EP0074486A1 - Slide plate ventilation with a fan driven by a motor - Google Patents

Abstract

1. Slide valve ventilation system with a motor-driven fan (16) the ventilation slide valve (6) of which is adjustable by means of a drive mechanism, a drive member (22, 23) of the drive mechanism being at the same time an actuation member for an electric switching device for an electric motor of the fan (16), or being connected in such a manner that the electric motor running at full speed is associated with the closed valve ventilation system, the idle system and the fully open ventilation system, the drive member (22, 23) being connected in motion with a sliding contact (21) of a potentiometer (20) of the electric switching device at least indirectly, which potentiometer is mounted in the electric circuit of the electric motor, the sliding contact (21) being connected at least indirectly through a rotatably mounted control member (34) with the drive member (22, 23), characterised in that the ventilation slide valve (6) forms part of a level, flat slide valve ventilation system and has a control slit (14, 37) which in association with an eccentrically arranged control pin (30, 36) of the drive member (22, 23) forms a sliding control arrangement (32, 40) for the conversion of the rotary motion of the drive member into a sliding motion of the ventilation slide valve (6), a specific speed of the electric motor being associated with each specific intermediate position of the sliding control arrangement (32, 40).

Description

The invention relates to a slide ventilation with a. motor-driven blower, the ventilation slide of which can be moved by means of a drive mechanism. Slider vents of the type mentioned at the outset as well as fanless slider vents in various designs are already known. The variants with blowers have the advantage that, even in relatively windless weather, the space equipped with such a slide ventilation can be quickly and effectively ventilated and / or ventilated. However, people sensitive to draft feel this strong aeration or ventilation as unpleasant and you usually have only the choice between inadequate or associated with strong draft ventilation.

The object of the invention is therefore to develop a slide ventilation according to the preamble of claim 1 so that an effective, but adapted to the needs ventilation is possible.

To achieve this object, it is proposed according to the invention that the slide ventilation is designed according to the preamble of claim 1 in accordance with the characterizing part of this claim. The slide ventilation is continuously transferred from the closed position to the fully open position and vice versa via its drive mechanism. Due to the coupling of the drive member according to the invention with an adjusting device for the motor speed of the blower motor, the speed of the blower or fan can now also be changed continuously. Accordingly, the fan runs, for example, when the slide ventilation is half open with a reduced, e.g. half the speed, so that the room can still be adequately ventilated, but a draft effect is not, or at most, hardly observable. At the same time, of course, the air noise is reduced to such an extent that you hardly notice it or at least hardly notice it.

A particularly preferred embodiment of the invention is characterized in that the drive member is movably connected to a slider of a potentiometer which is in the circuit of the electrically driven blower motor, the closed slide ventilation of the stationary blower motor and the fully open slide ventilation of the current one, in particular the one with full Speed running fan motor is assigned. Instead of a potentiometer, other known electrical or electronic elements with a comparable method of operation can also be used with the same advantage. It is only important that the drive member executes a precisely predetermined back and forth movement when opening and closing the slide ventilation and that this can be used to adjust a potentiometer grinder or another "tap" of an electrical or electronic component.

A further development of the invention provides that the drive member is rotatably mounted and its rotary movement can be converted into a displacement movement of the ventilation slide by means of a link control or at least link-like control. Such adjustment mechanisms are already known per se and are characterized by a simple construction, problem-free assembly and robust behavior. They usually also allow the drive to be mounted on the right or left end of the slide ventilation. From this rotation you can now derive the displacement movement of the potentiometer tap in a simple manner, wherein the potentiometer can also have an elongated shape. The sliding contact of the potentiometer is advantageously articulated on a rotatable control element, in particular in the form of a control disk. Depending on the direction of rotation of the latter, the potentiometer sliding contact can be moved back and forth, thus increasing or reducing the blower motor speed.

A further variant of the invention provides that the gate control or the like comprises an eccentrically rotating control pin for the ventilation slide and a control slot of the latter which extends transversely to the direction of displacement of the ventilation slide, the ventilation slide being formed in two parts to form a control plate with a control slot. Because of this two-part design, a section of so-called yard goods can be used for the ventilation slide, which enables the slide ventilation to be produced in any length up to the maximum value of the yard goods. With this section, the control plate is connected so that thrust and tensile forces can be transmitted. At the same time, the possibility of right and left arrangement of the drive is retained. After the control slot is on the control plate, the drive or switch-on element remains for the attachment of the control pin. Otherwise, the control slot does not necessarily have to be an elongated hole act, rather it can also be open on one or two opposite sides. A groove formed by strips or similar elevations is also equivalent to a punched-out control slot.

Führungen verschiebbar gelagert, die zur Führung des Lüftungsschiebers dienen. Deshalb ist sie mit einem abgekröpften, die Zapfenreihe aufweisenden Kupplungsende ausgestattet, welches den randäußersten Steg des Lüftungsschiebers seitlich übergreift.Another embodiment of the invention is characterized in that at least the "ventilation slots" of the ventilation slide are formed by a plurality of rows of holes resulting in a group of holes and the control plate has a row of pins which with a row of holes in the ventilation slide, in particular the outer edge of the associated outer "ventilation slot", is coupled. Accordingly, special measures for coupling the control plate are not necessary even when using yard goods and this special design of the ventilation slots, which prevents the entry of insects. For the rest, the latter is advantageously in

Slidably mounted guides that serve to guide the ventilation slide. That is why it is equipped with a cranked coupling end that has the row of pins and which laterally overlaps the outermost edge of the ventilation slider.

A further embodiment of the invention provides that the control plate has an in particular edge-open, in the direction of displacement extending displacement limiting slot, which together with a stop bolt or the like of the ventilation housing forms a displacement limiting device. Thereby On the one hand, a stroke limitation is achieved and, unless otherwise provided for, an exact maintenance of the two end positions of the ventilation slide. In addition, this enables the ventilation slide to be attached to an openable, in particular hinged, housing cover without the risk that the ventilation slide can be moved into an unsuitable position for the subsequent coupling with the drive in the so-called cleaning position. For the rest, it is again expedient here if two opposing displacement limiting slots are provided, one or the other of which is used depending on the arrangement of the drive on the right or left slide ventilation end.

In a further development of the invention, the rotatably mounted control member or the control disk carries a control cam which interacts with an end switch located in the circuit of the blower motor. The assignment can be made, for example, so that the control cam holds the switch in its open position when the slide ventilation is closed and actuates the switching mechanism as soon as the slide ventilation is partially or fully opened. This switch can also be used to advantageously switch a control lamp on and off, which signals whether the drive motor of the fan is completely switched off or on.

Another variant of the invention provides that the ventilation housing can be opened and the blower with the blower motor and the potentiometer and the control member or the control disk are located in a first housing part, while a second, in particular foldable with the first connected housing part, the ventilation slide wearing. Of course, this second housing part also has the housing ventilation openings which correspond to those of the ventilation slide with regard to their size and their mutual distance. However, they do not necessarily have to be groups of rows of holes, rather they are preferably rectangular openings.

According to another embodiment of the invention, the drive member is mounted on the second housing part and is designed as a twist grip or the like or connected to one in a rotationally fixed manner. In this case, the slide ventilation is opened and closed by hand, and the speed of the blower motor depends on the set opening width of the slide ventilation. In a further development of the invention it is proposed that the free end of the control pin of the link control of the ventilation slide engages in a coupling bore of the control member or the control disk and that this free end is designed as a telescopic member. This is a safety device that ensures that even after opening the slide ventilation for cleaning, inspection or repair after an unintentional or unintentional If the ventilation slider is moved, a correct coupling of the parts separated on this occasion takes place, so that the intended motor speed of the blower is subsequently assigned to each opening width of the ventilation slider. When the free end after closing the Slide ventilation can not enter directly into its guide slot because the correct mutual association ^g meantime verlorengin, then the slide ventilation can still close completely. The telescopic member is then pressed together and the free end of the telescope jumps into its slot at the moment when the rotary handle has been rotated through the required angle in the correct direction of rotation. From this moment, the fan speed can also be changed again using the rotary handle.

Another embodiment of the invention is characterized in that the drive member is mounted on the first housing part and at the same time forms the control member or the control disk or is connected to it in a rotationally fixed manner, the control slot of the link-like control being open at both ends and only by two approaches on the one assigned to the drive member Surface of the control plate is formed. Basically, it is also a construction that is protected against incorrect assembly after opening. If the relative position of the parts to be coupled is not correct, the housing of the slide ventilation cannot be closed, because then the Control pin of the drive member abuts one of the two approaches. Only when you have moved the ventilation slider by the necessary amount of correction, the control pin can step between the two approaches, whereby the correct coupling is made and the valve housing can be closed. The two approaches are one behind the other in the direction of movement of the ventilation slide and they are expediently of the same shape and size. If both are at the same distance from the guides of the ventilation slider, this version is suitable for a construction with a right- and left-handed servomotor. However, if this servomotor has only one direction of rotation, the approaches of the control plate are arranged offset to one another perpendicular to the direction of displacement of the ventilation slide in a further embodiment of the invention. Here too, security against incorrect coupling after opening the slide ventilation is guaranteed without any problems, ie any hinged cover that may be present cannot be closed if the control pin strikes one of the two approaches offset perpendicular to the direction of displacement of the ventilation slide. The drive or control element can be driven in an advantageous manner in both of the above-mentioned embodiments by means of an electric servomotor, in particular, the limit switch which can be actuated by the control cam also being a switch for the servomotor. Finally, it is also very advantageous that the ventilation housing is designed as a soundproof and / or heat-insulated housing. This not only prevents the ingress of outside noise and the formation of a cold bridge in the cold season, but also the transmission of ventilation noise to the inside and impairment of the fan and fan motor when the outside air is particularly cold.

• Figur 1 in perspektivischer Darstellung das rechte Ende einer ersten Ausführungsform der Schieberlüftung mit geöffnetem Lüftungsgehäuse,
• Figur 2 einen Schnitt gemäß der Linie II-II der Fig. 1,
• Figur 3 wiederum perspektivisch eine abgebrochene Darstellung einer zweiten Ausführungsform in geöffnetem Zustand bei etwas verringertem Maßstab,
• Fipur 4 eine maßstabsmäßig der Fig. 3 entsprechende Darstellung der Ausführungsform gemäß Fig. 1 mit einigen in Fig. 1 der übersichtlichkeit wegen nicht gezeigten Einzelheiten und mit einem durch einen elektrischen Stellmotor antreibbaren Steuerglied
• Figur 5 einen Ausschnitt aus Fig. 4 einer dritten Variante der Erfindung,
• Figur 6 eine explosionsartige Darstellung des zweiteiligen Lüftungsschiebers mit angedeuteter Schieberführung.

Exemplary embodiments of the invention are shown in the drawing. Show it:

• 1 shows a perspective illustration of the right end of a first embodiment of the slide ventilation with the ventilation housing open,
• 2 shows a section along the line II-II of FIG. 1,
• FIG. 3 is a perspective broken view of a second embodiment in the open state on a somewhat reduced scale,
• Fipur 4 is a representation of the embodiment according to FIG. 1 corresponding to the scale of FIG. 3 with some in Fig. 1 for clarity details not shown and with a control element driven by an electric servomotor
• FIG. 5 shows a detail from FIG. 4 of a third variant of the invention,
• Figure 6 is an exploded view of the two-part ventilation slide with indicated slide guide.

The slide ventilation has a heat and sound-insulated ventilation housing 1, which consists essentially of a fixed housing part 2 with an approximately U-shaped cross section and a movable housing part designed as a cover 3, which is expediently a hinged cover. After an inclined wall 4 forming the flow channel is firmly connected to the cover 3, that is to say it can be folded out, the interior 5 of the ventilation housing is readily accessible for cleaning and inspection purposes when the cover 3 is open.

On the hinged cover 3, the ventilation slide 6 is slidably mounted in the direction of the double arrow 7. There are also the housing ventilation openings 8 which, according to FIG. 1, have the shape of upright rectangular openings. In contrast, the ventilation openings 9 of the ventilation slide 6 formed from a number of hole groups 10 arranged next to one another, in particular offset in the longitudinal direction. In the exemplary embodiment there are five such rows. The webs 11 between these ventilation openings of the ventilation slide 6 and the housing or the cover 3 are essentially the same size. According to FIG. 6, the ventilation slide is advantageously constructed from two parts, the larger slide part 12, which extends over almost the entire length of the slide ventilation, being a section of so-called yard goods, ie a starting material that is several meters long. The comparatively short part of the ventilation slide forms a control plate 13 with a control slot 14. At its left end in FIG. 6, it carries a row of pins 15, the size and spacing of the pins being matched to the hole size and the hole spacing of the hole groups 10. In this way, a quick and secure non-positive connection of both slide parts is possible.

All embodiments of this slide ventilation are equipped with a blower 16 which is driven by a blower motor, not shown. A blower unit 17, which is only indicated schematically and essentially consists of the blower motor, the fan wheel and a control unit, is located behind the cover plate 18 which is blasted into corresponding holders 19 of the fixed housing part 2. The speed of the blower motor is also controlled by a potentiometer 20 Sliding contact 21 changeable. According to the invention, a drive member 22 (FIG. 3) or 23 (FIG. 4) is at the same time an adjusting member for the motor speed of the blower motor. With the help of the drive element, the opening width of the slide ventilation is determined, ie it can move the ventilation slide from the fully closed to the fully open position and vice versa. At the same time as this shifting movement, the fan speed is changed in such a way that the closed ventilation slide, the switched-off fan motor and the fully open slide ventilation, the fan motor running at maximum speed are assigned. A limit switch 24, which is actuated by a cam 25, is expediently used. For example, the contacts in the limit switch and thus the circuit are open when the cam 25 depresses the plunger 26 of the switch. A control lamp 27 can also be located in the circuit of the blower motor. When it lights up, the blower motor rotates at a speed predetermined by the position of the sliding contact 21. The cam 25 not only switches the circuit for the blower motor, but also that of a servomotor, if the ventilation slide is not moved by hand.

In the embodiment of FIG. 3, the drive member 22 is rotatably mounted on the cover 3. It can be turned by means of a handle, not shown, which is external when the ventilation housing is closed, for example a handle, toggle, handwheel or the like be rotated a predetermined amount. The latter is predetermined by the drive mechanism and is determined so that in one rotational end position the ventilation openings of the housing or cover 3 and the ventilation slide 6 are congruent, while in the other end position they are covered by the webs 11 of the other part. A displacement limitation is advantageously achieved by attaching to the control plate 13, that is to say the short part of the ventilation slide 6, a particularly open-ended displacement limitation slot 28 which extends in the displacement direction 7 of the ventilation slide 6 and which cooperates with a stop bolt (not shown), which is inserted into a corresponding hole in the area of the upper housing guide 29 of the cover 3. In view of the advantageous right and left usability, such a displacement limiting slot 28 is also provided in the embodiment of FIG. 6 at the lower end of the control plate 13.

A control pin 30 is shown eccentrically on the drive member 22, the free end of which is designed as a telescopic member 31. It passes through the control slot 14 of the control plate 13 and thus forms a link control 32. With its help, the rotary movement of the drive member 22 can be converted into a displacement movement of the ventilation slide 6. When the ventilation slide 6 has assumed the shift position provided for this purpose, the telescopic member 31 engages in a bore 33 in one in particular a control member 34 designed as a control disk. Accordingly, the rotary movement of the handle for the ventilation slide adjustment is transmitted to the control member 34 via the plug coupling consisting of the control pin 30 and the bore 33. Because the sliding contact 21 of the potentiometer 20 is connected in an articulated manner to the control member 34, the adjustment of the ventilation slide 6 also causes a displacement of the potentiometer tap.

If the ventilation slide 6 has been accidentally moved when the slide ventilation is open, so that when the cover 3 is closed, the telescopic member 31 does not align with the bore 33, the cover can still be closed completely. However, the telescopic member 31 is pressed against the resistance of a spring, not shown, in the control pin 30. If the drive member 22 is subsequently rotated in the correct direction and by the required amount, the telescopic member 31 jumps into the bore 33 due to the spring tension as soon as the two are aligned. In this way, it is always guaranteed that a certain opening position of the slide ventilation is assigned to a predetermined potentiometer tap and thus to a precisely determined speed of the fan.

In the embodiment of FIGS. 4 and 5, the drive member 23 is mounted and closed on the first or fixed housing part 2 immediately formed as a control member 35. It is driven by an electric servomotor 43 and can sit directly on its drive axis. Its control pin 36, which does not require a telescopic member and therefore does not have one, works together with a control slot 37, which is formed by two cube-like extensions 38 and 39 of the control plate 13 and is therefore open at both ends. This control slot 37 and the control pin 36 also form a link control 40 with which the rotary movement of the control member 35 can be converted into a back and forth movement of the ventilation slide 6. However, as I said, the rotary movement is based on a servomotor of a known type and not directly from the hand of an operator.

Incorrect coupling of the link control is also not possible in the embodiment of FIG. 4. If the ventilation slide has been accidentally moved from its correct position and you subsequently want to close the lid 3, this will not work completely because one of the two lugs 38, 39 then strikes the free end of the control pin 6. The complete closing is therefore only possible if the accidentally adjusted ventilation slide is first returned to its correct position so that the control pin 36 can enter the control slot 37.

The two approaches 38 and 39 of FIG. 4 lie exactly parallel to one another and this enables the use of a right-hand and left-hand servomotor 43. However, if the latter only has a single direction of rotation, it is expedient if the two approaches 41 and 42 5 as shown in Fig. 5 perpendicular to the displacement direction of the ventilation slide 6 against each other. These lugs 41, 42 advantageously have an approximately triangular shape in cross section.

All three variants described - with manual adjustment or servomotor 43 - advantageously manage essentially with the same components, which simplifies or reduces the cost of manufacture and storage.

Claims (15)

1. Slider ventilation with a motor-driven fan, the ventilation slide of which is displaceable by means of a drive mechanism, characterized in that a drive member (22, 23) of the drive mechanism is at the same time an adjusting member for the motor speed of the blower motor. 2. Slider ventilation according to claim 1, characterized in that the drive member (22, 23) with a grinder (21) of a potentiometer (20) is movably connected, which is in the circuit of the electrically driven blower motor, the closed slider ventilation of the stationary blower motor and the fully open slide ventilation is assigned to the running, in particular the blower motor running at full speed. 3. Slider ventilation according to claim 2, characterized in that the drive member (22, 23) rotatably mounted and its rotational movement by means of a link control (32, 40) or at least link-like control in a displacement movement of the ventilation slide (6) can be implemented. 4. Slider ventilation according to claim 2 or 3, characterized in that the sliding contact (21) of the potentiometer (20) is articulated on a rotatable, in particular designed as a control disc control member (34, 35). 5. Slider ventilation according to claim 3 or 4, characterized in that the link control (32, 40) or the like. For the ventilation slide (6) has an eccentrically rotating control pin (30, 36) and one transverse to the direction of displacement (7) of the ventilation slide (6) extending control slot (14, 37) of the latter, the ventilation slide being formed in two parts to form a control plate (13) with control slot (14, 37). 6. Slider ventilation according to claim 5, characterized in that at least the "ventilation slots" of the ventilation slide (6) are formed by several, a hole group (10) resulting rows of holes and the control plate (13) has a row of pins (15) with a row of holes of the ventilation slide, in particular the outer edge of the assigned outer outer "ventilation slot" is coupled. 7. Slider ventilation according to claim 6, characterized in that the control plate (13) has a particularly open edge, in the displacement direction (7) extending displacement limiting slot (28), the bolt or the like. The ventilation housing (1 ) together a displacement limiting device 'bil et. 8. Slider ventilation according to at least one of claims 4 to 7, characterized in that the rotatably mounted control member (34, 35) or the control disk carries a control cam (25) which cooperates with a limit switch (24) located in the circuit of the blower motor. 9. Slider ventilation according to at least one of claims 2 to 8, characterized in that the ventilation housing (1) can be opened and in a first housing part (2) the blower (16) with the blower motor and the potentiometer (20) and the control member ( 34, 35) or the control disk, while a second housing part (3), in particular hingedly connected to the first, carries the ventilation slide (6). 10. Slider ventilation according to at least one of claims 4 to 9, characterized in that the drive member (22) is mounted on the second housing part (3) and od or the like. Designed or rotatably connected to such. 11. Slider ventilation according to claim 10, characterized in that the free end of the control pin (30) of the link control (32) of the ventilation slide (6) engages in a coupling bore (33) of the control member (34) or the control disc and this free end as Telescopic member (31) is formed. 12. Slider ventilation according to claim 9, characterized in that the drive member (23) is mounted on the first housing part (2) and at the same time forms the control member (35) or the control disk or is connected to it in a rotationally fixed manner, the control slot (37) of the link-like control (40) being open at both ends and by two lugs (38, 39; 41, 42) on the drive member (23) associated surface of the control plate (13) is formed. 13. Slider ventilation according to claim 12, characterized in that the drive member (23) or the control member (35) can be driven by means of a particular electric servomotor (43) and the limit switch (24) which can be actuated by the control cam (25) is also a switch for the Actuator is. 14. Slider ventilation according to claim 12 or 13, characterized in that the lugs (41, 42) of the control plate (13) perpendicular to the direction of displacement (7) of the ventilation slide (6) are arranged offset to one another. 15. Slider ventilation according to at least one of the preceding claims, characterized in that the ventilation housing (1) is designed as a sound and / or heat-insulated housing.

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