DE1010395B - Rotatable ventilation nozzle, especially for windshields - Google Patents

Description

Rotatable ventilation nozzle, especially for windshields For the Heating of motor vehicles is known to be permanently installed for the air outlet Use nozzles that expand in the shape of a trumpet and provide air baffles are. However, these nozzles do not allow a completely uniform heating of larger ones Areas, such as the windshield of buses or the like. Still are they adjustable so that they z. B. used in summer as a fan for the driver can be.

Other known devices are guided along the window edges Pipes provided with outlet openings for hot air, which are larger towards the end of the pipes will. This type of heating requires separate laying of pipelines at the places to be heated in the vehicle. An adjustability of the out of the pipes exiting air jets, for example for cooling, in the interior of the car is also not possible.

In addition to the well-known rotatable built-in fans, they are also S-shaped trained fan pipes with enlarged inlet and outlet openings, the 360 ° are rotatable. These devices serve exclusively for the supply of fresh air, they also result in a strongly swirled and dispersed air jet from only short range.

In contrast, in order to improve the air flow of the supplied air, is according to the invention a rotatable ventilation nozzle on one or both sides with narrow Air outlet slots are provided, the width of which is from the lower to the upper edge of the nozzle steadily or stepwise decreases and the on a circular arc-shaped section are arranged, which extends from the horizontal to the vertical substantially.

The rotatable air outlet securing a fan-shaped air outlet is useful Nozzle body from two shell-shaped halves joined together, in which already at the production of the shells formed the profiles for the air outlet ducts are.

All-round rotatability of the nozzle body is achieved by that the lower portion of the nozzle body is tubular and on a likewise tubular holder by means of approaches of a snap ring, which in a Engage annular bead of the nozzle body, is held.

The drawing illustrates an embodiment of the subject matter of the invention, namely Fig. 1 shows a side view of the nozzle body and Fig. 2 shows a view on the air outlet slot, with part of the nozzle body broken open and im Section is shown.

The nozzle body consists of a cylindrical part 11, which is in a flattened section 12 merges with a curved guide on one side. on the elbow, which runs roughly as a segment of a circle, is the air outlet part 13 provided. If the air is to be discharged on two sides at the same time, see above the nozzle body becomes the specified shape with a mirror image nozzle body united. The air outlet slot then extends approximately over a semicircle.

The cylindrical part 11 of the nozzle body is on a tubular Holder 21 rotatably mounted and for this purpose with an externally closed annular bead 22 provided, in which corresponding lugs 24 one inside the tubular Retainer 21 arranged snap ring 23 engage. To penetrate the approaches 24 a slot 25 is provided in the holder 21. To attach the holder 21 to the A bulkhead, windshield and the like are provided with an annular flange 26 with a corresponding one Screw holes 27. The nozzle body 11 can at its lower part with the closed Be provided or this is attached in an intermediate ring 28 on which the nozzle body 11 is attached. The guide pins 24 are advantageous of semicircular rivets that are held in the snap ring 23. You reach into the closed one Annular bead 22 and secure the nozzle body 11 against unintentional pulling off from the bearing ring 21, while on the other hand the rotatability through 360 ° is ensured.

The air outlet part 13 is preferably formed by webs 14 in individual nozzles 15 divided by a flat rectangular cross-section, which decreases with decreasing Width from the horizontal to the vertical extend approximately semicircular. the Nozzles 15 consist of joined but separate air ducts approximately rectangular Cross-section, which are placed on the dome-like nozzle body 11. The latter consists preferably of two bowl-shaped halves, which are in a vertical Middle cut by welding, soldering or the like. Are connected .and: the reason of their special shape after joining or folding the finished nozzle body 11 result. This enables simple production.

Due to this special training, the exiting air gets to the different cross-section widths different speed and range. So the one exiting horizontally with the greatest width and the lowest speed is sufficient Air jet z. B. across the window width of the windshield, during the after Air stream directed upwards emerges at a much higher speed and only has a shorter range, but safely sweeps the height of the pane. Will one or more nozzles designed according to the invention directly onto the windshield directed, the result is a point-like or line-shaped, frost-free one with a sure effect Zone. Thanks to the tightly packed strip of hot air, it is possible to use the entire To bring the heating power to effect in lines on the pane surface. Even fan-shaped width distribution is possible. It can be so, supported by the rotatability of the nozzle, in each case the most favorable ratios to keep the clear Create a windshield in the driving area. The range of the air jets is as it turned out, essentially not on the speed with of these emerge, but rather on their strength, that of the width of the outlet openings depends, for sure. An explanation of this phenomenon can be seen in that a stronger air jet is subject to less turbulence than a thinner one Air jet with a relatively high exit speed. Here is also to take into account that the range of the thermal effect depends on the one carried in the air stream The amount of heat depends on, despite the increased speed in a weaker air jet is less.

A ventilation nozzle according to the invention or two identical devices will be mounted inside the car in front of the windshield. The air can either by stagnant wind or from the car fan or a special fan as cold and Warm air can be supplied. As a clear window nozzle, the nozzle then enables a complete Keeping the windshield clear in freezing weather. The part 13 of the nozzle body is then parallel to the windshield or is directed at an angle to it. There is none There is a risk of frost, so the nozzle can be used, for example, to heat the Driver's cab of a truck or used as a fan for the driver.

In addition to the windshield, the nozzles can also be placed on any Places, e.g. B. in a bus as a single fan for each passenger, or in another Way to be distributed.

Claims (1)

PATENT CLAIMS: 1. Rotatable ventilation nozzle, in particular for windshields, with a nozzle body which can be swiveled through 360 °, characterized in that the nozzle body (11, 12, 13) is provided on one or both sides with narrow air outlet slots (15) which can be used to coat a larger area are formed from the lower to the upper nozzle edge with a continuously decreasing width and are arranged on a circular arc-shaped section which extends essentially from the horizontal to the vertical. z. Ventilation nozzle according to Claim 1, characterized in that the air outlet nozzles (15) are designed to be flat rectangular on the outer curve of a bend-like, ogival tube section (11). 3. Ventilation nozzle according to claim 1 and 2, characterized in that the fan-like nozzle body (11 to 13) is assembled from two shell-shaped halves which at the same time have the profiles for the air outlet ducts (15). 4. Ventilation nozzle according to claim 1 to 3, characterized in that the pipe section (11) is rotatably mounted on a likewise tubular holder (21) by means of lugs (24) of a snap ring (23), .die through a slot (25) of the holder (21) reach through. 5. Ventilation nozzle according to claim 1 to 4, characterized in that lugs (24) provided with semicircular heads engage in closed, annular guide beads (22) of the pipe section (11) or an intermediate ring (28). Publications considered: German Patent Nos. 521583, 671957; Austrian Patent No. 174821; Swiss Patent No. 198 581; U.S. Patent Nos. 2,300,723, 2,045,826.