Patent Application
20170191598
The present invention relates to a coupling arrangement for a domestic appliance, to a device for a domestic appliance, and to a domestic appliance.
A coupling arrangement for a domestic appliance is known from EP 2 314 752 B1, for example. Said coupling arrangement comprises an internal corrugated hose onto which a spout is molded. This spout during fitting is push-fitted onto a connecting piece and secured thereon by means of a clamping piece.
An object of the present invention lies in providing an improved approach.
Accordingly, a coupling arrangement for a domestic appliance is provided. The coupling arrangement comprises a connecting piece which on the internal side has a duct for transporting a fluid, and on the external side has a collar. The coupling arrangement furthermore comprises an elastic spout which in a fitting direction is push-fitted onto the connecting piece, wherein the spout on the internal side has a first collar which engages behind the collar of the connecting piece, and on the external side has a second collar (behind the first collar in the fitting direction). The coupling arrangement furthermore comprises a corrugated hose which on an end portion on the internal side has a collar which engages behind the second collar of the spout.
It is advantageous in the case of this solution that neither injection-molding of a spout nor fastening by way of a clamping piece is required in order to provide a sealing connection between a corrugated hose and a connecting piece. This is because the spout is connected to the connecting piece by way of elastically engaging therebehind, and the end portion of the corrugated hose is connected to the spout likewise by way of elastically engaging therebehind. Furthermore, by virtue of the elastic spout, at least the end portion of the corrugated hose or else the entire corrugated hose may advantageously be formed from a comparatively rigid material. Accordingly, the connecting piece may also be formed from a rigid material.
In this way, for example, a detachment pressure of more than 5 bar, preferably more than 8 bar, furthermore preferably more than 10 bar, and even furthermore preferably more than 13 bar may be achieved. The detachment pressure refers to a fluid pressure in the corrugated hose that when exceeded releases the end portion of the corrugated hose from the connecting piece, counter to the fitting direction. Accordingly, a reliable connection that is capable of withstanding even high pressures may be provided.
In particular, the second collar of the spout may lie behind the first collar of the spout in the fitting direction.
The “fluid” may be a liquid, in particular water, or a gas, in particular water vapor, or mixtures thereof. The water may be fresh water or waste water, in particular.
The “fresh water connector” also comprises a tank for providing collected rain water.
The connecting piece, the spout and/or the corrugated hose extend along a longitudinal axis, specifically inside one another at least in portions, and are preferably disposed in a coaxial manner. In particular, the connecting piece, the spout and/or the corrugated hose (at least the end portion of the latter) are configured so as to be rotationally symmetrical in relation to the longitudinal axis thereof. To the extent that mention is presently made of “radial”, “axial” or “in the circumferential direction”, this refers at all times to the longitudinal axis.
The fitting direction points along the longitudinal axis and means that direction along which the spout is push-fitted onto the connecting piece, and the end portion of the corrugated hose is push-fitted onto the spout, so as to establish the coupling arrangement, or to make the mentioned components mutually engage behind one another in an elastic manner.
The corrugations of the corrugated hose may, for example, be sinusoidal, rectangular or have any other shape, for example also a helical shape.
The connection between the three construction elements (connecting piece, spout and corrugated hose) is preferably maintained by a form-fit. Additionally, the connection between the three construction elements may be maintained by a friction-fit.
The corrugated hose is preferably configured as a pressure hose and thus suitable for withstanding usual pressures, in particular water pressures, in the domestic sector.
According to one embodiment, the spout, opposite the first collar, has a third collar on which the end portion of the corrugated hose axially bears.
By virtue of this bearing contact between the end portion and the third collar it is ensured that the collar of the end portion remains bearing in a sealing manner on the first collar of the spout. In other words, the end portion of the corrugated hose is thus fixed to the spout in and counter to the fitting direction.
According to one further embodiment, an axial web of the end portion of the corrugated hose is axially jammed between the first and the second collar of the spout.
Particularly high tightness is achieved by virtue of this elastic clamp-fit.
According to one further embodiment, a diameter of the end portion of the corrugated hose widens in the fitting direction.
In particular, the end portion at a transition point to a corrugated portion of the corrugated hose thus has a first diameter, and in the region of the connecting piece, and/or in the region of the spout, has a second diameter, wherein the second diameter is larger than the first diameter. On account thereof, the corrugated portion may be formed having a comparatively small diameter, this being potentially advantageous in the case of applications in which a relatively minor diameter of the hose installation is desired, which may improve handling.
According to one further embodiment, the end portion has a tulip-like shape.
The latter can be readily manufactured, for example by an extrusion or injection-molding method.
According to one further embodiment, an inwardly directed radial web of the end portion adjoins the tulip-like shape. Additionally or alternatively, the axial web of the end portion adjoins the radial web in the fitting direction.
The radial web and the axial web of the end portion of the corrugated hose define the collar of the latter.
According to one further embodiment, the tulip-like shape has a reinforcement bead.
On account thereof, the detachment pressure may be further increased.
According to one further embodiment, the end portion of the corrugated hose and/or the tulip-like shape are/is integrally formed with a corrugated portion of the corrugated hose.
Thus, the tulip-like shape and/or the end portion are/is not manufactured only in a post-manufacturing step of the corrugated hose. Rather, the end portion and/or the tulip-like shape are/is integrally manufactured, in particular originally molded, at the same time as the corrugated portion of the corrugated hose, for example by extruding or injection-molding.
According to one further embodiment, the spout is formed from an elastomer, in particular from rubber. The rubber may comprise a plastic or natural rubber material.
In principle, all polyolefins, in particular polyethylene, polypropylene or polyvinylchloride (PVC), may be considered as plastics.
According to one further embodiment, the spout in the fitting direction ahead of the first collar has a chamfer for compressing the spout when the end portion of the corrugated hose is push-fitted onto said spout.
After the collar of the end portion has passed the first collar of the spout, the spout widens again such that elastic engaging from behind arises. The connecting piece may also be referred to as a connector piece.
According to one further embodiment, the connector piece in the fitting direction ahead of the collar thereof has a chamfer for widening the spout when said spout is push-fitted onto the connector piece.
Once the spout passes the chamfer of the connector piece, the spout is relaxed, on account of which elastic engaging from behind arises. However, other possibilities for widening the spout would also be conceivable, for example by means of a respective tool.
According to one further embodiment, the corrugated hose is manufactured from polyethylene, polypropylene or polyvinylchloride (PVC).
In principle, the corrugated hose may also be manufactured from another polyolefin.
Furthermore, a device for a domestic appliance is provided. The device comprises an external hose and a coupling arrangement as has been described above. The corrugated hose at least partially extends within the external hose.
The corrugated hose thus forms an internal hose inside the external hose.
Preferably, the internal hose is a pressure hose and/or the external hose is a protective hose.
According to one further embodiment, the device furthermore has a housing, which comprises the connecting piece, and a valve for blocking or unblocking the duct, said valve being disposed in the housing.
An electrical cable which runs in the annular gap between the external hose and the internal hose may furthermore be provided. The electrical cable may be specified for providing the valve with a signal and/or with power.
The device may furthermore have a sensor for detecting leaked liquid, and a controller installation which is specified for actuating the valve for blocking or unblocking the duct, depending on a signal from the sensor. The sensor may in particular be disposed in a collection region of the domestic appliance for collecting leaked liquid that exits from the internal hose in the case of a defect of the latter. In this case, the collection region is in liquid-conducting connection with the annular space between the external hose and the internal hose such that leaked liquid may flow off into said annular space.
In particular, the valve is an electromagnetically activated valve.
Furthermore, a domestic appliance having a coupling arrangement as has been described above, or a device as has been described above, is provided.
The domestic appliance may be a water-conducting domestic appliance, in particular a dishwasher or a washing machine.
Further potential implementations of the invention also comprise combinations which have not been explicitly mentioned of features or embodiments that are described above or hereunder with reference to the exemplary embodiments. Herein, a person skilled in the art will also add individual aspects as improvements or additions to the respective fundamental embodiment of the invention.
Further advantageous design embodiments and aspects of the invention are the subject matter of the dependent claims and of the exemplary embodiments of the invention that will be described hereunder. Furthermore, the invention will be explained in more detail by means of preferred embodiments with reference to the appended figures in which:
Unless stated to the contrary, identical or functionally identical parts are identified with the same reference signs in the figures.
A device 1 is shown in a perspective view in
The device 1 comprises a housing 4 in which a duct 5 is configured. The duct 5 on a connector side 6 is connected to a fresh-water connection (not illustrated) for example, that is provided on the house. To this end, a nut 7 by means of which the housing 4 is screw-fittable to a corresponding thread (not illustrated) of the fresh-water connection may be provided.
As can be seen in the section of
The electrical cable 12 may be assembled from two portions 12a, 12b, wherein a first portion 12a of the electrical cable 12a runs in the housing 4 and in an electrically conducting manner connects a plug 14 on the periphery of the housing 4 to the controller installation 11. A second portion 12b of the electrical cable 12, at one end of the former, is releasably connected by means of a socket 15 to the plug 14, and at the other end of the former is coupled to the sensor 13. The functioning mode will be described in more detail hereunder.
The housing 4, opposite the connector side 6, has a connecting piece 16. The connecting piece 16 in the interior thereof configures part of the duct 5. The connecting piece 16 extends along a longitudinal axis L and may be configured so as to be rotationally symmetrical with the latter. To the extent that mention is presently made of “radial”, “axial” or “in the circumferential direction”, this refers at all times to the longitudinal axis L.
The connecting piece 16, in a fitting direction along the longitudinal axis L that is referred to as M, has a chamfer 17 of increasing diameter. A collar 18 adjoins the chamfer 17 in the fitting direction M.
A spout 19 is push-fitted onto the connecting piece 16 in the fitting direction M. The spout 19 likewise extends along the longitudinal axis L and is preferably configured so as to be rotationally symmetrical with the latter. The spout 19 is manufactured from an elastic material, for example rubber. The spout 19 also has a chamfer 20 which increases in diameter in the fitting direction M. On the internal side thereof, the spout 19 has a first collar 21 by means of which the former engages behind the collar 18 of the connecting piece 16 in an elastic manner. Furthermore, the spout 19 on the external side, and downstream of the first collar 21 in the fitting direction M, has a second collar 22 on the external side. The spout 19, opposite the second collar 22, comprises a third collar 23 which may be configured on a radial flange 24 of the spout 19, for example. The second collar 22, the third collar 23 and an annular face 25 of the spout 19 thus define a groove encircling the longitudinal axis L.
An internal hose 26 which is embodied as a corrugated hose is furthermore provided. Said internal hose 26 comprises a corrugated portion 27 and an end portion 28 that adjoins the latter. The corrugated portion 27 comprises wall portions 29 and 30, respectively, that are shaped as waves and troughs, the latter according to the exemplary embodiment describing a sinusoidal shape. However, the latter may just as well have an angular profile, for example a rectangular profile, or a helical geometry.
The end portion 28 is manufactured from the same material and in the same manufacturing step, in particular in an extrusion or injection-molding method, as the corrugated portion 27 of the corrugated hose 26.
The end portion 28 likewise extends along the longitudinal axis L, and is preferably configured so as to be rotationally symmetrical with the latter. The end portion 28 comprises a sleeve-like or tulip-like shape 31. The latter widens from a diameter d2 of the corrugated portion 27 toward a diameter d2 which encompasses the external side of the spout 19. The tulip-like shape 31 may be reinforced by means of a bead 32 that encircles the longitudinal axis L. A radial web 33 which is inwardly directed in turn adjoins the tulip-like shape 31. An axial web 34 in turn adjoins the radial web 33 in the fitting direction M.
The radial web 33 and the axial web 34, on the internal side of the former and latter, jointly define a collar 35 which elastically engages behind the second collar 22 of the spout 19. When the end portion 28 is push-fitted over the spout 19, the collar 35 elastically snap-fits behind the collar 22 of the spout such that a corresponding form-fit results here. The axial web 34 herein is elastically clamped between the collars 22, 23 of the spout 19 such that a particularly good sealing effect results. For example, a detachment pressure of more than 8 bar may be achieved in this way.
The end portion 28, the spout 19 and the connecting piece 16 configure a coupling arrangement 36 which enables a tight connection between a corrugated hose 26 and a connecting piece 16 to be established in a simple manner. Advantageously, the internal hose 26 and the connecting piece 16 herein may be formed from a comparatively rigid material which advantageously may be provided with a corresponding thin wall. The elasticity that is required for elastically engaging from behind herein is preferably provided only by the elastic spout 19. The latter at least has a greater elasticity than the end portion 28 or the connecting piece 16.
According to the exemplary embodiment, the internal hose 26 runs within an external hose 37 of the device 1. The external hose 37 is also shown in
The internal hose 26 and/or the external hose 37 may be formed from polyethylene, polypropylene, polyvinylchloride (PVC) or any other polyolefin or plastics. Said internal hose 26 and/or external hose 37 may jointly define an annular space 40 in which the second portion 12b of the electrical cable 12 runs. Leaked water that potentially exits from the internal hose 26 in the case of a defect of the latter is collected in the annular space 40 and is directed toward the collection tub 41, shown in
Although the invention has presently been described by means of preferred exemplary embodiments, said invention is not limited thereto in any way but rather is modifiable in many ways.
1 Device
2 Domestic appliance
3 Base
4 Housing
5 Duct
6 Connector side
7 Nut
8 Valve
9 Solenoid
10 Valve element
11 Controller installation
12 Electrical cable
12
a,
12
b Portions
13 Sensor
14 Plug
15 Socket
16 Connecting piece
17 Chamfer
18 Collar
19 Spout
20 Chamfer
21 First collar
22 Second collar
23 Third collar
24 Flange
25 Annular face
26 Internal hose
27 Corrugated portion
28 End portion
29 Wall portion
30 Wall portion
31 Tulip-like shape
32 Bead
33 Radial web
34 Axial web
35 Collar
36 Coupling arrangement
37 External hose
38 Tulip-like shape
39 Housing
40 Annular space
41 Collection tub
d1, d2 Diameter
L Longitudinal axis
M Fitting direction
| Number | Date | Country | Kind |
|---|---|---|---|
| 14169546.0 | May 2014 | EP | regional |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/EP2015/061170 | 5/20/2015 | WO | 00 |
