Air-cooled radiator
Technical field
The utility model relates to a kind of radiator, specifically is meant a kind of air-cooled radiator.
Background technology
Electronic devices and components are since invention is created, use more and more in the middle of the industry and the modern life in modern times, for modern industry, particularly mining, chemical industry, electric power, fields such as industry manufacturing, electronic devices and components often need be worked under specific operational environment, but electronic devices and components self can produce thermal effect in work, temperature constantly raises, and too high temperature is unfavorable for the work and the life-span of electronic devices and components, therefore, most of the time, usually adopt fin to dispel the heat, still, in the narrow and small environment of working space, the area of fin can not infinitely enlarge, and how to have dispelled the heat into a great problem effectively.
The utility model content
The purpose of this utility model is to overcome the shortcoming and defect of above-mentioned prior art, and a kind of air-cooled radiator that improves radiating efficiency is provided.
The purpose of this utility model is achieved through the following technical solutions: air-cooled radiator, mainly constitute by conducting strip and the fin that is connected on the conducting strip, and on the described conducting strip blower fan is installed, thereby can plays air-cooled effect fin and conducting strip.
Described fin is at least 1, and fin is many more, and its surface area is just big more, and the user can pass through to increase the quantity of fin, thereby improves the radiating efficiency of radiator integral.
Described fin is parallel arranged, needs between the fin at interval, and the air of gap carries the heat that electronic devices and components produce, the area and the space that can maximize its circulation of air between the fin in the mode of parallel arranged by the energy of flow.
Fin is perpendicular to conducting strip, and is maximum perpendicular to the quantity of the fin of conducting strip in the space of minimum, the surface area maximum of fin.
The wind direction of above-mentioned blower fan acts on the space between the fin, thereby can farthest make the air flows of fin surface, improves its radiating efficiency.
Described blower fan is connected with control switch by power line, thereby can control the running status of blower fan, then closes blower fan when the temperature of radiator within normal operating temperature range, only just starts blower fan work when the temperature of radiator exceeds operating temperature range.
In order to reduce the monitoring workload to radiator temperature, control switch of the present utility model adopts temp control switch, and is installed on the conducting strip, thereby can judge and select the operating state of control switch according to the temperature of conducting strip.
The utility model compared with prior art has following advantage and beneficial effect:
(1) the utility model can effectively quicken the air flows between the fin by blower fan is set on radiator, plays air-cooled effect, has improved integral heat sink efficient.
(2) blower fan of the present utility model is connected with control switch by power line, thus can be when not needing wind-cooling heat dissipating powered-down, reduced the energy consumption of bringing for heat radiation.
(3) control switch of the present utility model adopts temp control switch, and is installed on the conducting strip, thereby can judge and select the operating state of control switch according to the temperature of conducting strip, has reduced the monitoring temperature work to radiator, has saved manpower.
Description of drawings
Fig. 1 is a structural representation of the present utility model.
Mark and corresponding parts title in the accompanying drawing: 1-conducting strip; 2-fin; 3-blower fan; 4-control switch; 5-power line.
Embodiment
The utility model is described in further detail below in conjunction with embodiment, but execution mode of the present utility model is not limited thereto.
Embodiment
As shown in Figure 1, the utility model mainly is made of conducting strip 1 and the fin 2 that is connected on the conducting strip 1, on the described conducting strip 1 blower fan 3 is installed, thereby can plays air-cooled effect to fin 2 and conducting strip 1.
Fin 2 is at least 1, and fin 2 is many more, and its surface area is just big more, and the user can pass through to increase the quantity of fin 2, thereby improves the radiating efficiency of radiator integral.
Fin 2 parallel branches need between the fin 2 at interval, and the air of gap carries the heat that electronic devices and components produce, the area and the space that can maximize its circulation of air between the fin 2 in a parallel manner by the energy of flow.
Fin 2 is perpendicular to conducting strip 1, and is maximum perpendicular to the quantity of the fin 2 of conducting strip 1 in the space of minimum, the surface area maximum of fin 2.
In order to make the radiating efficiency maximum of electronic devices and components, in limited spatial dimension, the maximization of the surface area of fin 2 can be given full play to its heat-sinking capability.
The wind direction of blower fan 3 acts on the space between the fin 2, thereby can farthest make the air flows on fin 2 surfaces, improves its radiating efficiency.
Described blower fan 3 is connected with control switch 4 by power line 5, thereby can control the running status of blower fan 3, within normal operating temperature range, then close blower fan 3 when the temperature of radiator, only when the temperature of radiator exceeds operating temperature range, just start blower fan 3 work.
In order to reduce the monitoring workload to radiator temperature, control switch 4 of the present utility model adopts temp control switch, and is installed on the conducting strip 1, thereby can judge and select the operating state of control switch 4 according to the temperature of conducting strip 1.
As mentioned above, just can well realize the utility model.