CN116257408A

CN116257408A - Gas detection alarm monitoring system based on heating of computer mainframe box

Info

Publication number: CN116257408A
Application number: CN202310543367.7A
Authority: CN
Inventors: 曹莹莹; 唐世贤
Original assignee: Shaanxi Shenghe Huida Network Technology Co ltd
Current assignee: Shaanxi Shenghe Huida Network Technology Co ltd
Priority date: 2023-05-15
Filing date: 2023-05-15
Publication date: 2023-06-13
Anticipated expiration: 2043-05-15
Also published as: CN116257408B

Abstract

A gas detection alarm monitoring system based on heating of a computer mainframe box belongs to the technical field of mainframe box gas detection, and aims to solve the problems that an existing mainframe box is inconvenient to suck gas in the mainframe box for timing detection through an induced draft structure, and when the inside of the existing mainframe box of the Internet of things is too fast to run, the inside temperature is higher, so that the ventilation effect of the mainframe box is inconvenient to strengthen through the induced draft structure for monitoring; this application induced drafts through the subassembly that induced drafts, wind-force can enter into fixed drum and detect the intracavity portion, fixed drum detects through gas detection module, cause the damage to electronic component after the inside high strength work of mainframe box, can make the gas that is detected by gas detection module, perhaps gaseous content exceeds standard, alarm module carries out audible and visual alarm this moment, after mainframe box inside heat is higher, heat dissipation module is started, through powerful induced draft, driven assembly is acted on, the inside gas that cannot be absorbed of fixed drum promptly, the gas is transmitted out through the second loudspeaker groove.

Description

Gas detection alarm monitoring system based on heating of computer mainframe box

Technical Field

The invention relates to the technical field of main case gas detection, in particular to a gas detection alarm monitoring system based on heating of a computer main case.

Background

The internet of things is connected with a network through various devices to form a network world, wherein the computer is used as a single body, contribution is made to normal operation of the internet of things, but the normal operation of the computer is supported through a plurality of groups of electronic elements in a component part of the computer, namely the main machine box, when the main machine box operates, the electronic elements in the main machine box can operate at high strength, then high-temperature gas is generated, when the high-temperature gas continuously exists, the electronic elements in the main machine box and the plastic components are easy to generate high-temperature influence, further, carbon monoxide is generated on the surface of the plastic or the electronic elements due to slight damage, namely other toxic gas, the gas is slight, only by using personnel, the situation is difficult to observe, when a heat dissipation structure of the main machine box is damaged, the situation is serious, the main machine operation is hindered, the situation is in an early stage of damage, the personnel is difficult to observe to perform timely maintenance, the existing internet of things main machine box is inconvenient to suck the gas in the main machine box on the internet of things for timing detection through an induced draft structure, then the data is transmitted to the internet of things to monitor whether the inside the main machine box is damaged, the inside the main machine box is easy to perform timely maintenance, and the inside the air suction effect of the main machine box is not convenient to monitor the inside the internet of things through the high-speed, and the inside the internet of things is convenient to monitor the inside the air suction effect of the internet of things, and the internet of things is convenient to monitor the inside the fact high-speed quickly through the fact that the inside the internet machine box is not used in high speed a high speed through the internet machine box.

To solve the above problems, a gas detection alarm monitoring system based on heating of a computer mainframe is provided.

Disclosure of Invention

The invention aims to provide a gas detection alarm monitoring system based on heating of a computer mainframe box, which solves the problems that in the background technology, the existing internet of things mainframe box is inconvenient to suck gas in the mainframe box for timing detection through an induced draft structure, and when the existing internet of things mainframe box runs too fast, the internal temperature is higher, so that the ventilation effect of the mainframe box is inconvenient to strengthen through the induced draft structure for monitoring.

In order to achieve the above purpose, the present invention provides the following technical solutions: the gas detection alarm monitoring system based on heating of the computer mainframe comprises a CPU module, wherein the CPU module is electrically connected with an induction start-stop module, the induction start-stop module is electrically connected with an information transmission module, a timing module, a gas detection module, an air suction module and an alarm module, and the air suction module is electrically connected with a slow air module and a heat dissipation module;

the gas detection module is used for detecting the internal gas condition after the operation of the main machine box, an embedding plate is arranged on one side of the main machine box in an embedded manner, a detection component is movably arranged in the embedding plate, a detection bar block is arranged on one side of the detection component, a first horn cavity is formed on one side of the detection bar block facing the inside of the main machine box, a second horn groove is formed on the other side of the detection bar block, a detection cavity is formed between the first horn cavity and the second horn groove, an air inlet cavity is formed on one side of the detection cavity, the detection cavity is communicated with the first horn cavity through the air inlet cavity, an air suction component is arranged in the air inlet cavity, a fixed cylinder is arranged in the detection cavity, a driven component is arranged at the upper end part of the air inlet cavity, when the main machine box is in operation, the timing module drives the module that induced drafts, the subassembly that induced drafts begins to act on promptly, the subassembly that induced drafts begins promptly, wind-force can enter into fixed drum and detect the intracavity portion this moment, fixed drum detects through gas detection module, cause the damage to electronic component after the inside high strength work of mainframe box, can make the gas that is detected by gas detection module, or gaseous content exceeds standard, alarm module carries out audible and visual alarm this moment, transmit this information to the internet of things through information transmission module, after the inside heat of mainframe box is higher, heat dissipation module is started, through powerful induced draft, driven assembly is acted on, the inside gas that cannot be absorbed of fixed drum promptly, gas passes through the inlet air chamber, detect chamber and second loudspeaker groove transmission.

Further, the detection assembly comprises a jogged block and an induction sensor arranged on one side of the jogged block, the outer side of the jogged block is also provided with a dust-blocking wafer, the outer side of the dust-blocking wafer is provided with dust-blocking strips, the dust-blocking strips are provided with four groups, one side of the jogged block is provided with guide plates, the guide plates are provided with two groups, and the position of the detection strip is located between the guide plates of the two groups.

Further, one side of the embedded plate is provided with a fixed block, an embedded groove is formed in the fixed block in a penetrating mode, the embedded groove penetrates through the embedded plate, a communicating frame-shaped groove is formed in the inner wall of the embedded groove, and the positions of the four groups of dust-blocking strips and the dust-blocking wafers are located in the communicating frame-shaped groove.

Further, fixed cavities are formed in the embedded plate, four groups of fixed cavities are arranged, winding assemblies are arranged in the four groups of fixed cavities, and one end of each dust-blocking strip of each group is located in the corresponding four groups of fixed cavities.

Further, the winding component comprises a winding roller and a fixed inner shaft movably arranged in the winding roller, the fixed inner shaft is fixedly arranged in the fixed cavity, a connecting spring is arranged on the outer side of the fixed inner shaft, one end of the connecting spring is connected with the outer side of the fixed inner shaft, and the other end of the connecting spring is connected with the inner wall of the winding roller.

Further, one end of each of the four groups of dust-blocking strips is wound on the outer sides of the corresponding four groups of wind-up rolls.

Further, the inner wall of the fixed cylinder is provided with a gas detection sensor, one side of the fixed cylinder is provided with an air inlet strip, one end of the air inlet strip is positioned in the air inlet cavity, the lower end of the fixed cylinder is provided with an air outlet strip, and the position of the air outlet strip is positioned in the detection cavity.

Further, the driven component comprises a rotating component arranged in the air inlet cavity and an inclined plate arranged on one side of the rotating component, the inclined plate is positioned on one side of the air inlet strip, and the rotating component and the winding component are components made of the same structure.

Further, the outside of gomphosis piece is provided with first magnetic strip, and the wind-guiding chamber has been seted up towards one side of second loudspeaker groove to the gomphosis piece, and the inside of gomphosis piece still is provided with the dust blocking net.

Further, one end of the guide plate is provided with a second magnetic strip, the second magnetic strip and the first magnetic strip are members made of the same structure, and the first magnetic strip and the second magnetic strip are magnetically connected with the inner wall of the embedded groove.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the gas detection alarm monitoring system based on heating of the computer mainframe box, the timing module drives the air suction module, the air suction module starts to act, namely the air suction module starts to suction air, wind power enters the fixed cylinder and the inside of the detection cavity, the fixed cylinder is detected through the gas detection module, electronic elements are damaged after the inside of the mainframe box works in a high-strength mode, gas detected by the gas detection module can be manufactured, or the content of the gas exceeds standard, at the moment, the alarm module carries out acousto-optic alarm, the information is transmitted to the Internet of things through the information transmission module, after the internal heat of the mainframe box is high, the heat dissipation module is started, the driven component is acted through strong air suction, namely the inside of the fixed cylinder cannot suck the gas, the gas is transmitted out through the air inlet cavity, the detection cavity and the second horn groove, and the problem that the internal gas of the existing Internet of things mainframe box cannot be conveniently sucked into the mainframe box for timing detection through an air suction structure is solved, and when the internal temperature of the existing Internet of things mainframe box is too fast to run, and the ventilation effect of the mainframe box cannot be conveniently enhanced through the air suction structure for monitoring is solved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure of the embedded board and the detecting assembly of the present invention;

FIG. 3 is a schematic cross-sectional view of a fitting plate according to the present invention;

FIG. 4 is a schematic view of the structure of the test assembly and test strip of the present invention;

FIG. 5 is a schematic front plan view of a chimeric panel of the present invention;

FIG. 6 is a schematic view of a winding assembly according to the present invention;

FIG. 7 is a schematic side plan view of a test assembly and test strip according to the present invention;

fig. 8 is a schematic view of the driven assembly structure of the present invention.

In the figure: 1. a CPU module; 2. an induction start-stop module; 3. a main chassis; 4. an embedded plate; 41. a fixed block; 42. a fitting groove; 43. a communicating frame type groove; 44. a fixed cavity; 45. a winding assembly; 451. a wind-up roll; 452. fixing the inner shaft; 453. a connecting spring; 5. a detection assembly; 51. a fitting block; 511. a first magnetic strip; 512. an air guide cavity; 513. dust blocking net; 52. a guide plate; 521. a second magnetic strip; 53. an inductive sensor; 54. dust-blocking wafer; 55. dust-blocking strips; 6. detecting the strip blocks; 61. a first horn chamber; 62. an air inlet cavity; 63. a detection chamber; 64. a fixed cylinder; 641. a gas detection sensor; 642. an air outlet strip; 643. an air inlet strip; 65. an air suction assembly; 66. a driven assembly; 661. a rotating member; 662. an inclined plate; 67. a second horn slot; 21. an information transmission module; 22. a timing module; 23. a gas detection module; 24. an air suction module; 241. a wind-slowing module; 242. a heat dissipation module; 25. and an alarm module.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In order to solve the technical problem that the existing internet of things mainframe box is inconvenient to suck the gas in the mainframe box into the timing detection through the air suction structure, as shown in fig. 1-7, the following preferable technical scheme is provided:

the utility model provides a gas detection alarm monitoring system based on computer mainframe generates heat, including CPU module 1, CPU module 1 electric connection has the response to open and close module 2, response to open and close module 2 electric connection has information transmission module 21, timing module 22, gas detection module 23, induced draft module 24 and alarm module 25, induced draft module 24 electric connection has slow wind module 241 and heat dissipation module 242, gas detection module 23 is used for detecting the inside gas condition after mainframe box 3 works, the gomphosis of mainframe box 3 one side is provided with embedded plate 4, the inside activity of embedded plate 4 is provided with detection subassembly 5, one side of detection subassembly 5 is provided with detection strip 6, first loudspeaker chamber 61 has been seted up to the one side of detection strip 6 towards mainframe box 3 inside, second loudspeaker groove 67 has been seted up to the opposite side of detection strip 6, detection chamber 63 has been seted up between first loudspeaker chamber 61 and the second loudspeaker groove 67, an air inlet cavity 62 is formed on one side of the detection cavity 63, the detection cavity 63 is communicated with the first horn cavity 61 through the air inlet cavity 62, an air suction component 65 is arranged in the air inlet cavity 62, a fixed cylinder 64 is arranged in the detection cavity 63, a driven component 66 is arranged at the upper end part of the air inlet cavity 62, when the main case 3 works, the timing module 22 drives the air suction module 24, the air buffer module 241 starts to act, namely, the air suction component 65 starts to suck air, wind power enters the fixed cylinder 64 and the inside of the detection cavity 63, the fixed cylinder 64 is detected through the gas detection module 23, electronic elements are damaged after the inside of the main case 3 works at high strength, gas detected by the gas detection module 23 can be manufactured, or the content of the gas exceeds standard, at the moment, the alarm module 25 carries out acousto-optic alarm, the information is transmitted to the Internet of things through the information transmission module 21, after the heat inside the main case 3 is high, the heat dissipation module 242 is started, the driven component 66 is acted on through strong air suction, namely, the inside of the fixed cylinder 64 cannot absorb gas, the gas is transmitted out through the air inlet cavity 62, the detection cavity 63 and the second horn groove 67, and the detection principle of the gas detection module 23 refers to the kp830j gas detector, so that various gas data can be detected.

The detection assembly 5 comprises a jogging block 51 and an induction sensor 53 arranged on one side of the jogging block 51, the outer side of the jogging block 51 is also provided with a dust blocking disc 54, the outer side of the dust blocking disc 54 is provided with dust blocking strips 55, the dust blocking strips 55 are provided with four groups, one side of the jogging block 51 is provided with guide plates 52, the guide plates 52 are provided with two groups, the position of the detection strip 6 is located between the two groups of guide plates 52, one side of the jogging plate 4 is provided with a fixing block 41, the inside of the fixing block 41 is penetrated and provided with a jogging groove 42, the jogging groove 42 is penetrated and provided with a jogging plate 4, the inner wall of the jogging groove 42 is provided with a communicating frame type groove 43, the positions of the dust blocking strips 55 and the dust blocking disc 54 of the four groups are located inside the communicating frame type groove 43, the fixing cavities 44 are provided with four groups, the fixing cavities 44 are internally provided with rolling assemblies 45, and one end positions of the dust blocking strips 55 of the four groups are located inside the fixing cavities 44 of the corresponding four groups.

The winding assembly 45 comprises a winding roller 451 and a fixed inner shaft 452 movably arranged inside the winding roller 451, the fixed inner shaft 452 is fixedly arranged inside the fixed cavity 44, a connecting spring 453 is arranged outside the fixed inner shaft 452, one end of the connecting spring 453 is connected with the outer side of the fixed inner shaft 452, the other end of the connecting spring 453 is connected with the inner wall of the winding roller 451, one end of four groups of dust-blocking strips 55 is wound on the outer side of the winding roller 451 corresponding to the four groups, a gas detection sensor 641 is arranged on the inner wall of the fixed cylinder 64, an air inlet strip 643 is arranged on one side of the fixed cylinder 64, one end of the air inlet strip 643 is positioned inside the air inlet cavity 62, an air outlet strip 642 is arranged at the lower end of the fixed cylinder 64, the air outlet strip 642 is positioned inside the detection cavity 63, a first magnetic strip 511 is arranged on the outer side of the embedded block 51, a dust-blocking net 513 is arranged on one side of the embedded block 51 facing the second horn groove 67, one end of the guide plate 52 is provided with a second magnetic strip 521, the second magnetic strip 521 and the first magnetic strip 511 is a member made of the same structure as the first magnetic strip 511, and the second magnetic strip 521 is embedded in the inner wall 42.

Specifically, after the detection assembly 5 and the detection bar 6 are embedded in the embedded plate 4, at this time, the first magnetic strip 511 is magnetically connected with the inner wall of the embedded groove 42, and the inductive sensor 53 contacts with the inner wall of the embedded groove 42, the inductive start-stop module 2 is started to enable the information transmission module 21, the timing module 22, the gas detection module 23 and the air suction module 24 to work, when the electronic components in the main case 3 work, the internal gas content of the electronic components will change to a certain extent, at this time, the timing module 22 starts the air suction module 24, that is, the air suction assembly 65 starts to work, at this time, the air buffer module 241 is started, the air suction assembly 65 sucks the gas in the main case 3 through the first horn cavity 61, the gas enters the detection cavity 63 through the air inlet cavity 62, part of the gas enters the fixed cylinder 64 through the air inlet strip 643, and the gas detection module 23 and the gas detection sensor 641 perform gas detection, detecting the content of the gas and whether the gas generated when the electronic component is burnt out exists or not, the gas data is transmitted to the Internet of things through the information transmission module 21, if the content exceeds the standard, the alarm module 25 sends out an audible and visual alarm, the gas enters the detection cavity 63 through the air outlet strip 642, finally all the gas in the detection cavity 63 is discharged into the main case 3 through the second horn slot 67, the air guide cavity 512 and the dust blocking net 513, when the detection assembly 5 is taken out from the main case 3, until the second magnetic strip 521 is magnetically connected with the inner wall of the embedding groove 42, the dust blocking strip 55 is unreeled outside the winding roller 451, namely the winding roller 451 rotates, the connecting spring 453 is compressed, the dust blocking disc 54 can prevent dust from entering from the embedding groove 42, when the detection assembly 5 is re-embedded into the main case 3, the winding roller 451 can wind the dust blocking strip 55, the dust-blocking disc 54 and the dust-blocking strip 55 do not interfere with the normal operation of the detection strip 6 and the mainframe 3, and when the inductive sensor 53 is far away from the embedded groove 42, the inductive on-off module 2 closes the operation of the information transmission module 21, the timing module 22, the gas detection module 23, the air suction module 24 and the alarm module 25.

In order to solve the technical problem that when the internal operation of the existing internet of things mainframe box is too fast, the internal temperature is higher, and the ventilation effect of the mainframe box is inconvenient to strengthen through an induced draft structure for monitoring, as shown in fig. 8, the following preferred technical scheme is provided:

the driven assembly 66 includes a rotating member 661 provided inside the air intake chamber 62 and an inclined plate 662 provided on one side of the rotating member 661, and the inclined plate 662 is positioned on the air intake bar 643 side, the rotating member 661 being a member made of the same construction as the winding assembly 45.

Specifically, when the temperature of the air in the mainframe box 3 is too high, the heat dissipation module 242 is started, the air suction assembly 65 starts to work, the air suction assembly 65 starts to suction air forcefully, at this moment, in the channel of the air inlet cavity 62 towards the detection cavity 63, wind power is large, the inclined plate 662 is blown to rotate at this moment, due to the arrangement of the rotating member 661, the spring in the rotating member 661 is compressed, the inclined plate 662 rotates and then covers one side of the air inlet strip 643, and then the wind power in the air inlet cavity 62 can completely enter the detection cavity 63 and is discharged through the second horn groove 67, the air guide cavity 512 and the dust blocking net 513, so that the heat dissipation effect of the mainframe box 3 is enhanced, and at this moment, the wind power does not need to circulate from the inside of the fixed cylinder 64, and the transportation of the wind power is accelerated.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a gas detection alarm monitored control system based on computer mainframe generates heat, includes CPU module (1), its characterized in that: the CPU module (1) is electrically connected with the induction start-stop module (2), the induction start-stop module (2) is electrically connected with the information transmission module (21), the timing module (22), the gas detection module (23), the air suction module (24) and the alarm module (25), and the air suction module (24) is electrically connected with the air slowing module (241) and the heat dissipation module (242);

the gas detection module (23) is used for detecting the internal gas condition after the operation of the main machine box (3), one side of the main machine box (3) is embedded with the embedded plate (4), the inside activity of the embedded plate (4) is provided with the detection component (5), one side of the detection component (5) is provided with the detection bar (6), one side of the detection bar (6) facing the inside of the main machine box (3) is provided with the first horn cavity (61), the other side of the detection bar (6) is provided with the second horn groove (67), a detection cavity (63) is arranged between the first horn cavity (61) and the second horn groove (67), one side of the detection cavity (63) is provided with the air inlet cavity (62), the detection cavity (63) is communicated with the first horn cavity (61) through the air inlet cavity (62), the inside of the air inlet cavity (62) is provided with the air suction component (65), the inside of the detection cavity (63) is provided with the fixed cylinder (64), the upper end part of the air inlet cavity (62) is provided with the driven component (66), when the main machine box (3) works, the timing module (22) drives the module (24), the air suction module (241) starts to act on the air suction component (64) and the air suction component (64) at the moment, the air suction component starts to be fixed inside the air suction component (64) and the air suction component (64) starts to enter the inside the detection cavity (64), the fixed cylinder (64) detects through gas detection module (23), after the inside high strength work of mainframe box (3) causes the damage to electronic component, can make the gas that is detected by gas detection module (23), perhaps gaseous content exceeds standard, alarm module (25) carry out audible and visual alarm this moment, transmit this information to the thing networking through information transmission module (21), after heat dissipation module (242) is higher in the inside heat of mainframe box (3), through powerful induced draft, driven subassembly (66) are acted on, the inside gas that cannot be absorbed of fixed cylinder (64), gas is transmitted through air inlet chamber (62), detection chamber (63) and second loudspeaker groove (67).

2. The computer mainframe heating-based gas detection alarm monitoring system as defined in claim 1, wherein: the detection assembly (5) comprises a jogged block (51) and an induction sensor (53) arranged on one side of the jogged block (51), the outer side of the jogged block (51) is also provided with a dust-blocking disc (54), the outer side of the dust-blocking disc (54) is provided with dust-blocking strips (55), the dust-blocking strips (55) are provided with four groups, one side of the jogged block (51) is provided with a guide plate (52), the guide plates (52) are provided with two groups, and the position of the detection strip (6) is located between the two groups of guide plates (52).

3. The gas detection alarm monitoring system based on heating of a computer mainframe box as claimed in claim 2, wherein: one side of the embedded plate (4) is provided with a fixed block (41), an embedded groove (42) is formed in the fixed block (41) in a penetrating mode, the embedded groove (42) penetrates through the embedded plate (4), a communicating frame type groove (43) is formed in the inner wall of the embedded groove (42), and the positions of four groups of dust blocking strips (55) and dust blocking wafers (54) are located in the communicating frame type groove (43).

4. A computer mainframe heating based gas detection alarm monitoring system as defined in claim 3, wherein: the inside of embedding board (4) has seted up fixed chamber (44), and fixed chamber (44) set up four sets of, and fixed chamber (44) inside of four sets of all is provided with rolling subassembly (45), and the dust blocking strip piece (55) one end position of four sets is in the fixed chamber (44) inside of corresponding four sets of.

5. The computer mainframe heating-based gas detection alarm monitoring system according to claim 4, wherein: the winding assembly (45) comprises a winding roller (451) and a fixed inner shaft (452) movably arranged inside the winding roller (451), the fixed inner shaft (452) is fixedly arranged inside the fixed cavity (44), a connecting spring (453) is arranged outside the fixed inner shaft (452), one end of the connecting spring (453) is connected with the outer side of the fixed inner shaft (452), and the other end of the connecting spring is connected with the inner wall of the winding roller (451).

6. The computer mainframe heating-based gas detection alarm monitoring system according to claim 5, wherein: one end of each four groups of dust-proof strips (55) is wound on the outer sides of the corresponding four groups of wind-up rolls (451).

7. The computer mainframe heating-based gas detection alarm monitoring system as defined in claim 1, wherein: the inner wall of fixed drum (64) is provided with gas detection sensor (641), and one side of fixed drum (64) is provided with air inlet strip (643), and air inlet strip (643) one end position is in air inlet chamber (62) inside, and the lower extreme of fixed drum (64) is provided with air outlet strip (642), and air outlet strip (642) position is in detection chamber (63) inside.

8. The computer mainframe box heating-based gas detection alarm monitoring system as defined in claim 7, wherein: the driven component (66) comprises a rotating component (661) arranged in the air inlet cavity (62) and an inclined plate (662) arranged on one side of the rotating component (661), the inclined plate (662) is positioned on one side of the air inlet strip (643), and the rotating component (661) and the winding component (45) are components made of the same structure.

9. The gas detection alarm monitoring system based on heating of a computer mainframe box as claimed in claim 2, wherein: the outside of gomphosis piece (51) is provided with first magnetic strip (511), and wind-guiding chamber (512) have been seted up to one side of gomphosis piece (51) towards second loudspeaker groove (67), and the inside of gomphosis piece (51) still is provided with dust blocking net (513).

10. The computer mainframe box heating-based gas detection alarm monitoring system as defined in claim 9, wherein: one end of the guide plate (52) is provided with a second magnetic strip (521), the second magnetic strip (521) and the first magnetic strip (511) are members made of the same structure, and the first magnetic strip (511) and the second magnetic strip (521) are magnetically connected with the inner wall of the embedded groove (42).