CN111573927A - Quantum gyromagnetic mineral water faucet - Google Patents

Abstract

The invention provides a quantum gyromagnetic mineral water faucet, which comprises: a first water treatment device comprising: the water inlet end of the first shell is communicated with a water source, and a first filter and a second filter are sequentially arranged in the first shell from the water inlet end to the water outlet end; a second water treatment device comprising: the water inlet end of the second shell is connected with the water outlet end of the first shell; a rotary magnetizer disposed inside the second case; the valve connecting pipe is connected with the valve and is connected with the water outlet end of the second shell; the water source enters the first shell and is filtered for two times through the first filter and the second filter in sequence, so that the water treatment device has the advantage of good filtering effect and better water treatment effect; and after being filtered by the second filter, the water enters the second shell, the water is magnetized and further filtered by the rotary magnetizing device, and the water molecule structure is converted into an ultramicro molecule structure which is most beneficial to the human body by utilizing the ion activation property through the rotary magnetization so as to improve the water quality.

Description

Quantum gyromagnetic mineral water faucet

Technical Field

The invention relates to the technical field of water taps, in particular to a quantum gyromagnetic mineral water tap.

Background

Water molecules generally adhere to each other to form clusters. In the low energy state, the water molecules become large clusters and have low kinetic energy. When strong magnetic field energy is generated, hydrogen ions having a positive polarity and hydroxyl ions having a negative polarity adhere to each other to generate motions such as rotation and vibration with respect to water molecules, and the water molecules are atomized and activated. At this time, the number of molecular groups (cluster compounds) of water molecules is reduced, and the adjacent cluster compounds are drawn closer to each other to be structured. That is, the water molecules pass through the magnetic field generated by the magnet and simultaneously generate the motions of rotation, vibration and the like, and the cluster compounds of the water molecules realize the micronization and activation, so that the magnetized water has the effects of sterilization, scale removal and the like. The existing faucet is usually only used for filtering once by arranging a simple filter screen, has poor water treatment effect, does not have the function of magnetizing water and can not improve the water quality.

Disclosure of Invention

The invention provides a quantum gyromagnetic mineral water faucet which is used for solving the technical problem.

A quantum gyromagnetic mineral faucet comprising:

a first water treatment device comprising: the water inlet end of the first shell is communicated with a water source, and a first filter and a second filter are sequentially arranged in the first shell from the water inlet end to the water outlet end;

a second water treatment device comprising: the water inlet end of the second shell is connected with the water outlet end of the first shell; a rotary magnetizer disposed inside the second case;

and the valve connecting pipe is connected with a valve, and the valve connecting pipe is connected with the water outlet end of the second shell.

Preferably, a first connecting pipeline is arranged at the water inlet end of the first shell, an external thread is arranged on the outer wall of the first connecting pipeline, and an internal thread matched with the external thread of the first connecting pipeline is arranged on the inner wall of the water outlet pipeline of the water source;

the first water treatment device also comprises a protective cover, and the inner wall of the protective cover is provided with an internal thread matched with the external thread of the first connecting pipeline;

a second connecting pipeline is arranged at the water inlet end of the second shell, an external thread is arranged on the outer wall of the second connecting pipeline, and an internal thread matched with the external thread of the second pipeline is arranged at the water outlet end of the first shell;

the first silicone rubber ring matched with the shape of the water outlet end of the first shell is further arranged inside the water outlet end of the first shell, and the second silicone rubber ring matched with the shape of the first connecting pipeline is arranged outside the first connecting pipeline.

Preferably, the first filter is an eddy current magnetization filter, and the second filter is a pretreatment filter; the eddy current magnetization filter includes: the first rotating magnet, the second rotating magnet and the third magnet are sequentially arranged along the water flow direction of the first shell;

the first rotating magnet and the second rotating magnet rotate in opposite directions.

Preferably, the pre-processor filter is a stainless steel filter screen.

Preferably, the rotary magnetizing apparatus includes: the germanium filter and the rotary magnetization filter are sequentially communicated and arranged in the second shell along the water flow direction of the second shell;

the germanium filter includes:

the device comprises a first device main body, a second device main body and a control device, wherein a plurality of first through holes penetrating through the side wall of the first device main body are formed in the circumferential direction of the first device main body;

a central rotary magnet disposed within the first device body;

the plurality of surrounding magnets are respectively arranged in the plurality of first through holes;

the germanium is arranged in the first through holes;

the rotary magnetization filter includes: a second device main body; the ceramic wing is rotatably connected to the middle part in the second device main body; and the Ge-Lite filter is arranged on the water outlet side of the second device body.

Preferably, the second housing includes: the rotary magnetizing device is arranged in the shell;

the first device body includes: the side, facing the water outlet side of the shell, of the bottom plate is circumferentially provided with a plurality of side plates, the surrounding magnets are arranged on the side plates, and the bottom plate is provided with a plurality of second through holes;

the second device body includes: the side, close to the water outlet side of the shell, of the hollow column body is provided with an opening, the side face of the hollow column body is provided with a plurality of third through holes, and the hollow column body and the bottom plate are coaxially arranged;

the central rotary magnet includes: the rotating shaft and a plurality of fourth magnets are distributed on the circumference of the rotating shaft.

Preferably, the first rotating magnet is driven by a first driving device, the second rotating magnet is driven by a second driving device, the first driving device and the second driving device are both connected with a rotating speed sensor, and a flow velocity sensor is arranged in the first shell and close to the water inlet end;

the water faucet further comprises a microcontroller, the microcontroller is electrically connected with the rotating speed sensors and the flow rate sensors respectively, and the microcontroller, the first driving device and the second driving device are connected with a power supply;

the microcontroller is connected with the first driving device and the second driving device through a driving circuit, and the driving circuit comprises:

the input end of the first NOT gate is connected with the microcontroller and one end of the capacitor and one end of the third resistor;

the variable resistor, the variable end is connected with another end of said third resistance;

the anode of the second crystal diode is connected with the output end of the first NOT gate, and the cathode of the second crystal diode is connected with one end of the variable resistor;

the anode of the first crystal diode is connected with the other end of the variable resistor, and the cathode of the first crystal diode is connected with the anode of the second crystal diode;

the input end of the second NOT gate is connected with the output end of the first NOT gate;

one end of the fifth resistor is connected with the output end of the second NOT gate;

a grid electrode of the field effect transistor is connected with the other end of the fifth resistor, a source electrode of the field effect transistor is connected with a first end of the first driving device or the second driving device through the fourth resistor, a drain electrode of the field effect transistor is connected with a negative electrode of the power supply, and a second end of the first driving device or the second driving device is connected with a positive electrode of the power supply;

the anode of the third transistor diode is connected with the first end of the first driving device or the second driving device, and the cathode of the third transistor diode is connected with the second end of the first driving device or the second driving device;

the non-inverting input end of the operational amplifier is connected with the first end of the first driving device or the second driving device, the inverting input end of the operational amplifier is grounded through the second resistor, and the output end of the operational amplifier is connected with the microcontroller;

and one end of the first resistor is connected with the inverting input end of the operational amplifier, and the other end of the first resistor is connected with the output end of the operational amplifier.

Preferably, the protection circuit further comprises:

the positive electrode of the photoelectric isolator is connected with the positive electrode of a power supply through a sixth resistor, the negative electrode of the photoelectric isolator is connected with the negative electrode of the power supply, and the emitting electrode of the photoelectric isolator is grounded;

the base electrode of the switch tube is connected with the collector electrode of the photoelectric isolator, and the collector electrode of the switch tube is grounded;

one end of a coil of the relay is connected with a relay power supply, the other end of the coil of the relay is connected with an emitting electrode of a switching tube, a first end of the relay is connected with the emitting electrode of the switching tube, a second end of the relay is connected with a second end of the first driving device or the second driving device, and the second end of the relay is also connected with the microcontroller;

one end of the seventh resistor is connected with the base electrode of the switching tube, and the other end of the seventh resistor is connected with the relay power supply;

and the anode of the fourth crystal diode is connected with the emitter of the switching tube, and the cathode of the fourth crystal diode is connected with the relay power supply.

Preferably, a water source connecting part extends downwards from the middle part of the lower end of the first shell;

the first filter includes: the spindle and a first rotating magnet, a second rotating magnet and a third rotating magnet are sequentially arranged on the spindle from bottom to top;

the middle part of the upper end of the horizontal connecting plate is fixedly connected with the lower end of the main shaft;

the two adjusting components are respectively arranged on two sides of the lower end of the horizontal connecting plate and are positioned on two sides of the water source connecting part, and a plurality of filtering holes are formed between the two adjusting components of the horizontal connecting plate;

the adjustment assembly includes:

the second mounting groove is arranged at the lower end of the horizontal connecting plate;

the upper end of the fixed seat is fixedly connected to the lower end of the first shell, and a first mounting groove is formed in the upper end of the fixed seat;

the connecting sliding block is connected in the first mounting groove in a sliding mode and comprises a mounting plate, a cylinder is fixedly connected to the middle of the upper end of the mounting plate, and the upper end of the cylinder penetrates through the first shell and is connected into the second mounting groove;

the connecting block is arranged in the first mounting groove and is positioned at the bottom of the first mounting groove;

the lower end of the mounting plate is provided with a third mounting groove, and the upper end of the connecting block is provided with a fourth mounting groove opposite to the third mounting groove;

the vertical threaded hole is formed in the position, where the first mounting groove is formed, of the lower end of the fixed seat, a bolt is connected to the vertical threaded hole in an internal thread mode, and a nut is arranged on the bolt and located at the lower end of the fixed seat;

the spring is arranged in the first mounting groove, one end of the spring is fixedly connected with the third mounting groove, and the other end of the spring is fixedly connected with the fourth mounting groove.

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 drawings.

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

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an exploded view of fig. 1.

Fig. 3 is a schematic structural view of fig. 2 in which the first water treatment apparatus and the second water treatment apparatus are integrated.

Fig. 4 is a circuit diagram of the driving circuit of the present invention.

Fig. 5 is a circuit diagram of the protection circuit of the present invention.

FIG. 6 is a schematic structural diagram of an embodiment of an adjustment assembly of the present invention.

In the figure: 1. a first water treatment device; 11. a first housing; 111. a first connecting pipe; 12. a first filter; 121. a first main shaft; 122. a second main shaft; 123. a third main shaft; 124. a third housing; 125. A fourth housing; 126. a first bevel gear; 127. a second bevel gear; 128. a third bevel gear; 129. a fourth bevel gear; 1210. a first drive motor; 1211. a second drive motor; 1212. a horizontal connecting plate; 1213. A filtration pore; 1214. a first rotary magnet; 1215. a second rotary magnet; 1216. a third magnet; 13. A second filter; 14. a protective cover; 15. a first silicone rubber ring; 16. a second silicone rubber ring; 2. a second water treatment device; 21. a second housing; 211. a second conduit; 212. a housing; 22. a germanium filter; 221. A first device main body; 222. a base plate; 223. a side plate; 224. a second through hole; 225. a central rotary magnet; 2251. a fourth rotary magnet; 2252. a rotating shaft; 226. a surrounding magnet; 227. germanium; 23. A rotating magnetized filter; 231. a second device main body; 232. a hollow cylinder; 233. a third through hole; 234. a ceramic wing; 24. a Ge-Lite filter; 25. a third connecting pipe; 3. an outlet conduit for a water source; 4. an adjustment assembly; 41. a second mounting groove; 42. a fixed seat; 421. a first mounting groove; 43. Connecting the sliding blocks; 431. mounting a plate; 432. a cylinder; 44. a third mounting groove; 45. a fourth mounting groove; 46. a spring; 47. a bolt; 48. a nut; 49. connecting blocks; 5. a valve connecting pipe; 6. a valve; r1, a first resistor; r2, a second resistor; r3, third resistor; r4, fourth resistor; r5, fifth resistor; r6, variable resistor; r7, sixth resistor; r8, seventh resistor; c1, capacitance; d1, a first crystal diode; d2, a second crystal diode; d3, a third transistor diode; d4, a fourth crystal diode; u1, operational amplifier; u2, first not gate; u3, second not gate; u4, field effect transistor; u5, a photoelectric isolator; J. a relay; q, a switching tube.

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.

In addition, the descriptions related to the first, the second, etc. in the present invention are only used for description purposes, do not particularly refer to an order or sequence, and do not limit the present invention, but only distinguish components or operations described in the same technical terms, and are not understood to indicate or imply relative importance or implicitly indicate the number of indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions and technical features between various embodiments can be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not be within the protection scope of the present invention.

An embodiment of the present invention provides a quantum gyromagnetic mineral water faucet, as shown in fig. 1 to 3, including:

the first water treatment apparatus 1 includes: a water inlet end of the first shell 11 is communicated with a water source, the water inlet end of the first shell 11 is detachably connected with the water source, and a first filter 12 and a second filter 13 are sequentially arranged in the first shell 11 from the water inlet end to the water outlet end;

a second water treatment device 2 comprising: the water inlet end of the second shell 21 is connected with the water outlet end of the first shell 11; a rotary magnetizing device disposed inside the second housing 21;

the valve connecting pipe 5 is connected with a valve 6;

the valve connecting pipe 5 is connected with the water outlet end of the second shell 21. Particularly preferred are: one end of the valve connecting pipe 5 is connected with the water outlet end of the second shell 21, the other end of the valve connecting pipe is the water outlet end of the water faucet, and the water inlet end of the first shell 11 is detachably connected with the water outlet pipeline 3 of a water source.

The working principle and the beneficial effects of the technical scheme are as follows: the water source enters the first shell and is filtered for two times through the first filter and the second filter in sequence, so that the water treatment device has the advantage of good filtering effect and better water treatment effect; and after being filtered by the second filter, the water enters the second shell, is magnetized by the rotary magnetizing device, and is converted into an ultramicro molecular structure which is most beneficial to the human body by utilizing the ion activation property through the rotary magnetization so as to improve the water quality.

In one embodiment, as shown in figures 1-3,

the valve connecting pipe 5 is connected with the water outlet end of the second shell 21;

a first connecting pipeline 111 is arranged at the water inlet end of the first shell 11, an external thread is arranged on the outer wall of the first connecting pipeline 111, and an internal thread matched with the external thread of the first connecting pipeline is arranged on the inner wall of the water outlet pipeline 3 of the water source;

the first water treatment device also comprises a protective cover 14, wherein the inner wall of the protective cover 14 is provided with an internal thread matched with the external thread of the first connecting pipeline;

a second connecting pipeline is arranged at the water inlet end of the second shell 21, an external thread is arranged on the outer wall of the second connecting pipeline, and an internal thread matched with the external thread of the second pipeline 211 is arranged at the water outlet end of the first shell 11;

the inside of the water outlet end of the first shell 11 is also provided with a first silicon rubber ring 15 matched with the shape of the water outlet end of the first shell 11, and the outside of the first connecting pipeline is provided with a second silicon rubber ring 16 matched with the shape of the first connecting pipeline.

The working principle and the beneficial effects of the technical scheme are as follows: a first connecting pipeline 111 is arranged at the water inlet end of the first shell 11, an external thread is arranged on the outer wall of the first connecting pipeline 111, and an internal thread matched with the external thread of the first connecting pipeline is arranged on the inner wall of the water outlet pipeline 3 of the water source, so that the first shell and the water outlet pipeline 3 of the water source can be detachably connected conveniently;

a protective cover 14 is arranged, and the inner wall of the protective cover 14 is provided with an internal thread matched with the external thread of the first connecting pipeline, so that the protective cover can be conveniently connected with the first connecting pipeline when the water faucet is not needed to be used, and the water faucet is protected;

the first silicon rubber ring 15 and the second silicon rubber ring 16 are arranged for sealing corresponding joints, and the sealing effect of the invention is improved.

In one embodiment, as shown in fig. 1-3, the first filter 12 is an eddy current magnetized filter and the second filter 13 is a pre-treatment filter. The eddy current magnetization filter can adopt the existing magnetic eddy current filter.

The working principle and the beneficial effects of the technical scheme are as follows: the eddy current magnetization filter is arranged to change water into ion activation to generate negative ions beneficial to a human body, the eddy current magnetization filter realizes primary ion activation, the rotary magnetization device is used for secondary ion activation, and the effect of improving water quality of the invention is improved by two times of ion activation.

In one embodiment, as shown in fig. 1-5, the eddy current magnetization filter includes: a first rotary magnet 1214, a second rotary magnet 1215, and a third magnet 1216, the first rotary magnet 1214, the second rotary magnet 1215, and the third magnet 1216 being sequentially arranged in the water flow direction of the first housing 11;

the first rotary magnet 1214 and the second rotary magnet 1215 rotate in opposite directions. Preferably, as shown in fig. 3, the first rotary magnet 1214 and the second rotary magnet 1215 are rotatably sleeved on the spindle through bearings, the outer walls of the first rotary magnet 1214 and the second rotary magnet 1215 are provided with spiral structures, and the spiral directions of the spiral structures of the outer walls of the first rotary magnet 1214 and the second rotary magnet 1215 are opposite, so that the first rotary magnet 1214 and the second rotary magnet 1215 automatically rotate under the action of water pressure.

The working principle and the beneficial effects of the technical scheme are as follows: the first rotary magnet 1214 and the second rotary magnet 1215 are opposite in rotation direction, if water enters the first shell, the first rotary magnet starts to rotate at a high speed towards the right side, the second rotary magnet starts to rotate at a low speed towards the left side, between the magnetic fields of the first rotary magnet and the second rotary magnet, the water rotating in the positive direction starts to rotate reversely and simultaneously forms vortex (cyclone), the zigzag loop of the water flow forms magnetic field energy, fine water molecules when the electric potential rises generate negative ions beneficial to a human body, and the water molecules with ion activation realize stabilization through the 3 rd magnet. The method is favorable for accelerating the water to become ion activation, and the ion activation is better. The effect of improving the water quality of the present invention can be improved.

In one embodiment, as shown in figures 1-3,

the rotary magnetizing apparatus includes: a germanium filter 22 and a rotary magnetization filter 23 which are sequentially communicated with each other along the water flow direction of the second housing 21 and are disposed in the second housing 21;

the germanium filter 22 includes:

a first device body 221, wherein a plurality of first through holes penetrating through a side wall of the first device body 221 are circumferentially arranged on the first device body 221;

a central rotary magnet 225 provided in the first device main body 221; preferably, the central rotary magnet is automatically rotated by hydraulic driving.

A plurality of surrounding magnets 226 respectively disposed in the plurality of first through holes;

a plurality of germanium 227 disposed within the plurality of first through holes; preferably, the surrounding magnets or germanium are respectively arranged adjacent to the first through holes, for example, the number of the first through holes is 8, and 4 surrounding magnets and 4 germanium are arranged in 8 first through holes at intervals;

the rotary magnetization filter 23 includes: the second device main body 231; a ceramic wing 234 rotatably coupled to an inner middle portion of the second device body 231; and a Ge-Lite (mineral) filter 24 provided on the water outlet side (the water outlet side in the case) of the second device body 231.

The working principle and the beneficial effects of the technical scheme are as follows: because of the attraction and repulsion of the surrounding magnet and the central rotating magnet, the rotation speed is increased, and simultaneously, the water molecule structure is converted into an ultra-fine molecular structure which is most beneficial to the human body by utilizing the ion activation.

The 4 pieces of germanium on the periphery of the central rotary magnet radiate far infrared rays in all directions to inhibit the propagation of bacteria and mould and have deodorization effect;

the ceramic wing has a deodorization function, changes water into alkaline soft water beneficial to a human body, and increases negative ions;

the Ge-Lite (mineral) filter is a natural mineral formed by stacking volcanic ash generated by volcanic activity of the korean peninsula, belongs to natural volcanic ash, clay or loess and shale which are subjected to heat treatment and come into contact with the market at ordinary times belong to artificial volcanic ash, and Ge-Lite has 187 times of effects (deodorization, sterilization, antibiosis, mold removal, negative ion generation, far infrared ray radiation and the like) compared with other substances of loess materials and is an environmentally friendly material mineral which is harmless to the environment.

The effect of improving the water quality of the present invention can be improved.

In one embodiment, as shown in fig. 1-3, the second housing 21 comprises: a shell 212 and a shell cover arranged on the water outlet side of the shell, wherein the rotary magnetizing device is arranged in the shell 212;

the first device body 221 includes: a bottom plate 222, wherein a plurality of side plates 223 are circumferentially arranged on one side of the bottom plate 222 facing the water outlet side of the shell 212, the surrounding magnet 226 is arranged on the side plates 223, and a plurality of second through holes 224 are arranged on the bottom plate 222;

the second device body 231 includes: a hollow cylinder 232, the side of the hollow cylinder close to the water outlet side of the housing is open, a plurality of third through holes 233 are arranged on the side surface of the hollow cylinder 232, the hollow cylinder 232 and the bottom plate 222 are coaxially arranged (preferably, the hollow cylinder can be arranged on the inner side of the side plate 223);

the central rotary magnet 225 includes: a rotation shaft 2252 and a plurality of fourth magnets 2251 distributed circumferentially around the rotation shaft.

A shell cover is arranged on the water outlet side of the shell 212, so that related components in the shell can be conveniently installed, and a third connecting pipeline 25 which is connected with the shell is arranged on the shell cover and is used for connecting the valve connecting pipe 5;

the working principle and the beneficial effects of the technical scheme are as follows:

the first device main body and the second device main body have the advantages of simple structure, the central rotary magnet can be driven to rotate through water pressure, and the driving is convenient.

In one embodiment, the pre-processor filter employs a stainless steel screen. Preferably, the stainless steel filter screen is a 120-mesh screen.

The working principle and the beneficial effects of the technical scheme are as follows: the preprocessor is made of stainless Steel (SUS), has the advantages of no rustiness and strong durability, and can be used semi-permanently after being washed.

In one embodiment, the first rotary magnet 1214 is driven by a first driving device, the second rotary magnet 1215 is driven by a second driving device, the first driving device and the second driving device are both connected with a rotation speed sensor, and a flow rate sensor is arranged in the first shell 11 near the water inlet end;

the water faucet further comprises a microcontroller, the microcontroller is respectively and electrically connected with the rotating speed sensors and the flow velocity sensors, the microcontroller, the first driving device and the second driving device are all connected with a power supply, preferably, a third shell can be arranged outside the second shell or the first shell, a battery, the microcontroller and a circuit are arranged in the third shell, the battery is respectively and electrically connected with the microcontroller, the first driving device and the second driving device, the battery can be a rechargeable battery, and a charging interface is arranged on the third shell; or the plug is connected with an external power supply, which is the prior art and is not described herein again.

The microcontroller is connected to the first driving device and the second driving device through a driving circuit, as shown in fig. 4, the driving circuit includes:

the input end of the first NOT gate is connected with the microcontroller, one end of a capacitor C1 and one end of a third resistor R3;

a variable resistor R6, wherein a variable end is connected with the other end of the third resistor R3;

the anode of the second crystal diode D2 is connected with the output end of the first NOT gate, and the cathode of the second crystal diode D2 is connected with one end of the variable resistor R6;

the anode of the first crystal diode D1 is connected with the other end of the variable resistor R6, and the cathode of the first crystal diode D1 is connected with the anode of the second crystal diode D2;

the input end of the second NOT gate is connected with the output end of the first NOT gate;

one end of the fifth resistor R5 is connected with the output end of the second NOT gate;

a grid electrode of the field effect transistor U4 is connected with the other end of the fifth resistor R5, a source electrode of the field effect transistor U4 is connected with the first end of the first driving device or the second driving device through the fourth resistor R4, a drain electrode of the field effect transistor U4 is connected with the negative electrode of the power supply, and the second end of the first driving device or the second driving device is connected with the positive electrode of the power supply;

a third transistor diode D3, having an anode connected to the first end of the first driving device or the second driving device, and a cathode connected to the second end of the first driving device or the second driving device;

the non-inverting input end of the operational amplifier U1 is connected with the first end of the first driving device or the second driving device, the inverting input end of the operational amplifier U1 is grounded through a second resistor R2, and the output end of the operational amplifier U1 is connected with the microcontroller;

the first resistor R1 has one end connected to the inverting input terminal of the operational amplifier U1 and the other end connected to the output terminal of the operational amplifier U1.

The working principle and the beneficial effects of the technical scheme are as follows: the first driving device and the second driving device are connected with rotating speed sensors which respectively transmit the rotating speed information acquired by the rotating speed sensors to the microcontroller, the flow speed sensors transmit the flow speed information acquired by the flow speed sensors, close to the water inlet end, in the first shell 11 to the microcontroller, and the microcontroller intelligently controls the first driving device and the second driving device to work according to the two rotating speed sensors and the flow speed sensors so as to improve the magnetization effect and efficiency of the water quality improving device, thereby improving the effect of improving the water quality of the water quality improving device;

the driving circuit adjusts the rotating speed of the driving device through D2, D1, U4, C1, R3 and R6, the adjustment is accurate, the speed change is smooth, the driving device is detected through U1, R1 and R2, the detection information is sent to the microcontroller, and an alarm electrically connected with the microcontroller can be set for timely reminding. The circuit can ensure the reliable work of the driving device so as to improve the magnetization effect of the water quality improving device and improve the water quality improving effect of the water quality improving device.

In one embodiment, as shown in fig. 5, further comprising a protection circuit, the protection circuit comprising:

the positive electrode of the photoelectric isolator U5 is connected with the positive electrode of a power supply through a sixth resistor R7, the negative electrode of the photoelectric isolator U5 is connected with the negative electrode of the power supply, and the emitting electrode of the photoelectric isolator U5 is grounded;

the base of the switching tube Q is connected with the collector of the photoelectric isolator U5, and the collector of the switching tube Q is grounded;

one end of a coil of the relay J is connected with a power supply of the relay J, the other end of the coil of the relay J is connected with an emitting electrode of a switching tube Q, a first end of the relay J is connected with the emitting electrode of the switching tube Q, a second end of the relay J is connected with a second end of the first driving device or the second driving device, and the second end of the relay is also connected with the microcontroller;

one end of the seventh resistor R8 is connected with the base electrode of the switching tube Q, and the other end of the seventh resistor R8 is connected with the power supply of the relay J;

and the anode of the fourth crystal diode D4 is connected with the emitter of the switching tube Q, and the cathode of the fourth crystal diode D4 is connected with the power supply of the relay J.

The working principle and the beneficial effects of the technical scheme are as follows: the circuit can detect power supply abnormity (such as electric leakage) and cut off the power supply in time when the power supply is abnormal, so that the invention is safer to use and can better ensure the work of the invention.

In one embodiment, as shown in fig. 6, a water supply connection part extends downwards from the middle of the lower end of the first housing 11; the water source connecting part can adopt the first connecting pipeline;

the first filter 12 includes:

a first rotary magnet 1214, a second rotary magnet 1215, and a third rotary magnet 1216 provided on the spindle and the spindle in this order from bottom to top;

the middle part of the upper end of the horizontal connecting plate 1212 is fixedly connected to the lower end of the third main shaft 123;

the two adjusting components 4 are respectively arranged on two sides of the lower end of the horizontal connecting plate 1212 and are positioned on two sides of the water source connecting part, and a plurality of filtering holes 1213 are arranged between the two adjusting components 4 of the horizontal connecting plate 1212;

the adjustment assembly 4 comprises:

the second mounting groove 41 is arranged at the lower end of the horizontal connecting plate 1212;

the upper end of the fixed seat 42 is fixedly connected to the lower end of the first shell 11, and a first mounting groove 421 is formed in the upper end of the fixed seat 42;

the connecting sliding block 43 is slidably connected in the first mounting groove 421, the connecting sliding block 43 includes a mounting plate 431, a middle part of the upper end of the mounting plate 431 is fixedly connected with a column 432, and the upper end of the column 432 penetrates into the first housing 11 and is connected in the second mounting groove 41;

the connecting block 49 is installed in the first installation groove 421 and is positioned at the bottom of the first installation groove 421;

a third mounting groove is formed in the lower end of the mounting plate 431, and a fourth mounting groove 45 opposite to the third mounting groove 44 is formed in the upper end of the connecting block;

the vertical threaded hole is formed in the position, where the first mounting groove 421 is formed, of the lower end of the fixed seat 42, a bolt 47 is connected to the vertical threaded hole in an inner threaded mode, and a nut 48 is arranged on the bolt 47 and located at the lower end of the fixed seat 42;

and a spring 46 disposed in the first mounting groove 421, wherein one end of the spring 46 is fixedly connected with the third mounting groove 44, and the other end of the spring 46 is fixedly connected with the fourth mounting groove.

The working principle and the beneficial effects of the technical scheme are as follows: when the position of the main shaft is adjusted (the height from the bottom end of the first shell), the connecting block is driven to move up and down by the rotary bolt, the connecting block drives the connecting sliding block to move up and down by the spring, the connecting sliding block drives the main shaft to move up and down by the horizontal connecting plate so as to adjust the height from the first rotary magnet on the main shaft to the bottom end of the first shell, so that different water pressures can be adapted, the spring can also play a role of buffering, in addition, two adjusting components are arranged, and the first mounting groove, the second mounting groove and the third mounting groove of the adjusting components can limit the position of the main shaft (axially and radially), so that the main shaft is ensured to be stably mounted in the third shell, the reliability of the water quality adjusting device is.

In one embodiment, as shown in fig. 6, the main shafts include a first main shaft 121, a second main shaft 122, and a third main shaft 123 coaxially arranged from top to bottom;

a third housing 124, an upper end of the third housing 124 is fixedly connected to a lower end of the first spindle 121, a lower end of the third housing 124 is fixedly connected to an upper end of the second spindle 122, and the third magnet 1216 is fixed to the first spindle 121;

the first driving motor 1210 is fixedly connected in the third housing 124, an output shaft of the first driving motor 1210 is horizontally arranged, one end of the output shaft of the first driving motor 1210 penetrates through the third housing 124, and one end of the output shaft of the first driving motor 1210 is fixedly connected with the first bevel gear 126;

the second bevel gear 127 is sleeved on the outer wall of the second spindle 122 in a rotating manner, the first bevel gear 126 and the second bevel gear 127 are in meshing transmission, and one end, far away from the third shell 124, of the second bevel gear 127 is fixedly connected with a second rotating magnet 1215;

a fourth housing 125, an upper end of the fourth housing 125 is fixedly connected to a lower end of the second spindle 122, and a lower end of the fourth housing 125 is fixedly connected to an upper end of the third spindle 123;

a second driving motor 1211 fixedly connected in the fourth housing 125, wherein an output shaft of the second driving motor 1211 is horizontally arranged, one end of the output shaft of the second driving motor 1211 penetrates through the fourth housing 125, and one end of the output shaft of the first driving motor 1210 is fixedly connected with a third bevel gear 128;

the fourth bevel gear 129 is rotatably sleeved on the outer wall of the second spindle 122 (for example, a bearing is arranged on the outer wall of the second spindle, the inner ring of the bearing is fixedly connected with the outer wall of the second spindle, and the outer ring of the bearing is fixedly sleeved with the fourth bevel gear), the third bevel gear 128 and the fourth bevel gear 129 are in meshing transmission, and one end of the fourth bevel gear 129, which is far away from the fourth housing 125, is fixedly connected with the first rotating magnet 1214.

The working principle and the beneficial effects of the technical scheme are as follows: above-mentioned technical scheme has simple structure's advantage, and is convenient for drive first rotary magnet and the rotation of second rotary magnet.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (9)

1. A quantum gyromagnetic mineral faucet, comprising:

first water treatment device (1) comprising: the water-saving filter comprises a first shell (11), wherein the water inlet end of the first shell (11) is communicated with a water source, and a first filter (12) and a second filter (13) are sequentially arranged in the first shell (11) from the water inlet end to the water outlet end;

a second water treatment device (2) comprising: the water inlet end of the second shell (21) is connected with the water outlet end of the first shell (11); a rotary magnetizing device arranged inside the second housing (21);

the valve connecting pipe (5), be connected with valve (6) on the valve connecting pipe (5), the valve connecting pipe (5) is connected with the play water end of second shell (21).

2. The quantum gyromagnetic mineral water tap according to claim 1,

a first connecting pipeline (111) is arranged at the water inlet end of the first shell (11), an external thread is arranged on the outer wall of the first connecting pipeline (111), and an internal thread matched with the external thread of the first connecting pipeline (111) is arranged on the inner wall of the water outlet pipeline (3) of the water source;

the first water treatment device (1) further comprises a protective cover (14), wherein the inner wall of the protective cover (14) is provided with an internal thread matched with the external thread of the first connecting pipeline (111);

a second connecting pipeline is arranged at the water inlet end of the second shell (21), an external thread is arranged on the outer wall of the second connecting pipeline, and an internal thread matched with the external thread of the second pipeline (211) is arranged at the water outlet end of the first shell (11);

the inside of the water outlet end of the first shell (11) is also provided with a first silicon rubber ring (15) matched with the shape of the water outlet end of the first shell (11), and the outside of the first connecting pipeline (111) is provided with a second silicon rubber ring (16) matched with the shape of the first connecting pipeline (111).

3. The quantum gyromagnetic mineral water tap according to claim 1,

the first filter (12) is an eddy current magnetization filter, and the second filter (13) is a pretreatment filter;

the eddy current magnetization filter includes: a first rotary magnet (1214), a second rotary magnet (1215), and a third magnet (1216), the first rotary magnet (1214), the second rotary magnet (1215), and the third magnet (1216) being sequentially arranged in a water flow direction of the first housing (11);

the first rotary magnet (1214) and the second rotary magnet (1215) rotate in opposite directions.

4. A quantum gyromagnetic mineral faucet of claim 3,

the pre-processor filter adopts a stainless steel filter screen.

5. A quantum gyromagnetic mineral water tap according to any one of claims 1 to 3,

the rotary magnetizing apparatus includes: the germanium filter (22) and the rotary magnetization filter (23) are sequentially communicated and arranged in the second shell (21) along the water flow direction of the second shell (21);

the germanium filter (22) comprises:

the device comprises a first device main body (221), wherein a plurality of first through holes penetrating through the side wall of the first device main body (221) are circumferentially arranged on the first device main body (221);

a central rotary magnet (225) provided in the first device main body (221);

a plurality of surrounding magnets (226) respectively arranged in the first through holes;

a number of germanium (227) disposed within the number of first through holes;

the rotary magnetized filter (23) comprises: a second device main body (231); a ceramic wing (234) rotatably connected to the inner center portion of the second device body (231); and a Ge-Lite filter (24) disposed on the water outlet side of the second device body (231).

6. The Quantum gyromagnetic mineral faucet of claim 5,

the second housing (21) includes: the shell (212) and a shell cover arranged on the water outlet side of the shell (212), wherein the rotary magnetizing device is arranged in the shell (212);

the first device body (221) includes: the bottom plate (222) is provided with a plurality of side plates (223) in the circumferential direction on one side of the bottom plate (222) facing the water outlet side of the shell, the surrounding magnet (226) is arranged on the side plates (223), and a plurality of second through holes (224) are formed in the bottom plate (222);

the second device body (231) includes: the side, close to the water outlet side of the shell, of the hollow column body (232) is provided with an opening, the side face of the hollow column body (232) is provided with a plurality of third through holes (233), and the hollow column body (232) and the bottom plate (222) are coaxially arranged;

the central rotating magnet (225) comprises: a plurality of fourth magnets (2251) circumferentially distributed on the rotating shaft (2252) and the rotating shaft (2252).

7. A quantum gyromagnetic mineral faucet of claim 3,

the first rotary magnet (1214) is driven by a first driving device, the second rotary magnet (1215) is driven by a second driving device, the first driving device and the second driving device are both connected with a rotating speed sensor, and a flow velocity sensor is arranged in the first shell (11) and close to the water inlet end;

the water faucet further comprises a microcontroller, the microcontroller is electrically connected with the rotating speed sensors and the flow rate sensors respectively, and the microcontroller, the first driving device and the second driving device are connected with a power supply;

the microcontroller is connected with the first driving device and the second driving device through a driving circuit, and the driving circuit comprises:

the input end of the first NOT gate is connected with the microcontroller, one end of a capacitor (C1) and one end of a third resistor (R3);

a variable resistor (R6) having a variable end connected to the other end of the third resistor (R3);

a second crystal diode (D2), the anode of which is connected with the output end of the first NOT gate, and the cathode of which is connected with one end of the variable resistor (R6);

a first crystal diode (D1), the anode of which is connected with the other end of the variable resistor (R6), and the cathode of which is connected with the anode of the second crystal diode (D2);

the input end of the second NOT gate (U2) is connected with the output end of the first NOT gate (U1);

a fifth resistor (R5), one end of which is connected with the output end of the second NOT gate (U2);

the grid electrode of the field-effect tube (U4) is connected with the other end of the fifth resistor (R5), the source electrode of the field-effect tube is connected with the first end of the first driving device or the second driving device through the fourth resistor (R4), the drain electrode of the field-effect tube is connected with the negative electrode of the power supply, and the second end of the first driving device or the second driving device is connected with the positive electrode of the power supply;

a third transistor diode (D3), the anode of which is connected with the first end of the first driving device or the second driving device, and the cathode of which is connected with the second end of the first driving device or the second driving device;

the non-inverting input end of the operational amplifier (U1) is connected with the first end of the first driving device or the second driving device, the inverting input end of the operational amplifier is grounded through a second resistor (R2), and the output end of the operational amplifier is connected with the microcontroller;

and a first resistor (R1) having one end connected to the inverting input terminal of the operational amplifier (U1) and the other end connected to the output terminal of the operational amplifier (U1).

8. The quantum gyromagnetic mineral water tap according to claim 7,

still include the protection circuit, the protection circuit includes:

the positive electrode of the photoelectric isolator (U5) is connected with the positive electrode of a power supply through a sixth resistor (R7), the negative electrode of the photoelectric isolator is connected with the negative electrode of the power supply, and the emitter of the photoelectric isolator is grounded;

the base electrode of the switching tube (Q) is connected with the collector electrode of the photoelectric isolator (U5), and the collector electrode of the switching tube (Q) is grounded;

one end of a coil of the relay (J) is connected with a power supply of the relay (J), the other end of the coil of the relay (J) is connected with an emitting electrode of a switch tube (Q), a first end of the relay (J) is connected with the emitting electrode of the switch tube (Q), a second end of the relay (J) is connected with a second end of the first driving device or the second driving device, and the second end of the relay (J) is also connected with the microcontroller;

one end of the seventh resistor (R8) is connected with the base electrode of the switching tube (Q), and the other end of the seventh resistor (R8) is connected with the power supply of the relay (J);

and the anode of the fourth crystal diode (D4) is connected with the emitter of the switching tube (Q), and the cathode of the fourth crystal diode is connected with the power supply of the relay (J).

9. A quantum gyromagnetic mineral water faucet as claimed in claim 1, wherein a water source connecting part extends downwards from the middle of the lower end of the first housing (11);

the first filter (12) comprises: the spindle and a first rotating magnet (1214), a second rotating magnet (1215) and a third rotating magnet which are arranged on the spindle from bottom to top in sequence;

the middle part of the upper end of the horizontal connecting plate (1212) is fixedly connected with the lower end of the main shaft;

the two adjusting components (4) are respectively arranged on two sides of the lower end of the horizontal connecting plate (1212) and are positioned on two sides of the water source connecting part, and a plurality of filtering holes (1213) are formed in the horizontal connecting plate (1212) between the two adjusting components (4);

the adjustment assembly (4) comprises:

the second mounting groove (41) is arranged at the lower end of the horizontal connecting plate (1212);

the upper end of the fixed seat (42) is fixedly connected to the lower end of the first shell (11), and a first mounting groove (421) is formed in the upper end of the fixed seat (42);

the connecting sliding block (43) is connected in the first mounting groove (421) in a sliding mode, the connecting sliding block (43) comprises a mounting plate (431), the middle of the upper end of the mounting plate (431) is fixedly connected with a cylinder (432), and the upper end of the cylinder (432) penetrates into the first shell (11) and is connected into the second mounting groove (41);

the connecting block (49) is installed in the first installation groove (421) and is positioned at the bottom of the first installation groove (421);

a third mounting groove (44) is formed in the lower end of the mounting plate (431), and a fourth mounting groove (45) opposite to the third mounting groove (44) is formed in the upper end of the connecting block (49);

the vertical threaded hole is formed in the position, where the first mounting groove (421) is formed in the lower end of the fixed seat (42), a bolt (47) is connected to the vertical threaded hole in an inner threaded mode, and a nut (48) is arranged on the bolt (47) and located at the lower end of the fixed seat (42);

the spring (46) is arranged in the first mounting groove (421), one end of the spring (46) is fixedly connected with the third mounting groove (44), and the other end of the spring (46) is fixedly connected with the fourth mounting groove.

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