The invention relates to a handle arrangement on a suction hose equipped for spray extraction. In the method known as spray extraction, a cleaning agent in liquid form is sprayed into the carpet pile under pressure by means of a spray extraction device and is sucked up in one pass by means of a suction device via a suction hose. In a similar method, a cleaning agent in powder form is blown into the carpet pile and is sucked up in one pass by means of a suction device via a suction hose. Therefore, when mention is made below of a liquid line, this term is also intended to encompass a line through which a cleaning powder is blown.
In the devices used here, a liquid line is guided internally through the suction hose, which is provided at its handling end with a handle arrangement which is attached to the suction hose such that it can rotate to a limited extent relative to the suction hose. Here, the liquid line is guided outwards at the point of the transition from the suction hose to the handle arrangement according to the prior art and is usually fixed externally on the handle arrangement. This design has the disadvantage that the liquid line is not protected in the region of the handle arrangement and can become caught up-during use.
It has already been proposed to guide the liquid line internally through a handle part of the handle arrangement. In this case, however, the desired rotatability of the handle arrangement relative to the suction hose is considerably restricted.
What is needed is to provide a handle arrangement on a suction hose equipped for spray extraction, in which, despite the fact that the suction line is guided through a handle part, the possible rotation angle between the suction hose and the handle arrangement is large enough to ensure convenient handling during spray extraction.
The invention is directed to a handle arrangement on a suction hose equipped for spray extraction. The handle arrangement includes an inner bushing which is attached to one end of the suction hose such that it cannot rotate relative to the suction hose and a handle tube in which the inner bushing is inserted and is fixed therein in a sealed manner such that it can rotate but cannot be displaced in the axial direction. A flexible liquid line is guided outwards from the suction hose and the inner bushing in an approximately radial direction through a wall opening of the handle tube and into a cavity of a handle part which is connected to the hose-side end of the handle tube. The liquid line is fixed so as to form a length reserve loop in the handle part. A receiving space is provided on the outer circumference of the inner bushing, which receiving space is located opposite the wall opening of the handle tube and into which the liquid line from the length reserve loop can be shifted in the case of relative rotations between the suction hose and the handle tube, and wherein the rotation angle between the suction hose and the handle tube is delimited according to the length of the liquid line in the length reserve loop.
The handle arrangement according to the invention allows a rotation angle between the suction hose and the handle arrangement of up to approximately 180° and more, which ensures convenient handling of the arrangement during spray extraction. It has been found that a length reserve loop formed of the flexible liquid line itself and arranged in the specified manner allows the specified rotation angle. Here, the length of the liquid line located in the length reserve loop limits the rotation angle between the suction hose and the handle tube. However, this rotation angle can also preferably be delimited by stops.
In the case of relative rotations between the suction hose and the handle arrangement, the receiving space on the circumference of the inner bushing takes up the flexible liquid line without any kinks. The liquid line is also returned to the length reserve loop without any kinks in the rest position, once the handle arrangement and hose have again reached their relative starting position. The stops, which are effective in both directions of rotation, prevent any over-expansion or stretching of the liquid line, which even at the stop positions assumes a curved position which favours the return to the rest position of the length reserve loop. Here, the liquid line is supported at its fixing point in the handle part.
In continuation of the concept of the invention, the handle part can be formed of two half-shells which at one side partially tightly surround the handle tube at its suction-hose-side end and at the other side are also connected to the other end of the handle part, wherein the two half-shells form a cavity passing through the handle part, through which cavity the liquid line is guided and is fixed in the vicinity of the handle tube by a line holder. The handle tube and handle part then form a one-piece handle arrangement which can rotate to a limited extent relative to the suction hose connected thereto. The handle tube, which in the region of the inserted inner bushing is cylindrical, can be formed in an arc shape adjacent thereto, for example as a 90° arc. The handle tube may also be conical in the region of the inner bushing.
Preferably, the wall opening of the handle tube can be designed as a slot-shaped cutout which passes around approximately half the circumference of the handle tube and the end faces of which are arranged approximately diametrically opposite one another in the relative starting position of the handle arrangement and suction hose.
The receiving space for the flexible liquid line on the outer circumference of the inner bushing is advantageously designed in such a way that it is delimited in the axial direction by two spaced-apart flange-like annular protrusions of the inner bushing and is delimited in the radial directions towards the outside by the inner wall surface of the handle tube and towards the inside by the outer circumferential surface of the inner bushing.
In the case of a hose which has, in a manner known per se, corrugation peaks and corrugation troughs running helically around the outside in the manner of an outer thread, the rotationally fixed attachment of the inner bushing to the. suction hose end advantageously takes place in such a way that the suction hose pushed onto the inner bushing is pressed against one annular protrusion by a threaded sleeve screwed onto the hose, which threaded sleeve engages over the annular protrusion and has a stop element pointing radially outwards. Here, the threaded sleeve has an inner threaded section which, in terms of dimensions and pitch, is adapted to the outer thread of the hose formed by the corrugation peaks and corrugation troughs.
In a further embodiment of the handle arrangement according to the invention, the stop element of the threaded sleeve, is located within the wall opening of the handle tube, wherein the two end faces of the wall opening are the stop faces for the stop element which delimit the rotation angle between the suction hose and the handle tube.
Advantageously, the liquid line of the suction hose, before entering the inner bushing, is located in a tube which extends into the wall opening of the handle tube and is placed in a receiving channel of the inner bushing which extends in the axial direction and is integrally formed in the wall of the inner bushing so as to be open towards the outside. Instead of passing the liquid line through a tube, the liquid line may also be glued or welded directly onto the inner wall of the suction hose.
For sealing between the inner bushing and the handle tube which can rotate to a limited extent relative thereto, it is provided that the inner bushing has at its end remote from the suction hose an annular step on which a lipped sealing ring is held, the sealing lip of which bears against the inner wall surface of the handle tube.
Further details of the invention will be explained in more detail with reference to the drawings which show a preferred example of embodiment. In the drawings:
The drawings are shown to different scales in order to illustrate details and functional relationships.
Of the handle arrangement, only a few parts can be seen from outside in
As can be seen in particular from
Provided on the outer circumference of the inner bushing 9 is a receiving space 13 which is arranged opposite the wall opening 10 and is delimited in the axial direction by two spaced-apart flange-like annular protrusions 14 and 15 and is delimited in the radial directions towards the outside by the inner wall surface 16 of the cylindrical end section 8 of the handle tube 1 and towards the inside by the outer circumferential surface 17 of the inner bushing 9. The function of the receiving space 13 will be explained in more detail below.
The suction hose 3 has, in the conventional manner, alternating corrugation peaks 18 and corrugation troughs 19 running helically in the manner of an outer thread. The hose 3 is pushed onto the inner bushing 9 until it bears against the annular protrusion 14 and is pressed against the annular protrusion 14 by a threaded sleeve 20 screwed onto the hose 3, as a result of which the hose 3 is non-rotatably fixed to the inner bushing 9 so that the latter together with the hose 3 can rotate relative to the handle tube 1. The threaded sleeve 20 has for example a complete inner thread 21 which has the same pitch as the outer thread on the hose 3 formed by the corrugation peaks 18 and corrugation troughs 19, and is shown in section in
The threaded sleeve 20 engages over the annular protrusion 14 and has on its outer circumferential surface a stop element 22 pointing radially outwards, which stop element is located within the wall opening 10 as shown in
The handle part 2 is formed of two half-shells 23 and 24 which partially tightly surround the handle tube 1 and its cylindrical end section 8, as shown in
As shown in
Due to this design and arrangement of the engaging parts of the handle arrangement, the inner bushing 9, the hose 3, the anti-kink means 4 and the threaded sleeve 20 are arranged such that they can rotate together relative to the handle tube 1 with its cylindrical end section 8, the handle part 2 and the latching ring 34. However, the inner bushing 9 with the hose 3, the anti-kink means 4 and the threaded sleeve 20 are fixed such that they cannot be displaced in the axial direction with respect to the handle tube 1, the handle part 2 and the latching ring 34. In a manner differing from the illustrated arrangement described above, the anti-kink means 4 may also be firmly connected to the handle tube.
Guided through the hose 3 is a liquid line 37 which, before entering the inner bushing 9, is located in a tube 38 which extends into the wall opening 10 of the cylindrical end section 8 of the handle tube 1, as can be seen in particular in
The liquid line 37 is guided outwards from the hose 3 and the inner bushing 9, more specifically from the tube 38 placed in the receiving channel 39 of the inner bushing 9, in an approximately radial direction through the wall opening 10 of the handle tube 1, more specifically the cylindrical end section 8 of the handle tube 1, and into the cavity 28 of the handle part 2 and is fixed there by a line holder 41 so as to form an approximately S-shaped length reserve loop 40, said line holder being arranged between the fixing points 25 and 26.
In the case of relative rotations between the hose 3, including the parts connected in rotation therewith, and the handle tube 1, including the parts connected in rotation therewith, the liquid line 37 is shifted from the length reserve loop 40 partially into the receiving space 13, as shown in
After the line holder 41, the liquid line 37 is guided through the cavity 28 of the handle part 2, as can be seen from
As can be seen most clearly from
The handle tube 1, the handle part 2, the anti-kink means 4 and the threaded sleeve 20 may be produced by injection molding from thermoplastic plastics of suitable strength.
In summary, a handle arrangement is prepared on a suction hose 3 equipped for spray extraction, which has corrugation peaks 18 and corrugation troughs 19 running helically around the outside in the manner of an outer thread. However, the handle arrangement can also be used for hoses on which the corrugation peaks and corrugation troughs serving for hose elasticity do not run helically on account of a different production method, but instead are arranged as alternating rings. The handle arrangement can also be adapted for use on smooth-walled hoses. An inner bushing 9 is attached in a suitable manner to one end of the hose 3 such that it cannot rotate relative to the hose 3, and is inserted in a handle tube 1 and fixed therein such that it can rotate but cannot be displaced in the axial direction. An elastic liquid line 37 is guided outwards from the hose 3 and the inner bushing 9 in a radial direction through a wall opening of the handle tube 1 and into the cavity 28 of a handle part 2. The handle part 2 is firmly connected at both ends to the handle tube 1. The liquid line 37 is fixed so as to form a length reserve loop 40 in the cavity 28. A receiving space 13 is provided on the inner bushing 9, into which the liquid line 37 from the length reserve loop 40 is shifted when relative rotations take place between the hose 3 and the handle tube 1. The possible rotation angle is optionally delimited here by stops according to the line length available in the length reserve loop 40, but may also be delimited by the line length available in the length reserve loop 40 itself, i.e. even without stops.
Variations and modifications are possible without departing from the scope and spirit of the present invention as defined by the appended claims.
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