CN111506177A - Computer case protection device with good protection performance and use method thereof - Google Patents

Abstract

The invention provides a computer case protecting device with good protectiveness, which is applied to a computer case of a double-hardware system, wherein the computer case is provided with a mounting seat and two sets of mainboard hardware arranged on the mounting seat; the outer side of the mainboard hardware is provided with a first protective shell, and each first protective shell is provided with a dustproof heat dissipation net component; be provided with condensate circulating device on the mount pad, condensate circulating device includes: the cold row is arranged on one side of the mounting seat; the fan is arranged on one side of the cold row and used for cooling the cold row; the water pump is arranged on the upper side of the cold discharge; the 2 heat absorbing seats are arranged on one side of the corresponding main board hardware and used for cooling the main board hardware; the cold discharge, the water pump and the heat absorption seat are connected in sequence through connecting pipes. The hardware module is unitized, the condensate circulating device is arranged on the outer side of the case, further accumulation of heat in the case is avoided, the using method is simple to operate, the heat dissipation effect is good, and the work heat dissipation requirement of a double-hardware system is met.

Description

Computer case protection device with good protection performance and use method thereof

Technical Field

The invention belongs to the technical field of computer cases, and particularly relates to a computer case protection device with good protectiveness and a using method thereof.

Background

The computer case is used as one part of computer accessories, is mainly used for placing and fixing various computer accessories, plays a role in bearing and protecting, and has an important role in shielding electromagnetic radiation. However, because the chassis does not have to be as fast as the CPU, graphics card, motherboard, etc. can improve the performance of the whole device, the improvement of the chassis structure during the manufacturing process has not been considered as a key consideration. However, for the safety of the internal electronic components, the computer case often has a certain impact resistance.

In the prior art, in order to meet the performance requirements of industries such as design and the like, a dual-hardware system is mostly installed in a computer case, and the dual-hardware system often emits a large amount of heat in the process of working simultaneously. Because the multilayer sealing structure shell of the existing case can influence the normal circulation of the air duct in the case while improving the protection capability of the case. If the dual hardware systems are integrated and installed in a sealed case, heat accumulation of the electronic components may be caused, and the normal functions and the service lives of the electronic components may be affected. And the multi-layer sealing structure shell can also influence the subsequent maintenance work of the chassis.

The traditional machine case protection structure can not meet the heat dissipation requirement of the double-hardware system, only can carry out passive heat dissipation through the hardware heat dissipation module per se, and because the heat dissipation modules are more installed in the machine case equipment, the internal space of the machine case is not only occupied, but also the temperature in the machine case can be further increased due to the heat accumulated by the heat dissipation modules, so that the heat dissipation efficiency is lower, and the work heat dissipation requirement of the double-hardware system can not be met.

Disclosure of Invention

In order to solve the above problems, an object of the present invention is to provide a computer case protection device with good protection and a method for using the same, wherein the protection device is unitized with hardware modules, and a condensate circulation device is installed outside a mounting seat, so as to solve the problems that in the prior art, a heat dissipation module is often installed in a case device, not only occupies the internal space of the case, but also further accumulates heat in the case, thereby resulting in low heat dissipation efficiency and failing to meet the work heat dissipation requirements of a dual-hardware system.

In order to achieve the above object, the technical solution of the present invention is as follows.

A computer case protecting device with good protectiveness is applied to a computer case of a double-hardware system, and the computer case is provided with a mounting seat and two sets of mainboard hardware arranged on the mounting seat; the outer side of each set of mainboard hardware is provided with a first protective shell, and each first protective shell is provided with a dustproof heat dissipation net component; be provided with the condensate circulating device on the mount pad, the condensate circulating device includes:

the cold row is arranged on one side of the mounting seat;

the fan is arranged on one side of the cold row and used for cooling the cold row;

the water pump is arranged on the upper side of the cold row; and

the heat absorption seats are arranged on one side of the corresponding main board hardware and used for cooling the main board hardware;

the cold discharge, the water pump and the heat absorption seat are sequentially connected through connecting pipes.

Furthermore, the water pump is respectively connected with the corresponding heat absorption seats through connecting pipes.

Further, a first air outlet is formed in the upper side of the fan; a second air outlet is formed in one side, opposite to the cold row, of the fan; one side of each heat absorption seat is provided with an air cooling pipeline, one end of each air cooling pipeline is connected with the first air outlet, and the other end of each air cooling pipeline extends towards the corresponding heat absorption seat and is connected with a third air outlet; and the first air outlet is provided with a control valve for controlling the opening of the 2 third air outlets.

Furthermore, each third air outlet is arranged on one side of the corresponding heat absorption seat and used for dissipating heat of the heat absorption seat and the main plate hardware.

Further, the dustproof radiator-grid assembly includes:

the filter screen shell is arranged on one side, opposite to the mainboard hardware, of the first protective shell and is fixedly connected with the first protective shell; and

the filter plate is slidably arranged on the filter screen shell and used for adjusting the size of the heat dissipation hole in the dustproof heat dissipation screen component;

the filter plate is provided with a plurality of first through holes, the filter screen shell is provided with a plurality of second through holes, and the first through holes and the second through holes are superposed and combined to form heat dissipation holes in the dustproof heat dissipation screen assembly.

Further, the position of the first through hole corresponds to the position of the second through hole.

Furthermore, the mounting seat is I-shaped, and a first mounting area for mounting hardware is arranged on one side of the mounting seat; a second mounting area for mounting a cable is arranged on the other side of the mounting seat; the mounting seat is provided with a plurality of wire arrangement holes for communicating the first mounting area and the second mounting area.

Furthermore, a second protective shell and a control panel are sequentially arranged on one side, located on the first protective shell, of the first mounting area; the control panel is electrically connected with the power supply, the hard disk, the two sets of mainboard hardware and the condensate circulating device respectively.

Further, the outside of second installing zone is provided with third protection shell, every all be provided with IO mainboard baffle on first protection shell's the lateral margin, one side of every mainboard baffle all is provided with first reason line area, be provided with in the second installing zone and bury the wire casing, be provided with second reason line area on the inner chamber wall of burying the wire casing.

A use method of a computer case protection device with good protectiveness comprises the following steps:

s1, injecting condensate into the cold discharge pipe, and detecting the waterproof sealing performance of the connecting pipe;

s2, opening heat dissipation holes in the dustproof heat dissipation net assembly, and starting a power supply to enable an air duct from inside to outside to be formed in the first protective shell for active ventilation and heat dissipation;

s3, when computer motherboard hardware in 2 protective housing generates heat because of work, start fan and water pump, make the condensate in the cold row get into in the heat absorption seat that corresponds in proper order through the water pump to in backward flow to the cold row through the connecting pipe, cool down through the condensate of fan in to the cold row, thereby carry out heat absorption circulation heat dissipation to computer component laminating department.

The computer case protecting device with good protectiveness and the using method thereof provided by the invention have the following beneficial effects:

1. the protection device adopts two first protection shells to install two sets of computer motherboard hardware, avoids the accumulation of electronic element heat caused by the simultaneous integrated installation of two hardware systems in a sealed case through unitizing the hardware module, and is convenient for subsequent disassembly and maintenance.

2. This protector will cool and arrange, fan and water pump all install in the outside of quick-witted case mount pad, avoid installing it in quick-witted case protective equipment, because the heat that the condensate circulating device heat dissipation caused piles up the gathering with the radiating heat of hardware, cause the unable quick release of heat in the quick-witted case to lead to quick-witted case radiating efficiency low, can't satisfy the problem of two hardware systems' work heat dissipation demand.

3. The protection device is characterized in that a heat absorption seat and an air cooling pipeline are installed on one side of two sets of computer mainboard hardware, a dustproof heat dissipation net component is installed on the other side of the protection device, cold air blown out through the air cooling pipeline dissipates heat of the heat absorption seat and the two sets of computer mainboard hardware, and heat dissipation holes in the dustproof heat dissipation net component blow out, so that quick heat dissipation of electronic elements in a computer case can be ensured, and heat dissipation efficiency is improved. In addition, because the air cooling pipeline is arranged on one side of the heat absorption seat, the dust-proof treatment can be carried out in the protective shell while the heat absorption seat and the electronic element are radiated, the dust in the protective shell is blown out through the radiating holes in the dust-proof radiating net component, the paste-lifting dustproof capability is realized, and the stability of the working state of the electronic element is ensured.

4. The use method of the protection device is simple to operate, has a good heat dissipation effect on the computer case, has practicability, and meets the work heat dissipation requirements of a double-hardware system.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a front sectional view of an embodiment of the present invention.

Fig. 3 is a partially enlarged view of a portion B in fig. 2.

FIG. 4 is a side view of an embodiment of the present invention.

Fig. 5 is a schematic structural view of a mount and a condensate circulation device according to an embodiment of the present invention.

Fig. 6 is a partially enlarged view of a portion a in fig. 1.

Fig. 7 is a schematic structural diagram of a dustproof heat-dissipating grid assembly according to another embodiment of the present invention.

FIG. 8 is a front cross-sectional view of a first protective enclosure in accordance with an embodiment of the invention.

Fig. 9 is a front cross-sectional view of a third protective enclosure in accordance with an embodiment of the present invention.

In the figure, 1, a mounting seat; 11. a first mounting area; 12. a second mounting area; 13. a wire arranging hole; 2. a first protective housing; 21. a main board baffle; 3. a dust-proof heat-dissipating net assembly; 31. a filter screen shell; 311. a second through hole; 32. filtering the plate; 321. a first through hole; 4. a condensate circulation device; 41. cold discharging; 42. a fan; 421. a first air outlet; 422. a second air outlet; 43. a water pump; 44. a heat absorbing seat; 45. air-cooling the pipeline; 451. a third air outlet; 5. a second protective housing; 51. a first mounting groove; 52. a second mounting groove; 6. a control panel; 7. a third protective housing; 8. a first wire management tape; 9. burying a wire groove; 91. and a second wire management strip.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, a computer case protection device with good protection performance according to an embodiment of the present invention is applied to a computer case of a dual hardware system, where the computer case includes a mounting base 1 and two sets of motherboard hardware disposed on the mounting base 1; the outside of every set of mainboard hardware all is provided with first protecting sheathing 2, all is provided with dustproof radiator-grid subassembly 3 on every first protecting sheathing 2.

Referring to fig. 1 to 5, a condensate circulation device 4 is disposed on the mounting base 1, and the condensate circulation device 4 includes a cold row 41, a fan 42, a water pump 43, and 2 heat absorbing bases 44.

The cold row 41 is disposed on one side of the mount 1. Specifically, the cold rows are formed by sequentially arranging tubular bodies from top to bottom, and each two tubular bodies are sequentially connected end to end, and the cold rows are used for leading out condensate with low temperature from one end of the cold rows and leading in condensate with high temperature from the other end of the cold rows to form a condensate circulation pipeline. The temperature regulation of the condensate is also carried out by means of tubular bodies on the cold bars, in particular in two ways: firstly, cool down through self heat dissipation, secondly cool down through the fan.

The fan 42 is disposed at one side of the cold row 41 and is used for cooling the cold row 41. Specifically, the upper side of the fan 42 is provided with a first air outlet 421; a second air outlet 422 is arranged on one side of the fan 42 opposite to the cold row 41; one side of each heat absorption seat 44 is provided with an air cooling pipeline 45, one end of each air cooling pipeline 45 is connected with the first air outlet 421, and the other end of each air cooling pipeline 45 extends towards the corresponding heat absorption seat 44 and is connected with a third air outlet 451; the first air outlet 421 is provided with a control valve for controlling the opening of the 2 third air outlets 451. Each third air outlet 451 is disposed at one side of the corresponding heat absorbing seat 44, and is used for dissipating heat of the heat absorbing seat 44 and the motherboard hardware.

During specific installation, a fixing plate is arranged at the bottom of the cold row, a shell is arranged on the upper side of the fixing plate, and the fan and the cold row are installed in the shell. In order to improve the cooling effect of the cold row, the number of the fans can be 2, and the fans are vertically arranged on the front side of the cold row. A second air outlet 422 is arranged on one side of the shell close to the cold row and used for discharging hot air cooled by the cold row by the fan; the top of casing is provided with first air outlet, and first air outlet sets up in the top between fan and cold row, conveniently blows off the cold wind of fan release to leading-in electronic component one side that corresponds assists electronic component's cooling.

The water pump 43 is provided on the upper side of the cold row 41. The water pump is used for pumping the condensate in the cold row to the side of the heat absorption seat for cooling the electronic element, and providing flowing power for the condensate. The condensate is here predominantly water.

The 2 heat absorbing seats 44 are arranged on one side of the corresponding main board hardware and used for cooling the main board hardware; the specific structure of the heat absorption seat is basically the same as that of the cold row structure, and the heat absorption seat also consists of tubular bodies which are sequentially arranged from top to bottom, and every two tubular bodies are sequentially connected end to form a circulating pipeline. The heat absorption seat is attached to one side of the two sets of mainboard hardware and is fixedly installed on the installation seat 1, and the heat absorption seat is used for cooling the two sets of mainboard hardware.

In the present embodiment, the cold row 41, the water pump 43, and the heat absorption base 44 are connected in order by the connection pipes. And the water pumps 43 are respectively connected with the corresponding heat absorbing seats 44 through connecting pipes. For example, two sets of motherboard hardware are vertically arranged on one side of the mounting base, the heat absorbing base on the bottom of the mounting base 1 is a first heat absorbing base 441, and the heat absorbing base on the top of the mounting base 1 is a second heat absorbing base 442. The water pump 43 and the fan 42 are connected with a power interface of at least one power supply, the water pump 43 is connected with the cold row 41 through a water pumping pipe, the water pump 43 is respectively connected with the first heat absorption seat 441 and the second heat absorption seat 442 through water delivery pipes, the first heat absorption seat 441 is connected with the second heat absorption seat 442 through a connecting pipe, and the second heat absorption seat 442 is connected with the cold row 41 through a return pipe. During operation, the water pump 43 and the fan 42 work when the power supply is turned on, the water pump 43 works to pump the cooling liquid filled in the cold row 41 through the water pumping pipe, the water pump 43 pumps the pumped cooling liquid into the first heat absorption seat 441 and the second heat absorption seat 442 through the water delivery pipe and the connecting pipe, and the cooling liquid pumps the heat dissipated by the two sets of mainboard hardware during operation into the cold row 41 through the return pipe through the first heat absorption seat 441 and the second heat absorption seat 442, so that a circulation pipeline of condensate is formed. Meanwhile, the fan 42 rotates to blow continuously to blow air to the cold row 41 for heat removal, so that heat generated by the double mainboards can be dissipated quickly. When the condensate passes through the first heat absorption seat 441 and the second heat absorption seat 442, the water pump 43 may be respectively connected with the first heat absorption seat 441 and the second heat absorption seat 442, or the water pump 43 may be sequentially connected with the first heat absorption seat 441 and the second heat absorption seat 442, so that two pipelines for circulating the condensate are formed, and the heat dissipation effect is improved. Meanwhile, the condensate is prevented from absorbing heat after passing through the first heat absorbing seat and not being diffused in time, and the heat absorbing effect of the second heat absorbing seat is prevented from being influenced.

In order to further improve the heat dissipation effect, each first protective housing 2 is provided with a dustproof heat dissipation net assembly 3, and the dustproof heat dissipation net assembly 3 comprises a filter net shell 31 and a filter plate 32.

The filter screen shell 31 is disposed on the opposite side of the first protective housing 2 and the motherboard hardware, and is fixedly connected to the first protective housing 2. The filter screen 31 serves as a regulating structure for mounting the filter sheet 32 and forming heat dissipation holes with the filter sheet 32.

The filter plate 32 is slidably disposed on the filter screen shell 31 for adjusting the size of the heat dissipation hole on the dustproof heat dissipation screen assembly 3. The filter plate 32 is provided with a plurality of first through holes 321, the filter screen shell 31 is provided with a plurality of second through holes 311, and the first through holes 321 and the second through holes 311 are superposed and combined to form heat dissipation holes on the dustproof heat dissipation mesh component 3. The position of the first through hole 321 corresponds to the position of the second through hole 311.

Fig. 6 is a schematic structural diagram of the dustproof heat dissipation screen assembly 3 according to an embodiment of the present invention, wherein the filter plate 32 can move in the filter screen shell 31 along a vertical direction. The top both sides of filter screen shell 31 all are provided with first spout, and the top both sides of filter plate all are provided with the first slider with first spout looks adaptation, through adjusting first slider on vertical direction, make first slider remove along first spout for adjust the size of louvre, the convenience is dustproof and heat dissipation to first protective housing and is handled. Specifically, in order to make first slider can be installed stably in first spout, can set up stop screw on first slider, stop screw and first slider spiro union, and stop screw's lower extreme and first spout butt. Through adjusting stop screw, and then be used for adjusting the distance of first slider apart from first spout bottom to can be used for adjusting the size of louvre, with this installation stability of filter plate in the filter screen shell has been improved. Meanwhile, the part of the filter screen shell protruding upwards can also be used for fixedly placing a radiator on the top of the main board, so that circulation of heat dissipation air is formed in the first protective shell, and the heat dissipation effect is improved.

Of course, in another embodiment, as shown in fig. 7, it is a schematic structural diagram of a dustproof heat dissipation mesh assembly 3 according to another embodiment of the present invention, wherein the filter plate 32 can move in a horizontal direction inside the filter mesh case 31.

The right symmetry of filter plate 32 is provided with two second sliders, the left side symmetry of filter plate 32 is provided with two third sliders, the right side symmetry of filter screen shell 31 is provided with two second spouts with second slider looks adaptation, the left side symmetry of filter screen shell 31 is provided with two third spouts with third slider looks adaptation, filter plate 32 passes through the second slider, the third slider is at the second spout that corresponds, slide in the third spout, thereby can be used for adjusting the size of louvre, and improved the slip stability of filter plate 32 and filter screen shell 31, avoid filter plate 32 to shift out in the filter screen shell 31.

Referring to fig. 4, the mounting base 1 is shaped like an i, wherein the top and the bottom of the mounting base 1 are provided with transverse protection plates, and the lower side of the transverse protection plate at the bottom is provided with 4 support legs for supporting the chassis to facilitate the circulation of air around the chassis, and the bottom of each support leg is fixedly provided with an anti-slip block and an insulating pad.

A first mounting area 11 for mounting hardware is arranged on one side of the I-shaped mounting seat 1; the other side of the mounting seat 1 is provided with a second mounting area 12 for mounting a cable; the mounting base 1 is provided with a plurality of wire arrangement holes 13 for communicating the first mounting area 11 and the second mounting area 12. Here, the cable that is located first installing zone 11 can pass through wire arranging hole 13 and get into second installing zone 12 to it is fixed to install at second installing zone 12, conveniently arranges the cable in order, avoids most cables to arrange first installing zone 11 in, influences the heat dissipation of hardware in first installing zone 11.

Referring to fig. 2, a second protective housing 5 and a control panel 6 are sequentially disposed on one side of the first protective housing 2 in the first mounting area 11; during specific installation, two sets of system hardware are vertically installed on the side edge of the first installation area 11 side by side, and then the second protective shell 5 and the control panel 6 are sequentially installed. Specifically, a first mounting groove 51 for mounting a power supply and a plurality of second mounting grooves 52 for mounting a hard disk are arranged in the second protective housing 5, and the control panel 6 is electrically connected with the power supply, the hard disk, the two sets of motherboard hardware and the condensate circulating device 4 respectively.

Specifically, both sides of the inner cavity of the first mounting groove 51 are provided with concave grooves 511, the first mounting groove 51 is connected with a power supply box 512 in a sliding manner, and both sides of the power supply box 512 are provided with limit sliders 513 matched with the corresponding concave grooves, so that the power supply box 512 can be pushed inwards along the horizontally arranged concave grooves 511. The power box 512 is fixedly connected with a partition plate 514, the power box 512 is divided into an upper layer and a lower layer, and a power supply 515 is fixedly connected in each layer of the power box.

Referring to fig. 3, the number of the second mounting grooves 52 is several, and may be 2, 3, or 4, or may be increased according to actual requirements. The two sides of the inner cavity of each second mounting groove 52 are provided with a sliding base 521, the two sides of the inner cavity correspond to the sliding bases 521 and are connected with a hard disk groove 522 in a sliding manner, and a hard disk 523 is fixedly mounted in the hard disk groove 522. Equal fixedly connected with lug 524 in inner chamber one side of every slide 521, lug 524 and hard disk groove 523 one side butt carry out the butt through lug 524 to hard disk groove 523 and fix, avoid the vibration to lead to the hard disk 523 slippage.

Referring to fig. 4 and fig. 8-9, an I/O motherboard baffle 21 is disposed on a side edge of each first protective housing 2 for limiting the position of the motherboard. One side of each main board baffle 21 is provided with a first wire management tape 8. The outside of second installing zone 12 is provided with third protection shell 7, is provided with in the second installing zone 12 and buries line groove 9, is provided with second reason line area 91 on the inner chamber wall of burial line groove 9. Can make things convenient for the staff to arrange in order the merge fixedly to connecting cable through first reason line area 8 and second reason line area 91, improve and place the practicality, satisfy the use needs.

In this embodiment, the first protective housing 2, the second protective housing 5, and the third protective housing 7 are detachably connected to the mounting seat 1. Specifically, its detachable connected mode is mainly through bolt and screw hole connection, through set up the screw hole on mount pad 1 and the protective housing who corresponds to with the bolt fastening, make things convenient for dismouting and maintenance to each part in first protective housing 2, second protective housing 5 and the third protective housing 7.

The use method of the computer case protecting device with good protectiveness comprises the following steps:

s1, injecting condensate into the cold discharge pipe 41, and detecting the waterproof sealing performance of the connecting pipe;

s2, opening the heat dissipation holes on the dustproof heat dissipation net component 3 and starting a power supply;

s3, when the computer motherboard hardware in 2 protective housings generates heat due to work, starting the fan 42 to communicate the air-cooled pipeline 45 corresponding to the motherboard hardware and form a heat dissipation air channel with the heat dissipation holes on the dustproof heat dissipation net component 3 for active ventilation and heat dissipation, that is, form an air channel from inside to outside in the first protective housing for active ventilation and heat dissipation;

s4, when the heat generated by the computer motherboard hardware in the 2 protective shells is too high due to work, synchronously starting the fan 42 and the water pump 43, enabling the condensate in the cold row 41 to sequentially enter the corresponding heat absorption seats 44 through the water pump 43 and flow back to the cold row 41 through the connecting pipe, and cooling the condensate in the cold row through the fan, so as to perform heat absorption circulation heat dissipation on the joint of the computer element, and after the work is completed, shutting down the operating system and turning off the power supply.

In this embodiment, the bolt is removed from the threaded hole at one side of the mounting seat 1 by screwing the bolt, after the bolt at the four corners is removed, two first protective cases 2 and the second protective case 5 at one side are opened, the computer mainboard integrating the CPU, the GPU and the memory element is fixedly mounted through the fixed copper posts at the corresponding positions, the computer mainboard is an ATX-format mainboard, the fixed copper posts are correspondingly embedded according to the mainboard position, and the backboard at the chip position of the computer mainboard CPU is attached to the first heat absorption seat 441 and the second heat absorption seat 442 after mounting for heat conduction, two sets of computer mainboard hardware are mounted in the two first protective cases 2, the connecting cables of the electronic elements such as the computer mainboard, the hard disk and the like are moved into the wire embedding groove 9 at the rear side of the mounting seat 1 through the wire arranging hole 13 by mounting the power supply in the first mounting groove 51 and then being clamped into the sliding seat after mounting the hard disk in the second mounting groove 52, thereby facilitating the arrangement, combination and fixation of, the practicality is placed in the improvement, satisfies the use needs, and avoids influencing the heat dissipation of computer hardware.

Meanwhile, the water pump 43 and the fan 42 are connected with a power interface of at least one power supply, a jumper wire of a computer mainboard is connected with the control panel, when computer elements in the first protective shells 2 on two sides generate heat during working, the filter plate is pressed downwards, heat dissipation holes formed between the filter plate and the filter screen shell are opened, and an air cooling pipeline 45 formed by the fan 41 is matched, so that an air channel from inside to outside is formed in the first protective shell 2 for active ventilation and heat dissipation.

The water pump 43 and the fan 42 work when the power supply is turned on, the water pump 42 works to pump cooling liquid filled in the cold row 41 through a water pumping pipe, the water pump 42 pumps the pumped cooling liquid into the first heat absorption seat 441 and the second heat absorption seat 442 through a water delivery pipe, the cooling liquid pumps heat into the cold row 41 through a return pipe through the first heat absorption seat 441 and the second heat absorption seat 442 which absorb heat, and the fan 42 rotates to blow air to blow the cold row 41 to exhaust heat, so that heat generated by double main boards can be quickly dissipated. The air cooling structure is combined with the water cooling structure, so that the quick heat dissipation of the dual-system hardware is facilitated, and the heat dissipation effect is improved.

While the first protective housing 2 and the second protective housing 5 can effectively protect the internal computer components, the heat accumulation is dissipated while the sealing effect is ensured, the assembly difficulty is reduced through the modularized first protective shell 2 and the modularized second protective shell 5, the original case structure is removed, the computer component is directly protected in a modularized way, the overall assembly weight is reduced, the follow-up staff can effectively and conveniently overhaul and maintain, the first heat absorption seat 441 and the second heat absorption seat 442 which are embedded in the base can effectively absorb the heat generated by two sets of hardware systems, meanwhile, the self-assembly of a cooling fan of a hardware system is not influenced, the double-effect cooling is realized, the assembly requirement of double-system hardware is met, the space occupied by two hardware cases is effectively reduced, meanwhile, the temperature in the chassis is ensured to be uniform, the exchange with external air is reduced, the dustproof capacity is improved, and the stability of the working state of the electronic component is ensured.

In addition, a second mounting area 12 for mounting a connecting cable is arranged on the other side of the mounting seat 1 away from the system hardware, and a third protection shell 7 is detachably mounted on the outer side of the second mounting area 12. Arrange line hole 13 of seting up in a plurality of corresponding positions of first installing zone 11, can make things convenient for the connecting cable to put into the buried line groove 9 of 1 rear side of mount pad by first installing zone 11 in, conveniently arrange the cable in order, avoid most cables to arrange in first protective housing 2 and second protective housing 5 and influence the heat and give off, the first reason line area 8 and the second reason line area 91 of 1 both sides of mount pad can make things convenient for the staff to arrange in order and merge fixedly to the connecting cable simultaneously, improve and place the practicality, satisfy the user demand.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A computer case protecting device with good protectiveness is applied to a computer case of a double-hardware system, and the computer case is provided with a mounting seat (1) and two sets of mainboard hardware arranged on the mounting seat (1); the anti-dust heat dissipation system is characterized in that a first protection shell (2) is arranged on the outer side of each set of mainboard hardware, and a dust-proof heat dissipation net component (3) is arranged on each first protection shell (2); be provided with condensate circulating device (4) on mount pad (1), condensate circulating device (4) includes:

the cold row (41) is arranged on one side of the mounting seat (1);

the fan (42) is arranged on one side of the cold row (41) and is used for cooling the cold row (41);

a water pump (43) provided above the cold row (41); and

the 2 heat absorbing seats (44) are arranged on one side of the corresponding main board hardware and are used for cooling the main board hardware;

the cold row (41), the water pump (43) and the heat absorption seat (44) are connected in sequence through connecting pipes.

2. The protective device of claim 1, wherein the water pumps (43) are respectively connected to the corresponding heat absorbing seats (44) through connecting pipes.

3. The computer case protector as claimed in claim 1, wherein a first air outlet (421) is provided on an upper side of the fan (42); a second air outlet (422) is formed in one side, opposite to the cold row (41), of the fan (42); one side of each heat absorption seat (44) is provided with an air-cooled pipeline (45), one end of each air-cooled pipeline (45) is connected with the first air outlet (421), and the other end of each air-cooled pipeline (45) extends towards the corresponding heat absorption seat (44) and is connected with a third air outlet (451); and a control valve is arranged on the first air outlet (421) and used for controlling the opening of the 2 third air outlets (451).

4. The computer case protector with good protection performance according to claim 3, wherein each third air outlet (451) is disposed at one side of the corresponding heat absorbing seat (44) and used for dissipating heat of the heat absorbing seat (44) and the motherboard hardware.

5. The well-protected computer case guard according to claim 1, wherein the dust-screen assembly (3) comprises:

the filter screen shell (31) is arranged on one side, opposite to the mainboard hardware, of the first protective shell (2) and is fixedly connected with the first protective shell (2); and

the filter plate (32) is slidably arranged on the filter screen shell (31) and is used for adjusting the size of the heat dissipation holes in the dustproof heat dissipation screen component (3);

the filter plate (32) is provided with a plurality of first through holes (321), the filter screen shell (31) is provided with a plurality of second through holes (311), and the first through holes (321) and the second through holes (311) are superposed and combined to form heat dissipation holes in the dustproof heat dissipation screen assembly (3).

6. The well-protected computer case guard according to claim 5, wherein the location of the first via (321) corresponds to the location of the second via (311).

7. The computer case protecting device with good protectiveness according to claim 1, wherein the mounting seat (1) is i-shaped, and a first mounting area (11) for mounting hardware is arranged on one side of the mounting seat (1); a second mounting area (12) for mounting a cable is arranged on the other side of the mounting seat (1); the mounting seat (1) is provided with a plurality of line holes (13) for communicating the first mounting area (11) with the second mounting area (12).

8. The computer case protector with good protectiveness according to claim 7, characterized in that a second protective housing (5) and a control panel (6) are sequentially disposed on the first mounting area (11) at one side of the first protective housing (2); the hard disk protection device is characterized in that a first mounting groove (51) for mounting a power supply and a plurality of second mounting grooves (52) for mounting a hard disk are formed in the second protection shell (5), and the control panel (6) is electrically connected with the power supply, the hard disk, the two sets of mainboard hardware and the condensate circulating device (4) respectively.

9. The computer case protecting device with good protectiveness according to claim 7, wherein a third protecting case (7) is disposed outside the second mounting area (12), an I/O motherboard baffle (21) is disposed on a side edge of each first protecting case (2), a first wire arranging strip (8) is disposed on one side of each motherboard baffle (21), a wire embedding slot (9) is disposed in the second mounting area (12), and a second wire arranging strip (91) is disposed on an inner cavity wall of the wire embedding slot (9).

10. The method of using a protective device according to claim 1, comprising the steps of:

s1, injecting condensate into the cold discharge pipe, and detecting the waterproof sealing performance of the connecting pipe;

s2, opening heat dissipation holes in the dustproof heat dissipation net assembly, and starting a power supply to enable an air duct from inside to outside to be formed in the first protective shell for active ventilation and heat dissipation;

s3, when computer motherboard hardware in 2 protective housing generates heat because of work, start fan and water pump, make the condensate in the cold row get into in the heat absorption seat that corresponds in proper order through the water pump to in backward flow to the cold row through the connecting pipe, cool down through the condensate of fan in to the cold row, thereby carry out heat absorption circulation heat dissipation to computer component laminating department.

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