CN211089838U - Thing networking switch heat abstractor - Google Patents

Abstract

The utility model belongs to the field of the Internet of things switch, in particular to a heat dissipation device of an Internet of things switch, aiming at the problem that the heat dissipation effect is poor because the heat dissipation device of the existing Internet of things switch can not dissipate heat in all directions, the utility model provides a scheme which comprises a shell and an Internet of things switch main body positioned in the shell, wherein one side of the shell is provided with a connecting port which is electrically connected with the Internet of things switch main body, the periphery of the Internet of things switch main body is provided with a second annular rack, a moving ring is sleeved outside the second annular rack in a sliding way, a first annular rack is fixedly sleeved outside the moving ring, and a motor is fixedly arranged on one side inner wall of the shell, the utility model can dissipate heat in all directions, can greatly enhance the heat dissipation effect, can timely dissipate heat to avoid accidents such, and avoids affecting the service life thereof.

Description

Thing networking switch heat abstractor

Technical Field

The utility model relates to a thing networking switch technical field especially relates to a thing networking switch heat abstractor.

Background

The Internet of things is an important component of a new generation of information technology and is also an important development stage of the 'informatization' era. As the name implies, the Internet of things is the Internet with connected objects. The internet of things is widely applied to network fusion through communication perception technologies such as intelligent perception, identification technology and pervasive computing, and is also called as the third wave of development of the world information industry after computers and the internet. A switch means a "switch," which is a network device used for forwarding electrical signals. It may provide an exclusive electrical signal path for any two network nodes accessing the switch. The most common switch is an ethernet switch. Other common are telephone voice switches, fiber switches, and the like. The temperature of the switch rises after the switch is operated for a long time, the heat dissipation rate of the switch is low, and most of switches of the internet of things are provided with heat dissipation devices;

however, most of existing internet-of-things switch heat dissipation devices cannot dissipate heat in all directions, so that the heat dissipation effect is poor, accidents such as circuit breaking and short circuit are easily caused by untimely heat dissipation treatment, and the service life of the heat dissipation device is affected.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving and exist among the prior art and can not all-roundly dispel the heat, lead to the poor shortcoming of radiating effect, and the thing networking switch heat abstractor who proposes.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the heat dissipation device for the Internet of things switch comprises a shell and an Internet of things switch main body located inside the shell, wherein a connecting port is installed on one side of the shell and is electrically connected with the Internet of things switch main body, a second annular rack is arranged at the periphery of the Internet of things switch main body, a moving ring is sleeved outside the second annular rack in a sliding mode, a first annular rack is fixedly sleeved outside the moving ring, a motor is fixedly installed on the inner wall of one side of the shell, a rotating column is welded on an output shaft of the motor, a first arc-shaped gear is sleeved on the rotating column and meshed with the first annular rack, a plurality of moving blocks are fixedly installed on the moving ring, a heat dissipation mechanism is installed on one side, away from the first annular rack, of each moving block, a second arc-shaped gear is connected onto the heat dissipation mechanism and meshed with the second annular rack, the motor starts and can drive first arc gear through the rotation post and rotate, thereby can drive first annular rack and rotate on the bottom inner wall of casing, first annular rack rotates and drives the shift ring and rotate, the shift ring rotates and drives a plurality of movable blocks and removes, can drive heat dissipation mechanism and second arc gear when a plurality of movable blocks remove, can carry out self rotation under the cooperation with second annular rack when second arc gear removes, and the rotation of second arc gear can drive heat dissipation mechanism and rotate, reach the radiating purpose of blowing.

Preferably, the second annular rack, the moving ring and the first annular rack are arranged concentrically.

Preferably, the second annular rack is welded to the inner wall of the bottom of the housing, and the moving ring and the first annular rack are rotatably mounted on the inner wall of the bottom of the housing.

Preferably, the heat dissipation mechanism includes that the rotation is installed in the movable block and is kept away from the dwang on one side of first annular rack, and the cover is equipped with first gear and second arc gear on the dwang, and first gear is located between movable block and the second arc gear, the top of first gear is equipped with the drive column of rotation installation on the movable block, and the cover is equipped with the second gear on the drive column, the second gear is connected with the chain, and the second gear passes through the chain and is connected with first gear drive, and the rotation of second arc gear can drive the drive column through dwang, first gear, chain and second gear and rotate.

Preferably, a plurality of fan blades are welded on the transmission column, the fan blades are arranged on one side, away from the moving block, of the second gear at intervals at equal intervals, and the rotation of the transmission column can drive the fan blades to move, so that airflow change is caused, and the purpose of heat dissipation is achieved.

The utility model discloses in, thing networking switch heat abstractor

1. The motor, the rotating column, the first arc-shaped gear, the first annular rack, the moving ring and the moving block are arranged, so that the heat dissipation mechanism can be driven to do circular motion in the shell, and the purpose of omnibearing heat dissipation is achieved;

2. due to the arrangement of the second arc gear, the rotating rod, the first gear, the chain, the second gear, the transmission column and the second annular rack, when the heat dissipation mechanism does circular motion, the fan blades can move to cause airflow change, so that the purpose of heat dissipation is achieved;

the utility model discloses can all-round dispel the heat, can strengthen the radiating effect by a wide margin, can in time carry out the radiating treatment and avoid causing accidents such as circuit breaking short circuit, and avoid influencing its life.

Drawings

Fig. 1 is a schematic top view of the heat dissipation device of the internet of things switch provided by the present invention;

fig. 2 is an enlarged schematic structural diagram of a portion a in fig. 1 of the heat dissipation device of the switch of the internet of things provided by the present invention;

fig. 3 is the utility model provides a thing networking switch heat abstractor's heat dissipation mechanism's schematic structure diagram.

In the figure: the internet of things switch comprises a shell 1, an internet of things switch body 2, a connecting port 3, a first annular rack 4, a moving ring 5, a second annular rack 6, a motor 7, a rotating column 8, a first arc-shaped gear 9, a moving block 10, a heat dissipation mechanism 11, a first gear 111, a transmission column 112, a second gear 113, a chain 114, fan blades 115 and a second arc-shaped gear 12.

Detailed Description

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

Example one

Referring to fig. 1-3, the internet of things switch heat dissipation device includes a housing 1 and an internet of things switch main body 2 located inside the housing 1, a connection port 3 is installed at one side of the housing 1, the connection port 3 is electrically connected with the internet of things switch main body 2, a second ring-shaped rack 6 is arranged at the periphery of the internet of things switch main body 2, a moving ring 5 is slidably sleeved outside the second ring-shaped rack 6, a first ring-shaped rack 4 is fixedly sleeved outside the moving ring 5, a motor 7 is fixedly installed on the inner wall of one side of the housing 1, a rotating column 8 is welded on an output shaft of the motor 7, a first arc-shaped gear 9 is sleeved on the rotating column 8, the first arc-shaped gear 9 is meshed with the first ring-shaped rack 4, a plurality of moving blocks 10 are fixedly installed on the moving ring 5, a heat dissipation mechanism 11 is installed at one side of the moving blocks 10 away from the, the second arc gear 12 is meshed with the second annular rack 6, the motor 7 is started and can drive the first arc gear 9 to rotate through the rotating column 8, so that the first annular rack 4 can be driven to rotate on the inner wall of the bottom of the shell 1, the first annular rack 4 rotates and drives the moving ring 5 to rotate, the moving ring 5 rotates and drives the plurality of moving blocks 10 to move, the plurality of moving blocks 10 can drive the heat dissipation mechanisms 11 and the second arc gear 12 to move when moving, the second arc gear 12 can rotate under the coordination with the second annular rack 6 when moving, the rotation of the second arc gear 12 can drive the heat dissipation mechanisms 11 to rotate, the aim of blowing and heat dissipation is achieved, the plurality of moving blocks 10 drive the plurality of heat dissipation mechanisms 11 to move and perform circular motion around the internet of things switch body 2, the aim of omnibearing heat dissipation is achieved, the plurality of heat dissipation mechanisms 11 can be driven to dissipate heat simultaneously by arranging the motor 7, and resources are saved.

The utility model discloses in, second annular rack 6, shift ring 5 and first annular rack 4 are concentric setting.

The utility model discloses in, second annular rack 6 welds on casing 1's bottom inner wall, and shift ring 5 and first annular rack 4 all rotate and install on casing 1's bottom inner wall.

In the utility model, the motor 7, the rotating column 8, the first arc gear 9, the first annular rack 4, the moving ring 5 and the moving block 10 are arranged, so that the heat dissipation mechanism 11 can be driven to do circular motion in the shell 1, and the purpose of all-directional heat dissipation is achieved; due to the arrangement of the second arc gear 12, the rotating rod, the first gear 111, the chain 114, the second gear 113, the transmission column 112 and the second annular rack 6, when the heat dissipation mechanism 11 performs circular motion, the fan blades 115 can move to cause airflow change, so that the purpose of heat dissipation is achieved; the utility model discloses can all-round dispel the heat, can strengthen the radiating effect by a wide margin, can in time carry out the radiating treatment and avoid causing accidents such as circuit breaking short circuit, and avoid influencing its life.

Example two

Referring to fig. 1-3, the internet of things switch heat dissipation device includes a housing 1 and an internet of things switch main body 2 located inside the housing 1, a connection port 3 is installed at one side of the housing 1, the connection port 3 is electrically connected with the internet of things switch main body 2, a second ring-shaped rack 6 is arranged at the periphery of the internet of things switch main body 2, a moving ring 5 is slidably sleeved outside the second ring-shaped rack 6, a first ring-shaped rack 4 is fixedly sleeved outside the moving ring 5, a motor 7 is fixedly installed on the inner wall of one side of the housing 1, a rotating column 8 is welded on an output shaft of the motor 7, a first arc-shaped gear 9 is sleeved on the rotating column 8, the first arc-shaped gear 9 is meshed with the first ring-shaped rack 4, a plurality of moving blocks 10 are fixedly installed on the moving ring 5, a heat dissipation mechanism 11 is installed at one side of the moving blocks 10 away from the, the second arc gear 12 is meshed with the second annular rack 6, the motor 7 is started and can drive the first arc gear 9 to rotate through the rotating column 8, so that the first annular rack 4 can be driven to rotate on the inner wall of the bottom of the shell 1, the first annular rack 4 rotates and drives the moving ring 5 to rotate, the moving ring 5 rotates and drives the plurality of moving blocks 10 to move, the plurality of moving blocks 10 can drive the heat dissipation mechanisms 11 and the second arc gear 12 to move when moving, the second arc gear 12 can rotate under the coordination with the second annular rack 6 when moving, the rotation of the second arc gear 12 can drive the heat dissipation mechanisms 11 to rotate, the aim of blowing and heat dissipation is achieved, the plurality of moving blocks 10 drive the plurality of heat dissipation mechanisms 11 to move and perform circular motion around the internet of things switch body 2, the aim of omnibearing heat dissipation is achieved, the plurality of heat dissipation mechanisms 11 can be driven to dissipate heat simultaneously by arranging the motor 7, and resources are saved.

The utility model discloses in, heat dissipation mechanism 11 is installed in the movable block 10 and is kept away from the dwang on one side of first annular rack 4 including rotating, and the cover is equipped with first gear 111 and second arc gear 12 on the dwang, first gear 111 is located between movable block 10 and the second arc gear 12, the top of first gear 111 is equipped with the transmission post 112 of rotating and installing on movable block 10, and the cover is equipped with second gear 113 on the transmission post 112, second gear 113 is connected with chain 114, and second gear 113 is connected with first gear 111 transmission through chain 114, the rotation of second arc gear 12 can pass through the dwang, first gear 111, chain 114 and second gear 113 drive transmission post 112 and rotate.

The utility model discloses in, the welding has a plurality of flabellums 115 on the transmission post 112, and one side that second gear 113 kept away from movable block 10 is located to a plurality of flabellums 115 equidistance intervals, the rotation of transmission post 112 can drive flabellum 115 and remove, arouse the air current change, reach radiating purpose, through setting up a motor 7, rotate the post 8, first arc gear 9, first annular rack 4, shift ring 5 can drive a plurality of movable blocks 10 simultaneously and remove, also make a plurality of heat dissipation mechanisms 11 remove simultaneously, carry out all-round heat dissipation, in the removal, because the second annular rack 6 that sets up, can drive flabellum 115 rotatory, reach the radiating purpose of blowing.

In the utility model, the motor 7, the rotating column 8, the first arc gear 9, the first annular rack 4, the moving ring 5 and the moving block 10 are arranged, so that the heat dissipation mechanism 11 can be driven to do circular motion in the shell 1, and the purpose of all-directional heat dissipation is achieved; due to the arrangement of the second arc gear 12, the rotating rod, the first gear 111, the chain 114, the second gear 113, the transmission column 112 and the second annular rack 6, when the heat dissipation mechanism 11 performs circular motion, the fan blades 115 can move to cause airflow change, so that the purpose of heat dissipation is achieved; the utility model discloses can all-round dispel the heat, can strengthen the radiating effect by a wide margin, can in time carry out the radiating treatment and avoid causing accidents such as circuit breaking short circuit, and avoid influencing its life.

In the utility model, the motor 7 is started by the switch, the motor 7 drives the rotating column 8 to rotate, the rotating column 8 drives the first arc gear 9 to rotate, because the first arc gear 9 is meshed with the first annular rack 4, at the moment, the first annular rack 4 rotates on the bottom inner wall of the shell 1, because the first annular rack 4 is fixedly sleeved outside the moving ring 5, the moving ring 5 moves along with the movement of the first annular rack 4, when the moving ring 5 rotates, a plurality of moving blocks 10 fixedly arranged on the moving ring 5 move along with the movement, the rotating rod and the second arc gear 12 move along with the moving blocks 10, because the second arc gear 12 is meshed with the second annular rack 6 and because the second annular rack 6 is fixed, the second arc gear 12 can rotate under the influence of the second annular rack 6 when moving, the second arc gear 12 drives the rotating rod to rotate, thereby driving the first gear 111 to rotate, and the fan blades 115 can be driven to rotate through the chain 114, the second gear 113 and the transmission column 112, so as to cause air flow, and achieve the purpose of blowing and heat dissipation.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (5)

1. Thing networking switch heat abstractor, including casing (1) and the inside thing networking switch main part (2) that is located casing (1), connection port (3) are installed to one side of casing (1), and connection port (3) and thing networking switch main part (2) electric connection, its characterized in that, the periphery of thing networking switch main part (2) is equipped with second annular rack (6), and second annular rack (6) outer slip cover is equipped with shift ring (5), shift ring (5) outer fixed cover is equipped with first annular rack (4), and fixed mounting has motor (7) on one side inner wall of casing (1), the welding has rotation post (8) on the output shaft of motor (7), and rotates and is equipped with first arc gear (9) on post (8), first arc gear (9) mesh with first annular rack (4), a plurality of moving blocks (10) are fixedly mounted on the moving ring (5), a heat dissipation mechanism (11) is mounted on one side, away from the first annular rack (4), of each moving block (10), a second arc-shaped gear (12) is connected to each heat dissipation mechanism (11), and the second arc-shaped gears (12) are meshed with the second annular racks (6).

2. The internet of things switch heat sink of claim 1, wherein the second annular rack (6), the moving ring (5) and the first annular rack (4) are concentrically arranged.

3. The internet of things switch heat sink according to claim 1, wherein the second annular rack (6) is welded to the bottom inner wall of the housing (1), and the moving ring (5) and the first annular rack (4) are both rotatably mounted to the bottom inner wall of the housing (1).

4. The internet of things switch heat dissipation device of claim 1, wherein the heat dissipation mechanism (11) comprises a rotating rod rotatably mounted on one side of the moving block (10) far away from the first annular rack (4), a first gear (111) and a second arc gear (12) are sleeved on the rotating rod, the first gear (111) is located between the moving block (10) and the second arc gear (12), a transmission column (112) rotatably mounted on the moving block (10) is arranged above the first gear (111), a second gear (113) is sleeved on the transmission column (112), the second gear (113) is connected with a chain (114), and the second gear (113) is in transmission connection with the first gear (111) through the chain (114).

5. The internet of things switch heat dissipation device as recited in claim 4, wherein a plurality of fan blades (115) are welded to the transmission column (112), and the fan blades (115) are equidistantly and intermittently arranged on one side of the second gear (113) far away from the movable block (10).

Images