CN210666626U

CN210666626U - Computer heat dissipation machine case

Info

Publication number: CN210666626U
Application number: CN201922347070.5U
Authority: CN
Inventors: 王宇; 张雪娇; 任涛; 顾贺; 裴新敏
Original assignee: Jilin Shenzhou Education Technology Co ltd
Current assignee: Jilin Shenzhou Intelligent System Co ltd
Priority date: 2019-12-24
Filing date: 2019-12-24
Publication date: 2020-06-02
Anticipated expiration: 2029-12-24

Abstract

A computer heat dissipation case relates to the technical field of computer equipment, and solves the problems of ash falling from a top plate when the case is not used and difficulty in heat dissipation and energy consumption reduction; the front plate is provided with an air inlet and three air inlet fans; the side cover is connected with the top plate through a hinge, and an air stay bar capable of controlling the opening angle is arranged on the side cover; the side cover is provided with a first hollow hole array, the outer surface of the side cover is provided with a first sliding groove and a first covering plate installed in the first sliding groove, and a second hollow hole array is arranged on the first covering plate corresponding to the first hollow hole array; the top plate is provided with a hollow-out screen plate and a second cover plate capable of sliding, and the second cover plate is provided with through holes corresponding to the hollow-out screen plate. The utility model discloses the radiating effect is good, reduce power consumption, solved when not using quick-witted case from the roof to the problem of quick-witted incasement ash that falls.

Description

Computer heat dissipation machine case

Technical Field

The utility model relates to a computer equipment technical field, concretely relates to computer heat dissipation machine case.

Background

Along with the improvement of science and technology and the improvement of people's living standard, the computer begins to popularize rapidly between people, bring convenience for people's life, people's work efficiency has also been accelerated, the important assistant of people's official working life has become, simultaneously because the computer is the electrical equipment of high integration, its calorific capacity is very big, quick-witted case heat dissipation is the problem that the machine case is not neglected, current computer machine case has only been paid attention to the heat dissipation but has been neglected the heat dissipation and to the great problem of electric energy consumption, current computer machine case is difficult to compromise radiating effect and energy saving. Because current machine case top is mostly the design of trompil, and the purpose is guaranteed the radiating effect, but is being equipped with the quick-witted case of trompil to the roof when closing not using, has the dust to get into quick-witted case box from the roof trompil, and this leads to the box in the dust more, can increase the burden of machine operation. In view of the above, the present invention has been made in view of the above problems.

SUMMERY OF THE UTILITY MODEL

The machine case that is equipped with the trompil in order to solve the roof from the ash problem that falls of roof, the problem of guaranteeing that the radiating prerequisite of quick-witted case descends low energy consumption, the utility model provides a computer heat dissipation machine case.

The utility model discloses a solve the technical scheme that technical problem adopted as follows:

a computer heat dissipation case comprises a case body, wherein the case body comprises a bottom plate, a top plate, a front plate, a rear plate and a side cover, a power supply with a temperature control type radiator I, a display card with a temperature control type radiator II, a main plate, a CPU with a heat dissipation fan and a solid state disk are arranged in the case body; the rear plate is a hollow plate, and a heat radiation fan of the CPU is arranged on the rear plate and corresponds to the hollow hole of the rear plate; the front plate is provided with three air inlet fans which are sequentially arranged along the longitudinal direction, and the front plate is provided with air inlet holes corresponding to the air inlet fans; the side cover is connected with the top plate through a hinge, one end of an air stay rod is connected to the side cover, the other end of the air stay rod is connected with a bottom plate, a front plate or a rear plate, a magnet is arranged on the inner side of the lower portion of the side cover, an adsorption block is arranged on the bottom plate corresponding to the position of the magnet, a handle is arranged on the outer surface of the side cover, and the side cover can be opened and closed through the handle; the side cover is provided with a first hollow hole array, the first hollow hole array is positioned between the hinge and the handle, the upper side and the lower side of the outer surface of the side cover are respectively provided with a first sliding groove, the first lower sliding groove is positioned between the handle and the first hollow hole array, and the first upper sliding groove is positioned between the hinge and the first hollow hole array; a first cover plate is arranged in the first sliding groove, a second hollow hole array is arranged on the first cover plate corresponding to the first hollow hole array, and whether the first cover plate covers the first hollow hole array or not can be controlled by sliding the first cover plate along the first sliding groove; a plurality of hollow screen plates are arranged on the top plate at intervals, a second sliding groove is formed in the upper surface of the top plate, a second covering plate is slidably mounted in the second sliding groove, through holes are formed in the second covering plate corresponding to the hollow screen plates, and whether the second covering plate covers the hollow screen plates can be controlled by sliding the second covering plate along the second sliding groove; and the outer side surface of the top plate is provided with a second limiting block which is positioned on the front side and the rear side of the second covering plate and used for limiting the front and the rear of the second covering plate.

Furthermore, a first limiting block for limiting the front and the rear of the first covering plate is arranged on the outer side of the side cover.

Further, the power supply is arranged on the lower side in the box body.

Furthermore, a first dust screen is arranged on the side cover corresponding to the first hollow hole array.

Furthermore, a second dust screen is arranged on the top plate corresponding to the hollowed-out screen plate.

Furthermore, a third dust screen is arranged on the rear plate.

Furthermore, the other end of the air stay bar is connected with the bottom plate.

The utility model has the advantages that:

1. the utility model relates to a computer heat dissipation machine case is through setting up three inlet fan, and it is effectual to admit air, and the circulation of air is effectual, and the radiating effect of hardware such as mainboard is good in the box.

2. Through the design of the power supply with the first temperature control type radiator, the display card with the second temperature control type radiator and the side cover, energy required by heat dissipation is reduced, electric energy consumption is reduced, and meanwhile, the heat dissipation effect is guaranteed.

3. When the computer is used, the hollow-out screen plate on the top plate is ensured to be exposed, and the heat dissipation effect is ensured; when the computer is not used, the hollow-out screen plate is covered by the second covering plate, so that the problem that dust falls into the case from the top plate when the case is not used is solved.

Drawings

Fig. 1 is a front view of a case of a computer heat dissipation case of the present invention.

Fig. 2 is a front view of the structure of the computer heat dissipation case when the side cover of the case body is opened.

Fig. 3 is a left side view of the case body of the heat dissipation case of the computer of the present invention.

Fig. 4 is a top view of the case of the computer heat dissipation case of the present invention.

Fig. 5 is a top view of the case of the computer heat dissipation case of the present invention when not in use.

Fig. 6 is a schematic diagram of the internal structure of a computer heat dissipation case of the present invention.

In the figure: 1. the air inlet structure comprises a bottom plate, 1.1, an adsorption block, 2, a top plate, 2.1, a hollowed-out screen plate, 2.2, a second sliding groove, 2.3, a second covering plate, 2.4, a through hole, 2.5, a second limiting block, 3, a front plate, 3.1, an air inlet fan, 3.2, an air inlet hole, 4, a rear plate, 5, a side cover, 5.1, a first hollowed-out hole array, 5.2, a first sliding groove, 5.3, a first covering plate, 5.4, a second hollowed-out hole array, 5.5, a first limiting block, 5.6, a hinge, 5.7, a handle, 5.8, an air supporting rod, 5.9, a magnet, 6, a power supply, 7, a display card, 8, a heat dissipation fan of a CPU, 9, a main board, 10, a solid state disk, 11.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

The utility model provides a computer heat dissipation machine case, includes the box, and the box includes bottom plate 1, roof 2, front bezel 3, back plate 4 and side cap 5, and back plate 4 and the equal fixed connection bottom plate 1 of

front bezel

3, 2 fixed connection back plate 4 and front bezel 3 of roof, as figure 1 and figure 2, roof 2 is connected through hinge 5.6 to side cap 5, and side cap 5 is left side lid 5 and right side lid 5, and bottom plate 1, roof 2, front bezel 3, back plate 4 and side cap 5 constitute the box of rectangular size. Magnet 5.9 is equipped with in the inboard (downside) of side cap 5, and the magnet 5.9 position on the corresponding side cap 5 in the bottom plate 1, the box is equipped with adsorbs piece 1.1, and the lower part of the 5 outside surface of side cap is equipped with handle 5.7, can open and close side cap 5 through handle 5.7, connects when side cap 5 closes and adsorbs piece 1.1 and magnet 5.9 and adsorb. Be equipped with gas vaulting pole 5.8 on the side cap 5, gas vaulting pole 5.8 is located the box, and gas vaulting pole 5.8 one end is connected side cap 5, and the other end can be connected bottom plate 1, front bezel 3 or back plate 4, and it is preferable that the other end of gas vaulting pole 5.8 is connected bottom plate 1 to consider space and ventilation effect in the box. The opening angle of the side plate is controlled through the air stay bar 5.8, and the air stay bar 5.8 is connected with the box body through a nut and a bolt. As shown in fig. 3, a first hollowed-out hole array 5.1 is arranged on the side cover 5, the first hollowed-out hole array 5.1 is located between the hinge 5.6 and the handle 5.7, first sliding grooves 5.2 are arranged on the upper side and the lower side of the outer surface of the side cover 5, the first upper sliding groove 5.2 and the first lower sliding groove 5.2 are correspondingly arranged, the first lower sliding groove 5.2 is located between the handle 5.7 and the first hollowed-out hole array 5.1, and the first upper sliding groove 5.2 is located between the hinge 5.6 and the first hollowed-out hole array 5.1. A first cover plate 5.3 is arranged in the first sliding groove 5.2, the first cover plate 5.3 is in sliding connection with the first sliding groove 5.2, the first cover plate 5.3 is arranged corresponding to the first hollowed-out hole array 5.1, the upper side of the first cover plate 5.3 is located in the first upper sliding groove 5.2, the lower side of the first cover plate 5.3 is located in the first lower sliding groove 5.2, and a second hollowed-out hole array 5.4 is arranged on the first cover plate 5.3 corresponding to the first hollowed-out hole array 5.1. The covering plate one 5.3 can slide in the sliding groove one 5.2, and can move back and forth by sliding the covering plate one 5.3, and the covering plate one 5.3 can not shield, partially shield or completely shield the hollow hole array one 5.1: the second hollow hole array 5.4 on the first cover plate 5.3 is in positive correspondence with the first hollow hole array 5.1, and the first hollow hole array 5.1 is superposed with the second hollow hole array 5.4; a part of the first hollow hole array 5.1 is superposed with the second hollow hole array 5.4 (half covered as shown in figure 3); the first cover plate 5.3 covers the first hollow hole array 5.1, that is, the non-hollow part of the first cover plate 5.3 corresponds to the first hollow hole array 5.1. The first hollow hole array 5.1 and the second hollow hole array 5.4 can be completely misaligned, partially overlapped and completely overlapped. The outer side of the side cover 5 can be provided with a first limiting block 5.5 which is positioned at the front side and the rear side of the first covering plate 5.3 or at the front end and the rear end of the first slideway, the first front limiting block 5.5 is used for limiting the first covering plate 5.3 in front, and the first rear limiting block 5.5 is used for limiting the first covering plate 5.3 in rear. The back plate 4 is a hollowed-out plate. The front plate 3 is provided with air inlet holes 3.2, the front plate 3 is provided with three air inlet fans 3.1, the number of the air inlet fans 3.1 is three, the air inlet holes 3.2 are sequentially arranged on the front plate 3 along the longitudinal direction, and the air inlet holes 3.2 are arranged corresponding to the air inlet fans 3.1, as shown in fig. 1, 2 and 6. As shown in fig. 4, a plurality of hollowed-out screen plates 2.1 are arranged on the top plate 2, the hollowed-out screen plates 2.1 are arranged at intervals, the top plate 2 can realize ventilation in the box body and outside the box body through the hollowed-out screen plates 2.1, the hollowed-out screen plates 2.1 are arranged at equal intervals and are in a bar shape/rectangular shape, the length direction of the bar-shaped hollowed-out screen plate 2.1 is the width direction of the top plate 2, and the intervals of the bar-shaped hollowed-out screen plates 2.1 are greater than the width of the bar-shaped hollowed-out. The upper surface of the top plate 2 is provided with a second sliding chute 2.2, the second sliding chute 2.2 is arranged on the left side and the right side of the top plate 2, a second cover plate 2.3 is slidably arranged in the second sliding chute 2.2 on the left side and the second sliding chute 2.2 on the right side, the second cover plate 2.3 is provided with through holes 2.4 corresponding to the second hollowed-out screen plate 2.1, the second cover plate 2.3 can cover the second hollowed-out screen plate 2.1 by sliding in the second sliding chute 2.2, and a non-through hole 2.4 of the second cover plate 2.3 is covered right above the second hollowed-out screen plate 2.1; the superposition of the hollowed-out screen plate 2.1 and the through hole 2.4 can be realized, no covering is arranged right above the hollowed-out screen plate 2.1, and the hollowed-out screen plate 2.1 is right opposite to the corresponding through hole 2.4. That is, the hollowed-out net plate 2.1 and the through holes 2.4 can be completely not overlapped as shown in fig. 5, can be partially overlapped, and can also be completely overlapped as shown in fig. 4, and whether the cover plate 2.3 covers the hollowed-out net plate 2.1 or not can be controlled by sliding the cover plate 2.3 along the sliding chute 2.2. The outer side surface of the top plate 2 is provided with a second limiting block 2.5 which is positioned at the front side and the rear side of the second covering plate 2.3 and also positioned at the front end and the rear end of the second slideway, the second front limiting block 2.5 is used for limiting the second covering plate 2.3 in front, and the second rear limiting block 2.5 is used for limiting the second covering plate 2.3 in rear.

A vertical plate 11 is arranged in the box body, and the vertical plate 11 can be arranged on the bottom plate 1. As shown in fig. 6, a motherboard 9, a CPU, a solid state disk 10, a power supply 6, a graphics card 7 and a CPU heat sink are installed in the box. The main board 9 can be mounted on the vertical board 11, the power supply 6 is mounted on the upper side or the lower side of the main board 9 in the box body, the CPU is connected with the main board 9, the display card 7 is connected with the main board 9, the solid state disk 10 is mounted on the vertical board 11, and other connection relations are not described herein; the display card 7 is a conventional display card 7 with a second temperature-control radiator, the power supply 6 is a conventional power supply 6 with a first temperature-control radiator, in the embodiment, the power supply 6 is arranged at the lower side in the box body and can be arranged on the bottom plate 1, and when the side cover 5 is opened through the hinge 5.6, the heat dissipation effect of the power supply 6 is good; the CPU adopts the existing CPU with a heat radiation fan, the heat radiation fan 8 of the CPU is arranged on the rear plate 4 of the box body, and the heat radiation fan 8 of the CPU is arranged corresponding to the hollow part of the rear plate 4.

The side cover 5 can be provided with a first dust screen which is arranged corresponding to the first hollow hole array 5.1. The top plate 2 can be provided with a second dust screen which is arranged corresponding to the hollowed-out screen plate 2.1. The rear plate 4 can be provided with a third dust screen which is arranged corresponding to the hollow-out position on the rear plate 4. The dust screen can reduce the volume of entering quick-witted incasement dust, but need in time clear up the dust screen to influence the heat dissipation.

The utility model relates to a computer heat dissipation machine case is through setting up three inlet fan 3.1, and it is effectual to admit air, and the circulation of air is effectual, and the radiating effect of hardware such as mainboard 9 is good in the box. Use the utility model discloses the time, according to the environment, the space, software use quantity etc, the user can open side cap 5 through hinge 5.6, through inside the box of the realization of slidable overlay one 5.3 through fretwork hole array one 5.1 intercommunication machine case outside, through slidable overlay two 2.3 realize in the box through fretwork otter board 2.1 intercommunication machine case outside as figure 4, wherein side cap 5 and fretwork hole array one 5.1 can open simultaneously, power 6 adopts the power 6 that has temperature control type radiator one, display card 7 adopts the display card 7 that has temperature control type radiator two, the temperature adjustment operating power that temperature control type radiator one and temperature control type radiator two are according to, the utility model discloses a side cap 5 design combination has the power 6 of temperature control type radiator one and has display card 7 of temperature control type radiator two, compromise heat dissipation and electric energy saving. When the computer is not used, the side cover 5 is closed, the first cover plate 5.3 covers the first hollowed hole array 5.1, and the second cover plate 2.3 covers the hollowed screen plate 2.1. Through the arrangement of the second cover plate 2.3 and the hollowed-out screen plate 2.1, the problem that dust enters the case from the top plate 2 when the existing computer is not used is solved, and the case is as shown in fig. 4 when working and as shown in fig. 5 when not working. The utility model discloses compromise the problem that the radiating efficiency is high and the electric energy is practiced thrift.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. A computer heat dissipation case is characterized by comprising a case body, wherein the case body comprises a bottom plate (1), a top plate (2), a front plate (3), a rear plate (4) and a side cover (5), and a power supply (6) with a temperature control type radiator I, a display card (7) with a temperature control type radiator II, a main board (9), a CPU with a heat dissipation fan and a solid state disk (10) are arranged in the case body; the rear plate (4) is a hollow plate, and a heat radiation fan (8) of the CPU is arranged on the rear plate (4) and corresponds to the hollow hole of the rear plate (4); three air inlet fans (3.1) are arranged on the front plate (3) and are sequentially arranged along the longitudinal direction, and air inlet holes (3.2) are formed in the front plate (3) corresponding to the air inlet fans (3.1); the side cover (5) is connected with the top plate (2) through a hinge (5.6), one end of an air supporting rod (5.8) is connected onto the side cover (5), the other end of the air supporting rod (5.8) is connected with the bottom plate (1), the front plate (3) or the rear plate (4), a magnet (5.9) is arranged on the inner side of the lower portion of the side cover (5), an adsorption block (1.1) is arranged on the bottom plate (1) corresponding to the position of the magnet (5.9), a handle (5.7) is arranged on the outer surface of the side cover (5), and the side cover (5) can be opened and closed through the handle (5.7); the side cover (5) is provided with a first hollowed hole array (5.1), the first hollowed hole array (5.1) is located between the hinge (5.6) and the handle (5.7), the upper side and the lower side of the outer surface of the side cover (5) are respectively provided with a first sliding groove (5.2), the first lower sliding groove (5.2) is located between the handle (5.7) and the first hollowed hole array (5.1), and the first upper sliding groove (5.2) is located between the hinge (5.6) and the first hollowed hole array (5.1); a first cover plate (5.3) is installed in the first sliding groove (5.2), a second hollow hole array (5.4) is arranged on the first cover plate (5.3) corresponding to the first hollow hole array (5.1), and whether the first cover plate (5.3) covers the first hollow hole array (5.1) or not can be controlled by sliding the first cover plate (5.3) along the first sliding groove (5.2); a plurality of hollowed-out screen plates (2.1) are arranged on the top plate (2) at intervals, a second sliding groove (2.2) is arranged on the upper surface of the top plate (2), a second cover plate (2.3) is slidably arranged in the second sliding groove (2.2), through holes (2.4) are formed in the second cover plate (2.3) corresponding to the hollowed-out screen plates (2.1), and whether the second cover plate (2.3) covers the hollowed-out screen plates (2.1) or not can be controlled by sliding the second cover plate (2.3) along the second sliding groove (2.2); and the outer side surface of the top plate (2) is provided with a second limiting block (2.5) which is positioned on the front side and the rear side of the second covering plate (2.3) and used for limiting the front and the rear of the second covering plate (2.3).

2. The computer heat dissipation case of claim 1, characterized in that a first limiting block (5.5) for limiting the front and back of the first covering plate (5.3) is arranged outside the side cover (5).

3. A computer heat sink case according to claim 1, wherein the power supply (6) is located on the underside of the case.

4. The computer heat dissipation case of claim 1, wherein a first dust screen is disposed on the side cover (5) corresponding to the first hollowed-out hole array (5.1).

5. The computer heat dissipation case of claim 1, wherein a second dust screen is arranged on the top plate (2) corresponding to the hollowed-out screen plate (2.1).

6. The computer heat dissipation case of claim 1, wherein a third dust screen is arranged on the rear plate (4).

7. A computer heat sink case according to claim 1, wherein the other end of the air stay (5.8) is connected to the base plate (1).