CN205726861U - A kind of radiator structure of amplifirer - Google Patents

Abstract

The utility model discloses a kind of amplifirer radiator structure, including power amplifier components and radiating subassembly, described power amplifier components includes power board and power amplifier radome, and described power board is provided with some power amplifier elements；Described radiating subassembly includes that radiator and heat-conducting piece, the bottom surface of described heat-conducting piece abut against with described power board, and the end face of heat-conducting piece through described power amplifier radome and abuts with described radiator, and described heat-conducting piece is arranged between two adjacent power amplifier elements.This amplifirer radiator structure, on the basis of airflow radiating, heat-conducting piece is added between power amplifier element adjacent on power board, thus heat is conducted to radiator rapidly from power board and power amplifier element, avoid the thermal convection current between two adjacent power amplifier elements, thus the heat that efficiently avoid power tube close quarters is too high, greatly increases the radiating efficiency of radiator.

Description

A kind of radiator structure of amplifirer

Technical field

This utility model relates to amplifirer field, is specifically related to the radiator structure of a kind of amplifirer.

Background technology

Amplifirer is the abbreviation of power amplifier or power transformer, is widely used in all kinds of sound appliances.Amplifirer Internal electronic element distribution is compact, and power tube is generally disposed adjacent or sets in a row, i.e. in relatively small region, generation Heat is more, and conventional airflow radiating mode radiating effect is undesirable.

Utility model content

In order to overcome the deficiencies in the prior art, the purpose of this utility model is to provide for the merit of a kind of better heat-radiation effect Put device radiator structure.

The purpose of this utility model realizes by the following technical solutions:

A kind of amplifirer radiator structure, including power amplifier components and radiating subassembly, described power amplifier components includes power board and merit Putting radome, described power board is provided with some power amplifier elements；Described radiating subassembly includes radiator and heat-conducting piece, described heat conduction The bottom surface of part abuts against with described power board, and the end face of heat-conducting piece through described power amplifier radome and abuts with described radiator, Described heat-conducting piece is arranged between two adjacent power amplifier elements.

As preferably, described power amplifier element is the distribution of queue shape, and described heat-conducting piece is plate-shaped, and described heat-conducting piece is arranged at two Between the power amplifier element of adjacent column.

As preferably, described heat-conducting piece includes some stringer boards and a transverse slat, and described transverse slat is used for being connected some stringer boards, At least one stringer board is arranged between two adjacent power amplifier elements.

As preferably, described transverse slat upper end is dug some vents.

As preferably, described radiator bottom surface is provided with some air vents.

As preferably, described heat-conducting piece includes a base plate and some stringer boards arranged in parallel, described base plate and described power amplifier Plate abuts, and at least a stringer board is between two adjacent power amplifier elements.

As preferably, described heat-conducting piece include a top board and and biside plate, the outside of described side plate is equipped with power amplifier element, Institute's panel and side plate are all provided with the guide vane that oriented center extends.

As preferably, described power amplifier radome is provided with the embedded hole for described heat-conducting piece cross-under, the shape of described embedded hole Area ratio at mating shapes at shape and described heat-conducting piece cross-under, the area of described embedded hole and described heat-conducting piece cross-under For 1.05-1.2:1.

As preferably, described radiating subassembly also includes some fans.

Compared to existing technology, the beneficial effects of the utility model are:

The amplifirer radiator structure that this utility model provides, on the basis of airflow radiating, merit adjacent on power board Put and between element, add heat-conducting piece, thus heat is conducted to radiator rapidly from power board and power amplifier element, it is to avoid two The adjacent thermal convection current between power amplifier element, thus the heat that efficiently avoid power tube close quarters is too high, greatly carries The high radiating efficiency of radiator.

Accompanying drawing explanation

Fig. 1 is the fractionation structural representation of embodiment 1；

Fig. 2 is the first structural representation of heat-conducting piece；

Fig. 3 is the second structural representation of heat-conducting piece；

Fig. 4 is the 3rd structural representation of heat-conducting piece；

Fig. 5 is the structural representation of radiating subassembly.

Wherein, each reference: 1, power board；2, power amplifier radome；21, embedded hole；3, power amplifier element；4, radiator； 41, air vent；5, heat-conducting piece；51, stringer board；52, transverse slat；521, vent；53, base plate；54, top board；55, side plate；56, wind-guiding Sheet；6, fan.

Detailed description of the invention

Below, in conjunction with accompanying drawing and detailed description of the invention, this utility model is described further:

In detailed description below, described " on ", D score, " top ", the temporald eixis word such as " end " be construed as Temporald eixis to accompanying drawing.

Embodiment 1

A kind of amplifirer radiator structure, described amplifirer includes power amplifier components and radiating subassembly, as it is shown in figure 1, described merit Putting assembly and include power board 1 and power amplifier radome 2, described power board is provided with some power amplifier elements 3；Described radiating subassembly includes Radiator 4 and heat-conducting piece 5, the bottom surface of described heat-conducting piece abuts against with described power board, and the end face of heat-conducting piece passes described power amplifier Radome also abuts with described radiator, and described heat-conducting piece is arranged between two adjacent power amplifier elements.

The radiator structure of this amplifirer, on the basis of airflow radiating, by power amplifier element adjacent on power board it Between add heat-conducting piece, thus heat is conducted to radiator rapidly from power board and power amplifier element, it is to avoid two adjacent merits Put the thermal convection current between element, thus the heat that efficiently avoid power tube close quarters is too high, greatly increases heat radiation The radiating efficiency of device.

In the present embodiment, heat-conducting piece can be various shape, is the power board of queue shape distribution for power amplifier element, described Heat-conducting piece is plate-shaped, and described heat-conducting piece is arranged between the power amplifier element of two adjacent column.

Heat-conducting piece is except being arranged in addition to the part between two adjacent power amplifier elements, it is also possible to have other slave part, As in figure 2 it is shown, described heat-conducting piece includes some stringer boards 51 and a transverse slat 52, described transverse slat is for being connected some stringer boards, extremely A few stringer board is arranged between two adjacent power amplifier elements, to improve radiating efficiency.On this basis, further, described horizontal stroke Plate upper end is dug some vents 521, so that the air-flow in radome passes, thus accelerates air-flow in power amplifier radome Flow velocity.

Another structure of heat-conducting piece is as it is shown on figure 3, described heat-conducting piece includes a base plate 53 and some stringer boards arranged in parallel 51, described base plate abuts with described power board, and at least a stringer board is between two adjacent power amplifier elements.Adjacent stringer board Between formed vent passages, to improve the flow rate of air-flow.

Another structure of heat-conducting piece as shown in Figure 4, described heat-conducting piece include a top board 54 and with biside plate 55, described side plate Outside be equipped with power amplifier element, institute's panel and side plate be all provided with oriented center extend guide vane 56.Air-flow is in top board and both sides The area of space that plate is formed quickly flows, and under the wind-guiding effect of guide vane, thermal conduction rate is faster.

In the present embodiment, as preferred scheme, described radiator bottom surface is provided with some air vents 41, and air vent makes power amplifier Air-flow in radome is quickly discharged.

In the present embodiment, as it is shown in figure 1, described power amplifier radome is provided with the embedded hole 21 for described heat-conducting piece cross-under, Mating shapes at the shape of described embedded hole and described heat-conducting piece cross-under, the area of described embedded hole is worn with described heat-conducting piece The area ratio at the place of connecing is 1.05-1.2:1.The most described embedded hole is slightly larger than at described heat-conducting piece cross-under, and air-flow can be simultaneously in institute State and pass at the cross-under of heat-conducting piece, thus accelerate the heat conduction rate of heat-conducting piece.

In the present embodiment, as preferred scheme, described radiating subassembly also includes some fans 6, the position that fan is arranged It is preferably above radiator, to accelerate the radiating efficiency of radiator.Or as shown in Figure 4, described fan is coordinated in described heat-conducting piece Two ends, to accelerate the flow velocity of the area of space that air-flow is formed at top board and biside plate.

It will be apparent to those skilled in the art that can technical scheme as described above and design, make other various Corresponding change and deformation, and all these change and deformation all should belong to the protection of this utility model claim Within the scope of.

Claims (9)

1. an amplifirer radiator structure, it is characterised in that include power amplifier components and radiating subassembly；Described power amplifier components includes merit Putting plate and power amplifier radome, described power board is provided with some power amplifier elements；Described radiating subassembly includes radiator and heat-conducting piece, The bottom surface of described heat-conducting piece abuts against with described power board, the end face of heat-conducting piece through described power amplifier radome and with described heat radiation Device abuts, and described heat-conducting piece is arranged between two adjacent power amplifier elements.

Amplifirer radiator structure the most according to claim 1, it is characterised in that described power amplifier element is the distribution of queue shape, Described heat-conducting piece is plate-shaped, and described heat-conducting piece is arranged between the power amplifier element of two adjacent column.

Amplifirer radiator structure the most according to claim 1, it is characterised in that described heat-conducting piece includes some stringer boards and Transverse slat, described transverse slat is for being connected some stringer boards, and at least one stringer board is arranged between two adjacent power amplifier elements.

Amplifirer radiator structure the most according to claim 3, it is characterised in that described transverse slat upper end is dug some ventilations Mouthful.

Amplifirer radiator structure the most according to claim 1, it is characterised in that described radiator bottom surface is provided with some ventilations Hole.

Amplifirer radiator structure the most according to claim 1, it is characterised in that described heat-conducting piece includes a base plate and some Stringer board arranged in parallel, described base plate abuts with described power board, at least stringer board be positioned at two adjacent power amplifier elements it Between.

Amplifirer radiator structure the most according to claim 1, it is characterised in that described heat-conducting piece includes a top board and both sides Plate, the outside of described side plate is equipped with power amplifier element, and institute's panel and side plate are all provided with the guide vane that oriented center extends.

Amplifirer radiator structure the most according to claim 1, it is characterised in that described power amplifier radome is provided with for described Mating shapes at the embedded hole of heat-conducting piece cross-under, the shape of described embedded hole and described heat-conducting piece cross-under, described embedded hole Area and described heat-conducting piece cross-under at area ratio be 1.05-1.2:1.

Amplifirer radiator structure the most according to claim 1, it is characterised in that if described radiating subassembly also includes dry-air blast Fan.