CN110688272B - Fault diagnosis device for detecting internal circuit of computer - Google Patents

Abstract

The invention discloses a fault diagnosis device for detecting a computer internal line, which relates to the technical field of detecting the computer internal line, and specifically comprises a main box, a separated single box, a heat dissipation box and a monitoring box, wherein one side wall of the main box is provided with a socket, the separated single box is inserted and matched in the main box, the head end of the separated single box is symmetrically inserted and connected with single-box telescopic feeler levers, the heat dissipation box is arranged at the bottom of the main box, the monitoring box is assembled below the heat dissipation box, the fault diagnosis device for detecting the computer internal line adopts a combined structure of combining multiple machines, can be used independently and combined into a whole, can be used by a single person, has small and flexible structure, strong variability and convenient carrying, can also be conveniently and directly inserted or placed in the machine box to detect a circuit at a deeper position of the machine box, is provided with an independent monitoring device, and can constantly monitor environmental data in the machine box for a long time or a short time, thereby acquiring more comprehensive in-box data.

Description

Fault diagnosis device for detecting internal circuit of computer

Technical Field

The invention relates to the technical field of computer internal line detection, in particular to a fault diagnosis device for computer internal line detection.

Background

The computer is commonly called as a computer, can perform high-speed and accurate calculation, is one of the most important devices in the 21 st century, comprises a plurality of control modules, and each module is provided with a set of complete circuit system.

The space in the computer is limited, so the detection device is not suitable to be too large, and generally, the detection device is mostly designed into a relatively flexible structure such as a handheld type, a split dual-purpose type and the like.

The existing fault diagnosis device for computer detection is difficult to realize multiple functions, which brings certain trouble to the diagnosis work of a computer, and after all, under the condition of limited inspection equipment, a maintainer cannot find out the cause of the computer fault quickly, and the existing fault diagnosis device for computer detection is difficult to obtain various data of the environment in the computer, such as temperature, smoke content, image and other information.

Disclosure of Invention

In view of the defects of the prior art, the invention provides a fault diagnosis device for detecting a computer internal circuit, which solves the problems in the background art.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a fault diagnosis device for computer internal line detects, includes main box, separation list box, heat dissipation box and monitoring box, socket has been seted up to one side lateral wall of main box, and installs ventilative door in the front of main box and the both sides outside of the back, the separation list box inserts the cooperation in the inside of main box, and the front upper and lower both sides of separation list box are provided with single box display screen and single box operating panel respectively, the power socket has been seted up to one side lateral wall of separation list box, and the position is corresponding between power socket and the socket, the head end symmetry grafting of separation list box has single box flexible probe rod, and the tip of single box flexible probe rod is fixed with the discharge end, the welding has the wire electrode on the discharge end, the heat dissipation box is installed in the bottom of main box, the monitoring box assembles in the below of heat dissipation box, and sets up the display screen standing groove in the middle of the front of monitoring box, the bottom surface both sides of monitoring box have all seted up the ball groove, and the ball inslot cooperation is installed the flexible probe rod of monitoring, the tip of the type ball of buckling is fixed with the monitoring head that the monitoring is even.

Optionally, the front and back both sides surface of main box all is provided with the gate slot, and the cooperation of ventilative door is connected in the gate slot, the front of main box and back both sides internal surface all are fixed with the drier and place the net, and the ventilative door closure is in the outside that the net was placed to the drier.

Optionally, the side of being connected of door and main box is passed through to the gas and is fixed with the strake, and the inside of strake runs through there is torsional spring door-lever to the both ends of torsional spring door-lever are all fixed in the gate slot.

Optionally, the inside of heat dissipation box is provided with the heat dissipation chamber, and the inside in heat dissipation chamber is fixed with the sponge respectively and receives the water layer and presses the net to press the net to cover respectively in the upper and lower both sides surface that the sponge received the water layer.

Optionally, a back plate is fixed to the back of the monitoring box, and spring insertion rods are uniformly fixed to the surface of the back plate in a lattice shape.

Optionally, the internally mounted of display screen standing groove has the monitoring display screen, and is connected with electronic flexible layer between the tank bottom of monitoring display screen's bottom and display screen standing groove to the monitoring display screen passes through electronic flexible layer and monitoring box constitution extending structure.

Optionally, the shrouding is all installed to the notch both sides of display screen standing groove, and the shrouding and the inside torsional spring pole that has run through of monitoring box's side of being connected to the shrouding passes through torsional spring pole and constitutes elasticity hinge structure with monitoring box.

Optionally, the socket has all been run through in the bottom surface four corners of main box, the spread groove has all been run through in the four corners of heat dissipation box, monitoring box all runs through porosely with the connection face four corners of heat dissipation box, and all passes in the hole of monitoring box four corners position, socket and the spread groove and has had the bolt pole.

Optionally, the main box, the heat dissipation box and the monitoring box are connected in series through the plug rod, and the main box, the heat dissipation box and the monitoring box are of a rotatable structure through the plug rod.

Optionally, the head end of the monitoring telescopic feeler lever is fixed with a ball head, and the ball head and the ball groove are matched with each other in size.

The invention provides a fault diagnosis device for detecting internal lines of a computer, which has the following beneficial effects:

1. this computer is fault diagnosis device for inner line detects, the integrated configuration that adopts the multimachine to merge, can reach the exclusive use, can close as an organic whole again, single use, the device structure is small and exquisite nimble, the variability is strong, conveniently carries, also in convenient direct stretching into or putting the quick-witted case, detect the circuit of the darker position of quick-witted case, and be equipped with independent monitoring device in the device, can monitor constantly the incasement environmental data for a long time or on a short term to acquire more comprehensive incasement data.

2. This computer inner line detects uses failure diagnosis device, can see through the air current through the ventilative door, make the moisture can enter into the ventilative door and place the drier contact in the net with the drier, thereby reach the dry purpose to the air current, the drier places the use of net drier, can keep the whole drying of device, and when placing the device in the computer chassis, can be when detecting or monitoring, to the air current dry in the quick-witted case, the setting of torsional spring door lever, make the ventilative door pull open the back, when the pine is handed, can cover back to on the main box automatically.

3. This computer is fault diagnosis device for inner line detects adopts the water-cooling heat dissipation in the heat dissipation box, can be full of cooling liquid in the sponge receives the water layer, presses the net to be used for fixed sponge to receive the water layer, and the sponge receives the intraformational water of water also can the dip-dye to press on the net, utilizes the principle of moisture evaporation for the heat dissipation box can take away the heat of device or computer machine incasement.

4. This computer is fault diagnosis device for inner line detects, folding square rubber tube is established to the electric putter outside cover that the concentration set up and the layer that electrically stretches out and draws back is formed, start the intraformational electric putter that electrically stretches out and draws back, the layer that electrically stretches out and draws back can extend, thereby outwards release the monitoring display screen, borrow this to help looking over the content that shows on the monitoring display screen, and also be convenient for monitor the heat dissipation of display screen, made things convenient for work such as the cleanness to the monitoring display screen simultaneously, maintenance or maintenance.

5. This computer is fault diagnosis device for inner line detects, the shrouding falls back to the display screen standing groove back at the monitoring display screen, protects the outer wall side of monitoring display screen, also can avoid the unexpected emergence that the monitoring display screen outwards inadvertently deviates from simultaneously, and the spring rod of turning round makes the connection of shrouding on the monitoring box have elasticity, can make the shrouding can enough outwards push away, can inwards close back automatically again.

6. This computer is fault diagnosis device for inner line detects mutually supports between ball head and the ball groove and forms rotating-structure, can carry out free angle rotation to the flexible probe rod of monitoring, and the ball type pole of buckling does also buckle to deflect the monitoring head to the direction of difference, in order to realize its more comprehensive monitoring purpose, monitoring probe includes components and parts such as temperature sensor, smoke transducer, camera, borrows this and can gathers computer machine incasement multiple data.

7. This fault diagnosis device is used in computer inner line detection, the socket, the hole of seting up on spread groove and the monitoring box, all be in order to link up main box, heat dissipation box and monitoring box and prepare, utilize the cooperation of being connected between bolt pole and above-mentioned each hole, can be with main box, two liang of connections of heat dissipation box and monitoring box, socket on the bolt pole follow same position, when passing in the hole of seting up on spread groove and the monitoring box, main box, can realize freely deflecting between heat dissipation box and the monitoring box, borrow this adaptation that makes this fault diagnosis device can be better in computer machine case inner chamber.

Drawings

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

FIG. 2 is a rear view of the swivel of the present invention;

FIG. 3 is a schematic view of the main case with the vent door opened;

FIG. 4 is a schematic view of a separator cassette according to the present invention;

FIG. 5 is a schematic view of a heat dissipation case according to the present invention;

FIG. 6 is a schematic view of the monitoring box of the present invention;

FIG. 7 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 8 is an enlarged view of the structure at B in FIG. 1 according to the present invention;

FIG. 9 is an enlarged view of the structure of FIG. 1 at C according to the present invention;

FIG. 10 is an enlarged view of the structure shown at D in FIG. 1 according to the present invention.

In the figure: 1. a main box; 101. a door slot; 102. a socket; 2. a socket; 3. a gas permeable door; 301. a door edge strip; 302. a torsion spring door lever; 4. a desiccant placement screen; 5. separating the single box; 501. a single box display screen; 502. a single-box operating panel; 503. an electric plug port; 6. a single-box telescopic feeler lever; 7. a discharge end; 8. an electrode wire; 9. a heat dissipation box; 901. connecting grooves; 902. a heat dissipation cavity; 10. a sponge water receiving layer; 11. pressing the net; 12. a monitoring box; 1201. a display screen placement groove; 1202. a spherical groove; 13. a back plate; 14. a spring plunger; 15. monitoring a display screen; 16. an electrically-driven telescopic layer; 17. closing the plate; 1701. a torsion spring bar; 18. a latch rod; 19. monitoring the telescopic probe rod; 1901. a round bulb; 20. bending the spherical rod; 21. a monitoring head; 22. the probe is monitored.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed in a specific orientation, and be operated, and thus are not to be construed as limiting the present invention, and furthermore, the terms "first", "second", "third", and the like are only used for descriptive purposes and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate, and those skilled in the art can understand the specific meaning of the above terms in the present invention in specific cases.

Referring to fig. 1 to 10, the present invention provides a technical solution: a fault diagnosis device for detecting internal lines of a computer comprises a main box 1, a single separating box 5, a heat dissipation box 9 and a monitoring box 12, wherein a socket 2 is arranged on the side wall of one side of the main box 1, air-permeable doors 3 are respectively arranged on the outer sides of the front side and the back side of the main box 1, door slots 101 are respectively arranged on the surfaces of the front side and the back side of the main box 1, the air-permeable doors 3 are connected in the door slots 101 in a matching way, drying agent placing nets 4 are respectively fixed on the inner surfaces of the front side and the back side of the main box 1, the air-permeable doors 3 are closed on the outer sides of the drying agent placing nets 4, the air-permeable doors 3 are made of foam materials and have good air permeability, so that air flow can be permeated, moisture can enter the air-permeable doors 3 and contact with drying agents in the drying agent placing nets 4, and the aim of drying the air flow is fulfilled, the air-permeable door 3 is assembled in the door groove 101 and can be rotated to be opened, thereby being convenient for placing a drying agent in the net 4 by the drying agent, the drying agent is used for placing the drying agent in the net 4, the whole drying of the device can be kept, and when the device is placed in a computer case, the air flow in the case can be dried while being detected or monitored, the connecting side of the air-permeable door 3 and the main box 1 is fixed with the door edge strip 301, the torsion spring door rod 302 penetrates through the inside of the door edge strip 301, the two ends of the torsion spring door rod 302 are both fixed in the door groove 101, the torsion spring door rod 302 is arranged, after the air-permeable door 3 is pulled open, when hands are loosened, the air-permeable door can be automatically covered on the main box 1, and the torsion spring door rod 302 is elastically designed, so that the air-permeable door 3 is closed normally and is tight.

The single separation box 5 is inserted and matched in the main box 1, a single box display screen 501 and a single box operation panel 502 are arranged on the upper side and the lower side of the front face of the single separation box 5 respectively, a power plug 503 is arranged on the side wall of one side of the single separation box 5, the power plug 503 corresponds to the power plug 2 in position, a single box telescopic feeler lever 6 is symmetrically inserted into the head end of the single separation box 5, a discharge end 7 is fixed at the end of the single box telescopic feeler lever 6, an electrode wire 8 is welded on the discharge end 7, the single separation box 5 can be taken out of the main box 1, and therefore the single use purpose of the single separation box can be achieved.

The bottom at main box 1 is installed to heat dissipation box 9, the inside of heat dissipation box 9 is provided with heat dissipation chamber 902, and the inside in heat dissipation chamber 902 is fixed with the sponge respectively and receives water layer 10 and press net 11, and press net 11 to cover respectively in the upper and lower both sides surface that the sponge received water layer 10, adopt water-cooling heat dissipation in the heat dissipation box 9, can be full of cooling liquid in the sponge receives water layer 10, press net 11 to be used for fixed sponge to receive water layer 10, the sponge receives the water in the water layer 10 also can dip the pressure net 11 on, utilize the principle of water evaporation, make heat dissipation box 9 can take away the heat of device or computer machine incasement.

Monitoring box 12 assembles in the below of heat dissipation box 9, and monitoring box 12 has seted up display screen standing groove 1201 in the middle of the front, the back of monitoring box 12 is fixed with backplate 13, and the face of backplate 13 is the even spring inserted bar 14 that is fixed with of dot matrix form, backplate 13 and the spring inserted bar 14 of going up intensive setting, be used for fixed and grafting monitoring box 12, thereby can realize fixed point monitoring, the internally mounted of display screen standing groove 1201 has monitoring display screen 15, and be connected with electric telescopic layer 16 between the bottom of monitoring display screen 15 and the tank bottom of display screen standing groove 1201, and monitoring display screen 15 constitutes extending structure through electric telescopic layer 16 and monitoring box 12, it is electric putter mainly that undertakes the electric telescopic role in electric telescopic layer 16, folding square rubber tube is established to the electric putter outside cover of intensive setting and form electric telescopic layer 16, start the electric putter in the electric telescopic layer 16, electric telescopic layer 16 can extend, thereby outwards release monitoring display screen 15, thereby help to look over the content that shows on monitoring display screen 15, and also be convenient for monitoring display screen 15, the maintenance of the heat dissipation work is clean or the monitoring work, etc.

Shrouding 17 is all installed to the notch both sides of display screen standing groove 1201, and shrouding 17 and monitoring box 12's the inside torsion spring pole 1701 that runs through of side of being connected, and shrouding 17 passes through torsion spring pole 1701 and monitoring box 12 constitution elastic hinge structure, shrouding 17 is arranged in monitoring display screen 15 and falls back to in display screen standing groove 1201 after, protect monitoring display screen 15's outer wall side, also can avoid monitoring display screen 15 to outwards carelessly deviate from the unexpected emergence simultaneously, torsion spring pole 1701 makes shrouding 17 connection on monitoring box 12 have elasticity, borrow this and to make shrouding 17 can enough outwards push open, can inwards close back automatically again, ball groove 1202 has all been seted up to the bottom surface both sides of monitoring box 12, and ball groove 1202 fit in installs monitoring telescopic probe 19, the head end of monitoring telescopic probe 19 is fixed with ball head 1901, and ball head 1901 and ball groove 20 and ball groove mutually support size mutually between the monitoring probe 20 and bend the monitoring probe 20 and have monitoring camera head 21 and have the monitoring camera head of monitoring ball head 20 to buckle the monitoring probe 20 and carry out the bending type and calculate the terminal of the sensor 20 and have the monitoring camera head of the monitoring ball 19 and buckle the monitoring probe 20 and carry out the bending type.

The four corners of the bottom surface of the main box 1 are all penetrated with the jacks 102, the four corners of the heat dissipation box 9 are all penetrated with the connecting grooves 901, the four corners of the connecting surface of the monitoring box 12 and the heat dissipation box 9 are all penetrated with holes, the holes at the four corners of the monitoring box 12 are all penetrated with the plug rods 18, the jacks 102, the connecting grooves 901 and the holes formed in the monitoring box 12 are all prepared for connecting the main box 1, the heat dissipation box 9 and the monitoring box 12, the main box 1, the heat dissipation box 9 and the monitoring box 12 are mutually connected in series through the plug rods 18, the main box 1, the heat dissipation box 9 and the monitoring box 12 form a rotatable structure through the plug rods 18, the plug rods 18 are matched with the holes, the main box 1, the heat dissipation box 9 and the monitoring box 12 can be connected in pairs, when the plug rods 18 penetrate through the holes formed in the jack 102, the connecting grooves 901 and the monitoring box 12 at the same position, namely, only one plug rod 18 is arranged on the main box 1, the heat dissipation box 9 and one monitoring box 12 as a connecting piece, the plug rods 18, the main box 1 and the monitoring box 12 can be matched with a fault diagnosis machine case, and the fault diagnosis device can be freely adapted between the monitoring box 12, and the fault diagnosis machine case can be further realized.

In summary, before the computer fault diagnosis device for internal line detection is used, the air permeable door 3 needs to be opened, a sufficient amount of desiccant is put into the desiccant placing net 4, then the air permeable door 3 is closed and tightly closed, then the main box 1 is turned open by the latch rod 18, that is, as shown in the state of fig. 2, a syringe is used for filling water into the sponge water receiving layer 10 in the heat dissipation box 9, the water filling is stopped when the sponge water receiving layer 10 is slightly pressed to discharge water, then the main box 1 is turned back, and the four corners of the main box 1, the heat dissipation box 9 and the monitoring box 12 all penetrate through the latch rod 18, so that the main box 1, the heat dissipation box 9 and the monitoring box 12 can be connected into an integral structure;

the fault diagnosis device can be used separately, namely the separated single box 5 on the main box 1 can be pulled out, after the separated single box 5 is pulled out, a main machine in the separated single box 5 can be operated through the single box operation panel 502 on the separated single box 5, data information is displayed through the single box display screen 501, and the length of the single box telescopic probe rod 6 can be stretched, so that the discharge end 7 at the end part of the single box telescopic probe rod 6 can extend into any depth position in a machine case, the electrode wire 8 is charged through discharging of the discharge end 7, and whether the circuit is communicated or not can be detected by using the charged electrode wire 8;

the plug rod 18 is taken down, the monitoring box 12 can be placed in a computer case, short-term or long-term monitoring tasks are executed, the monitoring box 12 can be inserted into positions such as a heat dissipation port in the computer case through the spring plug rod 14 on the back face of the monitoring box 12, the monitoring box 12 is fixed in the computer case, then, in combination with actual conditions, the monitoring telescopic probe rod 19 is rotated angularly by utilizing the rotating fit between the spherical head 1901 and the spherical groove 1202, the bent spherical rod 20 is bent, finally, the monitoring head 21 is swung to a proper direction, all data in the computer case can be measured after all monitoring probes 22 (including components such as a temperature sensor, a smoke sensor and a camera) on the monitoring head 21 work, and because the monitoring box 12 can be fixed at the bottom of the computer case, an electric push rod arranged in the electric telescopic layer 16 can be started, so that the electric telescopic layer 16 is extended, the monitoring display screen 15 is ejected outwards, and the monitoring display screen 15 after the monitoring is conveniently checked, the monitoring is replaced, the heat dissipation is larger, the maintenance is better than the maintenance and the improvement is better;

this failure diagnosis device can realize drying and heat dissipation function, promptly, the incasement moisture can enter into the drier through ventilative door 3 and place net 4 to place the drier contact in the net 4 with the drier, thereby reduced air humidity, the heat that device self produced and the incasement heat can be conducted to the heat dissipation box 9 in, receive the water in the water layer 10 through the evaporation sponge, reach the refrigerated effect of cooling down.

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 considered as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (10)

1. The utility model provides a computer inner line detects uses failure diagnosis device, includes main box (1), separation list box (5), heat dissipation box (9) and monitoring box (12), its characterized in that: the monitoring device is characterized in that a socket (2) is formed in the side wall of one side of the main box (1), air-permeable doors (3) are mounted on the outer sides of the front side and the two sides of the back side of the main box (1), the single separating box (5) is inserted and matched in the main box (1), a single box display screen (501) and a single box operating panel (502) are respectively arranged on the upper side and the lower side of the front side of the single separating box (5), a power plug (503) is formed in the side wall of one side of the single separating box (5), the power plug (503) corresponds to the socket (2), a single box telescopic feeler lever (6) is symmetrically inserted into the head end of the single separating box (5), a discharge end (7) is fixed on the end of the single box telescopic feeler lever (6), an electrode wire (8) is welded on the discharge end (7), the heat dissipation box (9) is mounted at the bottom of the main box (1), the monitoring box (12) is assembled below the heat dissipation box (9), a display screen placing groove (12) is formed in the middle of the front side of the monitoring box (12), monitoring ball (19) is formed in the monitoring box, monitoring ball (19) is welded on the bottom of the monitoring box (12), a monitoring ball (19), a monitoring ball head (1202) is fixed with a telescopic feeler lever (1202), and a telescopic feeler lever (19) matched with a bent and a bent feeler lever (1202), and the outer wall of the monitoring head (21) is uniformly fixed with a monitoring probe (22).

2. The fault diagnosis device for computer internal line detection according to claim 1, wherein: the front and back both sides surface of main box (1) all is provided with door slot (101), and air-permeable door (3) cooperation is connected in door slot (101), the front and back both sides internal surface of main box (1) all is fixed with the drier and places net (4), and air-permeable door (3) are closed and are placed the outside of net (4) at the drier.

3. The fault diagnosis device for computer internal line detection according to claim 2, wherein: the connection side of door (3) and main box (1) is fixed with door strake (301) to gas passing through, and the inside of door strake (301) runs through torsional spring door pole (302) to the both ends of torsional spring door pole (302) are all fixed in door slot (101).

4. The fault diagnosis device for computer internal line detection according to claim 1, wherein: the heat dissipation box (9) is internally provided with a heat dissipation cavity (902), a sponge water receiving layer (10) and a pressure net (11) are respectively fixed in the heat dissipation cavity (902), and the pressure net (11) respectively covers the upper side surface and the lower side surface of the sponge water receiving layer (10).

5. The fault diagnosis device for computer internal line detection according to claim 1, wherein: the back of monitoring box (12) is fixed with backplate (13), and the face of backplate (13) is the lattice form and evenly is fixed with spring inserted bar (14).

6. The fault diagnosis device for computer internal line detection according to claim 1, wherein: the monitoring display screen comprises a display screen placing groove (1201), wherein a monitoring display screen (15) is arranged inside the display screen placing groove (1201), an electric telescopic layer (16) is connected between the bottom of the monitoring display screen (15) and the groove bottom of the display screen placing groove (1201), and the monitoring display screen (15) and a monitoring box (12) form a telescopic structure through the electric telescopic layer (16).

7. The fault diagnosis device for computer internal line detection according to claim 6, wherein: shrouding (17) are all installed to the notch both sides of display screen standing groove (1201), and shrouding (17) and the inside torsional spring pole (1701) that has run through of the side of being connected of monitoring box (12) to shrouding (17) pass through torsional spring pole (1701) and monitoring box (12) constitution elastic hinge structure.

8. The fault diagnosis device for computer internal line detection according to claim 1, wherein: jacks (102) are all penetrated through four corners of the bottom surface of the main box (1), connecting grooves (901) are all penetrated through four corners of the heat dissipation box (9), holes are all penetrated through four corners of the connecting surface of the monitoring box (12) and the heat dissipation box (9), and plug pin rods (18) are all penetrated through the holes at the four corners of the monitoring box (12), the jacks (102) and the connecting grooves (901).

9. The fault diagnosis device for computer internal line detection according to claim 8, wherein: main box (1), heat dissipation box (9) and monitoring box (12) are concatenated each other through bolt pole (18), and main box (1), heat dissipation box (9) and monitoring box (12) all constitute rotatable structure through bolt pole (18) between two liang.

10. The fault diagnosis device for computer internal line detection according to claim 1, wherein: the head end of the monitoring telescopic probe rod (19) is fixed with a round ball head (1901), and the size of the round ball head (1901) is matched with that of the round ball groove (1202).

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