CN201449097U - Beverage cooling displaying device - Google Patents

Abstract

The utility model relates to a beverage cooling displaying device, belonging to the storage container technical field, which can solves the problem that a refrigeration wine barrel can not know the temperature of the wine and the energy source is wasted. The beverage cooling displaying device comprises a container (1), a probe (2), a temperature sensing transmitting circuit board in the probe (2) and a battery (5) for the temperature sensing transmitting circuit board; a temperature receiving circuit board in the container (1); a temperature collection circuit (3) and a transmitting circuit (4) connected with an I/O end of a U1 micro-processor on the temperature sensing transmitting circuit board; wherein the temperature collection circuit (3) transfers the sensing temperature into the temperature electric signal to be input into the I/O end of the U1 micro-processor and the U1 micro-processor processes and outputs the temperature electric signal to the transmitting circuit (4) by the U1 micro-processor and the temperature electric signal is transmitted. A key on the I/O end of the U2 micro-processor, a display circuit (7), a receiving circuit (8) and a power supply circuit (9) for providing the work voltage are arranged on the temperature receiving circuit board.

Description

Beverage cooling display unit

Technical field

The utility model belongs to the container for storing technical field, is that a kind of bottle that wine or beverage will be housed is placed on the beverage cooling display unit of cooling off in the container.

Background technology

In Chinese patent literature, the patent No. 200420042778.0 discloses a kind of Refrigerating wine container in the patent document of title Refrigerating wine container, it comprises housing, inner bag, be equipped with the semiconductor refrigerator in its housing, below the inner bag, semiconductor cooler is solidified as a whole by energy storage part and housing, inner bag; Fin is set below semiconductor cooler, radiator fan is set below fin.For family, the wine of being drunk is limited at mealtime, most in half bottle or one bottle of scope, therefore, the problem that adopts this Refrigerating wine container to exist can't be known the temperature of wine, if semiconductor cooler is constantly worked, the temperature in the bottle can make the bottle bursting by freezing because of the too low of change, but also causes the waste of the energy.

The utility model content

The purpose of this utility model is to provide a kind of temperature that can show in the bottle on container, and the beverage cooling display unit that does not have electric wire to involve between bottle and the container.

For realizing the purpose of this utility model, described beverage cooling display unit, comprise the container that is used to be filled with water, and be used to be placed on the probe of measuring the wine liquid temp in the bottle, in described probe, be provided with the temperature-sensitive radiating circuit plate of measuring temperature and emission temperature signal and supply the battery of temperature-sensitive radiating circuit plate work; Be provided with the temperature circuit board for receiving that is used to receive probe temperature signal and displays temperature value in the described container; Described temperature-sensitive radiating circuit plate is provided with temperature collection circuit and the radiating circuit that is subjected to the control of U1 microprocessor; Described temperature collection circuit becomes temperature signal to input to the I/O end of U1 microprocessor the temperature inversion of induction, and described U1 microprocessor then exports temperature signal radiating circuit to and launches through handling I/O end by the U1 microprocessor; Described temperature circuit board for receiving is provided with button and the display circuit and the receiving circuit of the I/O end control that is subjected to the U2 microprocessor, and the power circuit that operating voltage is provided;

During use, probe from the opening of bottle is inserted into wherein wine liquid, is put into frozen water or ice, aqueous mixtures in container, then bottle is put in the container, the frozen water in the container can make the wine liquid cooling in the bottle gradually.The temperature that temperature collection circuit on this moment temperature-sensitive radiating circuit plate is sensed wine liquid constantly descends, then just the temperature inversion of induction becomes temperature signal to input to the I/O end of U1 microprocessor, and described U1 microprocessor then exports temperature signal radiating circuit to and launches through handling I/O end by the U1 microprocessor.Receiving circuit on the described temperature circuit board for receiving is then received the signal from radiating circuit, and radiating circuit is transferred in the I/O end of U2 microprocessor and handles, regulate operation by button and display circuit, then on container, can show the temperature of wine liquid.Because the temperature in the wine liquid is that the temperature circuit board for receiving in the container then receives this radio signal, so does not have electric wire to involve between bottle and the container by temperature-sensitive radiating circuit plate transmitted radio signal in the probe.

The utility model beverage cooling display unit adopts warm radiating circuit plate is installed in probe, wine in the bottle is carried out thermometric, pass through wireless transmission then, and the temperature circuit board for receiving is installed in container, receive wireless signal, and show, make between probe and the container realize wireless connections and can be on container displays temperature, not only can measure the wine liquid temp in the bottle exactly, and with still knowing the temperature of wine liquid after the bottle taking-up, easy to use.

Description of drawings

The drawing of accompanying drawing is described as follows:

Fig. 1 is the structure chart of the utility model beverage cooling display unit.

Fig. 2 is the temperature-sensitive radiating circuit plate circuit block diagram of Fig. 1 middle probe.

Fig. 3 is the temperature circuit board for receiving circuit block diagram of container among Fig. 1.

Fig. 4 is the circuit diagram of temperature-sensitive radiating circuit plate among Fig. 2.

Fig. 5 is the circuit diagram of temperature circuit board for receiving among Fig. 3.

The specific embodiment

Below in conjunction with accompanying drawing, the specific embodiment that the utility model beverage is cooled off display unit is described in further detail:

As Fig. 1,2, shown in 3, beverage cooling display unit described in the utility model, comprise the container (1) that is used to be filled with water, and the probe (2) that is used to be placed on measurement wine liquid temp in the bottle, in described probe (2), be provided with the temperature-sensitive radiating circuit plate of measuring temperature and emission temperature signal and supply the battery (5) of temperature-sensitive radiating circuit plate work, be provided with the temperature circuit board for receiving that is used to receive probe (2) temperature signal and displays temperature value in the described container (1), described temperature-sensitive radiating circuit plate is provided with the temperature collection circuit (3) and the radiating circuit (4) of the I/O end that is connected on the U1 microprocessor, temperature collection circuit (3) and radiating circuit (4) are controlled by the U1 microprocessor, described temperature collection circuit (3) becomes temperature signal to input to the I/O end of U1 microprocessor the temperature inversion of induction, described U1 microprocessor then exports temperature signal radiating circuit (4) to and launches through handling I/O end by the U1 microprocessor, described temperature circuit board for receiving is provided with button and the display circuit (7) and the receiving circuit (8) of the I/O end that is connected on the U2 microprocessor, and the power circuit (9) that operating voltage is provided, button and display circuit (7) and receiving circuit (8) are controlled by the U2 microprocessor.

The U1 microprocessor has adopted low power dissipation design, temperature remains unchanged at continuous 5 minutes greater than 35 degrees centigrade or temperature in continuous 5 seconds, the U1 microprocessor enters park mode, power supply by corresponding each circuit of programme-control in inside, it is minimum that the power consumption of system is dropped to, and increases battery (5) service time.

As shown in Fig. 4,5, described temperature collection circuit (3) is provided with the digital temperature sensor T1 that is connected on the battery (5), the TEMP-DATAI/O end of the data signal I/O termination U1 microprocessor of described digital temperature sensor T1 is connected to pull-up resistor R23 between power positive end and data signal I/O end.

Described radiating circuit (4) is provided with the transmitter module that is connected to battery (5) two ends, and the digital signal input end of described transmitter module connects the GP4/AN3/T1GI/O end of U1 microprocessor by resistance R 20.Digital temperature sensor T1 can change into the variations in temperature of sensing the signal of telecommunication and input in the microprocessor.

Be provided with triode Q6 between the battery of described transmitter module (5) positive terminal and battery (5) positive pole, battery (5) positive terminal of module is penetrated in the emitter stage sending and receiving of triode Q6, the colelctor electrode of triode Q6 connects battery (5) positive pole, and the base stage of triode Q6 connects the GP4/AN3/T1GI/O end of U1 microprocessor by resistance R 20.The GP4/AN3/T1GI/O end of U1 microprocessor can be exported a signal and make triode Q6 conducting and end control transmitter module power supply.When triode Q6 conducting, transmitter module then constantly outwards transmits.Q6 ends when triode, and transmitter module then stops outwards to transmit, and this moment, power consumption dropped to minimumly, with this was prolonged service time of battery (5).

Described temperature-sensitive radiating circuit plate is provided with the reset circuit that is subjected to U1 microprocessor control. reset circuit by be serially connected in and U1 microprocessor RESETI/O end between switch SW 5 capacitor C 9, and be connected on after resistance R 24 between capacitor C 9 two ends and battery (5) positive pole, R25 and capacitor C 10 constitute the .U1 microprocessors and enter park mode, wake the U1 microprocessor up by reset circuit. the characteristic that this circuit utilizes C9 capacitance voltage value not suddenly change, produce a stable low pulse reset signal, the shake in the time of can effectively removing reset key and press.

Described temperature circuit board for receiving is provided with the warning circuit that is subjected to the control of U2 microprocessor.Warning circuit is made of resistance R on the colelctor electrode that is serially connected in triode TR4 5 and buzzer BZ, and the base stage of triode TR4 is connected to U2 microprocessor BEEPERI/O end, the termination power of buzzer BZ just, the emitter stage of triode TR4 connects power-.Signal of U2 microprocessor BEEPERI/O end output makes triode TR4 conducting and ends, and makes buzzer BZ sounding and quiet.

The GP4/AN3/T1GI/O end of described U1 microprocessor extremely is serially connected with resistance R 20 and capacitor C 8, and resistance R 20 and capacitor C 8 are formed correcting circuit (6), and described correcting circuit (6) makes the U1 microprocessor work on inner crystal oscillator frequency.

Because the U1 microprocessor does not have external crystal oscillating circuit, just need an external circuit to proofread and correct an inner 4M crystal oscillator of U1 microprocessor confession itself, make inner crystal oscillator reach 4M as much as possible.Timing connects R21 0R resistance earlier, and from the external frequency of J2, energising 5 to 10S gets final product.After having proofreaied and correct, remove R21 again, system enters a normal thermometric state.

Described button and display circuit (7) are provided with emitter stage and are connected to triode Q1 on the positive source respectively, triode Q2, triode Q3, triode Q4, described triode Q1, triode Q2, the colelctor electrode of triode Q3 is connected to three pin COM3 of charactron respectively, COM2, on the COM1, described triode Q1, triode Q2, triode Q3, the base stage of triode Q4 is respectively by resistance R 17, resistance R 16, resistance R 15, resistance R 2 is connected to the Y0 of U3-A decoder, Y1, Y2, the Y3 pin, the Y0 of described U3-A decoder, Y1, Y2, be serially connected with diode D8 respectively between the KEYI/O end of Y3 pin and U2 microprocessor, switch SW 1, diode D7, switch SW 2, diode D6, switch SW 3, diode D5, four groups of adjusting buttons that switch SW 4 constitutes, the A0 of described U3-A decoder, the A0 pin of A1 pin and U3-B decoder is connected to the Y0 of U2 microprocessor respectively, Y1, the DOT-ENI/O end, the Y1 pin of described U3-A decoder links to each other with the A1 pin of U3-B decoder, the Y0 pin of U3-B decoder connects the common the moon/anode of charactron, and all the other pins of charactron meet the SEG-A of U2 microprocessor, SEG-B, SEG-C, SEG-D, SEG-E, the SEG-GI/O end.

Receiver module start back (if radiating portion operate as normal), will show in real time current temperature value (can select with degree centigrade or degrees Fahrenheit show, be defaulted as a degree centigrade demonstration).If correctly do not receive signal in continuous 5 seconds, charactron will show---, this battery (5) of just notifying user's receiver module to receive less than data or radiating portion has not had electricity, needs to change battery (5).If current temperature value (acquiescence alarm temperature value is 10 degrees centigrade) when setting the alarm temperature value, transmitter module will send 5 alarms continuously.

Be provided with four buttons altogether at receiving unit, its function separately is as follows:

ON/OFF button: click " ON/OFF " key, receiver module is started working, and charactron shows current temperature value,

The C identification light is lighted, and presses once more " ON/OFF " the F key, the receiver module charactron that quits work is closed demonstration, and the C identification light goes out.

C/F button: if current be shown as degree centigrade clicks " C/F " key, charactron will show that the C identification light goes out simultaneously with degrees Fahrenheit, the F identification light is bright.If click once more " C/F " key, charactron will be with a degree centigrade demonstration, and the F identification light goes out simultaneously, and the C identification light is bright.

+ key: pin "+" key, if the time of pinning less than 1.5 seconds, charactron shows the display alarm temperature value after 3 seconds, is transformed into current actual measurement temperature pattern automatically.If the time of pinning was greater than 1.5 seconds, charactron display alarm temperature value and flicker simultaneously, the SET sign will be lighted, at this moment click "+" key, the alarm temperature value adds 1, if when being added to maximum alarm temperature value (degree centigrade be 25, degrees Fahrenheit is 77), press again "+" key, the alarm temperature value remains unchanged.If in 3 seconds "+" not action of key, be transformed into current observed temperature pattern automatically.

-key is pinned "-" key, if the time of pinning less than 1.5 seconds, charactron shows the display alarm temperature value after 3 seconds, is transformed into current actual measurement temperature pattern automatically.If the time of pinning was greater than 1.5 seconds, charactron display alarm temperature value glimmers simultaneously, the SET sign will be lighted, at this moment click "-" key, the alarm temperature value subtracts 1, if when reducing to minimum alarm temperature value (degree centigrade be 2, degrees Fahrenheit is 35), by "-" key, the alarm temperature value remains unchanged again.If the not action of "-" key is transformed into current observed temperature pattern automatically in 3 seconds.

Claims (8)

1. a beverage cooling display unit comprises the container (1) that is used to be filled with water, and probe (2) is characterized in that:

In described probe (2), be provided with temperature-sensitive radiating circuit plate and supply the battery (5) of temperature-sensitive radiating circuit plate work;

Described container is provided with the temperature circuit board for receiving in (1);

Described temperature-sensitive radiating circuit plate is provided with temperature collection circuit (3) and the radiating circuit (4) on the I/O end that is connected on the U1 microprocessor;

Described temperature collection circuit (3) becomes temperature signal to input to the I/O end of U1 microprocessor the temperature inversion of induction, and described U1 microprocessor then exports temperature signal radiating circuit (4) to and launches through handling I/O end by the U1 microprocessor;

Described temperature circuit board for receiving is provided with button and display circuit (7) and the receiving circuit (8) on the I/O end that is connected on the U2 microprocessor, and the power circuit (9) that operating voltage is provided.

2. beverage cooling display unit according to claim 1, it is characterized in that described temperature collection circuit (3) is provided with the digital temperature sensor T1 that is connected on the battery (5), the TEMP-DATAI/O end of the data signal I/O termination U1 microprocessor of described digital temperature sensor T1 is connected to pull-up resistor R23 between power positive end and data signal I/O end.

3. beverage cooling display unit according to claim 2, it is characterized in that described radiating circuit (4) is provided with the transmitter module that is connected to battery (5) two ends, the digital signal input end of described transmitter module connects the GP4/AN3/T1GI/O end of U1 microprocessor by resistance R 20.

4. beverage cooling display unit according to claim 3, it is characterized in that being provided with triode Q6 between battery (5) positive terminal of described transmitter module and battery (5) positive pole, battery (5) positive terminal of module is penetrated in the emitter stage sending and receiving of triode Q6, the colelctor electrode of triode Q6 connects battery (5) positive pole, and the base stage of triode Q6 connects the GP4/AN3/T1GI/O end of U1 microprocessor by resistance R 20.

5. according to claim 1,2,3 or 4 described beverage cooling display unit, it is characterized in that described temperature-sensitive radiating circuit plate is provided with the reset circuit that is subjected to the control of U1 microprocessor.

6. according to claim 1,2,3 or 4 described beverage cooling display unit, it is characterized in that described temperature circuit board for receiving is provided with the warning circuit that is subjected to the control of U2 microprocessor.

7. according to claim 1,2,3 or 4 described beverage cooling display unit, the GP4/AN3/T1GI/O end that it is characterized in that described U1 microprocessor extremely is serially connected with resistance R 20 and capacitor C 8, resistance R 20 and capacitor C 8 are formed correcting circuit (6), and described correcting circuit (6) makes the U1 microprocessor work on inner crystal oscillator frequency.

8. according to claim 1,2,3 or 4 described beverage cooling display unit, it is characterized in that described button and display circuit (7) are provided with emitter stage and are connected to triode Q1 on the positive source respectively, triode Q2, triode Q3, triode Q4, described triode Q1, triode Q2, the colelctor electrode of triode Q3 is connected to three pin COM3 of charactron respectively, COM2, on the COM1, described triode Q1, triode Q2, triode Q3, the base stage of triode Q4 is respectively by resistance R 17, resistance R 16, resistance R 15, resistance R 2 is connected to the Y0 of U3-A decoder, Y1, Y2, the Y3 pin, the Y0 of described U3-A decoder, Y1, Y2, be serially connected with diode D8 respectively between the KEYI/O end of Y3 pin and U2 microprocessor, switch SW 1, diode D7, switch SW 2, diode D6, switch SW 3, diode D5, four groups of adjusting buttons that switch SW 4 constitutes, the A0 of described U3-A decoder, the A0 pin of A1 pin and U3-B decoder is connected to the Y0 of U2 microprocessor respectively, Y1, the DOT-ENI/O end, the Y1 pin of described U3-A decoder links to each other with the A1 pin of U3-B decoder, the Y0 pin of U3-B decoder connects the common the moon/anode of charactron, and all the other pins of charactron meet the SEG-A of U2 microprocessor, SEG-B, SEG-C, SEG-D, SEG-E, the SEG-GI/O end.

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