DE19602406C1 - Domestic vacuum cleaner suction head - Google Patents

Abstract

On the suction head housing (2) is a connection (8) for a suction blower, beyond which is connected a dust catchment bag. Between the connection and the suction head housing customary link mobility is provided. The drum rotor (7) is driven by the suction air flow. The suction air current, produced by the suction blower, enters the suction head housing via the suction aperture (3), flows through the brush chamber (4), the turbine chamber (6) and the connection. Thereby, the drum rotor (7) drives the suction cleaning brush (5) via a transmission (9). The drum rotor is formed as a Pelton (RTM) rotor with at least three buckets (10). Between the neighbouring buckets is at least one narrow guide blade (12), which is concavely curved against the circulating direction of the rotor.

Description

The invention relates to a suction head, in particular one Vacuum cleaner suction head, with suction head housing, which one Has suction opening, one in a brush chamber of the Suction head housing arranged rotatable suction cleaning brush, one in a turbine chamber of the suction head housing arranged constant pressure turbine with a Pelton rotor executed drum rotor, the blades of which counter to the Rotation direction of the Pelton rotor is curved and to the Rotor shaft are connected and one to the Suction head housing connected connecting piece for a Suction blower with a downstream dust bag, the Pelton rotor is driven by the suction air flow that the Suction air blower generated and the suction opening in the Suction head housing enters as well as the brush chamber that Flows through the turbine chamber and the connecting piece, and wherein the Pelton rotor over a transmission the suction cleaning brush drives. It is understood that the Pelton rotor and the suction cleaning brush are arranged axially parallel and at normal working position of the suction head run horizontally. Suction cups of the construction described are in particular at Household vacuum cleaners, but also industrial vacuum cleaners common. - Equal pressure turbines are also called impulse turbines designated and work with impulse exchange.

In the known suction head from which the invention is based (EP 0 338 780 B1) the Pelton rotor has a large number of Pelton blades, which are opposite to the direction of rotation of the  Pelton rotor simply concavely curved and attached to the rotor shaft are connected. The term Pelton rotor refers to L.A. Pelton (1829-1908), after whom the Pelton turbine is known Water turbine is named. That is a free jet turbine with Free jet nozzles that are aimed at the Pelton blades. The free jet nozzles already fulfill a flow management function. Generally are additional Flow control devices provided (see Meyers Encyclopedic Lexicon, Volume 18 (1978), p. 362). While the Pelton water turbines have proven themselves, they are Drum rotors in the form of Pelton rotors used in the known suction heads of the structure described and described purpose are used, improvement needy. This is especially true with regard to the specific Performance, in other words, in terms of efficiency. This may also be due to the fact that the turbine chamber at one such a suction head is not ideal in terms of gas dynamics Representing turbine housing. It also happens especially if moisture-laden dusts are also absorbed need, in the gussets between the Pelton blades in the Area of connection to the rotor shaft to be disrupted Dust deposits that represent the moment of inertia of the Pelton rotor disturbing increase. In terms of flow conditions the need for improvement is based on how the invention has recognized that typical flow control measures, such as they are common in the Pelton water turbines are missing.

To with suction heads of the construction described and Described purpose of the efficiency of the turbine improve, it is known to use constant pressure turbines according to Art  the so-called Ossberger turbine to work (Dubbel "Paperback for mechanical engineering", 1990, R31, 32, picture 2 and Description). Such turbines are also called cross flow called turbines. With the typical Ossberger turbines flat free jets flow through the drum rotor, the one has annular blading and its interior up is free on the rotor shaft and can therefore be flowed through. The Open jets are assigned to flow guide vanes. In which known suction head, with a corresponding cross flow rotor is equipped (DE 41 05 336 C2), one tries to a radial flow against the cross-flow rotor, with With the help of a short mouthpiece of the inflow channel for the suction air. The current boundary condition overall, which specifies the design of the turbine chamber, which is not designed like an ideal turbine housing, but disturb the flow conditions and thus the Operation of the cross flow rotor. This applies particularly to Commissioning of the suction head when the suction cleaning brush already the floor to be cleaned, especially one Carpet touches, so far as a relative high starting resistance exists, while on the other hand that Starting torque of the cross-flow rotor is relatively small is because the suction airflow is the standing crossflow rotor can flow through, with only a small pulse exchange he follows. The latter should be the reason why it is in the Practice is also known, the drum rotor as it were in two to divide coaxial drums, one of them as a cross-flow rotor, the others are designed as a Pelton rotor.  

Otherwise, it is known (DE 41 32 869 A1) the drum rotor towards the rotor shaft with two drum rotor sections equip, which are separated by rotor disks, the Paddling the two drum rotor sections against each other are offset in order to start the drum rotor safely guarantee.

The invention is based on the technical problem a suction head of the structure described above and Purpose described at the beginning of the drive power to improve the constant pressure turbine.

To solve this technical problem, the invention teaches starting from the suction head described above that the Pelton rotor has at least three Pelton blades and that at least one between adjacent Pelton blades, narrow flow guide vane compared to the Pelton blades is arranged, which is curved according to the Pelton blades is. It is understood that the Pelton blades and accordingly the flow guide vanes equidistantly above the Circumference of the drum rotor are distributed. According to preferred Embodiment of the invention, the arrangement is such that the drum rotor in the direction of the rotor shaft several Has drum rotor departments by rotor disks are separated, and that from drum rotor department too Drum rotor department, the Pelton blades and the Flow guide vanes are offset from one another. Of the Drum rotor can have end discs on both rotor ends exhibit.  

The invention is based on the knowledge that in one Suction head of the structure described at the beginning and the entry described purpose, with a Pelton rotor is equipped, the efficiency by additional Flow guide vanes can be improved. Surprise consequently, these flow guide vanes in the drum rotor itself, between the Pelton blades. It is not necessary to place them in the turbine chamber to arrange. In this respect, the invention therefore works with a drum rotor of its own kind, which is an amazing  Represents further development of the Pelton rotor. Here you come to very impressive results when the Pelton blades and the flow vanes are curved correspond as described, that is if curvatures are identical or similar. As a result of this The Pelton blades and the flow glide are curvature at least in the suction head according to the invention flow-friendly, so that only slight pressure losses occur and a good efficiency is achieved. That applies especially when the Pelton blades and the Flow guide vanes, matched to the design-dependent target speed, are streamlined curved.

There are several options for the others Training and design of a suction head according to the invention. It is recommended that the arrangement be such that the Flow guide blades extend in the radial direction have a third to half the extent of the Pelton blades make up. It is within the scope of the invention that the Pelton blades and / or the flow guide blades a wing-like profile cross-section, e.g. B. one Kutta-Joukowski profile cross-section.

Dust deposits occur in the suction head according to the invention no longer in the drum rotor. In this respect there is an optimization can be achieved by rounding the Pelton blades Corners are connected to the rotor shaft. This execution form not only prevents the deposition of dust, but also reduces pressure losses.  

A suction head, which is characterized by this, has proven itself is that at three equidistantly distributed over the circumference Pelton blades between adjacent Pelton blades each three flow guide vanes are arranged. At four Pelton blades distributed equidistantly over the circumference it is recommended to use between adjacent Pelton blades to arrange two flow guide vanes each. Are five Pelton blades distributed equidistantly over the circumference provided, at least with the dimensions that are sufficient Household vacuum cleaners are common to arrange one Flow guide blade between the Pelton blades.

In the following, the invention is based on only one Embodiment representing drawing in more detail explained. They show a schematic representation.

Fig. 1 shows a longitudinal section through a suction head, in the direction A-A through the subject matter of Fig. 2,

Fig. 2 in comparison with FIG. 1 on a reduced scale and highly schematically a plan view of the subject of FIG. 1,

Fig. 3 in comparison with FIG. 1 on an enlarged scale, a plan view of the drum rotor from the object of Fig. 1, only the outer edges of the Pelton buckets or the flow guide blades are shown and

Fig. 4 is a radial section through the subject of FIG. 3.

The suction head 1 shown in the figures is designed as a vacuum cleaner suction head for household vacuum cleaners. The basic structure includes the suction head 2, which has a suction opening 3, which is arranged in a brush chamber 4 of the suction head housing 2 rotatable Saugreinigungs brush 5, and a casing in a turbine chamber 6 of the suction head 2 arranged impulse turbine with drum rotor. 7 At the suction head housing 2 , a connection piece 8 for a suction fan with a downstream dust bag is ruled out. The usual joint mobility is provided between the connecting piece 8 and the suction head housing 2 . The drum rotor 7 is driven by the suction air flow. In other words, the drum rotor 7 is dragged by the suction air flow. The suction air flow generated by the suction fan enters the suction head housing 2 via the suction opening 3 and flows through the brush chamber 4 , the turbine chamber 6 and the connecting piece 8 . The drum rotor 7 drives the suction cleaning brush 5 via a transmission 9 .

From a comparative view of FIGS. 1, 2 and 3 it can be seen that the drum rotor 7 is designed as a Pelton rotor with additional guide blades. In the exemplary embodiment, but not by way of limitation, the Pelton rotor 7 has three Pelton blades 10 , which are simply concavely curved against the direction of rotation of the Pelton rotor 7 and are connected to the rotor shaft 11 . In the exemplary embodiment, three flow guide blades 12 are provided between adjacent Pelton blades 10 , which are curved in accordance with the Pelton blades 10 . It can be seen that the Pelton blades 10 and the flow guide blades 12 are arranged equidistantly over the circumference of the drum rotor 7 . In the exemplary embodiment, the drum rotor 7 has two drum rotor sections a, b in the direction of the rotor shaft 11 , which are separated by a rotor disk 13 . The arrangement is such that from drum rotor section a to drum rotor section b, the Pelton blades 10 and the flow guide blades 12 are offset from one another, each at half the distance of the blades mentioned. The drum rotor 7 is provided with end disks 14 at both rotor ends. The Pelton blades 10 and the flow guide blades 12 are, in line with the design-dependent target speed, streamlined curved. This reduces the pressure loss in the turbine. From FIG. 2 it can also be seen that the flow guide vanes 12 have an extension in the radial direction that is one third to half the extent of the Pelton blades 10 . The Pelton blades 10 and / or the flow guide blades 12 can also have an airfoil-like profile cross section, which was indicated in an enlarged detail in FIG. 1. It may be Kutta-Joukowski profile cross-sections. In the exemplary embodiment and according to a preferred embodiment of the invention, the Pelton blades 10 are connected to the rotor shaft 11 with rounded corners 15 .

Claims (10)

1. suction head, especially vacuum cleaner suction head, with
a suction head housing which has a suction opening,
a rotary suction cleaning brush arranged in a brush chamber of the suction head in the area of the suction opening,
a arranged in a turbine chamber of the suction head constant pressure turbine with a Pelton rotor designed drum rotor, the blades of which are concavely curved against the direction of rotation of the Pelton rotor and connected to the rotor shaft, and
a connection connected to the suction head housing for a suction blower with a downstream dust bag,
wherein the Pelton rotor is driven by the suction air flow generated by the suction fan and which enters the suction head housing via the suction opening and flows through the brush chamber, the turbine chamber and the connecting piece, and wherein the Pelton rotor drives the suction cleaning brush via a transmission, characterized in that
that the Pelton rotor has at least three Pelton blades and
that between adjacent Pelton blades in each case at least one with respect to the Pelton blades narrow flow guide blade is arranged, which is curved according to the Pelton blades. 2. Suction head according to claim 1, characterized in that the Several drum rotors in the direction of the rotor shaft departments that are separated by rotor disks, and that from drum rotor department to drum rotor department the Pelton blades and the flow guide blades against are offset from one another. 3. Suction head according to one of claims 1 or 2, characterized characterized in that the drum rotor at both rotor ends Has end plates. 4. Suction head according to one of claims 1 to 3, characterized characterized that the Pelton blades and the flow guide vanes, matched to the design-dependent Target speed, are streamlined curved. 5. Suction head according to one of claims 1 to 4, characterized characterized in that the flow guide vanes in radial Have an extension that is one third to the direction Half of the extent of the Pelton blades. 6. Suction head according to one of claims 1 to 5, characterized ge indicates that the Pelton blades and / or the flow guide blades have an airfoil-like profile cross-section, e.g. B. have a Kutta-Joukowski profile cross section.   7. Suction head according to one of claims 1 to 6, characterized characterized in that the Pelton blades with rounded corners are connected to the rotor shaft. 8. Suction head according to one of claims 1 to 7, characterized characterized that at three equidistant over the circumference distributed Pelton blades between neighboring Pelton blade arranged three flow guide vanes are. 9. Suction head according to one of claims 1 to 7, characterized characterized that at four equidistant over the circumference distributed Pelton blades between neighboring Pelton blade arranged two flow guide vanes are. 10. Suction head according to one of claims 1 to 7, characterized characterized that at five equidistant over the circumference distributed Pelton blades between neighboring Pelton blades each have a flow guide vane arranged.