NOZZLE CARRIER DRIVE ARRANGEMENT FOR A WATER JET MASSAGING APPARATUS

Abstract

In a nozzle carrier drive for water let massaging apparatus comprising a nozzle carriage which is movable along a guide track in the longitudinal direction of a tub of the water massaging apparatus and on which a nozzle for emitting a massaging water jet is disposed, a nozzle carriage drive arrangement is provided for independently moving the massaging water jet in the longitudinal and transverse directions of the tub by drive motors which are arranged outside the tub.

Claims

1. A nozzle carrier drive arrangement for a water jet massaging apparatus comprising: a tub (1) with a longitudinal guide track (4) provided with a nozzle carriage (2) which is disposed in the tub (1) and on which at least one nozzle (3) for emitting a massaging water jet is disposed, and a drive arrangement (5, 6, 15) for moving the massaging water let in the longitudinal direction of the tub (1) and transverse thereto, the at least one nozzle (3) being arranged stationary on the nozzle carriage (2), the nozzle carriage (2) being movable in the longitudinal direction of the tub (1) along the longitudinal guide track (4), the longitudinal guide track (4) being supported by at least one transverse carriage (5) which is movably supported on at least one transverse guide track (6) disposed in the tub (1) so as to extend transverse to the longitudinal direction of the tub (1), a first drive motor (7) with a first drive shaft (8) extending transverse to the longitudinal direction of the tub (1) which drive shaft (8) drives a drive element (13) connected to the nozzle carriage (2) via a gear block (9) arranged at one end of the longitudinal guide track (4) for moving the nozzle carriage along the longitudinal guide track (4) and a second drive motor (10) with a second drive shaft (11) which extends in the longitudinal direction of the tub (1) and is connected to a drive element (15) via a gear block (12) arranged at one end of the transverse guide track (6), the drive element (15) being connected to the transverse carriage (5) for moving the longitudinal drive track (4) together with the nozzle carriage (2) in the transverse direction.

2. The nozzle carrier drive arrangement according to claim 1, wherein the longitudinal guide track (4) is connected to two transverse carriages (5) which are spaced from each other along the guide track (4) and which are movable synchronously along the transverse tracks (6) extending in a direction transverse to the longitudinal direction of the tub (1).

3. The nozzle carrier drive arrangement according to claim 1, wherein the first and second drive motors (7, 10) are arranged outside the tub (1).

4. The nozzle carrier drive arrangement according to claim 1, wherein the drive shafts are splined shafts.

5. The nozzle carrier drive arrangement according to claim 1, wherein the drive shafts are square shafts or other multi-edge shafts.

6. The nozzle carrier drive arrangement according to claim 1, wherein the drive elements are revolving pull belts, and wherein at the track end opposite the driving gear block in each case a reversing block (14, 16) for the respective pull belt is arranged.

7. The nozzle carrier drive arrangement according to claim 1, wherein the nozzle (3) is arranged on the nozzle carriage (2) so as to be rotatable about an axis thereof.

8. A nozzle carrier drive arrangement for a water jet massaging apparatus accommodated in a tub (1) and comprising; a transverse guide track (4a) provided with a nozzle carriage (2a) provided with at least one nozzle (3a) arranged stationary on the nozzle carriage (2a) for emitting a massaging water jet supported on the transverse guide track (4a) so as to be movable along the transverse guide track (4a), and a drive arrangement (5, 6, 15) for moving the massaging water jet carriage (2a) in a longitudinal direction transverse to the longitudinal direction of the tub (1) and transverse thereto, the transverse guide track (2a) being supported on at least one longitudinal carriage which is movable along a longitudinal guide track (6a) extending in the longitudinal direction of the tub (1), a first drive motor (7a) for driving a first drive shaft (8a) extending in the longitudinal direction of the tub (1), which first drive shaft (8a) extends through a drive element (9a) which is arranged at one end of the transverse guide track (4a) so as to be movable with the transverse guide track (4a) along the first drive shaft (8a) and which is operatively connected to the nozzle carriage (2a) via the gear element (9a), and a second drive motor (10a) for driving a second drive shaft (11a) extending in a direction transverse to the longitudinal direction of the tub (1) for driving, via a gear block (12a) arranged at the end of the longitudinal guide track (6a), a drive element (15a) that is connected to the longitudinal carriage (5a) supporting the transverse guide track (4a) with the nozzle carriage (2a) in the longitudinal direction of the tub (1).

9. The nozzle carrier drive arrangement according to claim 8, wherein the transverse guide track (4a) is connected to two longitudinal carriages (5a) which are arranged each on one of two longitudinal guide tracks (6a) supported in the tub (1) in spaced relationship and which are movable synchronously along a longitudinal guide tracks (6a).

10. The nozzle carrier drive arrangement according to claim 8, wherein; the first and second drive motors (7a, 10a) are arranged outside the tub (1).

11. The nozzle carrier drive arrangement according to claim 8, wherein the drive shafts (8a, 11a) are splined shafts.

12. The nozzle carrier drive arrangement according to claim 8, wherein the drive shafts (8a, 11a) are square shafts or other multi-edge shafts.

13. The nozzle carrier drive arrangement according to claim 1, wherein the drive elements include revolving pull belts (13a, 15a), and wherein at the guide track end opposite the driving gear blocks (9a, 12a) in each case a reversing block (14a, 16a) for the respective pull belt (13a, 15a) is arranged.

14. The nozzle carrier drive arrangement according to claim 1, wherein the nozzle (3a) is arranged on the nozzle carriage (2a) so as to be rotatable about an axis thereof.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0013] FIG. 1 is a schematic top view of a nozzle carriage drive arrangement of a water jet massaging device,

[0014] FIG. 2 shows the arrangement of FIG. 1 in an isometric perspective representation as seen at an angle from above, and

[0015] FIG. 3 shows an alternative nozzle carriage drive arrangement

DESCRIPTION OF EXEMPLARY EMBODIMENTS

[0016] In the following description, the designation carriage refers always to a sliding or wheel- or roller-supported embodiment of the carriage.

[0017] The figures show schematically a tub 1 of a water jet massaging apparatus and the nozzle carrier drive mechanism which is arranged in the area of the tub bottom within the tub for driving a nozzle support carriage 2. On the carriage 2, a nozzle 3 is rigidly supported and is connected, via a flexible hose which is not shown, to a pump for supplying water to the nozzle 3 for directing a water jet upwardly against a support sheet which is not shown but which closes the tube space at the top and serves as support foil for a patient.

[0018] The nozzle may be rigidly mounted to the nozzle carriage 2 but it may also be arranged movably, in particular, rotatably about its axis. The latter has the advantage that the hose attached thereto is subjected to less strain since the nozzle can then follow the angular movement of the hose during travel of the nozzle carriage 2.

[0019] The nozzle carriage 2 is movable along a guide track 4 extending in the longitudinal direction of the tub 1. The guide track 4 for the nozzle carriage is supported at its opposite end areas by two transverse carriages 5, which are each movably supported by a transverse track 6 extending transverse to the longitudinal direction of the tube 1.

[0020] In principle, a single transverse track 6 with a carriage 5 would be sufficient if it would be arranged centrally with respect to length of the guide track 4 and would be wide enough to firmly support the guide track 4.

[0021] The nozzle 3 arranged on the nozzle carriage 2 and, together therewith, the massaging water jet emitted from the nozzle 3 is movable by the movement of the nozzle carriage 2 along the guide track 4 in the longitudinal direction of the tub 1, and, at the same time, in a direction transverse to the longitudinal direction of the tub by a movement of the transverse carriages 5 which support the guide track 4 on the guide tracks 6 in the transverse direction of the tub.

[0022] The longitudinal movement, of the nozzle carriage 2 in the longitudinal direction of the tub is initiated by a drive motor 7 which is arranged outside the tub 1 and connected a transverse drive shaft 8 which extends transverse to the longitudinal direction of the tub. The transverse drive shaft 8 is presided, with a gear block 9 which is arranged at an end of the guide track 4 and is movable along the drive shaft 8 together with the guide track 4 in the transverse direction of the tub. The gear block 9 transmits the rotation of the drive shaft 8 to a longitudinal drive element 13 for the movement of the nozzle carriage 2 along the guide track 4.

[0023] The transverse movement of the nozzle carriage 2 is obtained by means of a drive motor 10 which is also arranged outside the tub I and which drives a longitudinal drive shaft 11 which extends in the longitudinal direction of the tub. Via fixed gear blocks 12, which are arranged at the ends of the fixed transverse tracks 6, the rotation of the longitudinal drive shaft 11 is converted to a synchronous movement of drive elements 15 for the transverse movement of the transverse carriages 5 which support the guide track 4.

[0024] The transverse drive shaft 8 and the longitudinal drive shaft 11 are preferably splined shafts but they may also be square shafts or other multi-edge shafts. The shafts may also be simple shafts which are provided in the areas of the drive blocks 9, 12 with a transmission element which is connected to, or formed from, the shaft for rotation therewith.

[0025] The drive element for the longitudinal movement of the nozzle carriage 2 may also be a revolving pull belt 13, which is connected to the nozzle carriage 2 and is driven via the gear block 9 and is redirected by redirecting block 14 arranged at the end of the guide track 4 opposite the gear block 9.

[0026] Similarly, the drive elements for the transverse carriage 5 may be pull belts 15 which are connected to the respective transverse carriages 5 and are driven by the respective gear blocks 12 and are redirected at the end of the transverse guide tracks opposite the gear blocks 12 by redirecting blocks 16,

[0027] It is noted that instead of the pull belts 13, 15 other known means for the transfer of a drive movement from the respective drive blocks 9 or respectively 12 to the nozzle carriage 2 or, respectively the transverse carriages 5 may be used.

[0028] In the exemplary embodiment, only one nozzle carriage 2 is shown which is movable in the longitudinal and the transverse direction of the tub via a longitudinal guide track 4 supported on two transverse guide tracks 6 in the longitudinal and the transverse directions of the tub, wherein the nozzle carrier drive shown schematically in the drawings covers the whole tub bottom area. Alternatively, for example, two such arrangements may be arranged in the tub bottom area in parallel provided for two nozzle carriages, each provided with at least one nozzle and operating synchronously with, or independently of, each other.

[0029] It is also possible to design the exemplary embodiment of the shown arrangement in a 90 turned concept so that the nozzle carriage is movable on a transverse guide track in the transverse direction of the tub and the transverse guide track is movable via two longitudinal, carriages on two parallel longitudinal tracks in the longitudinal direction of the tub. Also in this case, in principle, a centrally arranged longitudinal carriage would be sufficient.

[0030] In the alternative embodiment of the nozzle carrier drive arrangement for a jet massaging apparatus wherein the drive arrangement is essentially turned by 90 as shown in a top view in FIG. 3 which is similar to the representation of FIG. 1. Herein, the nozzle carriage 2a is provided with the nozzle 3a which is movably supported on a transverse track 4a. The transverse track which extends in a direction transverse to the longitudinal direction of the tub 1 is supported at its opposite ends by track support carriages 5a. The track support carriages 5a are movable in the longitudinal direction of the tub 1 along longitudinal tracks 6a disposed in the tub 1.

[0031] The movement of the water jet support carriage 2a in a direction transverse to the longitudinal extension of the tub 1 is provided for by a drive motor a which is arranged outside the tube 1. The drive motor 7a drives a longitudinal drive shaft 8a which transmits the rotation of the motor to a drive block 9a which is arranged at one end of the transverse track 4a and which transmits the rotation of the drive shaft 8a to a drive element 13a for moving the water jet nozzle carriage 2a in a direction transverse to the tub 1. If the drive element 13a is for example a pull belt drive, a reversing block 14a is arranged at the opposite end of the transverse track 4 a via which the pull belt is reversed.