CN214177829U - Computer network safety protection device capable of efficiently dissipating heat - Google Patents

Abstract

The utility model discloses a radiating computer network safety arrangement of ability high efficiency relates to the technical field of network server rack, including the rack main part, place subassembly and cooling module, wherein, the rack main part specifically includes the rack bottom plate, the rack roof, the support bar, the rack curb plate, rack panel and spacing, it is equipped with a plurality of and evenly distributed in the inboard of rack main part to place the subassembly, it is used for steadily placing network server and specifically including placing the dish to place the subassembly, press from both sides tight strip, connection piece and spacing piece to place the subassembly, cooling module is equipped with a plurality of and corresponds the downside that distributes in each place the subassembly, cooling module is used for cooling off network server fast and specifically includes the reposition of redundant personnel cover, admit air the fan, the shunt tubes, admit air the cover and precooling spare. To sum up, the utility model provides a computer network safety arrangement has design benefit, rational in infrastructure, convenient to use, maintains convenient and the quick characteristics of heat dissipation.

Description

Computer network safety protection device capable of efficiently dissipating heat

Technical Field

The utility model relates to a technical field of network server rack, concretely relates to radiating computer network safety arrangement can high efficiency.

Background

The network server is used as an important core component of a computer local area network, and the protection and the maintenance of the network server become a very important link. In order to avoid the network server from being damaged and operated by the outside world at will, the network server is usually installed inside a dedicated network server cabinet.

However, the existing network server cabinet generally has the defects of simple and crude structure, single function, poor heat dissipation performance, poor protection performance and inconvenience for later-period overhaul and maintenance. At present, in order to make a network server cabinet have a better ventilation and heat dissipation environment, a back door of the cabinet is usually designed into a high-density mesh door, but in the actual use process, dust can be attached to the surface of the mesh door and blocks meshes or directly penetrates through the meshes to enter the cabinet, and the dust accumulated for a long time can certainly obstruct the rapid dissipation of heat on the network server therein, so that the network server is burnt out due to overhigh working temperature.

Disclosure of Invention

An object of the utility model is to provide a can high-efficient radiating computer network safety arrangement to solve the above-mentioned defect that leads to among the prior art.

The utility model provides a radiating computer network safety arrangement of ability high efficiency, includes the rack main part, places subassembly and cooling module, wherein:

the cabinet main body specifically comprises a cabinet bottom plate, a cabinet top plate, support bars, cabinet side plates, a cabinet panel and limit bars, wherein the cabinet bottom plate and the cabinet top plate are horizontally arranged, the cabinet bottom plate is positioned under the cabinet top plate, the four support bars are arranged in a rectangular array, two ends of each support bar are respectively connected with the corners of the cabinet bottom plate and the cabinet top plate, the cabinet side plates are provided with a pair of support bars which are symmetrically and fixedly arranged on the left side and the right side, long-strip-shaped heat dissipation ports are uniformly distributed on the cabinet side plates, the cabinet panel is provided with two support bars which are symmetrically and detachably arranged on the front side and the rear side, support legs are uniformly arranged on the lower side of the cabinet bottom plate, the limit bars are provided with a pair of support bars which are symmetrically and symmetrically arranged on the inner sides of the left cabinet side plate and the right cabinet side plate, the cross section of the limit bars is of a V-shaped structure, two rows of limit holes which are uniformly distributed are symmetrically arranged on the limit strip;

the placing assembly is provided with a plurality of placing plates which are uniformly distributed on the inner side of the cabinet main body, is used for stably placing the network server and specifically comprises a placing disc, a clamping strip, a connecting sheet and a limiting sheet;

the cooling assembly is provided with a plurality of and correspondingly distributes on each downside of placing the subassembly, cooling assembly is used for cooling off network server fast and specifically includes reposition of redundant personnel cover, air inlet fan, shunt tubes, air inlet cover and precooling spare.

Preferably, the cabinet panel is composed of an installation frame, an acrylic plate and a lifting rod, the acrylic plate and the lifting rod are respectively installed on the inner side and the outer side of the installation frame, insertion and placement strips in a 7 shape are installed on the upper side and the lower side of the inner side of the installation frame, rectangular insertion and placement pipes are correspondingly installed on the front edge and the rear edge of the cabinet bottom plate and the cabinet top plate, and a first magnet block is fixed on the inner side of each insertion and placement pipe.

Preferably, place the dish level and be located about between two spacing, the bottom evenly distributed who places the dish has the circular shape inlet port, the corner of placing the dish all is equipped with the deashing mouth, press from both sides tight strip and be equipped with a pair of and bilateral symmetry and distribute, press from both sides tight strip and place and be connected through a plurality of compression spring one between the inner wall of dish, it is fixed with magnet piece two to press from both sides the symmetry on the tight strip, the connection piece is equipped with a pair of and symmetrical the left and right sides of placing the dish, the connection piece is "nearly" font structure, spacing piece is equipped with a pair of and corresponds the top of connecting in the connection piece of both sides, spacing piece is V font structure, compression spring two is installed to the inboard of spacing piece, the outside symmetry of spacing piece is equipped with a pair of spacing post, the both ends of spacing piece all are equipped with the rubber sleeve.

Preferably, the reposition of redundant personnel cover is located and places the dish under, the air inlet fan is installed in the downside of reposition of redundant personnel cover, the shunt tubes is equipped with a plurality of and evenly welds in the upside of reposition of redundant personnel cover, the last port correspondence of shunt tubes is connected in each inlet port department, the air inlet cover is installed in the downside of air inlet fan, the rear side of air inlet cover is equipped with the suction nozzle between two parties, precooling spare is equipped with a plurality of and evenly distributed on the ya keli board of rear side, is equipped with the mounting groove of a list of evenly distributed's rectangle on the ya keli board of rear side, precooling spare specifically includes precooling cover, cold-conducting aluminum plate, semiconductor refrigeration piece, heat dissipation aluminum plate and heat dissipation fan, precooling cover corresponds to be installed in the inboard of mounting groove, the outside of precooling cover is equipped with the air guide mouth between two parties, be connected through corrugated metal pipe between air guide mouth and the suction nozzle, cold-conducting aluminum plate passes through long screw installation in the inboard of precooling cover, semiconductor refrigeration piece is attached in the outside of leading cold aluminum plate, heat dissipation aluminum plate is attached in the outside of semiconductor refrigeration piece, the heat dissipation fan is installed in heat dissipation aluminum plate's the outside, lead screw connection between cold aluminum plate and the heat dissipation aluminum plate.

The utility model has the advantages that: when the computer network safety protection device capable of efficiently radiating heat is in practical application:

(1) the quick installation of the cabinet panel can be realized by correspondingly inserting the upper and lower inserting strips on the installation frame into the inserting pipes on the cabinet bottom plate and the cabinet top plate, and the cabinet panel can be tightly attached to the cabinet bottom plate and the cabinet top plate by additionally installing the magnet block.

(2) Through placing network server among placing the dish to press from both sides tight strip through the clamp of both sides and press from both sides tightly, provide the clamp force through compression spring one during, provide magnetic attraction through magnet piece two, can will place among the arbitrary one deck spacing hole of coil card put on spacing strip through spacing post on the spacing piece, realize placing the freedom and the quick regulation of the height of dish, provide the tensile force of spacing piece through compression spring two during.

(3) Inhale the reposition of redundant personnel cover with the room temperature air through admitting air the fan in, the balanced heat dissipation to network server is realized to each position of the bottom of placing the dish with the normal atmospheric temperature air transmission to a plurality of shunt tubes of rethread, avoids the air current too to concentrate and leads to the heat dissipation inequality, and refrigerates through the semiconductor refrigeration piece, blows to network server again after can cooling inhaled room temperature air, is showing the radiating effect and the radiating efficiency who promote network server.

To sum up, the utility model provides a computer network safety arrangement has design benefit, rational in infrastructure, convenient to use, maintains convenient and the quick characteristics of heat dissipation.

Drawings

Fig. 1 is a schematic diagram of the overall three-dimensional structure of the present invention.

Fig. 2 is a schematic structural diagram of the whole front view of the present invention.

Fig. 3 is a schematic structural diagram of the cabinet main body of the present invention.

Fig. 4 and 5 are schematic structural views of a part of the cabinet main body.

Fig. 6 is a schematic structural diagram of the placement component of the present invention.

Fig. 7 and 8 are schematic structural views of the cooling module according to the present invention.

Fig. 9 is a schematic view of the structure of the pre-cooling member in the cooling assembly.

Wherein:

10-a cabinet body; 101-a cabinet floor; 102-a cabinet top plate; 103-a support strip; 104-cabinet side panels; 1041-heat dissipation port; 105-a cabinet panel; 1051-an installation frame; 1052-acrylic sheet; 1052 a-mounting grooves; 1053-lifting and placing rod; 106-inserting and placing strips; 107-inserting and placing tubes; 108-magnet block one; 109-a limit bar; 1091-limit holes; 110-a leg;

20-placing the assembly; 201-placing a tray; 2011-inlet ports; 2012-dust removal port; 202-a clamping bar; 203-compression spring one; 204-magnet block two; 205-connecting piece; 206-a limiting sheet; 207-a limit post; 208-compression spring two; 209-rubber sleeve;

30-a cooling assembly; 301-a flow diversion cover; 302-an air supply fan; 303-a shunt tube; 304-an inlet cowl; 304 a-an air inlet nozzle; 305-a pre-chill; 3051-precooling cover; 3051 a-air guide nozzle; 3052-cold conducting aluminum plate; 3053-semiconductor refrigerating sheet; 3054-heat dissipating aluminum plate; 3055-Heat dissipating fan.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

As shown in fig. 1 to 9, a computer network safety protection device capable of dissipating heat efficiently includes a cabinet body 10, a placement component 20 and a cooling component 30, wherein:

the cabinet body 10 specifically comprises a cabinet bottom plate 101, a cabinet top plate 102, support bars 103, cabinet side plates 104, cabinet panels 105 and limit bars 109, wherein the cabinet bottom plate 101 and the cabinet top plate 102 are arranged horizontally, the cabinet bottom plate 101 is positioned under the cabinet top plate 102, the four support bars 103 are arranged in a rectangular array, two ends of each support bar 103 are respectively connected with the corners of the cabinet bottom plate 101 and the cabinet top plate 102, the cabinet side plates 104 are provided with a pair of support bars 103 which are fixedly arranged on the left side and the right side symmetrically, elongated heat dissipation holes 1041 are uniformly distributed on the cabinet side plates 104, the cabinet panels 105 are provided with two support bars 103 which are detachably arranged on the front side and the rear side symmetrically, the support bars 110 are uniformly arranged on the lower side of the cabinet bottom plate 101, the limit bars 109 are provided with a pair of support bars which are symmetrically arranged on the inner sides of the left side plate 104 and the right side plate 104, the cross section of the limiting strip 109 is of a V-shaped structure, and two rows of uniformly distributed limiting holes 1091 are symmetrically arranged on the limiting strip 109;

the placing component 20 is provided with a plurality of placing plates which are uniformly distributed on the inner side of the cabinet main body 10, and the placing component 20 is used for stably placing the network server and specifically comprises a placing disc 201, a clamping strip 202, a connecting sheet 205 and a limiting sheet 206;

the cooling assembly 30 is provided with a plurality of cooling assemblies and correspondingly distributed at the lower side of each placing assembly 20, and the cooling assembly 30 is used for rapidly cooling the network server and specifically comprises a diversion cover 301, an air inlet fan 302, a diversion pipe 303, an air inlet cover 304 and a pre-cooling piece 305.

In this embodiment, the cabinet panel 105 includes an installation frame 1051, an acrylic plate 1052 and a lifting rod 1053, the acrylic plate 1052 and the lifting rod 1053 are respectively installed on the inner and outer sides of the installation frame 1051, the upper and lower sides of the inner side of the installation frame 1051 are respectively installed with a 7-shaped insertion and placement strip 106, the front and rear edges of the cabinet bottom plate 101 and the cabinet top plate 102 are correspondingly installed with rectangular insertion and placement pipes 107, and the inner sides of the insertion and placement pipes 107 are fixed with first magnet blocks 108. In practical application, the upper and lower insertion strips 106 on the mounting frame 1051 are correspondingly inserted into the insertion tubes 107 on the cabinet bottom plate 101 and the cabinet top plate 102, so that the cabinet panel 105 can be quickly mounted, and the cabinet panel 105 can be tightly attached to the cabinet bottom plate 101 and the cabinet top plate 102 by additionally mounting the first magnet 108.

In this embodiment, the placing tray 201 is horizontally located between the left and right limiting strips 109, the bottom of the placing tray 201 is uniformly distributed with circular air inlet holes 2011, the corners of the placing tray 201 are provided with ash cleaning ports 2012, the clamping strips 202 are arranged in a pair and are distributed in bilateral symmetry, the clamping strips 202 are connected with the inner wall of the placing disc 201 through a plurality of compression springs I203, the clamping strip 202 is symmetrically fixed with a second magnet block 204, the connecting piece 205 is provided with a pair of magnets and symmetrically arranged at the left side and the right side of the placing disc 201, the connecting piece 205 is of a structure like a Chinese character 'ji', the limiting piece 206 is provided with a pair of connecting pieces 205 which are correspondingly connected with the two sides, the limiting sheet 206 is of a V-shaped structure, a second compression spring 208 is arranged on the inner side of the limiting sheet 206, a pair of limiting columns 207 is symmetrically arranged on the outer side of the limiting sheet 206, and rubber sleeves 209 are sleeved at two ends of the limiting sheet 206. During practical application, the network server is placed in the placing disc 201 and clamped through the clamping strips 202 on two sides, clamping force is provided through the first compression spring 203, magnetic attraction force is provided through the second magnet block 204, the placing disc 201 can be clamped in any one layer of limiting holes 1091 in the limiting strips 109 through the limiting columns 207 on the limiting pieces 206, free and quick adjustment of the height of the placing disc 201 is achieved, and tensioning force of the limiting pieces 206 is provided through the second compression spring 208.

In this embodiment, the diversion cover 301 is located under the placing tray 201, the air inlet fan 302 is installed at the lower side of the diversion cover 301, the diversion pipes 303 are provided with a plurality of air inlets and are uniformly welded at the upper side of the diversion cover 301, the upper end ports of the diversion pipes 303 are correspondingly connected to the air inlets 2011, the air inlet cover 304 is installed at the lower side of the air inlet fan 302, the rear side of the air inlet cover 304 is centrally provided with an air inlet nozzle 304a, the pre-cooling piece 305 is provided with a plurality of air inlets and is uniformly distributed on the acrylic plate 1052 at the rear side, a row of uniformly distributed rectangular installation grooves 1052a is arranged on the acrylic plate 1052 at the rear side, the pre-cooling piece 305 specifically comprises a pre-cooling cover 3051, a cold guide aluminum plate 3052, a semiconductor cooling sheet 3053, a heat dissipation aluminum plate 3054 and a heat dissipation fan 3055, the pre-cooling cover 3051 is correspondingly installed at the inner side of the installation grooves 3051a, the outer side of the pre-cooling cover 3051 is centrally provided with an air guide nozzle 3051, be connected through corrugated metal pipe between air guide tap 3051a and the air inlet nozzle 304a, lead cold aluminum plate 3052 and install in precooling cover 3051's inboard through long screw, semiconductor refrigeration piece 3053 is attached in the outside of leading cold aluminum plate 3052, heat dissipation aluminum plate 3054 is attached in the outside of semiconductor refrigeration piece 3053, heat dissipation fan 3055 is installed in the outside of heat dissipation aluminum plate 3054, lead screw connection between cold aluminum plate 3052 and the heat dissipation aluminum plate 3054. During practical application, inhale the room temperature air through the fan 302 that admits air among the reposition of redundant personnel cover 301, the rethread is a plurality of shunt tubes 303 with the transmission of room temperature air to each position of the bottom of placing dish 201, the realization is to network server's balanced heat dissipation, avoid the air current too concentrated to lead to the heat dissipation uneven, and refrigerate through semiconductor refrigeration piece 3053, can cool off the back with inspiratory room temperature air and blow to network server again, show the radiating effect and the radiating efficiency who promotes network server.

In this embodiment, the computer network security protection device capable of dissipating heat efficiently is applied in practice:

(1) the cabinet panel 105 can be quickly installed by correspondingly inserting the upper and lower inserting strips 106 on the installation frame 1051 into the inserting and placing pipes 107 on the cabinet bottom plate 101 and the cabinet top plate 102, and the cabinet panel 105 can be tightly attached to the cabinet bottom plate 101 and the cabinet top plate 102 by additionally installing the first magnet block 108.

(2) Through placing network server among placing dish 201 to press from both sides tight through the clamp strip 202 of both sides, provide the clamp force through compression spring 203 during, provide magnetic attraction through magnet piece two 204, can will place dish 201 card and put among the spacing hole 1091 of arbitrary one deck on spacing strip 109 through spacing post 207 on spacing piece 206, realize placing the free and quick regulation of the height of dish 201, provide the tensile force of spacing piece 206 through compression spring two 208 during.

(3) Inhale the room temperature air through admitting air fan 302 in reposition of redundant personnel cover 301, the rethread is a plurality of shunt tubes 303 with the normal atmospheric temperature air transmission to each position of placing the bottom of dish 201, realize the balanced heat dissipation to network server, avoid the air current too concentrated to lead to the heat dissipation uneven, and refrigerate through semiconductor refrigeration piece 3053, can cool off the back with inspiratory room temperature air and blow to network server again, show the radiating effect and the radiating efficiency who promotes network server.

To sum up, the utility model provides a computer network safety arrangement has design benefit, rational in infrastructure, convenient to use, maintains convenient and the quick characteristics of heat dissipation.

The embodiments disclosed above are therefore to be considered in all respects as illustrative and not restrictive. All changes which come within the scope of the invention or which are equivalent to the scope of the invention are embraced by the invention.

Claims (3)

1. The utility model provides a can high-efficient radiating computer network safety arrangement which characterized in that: including rack main part (10), place subassembly (20) and cooling module (30), wherein:

the cabinet body (10) specifically comprises a cabinet bottom plate (101), a cabinet top plate (102), supporting strips (103), cabinet side plates (104), a cabinet panel (105) and limiting strips (109), wherein the cabinet bottom plate (101) and the cabinet top plate (102) are arranged horizontally, the cabinet bottom plate (101) is positioned under the cabinet top plate (102), four supporting strips (103) are arranged in a rectangular array, two ends of each supporting strip (103) are respectively connected to the corners of the cabinet bottom plate (101) and the cabinet top plate (102), the cabinet side plates (104) are provided with a pair of supporting strips (103) which are fixedly arranged on the left side and the right side, rectangular heat dissipation ports (1041) are uniformly distributed on the cabinet side plates (104), and the cabinet panel (105) is provided with two supporting strips (103) which are symmetrically arranged on the front side and the back side in a detachable manner, the cabinet panel (105) comprises a mounting frame (1051), an acrylic plate (1052) and a lifting rod (1053), the acrylic plate (1052) and the lifting rod (1053) are respectively arranged at the inner side and the outer side of the mounting frame (1051), the upper and lower sides of the inner side of the mounting frame (1051) are both provided with 7-shaped inserting strips (106), rectangular inserting and placing pipes (107) are correspondingly arranged on the front and rear edges of the cabinet bottom plate (101) and the cabinet top plate (102), a first magnet block (108) is fixed on the inner side of the insertion tube (107), support legs (110) are uniformly arranged on the lower side of the cabinet bottom plate (101), the limiting strips (109) are provided with a pair and are symmetrically arranged at the inner sides of the left and right cabinet side plates (104), the cross section of the limiting strip (109) is of a V-shaped structure, and two rows of uniformly distributed limiting holes (1091) are symmetrically arranged on the limiting strip (109);

the placing assembly (20) is provided with a plurality of placing plates which are uniformly distributed on the inner side of the cabinet main body (10), the placing assembly (20) is used for stably placing the network server and specifically comprises a placing disc (201), a clamping strip (202), a connecting plate (205) and a limiting plate (206);

cooling module (30) are equipped with a plurality of and correspond and distribute in each downside of placing subassembly (20), cooling module (30) are used for cooling network server fast and specifically include reposition of redundant personnel cover (301), admit air fan (302), shunt tubes (303), admit air cover (304) and precooling piece (305).

2. The computer network security protection device capable of dissipating heat efficiently according to claim 1, wherein: the novel dust-removing plate is characterized in that the placing plate (201) is horizontally arranged between a left limiting strip and a right limiting strip (109), round air inlet holes (2011) are uniformly distributed at the bottom of the placing plate (201), dust-removing holes (2012) are formed in corners of the placing plate (201), the clamping strips (202) are symmetrically distributed in the left and right directions, the clamping strips (202) are connected with the inner wall of the placing plate (201) through a plurality of compression springs I (203), magnet blocks II (204) are symmetrically fixed on the clamping strips (202), the connecting pieces (205) are provided with a pair of compression springs II (208) which are symmetrically arranged on the left side and the right side of the placing plate (201), the connecting pieces (205) are of a structure like a Chinese character ' ji ', the limiting pieces (206) are provided with a pair of connecting pieces (205) which are correspondingly connected to the two sides, the limiting pieces (206) are of a structure like a V ', the compression springs II (208) are arranged on the inner sides of the limiting pieces (206), the outer side of the limiting sheet (206) is symmetrically provided with a pair of limiting columns (207), and two ends of the limiting sheet (206) are sleeved with rubber sleeves (209).

3. The computer network security protection device capable of dissipating heat efficiently according to claim 2, wherein: the flow dividing cover (301) is located under the placing plate (201), the air inlet fan (302) is installed on the lower side of the flow dividing cover (301), the flow dividing pipe (303) is provided with a plurality of air inlet nozzles (304a) and is uniformly welded on the upper side of the flow dividing cover (301), the upper end opening of the flow dividing pipe (303) is correspondingly connected to each air inlet hole (2011), the air inlet cover (304) is installed on the lower side of the air inlet fan (302), the rear side of the air inlet cover (304) is provided with an air inlet nozzle (304a) in the middle, the pre-cooling piece (305) is provided with a plurality of air inlet nozzles (304a) and is uniformly distributed on the acrylic plate (1052) on the rear side, a row of uniformly distributed rectangular installation grooves (1052a) is arranged on the acrylic plate (1052) on the rear side, the pre-cooling piece (305) specifically comprises a pre-cooling cover (3051), a cold guide aluminum plate (3052), a semiconductor refrigeration piece (3053), a heat dissipation aluminum plate (3054) and a heat dissipation fan (, the outside of precooling cover (3051) is equipped with air guide mouth (3051a) between two parties, be connected through corrugated metal pipe between air guide mouth (3051a) and air inlet nozzle (304a), lead cold aluminum plate (3052) and install in the inboard of precooling cover (3051) through long screw, semiconductor refrigeration piece (3053) is attached in the outside of leading cold aluminum plate (3052), attached in the outside of semiconductor refrigeration piece (3053) heat dissipation aluminum plate (3054), install in the outside of heat dissipation aluminum plate (3054) heat dissipation fan (3055), lead screw connection between cold aluminum plate (3052) and heat dissipation aluminum plate (3054).

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