CN111568275B - Gyromagnetic mineral shower - Google Patents

Abstract

The invention provides a gyromagnetic mineral shower, which comprises: the hollow holding handle is used for being connected with a water supply pipe, and a channel for water flow to pass through and a magnetizing assembly are arranged inside the hollow holding handle; the magnetizing assembly comprises a central shaft, a first magnet, a second magnet and a third magnet, wherein the first magnet, the second magnet and the third magnet are rotatably sleeved on the peripheral surface of the central shaft; the upper end of the hollow holding handle is connected with the shower nozzle, and a filtering device is arranged inside the shower nozzle. The water flow with magnetized activation not only has enhanced permeability and dissolving power, but also can enter cells more easily to be absorbed by human bodies, thereby not only conveying nutrient substances to the human bodies, but also rapidly discharging wastes to promote metabolism of the human bodies and enhancing the health of the human bodies.

Description

Gyromagnetic mineral shower

Technical Field

The invention relates to the technical field of shower nozzles, in particular to a gyromagnetic mineral shower.

Background

Water is a necessary condition for daily life and is something that we need to live. Generally, tap water is collected in large quantities, purified and treated through various purification processes, and then supplied to homes through various pipes. In this case, tap water is exposed to various bacteria while flowing through the pipes, and thus tap water through which bacteria pass is supplied to the home. In addition, in the long water delivery process, the tap water is increased with a lot of pollutants, rust, dirt, bacteria and the like can affect the water quality of the tap water, and more harmful chemical substances can be generated after the pollutants, the rust, the dirt, the bacteria and the like interact with each other. In addition, water molecules are polar molecules, so that water usually exists in the form of macromolecular groups, and the cleaning capacity and the absorption capacity of the water molecules are poor, so that impurity dirt on a human body cannot be cleaned cleanly.

Disclosure of Invention

The invention aims to provide a gyromagnetic mineral shower to solve the problems.

In order to achieve the purpose, the invention provides the following technical scheme: a gyromagnetic mineral shower, comprising:

the hollow holding handle is used for being connected with a water supply pipe, and a channel for water flow to pass through and a magnetizing assembly are arranged inside the hollow holding handle;

the magnetizing assembly comprises a central shaft, a first magnet, a second magnet and a third magnet, wherein the first magnet, the second magnet and the third magnet are rotatably sleeved on the outer peripheral surface of the central shaft;

the shower nozzle, the upper end that the cavity gripped the handle is connected with shower nozzle, shower nozzle inside is equipped with filter equipment.

As an improvement of the invention, the internally disposed filtering means of the showerhead comprises a hybrid rotary magnetized filter comprising:

the filter rack is fixedly arranged in the shower nozzle, the outline of the filter rack is consistent with that of an inner cavity of the shower nozzle, a vertical mounting column is arranged at the front end of the filter rack in a surrounding manner, a plurality of surrounding magnets are fixedly arranged on the mounting column, and the polarity directions of the surrounding magnets are consistent;

the middle of the front end of the filter frame is also rotatably provided with a rotary impeller, the mounting columns are circumferentially distributed around the rotary impeller, the center of the rotary impeller is fixedly provided with a central rotary magnet, and the central rotary magnet rotates along with the rotary impeller;

and the rear end of the filter cover is provided with a cavity and covers the front end of the filter frame, and the filter cover is used for containing the rotary impeller.

As an improvement of the invention, the filtering device arranged inside the shower nozzle further comprises a germanium filter, wherein the germanium filter is composed of four germanium blocks, and the germanium blocks are fixedly arranged on the mounting column.

As an improvement of the invention, the front end of the filter cover is also rotatably provided with a ceramic wing plate, the ceramic wing plate is formed by integrating three rotating wings, and each rotating wing is provided with a water through hole.

As an improvement of the present invention, the filtering device disposed inside the shower nozzle further includes a medium filtering mesh enclosure, the medium filtering mesh enclosure is disposed at the front end of the filtering mesh enclosure and covers the ceramic wing plate, the medium filtering mesh enclosure is provided with a plurality of groups of arc-shaped water passing holes, and the medium filtering mesh enclosure is filled with mineral purifying balls.

As an improvement of the present invention, a microporous plate is further disposed at the front end of the medium filter screen enclosure inside the shower nozzle, the microporous plate is attached to the front end of the medium filter screen enclosure through a silicone rubber ring pad, and a plurality of micropores are disposed on the microporous plate.

As an improvement of the invention, the front end of the outer wall of the shower nozzle is provided with a shower lock head sleeve, the shower lock head sleeve is in threaded connection with the shower nozzle, and the inner diameter of the shower lock head sleeve is smaller than the diameter of the microporous plate.

As an improvement of the present invention, the present invention further comprises a magnetization sufficiency device, the magnetization sufficiency device is two magnetic flow control assemblies symmetrically arranged at two ends of the hollow grip handle, the magnetic flow control assemblies comprise:

the upper end of the inner cover shell is provided with a first connecting port, an inner passage pipe for allowing water flow to pass through is arranged inside the first connecting port, the upper end face of the first connecting port is fixedly connected with the central shaft, and the lower end face of the inner cover shell is provided with an inner accommodating cavity;

the upper end of the outer housing is provided with an outer containing cavity, the inner housing is contained in the outer containing cavity, the inner housing is movably arranged in the outer containing cavity of the outer housing, the lower end of the outer housing is provided with a second connecting port, an outer channel pipe for allowing water flow to pass through is arranged inside the second connecting port, the inner channel pipe is hermetically inserted inside the outer channel pipe, the upper end face of the outer housing is provided with an outer edge opening, and the outer edge opening is hermetically connected with the end part of the hollow holding handle;

interior holding chamber, outer holding chamber form a closed annular space jointly, the annular space is used for placing rivers synchronous control device, rivers synchronous control device annular circumference evenly distributed is in the annular space, rivers synchronous control device includes:

the first step surface is of an annular structure, a first step surface is arranged in an outer accommodating cavity of the outer housing, and the lower end surface of the inner housing is placed on the first step surface in a matching manner through a first ball;

the second step surface is of an annular structure, a second step surface is arranged in the outer accommodating cavity of the outer housing and is positioned on the inner side of the first step surface, and the second step surface is a tooth-shaped surface;

the inner wall of the inner cover shell is rotatably connected with a vertically placed gear, and the gear is meshed with the second step surface;

the inner side end face of the gear is coaxially and fixedly connected with a main rotating shaft, the main rotating shaft is rotatably arranged in the annular space through the limiting action of an upper fixed sleeve and a lower fixed sleeve, the upper fixed sleeve is attached to the inner wall of the inner housing, and the lower fixed sleeve is attached to the inner wall of the outer housing;

the rotary table is fixedly connected to the end part of the main rotating shaft, a sliding rod is fixedly connected to the end surface, far away from the main rotating shaft, of the rotary table in a biased mode, and a sliding sleeve driving rod is sleeved on the sliding rod;

the sliding sleeve driving rod is arranged on the lower fixing sleeve in a rotating mode through a screw, the sliding sleeve driving rod is divided into two parts by the screw, the upper part of the sliding sleeve driving rod is a sleeve rod part, a strip-shaped hole matched with the sliding rod is formed in the sleeve rod part, the lower part of the sliding sleeve driving rod is a fan-shaped driving part, and a fan-shaped tooth surface is arranged at the lower end of the fan-shaped driving part;

the intercepting plate is arranged below the sliding sleeve driving rod, the intercepting plate is rotationally connected with the lower fixed sleeve through a second ball arranged on the lower end face, an accommodating groove used for accommodating the intercepting plate is formed in the inner side of the lower fixed sleeve, an arc-shaped rack is arranged on the upper end face of the intercepting plate, the arc-shaped rack is meshed with the sector tooth surface, the intercepting plate slides in and slides out of the accommodating groove under the driving of the sliding sleeve driving rod so as to be switched between a closed state and an idle state, all the intercepting plates form a complete circular ring plate when being closed, an intercepting groove allowing the intercepting plate to pass through is formed in the outer channel pipe, and a flexible sleeve is fixedly connected to the inner wall of the intercepting groove;

in the two magnetic flow control assemblies positioned at the upper end and the lower end of the hollow holding handle, when the intercepting plate in one magnetic flow control assembly is in the maximum closing state, the other magnetic flow control assembly is inevitably in the maximum idle state.

As an improvement of the invention, a sealing gasket is sleeved between the inner channel tube and the outer channel tube.

As an improvement of the invention, the water flow monitoring device further comprises a water flow monitoring module, wherein the water flow monitoring module comprises a monitoring circuit,

a first resistance of the first resistor R1,

a first amplifier U1, the inverting input terminal of which is connected with one end of the first resistor R1, the power negative pole of which is grounded, and the positive pole of which is connected with the reference voltage V1,

a second resistor R2 having one end connected to the non-inverting input of the first amplifier,

the other ends of the first resistor R1 and the second resistor R2 are both connected with a reference voltage V1,

a third resistor R3, one end of which is connected between the second resistor R2 and the same-direction input end of the first amplifier U1, the other end of the third resistor R3 is grounded,

a fourth resistor R4 having one end connected to the output of the first amplifier U1,

a first triode Q1, the base of which is connected with the other end of the fourth resistor R4, the emitter of which is connected with the inverting input terminal of the first amplifier U1,

a first diode D1, the anode of which is connected to the collector of the first amplifier U1, and the cathode of which is connected to one end of the fifth resistor R5 and the monitor signal input terminal,

a first capacitor C1, one end of which is connected to the other end of the fifth resistor R5 and the anode of the second diode D2, respectively, the other end of the first capacitor C1 is grounded,

the cathode of the second diode D2 is connected to a reference voltage V1,

a second amplifier U2, the same direction input end of which is connected between the fifth resistor R5 and the anode of the second diode D2, the inverting input end of which is connected with the sixth resistor R6 and the seventh resistor R7 in turn and then grounded, the cathode of the second amplifier U2 is grounded, the anode of which is connected with the reference voltage V1,

an eighth resistor R8, one end of which is connected to the inverting input terminal of the second amplifier U2 and the other end of which is connected to the monitoring signal input terminal,

the output terminal of the second amplifier U2 is connected between the inverting input terminal of the second amplifier U2 and the eighth resistor R8,

a second triode Q2, the base of which is connected between the sixth resistor R6 and the seventh resistor R7, the emitter of which is grounded, the collector of which is connected with one end of a ninth resistor R9, the other end of the ninth resistor R9 is connected with a reference voltage V1,

a third triode Q3, the base of which is connected between the ninth resistor R9 and the collector of the second triode Q2, the emitter of which is connected with a tenth resistor R10, the other end of the tenth resistor R10 is connected with a reference voltage V1, the collector of which is connected with a monitoring signal input terminal,

a second capacitor C2, one end of which is connected to the reference voltage V1 and the other end is grounded,

an eleventh resistor R11 having one end connected to the reference voltage V1 and the other end connected to one end of a twelfth resistor R12, the other end of the twelfth resistor R12 being grounded,

a fourth triode Q4, the emitter of which is connected with the reference voltage V1, the collector of which is connected with the power voltage V2, the base of which is connected with the second pin of the voltage stabilizer W1,

a thirteenth resistor R13 is connected between the collector and the base of the fourth transistor Q4,

one end of the third capacitor C3 is connected with the power voltage V2, the other end is grounded,

the first pin of the voltage stabilizer W1 is grounded, and the third pin is connected between the eleventh resistor R11 and the twelfth resistor R12.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the components of the present invention;

FIG. 3 is a schematic structural view of a magnetizing assembly according to the present invention;

FIG. 4 is a schematic structural view of a filter frame according to the present invention;

FIG. 5 is a schematic view of the structure of the rotary impeller of the present invention;

FIG. 6 is a schematic structural view of a ceramic wing plate of the present invention;

FIG. 7 is a schematic view of the mounting of the magnetic flow control assembly of the present invention to a hollow grip;

FIG. 8 is a schematic structural view of a magnetic flow control assembly of the present invention;

FIG. 9 is a state view of the sliding sleeve drive rod of the present invention;

FIG. 10 is another state view of the sliding sleeve drive rod of the present invention;

FIG. 11 is a state view of the sliding sleeve drive rod of the present invention;

FIG. 12 is a state view of the closure plate of the present invention in a closed state;

FIG. 13 is a state diagram of the closure plate of the present invention in an idle state;

FIG. 14 is a circuit diagram of the present invention.

The components in the figure are:

10-a hollow handle for holding a hand-held device,

20-a magnetizing assembly, 21-a central shaft, 22-a first magnet, 23-a second magnet, 24-a third magnet, 25-a spiral groove,

30-a shower head, wherein the shower head is provided with a water inlet and a water outlet,

40-a filtering device is arranged in the filter,

50-mixed rotating magnetizing filter, 51-filter frame, 52-mounting column, 53-surrounding magnet, 54-rotating impeller, 55-central rotating magnet, 56-filter cover,

60-a block of germanium, the block being,

70-ceramic wing plate, 71-rotary wing, 72-water through hole,

80-medium filter screen cover, 81-arc water through hole,

91-microporous plate, 92-silicon rubber ring, 93-micropore, 94-shower lock head sleeve,

100-a magnetic flow control assembly, 101-an inner casing, 102-a first connection port, 103-an inner channel pipe, 104-an inner containing cavity, 105-an outer casing, 106-an outer containing cavity, 107-a second connection port, 108-an outer channel pipe, 109-an outer edge port,

200-water flow synchronous control device, 201-first step surface, 202-first ball, 203-second step surface, 204-gear, 205-main rotating shaft, 206-upper fixed sleeve, 207-lower fixed sleeve, 208-rotary disc, 209-sliding bar, 210-sliding sleeve driving bar, 210 a-sleeve bar part, 210 b-strip hole, 210 c-sector driving part, 210 d-sector tooth surface, 211-screw, 212-cut-off plate, 213-second ball, 214-accommodating groove, 215-arc rack, 216-cut-off groove, 217-flexible sleeve and 218-sealing gasket.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Referring to fig. 1, a gyromagnetic mineral shower includes:

the hollow handle 10 is used for being connected with a water supply pipe, and a channel for water to pass through and a magnetizing assembly 20 are arranged inside the hollow handle 10;

the magnetizing assembly 20 comprises a central shaft 21, and a first magnet 22, a second magnet 23 and a third magnet 24 which are rotatably sleeved on the outer peripheral surface of the central shaft 21, wherein the central shaft 21 is vertically arranged in the middle of the inside of the hollow holding handle 10, the first magnet 22 and the second magnet 23 are oppositely arranged, and the outer peripheral surfaces of the first magnet 22 and the second magnet 23 are provided with rotary grooves 25 with opposite rotating directions; the central shaft 21 is generally fixed inside the hollow grip handle 10, and the first magnet 22, the second magnet 23 and the third magnet 24 are sleeved on the central shaft 21 in a top-to-bottom rotating manner, and can rotate around the central shaft 21 but cannot slide up and down along the central shaft 21; generally, the overall size of magnetized block 20 is smaller than the inner diameter of hollow grip 10, so as not to interfere with the flow of water therethrough. When water flow enters from the lower end of the hollow holding handle 10, due to the power of the water flow, the water flow passes through the spiral groove 25 and drives the first magnet 22 and the second magnet 23 to rotate respectively, for example, the first magnet 22 rotates clockwise, the second magnet 23 rotates anticlockwise, eddy current is formed between the magnetic fields of the first magnet 22 and the second magnet 23 due to the rotation of the first magnet and the second magnet, the zigzag loop of the water flow forms magnetic field energy, water molecules are finely crushed while the electric potential rises, negative ions beneficial to a human body are generated, and therefore, the particles are activated, and stability is realized at the third magnet;

the shower nozzle 30 is connected to the upper end of the hollow handle 10, and a filtering device 40 is arranged inside the shower nozzle 30. The filter device 40 is placed in the shower head 30 without affecting the flow of water therethrough, and removes impurities, bacteria, and harmful substances in the water.

The working principle of the technical scheme is as follows: one end of a water molecule is positively charged, the other end of the water molecule is negatively charged, the water molecule is acted by Lorentz force when vertically passing through a magnetic field, hydrogen bonds of the water molecule are changed or broken, and water of a large molecular group is changed into water of a small molecular group or ionized water. In the process that water flows into the hollow grip handle 10 from the water supply pipe, particles in the water flow are activated under the action of the vortex rotation and the magnetic field when the water flows through the magnetizing assembly 20, and then the water flow activated by the magnetizing assembly 20 is filtered by the filtering device 40 and then is sprayed out from the shower nozzle 30.

The beneficial effects of the above technical scheme are that: the water flow with magnetized activation not only has enhanced permeability and dissolving power, but also can enter cells more easily to be absorbed by human bodies, thereby not only conveying nutrient substances to the human bodies, but also rapidly discharging wastes to promote metabolism of the human bodies and enhancing the health of the human bodies. Furthermore, the filtering device 40 in the shower nozzle 30 can remove rust, dirt, bacteria and the like carried by water in the transportation process, and can avoid harmful impurities brought by water flow during showering, thereby being beneficial to cleaning and health of human bodies.

Referring to fig. 2-5, in one embodiment of the present invention, the internally disposed filtering device 40 of the showerhead 30 includes a hybrid rotary magnetized filter 50, and the hybrid rotary magnetized filter 50 includes:

a filter frame 51 fixedly arranged inside the shower head 30 and having an outline conforming to an inner cavity of the shower head 30, wherein a vertical mounting post 52 is arranged around a front end of the filter frame 51, a plurality of surrounding magnets 53 are fixedly arranged on the mounting post 52, and polarity directions of the plurality of surrounding magnets 53 are consistent;

the filter rack comprises a rotary impeller 54, the middle of the front end of the filter rack 51 is also rotatably provided with the rotary impeller 54, the mounting columns 52 are circumferentially distributed around the rotary impeller 54, the center of the rotary impeller 54 is fixedly provided with a central rotary magnet 55, and the central rotary magnet 55 rotates along with the rotary impeller 54;

a filter housing 56 having a cavity at a rear end thereof and covering a front end of the filter frame 51, the filter housing 56 housing the rotary impeller 54 therein.

The working principle and the beneficial effects of the technical scheme are as follows: the hybrid rotary magnetized filter 50 is a cylindrical space body enclosed by the filter frame 51 and the filter cover 56 together and allowing water flow to pass through, and a rotary impeller 54 capable of rotating around its axis is arranged in the cylindrical space body, and the water flow drives the rotary impeller 54 to rotate. In the cylindrical space structure, four surrounding magnets 53 are arranged around the rotating impeller 54, and a central rotating magnet 55 is fixedly arranged at the center of the rotating impeller 54, and the four surrounding magnets 53 and the central rotating magnet 55 together form a mixed magnetic field, in which the central rotating magnet 55 drives the rotating impeller 54 to accelerate the rotating speed so as to enable the rotating impeller to rotate at a high speed, thereby further finely crushing the activated water flow to form a fine molecular structure beneficial to the human body.

Referring to fig. 2-5, in one embodiment of the present invention, the filtering device disposed inside the showerhead 30 further includes a germanium filter, which is composed of four germanium blocks 60, and the germanium blocks 60 are fixedly disposed on the mounting posts 52.

The working principle of the technical scheme is as follows: the germanium block in practical application mainly has the functions of radiating uniform far infrared rays to water flow, inhibiting the reproduction of bacteria and mould, removing peculiar smell, supplying useful oxygen to human body and the like.

Referring to fig. 2 and 6, in an embodiment of the present invention, a ceramic wing plate 70 is further rotatably disposed at a front end of the filter housing 56, the ceramic wing plate 70 is formed by integrating three rotating wings 71, and each rotating wing 71 is provided with a water through hole 72.

The working principle and the beneficial effects of the technical scheme are as follows: the ceramic wing plate 70 can be driven by water flow to rotate to uniformly mix fine water molecules, so that the potential of water is increased, and the water quality purification function is doubled.

Referring to fig. 1 and 2, in an embodiment of the present invention, the filtering device 40 disposed inside the shower head 30 further includes a medium filtering mesh 80, the medium filtering mesh 80 is disposed at a front end of the filtering cover 56 and covers the ceramic wing plate 70, wherein the medium filtering mesh 80 is provided with a plurality of groups of arc-shaped water passing holes 81, and the medium filtering mesh 80 is filled with mineral purifying balls.

The working principle and the beneficial effects of the technical scheme are as follows: the mineral purifying ball is a spherical substance made of natural mineral minerals formed by accumulating volcanic ash generated by volcanic activity, has antibacterial and antifungal effects, and also has effects of deodorizing, removing impurities, promoting metabolism, etc.

Referring to fig. 1 and 2, in an embodiment of the present invention, a micro-porous plate 91 is further disposed at the front end of the medium filter screen 80 inside the shower nozzle 30, the micro-porous plate 91 is attached to the front end of the medium filter screen 80 through a silicone rubber ring 92, and a plurality of micro-pores 93 are formed in the micro-porous plate 91.

The front end of the outer wall of the shower nozzle 30 is provided with a shower lock head sleeve 94, the shower lock head sleeve 94 is in threaded connection with the shower nozzle 30, and the inner diameter of the shower lock head sleeve 94 is smaller than the diameter of the micropore plate 91.

The working principle and the beneficial effects of the technical scheme are as follows: the micro-perforated plate 91 functions to gently spray water onto the skin of the person, and the shower head cover 94 locks the filter device inside the shower head 30 by dimensionally fitting with the micro-perforated plate 91.

Referring to fig. 7-13, in an embodiment of the present invention, the present invention further comprises magnetization sufficiency means, wherein the magnetization sufficiency means are two magnetic current control assemblies 100 symmetrically arranged at two ends of the hollow grip handle 10, and the magnetic current control assemblies 100 comprise:

an inner cover 101, the upper end of which is provided with a first connection port 102, an inner passage pipe 103 for allowing water to pass through is arranged inside the first connection port 102, the upper end face of the first connection port 102 is fixedly connected with the central shaft 21, and the lower end face of the inner cover 101 is provided with an inner accommodating cavity 104;

an outer housing 105, an outer accommodating cavity 106 being opened at an upper end thereof and accommodating the inner housing 101 therein, the inner housing 101 being movably disposed in the outer accommodating cavity 106 of the outer housing 105, a second connection port 107 being disposed at a lower end of the outer housing 105, an outer passage tube 108 for allowing water to pass through being disposed inside the second connection port 107, the inner passage tube 103 being sealingly inserted inside the outer passage tube 108, an outer edge opening 109 being disposed at an upper end surface of the outer housing 105, the outer edge opening 109 being sealingly connected to an end portion of the hollow grip 10;

the inner accommodating cavity 104 and the outer accommodating cavity 106 together form a closed annular space, the annular space is used for accommodating the water flow synchronization control device 200, the water flow synchronization control device 200 is annularly and circumferentially and uniformly distributed in the annular space, and the water flow synchronization control device 200 comprises:

the first step surface 201 is of an annular structure, the first step surface 201 is arranged in the outer accommodating cavity 106 of the outer housing 105, and the lower end surface of the inner housing 101 is placed on the first step surface 201 in a matching manner through a first ball 202;

the second step surface 203 is of an annular structure, the outer accommodating cavity 106 of the outer housing 105 is provided with the second step surface 203, the second step surface 203 is positioned on the inner side of the first step surface 201, and the second step surface 203 is a toothed surface;

the inner wall of the inner shell 101 is rotatably connected with a vertically arranged gear 204, and the gear 204 is meshed with the second step face 203;

a main rotating shaft 205, wherein the inner end surface of the gear 204 is coaxially and fixedly connected with the main rotating shaft 205, the main rotating shaft 205 is rotatably arranged in the annular space through the limiting action of an upper fixed sleeve 206 and a lower fixed sleeve 207, the upper fixed sleeve 206 is attached to the inner wall of the inner housing 101, and the lower fixed sleeve 207 is attached to the inner wall of the outer housing 105;

the rotary table 208 is fixedly connected to the end part of the main rotating shaft 205, a sliding rod 209 is fixedly connected to the end surface, far away from the main rotating shaft 205, of the rotary table 208 in a biased manner, and the sliding rod 209 is sleeved with a sliding sleeve driving rod 210;

the sliding sleeve driving rod 210 is rotatably arranged on the lower fixing sleeve 207 through a screw 211, the sliding sleeve driving rod 210 is divided into two parts by the screw, the upper part is a sleeve rod part 210a, the sleeve rod part 210a is provided with a strip-shaped hole 210b matched with the sliding rod 209, the lower part is a fan-shaped driving part 210c, and the lower end of the fan-shaped driving part 210c is provided with a fan-shaped tooth surface 210 d;

the intercepting plate 212 is arranged below the sliding sleeve driving rod 210, the intercepting plate 212 is rotatably connected with the lower fixing sleeve 207 through a second ball 213 arranged on the lower end face, an accommodating groove 214 used for accommodating the intercepting plate 212 is formed in the inner side of the lower fixing sleeve 207, an arc-shaped rack 215 is arranged on the upper end face of the intercepting plate 212, the arc-shaped rack 215 is meshed with the sector-shaped tooth face 210d, the intercepting plate 212 slides in and slides out of the accommodating groove 214 under the driving of the sliding sleeve driving rod 210 so as to switch between a closed state and an idle state, all the intercepting plates 212 form a complete circular ring plate when being closed, an intercepting groove 216 allowing the intercepting plate 212 to pass through is formed in the outer channel pipe 108, and a flexible sleeve 217 is fixedly connected on the inner wall of the intercepting groove 216;

the shape of the cut-off plate 212 can divide a complete circular ring plate into 5 equal parts, and the number of the magnetic flow control assemblies 100 is 5, that is, each magnetic flow control assembly 100 synchronously controls one cut-off plate 212.

In the two magnetic flow control assemblies 100 located at the upper and lower ends of the hollow grip 10, when the cut-off plate 212 of one magnetic flow control assembly 100 is in the maximum closed state, the other one is necessarily in the maximum idle state.

A sealing gasket 218 is sleeved between the inner channel tube 103 and the outer channel tube 108.

The working principle of the technical scheme is as follows: when the water flow is magnetized by the magnetizing assembly 20 to become water with small molecular groups or ionized water, because the staying time of the water flow in the hollow grip handle 10 is short, only a part of the water flow close to the water flow is magnetized when the water flow passes through the magnetizing assembly 20, and most of the water flow flows out of the hollow grip handle 10 without being magnetized, and cannot be completely magnetized. Therefore, in order to improve the degree of magnetization of the water flow when passing through the hollow grip 10, the magnetic flow control assemblies 100 capable of controlling the flow rate of the water flow are arranged at both ends of the hollow grip 10, and the flow rate of the water entering and exiting from both ends of the hollow grip 10 is periodically changed, so that the retention time of the water flow in the hollow grip 10 is prolonged as far as possible without affecting the normal use of the shower nozzle, and the degree of magnetization of the water flow is improved.

The flow of water inlet and outlet at the two ends of the hollow grip handle 10 is periodically changed by synchronously controlling the magnetic current control assemblies 100 at the two ends. The operation of each magnetic flow control assembly 100 is: since the inner housing 101 is fixedly connected to the central shaft 21 (the fixed connection between the central shaft 21 and the inner housing 101 can be formed by connecting several connecting rods distributed circumferentially, so as not to affect the water flowing through the inner passage pipe 103, which is not shown in the figure), the central shaft 21 can also drive the inner housing 101 to rotate circumferentially in the outer housing 105 during the rotation process. When the inner housing 101 rotates on the first step surface 201, because the inner housing 101 and the outer housing 105 rotate relatively, the gear 204 rotates under the meshing action of the tooth-shaped surfaces of the second step surface 203, and the main rotating shaft 205 and the gear 204 are fixedly connected into a whole, so the main rotating shaft 205 drives the turntable 208 to rotate. The sliding rod 209 of the rotary disc 208 cooperates with the sliding sleeve driving rod 210 to form a periodic intermittent motion, so as to drive the cut-off plate 212 to slide into and out of the accommodating groove 214, thereby switching between a closed state and an idle state. That is, the closure plate 212 is in a closed state when sliding out of the receiving groove 214, in which the closure plate 212 presses the flexible sleeve 217 to minimize the flow of water, and the closure plate 212 is in a closed state when sliding into the receiving groove 214, in which the closure plate 212 does not press the flexible sleeve 217 to maximize the flow of water. During rotation on the dial 208, the water flow rate is constantly switched between a maximum state and a minimum state.

Moreover, due to the two magnetic flow control assemblies 100 disposed at the upper and lower ends of the hollow grip 10, when the initial position of the cut-off plate 212 is set, the two magnetic flow control assemblies are in the opposite state, that is, when one magnetic flow control assembly 100 is in the maximum water flow state, the other magnetic flow control assembly is necessarily in the minimum water flow state. This is provided to extend the dwell time of the water flow in hollow grip 10. When the water flow of the upper end is in the maximum state, the water flow of the lower end is in the minimum state, and the flowing speed of the water flow is not too high due to the fact that the flowing water amount is small, so that the retention time of the water flow is relatively long; when the amount of water flowing out of the upper end is in the minimum state, the amount of water flowing in the lower end is in the maximum state, and the amount of water flowing in is large and the amount of water flowing out is small, in this case, the water flow enters the hollow grip 10 in advance to be magnetized, so that the magnetizing time is prolonged.

In addition, since a part of the power of the water flow is transmitted to the magnetizing assembly 20 and another part is transmitted to the magnetic current control assembly 100 as the rotating power of the inner cover, the flow velocity of the water flow is further reduced, thereby prolonging the magnetizing time of the water flow. In daily life, the water flow of the spray header is already greatly higher than the required flow rate, and a large part of kinetic energy of the water flow is consumed in the pressure energy of the spray device. Therefore, the device converts part of kinetic energy of water flow into kinetic energy of the magnetic flow control assembly without influencing the normal use of the spray header.

The beneficial effects of the above technical scheme are that: in the prior art, the flow rate of the water flow is generally controlled by a valve. However, in the device provided by the present invention, if two control valves are installed at two ends of the hollow grip handle 10 to realize periodic control of the water amount, on one hand, frequent opening and closing of the control valves will seriously affect the service life and the service performance of the control valves, and on the other hand, it is difficult to control the two valves to be synchronously performed, that is, it is difficult to ensure that one valve is in the maximum state and the other valve is in the minimum state. The embodiment provides a mechanical control device, which can ensure synchronous control of the magnetic current control assemblies 100 at two ends, and the mechanical control has long service life and is not easy to fail.

In one embodiment of the invention, the water flow monitoring device further comprises a water flow monitoring module, wherein the water flow monitoring module comprises a monitoring circuit,

a first resistance of the first resistor R1,

a first amplifier U1, the inverting input terminal of which is connected with one end of the first resistor R1, the power negative pole of which is grounded, and the positive pole of which is connected with the reference voltage V1,

a second resistor R2 having one end connected to the non-inverting input of the first amplifier,

the other ends of the first resistor R1 and the second resistor R2 are both connected with a reference voltage V1,

a third resistor R3, one end of which is connected between the second resistor R2 and the same-direction input end of the first amplifier U1, the other end of the third resistor R3 is grounded,

a fourth resistor R4 having one end connected to the output of the first amplifier U1,

a first triode Q1, the base of which is connected with the other end of the fourth resistor R4, the emitter of which is connected with the inverting input terminal of the first amplifier U1,

a first diode D1, the anode of which is connected to the collector of the first amplifier U1, and the cathode of which is connected to one end of the fifth resistor R5 and the monitor signal input terminal,

a first capacitor C1, one end of which is connected to the other end of the fifth resistor R5 and the anode of the second diode D2, respectively, the other end of the first capacitor C1 is grounded,

the cathode of the second diode D2 is connected to a reference voltage V1,

a second amplifier U2, the same direction input end of which is connected between the fifth resistor R5 and the anode of the second diode D2, the inverting input end of which is connected with the sixth resistor R6 and the seventh resistor R7 in turn and then grounded, the cathode of the second amplifier U2 is grounded, the anode of which is connected with the reference voltage V1,

an eighth resistor R8, one end of which is connected to the inverting input terminal of the second amplifier U2 and the other end of which is connected to the monitoring signal input terminal,

the output terminal of the second amplifier U2 is connected between the inverting input terminal of the second amplifier U2 and the eighth resistor R8,

a second triode Q2, the base of which is connected between the sixth resistor R6 and the seventh resistor R7, the emitter of which is grounded, the collector of which is connected with one end of a ninth resistor R9, the other end of the ninth resistor R9 is connected with a reference voltage V1,

a third triode Q3, the base of which is connected between the ninth resistor R9 and the collector of the second triode Q2, the emitter of which is connected with a tenth resistor R10, the other end of the tenth resistor R10 is connected with a reference voltage V1, the collector of which is connected with a monitoring signal input terminal,

a second capacitor C2, one end of which is connected to the reference voltage V1 and the other end is grounded,

an eleventh resistor R11 having one end connected to the reference voltage V1 and the other end connected to one end of a twelfth resistor R12, the other end of the twelfth resistor R12 being grounded,

a fourth triode Q4, the emitter of which is connected with the reference voltage V1, the collector of which is connected with the power voltage V2, the base of which is connected with the second pin of the voltage stabilizer W1,

a thirteenth resistor R13 is connected between the collector and the base of the fourth transistor Q4,

one end of the third capacitor C3 is connected with the power voltage V2, the other end is grounded,

the first pin of the voltage stabilizer W1 is grounded, and the third pin is connected between the eleventh resistor R11 and the twelfth resistor R12.

Compared with the prior art, the flow monitoring module is arranged on the table plate, and the running state of the flow monitoring module is mastered in real time.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (9)

1. A gyromagnetic mineral shower, comprising:

the hollow holding handle (10) is used for being connected with a water supply pipe, and a channel for water to pass through and a magnetizing assembly (20) are arranged inside the hollow holding handle (10);

the magnetizing assembly (20) comprises a central shaft (21), and a first magnet (22), a second magnet (23) and a third magnet (24) which are rotatably sleeved on the outer peripheral surface of the central shaft, wherein the central shaft (21) is vertically arranged in the middle of the inside of the hollow holding handle (10), the first magnet (22) and the second magnet (23) are oppositely arranged, and the outer peripheral surfaces of the first magnet (22) and the second magnet (23) are provided with rotary grooves (25) with opposite rotating directions;

the upper end of the hollow holding handle (10) is connected with the shower nozzle (30), and a filtering device (40) is arranged inside the shower nozzle (30);

the hollow holding handle is characterized by further comprising a sufficient magnetization device, the sufficient magnetization device is two magnetic current control assemblies (100) symmetrically arranged at two ends of the hollow holding handle (10), and each magnetic current control assembly (100) comprises:

the upper end of the inner cover shell (101) is provided with a first connecting port (102), an inner passage pipe (103) allowing water flow to pass through is arranged inside the first connecting port (102), the upper end face of the first connecting port (102) is fixedly connected with the central shaft (21), and the lower end face of the inner cover shell (101) is provided with an inner accommodating cavity (104);

the upper end of the outer housing (105) is provided with an outer containing cavity (106) and the inner housing (101) is contained in the outer containing cavity, the inner housing (101) is movably arranged in the outer containing cavity (106) of the outer housing (105), the lower end of the outer housing (105) is provided with a second connecting port (107), an outer channel pipe (108) for allowing water flow to pass through is arranged inside the second connecting port (107), the inner channel pipe (103) is hermetically inserted inside the outer channel pipe (108), the upper end face of the outer housing (105) is provided with an outer edge opening (109), and the outer edge opening (109) is hermetically connected with the end part of the hollow holding handle (10);

the inner containing cavity (104) and the outer containing cavity (106) jointly form a closed annular space, the annular space is used for containing a water flow synchronous control device (200), the water flow synchronous control device (200) is uniformly distributed in the annular space in the annular circumferential direction, and the water flow synchronous control device (200) comprises:

the first step surface (201) is of an annular structure, the first step surface (201) is arranged in the outer accommodating cavity (106) of the outer housing (105), and the lower end surface of the inner housing (101) is placed on the first step surface (201) in a matching mode through a first ball (202);

the second step surface (203) is of an annular structure, the second step surface (203) is arranged in the outer containing cavity (106) of the outer housing (105), the second step surface (203) is positioned on the inner side of the first step surface (201), and the second step surface (203) is a tooth-shaped surface;

the inner wall of the inner shell (101) is rotatably connected with a vertically placed gear (204), and the gear (204) is meshed with the second step face (203);

the inner side end face of the gear (204) is coaxially and fixedly connected with a main rotating shaft (205), the main rotating shaft (205) is rotatably arranged in the annular space under the limiting action of an upper fixed sleeve (206) and a lower fixed sleeve (207), the upper fixed sleeve (206) is attached to the inner wall of the inner casing (101), and the lower fixed sleeve (207) is attached to the inner wall of the outer casing (105);

the rotary table (208) is fixedly connected to the end part of the main rotating shaft (205), a sliding rod (209) is fixedly connected to the end surface, far away from the main rotating shaft (205), of the rotary table (208) in a biased mode, and a sliding sleeve driving rod (210) is sleeved on the sliding rod (209);

the sliding sleeve driving rod (210) is rotatably arranged on the lower fixed sleeve (207) through a screw (211), the sliding sleeve driving rod (210) is divided into two parts by the screw, the upper part of the sliding sleeve driving rod is a sleeve rod part (210a), the sleeve rod part (210a) is provided with a strip-shaped hole (210b) matched with the sliding rod (209), the lower part of the sliding sleeve driving rod is a fan-shaped driving part (210c), and the lower end of the fan-shaped driving part (210c) is provided with a fan-shaped tooth surface (210 d);

a cut-off plate (212), the cut-off plate (212) is arranged below the sliding sleeve driving rod (210), the cut-off plate (212) is rotationally connected with the lower fixed sleeve (207) through a second ball (213) arranged on the lower end surface, the inner side of the lower fixed sleeve (207) is provided with a containing groove (214) for containing the cut-off plate (212), the upper end surface of the intercepting plate (212) is provided with an arc-shaped rack (215), the arc-shaped rack (215) is meshed with the sector-shaped tooth surface (210d), the intercepting plate (212) slides in and out of the accommodating groove (214) under the driving of the sliding sleeve driving rod (210) so as to switch between a closed state and an idle state, all the intercepting plates (212) form a complete circular ring plate when being closed, an intercepting groove (216) allowing the intercepting plate (212) to pass through is formed in the outer channel pipe (108), and a flexible sleeve (217) is fixedly connected to the inner wall of the intercepting groove (216);

in the two magnetic flow control assemblies (100) positioned at the upper end and the lower end of the hollow holding handle (10), when the interception plate (212) in one magnetic flow control assembly (100) is in the maximum closed state, the other is necessarily in the maximum idle state.

2. A gyromagnetic mineral shower as claimed in claim 1, wherein: the internally disposed filtering means (40) of the showerhead (30) comprises a hybrid rotating magnetized filter (50), the hybrid rotating magnetized filter (50) comprising:

the filter rack (51) is fixedly arranged in the shower head (30), the outline of the filter rack is consistent with the inner cavity of the shower head (30), a vertical mounting column (52) is arranged at the front end of the filter rack (51) in a surrounding mode, a plurality of surrounding magnets (53) are fixedly arranged on the mounting column (52), and the polarity directions of the surrounding magnets (53) are consistent;

the filter rack comprises a rotary impeller (54), the middle of the front end of the filter rack (51) is also rotatably provided with the rotary impeller (54), the mounting columns (52) are circumferentially distributed around the rotary impeller (54), the center of the rotary impeller (54) is fixedly provided with a central rotary magnet (55), and the central rotary magnet (55) rotates along with the rotary impeller (54);

the rear end of the filter cover (56) is provided with a cavity and covers the front end of the filter frame (51), and the rotary impeller (54) is contained in the filter cover (56).

3. A gyromagnetic mineral shower as claimed in claim 2, wherein: the filtering device arranged in the shower nozzle (30) further comprises a germanium filter, the germanium filter is composed of four germanium blocks (60), and the germanium blocks (60) are fixedly arranged on the mounting column (52).

4. A gyromagnetic mineral shower as claimed in claim 2, wherein: the front end of the filter cover (56) is also rotatably provided with a ceramic wing plate (70), the ceramic wing plate (70) is formed by integrating three rotating wings (71), and each rotating wing (71) is provided with a water through hole (72).

5. A gyromagnetic mineral shower as claimed in claim 4, wherein: the filter device (40) arranged inside the shower nozzle (30) further comprises a medium filter screen (80), the medium filter screen (80) is arranged at the front end of the filter cover (56) and covers the ceramic wing plate (70), a plurality of groups of arc-shaped water passing holes (81) are formed in the medium filter screen (80), and mineral purification balls are filled in the medium filter screen (80).

6. A gyromagnetic mineral shower as claimed in claim 5, wherein: inside shower nozzle (30), the front end of medium filter screen panel (80) still is equipped with micropore board (91), micropore board (91) through silicon rubber circle (92) pad attach in the front end of medium filter screen panel (80), a plurality of micropores (93) have been seted up on micropore board (91).

7. A gyromagnetic mineral shower as claimed in claim 6, wherein: the front end of shower nozzle (30) outer wall is equipped with shower lock cover (94), shower lock cover (94) with shower nozzle (30) threaded connection, just the internal diameter of shower lock cover (94) is less than the diameter of micropore board (91).

8. A gyromagnetic mineral shower as claimed in claim 1, wherein: a sealing gasket (218) is sleeved between the inner channel pipe (103) and the outer channel pipe (108).

9. A gyromagnetic mineral shower as claimed in claim 8, wherein: also comprises a water flow monitoring module, the water flow monitoring module comprises a monitoring circuit, the monitoring circuit comprises,

a first resistance of the first resistor R1,

a first amplifier U1, the inverting input terminal of which is connected with one end of the first resistor R1, the power negative pole of which is grounded, and the positive pole of which is connected with the reference voltage V1,

a second resistor R2 having one end connected to the non-inverting input of the first amplifier,

the other ends of the first resistor R1 and the second resistor R2 are both connected with a reference voltage V1,

a third resistor R3, one end of which is connected between the second resistor R2 and the same-direction input end of the first amplifier U1, the other end of the third resistor R3 is grounded,

a fourth resistor R4 having one end connected to the output of the first amplifier U1,

a first triode Q1, the base of which is connected with the other end of the fourth resistor R4, the emitter of which is connected with the inverting input terminal of the first amplifier U1,

a first diode D1, the anode of which is connected to the collector of the first amplifier U1, and the cathode of which is connected to one end of the fifth resistor R5 and the monitor signal input terminal,

a first capacitor C1, one end of which is connected to the other end of the fifth resistor R5 and the anode of the second diode D2, respectively, the other end of the first capacitor C1 is grounded,

the cathode of the second diode D2 is connected to a reference voltage V1,

a second amplifier U2, the same direction input end of which is connected between the fifth resistor R5 and the anode of the second diode D2, the inverting input end of which is connected with the sixth resistor R6 and the seventh resistor R7 in turn and then grounded, the cathode of the second amplifier U2 is grounded, the anode of which is connected with the reference voltage V1,

an eighth resistor R8, one end of which is connected to the inverting input terminal of the second amplifier U2 and the other end of which is connected to the monitoring signal input terminal,

the output terminal of the second amplifier U2 is connected between the inverting input terminal of the second amplifier U2 and the eighth resistor R8,

a second triode Q2, the base of which is connected between the sixth resistor R6 and the seventh resistor R7, the emitter of which is grounded, the collector of which is connected with one end of a ninth resistor R9, the other end of the ninth resistor R9 is connected with a reference voltage V1,

a third triode Q3, the base of which is connected between the ninth resistor R9 and the collector of the second triode Q2, the emitter of which is connected with a tenth resistor R10, the other end of the tenth resistor R10 is connected with a reference voltage V1, the collector of which is connected with a monitoring signal input terminal,

a second capacitor C2, one end of which is connected to the reference voltage V1 and the other end is grounded,

an eleventh resistor R11 having one end connected to the reference voltage V1 and the other end connected to one end of a twelfth resistor R12, the other end of the twelfth resistor R12 being grounded,

a fourth triode Q4, the emitter of which is connected with the reference voltage V1, the collector of which is connected with the power voltage V2, the base of which is connected with the second pin of the voltage stabilizer W1,

a thirteenth resistor R13 is connected between the collector and the base of the fourth transistor Q4,

one end of the third capacitor C3 is connected with the power voltage V2, the other end is grounded,

the first pin of the voltage stabilizer W1 is grounded, and the third pin is connected between the eleventh resistor R11 and the twelfth resistor R12.

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