CN2347508Y - Electronic glass - Google Patents

Abstract

The utility model relates to an electronic glass, which belongs to the technical field of household goods and is composed of a cup body, a cup cover and an electronic circuit. The lower part of the cup body is fixedly connected with a cup base; the cup cover is composed of an inner cover and an outer cover; a permanent magnet is arranged between the two covers; the top part of the cup part is a paraboloid shape; the paraboloid is fixed with six conductive contacts; the upper part of the outer surface of the cup base is provided with the display of water temperature, water purity and radioactivity; the cup base is provided with the circuit of detection identification, power control and detection; the conductive contacts and the display are respectively connected with the electronic circuit. The utility model can display water temperature, purity and radioactive substance, and can detect the content of poisonous and harmful substance; the utility model can carry out activity treatment for water.

Description

Electronic glass

The utility model relates to a kind of cup that drinks water, and belongs to technical field of living goods.

The function singleness of existing various water tumblers, can only be used to be filled with water, no matter be general water tumbler, or various thermos cups, all can't see the temperature that is filled with water intuitively, especially can't know water purity and content of harmful, whether contain radioactive substance, more can not carry out activity and handle water.

The purpose of this utility model is to overcome the deficiencies in the prior art, provides a kind of and shows water temperature, water purity and content of radioactive substance and can carry out the active Electronic glass of handling to water.

The purpose of this utility model is achieved through the following technical measures:

By the Electronic glass that cup, bowl cover and electronic circuit are formed, a cup is arranged under the cup, be sealedly and fixedly connected between cup and cup; Bowl cover is made up of insulation inner cap and protection enclosing cover, between insulation inner cap and the protection enclosing cover permanent magnet is arranged; The cup top is paraboloidal, around reaching, parabolic center is fixed with 6 conductive contacts, water temperature indicating meter, water purity indicating meter and radioactivity indicating meter are equipped with in cup outside surface top, be equipped with in the cup and detect identification and power control circuit, water purity testing circuit, water temperature testing circuit, radioassay circuit and active water treatment circuit, conductive contact is connected with electronic circuit respectively with indicating meter.

Permanent magnet is installed in the bowl cover top, between insulation inner cap and protection enclosing cover.

In 6 conductive contacts, 1 is positioned at parabolic top center, and other 5 are waited radian, equidistant with parabolic top center and parabolic edge each other.

Water temperature indicating meter, water purity indicating meter and radioactivity indicating meter adopt liquid-crystal display.

Detect identification and form magnetron K0 one termination 9V and 1.5V power cathode, the other end ground connection by magnetron K0, unicircuit CD4066, conductive contact T0, T1, T2 and resistance and variable resistor with power control circuit; (1) pin of CD4066 and (14) pin connect the 9V positive source, and conductive contact T2 connects CD4066 (13) pin and resistance R 3, and resistance R 2 meets conductive contact T1 by variable resistor W1, and resistance R 3 meets conductive contact T0 by variable resistor W2, simultaneously ground connection; (2) pin of CD4066 connects R5, R6 and water purity testing circuit; (3) pin of CD4066 connects the 1.5V positive source; (4) of CD4066, (8) pin be water receiving temperature testing circuit and water-borne radioactivity testing circuit respectively; (5) pin connecting resistance R5 of CD4066, (6) pin of CD4066 connects the sliding end of variable resistor W2 by resistance R 4; (7) pin of CD4066 and (11) pin ground connection; (9) taking over a job property of pin water treatment circuit of CD4066; (10) of CD4066, (12) pin water receiving radioassay circuit.

Water purity testing circuit is made up of integrated circuit (IC) L7136, conductive contact T0, T3, water purity indicating meter CX and Resistor-Capacitor Unit, (2) of integrated circuit (IC) L7136-(25) pin water receiving purity indicating meter CX; (26) pin connects the 9V power cathode; (27), (28) and (29) pin connects capacitor C 14, resistance R 18 and capacitor C 10 respectively, the other end parallel connection of capacitor C 14, resistance R 18 and capacitor C 10; (30), (32) and (37) pin connects capacitor C 11, conductive contact T0 and ground connection; (31) pin connects capacitor C 11 and resistance R 9, resistance R 9 the other end connecting resistance R10 and R15, another termination conductive contact of R10 T3; (33) and (34) pin be connected across capacitor C 12 two ends, (35) pin connects resistance R 15 and resistance R 12 and ground connection by resistance R 11, resistance R 15, resistance R 10 and resistance R 9 are connected; (36) pin connects resistance R 12 and resistance R 13; (38), (39) pin connects capacitor C 13 and resistance R 14 respectively, the capacitor C 13 and resistance R 14 the other ends also connect (40) pin, (1) pin and resistance R 13 connect the 9V positive source.

The water temperature testing circuit is made up of unicircuit TC2156, water temperature indicating meter WX, temperature sensor SENSO and Resistor-Capacitor Unit, (9) of TC2156-(21) pin water receiving temperature indicating meter WX; TC2156, (2), (3) pin connecting resistance R7, temperature sensor SENSO respectively, the other end of resistance R 7, temperature sensor SENSO with connect capacitor C 7 after (1) pin of TC2156 is in parallel, (30) pin of capacitor C 7 the other ends and TC2156 connects the negative pole of 1.5V power supply; (5), (6) pin is connected across resistance R 17 two ends; (22), (23) pin is connected across capacitor C 8 two ends; (24), (29) pin connects the positive pole that capacitor C 9, resistance R 16 backs and (25), (27), (28) pin connect the 1.5V power supply respectively.

The radioassay circuit is made up of unicircuit TSL220, HT-1350, CD4066, vibrator HD, radioactivity indicating meter FX and Resistor-Capacitor Unit, and (4) of TSL220, (6) pin are connected across capacitor C 3 two ends; (3) pin connecting resistance R6, resistance R 6 the other end connecting resistance R5; (2) pin connects (12) pin of CD4066; (11) pin ground connection of CD4066; (10) pin of CD4066 connects the STEP end of HT-1350; The CP3 termination capacitor C6 of HT-1350, the other end of capacitor C 6 and vdd terminal connect the 1.5V positive source, VSS termination 1.5V power cathode and ground connection; OSC1, OSC2 are connected across vibrator HD two ends; CP1, CP2 are connected across capacitor C 5 two ends; COM1, COM2, COM3, OUT4-OUT17 meet radioactivity indicating meter FX.

The active water treatment circuit is made up of unicircuit LM3909, conductive contact T4, T5 and Resistor-Capacitor Unit, and (2) pin of LM3909 connects capacitor C 4, and (8) pin of the other end connecting resistance R8, the LM3909 of capacitor C 4 connects capacitor C 2, another termination conductive contact T5 of capacitor C 2; (4) pin ground connection of the other end of resistance R 8 and LM3909; (6) pin of LM3909 meets conductive contact T4 by capacitor C 1; (5) pin of LM3909 connects (9) pin of CD4066.

Detect identification and power control circuit, water purity testing circuit, the water temperature testing circuit, the resistance of resistance R 2-R18 in radioassay circuit and the active water treatment circuit is respectively: 39K Ω-51K Ω, 2.2M Ω-3.5M Ω, 100K Ω-140K Ω, 680K Ω-810K Ω, 390K Ω-510K Ω, 800 Ω-1.3K Ω, 810K Ω-1.3M Ω 8.1M Ω-10M Ω, 160K Ω-220K Ω, 3.9K Ω-5.1K Ω, 110K Ω-150K Ω, 100K Ω-140K Ω, 8.1K Ω-13K Ω, 120K Ω-180K Ω, 39K Ω-51K Ω and 390K Ω-510K Ω.

Detect identification and power control circuit, water purity testing circuit, the water temperature testing circuit, the capacity of capacitor C 1-C13 in radioassay circuit and the active water treatment circuit is respectively: 3.9 μ F-5.1 μ F, 3.9 μ F-5.1 μ F800pF-1200pF, 0.008 μ F-0.02 μ F, 800pF-1200pF, 800pF-1200pF, 0.01 μ F-0.03, μ F, 0.008 μ F-0.02 μ F, 0.008 μ F-0.02 μ F, 0.008 μ F-0.02 μ F, 0.008 μ F-0.02 μ F, 0.008 μ F-0.02 μ F, 80pF-120pF and 0.039 μ F-0.051 μ F.

Variable resistor W1 in detection identification and the power control circuit, the resistance of W2 are respectively: 100K Ω-140K Ω and 51.K Ω-810K Ω.

The utility model is poured the preceding first protection enclosing cover with bowl cover of water into and is taken off in use, and water tumbler is put into the protection enclosing cover, and permanent magnet makes magnetron connect 9V and 1.5V power supply.Detect identification and power control circuit circuit is worked automatically, shut down automatically when anhydrous; Equally, bowl cover is not enclosed within position, cup bottom, circuit can not worked yet.The standard of water purity varies in different localities, be standard generally with own often tap water, determine a numerical value, after the utility model is poured water into, water purity numeral changes very fast, is stabilized in after the several seconds on the numerical value, i.e. the purity of tested water, if measured value and standard value depart from too big, illustrate that the purity of water is poor more; The water temperature indicating meter glimmers with the speed of 1Hz pour water in cup after, illustrate and measure, when take off data during less than 82C, the LC character appears on the display screen, represent that this temperature is lower than the temperature of making tea, when take off data during greater than 92C, the HC character appears on the display screen, represent that this temperature is higher than the temperature of making tea; The radioactivity receptor is housed, if do not contain radioactive substance in the cup, display screen digital constant in the TSL220, as long as contain radioactive substance, no matter be which type of radioactive substance, the numeral of display screen will change, content of radioactive substance is high more, and the numeral of display screen changes fast more; The active water treatment circuit carries out the collision type oscillation treatment with the electricimpulse of 60Hz frequency to water, and water molecules is activated gradually, and water quality also improves gradually.The utility model volume is little, in light weight, rational in infrastructure, easy to use, not only can show water temperature, water purity and content of radioactive substance, also can carry out activity to water and handle.

It below is description of drawings.

Fig. 1 is the utility model structural representation.

Fig. 2 is the utility model electrical schematic diagram.

Fig. 3 is a water purity testing circuit electrical schematic diagram in the utility model.

Fig. 4 is a water temperature testing circuit electrical schematic diagram in the utility model.

Fig. 5 is a radioassay circuit electrical schematic diagram in the utility model.

Wherein, 1. cup, 2. bowl cover, 3. permanent magnet, 4. cup, 5. liquid-crystal display, 6. conductive contact.

The utility model is described in further detail below in conjunction with drawings and Examples.

Embodiment: originally make the utility model structure as shown in Figure 1, cup has a cup 4 for 1 time, and cup 1 is sealedly and fixedly connected together with cup 4; Bowl cover 2 is made up of insulation inner cap and protection enclosing cover, between insulation inner cap and the protection enclosing cover permanent magnet 3 is arranged; Cup 4 tops are paraboloidal, around reaching, parabolic center is fixed with 6 conductive contacts, the water temperature indicating meter is equipped with on cup 4 outside surface tops, water purity indicating meter and radioactivity indicating meter, be equipped with in the cup and detect identification and power control circuit, water purity testing circuit, the water temperature testing circuit, radioassay circuit and active water treatment circuit, conductive contact is connected with electronic circuit respectively with indicating meter, each several part circuit connecting relation such as Fig. 2, Fig. 3, Fig. 4 and shown in Figure 5, the resistance value of the resistance R 2-R18 in the circuit is respectively: 47K Ω, 2.7M Ω, 120K Ω, 750K Ω, 1K Ω, 470K Ω, 1K Ω, 1M Ω, 9M Ω, 200K Ω, 4.7K Ω, 130K Ω, 120K Ω, 10K Ω, 150K Ω, 47K Ω, 470K Ω; The electrical capacity of capacitor C 1-C14 is respectively: 4.7 μ F, 4.7 μ F, 1000pF, 0.01 μ F, 1000pF, 1000pF, 0.02 μ F, 0.01 μ F, 0.01 μ F, 0.22 μ F, 0.01 μ F, 0.1 μ F, 100pF and 0.047 μ F; The resistance of variable resistor W1, W2 is respectively: 120K Ω and 68K Ω.

Claims (10)

1. an Electronic glass of being made up of cup, bowl cover and electronic circuit is characterized in that, a cup is arranged under the cup, is sealedly and fixedly connected between cup and cup; Bowl cover is made up of insulation inner cap and protection enclosing cover, between insulation inner cap and the protection enclosing cover permanent magnet is arranged; The cup top is paraboloidal, around reaching, parabolic center is fixed with 6 conductive contacts, water temperature indicating meter, water purity indicating meter and radioactivity indicating meter are equipped with in cup outside surface top, be equipped with in the cup and detect identification and power control circuit, water purity testing circuit, water temperature testing circuit, radioassay circuit and active water treatment circuit, conductive contact is connected with electronic circuit respectively with indicating meter.

2. Electronic glass as claimed in claim 1 is characterized in that described permanent magnet is installed in the bowl cover top, between insulation inner cap and protection enclosing cover.

3. Electronic glass as claimed in claim 1 is characterized in that, in described 6 conductive contacts, 1 is positioned at parabolic top center, and all the other 5 are waited radian, equidistant with parabolic top center and parabolic edge each other.

4. Electronic glass as claimed in claim 1 is characterized in that, described water temperature indicating meter, water purity indicating meter and radioactivity indicating meter adopt liquid-crystal display.

5. Electronic glass as claimed in claim 1, it is characterized in that, described detection identification and power control circuit are made up of magnetron K0, unicircuit CD4066, conductive contact T0, T1, T2 and resistance and variable resistor, magnetron K0 one termination 9V and 1.5V power cathode, the other end ground connection; (1) pin of CD4066 and (14) pin connect (13) pin and the resistance R 3 that 9V positive source, conductive contact T2 meet CD4066, CD4066 (1) pin, (14) pin meet conductive contact T1 by resistance R 2, variable resistor W1, resistance R 3 meets conductive contact T0 by variable resistor W2, simultaneously ground connection; (2) pin of CD4066 connects R5, R6 and water purity testing circuit; (3) pin of CD4066 connects the 1.5V positive source; (4) of CD4066, (8) pin be water receiving temperature testing circuit and water-borne radioactivity testing circuit respectively; (5) pin connecting resistance R5 of CD4066, (6) pin of CD4066 connects the sliding end of variable resistor W2 by resistance R 4; (7) pin of CD4066 and (11) pin ground connection; (9) taking over a job property of pin water treatment circuit of CD4066; (10) of CD4066, (12) pin water receiving radioassay circuit.

6. Electronic glass as claimed in claim 1, it is characterized in that, described water purity testing circuit is made up of integrated circuit (IC) L7136, conductive contact T0, T3, water purity indicating meter CX and Resistor-Capacitor Unit, (2) of integrated circuit (IC) L7136-(25) pin water receiving purity indicating meter CX; (26) pin connects the 9V power cathode; (27), (28) and (29) pin connects capacitor C 14, resistance R 18 and capacitor C 10 respectively, the other end parallel connection of capacitor C 14, resistance R 18 and capacitor C 10; (30), (32) and (37) pin connects capacitor C 11, conductive contact T0 and ground connection; (31) pin connects capacitor C 11 and resistance R 9, resistance R 9 the other end connecting resistance R10 and R15, another termination conductive contact of R10 T3; (33) and (34) pin be connected across capacitor C 12 two ends; (35) pin connects resistance R 15 and resistance R 12 and ground connection by resistance R 11, and resistance R 15, resistance R 10 and resistance R 9 are connected; (36) pin connects resistance R 12 resistance R 13; (38), (39) pin connects capacitor C 13 and resistance R 14 respectively, the capacitor C 13 and resistance R 14 the other ends also connect (40) pin, (1) pin, resistance R 13 connect the 9V positive source.

7. Electronic glass as claimed in claim 1 is characterized in that, described water temperature testing circuit is made up of unicircuit TC2156, water temperature indicating meter WX, temperature sensor SENSO and Resistor-Capacitor Unit, (9) of TC2156-(21) pin water receiving temperature indicating meter WX; TC2156, (2), (3) pin connecting resistance R7, temperature sensor SENSO respectively, the other end of resistance R 7, temperature sensor SENSO with connect capacitor C 7 after (1) pin of TC2156 is in parallel, (30) pin of capacitor C 7 the other ends and TC2156 connects the negative pole of 1.5V power supply; (5), (6) pin is connected across resistance R 17 two ends; (22), (23) pin is connected across capacitor C 8 two ends; (24), (29) pin connects the positive pole that capacitor C 9, resistance R 16 backs and (25), (27), (28) pin connect the 1.5V power supply respectively.

8. Electronic glass as claimed in claim 1, it is characterized in that, described radioassay circuit is made up of unicircuit TSL220, HT-1350, CD4066, vibrator HD, radioactivity indicating meter FX and Resistor-Capacitor Unit, and (4) of TSL220, (6) pin are connected across capacitor C 3 two ends; (3) pin connecting resistance R6, resistance R 6 the other end connecting resistance R5; (2) pin connects (12) pin of CD4066; (11) pin ground connection of CD4066; (10) pin of CD4066 connects the STEP end of HT-1350; The CP3 termination capacitor C6 of HT-1350, the other end of capacitor C 6 and vdd terminal connect the 1.5V positive source, VSS termination 1.5V power cathode and ground connection; OSC1, OSC2 are connected across vibrator HD two ends; CP1, CP2 are connected across capacitor C 5 two ends; COM1, COM2, COM3, OUT4-OUT17 meet radioactivity indicating meter FX.

9. Electronic glass as claimed in claim 1, it is characterized in that, described active water treatment circuit is made up of unicircuit LM3909, conductive contact T4, T5 and Resistor-Capacitor Unit, (2) pin of LM3909 connects capacitor C 4, (8) pin of the other end connecting resistance R8, the LM3909 of capacitor C 4 connects capacitor C 2, another termination conductive contact T5 of capacitor C 2; (4) pin ground connection of the other end of resistance R 8 and LM3909; (6) pin of LM3909 meets conductive contact T4 by capacitor C 1; (5) pin of LM3909 connects (9) pin of CD4066.

10. Electronic glass as claimed in claim 1, it is characterized in that described detection identification and power control circuit, water purity testing circuit, the water temperature testing circuit, the resistance of resistance R 2-R18 in radioassay circuit and the active water treatment circuit is respectively: 39K Ω-51K Ω, 2.2K Ω-3.5M Ω, 100K Ω-140K Ω, 680K Ω-810K Ω, 390K Ω-510K Ω, 800 Ω-1.3K Ω, 810K Ω-1.3K Ω, 8.1M Ω-10M Ω, 160K Ω-220K Ω, 3.9K Ω-5.1K Ω, 110K Ω-150K Ω, 100K Ω-140K Ω, 8.1K Ω-13K Ω, 120K Ω-180K Ω 39K Ω-51K Ω and 390K Ω-510K Ω; The capacity of capacitor C 1-C13 is respectively: 3.9 μ F-5.1 μ F, 3.9 μ F-5.1 μ F, 800pF-1200pF, 0.008 μ F-0.02 μ F, 800pF-1200pF, 800pF-1200pF, 0.01 μ F-0.03 μ F, 0.008 μ F-0.02 μ F, 0.008 μ F-0.02 μ F, 0.008 μ F-0.02 μ F, 0.008 μ F-0.02 μ F, 0.008 μ F-0.02 μ F, 80pF-120pF and 0.039 μ F-0.051 μ F; The resistance of variable resistor W1, W2 is respectively: 100K Ω-140K Ω and 51K Ω-81 Ω K.

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