JP6735982B1 - Deformable computer protection box structure - Google Patents

Abstract

The present invention discloses a deformable computer protection box structure, wherein the box structure includes a movable box and a deformation housing, and by changing the deformation of the deformation housing, the heat dissipation state for normal use and the protection state for earthquake resistance and fire prevention are automatically set. High switching and safety, at the same time, by using members such as heat dissipation port members, the fire protection effect of the box is further enhanced, and the fire protection effect is excellent.

Description

The present invention relates to the technical field of computer equipment, and more particularly to a deformable computer protection box structure.

The explosion and fire at the Kyoto Animation Studios in Japan is a big loss to Kyoto Animation and the industry as a whole, and this fire has lost much of the effort of Kyoto Animation and workers,
By developing a box structure that automatically protects the computer and realizing the automatic protection function of the computer, designers and the like can quickly choose to protect themselves without worrying about the computer equipment and damage. The number of workers can be reduced to some extent.

It turns out that the existing box structure does not have the ability to systematically and comprehensively protect the computer, and furthermore, wrapping the protective case directly on the outside of the computer not only greatly affects its aesthetic appearance, but also the computer Box structure that helps to dissipate heat, thus effectively protecting your computer without affecting appearance or performance, protecting your computer, reducing damage to your computer by fire or earthquake, and preventing computer damage Is required,
Avoid immeasurable losses.

To solve the above technical problem, the present invention provides a deformable computer protection box structure.

The deformable movable box equipped with a computer motherboard has one heat dissipation opening for heat dissipation and ventilation on the left, right, top, and bottom sides, and a heat dissipation port member for adjustment and heat dissipation is provided in the opening. Mounted on the center of the movable box is a carrier board for mounting the computer motherboard and related components.A sensor and a single-chip microcomputer embedded on one side of the movable box monitor the smoke temperature, The deformation housing for controlling the assembly to drive the rotational expansion and contraction of the movable box and deforming to switch between heat dissipation and protection includes a first deformation plate symmetrically provided on the upper and lower side surfaces of the movable box and front and rear side surfaces of the movable box. A second deformation plate symmetrically provided on the first deformation plate and a third deformation plate symmetrically provided on both sides of the first deformation plate,
The slide slots located above the first deformation plate and the second deformation plate are connected to the movable rod of the corner connector, the transmission plate, the gear rod, and the driving gear, and the motor assembly located at the center of the two second deformation plates is Removably connected to both sides of the movable box, 2
An arcuate drive rail located on one of the first deformable plates, the arcuate drive rail comprising two sets of rail grooves located on the arcuate drive rail, sliders respectively provided in the grooves,
It includes a groove located in the center of the arc-shaped drive rail for accommodating the transmission member, and the transmission member is movably connected to both ends of the center rotating rod for driving the operation of the movable rods on both sides. And a transmission gear provided at a position corresponding to the center rotating rod in the center of the arc-shaped drive rail, the transmission gear penetrating the arc-shaped drive rail and connected to the center of the center rotation rod. , A torsion spring for rotation and recovery is provided at the connection point,
An arcuate rack is provided in the chute of an arcuate drive rail, the end of which is connected to a slider and is transmitted by a transmission gear.
The third deformable plate is connected to the first deformable plate via a hinge, and is also connected to the outer ends of the movable rods via a rotating shaft. It is mixed with a slider and transmitted.

The deformation structure design of the present invention is used to solve the computer protection problem in case of heat dissipation and danger by deformation switching, and the main technical problem to be solved is to reduce driving parts and cause deformation failure. The third deformable plate is opened and closed by rotating the arc-shaped drive rail, the transmission member, and the movable box provided in the first deformable plate, and the first deformable plate is lifted and lowered by the transmission structure in the second deformable plate. The above transmission structure is connected to the motor assembly, and the structural deformation of the protective box can be effectively realized by single drive or dual drive, provided that the motor assembly is on one side of the movable box and the other side is on the other side. The mode in which the rotating shaft is provided is single drive, the motor output of the motor assembly is high,
There is a high demand for UPS power supply, the installation mode in which the motor assembly is provided on each side of the movable box is dual drive, the motor output of the motor assembly is small,
Since the demand for the UPS power source is low, it may be appropriately arranged according to the actual needs.

Further, the motor assembly includes a reinforced connection socket and a rotation assembly in which the motor assembly is threadedly connected to the inner wall of the second deformation plate through the socket and is located at the bottom of the socket, and the output end of which is connected to the large electric push rod. A motor and a large electric push rod, the output end of which is bolted to the corresponding side of the movable box through a connector and is rotatably connected to the upper portion of the socket, where the rotary motor, large size Each electric push rod is connected to the single chip microcomputer via a relay. The present invention integrates the rotary motor and the large electric push rod by the socket design, enhances the connection stability with the deformed housing, and is also convenient for daily disassembly and maintenance.

Furthermore, the box structure further includes a shock absorption protection sheet provided on the inner walls of the first, second, and third deformation plates for shock absorption, and the shock absorption protection sheet includes inner walls of the first, second, and third deformation plates. A fixed plate fixed to one side and a soft pad connected to the fixed plate via a shock absorbing spring are included. The present invention effectively improves the protective effect of the deformable housing on the movable box by adding the shock absorbing protective sheet, and the deformable housing may collide with a heavy object and sink. It can absorb class impact and minimize damage to the movable box.

In addition, the box structure further includes a UPS power supply installed in the moveable box and is connected to the motor assembly and the power supply of the computer. The present invention installs a UPS power supply and cooperates with a box structure to satisfy the data storage of a computer and the power supply request for the box deformation drive in the event of a power failure in the event of an earthquake or fire, and the box for various emergency situations. The protection effect of can be further improved.

Further, the heat dissipation port member mainly includes the following, and a plurality of sets of rotating blades connected to the inner wall side plate of the heat dissipation opening via a rotating shaft switches between ventilation and closing of the movable box, and its side wall has liquid carbon dioxide. A spraying part of the nozzle for spraying, a joining part for merging adjacent rotating blades is provided, and a trigger interface for guiding air to the edges of the upper and lower end surfaces of the rotating blades is provided, and the trigger interface is provided thereon. The duct provided with the guide and embedded in the middle layer of the movable box has the trigger head that penetrates the inner wall side plate of the heat dissipation opening at a position corresponding to the position after the rotation of the trigger interface. A dry ice fire extinguisher tank, which is connected through a duct and a pipeline, is located in the slot tank located at, provided that a protective door made of asbestos plate is provided in the external gap of the slot tank, An electric push rod is connected to the single chip microcomputer via a relay. According to the present invention, the heat dissipation port member can adjust the heat dissipation and the closing of the heat dissipation opening, cooperate with the trigger guide, and by the action of the trigger head, spray the dry ice inside and outside the movable box to cool and extinguish the fire. Realize, delay the time as much as possible to reduce the thermal damage of the movable box, and in case of fire, the closed movable box reduces the impact of the fire on the computer core and maximizes computer protection.

According to an aspect of the present invention, the heat dissipation port member adopts a transmission structure of an adjustment gear and a linear rack, which is located on the inner wall of the heat dissipation opening and is connected to the rotating shaft, and the outer side of which is meshable. Including a straight line rack, both sides of the straight line rack are limited and fixed by guide grooves provided on the inner wall of the movable box, one end of which is connected to the output end of a small electric push rod provided on the inner wall of the movable box. , The small electric push rod drives each rotating blade to rotate it flat, and this transmission structure is suitable when the dry ice fire extinguisher tank has a small tank size (the pressure inside the tank is small). A cylindrical spring suitable for the case and having a small elastic force is selected accordingly, and a corresponding transmission structure is selected according to the size of the accommodation space of the actual dry ice fire extinguisher tank.

According to an aspect of the present invention, the heat dissipation port member adopts a transmission structure of a rotation block and a transmission rod, which is located on the inner wall of the heat dissipation opening and is connected to the rotation shaft. And a transmission rod connected via a lever, the lever is slidably connected to the transmission rod via a lever chute, both sides of the transmission rod are limited and fixed by guide grooves provided on the inner wall of the movable box, and one end of which is fixed. It is connected to the output end of a small electric push rod provided on the inner wall of the movable box, and by this transmission structure, each rotating blade is driven by the small electric push rod to rotate flat, and this transmission structure is the tank of the dry ice fire extinguisher tank. Suitable for large size (high pressure in the tank), suitable for large spray amount and large case, select a cylindrical spring with large elastic force accordingly, and the size of the actual storage space of the dry ice fire extinguisher tank Depending on, select the corresponding transmission structure.

Furthermore, the trigger guide is located in the center of the guide plate that guides the gradual contraction of the movable plunger, communicates with the trigger interface, and is composed of an upper outer holding groove and a lower inner holding groove. Includes a two-stage fitting head to limit the jar to sealing. The guide plate enhances the push effect of the trigger head by the trigger guide, improves the transmission efficiency of the transmission structure, and the two-stage fitting head allows a movable plan. It controls the trigger stroke of the jar and embeds its front end to a certain depth between the outer holding groove and the inner holding groove to close the joint, which allows the dry ice agent to be smoothly introduced to the rotating rotating blade. , The effect achieved by the device is improved.

Furthermore, the trigger head is a nozzle cylinder for guiding and controlling ejection, a movable plunger that is movably sealed and connected to the front end of the nozzle cylinder, and a liquid discharge port that joins with a trigger interface provided at the front end. , A liquid guide port for guiding the injection according to the expansion and contraction depth of the movable plunger provided in the rear circumferential direction, an end piece is provided at the rear end of the movable plunger, and a rear end of the movable plunger is provided. Connected via a provided retaining ring and a cylindrical spring, the design of the above structure allows the movable plunger to be pushed under the action of the trigger guide to achieve a pressure nozzle-like action, which results in the action of the trigger guide. Releases the dry ice agent to ensure the functioning of the heat dissipation port member.

Furthermore, the box structure is provided at the joint of the rotating blades, and is filled with a magnetic material inside so as to have magnetism, which enhances the sealing effect of the adsorbing joint of the adjacent rotating blades, and the heat dissipation opening outside. Further equipped with a dustproof net slidably connected to the outer wall of the movable box through a slot groove and detachably connected, and the rotary blade has a straight plate type, a diamond type, an arc type, and is formed of stainless steel. Will be
It is not limited to these outer shapes and materials. The seal strip improves the sealing effect of adjacent butt joints of rotating blades, and at the same time suctions the rotating blade material by the action of the magnetic material, further improving the sealing effect of butt joints and the mode switching effect of the rotating blades. Increase.

The present invention has the following beneficial effects.
(1) The present invention solves the computer protection problem in case of heat dissipation and danger of the computer by the design of the deformed structure, and according to the operation of the single drive or dual drive, the deformation switching can be realized, and the appearance of the computer can be improved. It has the advantages that it does not affect heat dissipation and that it has a high computer protection effect in the event of an earthquake or fire.
(2) According to the present invention, by designing and installing a heat dissipation port member structure, heat dissipation and closing adjustment of a heat dissipation opening is realized, and in cooperation with a trigger guide, a trigger head acts to dry inside and outside a movable box for closing. Sprays ice to reduce the temperature and extinguish the fire, delay the time as much as possible to reduce the heat damage to the movable box, and maximize the computer protection.

It is the external appearance figure 1 of the whole structure of the box modification 1 of invention. FIG. 3 is an external view 2 of the overall structure of the second modification of the invention. It is a front view of the overall structure of the box of Example 1 of the invention. It is a whole structure side view of the box modification 1 of Example 1 of invention. It is a side view of the internal structure of the box modification 1 of Example 1 of invention. It is an overall structure side view of the box modification 2 of Example 1 of invention. It is a side view of the internal structure of the box modification 2 of Example 1 of invention. It is a schematic diagram of an internal structure of the 1st modification plate of the invention. It is a schematic diagram of the internal structure of the 2nd deformation|transformation plate of invention. It is a schematic diagram of a structure of an arcuate drive rail of the invention. It is a structure schematic diagram of the transmission member of invention. It is a structure schematic diagram of the motor assembly of invention. It is a front view of the entire structure of a second embodiment of the invention. It is a structure schematic diagram of the movable box inner side wall of Example 2 of invention. FIG. 15 is an enlarged view of the structure of FIG. 14A of the invention. It is a partial structure top view which shows the transmission relationship of the linear rack and adjustment gear of invention. It is a partial structure schematic diagram of the rotary blade of invention. It is a structure schematic diagram of the nozzle cylinder of invention. It is a structure schematic diagram of the trigger guide of invention. It is a structure schematic diagram of the inner wall of the movable box of Example 3 of invention. FIG. 21 is an enlarged view of the structure of B of FIG. 20 of the invention. It is a partial structure top view which shows the transmission relationship of the transmission rod of an invention, and a rotation block. It is a whole structure front view of the box of Example 4 of invention. It is a whole structure side view of the box of Example 4 of invention. FIG. 25 is an enlarged view of the structure of FIG. 24C of the invention.

[Explanation of symbols]
1 Movable Box 11 Heat Dissipation Opening 12 Push Block 13 Sensor 14 Single Chip Microcomputer 15 Guide Groove 16 Dustproof Net 17 Slot Tank 18 Protective Door 19 Carrier Board 2 Deformed Housing 21 First Deformed Plate 22 Second Deformed Plate 23 Third Deformed Plate 3 Heat dissipation port member 31 Rotating blade 311 Trigger interface 312 Nozzle 32 Duct 321 Trigger head 33 Adjusting gear 34 Linear rack 35 Small electric push rod 36 Dry ice fire extinguisher tank 37 Nozzle cylinder 371 Movable plunger 372 Liquid discharge port 373 Liquid guide port 374 end Piece 375 Retaining ring 376 Cylindrical spring 38 Trigger guide 381 Two-step fitting head 382 Guide plate 383 Outer retaining groove 384 Inner retaining groove 39 Transmission rod 391 Rotating block 392 Transmission ring 393 Lever 394 Lever chute 4 Corner connector 41 Slide slot 42 Movable rod 43 transmission plate 44 gear rod 45 drive gear 5 motor assembly 51 rotary motor 52 large electric push rod 53 socket 6 arcuate drive rail 61 rail groove 62 slider 63 groove 64 chute 7 transmission member 71 center rotation rod 72 movable rod 73 transmission gear 74 Arc-shaped rack 75 Torsion spring 8 Shock absorption protection sheet 81 Fixing plate 82 Shock absorption spring 83 Soft pad

Example 1
As shown in FIG. 3, the movable box 1 on which a computer motherboard is mounted and which can be deformed is
On the left, right, upper and lower sides, one heat dissipation opening 11 is provided for heat dissipation and ventilation,
A heat dissipation port member 3 for adjustment and heat dissipation is mounted in the opening, and a carrier board 19 for mounting a computer motherboard and related members is provided in the center of the movable box 1.

As shown in FIGS. 3 and 14, the sensor 13 and the single-chip microcomputer 14 embedded on one side surface of the movable box 1 monitor the temperature of smoke and control the motor assembly 5 to rotate and expand the movable box 1. To drive.

As shown in FIG. 12, the motor assembly 5 includes a reinforced connection socket 53, and the motor assembly 5 is screw-connected to the inner wall of the second deformable plate 22 through the socket 53, and is located at the bottom of the socket 53. A rotary motor 51 connected to a large electric push rod 52
, And the output end is connected to the corresponding side surface of the movable box 1 with a bolt through a connector, and the socket 5
A large electric push rod 52 located on top of 3 and rotatably connected;
The rotary motor 51 and the large electric push rod 52 are connected to the single chip microcomputer 14 via relays. The present invention, by the design of the socket,
The rotary motor and large electric push rod are integrated to improve the connection stability with the deformed housing,
At the same time, it is convenient for daily disassembly and maintenance.

As shown in FIGS. 4 to 7, a deformable housing 2 for deforming and switching between heat dissipation and protection includes a first deformable plate 21 symmetrically provided on the upper and lower side surfaces of the movable box 1 and front and rear side surfaces of the movable box 1. A slide that includes a second deforming plate 22 that is symmetrically provided and a third deforming plate 23 that is symmetrically provided on both sides of the first deforming plate 21, and is located above the first deforming plate 21 and the second deforming plate 22. The slot 41 is a movable rod 42 of the corner connector 4,
The motor assembly 5 connected to the transmission plate 43, the gear rod 44, and the drive gear 45 and located at the center of the two second deformable plates 22 is detachably connected to both sides of the movable box 1.
An arcuate drive rail 6 located on one of the first deformable plates 21 is provided.

As shown in FIG. 10, the arc-shaped drive rail 6 includes two sets of rail grooves 61 located on the arc-shaped drive rail 6, sliders 62 respectively provided in the grooves, and a center of the arc-shaped drive rail 6. And a groove 63 for receiving the transmission member 7.

As shown in FIG. 11, the transmission member 7 includes a center rotating rod 71 for driving the operation of the movable rods 72 on both sides, a movable rod 72 movably connected to both ends of the center rotating rod 71, and an arcuate drive. A transmission gear 73 is provided at a position corresponding to the central rotation rod 71 in the center of the rail 6, and the transmission gear 73 penetrates the arc-shaped drive rail 6 and the central rotation rod 7
1, a torsion spring 75 for rotation and recovery is provided at the connection point, an arcuate rack 74 is provided in the chute 64 of the arcuate drive rail 6, and its end is connected to the slider 62. , Is transmitted by the transmission gear 73.

As shown in FIG. 3, the third deformable plate 23 is connected to the first deformable plate 21 via a hinge, is connected to the outer end of the movable rod 72 via a rotating shaft, and is provided at four corners of the movable box 1. The push block 12 is mixed with the slider 62 of the arc-shaped drive rail 6 and is transmitted.

The UPS power supply provided in the movable box 1 is connected to the motor assembly 5 and the power supply of the computer. The present invention installs a UPS power supply and cooperates with a box structure to satisfy the data storage of a computer and the power supply request for the box deformation drive in the event of a power failure in the event of an earthquake or fire, and the box for various emergency situations. The protection effect of can be further improved.

The deformation structure design of the present invention is used to solve the computer protection problem in case of heat dissipation and danger by deformation switching, and the main technical problem to be solved is to reduce driving parts and cause deformation failure. The rotation of the arcuate drive rail 6, the transmission member 7, and the movable box 1 provided in the first deformable plate 21 realizes the opening and closing of the third deformable plate 23, and the transmission structure in the second deformable plate 22. The first deforming plate 21 can be lifted and lowered, and the above transmission structure is connected to the motor assembly 5, so that the structural deformation of the protective box can be effectively realized by single drive or dual drive, provided that one side of the movable box 1 is provided. The mode in which the motor assembly 5 is provided with the rotary shaft on the other side is single drive, the motor output of the motor assembly 5 is high, the demand for the UPS power supply is high, and the motor assemblies 5 are provided on both sides of the movable box 1. The available installation mode is dual drive, the motor output of the motor assembly 5 is small, and the demand for the UPS power supply is low, so it may be appropriately arranged according to actual needs.

The operating method of the above box structure is as follows.
The normal use state of the box structure of the present invention is shown in FIG. 1, and the seismic and fire protection state is shown in FIG.
In the event of an earthquake or fire, the single chip microcomputer 14 is used to process and send a command to activate the motor assembly 5 in the event of an earthquake or fire, provided that the sensor 13 is a smoke sensor, A temperature sensor and a knock sensor are included, but the present invention is not limited to these, and other sensors may be added depending on the actual situation of the usage area.

When the motor assembly 5 is activated, the rotary motor 51 and the large electric push rod 52 are simultaneously activated to rotate the movable box 1, and at the same time, the second deformable plates 22 on both sides are also movable under the driving action of the large electric push rod 52. The first deformable plates 21 on the upper and lower sides are also folded into the movable box 1 under the rotating action of the transmission structure in the second deformable plate 22, and the movable box 1 is an arc-shaped drive rail of the first deformable plates 21 on the upper and lower sides. When it is rotated up to 6, the corresponding push block 12 pushes the slider 62 to move it to the other end along the rail groove 61, drives the arcuate rack 74 during movement, moves it along the chute 64, and meshes with the transmission gear 73. , The transmission gear 73 rotates to rotate the central rotating rod 71 to the horizontal position, and then the movable rods 72 on both sides are pulled and reset, and the third deforming plates 23 on both sides of the first deforming plate 21 are closed. The operating principle of the transmission structure in the second deformable plate 22 is as follows. When the rotary motor 51 is activated, the drive gear 45 rotates to move the gear rods 44 on both sides inward, so that the transmission plate 43 is penetrated. The movement of the first deformable plate 21 is adjusted to pass through the slot.

By folding the first deformable plate 21, the second deformable plate 22, and the third deformable plate 23, the normal state of FIG. 1 is switched to the protected state of FIG. 2, and the deformable housing 2 protects and isolates the movable box 1 to a certain degree. It has earthquake resistance and fire protection.

Example 2
This embodiment is basically the same as the first embodiment except that the heat dissipation port member 3 is added.
As shown in FIGS. 13 and 14, the heat dissipation port member (3) mainly includes:
), a plurality of sets of rotating blades (31) connected to the side wall of the inner wall of the movable blade (31) via a rotating shaft switches between ventilation and closing of the movable box (1), and nozzles (312) for spraying liquid carbon dioxide on the side walls thereof. ) Spraying section, a joint for adjoining rotating blades (31) is provided,
Trigger interfaces (311) for guiding air are provided at the edges of the upper and lower end surfaces of the rotary blade (31), and a trigger guide (38) is provided on the trigger interface (311) and embedded in the intermediate layer of the movable box (1). The duct (32) is connected to the trigger interface (311
) Is rotated, a trigger head (321) penetrating the inner wall side plate of the heat dissipation opening (11) is provided at a position corresponding to the position, and inside the slot tank (17) located at the lower rear side of the movable box (1). A dry ice fire extinguisher tank (36) connected to the duct (32) via a pipeline, provided that a protective door (18) made of asbestos plate is provided in the outer gap of the slot tank (17). A small electric push rod (35) is provided and is connected to the single chip microcomputer (14) via a relay.

As shown in FIGS. 13 and 17, the seal strip (36) is provided at a joint portion of the rotating blades (31) and is filled with a magnetic material so as to have magnetism.
), the dustproof net (16) is provided outside the heat dissipation opening (11) and is slidably connected to the outer wall of the movable box (1) through a slot groove so that the dustproof net (16) can be rotated. The blade (31) has a straight plate type, a diamond type, an arc type, and is made of stainless steel. The sealing strip 36 improves the sealing effect of the adjacent butted joints of the rotary blades 31 and at the same time sucks the rotary blade 31 material by the action of the magnetic material to further improve the sealing effect of the butted joints. Enhance the mode switching effect.

As shown in FIGS. 15 and 16, the heat dissipation port member 3 adopts the transmission structure of the adjustment gear 33 and the linear rack 34, which is located on the inner wall of the heat dissipation opening 11 and is connected to the rotary shaft. A small electric push rod 35, which includes a linear rack 34 that can be engaged and is fixed and fixed on both sides of the linear rack 34 by the guide grooves 15 provided on the inner wall of the movable box 1, and has one end provided on the inner wall of the movable box 1. It is connected to the output end of and by this transmission structure,
The rotary blades 31 are driven by the small electric push rods 35 to rotate flat, and this transmission structure is suitable when the tank size of the dry ice fire extinguisher tank 36 is small (the pressure inside the tank is small), and the spray amount is small. A cylindrical spring 376 suitable for a small case and having a small elastic force is selected accordingly, and a corresponding transmission structure is selected according to the size of the accommodation space of the actual dry ice fire extinguisher tank 36.

As shown in FIG. 19, the trigger guide 38 is located in the center of the guide plate 382 and the guide plate 382 for guiding the gradual contraction of the movable plunger 371, communicated with the trigger interface 311, and the outer holding groove 383 and the lower outer holding groove 383. The inner holding groove 384,
A two-stage fitting head 381 for sealing and limiting the movable plunger 371 is included, and the guide plate 382 enhances the push effect of the trigger head 321 by the trigger guide 38, thereby improving the transmission efficiency of the transmission structure and increasing the two-stage. Type fitting head 381
Thereby controlling the trigger stroke of the movable plunger 371, embedding the front end of the movable plunger 371 to a certain depth between the outer holding groove 383 and the inner holding groove 384, and playing a role of closing the joint.
As a result, the dry ice agent is smoothly introduced into the rotating blade 31 and the effect achieved by the apparatus is improved.

As shown in FIG. 18, a trigger head 321 is provided at a front end of a nozzle cylinder 37 for guiding and controlling injection, a movable plunger 371 positioned at the front end of the nozzle cylinder 37 and movably sealed and connected. Liquid discharge port 3 to be joined with trigger interface 311
72, a liquid guide port 373 for guiding the injection according to the expansion and contraction depth of the movable plunger 371 provided in the rear circumferential direction, and an end piece 374 is provided at the rear end of the movable plunger 371 and is movable. The plunger 371 is connected to a retaining ring 375 provided at the rear portion of the plunger 371 via a cylindrical spring 376, and the design of the above structure pushes the movable plunger 371 under the action of the trigger guide 38, thereby acting as a pressure nozzle. Achieved, by this, the dry ice agent is released by the action of the trigger guide 38, and the function implementation of the heat dissipation port member is guaranteed.

The present invention realizes the heat dissipation and closing adjustment of the heat dissipation opening 11 by installing the heat dissipation port member 3, cooperates with the trigger guide 38, and the dry ice inside and outside the movable box 1 that is closed by the action of the trigger head 321. To reduce the heat damage to the movable box 1 by delaying the time as much as possible to reduce the heat damage to the movable box 1 and to reduce the influence of the fire on the computer core part by the movable box 1 which is closed in the event of a fire to protect the computer to the maximum extent. ..

The operation method of the above box structure is as follows. When the sensor 13 detects smoke and temperature anomaly, the single-chip microcomputer 14 recognizes and activates the small electric push rod 35 via the relay, and the rotary blade 31 is rotated by the transmission structure to join with the adjacent rotary blade 31. At the same time, the trigger head 321 is triggered by the trigger guide 38, the dry ice agent in the dry ice fire extinguisher tank 36 is introduced into the rotary blade 31 along the pipeline, the duct 32, and the trigger head 321, and the rotary blade 31 is sprayed. The dry ice agent is sprayed by the nozzles 312 on both the inside and outside of the unit to cool and extinguish the inside and outside of the movable box 1 to maximize the protection, prolong the rescue time, reduce the damage to the computer and prevent more serious loss.

However, the operation method of the transmission structure that employs the adjustment gear 33 and the linear rack 34 is as follows. When the small electric push rod 35 is activated, the linear rack 34 is moved, and the meshing action of the linear rack 34 and the adjustment gear 33 causes the linear rack 34 to move. , Each adjusting gear 33 is rotated, and each rotating blade 31 is rotated.

The operation principle of the trigger guide 38 and the trigger head 321 is as follows, and when the rotary blade 31 rotates, the guide plate 382 of the trigger guide 38 moves the movable plunger 3.
71, and gradually rises along the inclination of the guide plate 382, and the liquid guide port 373.
Is compressed until it rises to the communicating position of the nozzle cylinder 37, and continues to move after that, a part of the front end of the movable plunger 371 enters the inside of the two-step fitting head 381, and the front end thereof is the wall of the inner holding groove 384. And the dry ice agent is introduced into the rotary blade 31 by the liquid guide port 382, the movable plunger 371, the liquid discharge port 372, and the two-stage fitting head 381.

Example 3
This embodiment is basically the same as the third embodiment except that the transmission structure of the heat dissipation port member 3 using the adjustment gear 33 and the linear rack 34 is replaced by the transmission structure of the rotation block 391 and the transmission rod 39. is there.

As shown in FIGS. 20 to 22, a rotation block 391 located on the inner wall of the heat dissipation opening 11 and connected to the rotation shaft, a transmission rod 39 arranged outside the rotation block 391 and connected via a transmission ring 392 and a lever 393, 393 is slidably connected to the transmission rod 39 via a lever chute 394, both sides of the transmission rod 39 are limited and fixed by the guide grooves 15 provided on the inner wall of the movable box 1, and one end thereof is provided on the inner wall of the movable box 1. Small electric push rod 35
Connected to the output end of the dry ice fire extinguisher tank 36 by this transmission structure, each rotary blade 31 is driven by the small electric push rod 35 to rotate flat.
Of the dry ice fire extinguisher tank 36 of the actual dry ice fire extinguisher tank 36 The corresponding transmission structure is selected according to the size of the accommodation space.

Regarding the operation method of the above box structure, the operation method of the transmission structure employing the rotation block 391 and the transmission rod 39 is as follows. When the small electric push rod 35 is activated, the transmission rod 39 is moved to The rotation block 391 is turned by the cooperation of the lever 393 and the transmission ring 392, and at the same time, the compensation lever 39 is rotated by the lever chute 394.
The rotation path of the rotating blade 3 is adjusted by adjusting the arc path when the rotating blade 3 rotates.
Rotate 1.

Example 4
This embodiment is basically the same as the first embodiment except that the shock absorption protection sheet 8 is added to the inner walls of the first, second and third deformable plates 21, 22, 23.

As shown in FIGS. 23 to 25, the shock-absorbing protective sheet 8 has the first, second, and
The shock absorbing protection sheet 8 provided on the inner walls of the third deforming plates 21, 22, 23 includes a fixing plate 81 fixed to one side of the inner walls of the first, second, and third deforming plates 21, 22, 23, and shock absorbing. A soft pad 83 connected to the fixed plate 81 via a spring 82. The present invention improves the protective effect of the deformable housing 2 with respect to the movable box 1 by adding the shock absorbing protection sheet 8, and there is a possibility that the deforming housing 2 may hit a heavy object and sink. The second-class impact can be absorbed and damage to the movable box 1 can be minimized.

The operation method of the above box structure is as follows, and the first, second and third deformation plates 21,
When 22 and 23 are pushed and deformed by an external force, the first, second, and
The large impact force due to the structural deformation of the third deformable plates 21, 22, and 23 is mitigated, damage to the movable box 1 is reduced, and the protective effect is further improved.

The sensor 13 and the single-chip microcomputer 14 used in each of the above embodiments
, Small electric push rod 35, rotary motor 51, large electric push rod 52, etc.
The electronic device is a well-known electronic device in the related art, or the appearance thereof is appropriately adjusted based on the related art, and thus detailed description thereof is omitted here.

Claims (5)

A movable box (1) that is equipped with a computer motherboard and is deformable;
A modified housing (2),
Corner connector (4),
A motor assembly (5),
An arcuate drive rail (6),
A transmission member (7),
The movable box (1) is provided with one heat dissipation opening (11) for heat dissipation and ventilation on the left, right, upper and lower side surfaces thereof, and a heat dissipation port member (3) for adjustment and heat dissipation is provided in the opening. And a carrier board (19) for mounting a computer motherboard and related members in the center of the movable box (1),
A sensor (13) and a single-chip microcomputer (14) embedded on one side of the movable box (1) monitor the temperature of smoke and control the motor assembly (5) to rotate and extend the movable box (1). Drive
The deformable housing (2) for deforming and switching between heat dissipation and protection includes a first deformable plate (21) symmetrically provided on the upper and lower side surfaces of the movable box (1) and a front and rear side surface of the movable box (1). A second deformation plate (22) provided on the first deformation plate and a third deformation plate (23) symmetrically provided on both sides of the first deformation plate (21),
The slide slots (41) located above the first deforming plate (21) and the second deforming plate (22) include the movable rod (42) of the corner connector (4), the transmission plate (43), the gear rod (44), Connected to the drive gear (45),
The motor assembly (5) located at the center of the two second deformation plates (22) is detachably connected to both sides of the movable box (1),
An arc-shaped drive rail (6) located on the two first deformation plates (21),
The arcuate drive rail (6) has two sets of rail grooves () located on the arcuate drive rail (6).
61), a slider (62) respectively provided in the groove, and a groove (63) for accommodating the transmission member (7) located at the center of the arc-shaped drive rail (6),
The transmission member (7) has a central rotating rod () for driving the movement of the movable rods (72) on both sides.
71), a movable rod (72) movably connected to both ends of the central rotating rod (71), and a transmission provided at a position corresponding to the central rotating rod (71) in the center of the arc-shaped drive rail (6). The transmission gear (73) includes a gear (73) and is connected to the center of the center rotation rod (71) through the arc-shaped drive rail (6), and a torsion spring (75) for rotation and recovery at the connection point. ) Is provided,
An arcuate rack (74) is provided in the chute (64) of the arcuate drive rail (6), the end of which is connected to the slider (62) and transmitted by the transmission gear (73).
The third deformable plate (23) is connected to the first deformable plate (21) via a hinge, is connected to the outer end of the movable rod (72) via a rotation shaft, and is provided at four corners of the movable box (1). The deformable computer protection box structure, wherein the push block (12) is combined with the slider (62) of the arc-shaped drive rail (6) and transmitted. The motor assembly (5) is
A reinforced connected socket (53),
The motor assembly (5) is screwed to the inner wall of the second deformable plate (22) through the socket (53), is located at the bottom of the socket (53), and has the output end of the large electric push rod (52).
) Connected to the rotary motor (51),
The output end is connected to the corresponding side surface of the movable box (1) with a bolt through a connector, and a socket (
53) and a large electric push rod (52) that is rotatably connected to the upper part of (53) and the rotary motor (51) and the large electric push rod (52) are respectively connected to the single chip microcomputer via a relay. The box structure according to claim 1, wherein the box structure is connected to (14). Further comprising a heat dissipation port member (3),
The heat dissipation port member (3) is
A rotating blade (31),
A duct (32),
An adjusting gear (33),
A straight rack (34),
A small electric push rod (35),
Dry ice fire extinguisher tank (36),
A nozzle cylinder (37),
A plurality of sets of rotating blades (31) connected to the inner wall side plate of the heat dissipation opening (11) through a rotating shaft.
Switches between venting and closing of the movable box (1), and a side wall of the movable box (1) is provided with a spraying part of a nozzle (312) for spraying liquid carbon dioxide and a joint part for adjoining the rotating blades (31). The rotary blade (31) is provided with a trigger interface (311) for guiding air to the upper and lower end surfaces of the rotary blade (31), and a trigger guide (38) is provided thereon.
The trigger guide (38) is located at the center of the guide plate (382) and the guide plate (382) for guiding the gradual contraction of the movable plunger (371), communicates with the trigger interface (311), and has an upper outer holding groove. (383) and a lower inner retaining groove (384), including a two-stage fitting head (381) for sealing and limiting the movable plunger (371),
The adjustment gear (33) located on the inner wall of the heat dissipation opening (11) and connected to the rotary shaft is provided with a linear rack (34) for meshing transmission on the outer side thereof, and a movable box is provided on both sides of the linear rack (34). It is restricted and fixed through a guide groove (15) provided on the inner wall of (1), and one end thereof is connected to an output end of a small electric push rod (35) provided on the inner wall of the movable box (1),
The duct (32) embedded in the intermediate layer of the movable box (1) has a trigger head (321) penetrating the inner wall side plate of the heat dissipation opening (11) at a position corresponding to a position after the trigger interface (311) is rotated. Is provided,
The trigger head (321) is a nozzle cylinder (37) for guiding and controlling the injection.
, A movable plunger (37) located at the front end of the nozzle cylinder (37) and movably sealed and connected.
1), a liquid ejection port ((111) to be joined with a trigger interface (311) provided at the front end thereof)
372), including a liquid guide port (373) for guiding the injection according to the expansion/contraction depth of the movable plunger (371) provided in the rear circumferential direction, and having an end at the rear end of the movable plunger (371). A piece (374) is provided and is connected via a cylindrical spring (376) to a retaining ring (375) provided at the rear of the movable plunger (371),
Inside the slot tank (17) located at the lower rear side of the movable box (1), the duct (32)
And a dry ice fire extinguisher tank (36) connected to
However, in the outer gap of the slot tank (17), a protective door (1
8. Box construction according to claim 1, characterized in that it is provided with 8) and a small electric push rod (35) is connected to the single-chip microcomputer (14) via a relay. It is provided at the joint of the rotating blade (31) and filled with a magnetic material to give it magnetism,
A seal strip for enhancing the sealing effect of the suction joining of the adjacent rotary blades (31),
A dustproof net (16) provided outside the heat dissipation opening (11) and slidably connected to the outer wall of the movable box (1) through a slot groove,
The box structure according to claim 3, wherein the rotating blade (31) is a straight plate type, a diamond type, or an arc type, and is made of stainless steel. A shock absorbing protective sheet (8) for shock absorption provided on the inner walls of the first, second and third deforming plates (21, 22, 23),
The shock absorption protection sheet (8) is provided with a shock absorbing spring (82) and a fixing plate (81) fixed to one side of the inner walls of the first, second and third deformation plates (21, 22, 23). Box structure according to claim 1, characterized in that it comprises a pad (83) connected to a fixed plate (81).