CN209182303U - A kind of data center machine room hydrogen monitoring device - Google Patents

A kind of data center machine room hydrogen monitoring device Download PDF

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Publication number
CN209182303U
CN209182303U CN201821733768.XU CN201821733768U CN209182303U CN 209182303 U CN209182303 U CN 209182303U CN 201821733768 U CN201821733768 U CN 201821733768U CN 209182303 U CN209182303 U CN 209182303U
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China
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linear motor
track
resistance
motor track
fuselage
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CN201821733768.XU
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Chinese (zh)
Inventor
王炜
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Fujian Great Wall Electronic Technology Engineering Co Ltd
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Fujian Great Wall Electronic Technology Engineering Co Ltd
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Abstract

A kind of data center machine room hydrogen monitoring device.The utility model relates to a kind of data center machine room hydrogen monitoring devices.The linear motor track I is arranged in parallel with linear motor track III, the both ends of the linear motor track I connect linear motor track II and linear motor track IV by connecting column respectively, III both ends of linear motor track also connect linear motor track II and linear motor track IV by connecting column respectively, and the linear motor track II is parallel to each other with linear motor track IV.The utility model is monitored for hydrogen.

Description

A kind of data center machine room hydrogen monitoring device
Technical field:
The utility model relates to a kind of data center machine room hydrogen monitoring devices.
Background technique:
It is known that hydrogen is fuel gas, but certain equipment in modern computer room can generate hydrogen in operation, and Since static reason easily causes computer room to explode, irremediable loss is generated.
Utility model content:
The purpose of the utility model is to provide a kind of data center machine room hydrogen monitoring devices, detect hydrogen, prevent quick-fried Fried generation.
Above-mentioned purpose is realized by following technical scheme:
A kind of data center machine room hydrogen monitoring device runs linear motor fuselage I, straight line on linear motor track I Linear motor fuselage II is run on motor track II, runs linear motor fuselage III, linear motor rail on linear motor track III Linear motor fuselage IV is run on road IV,
The linear motor track I is arranged in parallel with linear motor track III, the both ends of the linear motor track I Linear motor track II and linear motor track IV are connected by connecting column respectively, III both ends of linear motor track are also divided Linear motor track II and linear motor track IV, the linear motor track II and linear motor are not connected by connecting column Track IV is parallel to each other,
Linear motor track V, the straight line are set between the linear motor fuselage I and linear motor fuselage III Linear motor fuselage V is run on motor track V, and hydrogen gas detector I is set on the linear motor fuselage V,
Linear motor track VI, the straight line are set between the linear motor fuselage II and linear motor fuselage IV Linear motor fuselage VI is run on motor track VI, and hydrogen gas detector II is set on the linear motor fuselage VI,
The hydrogen gas detector I and hydrogen gas detector II is backwards to setting.
Further, the linear motor track I and linear motor track III in one plane, the straight-line electric Machine track II and linear motor track IV in one plane, the linear motor track I and III position of linear motor track Higher than linear motor track II and linear motor track IV.
Further, the hydrogen gas detector I and hydrogen gas detector II 1 transmit a signal to single-chip microcontroller, described Single-chip microcontroller transmits a signal to alarm and memory.
Further, the hydrogen gas detector I is identical as the structure of hydrogen gas detector II,
The hydrogen gas detector II includes field-effect tube Q1, and the end G of the field-effect tube Q1 connects field-effect tube Q1 The end D and signal DG input terminal, the end the S connection signal NS output end of the field-effect tube Q1, one end of diode D1 and electricity Hinder one end of R1, the substrate of the other end connection signal DT input terminal and field-effect tube Q1 of the diode D1, the electricity Hinder the other end connection signal RH input terminal of R1.
Further, the operating temperature automatic control circuit of the hydrogen gas detector I includes chip U1, the chip U1's No. 6 ends connect No. 8 ends and No. 1 end of chip U1 of operating voltage+5V, No. 7 ends of chip U1, chip U1,
It is grounded after No. 3 end series capacitance C1 of the chip U1, No. 2 end series resistance R8 of the chip U1 are followed by Ground,
One end of No. 5 end connection resistance R7 of the chip U1, the other end connection resistance R6's of the resistance R7 The output end of one end and transport and placing device A1, one end and the one of resistance R3 of the positive input terminal connection resistance R2 of the transport and placing device A1 End, the other end of the resistance R2 connect operating voltage+5V, and the other end of the resistance R3 is grounded,
One end of the negative input end connection resistance R5 of the transport and placing device A1 and the other end of resistance R6, the resistance R5 Other end connection one end of diode D2, one end of resistance R4 and the third end of resistance R4, the diode D2's is another The other end of end ground connection, the resistance R4 connects operating voltage+5V.
The utility model has the advantages that
It, will not be to the safety anti-theft apparatus of machine 1. the utility model protects personal safety as well as the property safety, and is mounted on computer room roof Connection has an impact, and does not influence maintenance of the people to machine.
2. the utility model according to the physical principle of hydrogen, can move up after generation due to being lighter than air, set on roof It is fast to set detector discovery.
Detailed description of the invention:
Attached drawing 1 is the structural schematic diagram of the utility model;
Attached drawing 2 is the figure cross-sectional view of the utility model;
Attached drawing 3 is the signal flow graph of the utility model;
Attached drawing 4 is the hydrogen gas detector probe circuit figure of the utility model;
Attached drawing 5 is the operating temperature automatic control circuit of the utility model;
Attached drawing 6 is the display circuit of the utility model.
In figure: 1, linear motor track I;2, linear motor fuselage I;3, linear motor track II;4, linear motor fuselage Ⅱ;5, linear motor track III;6, linear motor fuselage III;7, linear motor track IV;8, linear motor fuselage IV;9, it connects Column;10, linear motor track V;11, linear motor fuselage V;12, linear motor fuselage VI;13;Hydrogen gas detector II;14, Linear motor track VI.
Specific embodiment:
A kind of data center machine room hydrogen monitoring device runs linear motor fuselage I 2 on linear motor track I 1, directly Linear motor fuselage II 4 is run on line motor track II 3, runs linear motor fuselage III 6, straight line on linear motor track III 5 Linear motor fuselage IV 8 is run on motor track IV 7,
The linear motor track I 1 is arranged in parallel with linear motor track III 5, the linear motor track I 1 Both ends pass through connecting column 9 respectively and connect linear motor track II 3 and linear motor track IV 7, the linear motor track III 5 Both ends also connect linear motor track II 3 and linear motor track IV 7, the linear motor track by connecting column 9 respectively II 3 are parallel to each other with linear motor track IV 7,
Linear motor track V 10 is set between the linear motor fuselage I 2 and linear motor fuselage III 6, it is described Linear motor fuselage V 11 is run on linear motor track V 10, and hydrogen detection is set on the linear motor fuselage V 11 Device I,
Linear motor track VI 14 is set between the linear motor fuselage II 4 and linear motor fuselage IV 8, it is described Linear motor fuselage VI 12 is run on linear motor track VI 14, and hydrogen detection is set on the linear motor fuselage VI 12 Device II 13,
The hydrogen gas detector I and hydrogen gas detector II 13 is backwards to setting.
Further, the linear motor track I 1 and linear motor track III 5 in one plane, the straight line Motor track II 3 and linear motor track IV 7 in one plane, the linear motor track I 1 and linear motor track III 5 positions are higher than linear motor track II 3 and linear motor track IV 7.
Further, the hydrogen gas detector I and hydrogen gas detector II 13 transmit a signal to single-chip microcontroller, described Single-chip microcontroller transmits a signal to alarm and memory.
Further, the hydrogen gas detector I is identical as the structure of hydrogen gas detector II 13,
The hydrogen gas detector II 13 includes field-effect tube Q1, and the end G of the field-effect tube Q1 connects field-effect tube The end D of Q1 and signal DG input terminal, the end the S connection signal NS output end of the field-effect tube Q1, diode D1 one end with One end of resistance R1, the substrate of the other end connection signal DT input terminal and field-effect tube Q1 of the diode D1 are described The other end connection signal RH input terminal of resistance R1.
Further, the operating temperature automatic control circuit of the hydrogen gas detector I includes chip U1, the chip U1's No. 6 ends connect No. 8 ends and No. 1 end of chip U1 of operating voltage+5V, No. 7 ends of chip U1, chip U1,
It is grounded after No. 3 end series capacitance C1 of the chip U1, No. 2 end series resistance R8 of the chip U1 are followed by Ground,
One end of No. 5 end connection resistance R7 of the chip U1, the other end connection resistance R6's of the resistance R7 The output end of one end and transport and placing device A1, one end and the one of resistance R3 of the positive input terminal connection resistance R2 of the transport and placing device A1 End, the other end of the resistance R2 connect operating voltage+5V, and the other end of the resistance R3 is grounded,
One end of the negative input end connection resistance R5 of the transport and placing device A1 and the other end of resistance R6, the resistance R5 Other end connection one end of diode D2, one end of resistance R4 and the third end of resistance R4, the diode D2's is another The other end of end ground connection, the resistance R4 connects operating voltage+5V.
Certainly, the above description is not intended to limit the present invention, and the utility model is also not limited to the example above, The variations, modifications, additions or substitutions that those skilled in the art are made in the essential scope of the utility model, are also answered Belong to the protection scope of the utility model.

Claims (5)

1. a kind of data center machine room hydrogen monitoring device, it is characterized in that: running linear motor on linear motor track I (1) Fuselage I (2) runs linear motor fuselage II (4) on linear motor track II (3), runs straight line on linear motor track III (5) Motor body III (6) runs linear motor fuselage IV (8) on linear motor track IV (7),
The linear motor track I (1) is arranged in parallel with linear motor track III (5), the linear motor track I (1) Both ends pass through connecting column (9) connection linear motor track II (3) and linear motor track IV (7), the straight-line electric respectively Machine track III (5) both ends also pass through connecting column (9) connection linear motor track II (3) and linear motor track IV (7), institute respectively The linear motor track II (3) stated is parallel to each other with linear motor track IV (7),
Linear motor track V (10) are set between the linear motor fuselage I (2) and linear motor fuselage III (6), it is described Linear motor track V (10) on run linear motor fuselage V (11), hydrogen is set on the linear motor fuselage V (11) Gas detector I,
Linear motor track VI (14) are set between the linear motor fuselage II (4) and linear motor fuselage IV (8), it is described Linear motor track VI (14) on run linear motor fuselage VI (12), hydrogen is set on the linear motor fuselage VI (12) Gas detector II (13),
The hydrogen gas detector I and hydrogen gas detector II (13) is backwards to setting.
2. a kind of data center machine room hydrogen monitoring device according to claim 1, it is characterized in that: the straight-line electric Machine track I (1) and linear motor track III (5) in one plane, the linear motor track II (3) and linear motor rail In one plane, the linear motor track I (1) and linear motor track III (5) position are higher than linear motor in road IV (7) Track II (3) and linear motor track IV (7).
3. a kind of data center machine room hydrogen monitoring device according to claim 1, it is characterized in that: the hydrogen is visited Survey device I and hydrogen gas detector II (13) and transmit a signal to single-chip microcontroller, the single-chip microcontroller transmit a signal to alarm with Memory.
4. a kind of data center machine room hydrogen monitoring device according to claim 1 or 3, it is characterized in that: the hydrogen Gas detector I is identical as the structure of hydrogen gas detector II (13),
The hydrogen gas detector II (13) includes field-effect tube Q1, and the end G of the field-effect tube Q1 connects field-effect tube Q1 The end D and signal DG input terminal, the end the S connection signal NS output end of the field-effect tube Q1, one end of diode D1 and electricity Hinder one end of R1, the substrate of the other end connection signal DT input terminal and field-effect tube Q1 of the diode D1, the electricity Hinder the other end connection signal RH input terminal of R1.
5. a kind of data center machine room hydrogen monitoring device according to claim 4, it is characterized in that: the hydrogen is visited The operating temperature automatic control circuit for surveying device II (13) includes chip U1, and No. 6 ends of the chip U1 connect operating voltage+5V, core No. 7 ends of piece U1, No. 8 ends of chip U1 and No. 1 end of chip U1,
It is grounded after No. 3 end series capacitance C1 of the chip U1, is grounded after No. 2 end series resistance R8 of the chip U1,
One end of No. 5 end connection resistance R7 of the chip U1, one end of the other end connection resistance R6 of the resistance R7 With the output end of transport and placing device A1, one end of the positive input terminal connection resistance R2 of the transport and placing device A1 and one end of resistance R3, institute The other end of the resistance R2 stated connects operating voltage+5V, and the other end of the resistance R3 is grounded,
One end of the negative input end connection resistance R5 of the transport and placing device A1 and the other end of resistance R6, the resistance R5's is another One end connects the third end of one end of diode D2, one end of resistance R4 and resistance R4, another termination of the diode D2 The other end on ground, the resistance R4 connects operating voltage+5V.
CN201821733768.XU 2018-10-25 2018-10-25 A kind of data center machine room hydrogen monitoring device Active CN209182303U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201821733768.XU CN209182303U (en) 2018-10-25 2018-10-25 A kind of data center machine room hydrogen monitoring device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201821733768.XU CN209182303U (en) 2018-10-25 2018-10-25 A kind of data center machine room hydrogen monitoring device

Publications (1)

Publication Number Publication Date
CN209182303U true CN209182303U (en) 2019-07-30

Family

ID=67362038

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201821733768.XU Active CN209182303U (en) 2018-10-25 2018-10-25 A kind of data center machine room hydrogen monitoring device

Country Status (1)

Country Link
CN (1) CN209182303U (en)

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