CN108061181B - Waterway switching device - Google Patents

Abstract

The invention relates to a waterway switching device, which comprises: the power generation mechanism comprises a base, a magnetic impeller, a magnetic bearing, a rotating shaft, a wire frame, a water outlet pipe and a coil, wherein the magnetic impeller, the magnetic bearing and the rotating shaft are arranged in one side of the base, the wire frame and the water outlet pipe are arranged in the other side of the base, the coil is wound on the wire frame, and the magnetic impeller is connected with the rotating shaft. The switching mechanism comprises a fixed seat arranged on the base, a driving assembly arranged on one side of the fixed seat, two magnetic touch posts arranged on the other side of the fixed seat, and two magnetic blocks arranged on the driving assembly, wherein the driving assembly is positioned below the wire frame and is electrically connected, the driving assembly drives the magnetic blocks to rotate when rotating, and the magnetic blocks move under the action of magnetic attraction when rotating to correspond to the magnetic touch posts. The waterway switching device supplies power to the switching mechanism through water flow power generation, so that waterway switching is controlled, the operation is simple and convenient, and the use and the accuracy of people such as infants, children and disabled can be met.

Description

Waterway switching device

Technical Field

The invention relates to the technical field of spraying equipment, in particular to a waterway switching device.

Background

The shower head is a shower device comprising a top shower and a hand-held shower, wherein the top shower is a shower device fixed at the top of the head of a bather for spraying, and the hand-held shower is a shower device for bathing by hand. The shower head is generally composed of a body and a panel, wherein a water inlet joint is formed on the body, water spraying holes are formed on the panel, and the body and the panel are combined together in a sealing way. In order to control different water spraying holes on the panel to spray, a waterway switching device is installed inside the body, but the existing waterway switching device generally adopts mechanical switching, such as selective switching, sliding switching, swinging switching and the like. The waterway switching is carried out by adopting mechanical switching, so that the following defects often exist, a user can operate the switching by applying a certain acting force, and the switching is inconvenient; can not be used by infants, children and disabled people; the accuracy of waterway switching is not good.

Disclosure of Invention

Based on this, it is necessary to provide a waterway switching device which is easy to operate, satisfies a large number of people and has good accuracy, aiming at the problems of waterway switching of the shower head.

A waterway switching device, comprising: the switching mechanism is arranged on the power generation mechanism; the power generation mechanism comprises a base, a magnetic impeller, a magnetic bearing, a rotating shaft, a wire frame, a water outlet pipe and a coil, wherein the magnetic impeller, the magnetic bearing and the rotating shaft are arranged in one side of the base, the wire frame and the water outlet pipe are arranged in the other side of the base, the coil is wound on the wire frame, and the magnetic impeller is connected with the rotating shaft; the switching mechanism comprises a fixed seat arranged on the base, a driving assembly arranged on one side of the fixed seat, two magnetic touch columns arranged on the other side of the fixed seat, and two magnetic blocks arranged on the driving assembly, wherein the driving assembly is positioned below the wire frame and is electrically connected, the magnetic blocks are driven to rotate when the driving assembly rotates, and the magnetic blocks move under the action of magnetic attraction when the magnetic blocks rotate to correspond to the magnetic touch columns.

The waterway switching device comprises a power generation mechanism and a switching mechanism arranged on the power generation mechanism, wherein the power generation mechanism and the switching mechanism are both positioned inside the main body shell mechanism during installation, the power generation mechanism is opposite to the water inlet pipe, and the switching mechanism is opposite to the spraying mechanism. When the magnetic impeller is used, when water flows into the base, the magnetic impeller is driven to rotate, and the magnetic impeller and the coil cut magnetic field output current supply power to the driving assembly. The driving assembly rotates under the control of the external control module, and the magnetic block realizes the control of the magnetic touch column along with the rotation, so that the water passing through the power generation mechanism is switched and sprayed. When two magnetic blocks correspond to two magnetic touch columns, two waterway channels are sprayed with water, and when one magnetic block corresponds to one magnetic touch column, the waterway channels are sprayed with water, and the other waterway channels are not connected with water. The waterway switching device utilizes water flow to generate power for the switching mechanism so as to control waterway switching, has high automation degree, is simple and convenient to operate, can meet the requirements of people such as infants, children and disabled people, and has good accuracy compared with mechanical switching.

In one embodiment, the base is protruded with an impeller sleeve and a baffle plate arranged on the impeller sleeve, the impeller sleeve is arranged outside the magnetic impeller in a surrounding mode, and the impeller sleeve is provided with a plurality of water cutting ports.

In one embodiment, a plurality of impeller blades are arranged outside the magnetic impeller, and the impeller blades are radially arranged outwards from the magnetic impeller at equal intervals.

In one embodiment, the water cutting port is arranged obliquely from the outer wall to the inner wall of the impeller sleeve.

In one embodiment, the base further protrudes out of a threaded sleeve, and the threaded sleeve is arranged around the periphery of the impeller sleeve to form a water guiding space.

In one embodiment, a watertight space is formed between the base and the fixing base.

In one embodiment, the driving assembly comprises a motor arranged in the fixing seat and a switching plate arranged on the motor, and two mounting grooves arranged at a preset angle are formed in the switching plate.

In one embodiment, the driving assembly further comprises two travel switches, wherein the travel switches are arranged opposite to the switching plate and are provided with elastic sheets.

In one embodiment, the switching plate is provided with three contacts arranged at a preset angle, and the contacts are adapted to the elastic sheet.

In one embodiment, a return spring is mounted on the magnetic touch column, one end of the return spring is connected with the fixing seat, and the other end of the return spring is connected with the magnetic touch column.

Drawings

FIG. 1 is a schematic diagram of a waterway switching device according to a preferred embodiment of the present invention;

FIG. 2 is another schematic view of the waterway switching device shown in FIG. 1;

FIG. 3 is a schematic cross-sectional view of the waterway switching device shown in FIG. 1;

FIG. 4 is an exploded view of the power generation mechanism of the waterway switching device shown in FIG. 1;

FIG. 5 is another exploded schematic view of the power generation mechanism shown in FIG. 4;

FIG. 6 is an exploded view of the switching mechanism of the waterway switching device shown in FIG. 1;

FIG. 7 is another exploded view of the switching mechanism of FIG. 6;

fig. 8 is a schematic cross-sectional view of a base of the waterway switching device shown in fig. 1.

The drawings are marked with the following description:

100-waterway switching device, 30-power generation mechanism, 31-base, 32-magnetic impeller, 33-magnetic bearing, 34-rotating shaft, 35-coil holder, 36-water outlet pipe, 37-coil, 38-bolt, 311-impeller sleeve, 312-baffle, 313-water cutting port, 314-thread sleeve, 315-first sealing ring, 316-second sealing ring, 317-coil holder, 321-impeller blade, 40-switching mechanism, 41-fixed seat, 42-driving component, 43-magnetic touch column, 44-magnetic block, 45-reset spring, 46-third sealing ring, 411-Ma Dacao, 412-through pipeline, 413-switch mounting column, 421-motor, 422-switching plate, 423-travel switch, 424-mounting groove, 425-contact, 426-shrapnel.

Detailed Description

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Referring to fig. 1 to 8, in a waterway switching device 100 according to a preferred embodiment of the present invention, the waterway switching device 100 includes a power generation mechanism 30 and a switching mechanism 40 mounted on the power generation mechanism 30, wherein the power generation mechanism 30 and the switching mechanism 40 are both located inside a main body shell mechanism during mounting, the power generation mechanism 30 is opposite to a water inlet pipe, the switching mechanism 40 is opposite to a spraying mechanism, and the power generation mechanism 30 rotates under the impact of water flow to generate power for the switching mechanism 40.

Referring to fig. 3, 4,5 and 8, the power generation mechanism 30 includes a base 31, a magnetic impeller 32 mounted in one side of the base 31, a magnetic bearing 33, a rotating shaft 34, a wire frame 35 and a water outlet pipe 36 mounted in the other side of the base 31, a coil 37 wound on the wire frame 35, the magnetic impeller 32 is connected with the rotating shaft 34, a magnetic induction line with a certain direction is formed between the magnetic impeller 32 and the magnetic bearing 33, and the water outlet pipe 36 passes through the switching mechanism 40. A plurality of bolts 38 are attached to the upper outer edge portion of the base 31, and the base 31 is connected to a switching mechanism 40 by the bolts 38. Further, the base 31 protrudes from an impeller sleeve 311 and a baffle 312 mounted on the impeller sleeve 311, the impeller sleeve 311 is enclosed outside the magnetic impeller 32, and the impeller sleeve 311 and the baffle 312 form a protection space. The impeller sleeve 311 is provided with a plurality of water cutting ports 313, the water cutting ports 313 are obliquely arranged from the outer wall to the inner wall of the impeller sleeve 311, in the embodiment, the number of the water cutting ports 313 is three, the adjacent water cutting ports 313 and the center of the impeller sleeve 311 form an angle of 120 degrees, and the inclined angle of the water cutting ports 313 is 30-60 degrees. The base 31 also protrudes a thread sleeve 314, and the thread sleeve 314 is surrounded on the periphery of the impeller sleeve 311 to form a water guide space, and the water guide space is communicated with the water cutting port 313.

Further, a first sealing ring 315 is installed on the threaded sleeve 314, a second sealing ring 316 is installed on the water outlet pipe 36, the installation tightness of the base 31 is enhanced by the first sealing ring 315, the tightness with the switching mechanism 40 is enhanced by the second sealing ring 316, and the water flow is prevented from flowing backwards. The base 31 is provided with a coil holder cavity 317, and the coil holder cavity 317 accommodates the coil holder 35, thereby reducing the volume of the whole power generation mechanism 30. The outside of magnetic impeller 32 is equipped with a plurality of impeller blades 321, and impeller blades 321 equidistantly are radially arranged outward from magnetic impeller 32, and impeller blades 321 are opposite with the water cutting mouth 313. When water flows in from the water cutting port 313 along a certain direction, the water simultaneously impacts the impeller blades 321 along the same angle from a plurality of ports, and the impeller blades 321 are stressed to drive the magnetic impeller 32 to rotate, so that the coil 37 cuts the magnetic induction line to generate current.

Referring to fig. 6 and 7 again, the switching mechanism 40 includes a fixed seat 41 mounted on the base 31, a driving assembly 42 mounted on one side of the fixed seat 41, two magnetic touch posts 43 mounted on the other side of the fixed seat 41, and two magnetic blocks 44 mounted on the driving assembly 42. A watertight sealing space is formed between the fixing seat 41 and the base 31, so that the driving assembly 42 has a watertight working environment, and the phenomenon that a water inlet short circuit line cannot work normally is avoided. The driving component 42 is located below the wire frame 35 and is electrically connected, the specific driving component 42 is electrically connected with the wire frame 35 through a control unit, the magnetic block 44 is driven to rotate when the driving component 42 rotates, and the magnetic block 44 moves under the action of magnetic attraction when the magnetic block 44 rotates to correspond to the magnetic touch column 43. Wherein the magnetic touch column 43 is provided with a return spring 45, one end of the return spring 45 is connected with the fixed seat 41, and the other end of the return spring 45 is connected with the magnetic touch column 43. The magnetic touch column 43 blocks the waterway under the natural state, the magnetic touch column 43 is pressed up to compress the return spring 45 under the action of the magnetic block 44, and after the magnetic block 44 leaves, the magnetic touch column 43 is pressed down quickly to block the waterway under the action of the return spring 45. The fixing seat 41 is provided with a third sealing ring 46, and the sealing performance of the fixing seat 41 is enhanced by the third sealing ring 46.

The fixed seat 41 is provided with a motor slot 411, two through pipes 412 and four switches, the motor slot 411 is positioned in the middle of the fixed seat 41 and is recessed in a direction away from the base 31, and the through pipes 412 are used for the water outlet pipe 36 to pass through. The driving assembly comprises a motor 421 arranged in the fixed seat 41 and a switching plate 422 arranged on the motor 421, wherein two mounting grooves 424 arranged at a preset angle are arranged on the switching plate 422, the mounting grooves 424 are used for receiving the magnetic blocks 44, and the mounting grooves 424 form an angle of 120 DEG on the switching plate 422. The switching plate 422 is provided with three contacts 425 arranged at a predetermined angle, and the included angles between the contacts 425 are all 120 °. Further, the driving assembly 42 further includes two travel switches 423, where the travel switches 423 are mounted on the switch mounting posts 413 opposite to the switch plate 422 and are provided with elastic pieces 426, and the elastic pieces 426 are adapted to the contacts 425. When the motor 421 drives the switch plate 422 to rotate, the travel switch 423 controls the spring 426 to abut against the contact 425, thereby controlling the rotation angle of the switch plate 422.

The waterway switching device 100 includes a power generation mechanism 20 and a switching mechanism 30 mounted on the power generation mechanism 20, wherein the power generation mechanism 20 and the switching mechanism 30 are both positioned inside the main body casing mechanism when mounted, and the power generation mechanism 20 is opposite to the water inlet pipe, and the switching mechanism 30 is opposite to the spraying mechanism. In use, when water flows into the base 31, the magnetic impeller 32 is driven to rotate, and the magnetic impeller 32 and the coil 37 cut magnetic field to output current to supply power to the driving component 42. The driving assembly 42 rotates under the control of an external control module, and the magnetic block 44 controls the magnetic touch column 43 along with the rotation, so that the water passing through the power generation mechanism 30 is switched and sprayed. When two magnetic blocks 44 correspond to two magnetic touch columns 43, two waterways are sprayed with water, and when one magnetic block 44 corresponds to one magnetic touch column 43, the waterway is sprayed with water, and the other waterway is not sprayed with water. The waterway switching device 100 utilizes water flow to generate power for supplying power to the switching mechanism 40 so as to control waterway switching, and compared with mechanical switching, the waterway switching device has the advantages of high automation degree, simplicity and convenience in operation, capability of meeting the requirements of people such as infants, children and disabled people, and good accuracy.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (9)

1. A waterway switching device, comprising: the switching mechanism is arranged on the power generation mechanism; the power generation mechanism comprises a base, a magnetic impeller, a magnetic bearing, a rotating shaft, a wire frame, a water outlet pipe and a coil, wherein the magnetic impeller, the magnetic bearing and the rotating shaft are arranged in one side of the base, the wire frame and the water outlet pipe are arranged in the other side of the base, the coil is wound on the wire frame, and the magnetic impeller is connected with the rotating shaft; the switching mechanism comprises a fixed seat arranged on the base, a driving assembly arranged on one side of the fixed seat, two magnetic touch columns arranged on the other side of the fixed seat, and two magnetic blocks arranged on the driving assembly, wherein the driving assembly is positioned below the wire frame and is electrically connected, the driving assembly drives the magnetic blocks to rotate when rotating, and the magnetic blocks move under the action of magnetic attraction when rotating to correspond to the magnetic touch columns; a reset spring is arranged on the magnetic touch column, one end of the reset spring is connected with the fixed seat, and the other end of the reset spring is connected with the magnetic touch column;

When the magnetic block rotates to correspond to the magnetic touch column, the magnetic touch column ascends to compress the reset spring under the action of the magnetic block, and the corresponding waterway channel is conducted to spray; when the magnetic block leaves, the magnetic touch column is rapidly pressed down to block the waterway under the action of the reset spring.

2. The waterway switching device according to claim 1, wherein the base is protruded with an impeller sleeve and a baffle plate arranged on the impeller sleeve, the impeller sleeve is arranged outside the magnetic impeller in a surrounding manner, and the impeller sleeve is provided with a plurality of water cutting ports.

3. The waterway switching device of claim 2, wherein the exterior of the magnetic impeller is provided with a plurality of impeller blades, the impeller blades being radially arranged outwardly from the magnetic impeller at equidistant intervals.

4. The waterway switching device of claim 2, wherein the water cutting port is inclined from an outer wall to an inner wall of the impeller sleeve.

5. The waterway switching device of claim 2, wherein the base further comprises a threaded sleeve protruding from the base, the threaded sleeve surrounding the impeller sleeve to form a water guiding space.

6. The waterway switching device of claim 1, wherein a watertight space is formed between the base and the holder.

7. The waterway switching device according to claim 1, wherein the driving assembly comprises a motor installed inside the fixing seat and a switching plate installed on the motor, and two installation grooves arranged at a preset angle are formed in the switching plate.

8. The waterway switching device of claim 7, wherein the drive assembly further includes two travel switches disposed opposite the switch plate and mounted with spring plates.

9. The waterway switching device of claim 8, wherein the switching plate is provided with three contacts arranged at a preset angle, and the contacts are adapted to the spring plate.