CN212050664U - Wireless response sterilized water produces ware - Google Patents

Abstract

The utility model discloses a wireless response sterile water produces ware, the standing groove has been seted up to wireless response seat up end, the tank bottom gomphosis of standing groove is connected with the power transmission coil, electrolysis cup lower extreme gomphosis is connected in the standing groove, just electrolysis cup lower extreme bottom surface gomphosis is connected with receiving coil, electrolysis cup bottom portion still gomphosis is connected with the rectifier, be used for with receiving coil through the wire with the rectifier is connected, electrolysis cup inner chamber bottom can be dismantled and be connected with electrolytic device. The utility model has the advantages of simple structure, safe use, convenient carrying, strong controllability, strong practicability and convenient cleaning, and is mainly used for producing disinfectant.

Description

Wireless response sterilized water produces ware

Technical Field

The utility model relates to a disinfecting and sterilizing cleaning equipment technical field, specific wireless response sterile water production ware that says so.

Background

In daily life, in order to improve environmental safety and reduce the propagation of microorganisms such as viruses, people need to spray a disinfectant to sterilize the environment, but the existing disinfectant easily causes environmental chemical pollution, has certain side effect on human bodies and lags behind the technology. At present, the mode of adopting electrolysis water for disinfection is popular, namely, the electrolysis mode is adopted to generate acid water, and the acid water is used as a disinfectant for disinfection. The main component of the acidic electrolyzed water for sterilization is chlorine, and the acidic electrolyzed water can achieve better sterilization and disinfection effects. Because the electrolyzed water is convenient to produce and good in reducibility, secondary pollution can not be caused by adopting the electrolyzed water for disinfection, and the use range is rapidly expanded.

However, the conventional electrolyzed water disinfectant generator is usually an integral large-scale device, is inconvenient to carry, is inconvenient to lead out disinfectant after electrolysis is completed, is easy to spill disinfectant, has poor safety, cannot be used under the condition of no power supply in mountainous areas, dangerous places and the like, has low practicability, and is difficult to clean a container for storing the disinfectant.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned weak point that exists among the prior art, the utility model aims at providing a simple structure, safe in utilization, portable, controllability are strong, have stronger practicality, the clear wireless response sterile water production apparatus of being convenient for.

The utility model discloses a realize that the technical scheme that above-mentioned purpose adopted is: a wireless induction sterilized water production device comprises a wireless induction seat and an electrolytic cup, wherein a placing groove is formed in the upper end face of the wireless induction seat, a power transmission coil is connected to the bottom of the placing groove in an embedded mode, a storage battery, a power adapter, a frequency converter, a control chip, a timer and an electromagnetic switch are fixedly connected inside the wireless induction seat, the storage battery is connected with the power adapter through a wire, the power adapter is connected with the frequency converter through a wire, the frequency converter is sequentially connected with the electromagnetic switch and the power transmission coil in series through wires, the control chip is respectively connected with the power adapter, the timer and the electromagnetic switch through data wires, the lower end of the electrolytic cup is connected into the placing groove in an embedded mode, a power receiving coil is connected to the bottom face of the lower end of the electrolytic cup in an embedded mode, and the power transmission coil generates current in the power receiving coil based on alternating, the bottom of the electrolytic cup is also connected with a rectifier in an embedded mode and used for connecting the power receiving coil with the rectifier through a lead, and the bottom of the inner cavity of the electrolytic cup is detachably connected with an electrolytic device.

The surface of one side of the wireless induction seat is connected with a main switch in an embedded mode, a charging socket is formed in the wireless induction seat on one side of the main switch, and the charging socket and the main switch are connected with the power adapter through wires respectively.

The surface of one side of the wireless induction seat is connected with an operation interface in an embedded mode, the operation interface comprises a display screen, operation keys and an indicator lamp, and the display screen and the operation keys are connected with the control chip through data lines.

The indicating lamp comprises a charging indicating lamp, a working indicating lamp and an abnormal indicating lamp, the charging indicating lamp is connected in series in a circuit connected with the charging socket, the power adapter and the storage battery, the working indicating lamp is connected in series in a circuit located by the storage battery, the power adapter and the power transmission coil, and the abnormal indicating lamp is connected with the control chip through a wire.

The electrolytic cup is characterized in that a first positioning groove is formed in the center of the bottom surface of the lower end of the electrolytic cup, a first positioning block is fixedly connected to the peripheral edge of the lower end of the electrolytic cup, a second positioning block is fixedly connected to the bottom center of the placing groove, a second positioning groove is formed in one side of the placing groove, the first positioning block is connected to the second positioning groove in an embedded mode, and the second positioning block is connected to the first positioning groove in an embedded mode.

An upper cover or a spray head is fixedly arranged at the upper end of the electrolytic cup, and a handle is fixedly connected to the side wall of the electrolytic cup.

The electrolytic cup comprises an upper part and a lower part which are fixedly connected through threads.

The electrolysis device comprises a lower shell, an upper shell, an anode electrolytic sheet, a cathode electrolytic sheet and an insulating plate, wherein the upper shell is detachably connected to the upper end of the lower shell, an electrolytic tank is arranged in the lower shell, the anode electrolytic sheet and the cathode electrolytic sheet are distributed in an annular mode in the electrolytic tank, the anode electrolytic sheet and the cathode electrolytic sheet are arranged at intervals, and the anode electrolytic sheet and the cathode electrolytic sheet are adjacent to each other and are separated through the insulating plate.

The anode electrolytic sheet is connected with the anode output end of the rectifier through a lead, and the cathode electrolytic sheet is connected with the cathode output end of the rectifier through a lead.

The utility model has the advantages that: the device is simple in structure, convenient to operate and easy to carry, and can be used for preparing disinfectant water under the condition of no external power supply through the arranged storage battery, so that the device is convenient to use in a severe environment and high in practicability; after the electrolysis is finished, the electrolysis cup can be moved, and the disinfected clean water in the electrolysis cup can be easily poured into the spraying container, or the electrolysis cup with the spray head is directly used for spraying the disinfected clean water, so that the inconvenience in use caused by moving the whole disinfectant generator is avoided, and meanwhile, the unsafety in use is also avoided; the operating interface arranged on the device has strong controllability, and the working condition of the device can be intuitively known through the indicating lamp; the electrolysis cup comprises an upper part and a lower part, and when the electrolysis cup is cleaned, the electrolysis device can be conveniently cleaned only by separating the upper part and the lower part of the electrolysis cup.

Drawings

Fig. 1 is a schematic view of a top-down perspective structure of the present invention;

FIG. 2 is a schematic view of the bottom perspective structure of the present invention;

FIG. 3 is a schematic diagram of the separation structure of the electrolytic cup of the present invention;

FIG. 4 is a schematic view of the three-dimensional structure of the electrolyzer of the present invention;

fig. 5 is a schematic diagram of the circuit connection structure of the present invention.

In the figure: 1 wireless induction seat, 2 electrolytic cups, 3 placing grooves, 4 power transmission coils, 5 storage batteries, 6 power adapters, 7 frequency converters, 8 control chips, 9 timers, 10 electromagnetic switches, 11 power receiving coils, 12 rectifiers, 13 electrolytic devices, 14 main switches, 15 charging sockets, 16 display screens, 17 operation keys, 18 charging indicator lamps, 19 work indicator lamps, 20 abnormal indicator lamps, 21 first positioning grooves, 22 first positioning blocks, 23 second positioning blocks, 24 second positioning grooves, 25 handles, 26 lower shells, 27 upper shells, 28 anode electrolytic sheets, 29 cathode electrolytic sheets, 30 insulating plates, 31 upper cover bodies and 32 covering parts.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, a wireless induction sterilized water producing device comprises a wireless induction base 1 and an electrolytic cup 2, wherein a placement groove 3 is formed on the upper end surface of the wireless induction base 1, a power transmission coil 4 is embedded and connected to the bottom surface of the placement groove 3, a storage battery 5, a power adapter 6, a frequency converter 7, a control chip 8, a timer 9 and an electromagnetic switch 10 are fixedly connected inside the wireless induction base 1, the storage battery 5 is connected with the power adapter 6 through a wire, the power adapter 6 is connected with the frequency converter 7 through a wire, the frequency converter 7 is sequentially connected with the electromagnetic switch 10 and the power transmission coil 4 in series through wires, the control chip 8 is respectively connected with the power adapter 6, the timer 9 and the electromagnetic switch 10 through data wires, the lower end of the electrolytic cup 2 is embedded and connected inside the placement groove 3, a power receiving coil 11 is embedded and connected to the bottom surface of the lower end of the electrolytic cup 2, the power transmission coil 4 generates, the bottom of the electrolytic cup 2 is also embedded and connected with a rectifier 12 for connecting the power receiving coil 11 with the rectifier 12 through a lead, and the bottom of the inner cavity of the electrolytic cup 2 is detachably connected with an electrolytic device 13.

In the utility model, a main switch 14 is embedded and connected on the surface of one side of the wireless induction seat 1 and is used for controlling a main circuit switch in the wireless induction seat 1, a charging socket 15 is arranged on the wireless induction seat 1 on one side of the main switch 14 and is used for charging the storage battery 5, and the charging socket 15 and the main switch 14 are respectively connected with the power adapter 6 through wires;

an operation interface is connected to the surface of one side of the wireless induction seat 1 in an embedded mode, the operation interface comprises a display screen 16, operation keys 17 and an indicator light, and the display screen 16 and the operation keys 17 are connected with the control chip 8 through data lines and used for timing and other operations of the device;

the indicating lamp comprises a charging indicating lamp 18, a working indicating lamp 19 and an abnormal indicating lamp 20, wherein the charging indicating lamp 18 is connected in series in a circuit connected with the charging socket 15, the power adapter 6 and the storage battery 5, the working indicating lamp 19 is connected in series in a circuit located by the storage battery 5, the power adapter 6 and the power transmission coil 4, and the abnormal indicating lamp 20 is connected with the control chip 8 through a lead and used for visually prompting the working state of internal equipment;

a first positioning groove 21 is formed in the center of the bottom surface of the lower end of the electrolytic cup 2, a first positioning block 22 is fixedly connected to the peripheral edge of the lower end of the electrolytic cup 2, a second positioning block 23 is fixedly connected to the center of the bottom of the placing groove 3, a second positioning groove 24 is formed in one side of the placing groove 3, the first positioning block 22 is connected in the second positioning groove 24 in an embedded mode, and the second positioning block 23 is connected in the first positioning groove 21 in an embedded mode and used for increasing the stability of the electrolytic cup 2 in the placing groove 3;

an upper cover or a spray head is fixedly arranged at the upper end of the electrolytic cup 2, a handle 25 is fixedly connected to the side wall of the electrolytic cup 2, generally, when the electrolytic cup 2 is large in size, the upper cover is selected and comprises an upper cover main body 31 and a covering part 32, the rear end of the covering part 32 can be hinged to the upper cover main body 31 in a pressing and opening mode, the covering part 32 covers the upper cover main body 31 in the electrolytic process, and after the electrolysis is finished, the rear end of the covering part 32 can be pressed to enable the front end of the covering part to be tilted, so that the sterilized clean water manufactured in the electrolytic cup 2 can be conveniently poured into a small container or a small container with the spray head, and the use is convenient; when the volume of the electrolytic cup 2 is small, the nozzle can be directly arranged on the electrolytic cup 2, and the sterilized clean water can be directly sprayed after the electrolysis is finished;

the electrolytic cup 2 comprises an upper part and a lower part which are fixedly connected through threads, and the electrolytic device 13 can be conveniently cleaned only by separating the upper part and the lower part of the electrolytic cup 2 during cleaning;

the electrolysis device 13 comprises a lower shell 26, an upper shell 27, anode electrolyte sheets 28, cathode electrolyte sheets 29 and an insulating plate 30, wherein the upper shell 27 is detachably connected to the upper end of the lower shell 26, an electrolytic tank is arranged in the lower shell 26, the anode electrolyte sheets 28 and the cathode electrolyte sheets 29 are annularly distributed in the electrolytic tank, the anode electrolyte sheets 28 and the cathode electrolyte sheets 29 are arranged at intervals, the adjacent two groups of anode electrolyte sheets 28 and the cathode electrolyte sheets 29 are respectively isolated by the insulating plate 30, and the electrolytic brine is electrolyzed according to the principle that sodium hypochlorite is electrolyzed by electron transfer of the anode electrolyte sheets 28 in the electrolytic tank in an electrolytic water process to generate specific electrode reaction as follows:

anode electrolyte sheet 28 reaction:

and (3) cathode electrode plate reaction:

and (3) total reaction:

；

the anode electrolyte sheet 28 is connected to the positive output terminal of the rectifier 12 by a wire, and the cathode electrolyte sheet 29 is connected to the negative output terminal of the rectifier 12 by a wire.

The utility model discloses a theory of operation is: when the device is used, an external power supply is connected through a charging socket 15, then the device is input into a storage battery 5 after being regulated and rectified by a power adapter 6, the storage battery 5 is charged, a charging indicator lamp 18 is electrified and lightened in the charging process, when disinfectant water needs to be manufactured, a certain amount of electrolytic salt solution is firstly injected into an electrolytic cup 2, then the electrolytic cup 2 is placed in a placing groove 3 at the upper end of a wireless induction seat 1, a main switch 14 is closed, after the main switch 14 is closed, the storage battery 5 is regulated through the power adapter 6 to supply power to a control chip 8 and other equipment, then an operation instruction is input through an operation key 17, the control chip 8 receives the operation instruction and then controls an electromagnetic switch 10 to be closed, after the electromagnetic switch 10 is closed, the storage battery 5 is firstly regulated through the power adapter 6, then direct current is converted into alternating current through a frequency converter 7 and then, the power transmission coil 4 generates a certain current in the power receiving coil 11 based on the alternating current with a certain frequency through electromagnetic induction, the power receiving coil 11 generates alternating current and then converts the alternating current into direct current through the rectifier 12, and then electrolytic reaction is performed on an electrolytic salt solution through the electrolytic device 13 so as to prepare a disinfection aqueous solution, and in the process, the work indicator lamp 19 is electrified and lightened; the device can also input a timing instruction through an operation key 17, after the instruction is input into a control chip 8, the timer 9 is used for timing, the time required by work is displayed through a display screen 16, countdown is displayed at the same time, after the countdown is finished, the timer 9 sends a closing instruction, and the control chip 8 controls an electromagnetic switch 10 to disconnect a circuit through the instruction to stop work; when the device breaks down, the detection system of the device carries out fault detection and feeds back the fault detection to the control chip 8, and the control chip 8 displays the fault through the display screen 16 and switches on the abnormal indicator light 20 for prompting.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (9)

1. A wireless induction sterilized water producing device is characterized in that: including wireless response seat (1), electrolysis cup (2), standing groove (3) have been seted up to wireless response seat (1) up end, the tank bottom gomphosis of standing groove (3) is connected with and sends electric coil (4), the inside fixedly connected with battery (5), power adapter (6), converter (7), control chip (8), time-recorder (9), electromagnetic switch (10) of wireless response seat (1), battery (5) through the wire with power adapter (6) are connected, power adapter (6) are connected with through the wire converter (7), converter (7) through the wire in proper order series connection have electromagnetic switch (10) with send electric coil (4), control chip (8) are connected with respectively through the data line power adapter (6), time-recorder (9), Electromagnetic switch (10), electrolysis cup (2) lower extreme gomphosis is connected in standing groove (3), just electrolysis cup (2) lower extreme bottom surface gomphosis is connected with receiving electric coil (11), send electric coil (4) to produce electric current in receiving electric coil (11) through electromagnetic induction based on the alternating current, electrolysis cup (2) bottom still gomphosis is connected with rectifier (12), be used for with receiving electric coil (11) through the wire with rectifier (12) are connected, electrolysis cup (2) inner chamber bottom can be dismantled and be connected with electrolytic device (13).

2. A wireless induction sterilized water producing apparatus as defined in claim 1, wherein: the wireless induction seat is characterized in that a main switch (14) is connected to the surface of one side of the wireless induction seat (1) in an embedded mode, a charging socket (15) is formed in the wireless induction seat (1) on one side of the main switch (14), and the charging socket (15) and the main switch (14) are connected with the power adapter (6) through wires respectively.

3. A wireless induction sterile water producer as claimed in claim 2, wherein: the surface of one side of the wireless induction seat (1) is connected with an operation interface in an embedded mode, the operation interface comprises a display screen (16), operation keys (17) and an indicator lamp, and the display screen (16) and the operation keys (17) are connected with the control chip (8) through data lines.

4. A wireless induction sterile water producer as claimed in claim 3, wherein: the indicating lamp comprises a charging indicating lamp (18), a working indicating lamp (19) and an abnormal indicating lamp (20), wherein the charging indicating lamp (18) is connected in series in a circuit connected with the charging socket (15), the power adapter (6) and the storage battery (5), the working indicating lamp (19) is connected in series in a circuit located with the storage battery (5), the power adapter (6) and the power transmission coil (4), and the abnormal indicating lamp (20) is connected with the control chip (8) through a wire.

5. A wireless induction sterilized water producing apparatus as defined in claim 1, wherein: no. one constant head tank (21) has been seted up at electrolysis cup (2) lower extreme bottom surface center, No. one locating piece (22) of electrolysis cup (2) lower extreme neighboring edge fixedly connected with, No. two locating pieces (23) of standing groove (3) tank bottom center fixedly connected with, No. two constant head tanks (24) have been seted up to standing groove (3) one side, No. one locating piece (22) gomphosis is connected in No. two constant head tanks (24), No. two locating piece (23) gomphosis is connected in No. one constant head tank (21).

6. A wireless induction sterilized water producing apparatus as defined in claim 1, wherein: an upper cover or a spray head is fixedly arranged at the upper end of the electrolytic cup (2), and a handle (25) is fixedly connected with the side wall of the electrolytic cup (2).

7. A wireless induction sterilized water producing apparatus as defined in claim 1, wherein: the electrolytic cup (2) comprises an upper part and a lower part which are fixedly connected through threads.

8. A wireless induction sterilized water producing apparatus as defined in claim 1, wherein: electrolytic device (13) is including lower casing (26), last casing (27), anodal electrolysis piece (28), negative pole electrolysis piece (29), insulation board (30), it connects to go up casing (27) can dismantle down casing (26) upper end, the electrolysis trough has been seted up to casing (26) inside down, anodal electrolysis piece (28) with negative pole electrolysis piece (29) are the annular distribution and are in the electrolysis trough, just anodal electrolysis piece (28) with negative pole electrolysis piece (29) are the mutual interval setting, adjacent two sets of anodal electrolysis piece (28) with separate through insulation board (30) between negative pole electrolysis piece (29) respectively.

9. A wireless induction sterile water producer as claimed in claim 8, wherein: the anode electrolytic sheet (28) is connected with the anode output end of the rectifier (12) through a lead, and the cathode electrolytic sheet (29) is connected with the cathode output end of the rectifier (12) through a lead.

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