CN2635953Y - Radiation structure for servo - Google Patents

Abstract

The utility model relates to a heat dissipation structure in a servo, which is characterized in: a heat dissipation device is arranged on the CPU of the servo in accordance with the heat dissipation efficiency required by the CPU and the power supply unit, and another heat dissipation device is arranged on the power supply unit; wherein, the former heat dissipation device monitors the heat generated by the CPU and dissipates heat, and the later heat dissipation device monitors the heat generated by the power supply unit and dissipates heat; in that way, separate heat dissipation is implemented for the CPU and the power supply unit, so that the interference in heat dissipation between the CPU and the power supply unit is avoided effectively, and the separate heat dissipation efficacies can be controlled and monitored more easily and accurately.

Description

Heat radiation framework in the servomechanism

Technical field

The utility model relates to the heat radiation framework in a kind of servomechanism, the central processing unit and the power supply unit that are meant a kind of this servomechanism especially independently dispel the heat individually, order can avoid heat radiation to each other to disturb effectively, and to individual other radiator control and monitor more easy, accurate.

Background technique

Press, so far, significantly progressive with work electronics, network communication products science and technology makes that its application is very extensive since the fan invention, and the planning of its function and purposes is more satisfied every electronics, network communication products and causing of Sui day by day gradually.With existing industrial servomechanism, its design height is IU (IU=44.45mm), yet, inside associated electronic components with the work servomechanism, and the processing rate of central authorities' processing processors (CPU) speeds, cause it under running or working state, can send high heat thereupon, and a large amount of hot gas that these electronic components produced, again for fear of the restriction in this servomechanism space, difficulty designs a convenient and effective radiating structure, to assist the lifting of heat sinking function, so common fan by at least more than one, be lower than maximum operation temperature with the surface temperature that makes these electronic components, make this servomechanism that one normal environment of operation be arranged.

The present industrial heat radiation framework that servomechanism adopted, be that an end is provided with a plurality of radiation fans that are arranged in together in this servomechanism, and on housing two terminal surfaces of this servomechanism, offer a plurality of equally spaced perforates respectively, make these radiation fans can comply with the control command of this heat radiation framework, the gas that housing one end is outer, in the importing servomechanism, the central processing unit of flowing through and power supply unit (Power Supply), again by housing end discharge in addition, the air-flow that makes central processing unit and power supply unit import by these radiation fans, reduce temperature, enable to be maintained in the scope of safe working temperature, but, should use the heat radiation framework of servomechanism always, and no-trump central processing unit and power supply unit the two, obviously separate, cause single control circuit can't distinguish central processing unit, the heat dissipation of power supply unit, so long as occurrence temperature is overheated in this servomechanism, this control circuit promptly starts radiation fan and dispels the heat, cause the control of heat dissipation to be difficult for, even may be because of central processing unit, the two hot air phase mutual interference of power supply unit, and cause hot air flow to discharge smoothly, it is overheated to make central processing unit or power supply unit easily take place, and makes part very easily produce the phenomenon of fault or accelerated ageing.

The model utility content

The purpose of this utility model is to provide the framework of the heat radiation in a kind of servomechanism, make the heat radiation of this central processing unit, power supply unit, can not interfere with each other, can avoid heat radiation to each other to disturb effectively, and more easy and accurate to the control and the supervision of indivedual heat dissipations.

For achieving the above object, the heat radiation framework in the servomechanism that the utility model provides comprises:

One heat dissipation equipment, be located on the central processing unit of this servomechanism, this heat dissipation equipment is provided with a thermal source inductor in this central processing unit, and be provided with one or an a plurality of radiation fan and a control circuit in this central processing unit one side, make the temperature of this control circuit according to the central processing unit of thermal source inductor institute sensing, control these radiation fans this central processing unit is dispelled the heat, make this central processing unit can keep its temperature in the scope of safe working temperature;

One another heat dissipation equipment, be located on the power supply unit of this servomechanism, this another heat dissipation equipment then is provided with a thermal source inductor in this power supply unit, and be provided with one or an a plurality of radiation fan and a control circuit in this power supply unit one side, make the temperature of this control circuit according to the power supply unit of thermal source inductor institute sensing, control these radiation fans this power supply unit is dispelled the heat, make this power supply unit can keep its temperature in the scope of safe working temperature.

Wherein the housing of this this servomechanism is on contiguous this central processing unit one terminal surface, be provided with the ventilation perforate of a plurality of equidistant arrangements, and on another terminal surface of corresponding this central processing unit, be provided with the ventilation opening of a plurality of equidistant arrangements, when making this heat dissipation equipment dispel the heat, the radiation fan of this heat dissipation equipment can be with the gas outside housing one end, in the importing servomechanism, the central processing unit of flowing through, again by housing end discharge in addition, the air-flow that central processing unit is imported by these radiation fans reduces temperature, enables to be maintained in the scope of safe working temperature.

Wherein the housing of this servomechanism is on contiguous this power supply unit one terminal surface, be provided with the air inlet perforate of a plurality of equidistant arrangements, and on another terminal surface of corresponding this power supply unit, be provided with the vent openings of a plurality of equidistant arrangements, when this another heat dissipation equipment dispels the heat, the radiation fan of this another heat dissipation equipment can be with the gas outside housing one end, in the importing servomechanism, the power supply unit of flowing through, again by housing end discharge in addition, the air-flow that makes this power supply unit be imported by these radiation fans reduces temperature, enables to be maintained in the scope of safe working temperature.

Wherein be provided with a dividing plate between this central processing unit and this power supply unit, isolate radiating airflow between this central processing unit, this power supply unit, make the heat radiation of this central processing unit, power supply unit, can not interfere with each other by this dividing plate.

Description of drawings

For further understanding and understanding being arranged to the purpose of this utility model, shape, construction device feature and effect thereof, elaborate with embodiment's conjunction with figs., wherein:

Fig. 1 is a floor map of the present utility model.

Embodiment

The utility model is the heat radiation framework in a kind of servomechanism, see also shown in Figure 1, respectively according to the central processing unit 11 (CPU) and the required radiating efficiency of power supply unit 12 (Power Supply) of this servomechanism 10, be provided with a heat dissipation equipment 13 in this central processing unit 11, and this power supply unit 12 is provided with another heat dissipation equipment 14, wherein, this heat dissipation equipment 13 is provided with a thermal source inductor (not shown) in this central processing unit 11, and be provided with one or an a plurality of radiation fan 15 and a control circuit (not shown) in these central processing unit 11 1 sides, make the temperature of this control circuit according to the central processing unit 11 of thermal source inductor institute sensing, control 15 pairs of these central processing unit 11 of these radiation fans and dispel the heat, make this central processing unit 11 can keep its temperature in the scope of safe working temperature; This another heat dissipation equipment 14 then is marked with a thermal source inductor (not shown) in this power supply unit 12, and be provided with one or an a plurality of radiation fan 16 and a control circuit (end illustrates among the figure) in these power supply unit 12 1 sides, make the temperature of this control circuit according to the power supply unit 12 of thermal source inductor institute sensing, control 16 pairs of these power supply units 12 of these radiation fans and dispel the heat, make this power supply unit 12 can keep its temperature in the scope of safe working temperature.

By forming of above-mentioned member, please consult shown in Figure 1 again, this heat dissipation equipment 13 is according to the thermal source of central processing unit 11, monitor and dispel the heat, this another heat dissipation equipment 14 is then according to the thermal source of power supply unit 12, monitors and dispels the heat, and this central processing unit 11, power supply unit 12 are independently dispelled the heat individually, order can avoid heat radiation to each other to disturb effectively, and more easy and accurate to the control and the supervision of individual other heat dissipation.

In the present embodiment, please consult shown in Figure 1 again again, the housing 17 of this servomechanism 10 is on contiguous these central processing unit 11 1 terminal surfaces, be provided with the ventilation perforate (end illustrates among the figure) of a plurality of equidistant arrangements, and on another terminal surface of corresponding this central processing unit 11, be provided with the ventilation opening 172 that a plurality of equidistant arrangements are arranged, when making this heat dissipation equipment 13 dispel the heat, the radiation fan 15 of this heat dissipation equipment 13 can be with the gas outside housing 17 1 ends, import in the servomechanism 10, the central processing unit 11 of flowing through, again by housing 17 end discharge in addition, make central processing unit 11 by the air-flow that these radiation fans 15 import, reduce temperature, enable to be maintained in the scope of safe working temperature.

In the utility model, see also shown in Figure 1 again, the housing 17 of servomechanism 10 is on contiguous these power supply unit 12 1 terminal surfaces, be provided with the air inlet perforate (not shown) of a plurality of equidistant arrangements, and on another terminal surface of corresponding this power supply unit 11, be provided with a plurality of equally spaced vent openings 174, when dispelling the heat with this another heat dissipation equipment 14, the radiation fan 16 of this another heat dissipation equipment 14 can be with the gas outside housing 17 1 ends, import in the servomechanism 10, the power supply unit 12 of flowing through, again by housing 17 end discharge in addition, make this power supply unit 12 by the air-flow that these radiation fans 16 import, reduce temperature, be maintained in the scope of safe working temperature.

In the utility model, see also shown in Figure 1 again, be provided with a dividing plate 18 between this central processing unit 11 and this power supply unit 12, by the radiating airflow between these dividing plate 18 these central processing unit 11 of isolation, this power supply unit 12, make the heat radiation of this central processing unit 11, power supply unit 12, can not interfere with each other, reach and independently to dispel the heat individually.

So, the radiation system of this servomechanism 10, separate into 14 liang of parts of another heat dissipation equipment of the heat dissipation equipment 13 and the power supply unit 12 of this central processing unit 11, make respectively this heat dissipation equipment 13, another heat dissipation equipment 14 forms and is close to the framework that independently dispels the heat, make respectively this heat dissipation equipment 13, another heat dissipation equipment 14 is at this central processing unit 11, this power supply unit 12, design the required radiation fan 15 of coupling, when 16 quantity and power, more easily grasp its efficient and accuracy, simultaneously, this heat dissipation equipment 13 respectively, a plurality of radiation fans 15 on another heat dissipation equipment 14,16 formed heat radiation brattices, will be respectively to this central processing unit 11, this power supply unit 12, carry out freestanding heat radiation, can avoid heat radiation to each other to disturb effectively, order is more easy and accurate to the control and the supervision of heat dissipation.

The above, only be the best specific embodiment of the utility model, but structure characteristics of the present utility model is not limited thereto, anyly is familiar with the personage of this technology in the utility model field, can think easily and variation or modification, all can be encompassed in patent category of the present utility model.

Claims (4)

1, the heat radiation framework in a kind of servomechanism is characterized in that, comprising:

One heat dissipation equipment is located on the central processing unit of this servomechanism, and this heat dissipation equipment is provided with a thermal source inductor in this central processing unit, and is provided with one or an a plurality of radiation fan and a control circuit in this central processing unit one side;

One another heat dissipation equipment is located on the power supply unit of this servomechanism, and this another heat dissipation equipment then is provided with a thermal source inductor in this power supply unit, and is provided with one or an a plurality of radiation fan and a control circuit in this power supply unit one side.

2, the heat radiation framework in the servomechanism as claimed in claim 1, it is characterized in that, wherein the housing of this this servomechanism is on contiguous this central processing unit one terminal surface, be provided with the ventilation perforate of a plurality of equidistant arrangements, and on another terminal surface of corresponding this central processing unit, be provided with the ventilation opening of a plurality of equidistant arrangements.

3, the heat radiation framework in the servomechanism as claimed in claim 2, it is characterized in that, wherein the housing of this servomechanism is on contiguous this power supply unit one terminal surface, be provided with the air inlet perforate of a plurality of equidistant arrangements, and on another terminal surface of corresponding this power supply unit, be provided with the vent openings of a plurality of equidistant arrangements.

4, the heat radiation framework in the servomechanism as claimed in claim 3 is characterized in that, wherein is provided with a dividing plate between this central processing unit and this power supply unit.