CN204440079U - The automatic holdout device of a kind of balloon Floating Height - Google Patents
The automatic holdout device of a kind of balloon Floating Height Download PDFInfo
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- CN204440079U CN204440079U CN201520056809.6U CN201520056809U CN204440079U CN 204440079 U CN204440079 U CN 204440079U CN 201520056809 U CN201520056809 U CN 201520056809U CN 204440079 U CN204440079 U CN 204440079U
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Abstract
The automatic holdout device of a kind of balloon Floating Height of the utility model, comprises voltage conversion unit, gas-heated unit, controller unit and balloon height detecting unit; Above-mentioned voltage conversion unit is made up of DC boosting device T etc., and above-mentioned gas heating unit is made up of gas-heating apparatus, metal-oxide-semiconductor Q1, triode Q2, resistance R1 and resistance R2 etc.; Above-mentioned controller unit is made up of single-chip microcomputer 51, resistance R3, electric capacity C1, electric capacity C2, electric capacity C3 and crystal oscillator Y1 etc.; Above-mentioned balloon altitude probe unit is made up of balloon altitude acquisition sensor etc., and the utility model has working stability and reliably, not easily occurs the advantages such as operation troubles, cheap for manufacturing cost, convenience attractive in appearance.
Description
Technical field
The utility model relates to the automatic holdout device of a kind of balloon Floating Height, is specifically related to a kind of balloon that can make coordinating balloon to use and automatically maintains the device of certain altitude.
Background technology
At present, decoration balloon is extensive at indoor celebration and wedding celebration sector application increasing extent, but generally adopts the fixed form of rope or other physical connection.Form old stuff, makes in riotous profusion colorful balloon decorative effect originally have a greatly reduced quality.
Utility model content
The utility model is solve existing problem in the art, provides a kind of balloon Floating Height automatic holdout device, and it can have working stability and reliably, not easily occur operation troubles, the advantage such as cheap for manufacturing cost, attractive in appearance.
The utility model is achieved by the following technical solutions:
The automatic holdout device of a kind of balloon Floating Height of the utility model, comprises voltage conversion unit, gas-heated unit, controller unit and balloon height detecting unit; Above-mentioned voltage conversion unit is made up of DC boosting device T etc., and above-mentioned gas heating unit is made up of gas-heating apparatus, metal-oxide-semiconductor Q1, triode Q2, resistance R1 and resistance R2 etc.; Above-mentioned controller unit is made up of single-chip microcomputer 51, resistance R3, electric capacity C1, electric capacity C2, electric capacity C3 and crystal oscillator Y1 etc.; Above-mentioned balloon altitude probe unit is made up of balloon altitude acquisition sensor etc.; Above-mentioned voltage conversion unit sends 12V power supply to gas-heated unit; The 12V power supply signal that above-mentioned gas heating unit receiver voltage converting unit sends and the control signal that controller unit sends; Above-mentioned controller unit receives the altitude signal that balloon altitude acquisition sensor transmits, and control signal is sent to gas-heated unit; Above-mentioned balloon altitude acquisition sensor sends altitude signal to controller unit.
The input pin of the DC boosting device T in above-mentioned voltage conversion unit connects positive pole and the earth polar of 5V power supply respectively, and the output pin of DC boosting device T connects gas-heated unit and earth polar respectively;
Resistance R1 pin in above-mentioned gas heating unit meets 5V power supply, triode Q1 and metal-oxide-semiconductor Q2 respectively, and wherein a pin of resistance R1 meets triode Q1 and metal-oxide-semiconductor Q2 simultaneously; Resistance R2 pin meets controller unit and triode Q1 respectively; Triode Q1 pin is connecting resistance R1 respectively, resistance R2, metal-oxide-semiconductor Q1 and earth polar, and wherein resistance R1 and metal-oxide-semiconductor Q2 connects the same pin of triode Q1; Metal-oxide-semiconductor Q2 pin meets triode Q1 respectively, the 12V output pin of the voltage conversion device T in voltage conversion unit (1) and "+" pin of gas-heating apparatus; Gas-heating apparatus two pins connects metal-oxide-semiconductor Q2 and earth polar respectively; The pin 40 of the single-chip microcomputer 51 in above-mentioned controller unit connects 5V power supply, pin 20 earthing pole, pin nine connects 5V power supply by electric capacity C3, pin nine is by resistance R3 earthing pole simultaneously, pin 18 and pin 19 crystal oscillator Y1 in parallel, pin 18 is by electric capacity C1 earthing pole, and pin 19 is by electric capacity C2 earthing pole, pin one and pin 12 connect balloon altitude probe unit, and pin 39 connects gas-heated unit; The VCC pin of the balloon altitude acquisition sensor in above-mentioned balloon altitude probe unit connects 5V power supply, GND pin ground connection, and pin one, the ECHO pin of the single-chip microcomputer 51 that TRIG pin connects in controller unit connects the pin 12 of the single-chip microcomputer 51 in controller unit.
Described gas-heating apparatus is PTC ceramic heating plate; Described single-chip microcomputer 51 is the AT89C51 single-chip microcomputer of Atmel company of the U.S.; Described balloon altitude acquisition sensor is the HC-SR04 supersonic range finder of Shenzhen You Xin electronics corporation.
The utility model compared with prior art has following significant advantage:
(1) the utility model device can make balloon break away from the constraint of the physical connection modes such as rope, has more perfectly result of use.
(2) the utility model circuit structure is simple, and then has working stability and reliably, not easily occur operation troubles, advantage cheap for manufacturing cost.
(3) gas-heating apparatus that the utility model is selected is low-grade fever device, and hot face temperature is only 60 DEG C, is not enough to make any gas produce explosive combustion dangerous, safe and reliable to operation.
(4) what technical solutions of the utility model were selected is low-power consumption element, and power consumption is extremely low, and being full of once electricity can use for a long time, can not bring the trouble needing often charging.
Accompanying drawing explanation
Fig. 1 is the circuit theory diagrams of the utility model device
In figure, each several part illustrates:
1, voltage conversion unit; 2, gas-heated unit; 3, controller unit; 4, balloon altitude probe unit; 5, gas-heating apparatus; 6, balloon altitude acquisition sensor; VCC is 5V direct supply.
Embodiment
With reference to the accompanying drawings the utility model embodiment is described in detail.
See Fig. 1.
The automatic holdout device of a kind of balloon Floating Height of the utility model the utility model, comprises voltage conversion unit 1, gas-heated unit 2, controller unit 3 and balloon height detecting unit 4; Above-mentioned voltage conversion unit 1 is made up of DC boosting device T etc., and above-mentioned gas heating unit 2 is made up of gas-heating apparatus 5, metal-oxide-semiconductor Q1, triode Q2, resistance R1 and resistance R2 etc.; Above-mentioned controller unit 3 is made up of single-chip microcomputer 51, resistance R3, electric capacity C1, electric capacity C2, electric capacity C3 and crystal oscillator Y1 etc.; Above-mentioned balloon altitude probe unit 4 is made up of balloon altitude acquisition sensor 6 etc.; Above-mentioned voltage conversion unit 1 sends 12V power supply to gas-heated unit 2; The 12V power supply signal that above-mentioned gas heating unit 2 receiver voltage converting unit 1 sends and the control signal that controller unit 3 sends; Above-mentioned controller unit 3 receives the altitude signal that balloon altitude acquisition sensor transmits, and control signal is sent to gas-heated unit 2; Above-mentioned balloon altitude acquisition sensor 6 sends altitude signal to controller unit 3.
The input pin of the DC boosting device T in above-mentioned voltage conversion unit 1 connects positive pole and the earth polar of 5V power supply respectively, and the output pin of DC boosting device T connects gas-heated unit 2 and earth polar respectively;
Resistance R1 pin in above-mentioned gas heating unit 2 meets 5V power supply, triode Q1 and metal-oxide-semiconductor Q2 respectively, and wherein a pin of resistance R1 meets triode Q1 and metal-oxide-semiconductor Q2 simultaneously; Resistance R2 pin meets controller unit 3 and triode Q1 respectively; Triode Q1 pin is connecting resistance R1 respectively, resistance R2, metal-oxide-semiconductor Q1 and earth polar, and wherein resistance R1 and metal-oxide-semiconductor Q2 connects the same pin of triode Q1; Metal-oxide-semiconductor Q2 pin meets triode Q1 respectively, the 12V output pin of the voltage conversion device T in voltage conversion unit (1) and "+" pin of gas-heating apparatus 5; Gas-heating apparatus 5 two pins connects metal-oxide-semiconductor Q2 and earth polar respectively; The pin 40 of the single-chip microcomputer 51 in above-mentioned controller unit 3 connects 5V power supply, pin 20 earthing pole, pin nine connects 5V power supply by electric capacity C3, pin nine is by resistance R3 earthing pole simultaneously, pin 18 and pin 19 crystal oscillator Y1 in parallel, pin 18 is by electric capacity C1 earthing pole, and pin 19 is by electric capacity C2 earthing pole, pin one and pin 12 connect balloon altitude probe unit 4, and pin 39 connects gas-heated unit 2; The VCC pin of the balloon altitude acquisition sensor 6 in above-mentioned balloon altitude probe unit 4 connects 5V power supply, GND pin ground connection, pin one, the ECHO pin of the single-chip microcomputer 51 that TRIG pin connects in controller unit 3 connects the pin 12 of the single-chip microcomputer 51 in controller unit 3.
Described gas-heating apparatus 5 is PTC ceramic heating plate; Described single-chip microcomputer 51 is the AT89C51 single-chip microcomputer of Atmel company of the U.S.; Described balloon altitude acquisition sensor 6 is the HC-SR04 supersonic range finder of Shenzhen You Xin electronics corporation.
Use procedure:
Device powers up, single-chip microcomputer 51 passes through pin one to balloon altitude acquisition sensor 6 pin TRIG transmission signal, balloon altitude acquisition sensor 6 is made to send a ultrasound wave, return when ultrasonic signal runs into ground, balloon altitude acquisition sensor 6 transmits echoed signal by pin ECHO to single-chip microcomputer 51 pin 12 after receiving return signal, single-chip microcomputer 51 calculates the distance of current ground distance device according to the time interval of this twice signal, and single-chip microcomputer 51 judges whether to start gas-heating apparatus 5 by this evaluation of contrast and setting numerical value; When needs heat, single-chip microcomputer 51 passes through pin 39 to gas-heated unit 2 transfer control signal, make triode Q1 conducting, the conducting of triode Q1 provides the condition of metal-oxide-semiconductor Q2 conducting, thus make metal-oxide-semiconductor Q2 conducting, connect the 12V power supply of gas-heating apparatus 5, gas-heating apparatus starts to gas-heated in balloon, gas expansion in balloon, balloon altitude rises; When needs stop heating, single-chip microcomputer 51 stops by pin 39 transfer control signal, thus triode Q1 disconnects, metal-oxide-semiconductor Q2 disconnects, and disconnects the 12V power supply of gas-heating apparatus 5, stops gas-heated, in balloon, gas is declined by natural heat dissipation temperature, and balloon altitude declines.The automatic holdout device of balloon Floating Height of this utility model constantly detects height, constantly adjusts the temperature of gas in balloon, thus realizes making balloon suspension in the object of certain altitude, does not re-use old stuff in the past and fixes the method for balloon altitude.
In sum, the utility model technology effective overcomes shortcoming of the prior art and has high industrial utilization, wide market.
Claims (3)
1. the automatic holdout device of balloon Floating Height, is characterized in that, comprises voltage conversion unit (1), gas-heated unit (2), controller unit (3) and balloon height detecting unit (4);
Above-mentioned voltage conversion unit (1) is made up of DC boosting device T, and above-mentioned gas heating unit (2) is made up of gas-heating apparatus (5), metal-oxide-semiconductor Q1, triode Q2, resistance R1 and resistance R2; Above-mentioned controller unit (3) is made up of single-chip microcomputer 51, resistance R3, electric capacity C1, electric capacity C2, electric capacity C3 and crystal oscillator Y1; Above-mentioned balloon altitude probe unit (4) is made up of balloon altitude acquisition sensor (6);
Above-mentioned voltage conversion unit (1) sends 12V power supply to gas-heated unit (2); The 12V power supply signal that above-mentioned gas heating unit (2) receiver voltage converting unit (1) sends and the control signal that controller unit (3) sends; Above-mentioned controller unit (3) receives the altitude signal that balloon altitude acquisition sensor transmits, and control signal is sent to gas-heated unit (2); Altitude signal is sent to controller unit (3) by above-mentioned balloon altitude acquisition sensor (6).
2. the automatic holdout device of balloon Floating Height as claimed in claim 1, is characterized in that,
The input pin of the DC boosting device T in above-mentioned voltage conversion unit (1) connects positive pole and the earth polar of 5V power supply respectively, and the output pin of DC boosting device T connects gas-heated unit (2) and earth polar respectively;
Resistance R1 pin in above-mentioned gas heating unit (2) meets 5V power supply, triode Q1 and metal-oxide-semiconductor Q2 respectively, and wherein a pin of resistance R1 meets triode Q1 and metal-oxide-semiconductor Q2 simultaneously; Resistance R2 pin meets controller unit (3) and triode Q1 respectively; Triode Q1 pin is connecting resistance R1 respectively, resistance R2, metal-oxide-semiconductor Q1 and earth polar, and wherein resistance R1 and metal-oxide-semiconductor Q2 connects the same pin of triode Q1; Metal-oxide-semiconductor Q2 pin meets triode Q1 respectively, the 12V output pin of the voltage conversion device T in voltage conversion unit (1) and "+" pin of gas-heating apparatus (5); Gas-heating apparatus (5) two pins connects metal-oxide-semiconductor Q2 and earth polar respectively;
The pin 40 of the single-chip microcomputer 51 in above-mentioned controller unit (3) connects 5V power supply, pin 20 earthing pole, pin nine connects 5V power supply by electric capacity C3, pin nine is by resistance R3 earthing pole simultaneously, pin 18 and pin 19 crystal oscillator Y1 in parallel, pin 18 is by electric capacity C1 earthing pole, and pin 19 is by electric capacity C2 earthing pole, pin one and pin 12 connect balloon altitude probe unit (4), and pin 39 connects gas-heated unit (2);
The VCC pin of the balloon altitude acquisition sensor (6) in above-mentioned balloon altitude probe unit (4) connects 5V power supply, GND pin ground connection, pin one, the ECHO pin of the single-chip microcomputer 51 that TRIG pin connects in controller unit (3) connects the pin 12 of the single-chip microcomputer 51 in controller unit (3).
3. the automatic holdout device of balloon Floating Height as claimed in claim 1, is characterized in that,
Described gas-heating apparatus (5) is PTC ceramic heating plate; Described single-chip microcomputer 51 is the AT89C51 single-chip microcomputer of Atmel company of the U.S.; The HC-SR04 supersonic range finder that described balloon altitude acquisition sensor (6) is Shenzhen You Xin electronics corporation.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520056809.6U CN204440079U (en) | 2015-01-26 | 2015-01-26 | The automatic holdout device of a kind of balloon Floating Height |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520056809.6U CN204440079U (en) | 2015-01-26 | 2015-01-26 | The automatic holdout device of a kind of balloon Floating Height |
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CN204440079U true CN204440079U (en) | 2015-07-01 |
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Application Number | Title | Priority Date | Filing Date |
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CN201520056809.6U Expired - Fee Related CN204440079U (en) | 2015-01-26 | 2015-01-26 | The automatic holdout device of a kind of balloon Floating Height |
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CN (1) | CN204440079U (en) |
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2015
- 2015-01-26 CN CN201520056809.6U patent/CN204440079U/en not_active Expired - Fee Related
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20150701 Termination date: 20160126 |
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EXPY | Termination of patent right or utility model |