CN104898727A - Internet of things-based computer control system - Google Patents

Abstract

The invention relates to an Internet of things-based computer control system. The Internet of things-based computer control system includes a shell, a heat dissipation system, a temperature detection system and a central control device, wherein the heat dissipation system, the temperature detection system and the central control device are respectively arranged in the shell; the heat dissipation system comprises heat dissipation columns arranged in cells in a cellular plate; one end of each heat dissipation column is sealed; the heat dissipation columns are vertically connected with the cellular plate; a plurality of through holes corresponding to the heat dissipation columns are formed in an inner-layer plate; the heat dissipation columns are communicated with the interior of the shell through the through holes; and heat dissipation holes are distributed in each heat dissipation column circumferentially. According to the Internet of things-based computer control system of the invention, the cellular plate is additionally arranged between an outer-layer plate and the inner-layer plate, and heat in a computer can be fast processed through the cooperation of the heat dissipation columns and the inner-layer plate; temperature in the computer can be monitored in real time through a mobile phone and a temperature measurement module, and therefore, a temperature control ability can be is improved, and the heat in the computer can be processed timely.

Description

A kind of computer control system based on Internet of Things

Technical field

The present invention relates to a kind of computer control system based on Internet of Things.

Background technology

Along with the development of science and technology and the progress of society, computing machine has become the necessity of our daily life, no matter is work, study or amusement, all be unable to do without computing machine, so present computing machine is our indispensable part.

Due to the extensive utilization of computing machine, so the various application problems of computing machine are also following, in computer application process, heat dissipation problem is exactly a great problem, particularly for notebook computer, the quality of heat radiation decides the quality of the operation of whole computer system.

At existing computer commercially, generally all adopt simple cooling fan structure, heat inside notebook or desktop computer is simply processed, but for the CPU of working at high speed, this processing speed is far from being enough, and computing machine self hommization to temperature controlled system and intelligence degree not high yet.

Summary of the invention

The technical problem to be solved in the present invention is: in order to overcome the deficiency of prior art radiating effect difference, provides a kind of radiator structure good heat dissipation effect, and has complete function and the computer control system based on Internet of Things of the high temperature system of temperature control capability.

The technical solution adopted for the present invention to solve the technical problems is: a kind of computer control system based on Internet of Things, comprise temperature control system, described temperature control system comprises housing, cooling system, system for detecting temperature and central control unit, and described cooling system, system for detecting temperature and central control unit are all arranged on enclosure interior;

Described housing comprises lamina rara externa, inner plating and cellular board, and described inner plating is near the inside of housing, and described cellular board is arranged between lamina rara externa and inner plating;

Described cooling system comprises the thermal column be arranged in each honeycomb of cellular board, one end sealing of described thermal column is arranged, the other end of described thermal column is fixedly connected with inner plating, described thermal column is vertical with cellular board, described inner plating is provided with some through holes corresponding with thermal column position, described thermal column is communicated with enclosure interior by through hole, and on described thermal column, circumference is evenly provided with louvre;

Described system for detecting temperature comprises the temperature-detecting device and temperature detecting module that are arranged on housing corner, and described temperature-detecting device comprises temperature sensor;

Described temperature detecting module comprises the first resistance, second resistance, 3rd resistance, 4th resistance, 5th resistance, 6th resistance, 7th resistance, 8th resistance, first electric capacity, second electric capacity, first adjustable resistance, second adjustable resistance, voltage stabilizing diode, voltage stabilizing triode and the first paster integrated circuit, one end ground connection other end of described temperature sensor is connected with the inverting input of the first paster integrated circuit by the 3rd resistance, the in-phase input end of described first paster integrated circuit passes through the series circuit ground connection of the 4th resistance and the second adjustable resistance, the adjustable end of described second adjustable resistance is connected with the junction of the 4th resistance and the second adjustable resistance, described second resistance one end is connected the other end by the external DC voltage power supply VCC of the 8th resistance with the junction of the 4th resistance and the second adjustable resistance, described first resistance one end is connected the other end by the external DC voltage power supply VCC of the 8th resistance with the junction of the 3rd resistance and temperature sensor, the input end of described voltage stabilizing triode is by the external DC voltage power supply VCC of the 8th resistance, the earth terminal ground connection of described voltage stabilizing triode, described first adjustable resistance is connected in parallel on voltage stabilizing triode two ends and adjustable end is connected with the output terminal of voltage stabilizing triode, the reverse input end of described first paster integrated circuit is by the 5th resistance eutral grounding, the external DC voltage power supply VCC of power input of described first paster integrated circuit and by the first capacity earth, the earth terminal ground connection of described first paster integrated circuit, the output terminal of described first paster integrated circuit is connected with the input end in the same way of the first paster integrated circuit by the 6th resistance, the negative electrode of described voltage stabilizing diode is connected and plus earth with the output terminal of described first paster integrated circuit by the 7th resistance, described second Capacitance parallel connection is at the two ends of voltage stabilizing diode,

Described central control unit comprises central control system, the temperature detecting module be connected with central control system, signal processing module, information storage module, working power module, Bluetooth signal transceiver module and fan-driving module, and described Bluetooth signal transceiver module is connected with outside mobile phone wireless signal.

Particularly, in order to improve the reliability of temperature-measuring module, the model of described first paster integrated circuit is LMV324.

Particularly, in order to improve the stability of system, the temperature drift coefficient of described first resistance, the second resistance, the 3rd resistance, the 4th resistance, the 5th resistance, the 6th resistance, the 7th resistance and the 8th resistance is 5%ppm.

The invention has the beneficial effects as follows, should based on computer control system of Internet of Things by adding cellular board between lamina rara externa and inner plating, cooperatively interacting then by thermal column and inner plating, processes fast to the heat in computing machine; Meanwhile, by mobile phone and temperature-measuring module, the temperature in computing machine is monitored in real time, improve the control ability to temperature, in time the heat in computing machine is processed.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the present invention is further described.

Fig. 1 is the structural representation of the computer control system that the present invention is based on Internet of Things;

Fig. 2 is the vertical view of the housing of the computer control system that the present invention is based on Internet of Things;

Fig. 3 is the sectional view of the housing of the computer control system that the present invention is based on Internet of Things;

Fig. 4 is the structural representation of the thermal column of the computer control system that the present invention is based on Internet of Things;

Fig. 5 is the circuit theory diagrams of the temperature-measuring module of the computer control system that the present invention is based on Internet of Things;

Fig. 6 is the system construction drawing of the computer control system that the present invention is based on Internet of Things;

In figure: 1. housing, 2. thermal column, 3. temperature-detecting device, 4. fan-driving module, 5. central control system, 6. temperature detecting module, 7. signal processing module, 8. information storage module, 9. working power module, 10. Bluetooth signal transceiver module, 11. lamina rara externas, 12. inner platings, 13. cellular boards, 14. mobile phones, 21. louvres, R1. the first resistance, R2. the second resistance, R3. the 3rd resistance, R4. the 4th resistance, R5. the 5th resistance, R6. the 6th resistance, R7. the 7th resistance, R8. the 8th resistance, C1. the first electric capacity, C2. the second electric capacity, VR1. the first adjustable resistance, VR2. the second adjustable resistance, D1. voltage stabilizing diode, D2. voltage stabilizing triode, U1. the first paster integrated circuit, PT100. temperature sensor.

Embodiment

In conjunction with the accompanying drawings, the present invention is further detailed explanation.These accompanying drawings are the schematic diagram of simplification, only basic structure of the present invention are described in a schematic way, and therefore it only shows the formation relevant with the present invention.

As shown in figs 1 to 6, a kind of computer control system based on Internet of Things, comprise temperature control system, described temperature control system comprises housing 1, cooling system, system for detecting temperature and central control unit, and it is inner that described cooling system, system for detecting temperature and central control unit are all arranged on housing 1;

Described housing 1 comprises lamina rara externa 11, inner plating 12 and cellular board 13, and described inner plating 12 is near the inside of housing 1, and described cellular board 13 is arranged between lamina rara externa 11 and inner plating 12;

Described cooling system comprises the thermal column 2 be arranged in each honeycomb of cellular board 13, one end sealing of described thermal column 2 is arranged, the other end of described thermal column 2 is fixedly connected with inner plating 12, described thermal column 2 is vertical with cellular board 13, described inner plating 12 is provided with some through holes corresponding with thermal column 2 position, described thermal column 2 is communicated with housing 1 inside by through hole, and on described thermal column 2, circumference is evenly provided with louvre 21;

Described system for detecting temperature comprises the temperature-detecting device 3 and temperature detecting module 6 that are arranged on housing 1 four jiaos, and described temperature-detecting device 3 comprises temperature sensor PT100;

Described temperature detecting module 6 comprises the first resistance R1, second resistance R2, 3rd resistance R3, 4th resistance R4, 5th resistance R5, 6th resistance R6, 7th resistance R7, 8th resistance R8, first electric capacity C1, second electric capacity C2, first adjustable resistance VR1, second adjustable resistance VR2, voltage stabilizing diode D1, voltage stabilizing triode D2 and the first paster integrated circuit U1, one end ground connection other end of described temperature sensor PT100 is connected with the inverting input of the first paster integrated circuit U1 by the 3rd resistance R3, the in-phase input end of described first paster integrated circuit U1 passes through the series circuit ground connection of the 4th resistance R4 and the second adjustable resistance VR2, the adjustable end of described second adjustable resistance VR2 is connected with the junction of the 4th resistance R4 and the second adjustable resistance VR2, described second resistance R2 one end is connected the other end by the external DC voltage power supply VCC of the 8th resistance R8 with the junction of the 4th resistance R4 and the second adjustable resistance VR2, described first resistance R1 one end is connected the other end by the external DC voltage power supply VCC of the 8th resistance R8 with the junction of the 3rd resistance R3 and temperature sensor PT100, the input end of described voltage stabilizing triode D2 is by the external DC voltage power supply VCC of the 8th resistance R8, the earth terminal ground connection of described voltage stabilizing triode D2, described first adjustable resistance VR1 is connected in parallel on voltage stabilizing triode D2 two ends and adjustable end is connected with the output terminal of voltage stabilizing triode D2, the reverse input end of described first paster integrated circuit U1 is by the 5th resistance R5 ground connection, the external DC voltage power supply VCC of power input of described first paster integrated circuit U1 and by the first electric capacity C1 ground connection, the earth terminal ground connection of described first paster integrated circuit U1, the output terminal of described first paster integrated circuit U1 is connected with the input end in the same way of the first paster integrated circuit U1 by the 6th resistance R6, the negative electrode of described voltage stabilizing diode D1 is connected and plus earth with the output terminal of described first paster integrated circuit U1 by the 7th resistance R7, described second electric capacity C2 is connected in parallel on the two ends of voltage stabilizing diode D1,

Described central control unit comprises central control system 5, the temperature detecting module 6 be connected with central control system 5, signal processing module 7, information storage module 8, working power module 9, Bluetooth signal transceiver module 10 and fan-driving module 4, and described Bluetooth signal transceiver module 10 is connected with outside mobile phone 14 wireless signal.

Particularly, in order to improve the reliability of temperature-measuring module, the model of described first paster integrated circuit U1 is LMV324.

Particularly, in order to improve the stability of system, the temperature drift coefficient of described first resistance R1, the second resistance R2, the 3rd resistance R3, the 4th resistance R4, the 5th resistance R5, the 6th resistance R6, the 7th resistance R7 and the 8th resistance R8 is 5%ppm.

Should based in the computer control system of Internet of Things, fan-driving module 4 is when calculating built-in temperature and reaching certain value, and fan-driving module 4 receives drive singal, will drive fan start working; Temperature in temperature detecting module 6 pairs of computing machines is monitored in real time; The temperature acquisition signal of signal processing module 7 pairs of temperature detecting module 6 carries out determination and analysis; Whole working temperature in information storage module 8 pairs of computing machines carries out real-time storage, to analyze later; Working power module 9 provides power supply to system; Central control system 5 controls modules work, improves the intelligence degree of system.

Should be based on the principle of work of the cooling system in the computer control system of Internet of Things: between lamina rara externa 11 and inner plating 12, add cellular board 13, the through hole of inner plating 12 setting is subsequently corresponding with the thermal column 2 in the honeycomb being arranged on cellular board 13, so just can successfully the temperature in computing machine be drawn out in cellular board 13, be further processed by the 21 pairs of heats of the louvre on thermal column 2 more simultaneously, improve the efficiency of heat radiation.

Should be based on the principle of work of the temperature-measuring module 6 in the computer control system of Internet of Things: adopt the first resistance R1, the second resistance R2, the second regulating resistance VR2, temperature sensor PT100 to form measuring bridge, wherein with amplitude adjustment R1 and R2 resistance value can change electric bridge export magnitude of pressure differential, the ratio simultaneously changing the 5th resistance R5 and the 3rd resistance R3 can change the enlargement factor of voltage signal, thus measuring-signal can be measured.

Should be based on the principle of work of the computer control system of Internet of Things: computing machine is monitored the temperature in computing machine in real time by temperature measurement system, by cooling system and radiator fan, fast processing is carried out to the heat in computing machine subsequently, thus the temperature in computing machine is fast and effeciently controlled.

After temperature detecting module 6 detects temperature value, can central control system 5 be passed through, transfer data on mobile phone 14 by Bluetooth signal transceiver module 10, just can realize the remote monitoring to computer temperature.

Compared with prior art, should based on computer control system of Internet of Things by adding cellular board 13 between lamina rara externa 11 and inner plating 12, cooperatively interacting then by thermal column 2 and inner plating 12, processes fast to the heat in computing machine; Meanwhile, monitored in real time by the temperature in mobile phone 14 and temperature-measuring module 6 pairs of computing machines, improve the control ability to temperature, in time the heat in computing machine is processed.

With above-mentioned according to desirable embodiment of the present invention for enlightenment, by above-mentioned description, relevant staff in the scope not departing from this invention technological thought, can carry out various change and amendment completely.The technical scope of this invention is not limited to the content on instructions, must determine its technical scope according to right.

Claims (3)

1. the computer control system based on Internet of Things, it is characterized in that, comprise temperature control system, described temperature control system comprises housing (1), cooling system, system for detecting temperature and central control unit, and it is inner that described cooling system, system for detecting temperature and central control unit are all arranged on housing (1);

Described housing (1) comprises lamina rara externa (11), inner plating (12) and cellular board (13), described inner plating (12) is near the inside of housing (1), and described cellular board (13) is arranged between lamina rara externa (11) and inner plating (12);

Described cooling system comprises the thermal column (2) in each honeycomb being arranged on cellular board (13), one end sealing of described thermal column (2) is arranged, the other end of described thermal column (2) is fixedly connected with inner plating (12), described thermal column (2) is vertical with cellular board (13), described inner plating (12) is provided with some through holes corresponding with thermal column (2) position, described thermal column (2) is communicated with housing (1) inside by through hole, and the upper circumference of described thermal column (2) is evenly provided with louvre (21);

Described system for detecting temperature comprises the temperature-detecting device (3) and temperature detecting module (6) that are arranged on housing (1) corner, and described temperature-detecting device (3) comprises temperature sensor (PT100);

Described temperature detecting module (6) comprises the first resistance (R1), second resistance (R2), 3rd resistance (R3), 4th resistance (R4), 5th resistance (R5), 6th resistance (R6), 7th resistance (R7), 8th resistance (R8), first electric capacity (C1), second electric capacity (C2), first adjustable resistance (VR1), second adjustable resistance (VR2), voltage stabilizing diode (D1), voltage stabilizing triode (D2) and the first paster integrated circuit (U1), one end ground connection other end of described temperature sensor (PT100) is connected with the inverting input of the first paster integrated circuit (U1) by the 3rd resistance (R3), the in-phase input end of described first paster integrated circuit (U1) passes through the series circuit ground connection of the 4th resistance (R4) and the second adjustable resistance (VR2), the adjustable end of described second adjustable resistance (VR2) is connected with the junction of the 4th resistance (R4) and the second adjustable resistance (VR2), described second resistance (R2) one end is connected the other end by the external DC voltage power supply VCC of the 8th resistance (R8) with the junction of the 4th resistance (R4) and the second adjustable resistance (VR2), described first resistance (R1) one end is connected the other end by the external DC voltage power supply VCC of the 8th resistance (R8) with the junction of the 3rd resistance (R3) and temperature sensor (PT100), the input end of described voltage stabilizing triode (D2) is by the external DC voltage power supply VCC of the 8th resistance (R8), the earth terminal ground connection of described voltage stabilizing triode (D2), described first adjustable resistance (VR1) is connected in parallel on voltage stabilizing triode (D2) two ends and adjustable end is connected with the output terminal of voltage stabilizing triode (D2), the reverse input end of described first paster integrated circuit (U1) is by the 5th resistance (R5) ground connection, the external DC voltage power supply VCC of power input of described first paster integrated circuit (U1) and by the first electric capacity (C1) ground connection, the earth terminal ground connection of described first paster integrated circuit (U1), the output terminal of described first paster integrated circuit (U1) is connected with the input end in the same way of the first paster integrated circuit (U1) by the 6th resistance (R6), the negative electrode of described voltage stabilizing diode (D1) is connected and plus earth with the output terminal of described first paster integrated circuit (U1) by the 7th resistance (R7), described second electric capacity (C2) is connected in parallel on the two ends of voltage stabilizing diode (D1),

Described central control unit comprises central control system (5), the temperature detecting module (6) be connected with central control system (5), signal processing module (7), information storage module (8), working power module (9), Bluetooth signal transceiver module (10) and fan-driving module (4), and described Bluetooth signal transceiver module (10) is connected with outside mobile phone (14) wireless signal.

2., as claimed in claim 1 based on the computer control system of Internet of Things, it is characterized in that, the model of described first paster integrated circuit (U1) is LMV324.

3. as claimed in claim 1 based on the computer control system of Internet of Things, it is characterized in that, the temperature drift coefficient of described first resistance (R1), the second resistance (R2), the 3rd resistance (R3), the 4th resistance (R4), the 5th resistance (R5), the 6th resistance (R6), the 7th resistance (R7) and the 8th resistance (R8) is 5%ppm.