The invention relates to a propeller arrangement having a propeller part and a shaft part, in particular for an underwater vacuum cleaner, wherein the propeller part and the shaft part are coaxially connected or connectable to one another via a latching connection, which latching connection has at least two latching fingers, which can be moved elastically in a latching direction radially with respect to the axis of rotation of the propeller arrangement, and a latching opening for accommodating the latching fingers.
In the case of propeller arrangements for applications in water, for example for underwater vacuum cleaners for swimming pools, there is a risk of malfunctions due to threads, hair, plant parts or the like looping around the rotary shaft, which in the worst case can only be removed from the rotary shaft by relatively time-consuming and labor-intensive disassembly of the propeller.
A propeller arrangement is known from KR 101859162 B1, wherein a propeller part is connected to a shaft part via a latching connection. The latching connection has latching fingers which are spaced apart from one another, are arranged essentially parallel to one another in the installed position and are screwed to a rotary shaft via a fixing part. The latching fingers are arranged in an axial recess of one end of the rotary shaft, with latching hooks arranged at the ends projecting from the recess. The latching fingers are pretensioned radially outward by a separate compression spring. In the assembled state, the end of the rotary shaft is inserted in a hub of the propeller, with the latching fingers penetrating the hub and the radially outwardly pressed latching hooks engaging the end face remote from the rotary shaft and holding the propeller axially on the rotary shaft. To transmit the torque, a torque transmission unit is provided which has a sleeve arranged between the hub and the rotary shaft and connected to the propeller in a rotationally fixed manner, which sleeve has arcuate concave form-fit areas which interact with corresponding arcuate convex form-fit areas of the rotary shaft so that torque can be transmitted between the rotary shaft and the sleeve. This arrangement has many individual parts, which has a detrimental effect on manufacturing and assembly effort, durability, and size.
It is the object of the invention to enable an easily detachable rotary connection between the propeller part and the shaft part in the simplest possible way.
According to the invention, this object is solved in that the latching fingers are formed integrally with the shaft part and that the latching fingers and the latching opening—in and/or against a direction of rotation—form a positive connection.
The positive connection is advantageously defined by the cross-section of the latching opening and the profile of the latching fingers. The profile of the latching fingers and the cross-section of the latching opening are matched to each other in such a way that a positive connection in and/or against the direction of rotation and thus a torque transmission between the propeller part and the shaft part is made possible. For example, the latching opening has a rectangular cross section.
Advantageously, it is provided that the latching fingers are provided to rest directly against at least one first flank and/or at least one second flank of the latching opening. A further element between the latching finger and the latching opening is not required for torque transmission. The number of parts can thus be kept to a minimum.
In order to enable easy mounting and removal of the propeller part on or from the latching fingers, it is advantageous if at least one first flank and/or at least one second flank of the latching opening has at least one depression and/or at least one guide strip. As a result, the contact area between the latching fingers and the latching opening can be reduced and the friction during mounting or dismounting can be reduced. The reduced force required reduces the risk of damage to the propeller arrangement during assembly or disassembly.
In one embodiment variant of the invention, it is provided that the latching opening has a width measured perpendicular to the latching direction between two parallel first flanks, which corresponds at least to the finger width of the latching fingers. It is advantageous if the latching opening has a width measured in the latching direction between two parallel second flanks, which corresponds at least to the minimum outer distance between the latching fingers. This enables sufficiently large torque transmission.
Within the scope of the invention, it is provided that the shaft part is designed as a shaft cap which can be connected or is connected in a rotationally fixed manner to a rotary shaft of a drive motor. The shaft cap can, for example, be permanently connected to the rotary shaft, in particular pressed and/or glued or screwed.
In a further embodiment of the invention, it is provided that the propeller part and/or the shaft part consist(s) of a thermoplastic terpolymer, preferably an acrylonitrile-butadiene-styrene copolymer. The use of acrylonitrile-butadiene-styrene copolymer for the propeller part and shaft part has, for example, the advantage of high resistance to weathering and aging, high elasticity and stability.
As a result, a large number of assembly and disassembly operations can be achieved between the propeller part and the shaft part, and a long service life can be made possible.
The invention is explained in more detail below with reference to the non-limiting figures, wherein:
The propeller part 2 and the shaft part 3 are coaxially connected to each other via a latching connection 4. The shaft part 3 is designed, for example, as a shaft cap which can be connected or is connected in a rotationally fixed manner to a rotary shaft 10 of a drive motor not shown further, indicated by dashed lines in
The latching connection 4 has at least two latching fingers 5 that are elastically movable in a latching direction R radial to the axis of rotation 1a of the propeller arrangement 1—indicated by arrows in
In the exemplary embodiment shown, the latching opening 6 has a rectangular cross-section. In the assembled state, the latching fingers 5 are in direct contact with at least one first flank 61 of the latching opening 6. The first 61 and/or second flanks 62 of the latching opening 6 have at least one shaped portion or depression 7 and/or at least one guide strip 8 to allow easy assembly or disassembly (
As can be seen in
Number | Date | Country | Kind |
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A 50763/2021 | Sep 2021 | AT | national |