CN105824380B - The main frame cooling system of automatic control - Google Patents

Abstract

The main frame cooling system of automatic control.The present invention relates to a kind of main frame cooling systems of automatic control.Mainboard is packed into the mainframe box, the left end of the inner surface of the mainframe box is installed by slideway, sliding slider on the slideway, connection expansion link on the sliding block, the top of the telescopic rod connects probe, L shape hollow stem is connected in the interior bar of the telescopic rod, fan is connected on the L shape hollow stem, the outer end of the sliding block is provided with arc groove, the arc groove cooperation pushing ram uses, the inner end of the sliding block connects shaft by axle sleeve I, orienting piece is connected in the shaft, connecting bushing II in the shaft, the shaft sleeve II connection positioning kelly, the positioning kelly cooperation location hole uses, the location hole is opened in the inner end of slideway, the inner end of the slideway is fixedly connected with the block with arc slot.The present invention radiates for main frame.

Description

The main frame cooling system of automatic control

Technical field

The present invention relates to a kind of main frame cooling systems of automatic control.

Background technique

Present computer autogamy heat emission fan, but since routine use is frequent, in addition hot weather, makes in mainframe box Mainboard easily because caused by overheat computer it is extremely slow using paralysis or the speed of service, bring inconvenience to people's lives work.

Summary of the invention

The object of the present invention is to provide a kind of main frame cooling systems of automatic control, utilize probe and thermocouple group At bi-directional probing temperature, after carry out automatically turning on the system that fan radiates under the control of temperature sensor.

Above-mentioned purpose is realized by following technical scheme:

A kind of main frame cooling system of automatic control, composition includes: probe 6, mainframe box 1, mainboard 2, described Mainframe box 1 in be packed into mainboard 2, the left end of the inner surface of the mainframe box 1 installs slideway 3, slides and slide on the slideway 3 Block 4, connection expansion link 5 on the sliding block 4, the top connection probe 6 of the telescopic rod 5, the interior bar of the telescopic rod 5 Upper connection L shape hollow stem 7 connects fan 8 on the L shape hollow stem 7, and the outer end of the sliding block 4 is provided with arc groove 9, The arc groove 9 cooperates pushing ram 10 to use, and the inner end of the sliding block 4 connects shaft 12 by axle sleeve I 11, described Orienting piece 13, connecting bushing II 14 in the shaft 12 are connected in shaft 12, the connection of shaft sleeve II 14 positions kelly 15, The positioning kelly 15 cooperates location hole 16 to use, and the location hole 16 is opened in the inner end of slideway 3, the slideway 3 Inner end is fixedly connected with the block 17 with arc slot.

The right end of the inner surface of the main frame cooling system of the automatic control, the mainboard 2 and mainframe box 1 Empty slot 18 in be packed into thermocouple 19, the thermocouple 19 and probe 6 are all connected with temperature sensor, the temperature sensor Including outer housing 20, the outer housing 20 connects the right end of the outer surface of mainframe box 1 by flexible clamp piece 21.

The main frame cooling system of the automatic control, the flexible clamp piece 21 includes C-shaped plate 22, described The top surface connecting spring 23 of C-shaped plate 22, the bottom surface of the spring 23 connect pressing plate 24, and the pressing plate 24 is arranged in C-shaped plate 22 it is interior, the vertical edge of the C-shaped plate 22 is provided with sliding port 25, and the sliding port 25 slides on fixed block 26, The fixed block 26 is connected on pressing plate 24.

The main frame cooling system of the automatic control is installed on the outer housing 20 of the temperature sensor and is pressed Button and charactron, the outer housing 20 is interior to be packed into circuit board, and signal is passed to the linear of circuit board by the thermocouple 19 Optocoupler amplifying circuit, the signal of the linear optical coupling amplifying circuit also receiving transducer 6, the probe 6 also transmit signal To converter, signal is passed to SPI interface, control button, pulse width modulation output, light-coupled isolation by the converter II, light-coupled isolation III, UART interface and PC interface；

Signal is passed to charactron by the SPI interface；

Signal is passed to external extended menory by the PC interface；

Signal is passed to light-coupled isolation I by the pulse width modulation output, and signal is transmitted in the light-coupled isolation I To filter, signal is passed to current output terminal by the filter；

Signal is passed to relay by the light-coupled isolation II, and signal is passed to output switch parameter by the relay End；

Signal is passed to pulse transformer by the light-coupled isolation III, and the pulse transformer is passed by trigger signal Pass fan 8；

Signal is passed to light-coupled isolation IV by the UART interface, and signal is passed to calculating by the light-coupled isolation IV Machine.

The main frame cooling system of the automatic control, the linear optical coupling amplifying circuit includes positive input terminal With negative input end, the positive input terminal of transport and placing device A1, the negative input end string are connected after the positive input terminal series resistance R2 The negative input end of transport and placing device A1 and one end of resistance R3 are connected after joining resistance R1, the output end of the transport and placing device A1 connects resistance The other end of the other end of R3 and one end of resistance R6, transport and placing device A1 connection the variable resistance R4, the resistance R6 connects The positive input terminal of transport and placing device A2 is connect, one end of negative input end connection the resistance R5 and resistance R7 of the transport and placing device A2 are described The output end of the other end connection transport and placing device A2 of resistance R7 and one end of resistance R8, the other end of the resistance R8 connect amplifier The positive input terminal of device A3, No. 2 pins of negative input end connection the resistance R9 and linear optical coupling of the transport and placing device A3, the fortune It is connected after putting the output end series resistance R10 of device A3 with No. 1 pin of linear optical coupling, No. 3 pins of the linear optical coupling connect One end of connecting resistance R11, the other end connection resistance R12 and variable resistance R13 of the resistance R11.

The utility model has the advantages that

1. slideway cooperation sliding block use of the invention can be convenient probe and reach specified thermometric place, the location hole on slideway The block of mating band arc slot uses, and help positions kelly insertion positioning hole, facilitates positioning and fixation.

2. the arc groove cooperation positioning kelly on sliding block of the invention uses, conveniently probe is replaced or is overhauled, Cleaning.

3. thermocouple of the invention and two-way thermometric of popping one's head in, have the function that more acurrate measurement, in actual use, more square Just the temperature for detecting mainboard each section, also facilitates the temperature of control mainboard each section.

4. it is closer that flexible clamp piece of the invention connect temperature sensor with mainframe box, it is easy to use.

5. bottom plate and mainframe box that the top plate of C-shaped plate of the invention facilitates C-shaped plate by the cooperation between spring and pressing plate L shape card slot connect.

6. various signal interferences are more in mainframe box of the invention, control inaccuracy, circuit board strong antijamming capability are easily caused.

Detailed description of the invention:

Attached drawing 1 is structural schematic diagram of the invention.

Attached drawing 2 is the schematic diagram of slideway and sliding block of the present invention.

Attached drawing 3 is the partial enlargement diagram of flexible clamp piece of the present invention.

Attached drawing 4 is the electrical diagram of circuit board of the present invention.

Attached drawing 5 is the circuit diagram of linear optical coupling amplifying circuit of the present invention.

Specific embodiment:

Embodiment 1

A kind of main frame cooling system of automatic control, composition includes: probe 6, mainframe box 1, mainboard 2, described Mainframe box 1 in be packed into mainboard 2, the left end (with mainboard apart from remote inner surface) of the inner surface of the mainframe box 1, which is installed, to be slided Road 3, sliding slider 4 on the slideway 3, connection expansion link 5 on the sliding block 4, the top of the telescopic rod 5, which connects, to be visited First 6, L shape hollow stem 7 is connected in the interior bar of the telescopic rod 5, connects fan 8, the cunning on the L shape hollow stem 7 The outer end of block 4 is provided with arc groove 9, and the arc groove 9 cooperates pushing ram 10 to use, and the inner end of the sliding block 4 passes through Axle sleeve I 11 connects shaft 12, and orienting piece 13 is connected in the shaft 12, and connecting bushing II 14 in the shaft 12 is described The connection positioning kelly 15 of shaft sleeve II 14, the positioning kelly 15 cooperates location hole 16 to use, and the location hole 16 is opened in The inner end of slideway 3, the inner end of the slideway 3 are fixedly connected with the block 17 with arc slot.

Embodiment 2

The main frame cooling system of automatic control described in embodiment 1, the interior table of the mainboard 2 and mainframe box 1 Thermocouple 19 is packed into the empty slot 18 of the right end in face, the thermocouple 19 and probe 6 are all connected with temperature sensor, the temperature Spending sensor includes outer housing 20, and the outer housing 20 connects the right end of the outer surface of mainframe box 1 by flexible clamp piece 21.

Embodiment 3

The main frame cooling system of automatic control as described in example 2, the flexible clamp piece 21 include C-shaped plate 22, the bottom surface of the top surface connecting spring 23 of the C-shaped plate 22, the spring 23 connects pressing plate 24, and the pressing plate 24 is set It sets in C-shaped plate 22, the vertical edge of the C-shaped plate 22 is provided with sliding port 25, and the sliding port 25 is in fixed block It is slided on 26, the fixed block 26 is connected on pressing plate 24.The right end of the outer surface of the mainframe box 1 is provided with L shape card slot 27, the L shape card slot 27 is interior to be packed into flexible clamp piece 21.

Embodiment 4

The main frame cooling system of automatic control as described in example 2, the outer housing 20 of the temperature sensor Upper installation button and charactron, the outer housing 20 is interior to be packed into circuit board, and signal is passed to circuit by the thermocouple 19 The linear optical coupling amplifying circuit of plate, the signal of the linear optical coupling amplifying circuit also receiving transducer 6, the probe 6 will also Signal passes to converter, and signal is passed to SPI interface, control button, pulse width modulation output, light by the converter Coupling isolation II, light-coupled isolation III, UART interface and PC interface；

Signal is passed to charactron by the SPI interface；

Signal is passed to external extended menory by the PC interface；

Signal is passed to light-coupled isolation I by the pulse width modulation output, and signal is transmitted in the light-coupled isolation I To filter, signal is passed to current output terminal by the filter；

Signal is passed to relay by the light-coupled isolation II, and signal is passed to output switch parameter by the relay End；

Signal is passed to pulse transformer by the light-coupled isolation III, and the pulse transformer is passed by trigger signal Pass fan 8；

Signal is passed to light-coupled isolation IV by the UART interface, and signal is passed to calculating by the light-coupled isolation IV Machine.

Embodiment 5

The main frame cooling system of automatic control as described in example 4, the linear optical coupling amplifying circuit include Positive input terminal and negative input end, the positive input terminal of transport and placing device A1 is connected after the positive input terminal series resistance R2, and described is negative The negative input end of transport and placing device A1 and one end of resistance R3, the output end of the transport and placing device A1 are connected after input terminal series resistance R1 The other end of connection resistance R3 and one end of resistance R6, the transport and placing device A1 connection variable resistance R4, the resistance R6's The other end connects the positive input terminal of transport and placing device A2, and the negative input end of the transport and placing device A2 connects the one of resistance R5 and resistance R7 End, the output end of the other end connection transport and placing device A2 of the resistance R7 and one end of resistance R8, the resistance R8's is another The positive input terminal of end connection transport and placing device A3, the negative input end connection resistance R9 of the transport and placing device A3 and No. 2 of linear optical coupling are drawn Foot is connected after the output end series resistance R10 of the transport and placing device A3 with No. 1 pin of linear optical coupling, the linear optical coupling No. 3 pins connection resistance R11 one end, the other end connection resistance R12 and variable resistance R13 of the resistance R11.

Certainly, the above description is not a limitation of the present invention, and the present invention is also not limited to the example above, this technology neck The variations, modifications, additions or substitutions that the technical staff in domain is made within the essential scope of the present invention also should belong to of the invention Protection scope.

Claims (5)

1. a kind of main frame cooling system of automatic control, composition includes: probe (6), mainframe box (1), mainboard (2), It is characterized in that: being packed into mainboard (2) in the mainframe box (1), slideway is installed in the left end of the inner surface of the mainframe box (1) (3), sliding slider (4) on the slideway (3), connection expansion link (5) on the sliding block (4), the telescopic rod (5) Top connection is popped one's head in (6), connects L shape hollow stem (7) in the interior bar of the telescopic rod (5), on the L shape hollow stem (7) It connects fan (8), the outer end of the sliding block (4) is provided with arc groove (9), and the arc groove (9) cooperates pushing ram (10) it uses, the inner end of the sliding block (4) connects shaft (12) by axle sleeve I (11), and connection is fixed in the shaft (12) To piece (13), connecting bushing II (14) in the shaft (12), the shaft sleeve II (14) connection positioning kelly (15) is described Positioning kelly (15) cooperation location hole (16) use, the location hole (16) is opened in the inner end of slideway (3), the slideway (3) inner end is fixedly connected with the block (17) with arc slot.

2. the main frame cooling system of automatic control according to claim 1, it is characterized in that: the mainboard (2) Thermocouple (19) are packed into in the empty slot (18) of the right end of the inner surface of mainframe box (1), the thermocouple (19) and probe (6) It is all connected with temperature sensor, the temperature sensor includes outer housing (20), and the outer housing (20) passes through flexible clamp piece (21) right end of the outer surface of mainframe box (1) is connected.

3. the main frame cooling system of automatic control according to claim 2, it is characterized in that: the flexible clamp piece It (21) include C-shaped plate (22), the top surface connecting spring (23) of the C-shaped plate (22), the bottom surface connection of the spring (23) Pressing plate (24), in C-shaped plate (22), the vertical edge of the C-shaped plate (22) is provided with sliding port for the pressing plate (24) setting (25), the sliding port (25) slides on fixed block (26), and the fixed block (26) is connected on pressing plate (24).

4. the main frame cooling system of automatic control according to claim 2, it is characterized in that: the temperature sensing Button and charactron are installed on the outer housing (20) of device, are packed into circuit board, the thermocouple in the outer housing (20) (19) signal is passed to the linear optical coupling amplifying circuit of circuit board, the linear optical coupling amplifying circuit also receiving transducer (6) Signal, signal also passes to converter by the probe (6), and signal is passed to SPI interface, control by the converter Button, pulse width modulation output, light-coupled isolation II, light-coupled isolation III, UART interface and PC interface；

Signal is passed to charactron by the SPI interface；

Signal is passed to external extended menory by the PC interface；

Signal is passed to light-coupled isolation I by the pulse width modulation output, and signal is passed to filter by the light-coupled isolation I Signal is passed to current output terminal by wave device, the filter；

Signal is passed to relay by the light-coupled isolation II, and signal is passed to output switch parameter end by the relay；

Signal is passed to pulse transformer by the light-coupled isolation III, and the pulse transformer is passed to by trigger signal Fan (8)；

Signal is passed to light-coupled isolation IV by the UART interface, and signal is passed to computer by the light-coupled isolation IV.

5. the main frame cooling system of automatic control according to claim 4, it is characterized in that: the linear optical coupling Amplifying circuit includes positive input terminal and negative input end, and the positive input of transport and placing device A1 is connected after the positive input terminal series resistance R2 It holds, the negative input end of transport and placing device A1 and one end of resistance R3, the amplifier is connected after the negative input end series resistance R1 The other end of the output end connection resistance R3 of device A1 and one end of resistance R6, the transport and placing device A1 connection variable resistance R4, institute The resistance R6 stated the other end connection transport and placing device A2 positive input terminal, the transport and placing device A2 negative input end connection resistance R5 with One end of resistance R7, the output end of the other end connection transport and placing device A2 of the resistance R7 and one end of resistance R8, the electricity Hinder the positive input terminal of the other end connection transport and placing device A3 of R8, the negative input end connection resistance R9 and linear light of the transport and placing device A3 No. 2 pins of coupling are connected after the output end series resistance R10 of the transport and placing device A3 with No. 1 pin of linear optical coupling, described One end of No. 3 pins connection resistance R11 of linear optical coupling, the other end connection resistance R12 and variable resistance of the resistance R11 R13。