CN216055366U - High-efficient radiating connector - Google Patents

Abstract

The application discloses high-efficient radiating connector relates to data transmission connector technical field, including the ware body, logical groove has been seted up at ware body inner wall middle part, ware body outer wall middle part rotates the cover and has the change, it is located inside the change to lead to the groove, the fixed cover has the heat dissipation box in the change, set up the circular slot in the heat dissipation box, circular slot, logical groove and ware are inside to communicate with each other, the circular slot is close to the fixed cover of one side inner wall that leads to the groove and has the fixed plate, the fixed plate internal fixation is provided with evenly distributed's cooling tube. This application passes through the air current inflation effect for external natural wind can make internal temperature of ware reduce like the air conditioner after entering into the ware body through the cooling tube of funnel shape, comes to carry out effectual heat dissipation to the connector, and when external no wind, radiator fan cooperation cooling tube also can effectively promote the heat dissipation of connector, reduces the heat to the damage of electronic components in the connector, prolongs the life of connector, makes the connector have the effect of high reliability.

Description

High-efficient radiating connector

Technical Field

The application relates to the technical field of data transmission connectors, in particular to a connector with high-efficiency heat dissipation.

Background

Connectors are also known as connectors, plugs and sockets. Generally refers to an electrical connector, i.e. a device that connects two active devices, transmitting current or signals. Connectors are not limited to electrical current, and are used in the optical signal path today with the rapid development of optoelectronic technology, and they function as circuit connectors. The existing connectors are mostly developed toward microminiature, high reliability and high precision.

The connector is connected the use back for a long time, the condition of generating heat can appear, so people often can set up radiating groove or louvre on the connector housing and dispel the heat, but the heat that the connector work produced is great, and the radiating effect of radiating groove and louvre is relatively poor, can shorten the life of connector, so can't satisfy prior art needs.

SUMMERY OF THE UTILITY MODEL

In order to solve the relatively poor problem of current connector radiating effect, this application provides a high-efficient radiating connector.

The application provides a high-efficient radiating connector adopts following technical scheme:

the utility model provides a high-efficient radiating connector, includes the ware body, logical groove has been seted up at ware body inner wall middle part, ware body outer wall middle part rotation cover has the swivel, it is inside to lead to the groove to be located the swivel, fixed cover has the heat dissipation box in the swivel, set up the circular slot in the heat dissipation box, the circular slot, lead to and communicate with each other between the ware body inside, the circular slot is close to the fixed cover of one side inner wall that leads to the groove and has the fixed plate, the fixed plate internal fixation is provided with evenly distributed's cooling tube, the cooling tube is the funnel shape, circular slot inner wall middle part is rotated and is provided with radiator fan.

Optionally, two first limiting grooves which are symmetrically distributed are formed in the inner wall of the rotating ring, a first elastic rubber block is bonded in each first limiting groove, and one side of each first elastic rubber block is in contact with the outer wall of the device body.

Optionally, a dust screen is fixedly arranged on one side of the inner wall of the circular groove, and the cooling fan is located between the fixing plate and the dust screen.

Optionally, a rotating rod is fixedly arranged at the top of the cooling fan, and the bottom end of the rotating rod is rotatably sleeved at the top of the inner wall of the circular groove.

Optionally, the top end of the rotating rod is located outside the device body, and the rotating rod is in a T shape.

Optionally, a second limiting groove is formed in the top of the inner wall of the circular groove, a second elastic rubber block is fixedly sleeved in the second limiting groove, and one side of the second elastic rubber block is in contact with the outer wall of the bottom end of the rotating rod.

Optionally, the outer wall of the device body is fixedly sleeved with two limiting rings which are symmetrically distributed, the rotating ring is located between the two limiting rings, and the limiting rings and the rotating ring are both in a ring shape.

Optionally, the inner wall of the device body is provided with uniformly distributed air holes on one side.

In summary, the present application includes at least one of the following benefits:

1. through the air flow expansion effect, after external natural wind enters the connector body through the funnel-shaped radiating pipe, the temperature in the connector body is reduced like an air conditioner, so that the connector is effectively radiated, when no wind exists outside, the radiating fan is matched with the radiating pipe, the radiating of the connector can be effectively promoted, the damage of heat to electronic components in the connector is reduced, and the service life of the connector is prolonged.

2. Through rotating the change, can drive the heat dissipation box and rotate, be convenient for adjust the air inlet angle in the heat dissipation box according to the wind direction of external natural wind, make natural wind effectively dispel the heat to the connector, still can rotate radiator fan through rotating the bull stick, make radiator fan after the rotation can minimize sheltering from to natural wind in the heat dissipation box, whole convenient and practical, suitable bulk production.

Drawings

FIG. 1 is a top plan view of the overall structure of the present application;

FIG. 2 is an elevational view of the overall construction of the present application;

FIG. 3 is an elevational cross-section of the overall structure of the present application;

fig. 4 is an enlarged view of the structure a in fig. 3 of the present application.

Description of reference numerals: 1. a body; 11. a through groove; 12. air holes; 13. a limiting ring; 2. rotating the ring; 21. a first limit groove; 22. a first elastic rubber block; 3. a heat dissipation box; 31. a circular groove; 32. a fixing plate; 33. a radiating pipe; 34. a heat radiation fan; 35. a rotating rod; 36. a dust screen; 37. a second limit groove; 38. a second elastic rubber block.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses high-efficient radiating connector, including the ware body 1, refer to fig. 1-3, gaseous 1 is current connector, and its inner structure has all been disclosed, and it is not redundantly described here, logical groove 11 has been seted up at ware body 1 inner wall middle part, and the cover is rotated in ware body 1 outer wall middle part has swivel 2, and ware body 1 can support and spacing swivel 2, and logical groove 11 is located swivel 2 insidely, and swivel 2 can shelter from logical groove 11.

Referring to fig. 1-3, a heat dissipation box 3 is fixedly sleeved in a rotating ring 2, the rotating ring 2 can support and limit the heat dissipation box 3, a circular groove 31 is formed in the heat dissipation box 3, the circular groove 31, a through groove 11 and the inside of a device body 1 are communicated, natural wind conveniently enters the device body 1 from the circular groove 31 through the through groove 11, a fixing plate 32 is fixedly sleeved on the inner wall of one side of the circular groove 31, close to the through groove 11, the circular groove 31 can support the fixing plate 32, uniformly distributed heat dissipation tubes 33 are fixedly arranged in the fixing plate 32, the fixing plate 32 can support the heat dissipation tubes 33, and the inside of the circular groove 31 can be shielded.

Referring to fig. 1 to 3, the heat dissipating pipe 33 is funnel-shaped, so that in the process of flowing air from the large hole end to the small hole end of the funnel-shaped heat dissipating pipe 33, the air is released from the small hole end after being extruded, which can be understood as a small throttling expansion, which can cause a reduction in air temperature, the conventional air conditioners and refrigerators and other refrigeration facilities are all made by using the throttling expansion principle, the heat dissipating fan 34 is rotatably disposed in the middle of the inner wall of the circular groove 31, the circular groove 31 can limit and support the heat dissipating fan 34, and the heat dissipating fan 34 can blow air to the heat dissipating pipe 33 when the outside is calm.

Referring to fig. 3, two first limiting grooves 21 are symmetrically arranged on the inner wall of the swivel 2, a first elastic rubber block 22 is bonded in the first limiting groove 21, the first limiting groove 21 can support and fix one end of the first elastic rubber block 22, one side of the first elastic rubber block 22 is in contact with the outer wall of the device body 1, so that the first elastic rubber block 22 can extrude the device body 1 under the elastic force to preliminarily fix the swivel 2 and the device body 1, and the swivel 2 is prevented from rotating on the device body 1 without resistance.

Referring to fig. 3, a dust screen 36 is fixedly disposed on one side of the inner wall of the circular groove 31, the circular groove 31 can fix the dust screen 36, the dust screen 36 can reduce the probability of dust entering the circular groove 31, and the heat dissipation fan 34 is disposed between the fixing plate 32 and the dust screen 36, so as to facilitate connection and distribution of the parts.

Referring to fig. 1-2, the outer wall of the device body 1 is fixedly sleeved with two limit rings 13 which are symmetrically distributed, the device body 1 can support and fix the limit rings 13, the swivel ring 2 is located between the two limit rings 13, so that the two limit rings 13 can clamp the swivel ring 2 to limit the swivel ring 2, the limit rings 13 and the swivel ring 2 are both in a ring shape, the limit rings 13 and the swivel ring 2 in the ring shape can rotate conveniently, the air holes 12 which are uniformly distributed are formed in one side of the inner wall of the device body 1, gas in the device body 1 can be discharged through the air holes 2, and air intake of the heat dissipation box 3 is matched to form circulation of air.

Referring to fig. 2-3, a rotating rod 35 is fixedly disposed at the top of the heat dissipating fan 34, the rotating rod 35 can drive the heat dissipating fan 34 to rotate integrally, the bottom end of the rotating rod 35 is rotatably sleeved at the top of the inner wall of the circular groove 31, so that the circular groove 31 can support and limit the rotating rod 35, the rotating rod 35 is T-shaped, and the top end of the rotating rod 35 is located outside the device body 1, so that people can rotate the T-shaped rotating rod 35 outside the device body 1.

Referring to fig. 3-4, a second limiting groove 37 is formed in the top of the inner wall of the circular groove 31, a second elastic rubber block 38 is fixedly sleeved in the second limiting groove 37, the second limiting groove 37 can support and fix one end of the second elastic rubber block 38, and one side of the second elastic rubber block 38 is in contact with the outer wall of the bottom end of the rotating rod 35, so that the rotating rod 35 can be extruded by the second elastic rubber block 38 under elastic force, the rotating rod 35 is preliminarily fixed with the heat dissipation box 3, and the rotating rod 35 is prevented from rotating on the heat dissipation box 3 without resistance.

The implementation principle of the connector with high-efficiency heat dissipation of the embodiment of the application is as follows:

when the device is used, the rotating ring 2 can be rotated according to the wind direction of external natural wind, the rotating ring 2 can drive the heat dissipation box 3 to rotate under the limit of the limit ring 13, the circular groove 31 of the heat dissipation box 3 can face the wind direction, the rotating ring 2 and the device body 1 can be preliminarily fixed under the elastic force of the first elastic rubber block 22 after the rotation, then the rotating rod 35 is held to rotate to drive the heat dissipation fan 34 to integrally rotate in the circular groove 31, so that the heat dissipation fan 34 can be tangent to the wind direction in the circular groove 31, the shielding of the natural wind in the heat dissipation box 3 is reduced as much as possible, the rotating rod 35 and the heat dissipation box 3 can be preliminarily fixed under the elastic force of the second elastic rubber block 38 after the rotating rod 35 is rotated, at the moment, the natural wind in the circular groove 31 can be blocked by the fixing plate 32, the natural wind flows to the small hole end through the large hole end of the funnel-shaped heat dissipation pipe 33, and the air is released from the small hole end of the heat dissipation pipe 33 after being extruded, under the throttling expansion effect, air enters the device body 1 through the through groove 11, and the air temperature in the device body 1 is reduced, so that the device body 1 is effectively radiated.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a connector of high-efficient heat dissipation, includes ware body (1), its characterized in that: logical groove (11) have been seted up at the middle part of the internal wall of the ware body (1), the cover is rotated at the middle part of the external wall of the ware body (1) has swivel (2), it is inside to lead to groove (11) to be located swivel (2), swivel (2) internal fixation cover has heat dissipation box (3), seted up circular slot (31) in heat dissipation box (3), communicate with each other between circular slot (31), logical groove (11) and the ware body (1) is inside, fixed cover has fixed plate (32) near one side internal wall that leads to groove (11) in circular slot (31), fixed plate (32) internal fixation is provided with evenly distributed's cooling tube (33), cooling tube (33) are the funnel shape, circular slot (31) inner wall middle part is rotated and is provided with radiator fan (34).

2. A heat efficient connector as recited in claim 1, wherein: two first spacing grooves (21) that the symmetry distributes are seted up to swivel (2) inner wall, first elastic rubber piece (22) have been bonded in first spacing groove (21), first elastic rubber piece (22) one side contacts with the external wall of the ware body (1).

3. A heat efficient connector as recited in claim 1, wherein: the dustproof net (36) is fixedly arranged on one side of the inner wall of the circular groove (31), and the heat dissipation fan (34) is located between the fixing plate (32) and the dustproof net (36).

4. A heat efficient connector as recited in claim 1, wherein: the top of the heat radiation fan (34) is fixedly provided with a rotating rod (35), and the bottom end of the rotating rod (35) is rotatably sleeved on the top of the inner wall of the circular groove (31).

5. A heat efficient connector as recited in claim 4, wherein: the top end of the rotating rod (35) is positioned outside the device body (1), and the rotating rod (35) is T-shaped.

6. A heat efficient connector as recited in claim 5, wherein: second spacing groove (37) have been seted up at circular slot (31) inner wall top, second spacing groove (37) internal fixation cover has second elastic rubber piece (38), second elastic rubber piece (38) one side contacts with bull stick (35) bottom outer wall.

7. A heat efficient connector as recited in claim 1, wherein: the outer wall of the device body (1) is fixedly sleeved with two limiting rings (13) which are symmetrically distributed, the rotating ring (2) is positioned between the two limiting rings (13), and the limiting rings (13) and the rotating ring (2) are both in a ring shape.

8. A heat efficient connector as recited in claim 1, wherein: the device body (1) is provided with uniformly distributed air holes (12) on one side of the inner wall.

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