阅读说明：本技术 一种网络机柜内置缓冲以及高散热辅助设备 (Network rack embeds buffering and high heat dissipation auxiliary assembly ) 是由 张景超 于 2021-07-16 设计创作，主要内容包括：本发明涉及网络设备的技术领域,且公开了一种网络机柜内置缓冲以及高散热辅助设备,包括网络机柜主体,所述网络机柜主体的外侧安装有外壳,所述网络机柜主体的内部安装有缓冲机构,所述缓冲机构的内部安装有活动块,所述活动块的外侧活动安装有安装弹簧,所述安装弹簧远离活动块的一端活动安装有连接杆。在网络机柜主体受到外界振动时,网络机柜主体的外壳受到振动,外壳受到振动向内侧推动活动块,在安装块的外侧活动连接有弹簧组件,安装块受到冲击时,安装块受到冲击随即向外侧压缩弹簧组件,弹簧组件随即受压变形,通过弹簧的受压缓冲,将冲击力进行缓冲消除,避免冲击力对网络机柜主体的内部造成损伤。(The invention relates to the technical field of network equipment, and discloses a network cabinet built-in buffering and high-heat-dissipation auxiliary device which comprises a network cabinet main body, wherein a shell is installed on the outer side of the network cabinet main body, a buffering mechanism is installed inside the network cabinet main body, a movable block is installed inside the buffering mechanism, a mounting spring is movably installed on the outer side of the movable block, and a connecting rod is movably installed at one end, far away from the movable block, of the mounting spring. When the network cabinet main body is vibrated from the outside, the shell of the network cabinet main body is vibrated, the shell is vibrated to push the movable block to the inner side, the spring assembly is movably connected to the outer side of the mounting block, when the mounting block is impacted, the mounting block is impacted to immediately compress the spring assembly to the outer side, the spring assembly is immediately pressed to deform, the impact force is buffered and eliminated through the compression buffering of the spring, and the damage of the impact force to the inside of the network cabinet main body is avoided.)

1. The utility model provides a built-in buffering of network rack and high heat dissipation auxiliary assembly, includes network rack main part (1), its characterized in that: shell (2) are installed in the outside of network cabinet main part (1), the internally mounted of network cabinet main part (1) has buffer gear (3), the internally mounted of buffer gear (3) has movable block (301), the outside movable mounting of movable block (301) has installation spring (302), the one end movable mounting that movable block (301) were kept away from in installation spring (302) has connecting rod (303), the one end that installation spring (302) were kept away from in connecting rod (303) is connected with installation piece (304), the one end that connecting rod (303) were kept away from in installation piece (304) is connected with spring assembly (305), spring assembly (305) are kept away from the one end of installation piece (304) and are installed and accept board (306).

2. The network cabinet built-in buffering and high heat dissipation auxiliary device of claim 1, wherein: the network cabinet is characterized in that a buffering support mechanism (4) is movably mounted inside the network cabinet main body (1), an inserting rod (401) is mounted inside the buffering support mechanism (4), a transfer hub block (402) is movably mounted outside the inserting rod (401), a shaft rod (403) is movably connected outside the transfer hub block (402), a fixed block (404) is connected to one end, far away from the transfer hub block (402), of the shaft rod (403), a supporting rod (405) is connected to one end, far away from the inserting rod (401), of the transfer hub block (402), and a supporting spring column (406) is movably connected to the outside of the supporting rod (405).

3. The network cabinet built-in buffering and high heat dissipation auxiliary device of claim 1, wherein: the inside of network rack main part (1) installs cable protective sheath (5).

4. The network cabinet built-in buffering and high heat dissipation auxiliary device of claim 3, wherein: the cable is placed in the cable protective sleeve (5).

5. The network cabinet built-in buffering and high heat dissipation auxiliary device of claim 1, wherein: the network cabinet main body (1) is internally and fixedly provided with a heat dissipation fan (6) on the inner wall.

6. The network cabinet built-in buffering and high heat dissipation auxiliary device of claim 5, wherein: the heat dissipation fans (6) are installed on the inner wall of the network cabinet main body (1) and are installed on the left side and the right side of the inner cavity of the network cabinet main body (1).

Technical Field

The invention relates to the technical field of network equipment, in particular to a network cabinet built-in buffer and high-heat-dissipation auxiliary device.

Background

The network cabinet is used for combining and installing a panel, a plug-in, an inserting box, an electronic element, a device, a mechanical part and a component to form an integral installation box, and comprises a server cabinet, a wall-mounted cabinet, a network cabinet, a standard cabinet, an intelligent protection type outdoor cabinet and the like according to the current type, and the structure of the cabinet has good rigidity and strength and good performances of electromagnetic isolation, grounding, noise isolation, ventilation and heat dissipation and the like. In addition, the network cabinet should have vibration resistance, impact resistance, corrosion resistance, dust prevention, water prevention, radiation protection and other properties so as to ensure stable and reliable operation of equipment. Traditional network cabinet often installs in the open air, and does not have effects such as anti-vibration, and external violent vibration often can cause the damage to the inside electrical components of network cabinet and cable etc. and the inside high temperature after the long-time work of network cabinet, causes the influence to network cabinet work.

Therefore, in order to solve the problems, a network cabinet built-in buffer and high-heat-dissipation auxiliary device is provided.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the built-in buffer and high-heat-dissipation auxiliary equipment for the network cabinet, which has the advantages of increasing the buffer, protecting internal elements and dissipating heat quickly.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a network rack embeds buffering and high heat dissipation auxiliary assembly, includes network rack main part, the shell is installed in the outside of network rack main part, the internally mounted of network rack main part has buffer gear, buffer gear's internally mounted has the movable block, the outside movable mounting of movable block has the installation spring, the one end movable mounting that the movable block was kept away from to the installation spring has the connecting rod, the one end that the installation spring was kept away from to the connecting rod is connected with the installation piece, the one end that the connecting rod was kept away from to the installation piece is connected with spring assembly, spring assembly keeps away from the one end of installation piece and installs and accept the board.

Preferably, the inside movable mounting of network rack main part has buffering gimbal mechanism, the internally mounted of buffering gimbal mechanism has the peg graft pole, the outside movable mounting of peg graft pole has the switching hub piece, the outside swing joint of switching hub piece has the axostylus axostyle, the one end that the switching hub piece was kept away from to the axostylus axostyle is connected with the fixed block, the one end that the peg graft pole was kept away from to the switching hub piece is connected with the bracing piece, the outside swing joint of bracing piece has the support spring post.

Preferably, a cable protective sleeve is installed inside the network cabinet main body.

Preferably, a cable is placed inside the cable protective sheath.

Preferably, the heat dissipation fan is fixedly installed inside the network cabinet main body and on the inner wall.

Preferably, the heat dissipation fan is installed on the inner wall of the network cabinet main body and installed on the left side and the right side of the inner cavity of the network cabinet main body.

Has the advantages that:

1. this network rack embeds buffering and high heat dissipation auxiliary assembly, when network rack main part receives external vibration, the shell of network rack main part receives the vibration, the shell receives the vibration and promotes the movable block to the inboard, the movable block then presses installation spring to the inboard, the installation spring receives the vibration, promote the connecting rod to the outside immediately, the connecting rod pushes the installation block to the outside immediately in step, the connecting rod pushes the installation block to the outside immediately, swing joint has spring assembly in the outside of installation block, when the installation block receives the impact, the installation block receives the impact and outside side compression spring assembly immediately, spring assembly receives the compressive deformation immediately, through the pressurized buffering of spring, cushion the elimination with the impact force, avoid the impact force to cause the damage to the inside of network rack main part.

2. This network rack embeds buffering and high heat dissipation auxiliary assembly, be provided with buffering gimbal mechanism through the inner chamber at network rack main part, when the shell receives vibrations impact buffer mechanism, the board of accepting of buffer mechanism bottom receives the impact, impact buffering gimbal mechanism inwards immediately, the inserted link of buffering gimbal mechanism inside is pressed immediately and is strikeed axle center piece, axle center piece receives the synchronous inside side compression bracing piece of impact, and simultaneously, along with the motion of axle center piece, then drive the axostylus axostyle and begin to move, the axostylus axostyle then cushions the impact force, simultaneously, along with the inboard promotion compression of bracing piece, the bracing piece is then to the inboard compression support spring post, support spring post compression deformation immediately, cushion the impact force, avoid external impact force to cause the damage to network rack main part, protect the inside network cable of cable protective sheath.

3. This network rack embeds buffering and high heat dissipation auxiliary assembly has the heat dissipation fan through the inside at network rack main part and lie in inner wall fixed mounting, and the heat dissipation fan is installed in the left and right sides of network rack main part inner chamber, and after the long-time work of network rack main part, inside temperature risees, begins work through the heat dissipation fan, dispels the heat to the inside of network rack main part, avoids the inside high temperature of network rack main part.

Drawings

FIG. 1 is a schematic view of a connection structure of a network cabinet main body according to the present invention;

FIG. 2 is a schematic view of the housing connection structure of the present invention;

FIG. 3 is a schematic view of a connection structure of the buffering mechanism according to the present invention;

FIG. 4 is a schematic view of a connection structure of the buffer support mechanism according to the present invention;

FIG. 5 is an enlarged view of the structure of area A in FIG. 1 according to the present invention.

In the figure: 1. a network cabinet main body; 2. a housing; 3. a buffer mechanism; 301. a movable block; 302. installing a spring; 303. a connecting rod; 304. mounting blocks; 305. a spring assembly; 306. a bearing plate; 4. a buffer support mechanism; 401. a plug rod; 402. a hub block; 403. a shaft lever; 404. a fixed block; 405. a support bar; 406. a support spring post; 5. a cable protective sheath; 6. a heat dissipation fan.

Detailed Description

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

Example one

Referring to fig. 1-3, a network cabinet built-in buffering and high heat dissipation auxiliary device includes a network cabinet main body 1, a housing 2 is installed on the outer side of the network cabinet main body 1, a buffering mechanism 3 is installed inside the network cabinet main body 1, a movable block 301 is installed inside the buffering mechanism 3, an installation spring 302 is movably installed on the outer side of the movable block 301, a connecting rod 303 is movably installed on one end of the installation spring 302 away from the movable block 301, an installation block 304 is connected to one end of the connecting rod 303 away from the installation spring 302, a spring assembly 305 is connected to one end of the installation block 304 away from the connecting rod 303, a bearing plate 306 is installed on one end of the spring assembly 305 away from the installation block 304, a buffering support mechanism 4 is movably installed inside the network cabinet main body 1, an insertion rod 401 is installed inside the buffering support mechanism 4, a transfer hub block 402 is movably installed on the outer side of the insertion rod 401, the outside swing joint of switching hub piece 402 has axostylus axostyle 403, the one end that switching hub piece 402 was kept away from to axostylus axostyle 403 is connected with fixed block 404, the one end that grafting pole 401 was kept away from to switching hub piece 402 is connected with bracing piece 405, the outside swing joint of bracing piece 405 has supporting spring post 406, the internally mounted of network cabinet main part 1 has cable protective sheath 5, the cable has been placed to the inside of cable protective sheath 5, the inside of network cabinet main part 1 just is located inner wall fixed mounting and has heat dissipation fan 6, the inner wall at network cabinet main part 1 is installed to heat dissipation fan 6, install in the left and right sides of network cabinet main part 1 inner chamber.

When the network cabinet main body 1 is vibrated by the outside, the shell 2 of the network cabinet main body 1 is vibrated, the shell 2 is vibrated to push the movable block 301 inwards, the movable block 301 then presses the mounting spring 302 inwards, the mounting spring 302 is vibrated and then pushes the connecting rod 303 outwards, the connecting rod 303 then synchronously pushes outwards, the connecting rod 303 then pushes the mounting block 304 outwards, the spring assembly 305 is movably connected to the outer side of the mounting block 304, when the mounting block 304 is impacted, the mounting block 304 is impacted to compress the spring assembly 305 outwards immediately, the spring assembly 305 is deformed by being pressed immediately, the impact force is buffered and eliminated by the compression buffering of the spring, and the damage of the impact force to the inside of the network cabinet main body 1 is avoided.

Example two

Referring to fig. 1 and 4, a network cabinet built-in buffering and high heat dissipation auxiliary device includes a network cabinet main body 1, a housing 2 is installed outside the network cabinet main body 1, a buffering mechanism 3 is installed inside the network cabinet main body 1, a movable block 301 is installed inside the buffering mechanism 3, an installation spring 302 is movably installed outside the movable block 301, a connection rod 303 is movably installed at one end of the installation spring 302 far away from the movable block 301, an installation block 304 is connected to one end of the connection rod 303 far away from the installation spring 302, a spring assembly 305 is connected to one end of the installation block 304 far away from the connection rod 303, a bearing plate 306 is installed at one end of the spring assembly 305 far away from the installation block 304, a buffering support mechanism 4 is movably installed inside the network cabinet main body 1, an insertion rod 401 is installed inside the buffering support mechanism 4, a transfer hub block 402 is movably installed outside the insertion rod 401, the outside swing joint of switching hub piece 402 has axostylus axostyle 403, the one end that switching hub piece 402 was kept away from to axostylus axostyle 403 is connected with fixed block 404, the one end that grafting pole 401 was kept away from to switching hub piece 402 is connected with bracing piece 405, the outside swing joint of bracing piece 405 has supporting spring post 406, the internally mounted of network cabinet main part 1 has cable protective sheath 5, the cable has been placed to the inside of cable protective sheath 5, the inside of network cabinet main part 1 just is located inner wall fixed mounting and has heat dissipation fan 6, the inner wall at network cabinet main part 1 is installed to heat dissipation fan 6, install in the left and right sides of network cabinet main part 1 inner chamber.

Through the arrangement of the buffering support mechanism 4 in the inner cavity of the network cabinet main body 1, when the shell 2 is shocked to impact the buffering mechanism 3, the receiving plate 306 at the bottom end of the buffering mechanism 3 is shocked, and then impacts the buffering support mechanism 4 inwards, the inserting rod 401 inside the buffering support mechanism 4 is shocked by pressure, and then impacts the axle center block 402, and the axle center block 402 is shocked and synchronously compresses the supporting rod 405 inwards, and meanwhile, along with the movement of the axle center block 402, the axle rod 403 is driven to start moving, and then the impact force is buffered by the axle rod 403, and meanwhile, along with the pushing and compressing of the inner side of the supporting rod 405, the supporting rod 405 then compresses the supporting spring column 406 inwards, and then the supporting spring column 406 is compressed and deformed, so that the impact force is buffered, the damage of the external impact force to the network cabinet main body 1 is avoided, and the network cable inside the cable protecting sleeve 5 is protected.

EXAMPLE III

Referring to fig. 1 and 5, a network cabinet built-in buffering and high heat dissipation auxiliary device includes a network cabinet main body 1, a housing 2 is installed outside the network cabinet main body 1, a buffering mechanism 3 is installed inside the network cabinet main body 1, a movable block 301 is installed inside the buffering mechanism 3, an installation spring 302 is movably installed outside the movable block 301, a connection rod 303 is movably installed at one end of the installation spring 302 far away from the movable block 301, an installation block 304 is connected to one end of the connection rod 303 far away from the installation spring 302, a spring assembly 305 is connected to one end of the installation block 304 far away from the connection rod 303, a bearing plate 306 is installed at one end of the spring assembly 305 far away from the installation block 304, a buffering support mechanism 4 is movably installed inside the network cabinet main body 1, an insertion rod 401 is installed inside the buffering support mechanism 4, a transfer hub block 402 is movably installed outside the insertion rod 401, the outside swing joint of switching hub piece 402 has axostylus axostyle 403, the one end that switching hub piece 402 was kept away from to axostylus axostyle 403 is connected with fixed block 404, the one end that grafting pole 401 was kept away from to switching hub piece 402 is connected with bracing piece 405, the outside swing joint of bracing piece 405 has supporting spring post 406, the internally mounted of network cabinet main part 1 has cable protective sheath 5, the cable has been placed to the inside of cable protective sheath 5, the inside of network cabinet main part 1 just is located inner wall fixed mounting and has heat dissipation fan 6, the inner wall at network cabinet main part 1 is installed to heat dissipation fan 6, install in the left and right sides of network cabinet main part 1 inner chamber.

Through just being located inner wall fixed mounting in the inside of network cabinet main part 1 and having heat dissipation fan 6, heat dissipation fan 6 is installed in the left and right sides of 1 inner chamber of network cabinet main part, and after long-time work of network cabinet main part 1, inside temperature risees, begins work through heat dissipation fan 6, dispels the heat to the inside of network cabinet main part 1, avoids the inside high temperature of network cabinet main part 1.

Example four

Referring to fig. 1-5, a network cabinet built-in buffering and high heat dissipation auxiliary device includes a network cabinet main body 1, a housing 2 is installed at the outer side of the network cabinet main body 1, a buffering mechanism 3 is installed inside the network cabinet main body 1, a movable block 301 is installed inside the buffering mechanism 3, an installation spring 302 is movably installed at the outer side of the movable block 301, a connecting rod 303 is movably installed at one end, away from the movable block 301, of the installation spring 302, a mounting block 304 is connected to one end, away from the installation spring 302, of the connecting rod 303, a spring assembly 305 is connected to one end, away from the connecting rod 303, of the mounting block 304, and a bearing plate 306 is installed at one end, away from the mounting block 304, of the spring assembly 305; when the network cabinet main body 1 is vibrated by the outside, the shell 2 of the network cabinet main body 1 is vibrated, the shell 2 is vibrated to push the movable block 301 inwards, the movable block 301 then presses the mounting spring 302 inwards, the mounting spring 302 is vibrated and then pushes the connecting rod 303 outwards, the connecting rod 303 then synchronously pushes outwards, the connecting rod 303 then pushes the mounting block 304 outwards, the spring assembly 305 is movably connected to the outer side of the mounting block 304, when the mounting block 304 is impacted, the mounting block 304 is impacted to compress the spring assembly 305 outwards immediately, the spring assembly 305 is deformed by being pressed immediately, the impact force is buffered and eliminated by the compression buffering of the spring, and the damage of the impact force to the inside of the network cabinet main body 1 is avoided.

A buffer support mechanism 4 is movably mounted inside the network cabinet main body 1, an insertion rod 401 is mounted inside the buffer support mechanism 4, a switching hub block 402 is movably mounted outside the insertion rod 401, a shaft lever 403 is movably connected outside the switching hub block 402, a fixed block 404 is connected to one end of the shaft lever 403 far away from the switching hub block 402, a support rod 405 is connected to one end of the switching hub block 402 far away from the insertion rod 401, a support spring column 406 is movably connected outside the support rod 405, and a cable protective sleeve 5 is mounted inside the network cabinet main body 1; through the arrangement of the buffering support mechanism 4 in the inner cavity of the network cabinet main body 1, when the shell 2 is shocked to impact the buffering mechanism 3, the receiving plate 306 at the bottom end of the buffering mechanism 3 is shocked, and then impacts the buffering support mechanism 4 inwards, the inserting rod 401 inside the buffering support mechanism 4 is shocked by pressure, and then impacts the axle center block 402, and the axle center block 402 is shocked and synchronously compresses the supporting rod 405 inwards, and meanwhile, along with the movement of the axle center block 402, the axle rod 403 is driven to start moving, and then the impact force is buffered by the axle rod 403, and meanwhile, along with the pushing and compressing of the inner side of the supporting rod 405, the supporting rod 405 then compresses the supporting spring column 406 inwards, and then the supporting spring column 406 is compressed and deformed, so that the impact force is buffered, the damage of the external impact force to the network cabinet main body 1 is avoided, and the network cable inside the cable protecting sleeve 5 is protected.

Cables are placed inside the cable protective sleeve 5, a heat dissipation fan 6 is fixedly installed inside the network cabinet main body 1 and located on the inner wall, and the heat dissipation fan 6 is installed on the inner wall of the network cabinet main body 1 and installed on the left side and the right side of the inner cavity of the network cabinet main body 1; through just being located inner wall fixed mounting in the inside of network cabinet main part 1 and having heat dissipation fan 6, heat dissipation fan 6 is installed in the left and right sides of 1 inner chamber of network cabinet main part, and after long-time work of network cabinet main part 1, inside temperature risees, begins work through heat dissipation fan 6, dispels the heat to the inside of network cabinet main part 1, avoids the inside high temperature of network cabinet main part 1.

The working principle is as follows: when in use, the network cabinet main body 1 is arranged outdoors, the buffer mechanism 3 and the buffer bracket mechanism 4 are fixedly arranged in the network cabinet main body 1, when the network cabinet main body 1 is vibrated by the outside, the shell 2 of the network cabinet main body 1 is vibrated, the shell 2 is vibrated to push the movable block 301 inwards, the movable block 301 then presses the mounting spring 302 inwards, the mounting spring 302 is vibrated to push the connecting rod 303 outwards, the connecting rod 303 then synchronously pushes outwards, the connecting rod 303 then pushes the mounting block 304 outwards, a spring assembly 305 is movably connected to the outer side of the mounting block 304, and when the mounting block 304 is impacted, the mounting block 304 is impacted to compress the spring assembly 305 outwardly, the spring assembly 305 is deformed in compression, the impact force is buffered and eliminated through the compression buffering of the spring, so that the damage of the impact force to the inside of the network cabinet main body 1 is avoided; meanwhile, the buffering support mechanism 4 is arranged in the inner cavity of the network cabinet main body 1, when the shell 2 is vibrated to impact the buffering mechanism 3, the bearing plate 306 at the bottom end of the buffering mechanism 3 is impacted, the buffering support mechanism 4 is impacted towards the inner side immediately, the insertion rod 401 in the buffering support mechanism 4 is pressed to impact the shaft core block 402 immediately, the shaft core block 402 is impacted, the supporting rod 405 is synchronously compressed towards the inner side when the shaft core block 402 is impacted, meanwhile, the shaft rod 403 is driven to start to move along with the movement of the shaft core block 402, the shaft rod 403 buffers the impact force, meanwhile, the supporting rod 405 compresses the supporting spring column 406 towards the inner side along with the pushing and compression of the inner side of the supporting rod 405, the supporting spring column 406 is compressed and deformed immediately, the impact force is buffered, the damage to the network cabinet main body 1 caused by the external impact force is avoided, and the network cable in the cable protective sleeve 5 is protected. Meanwhile, the heat dissipation fans 6 are fixedly mounted in the network cabinet main body 1 and located on the inner wall, the heat dissipation fans 6 are mounted on the left side and the right side of the inner cavity of the network cabinet main body 1, after the network cabinet main body 1 works for a long time, the internal temperature rises, the heat dissipation fans 6 start to work, the heat of the inside of the network cabinet main body 1 is dissipated, and the overhigh internal temperature of the network cabinet main body 1 is avoided.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.