ROTARY JET DEVICE AND DIFFERENT JET SYSTEM

专利摘要:
This invention relates to a rotating jet mechanism and a different jet system. The rotary jet mechanism comprises a fixed part, a drive system, sliding units and a plurality of outlet nozzles, said outlet nozzles being removable and removable from the fixed part, said sliding unit being able to slide screw of the fixed part. The drive system is actuated by the hydraulic effect, its drive mechanism must be connected to the sliding units through the transmission in order to drive and slide the sliding units, the two sliding units are connected to the output nozzles, so that said outlet nozzles rotate about a longitudinal axis with the axis of said outlet nozzles inclined with respect to said longitudinal axis. The different jet system also includes a control mechanism, It is compact and slim with a delicate structure, an outlet nozzle can take out the water at different jets. Said control mechanism is connected to the drive system and the sliding units through the transmission, said sliding unit is connected to said output nozzles to set them in motion, the sliding of the various sliding units generates the different jets at said output nozzles, thus saving the flow space.
公开号:FR3032360A3
申请号:FR1562320
申请日:2015-12-14
公开日:2016-08-12
发明作者:Xiaofa Lin；Xiaoshan Lin；Qiqiao Liu；Xiaoqing Deng；Caibo Gu
申请人:Fujian Xihe Sanitary Ware Technology Co Ltd；
IPC主号:

专利说明:

[0001] FIELD OF THE INVENTION The invention relates to a device for controlling the water jet delivered by a showerhead. More particularly, the invention relates to a shower head having different settings of the jet and even more particularly a shower head having a rotary jet mode.
[0002] State of the art Currently, in known shower heads, the same group or the same category of outlet ports can achieve a simple function of the water jet produced by the shower head, for example the functions such as splashing shower water, massage water, bubble water, steam water, etc. However the assignment of simple functions to a category of orifices can no longer meet the needs of the market, therefore, researchers are dedicated to the coordination of different water cavities and outlets, to perform different functions with the same categories of ports during switching to meet the needs of consumers. However, the devices designed to coordinate cavities and outlets reveal the following disadvantages: 1. The functions obtained are simple; 2. The jets of water produced by different orifices require more components, which increases the volume of the shower head, and goes in the opposite direction of the compactness and the lightness generally sought, and in practice leads to limit the number of jet shapes for a showerhead. 3. Due to the limited space available, various streams have been limited which affects the desired effect. Thus, the current jet mechanism can form the different output modes 5 only by the change of the water pipes and the coordination of the different outlets, which can not realize the different jets through the same groups or categories of outlets.
[0003] SUMMARY OF THE INVENTION The purpose of this invention is to overcome the flaws of the present art, by a device with various types of jets, including spiral jet. It is compact with optimal functionality as well as a delicate structure that can be tilted between the 360 degree spiral massage water and the single oscillation massage water, saving the flow space, the same group or category of outlets that can form the different modes of jets. First technical description to solve the technical problems for this invention: The rotary jet mechanism comprises a fixed part, a drive system, at least two sliding units as well as a plurality of outlet nozzles, said outlet nozzles being Removable and detachable from said fixed part, the at least two sliding units can slide with respect to the fixed part. The drive system hydraulically actuates its transmission mechanism which must be connected to the at least two sliding units in order to drive and slide said at least two sliding units, said at least two sliding units are connected to the nozzles. output so that said outlet nozzles rotate about a longitudinal axis with the axis of said outlet nozzles inclined with respect to said longitudinal axis.
[0004] In one embodiment: the at least two sliding units are in contact in a plane parallel to the sliding planes of the at least two sliding units, said at least two sliding units are provided with slides. The upper portions of the outlet nozzles may be connected to the dedicated slides of the at least two sliding units, the movement of said at least two sliding units then driving said at least two output nozzles in a rotational movement. In one embodiment: said fixed part comprises a mounting structure, the outlet nozzles comprise hemispherical surfaces, these surfaces fit and are connected to the mounting structure so that said output nozzles can perform universal activity. . In one embodiment: the at least two sliding units are parallel to each other, their surfaces are in contact in a plane parallel to the sliding planes of said at least two sliding units.
[0005] In one embodiment: it also comprises two stops which are used to guide the sliding of the at least two sliding units, they are located on either side of said at least two sliding units. In one embodiment: the drive system comprises a paddle wheel, said paddle wheel has an eccentric shaft which passes through the at least two sliding units and forms a movable joint, said paddle wheel rotates under hydraulic effect by causing rotation of said eccentric shaft which drives said at least two sliding units in place on said eccentric shaft in a sliding motion. In one embodiment: the at least two sliding units have oblong holes. Said drive system comprises a rotary eccentric shaft located at the holes, the rotation of said eccentric shaft drives the at least two sliding units in a sliding motion. Second technical description for solving the technical problems of this invention: The different jet system comprises a fixed part, a drive system, at least two sliding units, a plurality of outlet nozzles and a control mechanism, said outlet nozzles being removable and releasable from the stationary portion and said at least two sliding units slidable with respect to said stationary portion. The drive system operates under the hydraulic effect, said drive system and the at least two sliding units are connected through the control mechanism to control at least one of said at least two sliding units to slide, said sliding unit being connected to said output nozzles to move them, the multiple sliding possibilities of the at least two sliding units cause the different movements of said output nozzles and generate different jets. In one embodiment: it is possible to control the sliding of one or both of said at least two sliding units through a control mechanism, the output nozzles oscillate if only one of said at least two sliding units slides, when two of the at least two sliding units slide at the same time, said outlet nozzles rotate about a longitudinal axis with the axis of said outlet nozzles inclined with respect to said longitudinal axis.
[0006] In one embodiment: the surfaces of the at least two sliding units are in contact in a plane parallel to the sliding planes of the at least two sliding units, said sliding units having slides. The upper parts of the outlet nozzles can be nested in the wings, the displacement of the at least two sliding units in different directions then drives said output nozzles in a rotational movement.
[0007] In one embodiment: said fixed part has a mounting structure, the outlet nozzles have hemispherical surfaces, these surfaces fit and are connected to the mounting structure so that said output nozzles can perform a universal activity. In one embodiment: the at least two sliding units are arranged parallel to each other, moreover, their surfaces are in contact in a plane parallel to the sliding planes of said at least two sliding units. In one embodiment: It also comprises two stops which are used as sliding guides for the at least two sliding units, they are located on either side of said at least two sliding units.
[0008] In one embodiment: the drive system comprises a vane wheel, said wheel has an eccentric shaft which passes through the at least two sliding units and forms a movable junction, the wheel rotates under the hydraulic effect causing the rotation of the eccentric shaft, which drives said at least two sliding units placed on said eccentric shaft in a sliding movement. In one embodiment: the sliding units have holes in oblong form. Said driving system has a rotary eccentric shaft, which is located at the hole, the rotation of the shaft drives the sliding units in a sliding movement. In one embodiment: the eccentric shaft comprises a split type fixed junction portion and a movable eccentric unit. Said fixed junction portion is connected to a first of the at least two sliding units, said movable eccentric unit is connected to a second of said at least two sliding units, the control system controls the separation and connection of said junction portion In case of separation, said eccentric shaft will cause the first of said at least two sliding units to slide, in case of joining, said eccentric shaft will cause the at least two sliding units to slide simultaneously. In one embodiment: the control system comprises the convenience part and the mutually compatible coordination part. The convenience portion is located at one end of the joining portion. Said coordination part is located at one end of the mobile eccentric unit. In practice, the coordinating part is either in contact with or separate from the convenience part, thereby attesting to the junction or separation of the mobile eccentric unit and the fixed junction part. In one embodiment: the control system includes a rotatable portion, a detachable junction pivot component on the movable eccentric unit, and a spring.
[0009] Said rotating part interacts with said pivoting component, said spring is mounted between the movable eccentric unit and the vane wheel. Rotation in one direction of said rotatable portion may urge said pivotal component, which drives said movable eccentric unit connected to said pivoting component to be moved, such that said spring is compressed, the coordinating portion and the convenience portion at an end of said mobile eccentric unit are in contact, conversely, rotation in the other direction of the rotating part returns said spring to the rest state and said pivoting component to its initial place, said coordination part located at one end. said mobile eccentric unit is then separated from said convenience part.
[0010] In one embodiment, the surface of the rotatable portion exhibits an inclined guide pattern. The pivoting component forms a spacer which corresponds to the relief, the rotation of the rotary part allows, through the contact between the inclined face with said spacer, to drive said pivoting component in translation. In one embodiment: said nozzle comprises a body having exit and inlet ports. The hemispherical surfaces have been implemented at the center of the outlet orifice. The outer wall of the outlet port approaches the inlet port and forms a connecting sheath between two units. Third technical description to solve the technical problems for this invention: The showerhead includes an exit port and an exit hood, which hood is considered a part of the stationary unit, said stationary unit has an inlet duct that can be connected to the outlet port.
[0011] In one embodiment: said fixed portion includes a support panel, a panel of the outlet port, an outlet cover for installing said support panel and said outlet port panel. Said support panel is connected with the panel of the outlet orifice and forms a cavity dedicated to the embedding of the at least two sliding units.
[0012] In comparison with current technology, this invention shows the following favorable effects: (1) This mechanism must cause the at least two sliding units to slide so that the outlet nozzles rotate about a longitudinal axis of rotation with the the axis of said outlet nozzles inclined relative to said longitudinal axis, exiting the 360 degree spiral massage water, as compared to the traditional structure, this invention has a simpler and more compact structure, optimized functionality and saves debit space. (2) The control mechanism is connected to the drive system and at least two sliding units by controlling at least one of said at least two sliding units to slide, said at least two sliding units being connected to the output nozzles for mobilize, the sliding of a different number of sliding units causes the different movements of said outlet nozzles and different jets, this invention has a delicate structure, the same output ports can achieve at least two output modes, saving consequently the occupation space. (3) It can control one or two of the at least two sliding units to slide through a control mechanism, the nozzle oscillates if only one of said at least two sliding units slide, when two of said at least two sliding units 15 slide at the same time, the outlet nozzles rotate about a longitudinal axis of rotation with the line of said outlet nozzles inclined relative to said longitudinal axis, the modes of massage jets or single oscillation can be optionally tilted, the device is easy to use, and adapted to the market need. (4) This invention has a simple structure, and easy to implement, the components are easy to manufacture, it is less expensive than a traditional structure. Moreover, it is more versatile, in order to bring a real added value to this product, we have solved technical problems such as the 360 degree rotating massage shower head, thus answering the development trends of the current market. exceeding the limitation of jet simplicity, and highlighting significant economic and development potential.
[0013] BRIEF DESCRIPTION OF THE FIGURES: The figures of the device of the invention are provided as a reference to the description, which is a part of the present device, the illustrated examples and the description of embodiments are provided to explain this invention, and does not limit the invention. The figures show: FIG. 1 an exploded isometric view of a jet device according to the invention; Figure 2 an isometric view of the vane wheel of the invention; Figure 3 an isometric view of the outlet nozzle of the invention. Figure 4 an isometric view of the first of the at least two sliding units installed on the support panel of the invention.
[0014] 5 is an isometric view of the second of the at least two sliding units installed on the panel of the outlet orifice of the invention. Figure 6 an isometric view of the control mechanism of the invention. Figure 7 isometric sectional view of the device showing the single oscillation massage water outlet.
[0015] Figure 8 is a sectional view in a radial plane of the device showing the massage water outlet at the single oscillation. Figure 9 Sectional view 2 for the massage water outlet at single oscillation. Figure 10 isometric view of the control mechanism of this invention. Figure 11 Isometric view of the device with a removed portion and showing the 360 degree massage water outlet. Figure 12 Cross-sectional view in a radial plane showing the 360 degree 360 degree 360 degree massage water outlet. Figure 13 Cross-sectional view in a radial plane, offset from the sectional plane of Figure 12, showing the 360 degree massage water outlet. Figure 14 Sectional view in a plane parallel to an axial plane and showing the 360 degree massage water outlet. Figure 15 Sectional view of the showerhead incorporating the device of the invention. Figure 16 Schematic representation of the additional hand shower of the invention. EXAMPLES OF EMBODIMENTS To better illustrate the technical problems that need to be solved as well as the favorable effects of this invention, the invention will be better understood upon reading the technical description of exemplary embodiments below, and referring to the diagrams that further describe the device. The examples of embodiments described and illustrated are only intended to present the invention but are not limiting. As shown in Figures 1 to 5, the invention relates to a different jet shower head device which comprises a fixed part, a drive system, at least two sliding units 2 and 3, a plurality of outlet nozzles 5 as well as a control mechanism 7. Said fixed part has a mounting structure and the outlet nozzles 5 have hemispherical surfaces 51. Said hemispherical surfaces 51 are adapted to the mounting structure and are connected to said mounting structure. mounting such that said output nozzles 25 perform universal activity. The drive system comprises a vane wheel 1, said vane wheel 1 rotates 3032360 11 under the effect of hydraulic force and has an eccentric shaft 10. The at least two sliding units 2 and 3 are placed parallel between they and move relative to the fixed part, comprise surfaces in contact in a plane parallel to the sliding planes of the at least two sliding units. The at least two sliding units are connected to the drive system by a transmission of the control mechanism 7, in order to control the sliding of at least one of the at least two sliding units 2 or 3. Said sliding units 2 and 3 are connected to said outlet nozzles 5 to mobilize them, the differential sliding between the at least two sliding units 2 and 3 causes the different movements of said outlet nozzles 5 and different jets. It is possible to control one or both of the at least two sliding units via the control mechanism 7: the outlet nozzles 5 oscillate transversely or longitudinally if only one of the at least two sliding units 2 or 3 slides, when the at least two sliding units 2 and 3 slide at the same time, said outlet nozzles 15 rotate about a longitudinal axis with the axis of said outlet nozzles inclined with respect to said longitudinal axis. Preferably, implement the stop system 4 to limit the displacement of the at least two sliding units, which system is installed on either side of the at least two sliding units 2 and 3. In the embodiment described, it It is possible to control the sliding of one or two of the at least two sliding units at the same time: if the first unit slides, the outlet nozzle oscillates to the left or to the right, if the second unit slides, the nozzle oscillates forward or backward. Said at least two sliding units 2 and 3 are respectively connected to the outlet nozzles 5 and the eccentric shaft 10 by the slides 21 and 31 as well as the holes 20 and 30.
[0016] Said slides 21 and 31 as well as said holes 20 and 30 are of oblong shape, in addition, their long edges are oriented perpendicularly to the abutment 4. Preferably, the oblong 3032360 12 slides 21 and 31 extend outwardly. simultaneously with the relatively short edges of the hole sites 20 and 30 of oblong shape and form alternative parts in the form of two half-circles. The slots 21 and 31 of oblong shape and two short edges of the hole sites 20 and 30 respectively interact with the outlet nozzle 5 and the eccentric shaft 10, the long edge of which corresponds to the alternative part. The eccentric shaft 10 passes through the sliding units 2 and 3 and forms a movable junction, the vane wheel 1 rotates under the hydraulic effect by causing the rotation of the eccentric shaft 10, which drives the at least two sliding units arranged. place on the eccentric shaft 10 in an alternating sliding. In the actual structure: said eccentric shaft 10 passes through the holes 20 and 30, which rotate with said eccentric shaft 10 by driving the at least two sliding units 2 and 3 in an alternating sliding motion. Said outlet nozzles 5 comprise a body 50 provided with outlet and inlet ports 5A and 5B. The hemispherical surfaces 51 have been placed in the center of the outlet port 50. The outer wall of the outlet port 50 near the inlet port 5A forms joining sheaths 52 and 53 between the at least two sliding units 2 and 3. The junction sleeves 52 and 53 at the top of the outlet nozzles 5 can be inserted into the slides 21 and 31 of the at least two sliding units 2 and 3, and move said at least two units sliders 2 and 3 in different directions and cause said connecting sleeves 52 and 53 of said outlet nozzles 5 to move peripherally, causing the rotation of outlet nozzles 5. Said fixed part comprises a body 6 which is composed of a support panel 61, a panel of the outlet port 62, an outlet cover 63 for the installation of said support panel 61 and said panel of the outlet port 62. Said support panel 30 is connected to said panel of the outlet orifice 62 and forms a cavity dedicated to the embedding of the at least two sliding units 2 and 3. The stops 4 are mounted on the support panel 61 and the panel of the outlet port 62. The hemispherical surface 51 of the outlet nozzle 5 is located between the panel of the outlet port 62 and the outlet cover 63.
[0017] In the actual structure: The eccentric shaft 10 comprises a split type fixed junction portion 10A and a movable eccentric unit 10B. Said fixed junction portion 10A is embedded in the first of the at least two sliding units 2, said movable eccentric unit 10B is embedded in the second of the at least two sliding units 3. Said control system controls the separation and the connection of the part of fixed junction 10A and 10 eccentric mobile unit 10B, in case of separation, the eccentric shaft will cause the first of at least two sliding units 2 to slide, in case of junction, said shaft will cause the at least two sliding units 2 and 3 to slide simultaneously. The control system 7 includes the convenience portion 101 and the mutually compatible coordination portion 102. Convenient portion 101 is positioned at the end of junction portion 10A. Said coordinating portion 102 is located at one end of the mobile eccentric unit 10B. In practice, the coordination part is either in contact with or separated from the convenience part, thus attesting to the junction or separation of the mobile eccentric unit and the fixed junction part. If necessary, a clutch can be put in place between the mobile eccentric unit 10B and the fixed junction portion 10A.
[0018] More specifically, the control system 7 comprises a rotatable portion, a detachable junction pivot member 73 on the movable eccentric unit 10B, and a spring 74. Said rotary portion contains a setting disk 71 and a disk sleeve 72 Said sheath 72 envelopes the adjusting disc 71 and rotates the pivoting component 73, said spring 74 is mounted between the movable eccentric unit 10B and the vane wheel 1. The upper surface of the disc sheath 72 forms a 720 inclined 720A guiding relief.
[0019] The swivel component 73 forms a strut 730 bonded to the relief 720. The rotating disk sheath 72 causes the spacer 730 to rotate along the inclined guide surface 720A to the top of the land 720, helping to bring it closer. mobile eccentric unit 10B of the fixed junction portion 10A located on the vane wheel 1. On the contrary, when the rotating disk casing returns to its original location, it contributes to moving the movable eccentric unit away from the fixed junction portion the paddle wheel. More concretely: turning the adjusting disc 71 in one direction causes rotation of the rotary disc sheath 72 and with it the pivoting component 73 through the inclined guide surface and the relief spacer, bringing the unit closer together. mobile eccentric 10B which is connected to the pivoting component 73 towards the fixed junction portion 10A, and compressing said spring 74, so that the coordination part and the convenience part located at one end of the mobile eccentric unit 10B are connected, the fixed junction portion may cause the mobile eccentric unit 10B to rotate simultaneously. When turning the adjusting disc 71 in the other direction the spring returns to the state of rest 15 to release the pivoting component, the coordination part and the convenience part located at one end of the mobile eccentric unit are separated, the fixed junction portion rotates but the mobile eccentric unit 10B does not rotate. In the detailed embodiment (illustrated in FIGS. 1-15), the different jet system comprises the following parts: Pallet wheel 1, spring 74, movable eccentric unit 10B, support panel 61, two sliding units 2 and 3, stopper 4, outlet port panel 62, swivel component 73, disk casing 72, outlet cover 63, outlet nozzles 5 and adjusting disc 71.
[0020] Concerning the flow mechanism, the eccentric shaft 10 of the vane wheel 1 passes through the hole of the support panel 61 and interacts with the at least two sliding units 2 and 3.
[0021] The eccentric shaft 10 on the vane wheel 1 adopts a split structure, which comprises a fixed junction portion 10A and a movable eccentric unit 10B. Said fixed junction portion 10A is located in the first of at least two sliding units 2, its surface forms a part of convenience 101 for adaptation. Said mobile eccentric unit 10B is located in the second of the at least two sliding units 3 and has a coordinating portion 102 which adjusts to the convenience portion 101. The fixed junction portion 10A of the eccentric shaft 10 passes through a hole 20 in the center of said first of the at least two sliding units 2, the long edge of the hole 20 is oriented perpendicular to the direction of sliding, said first of the at least two sliding units 2 is nested in the support panel 61, and limited by the stop 4 of the support panel 61, it can only slide from left to right repeatedly when the eccentric shaft 10 rotates. In addition, the coordinating portion 102 of the mobile eccentric unit 10B adapts to the convenience portion 101 of the fixed junction portion 10A, under the effect of the spring 74, the movable eccentric unit 10B is in contact or detached from the fixed junction portion 10A of the vane wheel 1, 15 of which a hole 30 in the center of the second of the at least two sliding units 3 coordinates with the movable eccentric unit 10B, the long edge of the hole 30 is arranged perpendicularly in the sliding direction, said second of the at least two sliding units 3 is nested with the panel of the outlet orifice 62, and limited by the stop 4 of this panel 62, it can only slide back and forth so repeated when the movable eccentric shaft 10B rotates.
[0022] All the outlet nozzles 5 are nested in the ducts corresponding to the panel of the outlet orifice 62 and the outlet cover 63, the outlet orifice 5B of said outlet nozzles 5 passes through the hole of the outlet cover 63, two Junction sheaths 52 and 53 are formed at the inlet port 5A of the outlet nozzles 5. Two sheaths 52 and 53 are releasably engaged in the slides 21 and 31 of the at least two sliding units 2. and 3. The outlet nozzles 5 form an oscillating portion 51 having a hemispherical surface 51 at the center of the outlet nozzles 5, mounted between the outlet port panel 62 and the outlet cover 63, which interacts with the surface. spherical and forms a free rotation mode according to the rotation of the spherical surface. The control mechanism 7 (this invention takes the rotary tilting mechanism as a reference, push-pull button or push button mechanisms etc., this embodiment preferably selects the rotary tilting mechanism, taking into account the smoothness and the lightness of the product, not only for the present method of realization) passes through the central hole of the outlet cover 63 by the extension at the bottom of the adjusting disc 71, in combination with the connecting piece and positioning of the sheath In addition, the rotating component 73 is mounted in the central hole of the outlet port panel 62, the pivoting component 73 of which forms a spacer 730 on the side wall and positions the outlet port panel 62. in the slide, so that the pivoting component 73 can move only upwards or downwards. The pivoting component 73 further has a spacer 730, which interacts with the inclined guide surface 720A at the embossment 720 on the rotating disk sleeve 72, when the spacer 730 and the inclined guide surface 720A of the relief 720 make appearing an offset angle, its pivoting component 73 does not generate any offset with the rotating disk casing 72. When the spacer 730 slides along the inclined 720A land surface of the relief 720 to the end, the pivoting component and the rotating disk sheath 72 may generate a shift equivalent to the height of the inclination.
[0023] The other side of the pivoting component 73 and the bottom face of the movable eccentric unit 10B are taken as the contact faces, in the absence of an offset for the pivoting component 73, under the spring effect 74, the unit movable eccentric 10B is detached from the fixed junction portion 10A on the vane wheel 1. As the pivoting component 73 moves, the movable eccentric unit 10B is connected to the fixed junction portion 10A on the vane wheel 1 under the spring effect 74.
[0024] On the contrary, when the rotating disk casing returns to its original position, it causes the movable eccentric unit to detach from the fixed junction portion on the vane wheel.
[0025] 3032360 17 Operating Principle: (shown in Figures 6-15), take the shower head to the different jet system for this invention as a reference, set up an oblique basin at the inlet end of the cavity of the shower head, the water pushes the wheel 5 blades 1 to turn through this basin, then fills the internal cavity of the outlet cover 63 through the chiseled part in the middle of the vane wheel 1, then the water is dispensed into the cavity to the outlet nozzles 5 and discharged through said outlet nozzles. When the adjusting disk 71 is turned to the left, the convenience portion 101 of the fixed junction portion 10A of the vane wheel 1 is separated from the coordination portion 102 of the mobile eccentric unit 10B when the When the vane wheel 1 rotates, the fixed junction portion 10A of the eccentric shaft 10 coordinates with the hole 20 and makes the limitation through the abutment 4, the first sliding unit generates a repeated sliding from left to right.
[0026] The first of the at least two sliding units 2 has a hole 20 in the center, the long edge of said hole 20 is disposed perpendicular to the direction of sliding, to ensure that the rotation of the fixed junction portion 10A of the eccentric shaft 10 can cause the sliding of said first of at least two sliding units 2 to the left or the right. When said first one of the at least two sliding units 2 moves in accordance with the movement of the eccentric shaft to the left, the nozzles 5 move to the left at the same time by an identical distance, since said outlet nozzles 5 are nested by means of a connecting sheath 52 in the slide 21 of the first of the at least two sliding units 2 and that the orientation of the slide 21 is identical to that of the hole 20. Due to the restriction of the With the hemispherical surface, the outlet nozzle can rotate only at a given angle around the hemispherical surface 51 of the outlet nozzle 5. When the first of the at least two sliding units 2 moves to the right, the nozzle 3032360 18 output 5 turns to the left of a given angle. As a result, the water passes through the inlet and outlet ports 5A and 5B of the outlet nozzle 5, forcing the first of the at least two sliding units 2 to slide to the left or right, forming a massage flow rate. the left and right single oscillation exit nozzle.
[0027] When the adjusting disc 71 is rotated to the right, the convenience part 101 of the fixed junction part 10A of the vane wheel 1 is connected to the coordination part 102 of the mobile eccentric unit 10B, when the 1 rotates, the movable eccentric unit 10B rotates synchronously and eccentrically with the vane wheel 1, which stimulates the at least two sliding units 2 and 3 to slide in a periodic movement from left to right or forward in back. The second of the at least two sliding units has a hole 30 at its center which is aligned with the first of the at least two sliding units 2, the long edge of the present hole 30 is set perpendicular to the sliding direction, thus the shaft eccentric 10 rotates the mobile eccentric unit 10B, causing said second one of at least two sliding units 3 to slide forwards or backwards. Since the at least two sliding units 2 and 3 have mutually perpendicular orientations, when the eccentric shaft 10 rotates completely, the eccentric shaft 10 passes through four different orientations, the outlet nozzle 5 rotates around the hemispherical surface 51 and generates the jets in four directions, when the eccentric shaft 10 rotates and passes through these four positions. When the eccentric shaft 10 has rotated 90 degrees counterclockwise, at that time, the first sliding unit 2 follows a linear path imposed by the eccentric shaft 10 of the Maximum eccentricity at the minimum eccentricity, so that the outlet nozzle 5 can move around the center from the left side. At the same time, the second of the at least two sliding units 3 follows a linear path 3032360 19 imposed by the eccentric shaft 10 from the minimum eccentricity to the maximum eccentricity, so that the outlet nozzle 5 can move around the upper part from the center, the combination of the two paths allowing said outlet nozzle 5 to form a three-dimensional arc, likewise, when said eccentric shaft 10 makes a circle, said outlet nozzle 5 then rotates peripherally in following a combined movement of oscillation and rotation. When the water passes through the outlet nozzle 5, the nozzle 5 forms a spiral massage jet in the form of radiation. In summary, it is sufficient to adjust the angle of the adjusting disk to achieve the switchover between the two types of jets. This device, easy to use, includes an outlet cover 10 located on the shower head, which is therefore a multifunctional hand shower. the tilting device for the two jets can also be installed on other devices, in particular the additional shower hand shower (see figure 16), since the space required for the extra hand shower is very limited, it can not be designed With a simple function, this mechanism equips an additional compact shower with two different jets, which completely subverts the existing models. The coordinated use of the at least two sliding units and the eccentric shaft forms a 360 degree rotating massage jet. In comparison with a traditional device, this invention has a simpler and more compact structure, for optimized functionality and space saving. The combination of the 360 degree rotating massage jet with the single oscillation massage, the passage of which from one to the other can be achieved by means of the control mechanism, makes it possible to overcome the limitation of the devices. traditional ones for which a single jet is associated with the same types or groups of outlets. Its structure is discreet and fine and allows to obtain at least two different types of jets, thus saving space. In addition, through the control mechanism, the jets 25 can be tilted either in spiral massage mode or in single oscillation mode, which is easy to handle and well adapted to the market need. Furthermore, the invention has significant development potential. The invention solves technical problems, responds to the development trends of the current market, and eliminates the limitation of the simplicity of the jets, while showing significant economic and development potential. The above presentation relates to the operating cases contemplated for this invention as mentioned above. It should be known that this invention is not limited only by this text, the other cases of operation must be taken into consideration, which can be applied in all circumstances and all cases. This invention can be modified according to the related techniques and instructions above. The modification and variation described in this text is not devoid of spirit and scope from this invention, and should be subject to the scope of the claims for this invention.

权利要求:
Claims (16)
[0001]
REVENDICATIONS1. Rotary jet device characterized in that it comprises a fixed part, a drive system, at least two sliding units and a plurality of outlet nozzles, in which said outlet nozzles are removable and can be detached from said part fixed and said at least two sliding units can slide opposite said fixed part, wherein said drive system is actuated by a hydraulic effect and comprises a transmission mechanism connected to said at least two sliding units in order to slidingly driving said at least two sliding units connected to said outlet nozzles, so that said outlet nozzles are driven to rotate about a longitudinal axis with the axis of said outlet nozzles inclined with respect to said axis longitudinal.
[0002]
2. The rotary jet device according to claim 1, wherein: the surfaces of at least two sliding units are in contact in a plane parallel to the sliding planes of said at least two sliding units, said at least two sliding units have slides and upper portions of the outlet nozzles are nested in said dedicated channels of said at least two sliding units, to cause them to move in different directions and to cause the rotation of said output nozzles. 20
[0003]
3. The rotary jet device according to claim 1, wherein: said fixed part has a mounting structure, said outlet nozzles have hemispherical surfaces, said surfaces fit and are connected to said mounting structure so said output nozzles can perform universal activity. 25
[0004]
4. The rotary jet device according to claim 1, wherein: said at least two sliding units are parallel to each other, with surfaces in contact in a plane parallel to the sliding planes of said at least two sliding units.
[0005]
5. The rotary jet device according to claim 1, further comprising two stops which are used to guide the sliding of the at least two sliding units, said stops being located on either side of said at least two sliding units.
[0006]
6. The rotary jet device according to claim 1, wherein the drive system comprises a vane wheel, said vane wheel having an eccentric shaft which passes through said at least two sliding units and forms a movable junction, said paddle wheel rotating under hydraulic effect causing rotation of the eccentric shaft, which slides said at least two sliding units traversed by said eccentric shaft, said at least two sliding units having oblong holes and said eccentric shaft being placed inside the hole, so that the eccentric shaft drives said at least two sliding units in a sliding motion.
[0007]
7. Different jet system characterized in that it comprises a fixed part, a drive system, at least two sliding units, a plurality of outlet nozzles and a control mechanism, wherein said outlet nozzles are removable and can be detached from the fixed part, and said at least two sliding units can slide opposite said fixed part, wherein said drive system operates under hydraulic effect and said drive system and said at least two sliding units are connected via said control mechanism to control the sliding of said at least two sliding units, said at least two sliding units being connected to the output nozzles to set them in motion, the sliding of said at least two sliding units two sliding units driving the various movements of said outlet nozzles and generating different jets.
[0008]
8. The different jet system according to claim 7, can control the sliding of one or both of said at least two sliding units through said control mechanism, said output nozzles oscillate if only one of said at least two sliding units. slides, when two of said at least two sliding units slide at the same time, said outlet nozzles rotate about a longitudinal axis with the axis of said outlet nozzles inclined with respect to said longitudinal axis.
[0009]
9. The different jet system according to claim 8, wherein the surfaces of said at least two sliding units are in contact in a plane parallel to the sliding plane of said at least two sliding units, which at least two sliding units have slides, the upper portions of said outlet nozzles can be placed in said dedicated channels of said at least two sliding units, to cause them to move said outlet nozzles in different directions and to cause their rotation.
[0010]
The different jet system according to claim 9, wherein said fixed part has a mounting structure, said outlet nozzles have hemispherical surfaces, said hemispherical surfaces fit together and are connected to said mounting structure so that said output nozzles perform a universal activity, said outlet nozzles comprise a body provided with outlet and inlet ports and said hemispherical surfaces are located at the center of said outlet orifices, the outer walls of said outlet orifices approaching said orifices. inlet and forms a connecting sheath between said at least two sliding units.
[0011]
11. The different jet system according to claim 7, wherein said at least two sliding units are parallel to each other, moreover, their surfaces are in contact in a plane parallel to the sliding planes of said at least two sliding units.
[0012]
12. The different jet system according to claim 7, also comprises two stops which are used to guide the sliding of said at least two sliding units, they are located on either side of said at least two sliding units.
[0013]
The jet system according to claim 7, wherein said drive system comprises a vane wheel, said vane wheel has an eccentric shaft which passes through said at least two sliding units and forms a movable junction, said paddle wheel rotates under the influence of the hydraulic force by causing the rotation of said eccentric shaft, which drives at least one of said at least two sliding units placed on said eccentric shaft in a sliding motion, said at least two units sliders have oblong holes, said eccentric shaft passes through said holes and drives said at least two sliding units in a sliding motion.
[0014]
The jet system according to claim 13, wherein said eccentric shaft comprises a split type fixed junction portion and a movable eccentric unit, said fixed junction portion interacts with a first of said at least two sliding units. said movable eccentric unit interacts with a second of said at least two sliding units, said control mechanism controls separation and connection of said fixed junction portion and said movable eccentric unit, in case of separation, said eccentric shaft will cause the first said at least two sliding units to slide, in case of joining, said eccentric shaft will cause said at least two sliding units to slide simultaneously. 3032360 25
[0015]
15. The different jet system according to claim 14, wherein the control mechanism comprises a mutually compatible part of convenience and a mutually compatible part of coordination, said convenience part is set up at the end of the fixed junction part and said coordination part is located at one end of the mobile eccentric unit, through said mobile eccentric unit, said coordination part is connected to or detached from said convenience part, which controls the junction and separation of said mobile eccentric unit and said fixed junction portion, said control mechanism comprises a rotatable portion, a detachable junction pivot component on said movable eccentric unit and a spring, said rotatable portion interacts with said pivoting component, said spring is mounted between said mobile eccentric unit and the paddle wheel and a rotation of said rotary part da In one direction, the pivoting component, which drives said movable eccentric unit connected to said pivoting component, can be pushed in such a way that said spring is compressed, said coordination part and said convenience part at one end of said movable eccentric unit are connected to conversely, a rotation of the rotating part in the other direction returns said spring to its rest state and said pivoting component to its initial place, said coordination part located at one end of said mobile eccentric unit is separated from said part Conveniently, the surface of said rotatable portion exhibits an inclined guide pattern and said pivotal component forms a spacer which corresponds to the relief, the rotation of said rotatable portion allows, through the contact between the inclined face with the spacer to drive said pivoting component in translation.
[0016]
16. A shower head characterized in that the output mechanism and the output hood described in claims 1 or 8, said output hood is considered as part of the fixed unit, said fixed unit has a duct which fixed part comprises a support panel, a panel of the outlet port and an outlet cover for the installation of said support panel and said outlet port panel, said support panel is connected to said outlet port panel and forms a cavity dedicated to embedding the sliding unit. 5

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同族专利:

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公开号 | 公开日

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CN104646199A|2015-05-27|

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DE202015006287U1|2016-02-02|

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FR3032360B3|2017-04-21|

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AU2015101601A4|2015-12-10|

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US20160228887A1|2016-08-11|

---

US9821327B2|2017-11-21|

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CN104646199B|2018-01-19|

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CN204544504U|2015-02-11|2015-08-12|福建西河卫浴科技有限公司|Delivery port of the same race has the discharge mechanism of different effluent functions|CN104923422B|2015-06-29|2017-02-01|福建欣宇卫浴科技股份有限公司|Circular rotation water outgoing apparatus|

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法律状态:
2016-12-29| PLFP| Fee payment|Year of fee payment: 2 |

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2017-12-29| PLFP| Fee payment|Year of fee payment: 3 |

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2019-12-19| PLFP| Fee payment|Year of fee payment: 5 |

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2020-12-23| PLFP| Fee payment|Year of fee payment: 6 |

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2021-12-24| PLFP| Fee payment|Year of fee payment: 7 |

优先权:

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申请号 | 申请日 | 专利标题

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CN201510071745.1A|CN104646199B|2015-02-11|2015-02-11|Delivery port of the same race has the discharge mechanism of different effluent functions|

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