CN114364226A - Deep learning computer state monitor - Google Patents

Abstract

The invention discloses a computer state monitor for deep learning, which comprises a shell, wherein an installation cavity is arranged in the shell, an electronic element is installed in the installation cavity, a through hole is formed in the inner bottom of the installation cavity, a screen plate is installed in the through hole, an installation block is installed at the upper end of the shell, an air suction cavity is formed in the installation block, the left space of the air suction cavity is communicated with the outside through a transverse pipe, and the bottom space of the air suction cavity is communicated with the top space of the installation cavity through a plurality of air inlets; and a micro motor is arranged above the mounting block. This monitor utilizes the rotation of a plurality of flabellums and the inside radiating effect of monitor with higher speed of circulation of comdenstion water when using, can provide the alarm simultaneously when the monitor temperature is higher to clear up the dust on the otter board, ensure the radiating effect to the monitor, have simultaneously when clearing up that gas will fall on the dust of monitor bottom and blow away, avoid adsorbing on the otter board once more.

Description

Deep learning computer state monitor

Technical Field

The invention relates to the technical field of monitors, in particular to a deep learning computer state monitor.

Background

The computer monitor is a display part of the monitoring system, is a standard output of the monitoring system, can watch the image sent from the front end only by the display of the monitor, can watch the image sent from the front end only by the monitor, has the resolution, is represented by the line number as the camera, generally requires the line number of the monitor to be matched with the camera in actual use, but the prior monitor still has the following problems in use:

the existing monitor is generally used for monitoring the internal temperature of the computer, however, when the computer is used, heat generated by electronic elements of the computer may be transferred into the monitor body, meanwhile, the monitor also generates certain heat in the operation process, the heat is fused with each other to cause the internal temperature of the monitor to rise fast, so that the service life of the electronic elements in the monitor is influenced, and when the existing monitor is operated, an opening is formed for heat dissipation, and because the opening is usually provided with a screen plate, dust can be accumulated on the screen plate to influence the air permeability of the screen plate, so how to reasonably solve the problem is needed to be considered.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides a deep learning computer state monitor, which accelerates the heat dissipation effect in the monitor by utilizing the rotation of a plurality of fan blades and the circulation of condensed water when in use, simultaneously gives an alarm when the temperature of the monitor is high, cleans dust on a screen plate, ensures the heat dissipation effect of the monitor, and simultaneously blows away the dust falling at the bottom of the monitor by air when cleaning, and avoids being adsorbed on the screen plate again.

In order to achieve the purpose, the invention adopts the following technical scheme:

a computer state monitor for deep learning comprises a shell, wherein an installation cavity is arranged in the shell, an electronic element is installed in the installation cavity, a through hole is formed in the inner bottom of the installation cavity, a screen plate is installed in the through hole, an installation block is installed at the upper end of the shell, an air suction cavity is formed in the installation block, the left space of the air suction cavity is communicated with the outside through a transverse pipe, and the bottom space of the air suction cavity is communicated with the top space of the installation cavity through a plurality of air inlets; micro motor is installed to the top of installation piece, micro motor's output shaft end extends to the intracavity of breathing in and fixedly connected with bull stick, the lower extreme of bull stick is rotated with the interior bottom in the chamber of breathing in and is connected, the outer wall of bull stick is equipped with a plurality of flabellums along its circumference, be equipped with the slip chamber in the installation piece, micro motor's output shaft runs through the slip chamber, micro motor's output shaft is located the incomplete gear of partial fixedly connected with in the slip chamber, the slip intracavity is equipped with the piston, the inner wall sliding connection of piston and slip chamber, the right side fixedly connected with and the incomplete gear matched with rack of piston, reset spring elastic connection is passed through with the left side inner wall in slip chamber in the left side of piston.

Preferably, the inner wall of installation cavity encircles and installs first coiled pipe, be equipped with the stock solution chamber in the installation piece, the stock solution chamber runs through violently the pipe, the left side space in slip chamber and the bottom space in stock solution chamber pass through feed liquor pipe intercommunication, the play liquid end of first coiled pipe and the left side space intercommunication in stock solution chamber, the right side of casing is equipped with heat radiation fins, be equipped with the second coiled pipe in the heat radiation fins, the play liquid end of second coiled pipe and the feed liquor end intercommunication of first coiled pipe, the feed liquor end of second coiled pipe and the left side space intercommunication in slip chamber, the feed liquor of feed liquor pipe and second coiled pipe is served and all is equipped with the check valve.

Preferably, the right space of the sliding chamber is communicated with the outside through a short pipe.

Preferably, a heat conduction box is arranged at the inner top of the mounting cavity, a moving block is arranged in the heat conduction box and is connected with the inner wall of the heat conduction box in a sliding mode, the right side of the moving block and the right side of the heat conduction box are respectively provided with a conductive block which is matched with each other, and two audible and visual alarms are arranged above the mounting block.

Preferably, all rotate on the left and right sides inner wall of opening and be connected with the connecting rod, two the connecting rod all is located the top of otter board, two the equal fixedly connected with copper ball of looks remote site of connecting rod, two the upper end of connecting rod all passes through arc spring elastic connection with the left and right sides inner wall of opening, is located the left the connecting rod has electric conductivity, the top of otter board is equipped with two conducting bars.

Preferably, be equipped with the rectangle chamber in the installation piece, the rectangle intracavity is equipped with the movable plate, the inner wall sliding connection in movable plate and rectangle chamber, compression spring elastic connection is passed through with the interior bottom in rectangle chamber to the lower extreme of movable plate, the right side space in slip chamber passes through the outlet duct intercommunication with the headspace in rectangle chamber, all be equipped with the check valve on nozzle stub and the outlet duct, hollow core plate is installed to the lower extreme of casing, hollow core plate's left side slope is equipped with a plurality of gas outlets, hollow core plate passes through the connecting pipe intercommunication with the headspace in rectangle chamber, be equipped with the solenoid valve on the connecting pipe.

The invention has the following beneficial effects:

1. compared with the prior art, in the running process of the monitor, the installation cavity is enabled to exchange gas with the outside through the rotation of the plurality of fan blades and is matched with the flowing of condensate, so that the heat dissipation effect on electronic elements in the monitor is improved;

2. compared with the prior art, when the screen plate is blocked by dust, people can be reminded to turn off the micro motor and the monitor, and meanwhile, the connecting rod drives the copper balls to continuously swing up and down to impact the screen plate, so that the blocked dust is shaken off, and the air permeability of the screen plate is ensured;

3. compared with the prior art, in the process that the piston moves, a certain amount of gas is collected, and when the dust on the screen plate is cleaned, the gas with accumulated pressure can be sprayed out, so that the dust falling on the screen plate is blown away, and the dust is prevented from being adsorbed on the screen plate again.

Drawings

FIG. 1 is a schematic diagram of a deep learning computer state monitor according to the present invention;

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1;

FIG. 3 is an enlarged view of the structure at B in FIG. 1;

FIG. 4 is an enlarged view of the structure at C in FIG. 1;

FIG. 5 is a schematic structural view of example 2 of the present invention;

fig. 6 is an enlarged schematic view of the structure at D in fig. 5.

In the figure: the device comprises a shell 1, a mounting cavity 2, a through hole 3, a screen plate 4, a mounting block 5, an audible and visual alarm 6, a micro motor 7, an air suction cavity 8, an air inlet 9, a rack 10, a sliding cavity 11, a return spring 12, a liquid inlet pipe 13, fan blades 14, a liquid storage cavity 15, a first coiled pipe 16, a rotating rod 17, a heat dissipation fin 18, a second coiled pipe 19, a piston 20, an incomplete gear 21, a heat conduction box 22, a moving block 23, a conductive block 24, an arc-shaped spring 25, a connecting rod 26, a copper ball 27, short pipe 28, a gas outlet pipe 29, a connecting pipe 30, a moving plate 31, a compression spring 32 and a hollow plate 33.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Example 1

Referring to fig. 1-4, a computer state monitor for deep learning comprises a shell 1, wherein a mounting cavity 2 is arranged in the shell 1, an electronic element is arranged in the mounting cavity 2, an opening 3 is arranged at the inner bottom of the mounting cavity 2, a screen plate 4 is arranged in the opening 3, a mounting block 5 is arranged at the upper end of the shell 1, an air suction cavity 8 is arranged in the mounting block 5, the left space of the air suction cavity 8 is communicated with the outside through a transverse pipe, and the bottom space of the air suction cavity 8 is communicated with the top space of the mounting cavity 2 through a plurality of air inlets 9.

Wherein, micro motor 7 is installed to the top of installation piece 5, micro motor 7's output shaft end extends to in the chamber 8 of breathing in and fixedly connected with bull stick 17, the lower extreme of bull stick 17 rotates with the interior bottom in the chamber 8 of breathing in and is connected, the outer wall of bull stick 17 is equipped with a plurality of flabellums 14 along its circumference, be equipped with slip chamber 11 in the installation piece 5, micro motor 7's output shaft runs through slip chamber 11, the part fixedly connected with incomplete gear 21 that micro motor 7's output shaft is located the slip chamber 11, be equipped with piston 20 in the slip chamber 11, piston 20 and the inner wall sliding connection of slip chamber 11, piston 20's right side fixedly connected with and incomplete gear 21 matched with rack 10, piston 20's left side and the left side inner wall of slip chamber 11 pass through reset spring 12 elastic connection, the right side space of slip chamber 11 communicates through nozzle stub 28 with the external world.

Wherein, the inner wall of installation cavity 2 encircles and installs first coiled pipe 16, be equipped with liquid storage cavity 15 in the installation piece 5, liquid storage cavity 15 runs through violently the pipe, the left side space of sliding chamber 11 and the bottom space of liquid storage cavity 15 communicate through feed liquor pipe 13, the play liquid end of first coiled pipe 16 and the left side space intercommunication of liquid storage cavity 15, the right side of casing 1 is equipped with heat radiation fins 18, be equipped with second coiled pipe 19 in the heat radiation fins 18, the play liquid end of second coiled pipe 19 and the feed liquor end intercommunication of first coiled pipe 16, the feed liquor end of second coiled pipe 19 and the left side space intercommunication of sliding chamber 11, all be equipped with the check valve on the feed liquor end of feed liquor pipe 13 and second coiled pipe 19, the condensate in the liquid storage cavity 15 passes through feed liquor pipe 13 one-way and gets into to the left side space of sliding chamber 11 in, the condensate in the space of sliding chamber 11 left side enters into second coiled pipe 19 through one-way.

Wherein, the interior top of installation cavity 2 is equipped with heat conduction box 22, is equipped with movable block 23 in the heat conduction box 22, and movable block 23 and heat conduction box 22's inner wall sliding connection, the right side of movable block 23 and heat conduction box 22's right side all are equipped with conductive block 24 of mutually supporting, and the top of installation piece 5 is equipped with two audible-visual annunciators 6, can set up an external power supply, and external power supply, two audible-visual annunciators 6 and two conductive blocks 24 pass through the wire and constitute a return circuit.

Wherein, all rotate on the left and right sides inner wall of opening 3 and be connected with connecting rod 26, two connecting rods 26 all are located the top of otter board 4, the equal fixedly connected with copper ball 27 of the looks remote site of two connecting rods 26, the upper end of two connecting rods 26 all passes through arc spring 25 elastic connection with the left and right sides inner wall of opening 3, two arc springs 25 all have electric conductivity, it has electric conductivity to be located left connecting rod 26, the top of otter board 4 is equipped with two conducting rods, external power supply, two arc springs 25, be located left connecting rod 26, two conducting rods and two conducting blocks 24 pass through the wire and constitute a return circuit.

The invention can be illustrated by the following operating modes: in the running process of the monitor, the micro motor 7 is also in a running state, at the moment, the running of the micro motor 7 drives the rotating rod 17 to rotate, and the rotation of the rotating rod 17 drives the plurality of fan blades 14 to rotate, so that the external air → the installation cavity 2 → the air suction cavity 8 → the liquid storage cavity 15 → the external air flow is formed, the heat generated by the monitor is taken out, and the service life of electronic elements in the monitor is prolonged;

in the process of rotation of the output shaft of the micro motor 7, the incomplete gear 21 can be rotated, when the rack 10 is meshed with the incomplete gear 21, the rack 10 can drive the piston 20 to move left, and when the incomplete gear 21 is not meshed with the rack 10, the piston 20 drives the rack 10 to move back under the elastic action of the return spring 12, namely, the operation of the driving motor can drive the piston 20 to move left and right;

the piston 20 moves rightwards to suck the condensate in the liquid storage cavity 15 into the left space of the sliding cavity 11, when the piston 20 moves leftwards, the liquid in the left space of the sliding cavity 11 is pressed into the second coiled pipe 19 and then enters the first coiled pipe 16, so that the condensate can continuously move in the first coiled pipe 16 and the second coiled pipe 19 when the piston 20 moves leftwards and rightwards, the heat in the installation cavity 2 is absorbed, and the heat dissipation effect on electronic elements is further improved;

in the process of heat dissipation, the temperature of the condensate rises, and when the condensate with higher temperature passes through the heat dissipation fins 18, part of heat is absorbed by the heat dissipation fins 18 and then dissipated to the outside, so that the temperature of the condensate is ensured to be in a lower state;

it is worth mentioning that in the process of gas flowing, when the gas passes through the liquid storage cavity 15, part of heat in the liquid storage cavity 15 can be brought to the outside, so as to further ensure that the temperature of the condensate is in a low state;

when the screen plate 4 is blocked by dust, gas cannot flow in the installation cavity 2, at the moment, along with the running of the monitor, the temperature in the installation cavity 2 can be slowly increased (because the condensate is still in a flowing state, a certain heat dissipation effect is still achieved at the moment, the temperature in the installation cavity 2 is slowly increased), and when the temperature reaches the boiling point of the low-boiling-point solution, the low-boiling-point solution is heated and gasified, so that the moving block 23 moves to the right, and the two conductive blocks 24 are contacted;

the two conductive blocks 24 are contacted to enable the two audible and visual alarms 6 to be electrified, so that the audible and visual alarms remind people to turn off the monitor;

because the connecting rod 26 is in contact with the two conducting rods at the moment, the two arc springs 25 can be in an electrified state at the moment, after the two arc springs 25 are electrified, according to the electromagnetic effect, every two adjacent coils can generate magnetic fields with opposite magnetism, the two arc springs 25 can contract at the moment, the connecting rod 26 drives the copper ball 27 to rotate upwards, when the connecting rod 26 is not in contact with the two conducting rods any more, the connecting rod 26 and the copper ball 27 have inertia, the connecting rod 26 can continue to rotate upwards for a certain distance, after the connecting rod 26 rotates for a certain distance, under the elastic action of the arc springs 25, the connecting rod 26 and the copper ball 27 rotate downwards to impact the screen plate 4, and when the connecting rod 26 is in contact with the conducting rods again, the process can be repeated again;

two copper balls 27 continuously impact the screen plate 4, so that the screen plate 4 vibrates to shake off the adhered dust, and the air permeability of the screen plate 4 is ensured.

Compared with the prior art, in the running process of the monitor, the installation cavity 2 exchanges gas with the outside through the rotation of the fan blades 14 and is matched with the flow of condensate, so that the heat dissipation effect on electronic elements in the monitor is improved;

when the screen plate 4 is blocked by dust, people can be reminded to close the micro motor 7 and the monitor, meanwhile, the connecting rod 26 drives the copper balls 27 to continuously swing up and down to impact the screen plate 4, the blocked dust is shaken off, and the air permeability of the screen plate 4 is ensured.

Example 2

Referring to fig. 5-6, the difference between this embodiment and embodiment 1 is that a rectangular cavity is provided in the mounting block 5, a moving plate 31 is provided in the rectangular cavity, the moving plate 31 is slidably connected to the inner wall of the rectangular cavity, the lower end of the moving plate 31 is elastically connected to the inner bottom of the rectangular cavity through a compression spring 32, the right space of the sliding cavity 11 is communicated with the top space of the rectangular cavity through an outlet 29, both the short tube 28 and the outlet 29 are provided with one-way valves, outside air enters the right space of the sliding cavity 11 through the short tube 28 in one way, air in the right space of the sliding cavity 11 enters the rectangular cavity through the outlet 29 in one way, the lower end of the housing 1 is provided with a hollow plate 33, the left side of the hollow plate 33 is provided with a plurality of air outlets in an inclined manner, the hollow plate 33 is communicated with the top space of the rectangular cavity through a connecting tube 30, the connecting tube 30 is provided with an electromagnetic valve, the electromagnetic valve is connected in series to a branch where the two audible and visual annunciators 6 are located, after the electromagnetic valve on the connecting pipe 30 is powered on, the connecting pipe 30 is in a conducting state, and the right space of the rectangular cavity is communicated with the outside through the opening, so that only a certain amount of gas can be accumulated in the rectangular cavity.

In this embodiment, in the process that the piston 20 moves left and right, external air is continuously pumped into the right space of the sliding cavity 11 and then pressed into the rectangular cavity, because the electromagnetic valve on the connecting pipe 30 is in a power-off state, the connecting pipe 30 is blocked at this time, so that when the air is pressed into the rectangular cavity, the moving plate 31 moves downward, and because of the arrangement of the opening, only a certain amount of air is accumulated in the rectangular cavity;

when clearing up the dust on otter board 4, the solenoid valve on the connecting pipe 30 circular telegram was opened this moment, and the gas in the rectangle intracavity passes through the connecting pipe 30 and enters into to hollow plate 33 this moment, then through a plurality of gas outlets blowout, will fall off the dust of otter board 4 and blow away, and the dust is adsorbed on otter board 4 along with the air current again when avoiding next operation.

Compared with the prior art, a certain amount of gas is collected in the moving process of the piston 20, and when the dust on the screen plate 4 is cleaned, the gas with accumulated pressure can be sprayed out, so that the dust falling from the screen plate 4 is blown away, and the dust is prevented from being adsorbed on the screen plate 4 again.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims (6)

1. A deep learning computer state monitor comprising a housing (1), characterized in that: the novel air suction device is characterized in that a mounting cavity (2) is formed in the shell (1), an electronic element is mounted in the mounting cavity (2), a through hole (3) is formed in the inner bottom of the mounting cavity (2), a screen plate (4) is mounted in the through hole (3), a mounting block (5) is mounted at the upper end of the shell (1), an air suction cavity (8) is formed in the mounting block (5), the left space of the air suction cavity (8) is communicated with the outside through a transverse pipe, and the bottom space of the air suction cavity (8) is communicated with the top space of the mounting cavity (2) through a plurality of air inlets (9);

the air suction device is characterized in that a micro motor (7) is installed above the installation block (5), the tail end of an output shaft of the micro motor (7) extends into the air suction cavity (8) and is fixedly connected with a rotating rod (17), the lower end of the rotating rod (17) is rotatably connected with the inner bottom of the air suction cavity (8), a plurality of fan blades (14) are arranged on the outer wall of the rotating rod (17) along the circumferential direction of the rotating rod, a sliding cavity (11) is arranged in the installation block (5), the output shaft of the micro motor (7) penetrates through the sliding cavity (11), an incomplete gear (21) is fixedly connected to the part, located in the sliding cavity (11), of the output shaft of the micro motor (7), a piston (20) is arranged in the sliding cavity (11), the inner wall of the piston (20) is slidably connected with the sliding cavity (11), and a rack (10) matched with the incomplete gear (21) is fixedly connected to the right side of the piston (20), the left side of the piston (20) is elastically connected with the inner wall of the left side of the sliding cavity (11) through a return spring (12).

2. The deep learning computer state monitor of claim 1, wherein: the inner wall of installation cavity (2) encircles and installs first coiled pipe (16), be equipped with stock solution chamber (15) in installation piece (5), stock solution chamber (15) run through violently the pipe, the left side space of sliding chamber (11) and the bottom space of stock solution chamber (15) are through feed liquor pipe (13) intercommunication, the play liquid end of first coiled pipe (16) and the left side space intercommunication of stock solution chamber (15), the right side of casing (1) is equipped with heat radiation fins (18), be equipped with second coiled pipe (19) in heat radiation fins (18), the feed liquor end of the play liquid end of second coiled pipe (19) and the feed liquor end of first coiled pipe (16) intercommunication, the feed liquor end of second coiled pipe (19) and the left side space intercommunication of sliding chamber (11), all be equipped with the check valve on the feed liquor end of feed liquor pipe (13) and second coiled pipe (19).

3. A deep learning computer state monitor as claimed in claim 2 wherein: the right space of the sliding cavity (11) is communicated with the outside through a short pipe (28).

4. The deep learning computer state monitor of claim 1, wherein: the mounting structure is characterized in that a heat conduction box (22) is arranged at the inner top of the mounting cavity (2), a moving block (23) is arranged in the heat conduction box (22), the moving block (23) is connected with the inner wall of the heat conduction box (22) in a sliding mode, the right side of the moving block (23) and the right side of the heat conduction box (22) are respectively provided with a conductive block (24) which is matched with each other, and two audible and visual alarms (6) are arranged above the mounting block (5).

5. The deep learning computer state monitor of claim 1, wherein: all rotate on the left and right sides inner wall of opening (3) and be connected with connecting rod (26), two connecting rod (26) all are located the top of otter board (4), two the equal fixedly connected with copper ball (27) of looks remote site of connecting rod (26), two the upper end of connecting rod (26) and the left and right sides inner wall of opening (3) all are located left through arc spring (25) elastic connection connecting rod (26) have electric conductivity, the top of otter board (4) is equipped with two conducting rods.

6. A deep learning computer state monitor as claimed in claim 3 wherein: be equipped with the rectangle chamber in installation piece (5), the rectangle intracavity is equipped with movable plate (31), the inner wall sliding connection in movable plate (31) and rectangle chamber, compression spring (32) elastic connection is passed through to the lower extreme of movable plate (31) and the interior bottom in rectangle chamber, the right side space in slip chamber (11) passes through outlet duct (29) intercommunication with the headspace in rectangle chamber, all be equipped with the check valve on nozzle stub (28) and outlet duct (29), hollow slab (33) is installed to the lower extreme of casing (1), the left side slope of hollow slab (33) is equipped with a plurality of gas outlets, hollow slab (33) passes through connecting pipe (30) intercommunication with the headspace in rectangle chamber, be equipped with the solenoid valve on connecting pipe (30).

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