only two air flows with each other can be mixed. Another, completely be particular disadvantage is the fact that the mixing tubes also form a significant flow resistance and accordingly cause a significant loss of pressure stuff. In addition, that in the known arrangement Fluid does not necessarily flow across the entire cross cut the mixing chamber is distributed so that Er Aim of such an issue guide plates and the same are needed, which leads to a further Druckver lust can lead. Apart from that, the one at known arrangement achievable mixing not fully constantly and reliably enough.

Based on this, it is therefore the task of the present the invention while avoiding the described after allocate a mixing device of the type mentioned create that with simple and inexpensive means not just an excellent mix of several streams medium flows, but also through comparatively low pressure drops and an application of the entire available Cross-section allows.

This object is achieved in that in the area between the inlet openings and the outlet Opening at least one in the form of a turbine wheel  formed mixing wheel is provided.

The mixing wheel provided here, which with freely rotatable Storage in an advantageous manner by passing it Flow is rotated, chopped and ver whirls the current passing through it and manages it an excellent mixture. In case of a freely rotatable bearing in the form of a turbine wheel trained mixing wheel results in an advantageous A particularly simple and inexpensive construction, since no drive device is required. There none of the turbine wheel acting as a mixing wheel Performance is decreased, also in the case of a contract drives the turbine wheel through the currents passing through it neglect the pressure losses caused thereby casually small. Another advantage is that that practical with the help of the mixing wheel according to the invention machine the entire clear cross section of the mixing chamber bar is what is even after mixing Distribution of the flow medium over the entire cross cut the mixing chamber and thus a cheap Beauf subordinate aggregates guaranteed. A very special advantage of the measure according to the invention is seen in the fact that the invention Mixing wheel, especially when using a freely rotatable stored turbine wheel, light and easy in already be standing systems can be installed without any intervention make to the inlet or outlet cross sections have to. In addition, with the help of the invention Mixing wheel one of the number and cross section of the existing inflow openings completely independent, good  Mixing can be achieved.

In an advantageous further development of the higher dimension As already indicated, the mixing wheel can be taken as free rotatably mounted, through which it flows driving turbine wheel be formed. This measure me results in a very simple and compact design, which is particularly suitable for retrofitting.

In a further embodiment of this idea, the door Pinwheel as a wind turbine, preferably an axial wind turbine forms what is a most simple, clear and yet robust construction results.

Advantageously, the turbine can be sharp-edged have wings with outer corners. The These measures support the mixing effect.

Another advantageous advanced training for the parent Measures can consist of several, preferably two mixing wheels arranged one behind the other are provided are. This can also in the case of unfavorable Ver achieve intensive mixing. Purpose moderately can the mixing wheels arranged one behind the other an asymmetrical to support the mixing effect Arrangement of their wings as well as different wings have setting angle.

To achieve a high level of operational reliability also with unfavorable flow conditions, such as too low Flow energy and / or unfavorable pressure drop, can the mixing wheel or at least one mixing wheel a constraint  be assigned to the drive device.

Further advantageous configurations and expedient There are further training courses for the higher-level measures from the description of an embodiment below game based on the drawing in connection with the rest subclaims.

The only figure in the drawing shows a schematic Representation of a ventilation unit.

The ventilation unit on which the drawing is based consists of a fan with a schematically indicated Ven 1 , a box-shaped housing having a fan part 2 , an upstream of this, provided with heat exchangers 3 conditioning part 4 and an upstream vorgeordne th, with a filter wall 5 provided filter part 6 . At the fan part 2 , a kanalför trigger 7 connects downstream. The heat exchangers 3 , with which the air flowing past can be heated or cooled, and the filter wall 5 extend over the entire cross section of the associated box-shaped housings, which are open to form corresponding passages in the region of the facing cross sections.

The present ventilation unit is supplied with fresh air drawn in from outside and with recirculated air extracted from the room to be ventilated or the rooms to be ventilated, as indicated by partial streams 8 and 9, respectively. These partial flows are mixed with each other to achieve a good efficiency of the heat exchanger 3 and distributed over the entire cross-sectional area of the heat exchanger 3 , which, as indicated, corresponds approximately to the clear cross-sectional area of the box-shaped housing. For this purpose, a mixing part 10 , which likewise has a box-shaped housing and has an open passage upstream of the filter part 6, is seen, into which the partial flows 8 and 9 open. Here too, the box-shaped housing of the mixing part 10 is provided with a plurality of inlet cross sections 11 and 12 , respectively, in the region of the housing corners facing away from the filter part 6 , to which corresponding inflow channels 13 and 14 are attached. In most cases, two inlet cross sections are sufficient for fresh air or circulating air. If a mixture of more than two partial flows should be intended, for example two air flows extracted from different rooms with a fresh air flow or the like, several inlet cross sections with attached inflow channel can also be provided, as shown in the drawing using a third, indicated by dash-dotted lines Inlet cross-section assigned, third inflow channel is indicated.

The inlet cross sections 11 , 12 arranged in the region of opposite corners of the box-shaped housing of the mixing part 10 extend only over part of the respectively assigned side surface, in the exemplary embodiment shown approximately over the entire width and only slightly less than half the height or length of the housing the mixing part 10 . The fil side open connection side of the box-shaped hous ses of the mixing part 10 forms an outlet cross section 15 , which practically covers the entire cross-sectional area of the housing. This outlet cross section 15 is having an equal distribution and the same mixing ratio over the entire cross-sectional area, which impacts the partial flow 8 , 9 containing the total flow 16 . The interior of the box-shaped housing of the mixing part 10 accordingly forms a mixing chamber 17 in which the partial flows 8 , 9 are mixed and distributed.

To accomplish a particularly good mixing of the two partial flows and a particularly uniform cross-sectional distribution of the total flow, the mixing chamber 17 is provided with an outlet cross section 15 extending upstream over the entire chamber cross section upstream mixing wheel 18 , which is ausgebil det in the manner of an axial turbine wheel or wind turbine . Such a mixing wheel can be set in rotation by the action of the flow passing through it. In the illustrated embodiment, the mixing wheel 18 is driven by means of an associated drive motor 23 . However, the positive drive is supported by the flow, so that a comparatively small motor power and size are sufficient.

The mixing wheel 18 is provided with on a central hub 19 on ordered wings 20 . The hub 19 can be received directly on the shaft 22 of the drive motor 23 , which can be received on a bearing bracket 21 on the housing side. A flying arrangement of the shaft 22 with the mixing wheel accommodated thereon would be conceivable. In the illustrated embodiment, the shaft 22 is supported to achieve a particularly high stability in the region of its end remote from the engine. The bearing block 21 is accordingly formed in two parts. In the case of a mixing wheel designed as a flow-driven turbine wheel, the hub 19 could simply be rotated freely on an axis accommodated on the bearing block on the housing side. In any case, the shaft 22 or the axis receiving the hub is perpendicular to the outlet cross-section 15 , so that there is a section 15 parallel to the outlet cross-section arrangement of the mixing wheel 18 . The diameter of the mixing wheel 18 corresponds almost to the clear cross-sectional width of the mixing chamber 17 , of course less a sufficient range of motion.

The distance of the mixing wheel 18 from the outlet cross section 15 is smaller than the distance of the inlet cross sections 11 , 12 from the outlet cross section 15 . This design and arrangement of the mixing wheel 18 ensures that none of the mixing wheel 18 bypass flow between the A cross sections 11 and 12 and the outlet cross section 15 can form.

The mixing wheel 18 is driven by the penetrating medium flowing from the inlet cross-sections 11 , 12 to the outlet cross-section 15 and / or the motor 23 and, as a result of this rotation, causes a chopping and swirling of the flow acting on it, which leads to an intensive mixing of the partial flows 8 , 9 and thus leads to a uniform temperature and mass distribution of the total current 16 over the entire cross section.

In the exemplary embodiment shown, the mixing wheel 18 is designed in the manner of an axial wind wheel, the blades 20 of which are fastened to the central hub 19 and can simply be designed as sheet metal strips which are obliquely bent over the length of the blades. This results not only in a simple and inexpensive producibility, but advantageously also sharp wing edges with outer corners, which can support the desired mixing and swirling. The provided in the mixing part 10 bracket 21 can be easily formed by one or two opposing, attached to a Ge housing wall of the mixing part 10 bracket GE.

The mixing wheel 18 is driven either exclusively by the flow passing through it, or in combination with a drive device in the form of the drive motor 23 which effects a forced drive.

Normally, one comes out with a mixing wheel 18 , as in the embodiment shown. But it would also be conceivable, in particularly difficult cases, several mixing wheels 18 arranged one behind the other can be accommodated on a common bearing block, but should be mounted independently of one another, so that independent rotary movements of the individual mixing wheels can take place, which affects the mixing and Distribution effect increased, whereby the same or different drive options can be realized. Here it would be conceivable to drive one of the mixing wheels solely through the flow and to couple the others with a positive drive. When using arranged behind one another in the manner of mixing wheels Axialwindrädern or the like of the blades 20 and asymmetri specific arrangements can be provided of the wings 20 to further improve the mixing effect under schiedliche angle.

Claims (10)

1. Device for mixing fluid flows, preferably in front of air flows, in particular for ventilation, heating or air conditioning devices, with egg ner with at least one outlet opening ( 15 ) and several inlet openings ( 11 , 12 ) provided mixing chamber ( 17 ), characterized that in the region between the inlet openings (11, 12) and the outlet opening (15) of a turbine wheel being imaginary mixing wheel (18) is provided at least one on the type /. 2. Device according to claim 1, characterized in that the mixing wheel ( 18 ) as a freely rotatably mounted, through which it can be driven flow turbine wheel, preferably axial turbine wheel, is formed. 3. Device according to one of the preceding claims, characterized in that the diameter of the mixing wheel ( 18 ) corresponds approximately to the inside width of the mixing chamber ( 17 ). 4. Device according to one of the preceding claims, characterized in that the mixing wheel ( 18 ) in the manner of a wind turbine, preferably an axial wind turbine, is formed out. 5. Device according to one of the preceding claims, characterized in that the mixing wheel ( 18 ) has sharp-edged, preferably provided with outer corners wings ( 20 ). 6. The device according to claim 5, characterized in that the wings ( 20 ) are made from ausgebil Deten as stampings, bent sheet metal strips. 7. Device according to one of the preceding claims, characterized in that several, preferably two, consecutively arranged mixing wheels ( 18 ) are seen before. 8. The device according to claim 7, characterized in that the consecutively arranged mixing wheels ( 18 ) are mounted independently of one another. 9. Device according to one of the preceding claims 7 to 8, characterized in that the one behind the arranged mixing wheels ( 18 ) have an asymmetrical arrangement of their blades ( 20 ) and / or different angles of attack of their blades ( 20 ). 10. The device according to claim 1, characterized in that the mixing wheel ( 18 ) or at least one mixing wheel ( 18 ) is assigned a positive drive device ( 23 ).