CN218158423U - High-performance radiator for optical fiber connector - Google Patents

Abstract

The utility model discloses a high performance radiator for optical fiber connector, the connecting plate comprises a connecting plate, the joint has the semiconductor refrigeration piece on the connecting plate, the semiconductor refrigeration piece one side is provided with refrigeration air supply mechanism, refrigeration air supply mechanism include fixed connection in cage housing on the connecting plate, its both staple bolts are airtight space, cage housing one end is rotated and is connected with second flabellum, fixedly connected with joint, the second flabellum is driven the rotation and blows to in order to order about the air current the joint. The utility model provides a high performance radiator for optical fiber connector has utilized the low temperature transmission of radiator with the semiconductor refrigeration piece to the radiator on, and after blow the air current through the blast pipe to the radiator after cooling down, transport again gas and blow and cool off on the optical fiber connector, can play when effectively cooling down low temperature excessively when can avoiding direct contact causes the injury to optical fiber connector's plastic casing.

Description

High-performance radiator for optical fiber connector

Technical Field

The utility model relates to a fiber connector's radiator technical field relates to a high performance radiator for fiber connector particularly.

Background

Optical fiber connectors, which typically use a glue to heat cure the optical fiber to the ceramic ferrule bore, require rapid cooling after curing to prevent the glue from bubbling.

According to patent No. CN201620127807.6, publication date: 2016-07-27, discloses a high-efficiency optical fiber connector cooling device, which comprises a box body, an optical fiber connector cooling plate, a cooling device and a set of cooling fans, wherein the top of the box body is open, a set of cooling holes are arranged on the side surface of the box body, a set of grooves for placing optical fiber connectors are arranged on the top surface of the optical fiber connector cooling plate, and the optical fiber connector cooling plate is arranged on the top of the box body; the utility model has the advantages of reasonable design, can the efficient with the rapid cooling of fiber connector under the high temperature, can carry out big cooling in batches to the product, therefore cooling cycle is short, and production efficiency is high, can effectively improve product quality, has fine practical value.

In the prior art including the patent, when cooling, the semiconductor refrigeration piece is used for transmitting low temperature to the heat dissipation plate so as to refrigerate and dissipate heat of the optical fiber connector in the groove of the heat dissipation plate, but the shell of the optical fiber connector is poor in thermal conductivity due to plastic, the semiconductor refrigeration piece needs lower temperature for rapidly cooling glue, and the plastic shell is brittle and easy to damage at the lower temperature.

Disclosure of Invention

The utility model aims at providing a high performance radiator for optical fiber connector aims at solving the semiconductor refrigeration piece of plastic casing contact rapid cooling and leads to the problem of embrittlement.

In order to achieve the above object, the present invention provides the following technical solutions: the utility model provides a high performance radiator for optical fiber connector, includes the connecting plate, the joint has the semiconductor refrigeration piece on the connecting plate, semiconductor refrigeration piece one side is provided with refrigeration air supply mechanism, refrigeration air supply mechanism include fixed connection in cage housing on the connecting plate, its both staple bolts are airtight space, cage housing one end is rotated and is connected with second flabellum, fixedly connected with joint, the second flabellum is driven the rotation in order to order about the air current blow to the joint.

Preferably, the two ends of the semiconductor refrigeration sheet are fixedly connected with radiators, the cage cover is fixedly communicated with blast pipes in a circumferential array mode, and the blast pipes face one of the radiators.

Preferably, a heat dissipation mechanism is arranged on the other side of the semiconductor refrigeration sheet, the heat dissipation mechanism comprises a support frame fixedly connected to the connecting plate, a first fan blade is rotatably connected to the support frame, and the first fan blade is driven to rotate so as to drive airflow to blow to the other radiator.

Preferably, the connecting plate is provided with bent plates in a circumferential array.

Preferably, a clamping interface is formed in the clamping head, and a through hole is formed in the clamping interface.

Preferably, the cage housing is a stainless steel shell.

In the technical scheme, the utility model provides a pair of high performance radiator for optical fiber connector possesses following beneficial effect: the radiator is utilized to transmit the low temperature of the semiconductor refrigerating sheet to the radiator, the air flow is blown to the radiator through the air supply pipe to be cooled, then the air flow is conveyed to the optical fiber connector to be cooled, and the plastic shell of the optical fiber connector can be prevented from being damaged by too low temperature when the air flow is in direct contact with the optical fiber connector while the air flow is effectively cooled.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to these drawings.

Fig. 1 is an overall schematic diagram provided in an embodiment of the present invention;

fig. 2 is a schematic diagram of an overall explosion provided by an embodiment of the present invention;

fig. 3 is a schematic overall cross-sectional view provided by an embodiment of the present invention.

Description of the reference numerals:

1. a connecting plate; 11. bending the plate; 12. a semiconductor refrigerating sheet; 121. a heat sink; 2. a refrigerating and air-supplying mechanism; 21. a cage housing; 22. an air supply pipe; 23. a second fan blade; 3. a heat dissipation mechanism; 31. a first fan blade; 32. a support frame; 4. a clamping head; 41. a card interface; 42. a through hole.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present disclosure more apparent, the technical solutions of the embodiments of the present disclosure will be described clearly and completely below with reference to the drawings of the embodiments of the present disclosure. It is to be understood that the described embodiments are only a few embodiments of the present disclosure, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the disclosure without inventive step, are within the scope of protection of the disclosure.

As shown in fig. 1-3, a high performance radiator for optical fiber connector includes a connecting plate 1, a semiconductor refrigerating sheet 12 is clamped on the connecting plate 1, a refrigerating air supply mechanism 2 is disposed on one side of the semiconductor refrigerating sheet 12, the refrigerating air supply mechanism 2 includes a cage housing 21 fixedly connected to the connecting plate 1, the two hoops thereof are enclosed, one end of the cage housing 21 is rotatably connected with a second fan blade 23 and a fixedly connected clamping connector 4, and the second fan blade 23 is driven to rotate to drive an air flow to blow to the clamping connector 4.

Specifically, semiconductor refrigeration piece 12 is clamped on connecting plate 1, one side of semiconductor refrigeration piece 12 is provided with refrigeration air supply mechanism 2, refrigeration air supply mechanism 2 includes cage housing 21 fixedly connected to connecting plate 1, its both hoops are closed space, semiconductor refrigeration piece 12 both ends all fixedly connected with radiator 121, one of them radiator 121 sets up in closed space, cage housing 21 one end is rotated and is connected with second flabellum 23, and cage housing 21 one end fixedly connected with joint 4, when using, at first with fiber connector joint on joint 4, then second flabellum 23 is driven rotatory, so that the air current gets into closed space, radiator 121 in closed space is along with semiconductor refrigeration piece 12 circular telegram refrigeration this moment, so that the temperature in the closed space reduces, second flabellum 23 blows the air current to joint 4 afterwards, so that the fiber connector on joint 4 cools down, make the glue solidification of fixing.

Among the above-mentioned technical scheme, utilized radiator 121 to transmit the low temperature of semiconductor refrigeration piece 12 to radiator 121 on, then blow the air current through blast pipe 22 and carry out the cooling back behind radiator 121, carry gas again and blow and cool off on the fiber connector, can avoid the low temperature when direct contact to cause the injury to fiber connector's plastic housing when can playing effective cooling.

As a further embodiment provided by the present invention, the cage housing 21 is circumferentially arrayed and fixedly communicated with the air supply pipes 22, and the air supply pipes 22 can directly flow outside air toward the heat sink 121 when the heat sink is used, so as to improve the cooling effect, and the heat sink 121 is in a closed space.

As the embodiment that the utility model further provides, 12 another sides of semiconductor refrigeration piece are provided with heat dissipation mechanism 3, heat dissipation mechanism 3 includes support frame 32 of fixed connection on connecting plate 1, it is connected with first flabellum 31 to rotate on the support frame 32, it is provided with crooked board 11 to be the circumference array on the connecting plate 1, when using, the another side of semiconductor refrigeration piece 12 produces the heat, heat transfer is to on another radiator 121, then first flabellum 31 is driven the rotation and blows to another radiator 121 with ordering about the air current and dispel the heat, the air current that blows in radiator 121 can keep away from blast pipe 22 along crooked board 11, avoid having thermal air current and is inhaled by blast pipe 22.

It should be noted that, the support frame 32 and the cage casing 21 are both fixedly connected with a motor, and the first fan blade 31 and the second fan blade 23 are fixedly connected to an output end of the motor.

As a further embodiment provided by the present invention, the clamping joint 4 has a clamping interface 41, the clamping interface 41 has a through hole 42, when in use, the cold air blows to the clamping interface 41 through the through hole 42, and the optical fiber connector is clamped on the clamping interface 41 to receive the cold air.

As a further embodiment provided by the utility model, the cage casing 21 is made of stainless steel, which prevents the corrosion and rust phenomenon that water column is attached to the outer wall of the cage casing 21 because of the high temperature contact when the cold air blows.

The working principle is as follows: firstly, the optical fiber connector is clamped on the clamping port 41, then the second fan blade 23 is driven to rotate, so that air flow directly flows towards the radiator 121 along the air supply pipe 22 and enters the closed space, at the moment, the radiator 121 in the closed space is electrified and refrigerated along with the semiconductor refrigerating sheet 12, so that the temperature in the closed space is reduced, then the second fan blade 23 blows the air flow towards the clamping port 41, the optical fiber connector is clamped on the clamping port 41 to receive cold air for cooling, meanwhile, the first fan blade 31 is driven to rotate to drive the air flow towards the other radiator 121 for heat dissipation, the air flow blown into the radiator 121 is far away from the air supply pipe 22 along the bending plate 11, and the air flow with heat is prevented from being sucked into the air supply pipe 22.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (6)

1. The utility model provides a high performance radiator for optical fiber connector, its characterized in that, includes connecting plate (1), the joint has semiconductor refrigeration piece (12) on connecting plate (1), semiconductor refrigeration piece (12) one side is provided with refrigeration air supply mechanism (2), refrigeration air supply mechanism (2) including fixed connection in cage housing (21) on connecting plate (1), its both staple bolts are airtight space, cage housing (21) one end is rotated and is connected with second flabellum (23), fixedly connected with joint (4), second flabellum (23) are blown in order to order about the air current in order to drive the rotation joint (4).

2. The high-performance radiator for the optical fiber connector according to claim 1, wherein the semiconductor cooling plate (12) is fixedly connected with radiators (121) at both ends, and the cage casing (21) is fixedly communicated with air supply pipes (22) in a circumferential array, wherein the air supply pipes (22) face one of the radiators (121).

3. The high-performance heat sink for the optical fiber connector according to claim 1, wherein a heat dissipation mechanism (3) is disposed on the other side of the semiconductor cooling plate (12), the heat dissipation mechanism (3) includes a support frame (32) fixedly connected to the connecting plate (1), a first fan blade (31) is rotatably connected to the support frame (32), and the first fan blade (31) is driven to rotate to drive an air flow to blow toward the other heat sink (121).

4. A high performance heat sink for an optical fiber connector according to claim 3, wherein the connection plate (1) is provided with curved plates (11) in a circumferential array.

5. The high-performance heat sink for the optical fiber connector according to claim 1, wherein the clip connector (4) is provided with a clip interface (41), and the clip interface (41) is provided with a through hole (42).

6. The high-performance heat sink for fiber optic connectors according to claim 1, wherein the cage housing (21) is a stainless steel shell.

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