Source: http://www.freepatentsonline.com/8746596.html
Timestamp: 2019-10-16 04:19:02
Document Index: 135730965

Matched Legal Cases: ['arts 8', 'art 9', 'art 8', 'art 8', 'art 8', 'art 8', 'art 6', 'art 9', 'art 8', 'art 8', 'art 9', 'art 8', 'art 9', 'art 8', 'art 9', 'art 9', 'art 9', 'art 8', 'art 8', 'art 8', 'art 8', 'art 8', 'art 8', 'art 9', 'art 8', 'art 8', 'art 9']

Manual spray head - Neoperl GmbH
United States Patent 8746596
A manual spray head can be connected with a flexible hose line by means of a coupling that has a ball-and-socket joint inserted between the manual spray head and the hose line. This arrangement not only increases the mobility and flexibility between the manual spray head and the flexible hose line, but also permits twisting of the manual spray head relative to the hose line without fear of unscrewing the screw-type connection or similar coupling provided between the manual spray head and the hose line.
Grether, Hermann (Muellheim, DE)
Weis, Christoph (Muellheim, DE)
13/047107
239/587.4
4/678, 239/525, 239/530, 239/580, 239/587.1, 239/588, 239/590, 239/600, 239/DIG.4, 285/146.1
B05B15/68
239/525, 239/530, 239/587.1, 239/587.3, 239/587.4, 239/588, 239/589, 239/600, 239/DIG.4, 239/580, 239/590, 285/144.1, 285/146.1, 4/675, 4/678
Download PDF 8746596 PDF help
6877172 Docking collar for a faucet having a pullout spray head 2005-04-12 Malek et al. 4/678
6757921 Pull-out faucet 2004-07-06 Esche 239/588
3640465 QUICK-CONNECT HOSE MEMBERS AND CONTROL SYSTEM 1972-02-08 Hicks 239/587.1
2985385 Shower head 1961-05-23 Bowers et al. 239/587.4
Ganey, Steve J.
This application is a continuation-in-part of U.S. patent application Ser. No. 12/818,666, filed Jun. 18, 2010, the entire disclosure of which is herein expressly incorporated by reference.
1. A manual spray head having a coupling for connection with a flexible hose line, wherein the coupling has a ball-and-socket joint; a joint head of a holding element has a sphere-like outer contour in a form of a sphere segment; and a ring groove provided on an outer circumference of the holding element or on an inner circumference of a first joint part, relative to one another, is disposed at least approximately in a region of a equator or a greatest outer circumference of the sphere-like outer contour of the joint head provided on the holding element or on the first joint part; the connection of the manual spray head and the hose line comprises a screw-type coupling; an external or internal thread on the manual spray head is detachably connectable with an internal or external thread on a hose connection of the hose line; the hose connection has the ball-and-socket joint; said ball-and-socket joint includes the first joint part and a second joint part, which are connected with one another and have mutually connected fluid conduits; one of said joint parts carries a hose stem, with the internal or external thread being provided on the other joint part; the first joint part is swivelably held by a universal-ball-joint shaped or substantially spherical front end area thereof, between a form-adapted socket on the second joint part on one side, and the joint head on the holding element is provided in the inside cavity of the first joint part, on the other side; a connecting shaft of the holding element penetrates a through-opening of the first joint part, and acts upon the second joint part; and the holding element mutually connects the fluid conduits of the first and second joint parts.
2. The manual spray head according to claim 1, wherein the screw-type coupling comprises one of a revolving coupling and a plug-type coupling.
3. The manual spray head according to claim 1, wherein one of the first and second joint parts has an out-flow side opening with an internal thread into which an external thread on the manual spray head can be screwed.
4. The manual spray head according to claim 1, wherein: a sleeve-shaped partial area adjoins the substantially spherical front end area of the first joint part; and said sleeve-shaped partial area carries the internal thread in its sleeve interior open on the front side.
5. The manual spray head according to claim 4, wherein at least one of the following applies: the holding element is configured such that it is screwable into an internal thread in the second joint part by an external thread; and the sleeve interior of the holding element comprises a noncircular tool working surface.
6. The manual spray head according to claim 5, wherein the tool working surface comprises a hexagonal socket.
7. The manual spray head according to claim 5, wherein the holding element is connected into the second joint part in a water-tight manner.
8. The manual spray head according to claim 1, wherein the second joint part carries the hose stem.
9. The manual spray head according to claim 1, wherein at least one ring-type seal is provided in the ring groove.
10. The manual spray head according to claim 1, wherein: a spray head fitting having an outlet tube is assigned to the manual spray head; and the hose line connected with the manual spray head is guided in the outlet tube such that it can be pulled out against a restoring force.
11. The manual spray head according to claim 1, wherein the manual spray head is held in a readiness position at the outlet tube, such that the coupling is arranged between the manual spray head and the hose line in the tube interior of an outlet tube.
The invention relates to a manual spray head which can be connected with a flexible hose line by means of a coupling.
Manual spray heads, which can be used as shower heads or as kitchen spray heads, are known in various constructions. The known manual spray heads are normally connected with a flexible hose line by way of a screw-type coupling, which hose line is, in turn, connected to the water conduit system. The known manual spray heads usually have a spray head grip which carries an external thread on its end region facing away from the spray head. A hose connection is provided on the hose line, which hose connection can be tightly screwed to the external thread of a manual spray head by means of a coupling nut having an internal thread.
However, the screwed connection that is provided in known manual spray heads between the spray head grip and the hose line does not easily allow a rotation of the manual spray head with respect to the longitudinal axis of the hose line, because otherwise the screwed connection between the manual spray head and the hose line may be unintentionally loosened and become loose. The known manual spray heads also normally exhibit wear near the clamping or coupling point to the spray head grip due to overstressing transversely to the longitudinal axis, which is caused by the movement of the manual spray head during its use.
It is therefore an object of the invention to create a manual spray head of the initially mentioned type which is characterized by greater mobility, and especially also by a twisting capability between the manual spray head and the hose line.
This and other objects and advantages are achieved by the manual spray head according to the invention, in which the coupling provided for connecting the manual spray head and the hose line has a ball-and-socket joint.
The spray head according to the invention has a coupling which connects the manual spray head with a flexible hose line. This coupling provided for connecting the manual spray head and the hose line has a ball-and-socket joint, inserted between the manual spray head and the hose line. This arrangement not only increases the mobility and flexibility between the manual spray head and the flexible hose line, but also permits twisting of the manual spray head relative to the hose line, without fear of unscrewing the screwed connection or opening-up of a similar coupling provided between the manual spray head and the hose line.
In a structurally simple and preferred embodiment of the invention, the coupling provided for connecting the manual spray head and the hose line is constructed as a screw-type coupling having a spray head connection with an external or internal thread on the manual spray head. The external or internal thread can be connected (preferably detachably) with an internal or external thread on a hose connection of the hose line. When, in this case, a spray head connection with an external thread is provided on the manual spray head and a hose connection with a complementary internal thread is provided on the hose line, commercially available manual spray heads can be mounted on the hose line further developed according to the invention.
The same applies to rotationally rigid plug-type connections or plug-type couplings in this area. The advantages of a better mobility also exist in the case of rotation-free connections or couplings, even if the rotating about the longitudinal axis is carried out at least partly by a non-rotating plug-type connection or plug-type coupling.
Instead, another embodiment according to the invention provides that the coupling provided for the connection of the manual spray head and the hose line is constructed particularly as a rotationally rigid revolving and/or plug-type coupling. Thus, such a revolving and/or plug-type coupling can, for example, also provide a bayonet-type or similar bayonet-lock-type connection between the manual spray head and the hose line.
An exchange of the manual spray head and/or the hose line will be facilitated when the spray head connection and/or the hose connection has a ball-and-socket joint.
In this case, an embodiment is preferred where the hose connection has a ball-and-socket joint which has a first and second joint parts that are connected with one another in a hinged manner and have mutually connected fluid conduits. One joint part carries a hose stem, while the internal or external thread is provided on the other joint part.
In a streamlined embodiment according to the invention that can be produced at low expenditures, the first joint part is held with its universal-ball-joint-shaped or spherical-segment-shaped or similarly spherical front end area of its wall between a form-adapted socket on the second joint part, on the one side, and a joint head on a holding element provided in the inside cavity of the first joint part, on the other side, in a swivelable manner. The holding element penetrates a through-opening of the first joint part by means of a connecting shaft acting upon the second joint part, and mutually connects the fluid conduits of the first joint part as well as the second joint part.
The ball-and-socket joint provided in the coupling further developed according to the invention has two joint parts which are connected with one another in a hinged manner, of which a first joint part has a universal-ball-joint-shaped or spherical-segment-shaped or similarly spherical front end area. In this case, the first joint part is held with its front-side and spherically further developed front-end area between a form-adapted socket on the second joint part, on the one side, and a joint head on a holding element provided in the inside cavity of the first joint part, on the other side, in a swivelable manner. Because the first joint part is therefore securely and firmly held between the second joint part and the holding element, and because the first joint part is secured not only by means of a sealing ring, the ball-and-socket joint has a comparatively high functionality since the holding function and the sealing function are separate from one another and can therefore each be optimized separately. It is a particular advantage of this embodiment, which represents a further development, that the holding function and the rotatability are also separate from one another, so that the manual spray head can be rotated with regard to the hose line, without having to be concerned with unintentional loosening of a screw connection provided in the region of the coupling. Because the first joint part, which may be arranged on the in-flow or out-flow side of the ball-and-socket joint, is arranged to be swivelable into a socket of the second joint part, the first joint part and the second joint part can be connected with one another without major transitions and particularly without esthetically spoiling variations in diameter. By means of a connecting shaft acting upon the second joint part, the holding element, in this case, penetrates a through-opening of the first joint part, the holding element mutually connecting the fluid conduits of the first joint part as well as of the out-flow part.
In order to integrate the ball-and-socket joint in a manner that is as space-saving as possible in the coupling provided between the manual spray head and the hose line, it is advantageous for one (preferably the first) joint part to have an out-flow side coupling opening with an internal thread, into which internal thread an external thread can be screwed that is provided on the manual spray head.
In this case, a preferred embodiment according to the invention provides that a sleeve-shaped partial area adjoins the spherical front-end area of the first joint part, which partial area carries the internal thread in its sleeve interior that is open on the front side.
It is expedient for the second joint part to carry the hose stem.
To facilitate easy mounting of the component parts of the ball-and-socket joint integrated in the coupling provided between the manual spray head and the hose line, it is expedient for the holding element to be screwable by means of an external thread into an internal thread in the second joint part, and/or for the sleeve interior of the holding element to be further developed as a preferably noncircular tool working surface and particularly as a hexagon socket.
In order to be able to provide a good seal in the area between the joint parts, it is advantageous to provide at least one ring-type seal between the first joint part and the second joint part and/or between the holding element and the first joint part.
It is particularly advantageous to provide at least one ring-type seal and for at least one ring-type seal to be active between the first joint part and the holding element and/or between the first joint part and the second joint part.
It may be expedient for a ring groove for receiving a ring-type seal to be provided at the outer circumference of the holding element, at the inner or outer circumference of the first joint part and/or at the inner circumference of the second joint part in the area of the joint socket.
In a further development of the invention, having its own patentable significance, a spray head fitting having an outlet tube is assigned to the manual spray head. The hose line connected with the manual spray head is guided in the outlet tube, preferably such that it can be pulled out against a restoring force. In this case, it is particularly advantageous for the manual spray head to be held in a readiness position at the outlet tube in such a manner that the coupling between the manual spray head and the hose line is arranged in the tube interior of the outlet tube.
Further developments according to the invention are contained in the description in connection with the drawing and the claims. In the following, the invention will be explained in detail by means of an advantageous embodiment.
FIG. 1 is a view of a kitchen spray head fitting illustrated in a partially cut fashion, on which a manual spray head is held by means of a pull-down pull-out device, and is connected by way of a flexible hose line to the water conduit network;
FIG. 2 is a perspective view of the flexible hose line of the kitchen spray head fitting illustrated in FIG. 1 in the area of its hose connection facing the manual spray head;
FIG. 3 is a partial longitudinal sectional view of the hose connection of the flexible hose line from FIGS. 1 and 2 having a ball-and-socket joint;
FIG. 4 is a partial longitudinal sectional view of the hose connection from FIGS. 1 to 3 connected with the flexible hose line; and
FIG. 5 is an exploded view of the hose connection from FIGS. 3 and 4.
FIG. 6 is a view of a kitchen spray head fitting on which a manual spray head is held by means of a pull-down pull-out device and connected by way of a flexible hose line to the water conduit network, where the manual spray head has at least one securing projection on the circumference side, to secure the initial position, which projection can be inserted into a corresponding securing recess on the flow-out-side front edge of the outlet tube of a sanitary flow-out fitting, by means of alignment and rotation,
FIG. 7 is a view of the kitchen spray head from FIG. 6 during alignment and rotation of the manual spray head relative to the outlet tube,
FIG. 8 is a view of the kitchen spray head from FIGS. 6 and 7 in the initial position, in which the securing projection provided on the manual spray head is inserted into the securing recess on the outlet tube,
FIG. 9 is a longitudinal section of the hose connection of the kitchen spray head fitting from FIGS. 6 to 8, provided between the manual spray head and the flexible hose line, with a hose connection configured in a manner comparable to FIGS. 1 to 5,
FIG. 10 is a view of a hose connection configured differently as compared with FIGS. 1 to 5 and FIG. 9,
FIG. 11 is a longitudinal section of a hose connection for a manual spray head, configured in a manner comparable with FIG. 9, and having a first and a second joint part as well as a holding element, where the longitudinal axes of the joint parts, which can swivel relative to one another, are disposed coaxial to one another, and
FIG. 12 is a view of the hose connection from FIG. 11 in a pivoting position of the first and the second joint part that is angled away as compared with FIG. 11.
FIG. 1 illustrates a kitchen spray head fitting 1 which has an outlet tube 2. In the outlet tube 2, a flexible hose line 3 is guided so that it can be pulled out against a restoring force and is connected with a manual spray head 4 on its out-flow side hose line end. For this purpose, a coupling 5 is provided which connects the manual spray head with the flexible hose line 3.
FIG. 1 indicates that the coupling provided for connecting the manual spray head 4 and the hose line 3 is configured as a screw-type coupling having a spray head connection with an external thread 6 on the manual spray head, which external thread 6 can be connected, preferably detachably, to a hose connection of the hose line 3. In this case, the hose connection illustrated in detail in a partial longitudinal sectional view in FIGS. 3, 4, 9, 11 and 12 has a ball-and-socket joint 7.
The ball-and-socket joint 7 has first and second joint parts 8, 9 (FIG. 2) which are connected with one another in a hinged manner and have mutually connected fluid conduits. While the second joint part 9 carries a hose stem 10 on its front end facing away from the first joint part 8, the first joint part 8 has a sleeve-shaped partial area which carries the internal thread 11 in its sleeve interior open on the front side. The external thread 6 provided on the manual spray head 4 can be releasably screwed into the internal thread 11 of the first joint part. In this case, the front edge of the manual spray head 4 facing the joint part 8 acts upon a sealing ring 24 in the sleeve interior of the joint part 8 in an axially sealing manner.
The end of the hose line 3 facing the coupling 5 is pushed onto the stem 10 (FIG. 3) and is securely and firmly held there by means of a pressing sleeve 25.
FIGS. 1, 3, 4, 9, 11 and 12 illustrate that the first joint part 6 is held with its universal-ball-joint-shaped or spherical-segment-shaped or similarly spherical front end area 12 of its wall between a form-adapted socket 13 on the second joint part 9, on the one side, and a joint head 14 on a holding element 15 provided in the inside cavity of the first joint part 8, on the other side, in a swivelable manner. (See FIGS. 3 and 4.) The holding element 15 penetrates a through-opening 31 of the first joint part 8 by means of a connecting shaft 30 acting upon the second joint part 9 and mutually connects the fluid conduits of the first joint part 8 as well as of the second joint part 9.
The sleeve-shaped partial area adjoins the spherical front-end area 12 of the first joint part 8 on the flow-off side, which sleeve-shaped partial area carries the internal thread 11 in its sleeve interior.
An external thread 17 of the holding element 15 can be screwed into an internal thread in the second joint part 9, the sleeve interior of the holding element 15 being further developed as a preferably noncircular tool working surface and here as a hexagon socket 18. The external thread 17 of the holding element 15 can be releasably screwed into the internal thread in the second joint part 9 and is water-tightly connected therein. At its end area adjoining the external thread 17, the holding element 15 is radially and/or axially sealed off with respect to the joint part 9 by means of the sealing ring 23.
It is easily recognizable in FIGS. 3, 4, 9, 11 and 12 that at least one ring-type seal 20 is provided between the holding element 15 and the first joint part 8. This ring-type seal 20 is active between the first joint part 8 and the holding element 15. For this purpose, a ring groove 21 (FIG. 4) for receiving the ring-type seal 20 is provided at the inner circumference of the first joint part 8.
In FIG. 1, the manual spray head 4 is illustrated in a readiness position, in which the spray head 4 is held at the outlet tube 2 in such a manner that the coupling 5 between the manual spray head 4 and the hose line 3 is arranged completely in the tube interior of the outlet tube 2 in a covered manner. Since the ball-and-socket joint 7 integrated in the coupling 5 ensures not only a swiveling capability but also a twisting capability of the manual spray head 4 relative to the longitudinal axis of the hose line 3, the manual spray head 4 connected with the hose line 3 is distinguished by a high flexibility and twisting capability without fear of unintentionally unscrewing the screw-type connection provided between the manual spray head 4 and the hose line 3, and without the occurrence of the usual damage to the hose close to the grip as a result of being overstressed due to movement.
From FIGS. 6 to 8, it becomes clear that in the case of kitchen spray head fittings, the initial position between the manual spray head 4 and the outlet tube 2 of kitchen spray head fitting 1 that accommodates the manual spray head 4, as shown in FIG. 8, can be secured. For this purpose, at least one projecting securing projection 33 is provided on the outer circumference of the manual spray head 4, which projection can be inserted into a corresponding securing recess 34 on the flow-out-side front edge of the outlet tube 2 by alignment and rotation. From a comparison of FIGS. 6 to 8, it is evident that the manual spray head 4 connected with the flexible hose line 3 must be rotated until the at least one securing projection 33 and the securing recess 34 assigned to it align with one another, and the manual spray head 4 can be inserted into the tube interior of the outlet tube 2, in such a manner that when this is done, the securing projection 33 also engages into the securing recess 34.
In the exemplary embodiment shown in FIG. 10, the joint ball 35 of the ball-and-socket joint 7 can be pivoted in a joint socket 36, which is provided on the spray head connection connected with the manual spray head 4. In this case, the joint ball 35 is held by a retainer nut 37 that braces the joint ball 35 between itself and the spray head connection, and is screwed onto an external thread provided on the outer circumference of the spray head connection, by way of an internal thread 11. In order for the retainer nut 37 to apply force to the joint ball 35 in sealed manner, a sealing ring 38 is provided, which is held between the retainer nut 37 and the joint ball 35, forming a seal. From FIG. 10, it is evident that the screw connection between the spray head connection of the manual spray head 4 and the retainer nut 37 can be easily loosened, if the manual spray head 4—as shown in FIGS. 6 to 8 and particularly in FIG. 7—is supposed to be rotated relative to the flexible hose line 3. Unintentional loosening of this screw connection, which can also lead to leaking of the water line in this region, is further promoted by the sealing ring 38, which permits a relative movement of the joint ball 35 relative to the retainer nut 37.
The manual spray head 4 is removed from its initial position according to FIG. 8 by means of being pulled out and down. When it is pushed back, this position fixation, which holds the manual spray head 4 in a specific preferred orientation in the outlet tube of the kitchen spray head fitting 1, is generally not encountered directly, so that the manual spray head 4 then still has to be rotated by hand until the securing projection 33 is situated in the securing recess 34, before the manual spray head 4 can be completely pushed back into the outlet tube with the partial region intended for this purpose. Because the manual spray head 4 must be rotated relative to the hose line 3 when this happens, this rotational movement can take place counter to the fastening direction of the screw connection provided between spray head connection and hose line 3. If this rotational movement takes place counter to the fastening direction of the screw connection, this screw connection is unavoidably loosened, since the torsion stiffness of the hose line 3 and the friction in the outlet tube bring about a counter-torque. Not only the bias of the seal 38 and thus the mobility of the ball-and-socket joint 7, but also the seal in this region, are influenced by loosening of the screw connection.
In contrast, it is a particular advantage of the exemplary embodiments shown in FIGS. 3 to 5, 9, 11 and 12 that the holding function, on the one hand, and the rotatability, on the other hand, are separate from one another, so that the manual spray head 4 can be rotated relative to the hose line 3 without being concerned with unintentional loosening of a screw connection provided in the region of the coupling. While in the case of the hose connector shown in FIG. 10, firm tightening of the screw connection provided between the spray head connection and the retainer nut 37 must always also lead to a reduction in mobility of the ball-and-socket joint 7 that consists of joint ball 35 and joint socket 36, in the case of the hose connector shown in greater detail in FIG. 9, for example, the hose connector provided on the manual spray head 4 can be firmly screwed onto the first joint part 8, in order to nevertheless achieve a sufficient seal, in the event of a bad sealing ring 24, without this having any detrimental effect on the mobility of the ball-and-socket joint 7 according to FIG. 9.
In FIGS. 9, 11 and 12, it is shown that the joint head 14 provided on the holding element 15 has a sphere-like outer contour in the form of a sphere segment or the like. From a comparison of the exemplary embodiment shown in FIG. 9 and the hose connection shown in FIGS. 11 and 12 it becomes clear that the ring groove 21 intended for accommodating the ring-type seal 20, provided on the inner circumference of the first joint part 8, is disposed, in relation to the holding element 15, approximately in the region of the equator or the greatest outer circumference of the sphere-like outer contour of the joint head 14 provided on the holding element 15, in such a manner that this ring-type seal 20 is exposed only to a radial stress—but not to an axial stress—and that the ring-type seal 20 therefore is subject to only slight friction forces. Because of this special arrangement of the ring-type seal 20 in the exemplary embodiment shown in FIGS. 11 and 12, the ring-type seal 20 is subject to lower friction forces, even at higher pressures, and easy pivotability of the first joint part 8 in relation to the second joint part 9, as well as to the holding element 15, is guaranteed practically independent of pressure. Since the groove disposed in the region of the equator can be worked into the inner circumference of the first joint part 8 practically in rectangular manner, this groove 21 is easier to produce and dimension. From a comparison of FIGS. 9, 11 and 12, it becomes clear that the holding element can be configured to be longer in the case of the exemplary embodiment shown in FIGS. 11 and 12, and that therefore the friction and contact surface of the first joint part 8 on the holding element 15 and on the second joint part 9 can be configured to be correspondingly larger, which reduces wear.
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