JPH0627961Y2 - Overheat protector - Google Patents

Description

[Detailed Description of the Invention] [Industrial field of application] The present invention is for cooling a cooled element such as an output transistor of an electronic device with a heat pipe. The present invention relates to an overheat protection device that prevents an element to be cooled from overheating.

[Prior Art] Conventional. The output transistor of the electronic device is attached to the heat pipe to prevent damage due to overheating. Some of these heat pipes utilize liquid evaporation and condensation. In such a heat pipe, if it is inclined more than a certain level, the cooling efficiency will be poor. Transistors that require cooling may be overheated and destroyed.

[Problems to be solved by the invention] The present invention has been made in view of the above circumstances. When the heat pipe is tilted at an angle to the horizontal. It is an object of the present invention to provide an overheat protection device capable of stopping the heat generation operation of a cooled element according to the operating state of an electronic device.

[Means and Actions for Solving the Problems] The present invention achieves the above object. A heat pipe with a cooled element attached. An inclination detection switch that operates when this heat pipe is inclined at a specified angle to the horizontal. A first temperature detection switch that operates when the heat pipe reaches a predetermined temperature; The heat pipe comprises a second temperature detection switch that operates at a predetermined temperature lower than the operating temperature of the first temperature detection switch. When the tilt detection switch and the second temperature detection switch operate. Alternatively, the heating operation of the cooled element is stopped when the first temperature detection switch operates. For heat dissipation using a heat pipe. When the heat dissipation effect decreases due to the inclination of the heat pipe. Instead of immediately stopping the heat generation operation of the cooled element. Depending on the state of heat generation, the operation can be continued as it is.

Embodiments Embodiments of the present invention will be described in detail below with reference to the drawings.

FIG. 1 shows an embodiment of the present invention. An output terminal of a switching control circuit 2 configured to turn off the base current when an OFF signal is input is connected to the base of a cooled transistor (oscillation transistor) 1 of a cooled power supply device of an electronic device. An output terminal of the OFF signal generating circuit 4 is connected to an input terminal of the switching control circuit 2 via a first temperature detection switch 3 which is turned on at a predetermined temperature such as 110 ° C. Between the output terminal of the off signal generating circuit 4 and the input terminal of the switching control circuit 2, the operating temperature of the first temperature detection switch 3 is lower than, for example, 1
A series circuit of the second temperature detection switch 5 and the inclination detection switch 6 operating at a predetermined temperature such as 00 ° C. is connected in parallel with the first temperature detection switch 3. The first temperature detection switch 3 and the second temperature detection switch 5 are. Second
It is mounted on an aluminum block 7 as shown. This aluminum block 7 is attached to a heat pipe 8 which utilizes evaporation and condensation of liquid. Radiating fins 9 are provided on the heat pipe 8. A switching transistor 1 is provided on the aluminum block 7 via an insulating sheet 10 made of an electrical insulator having a high thermal conductivity.
Is installed. The heat pipe 8 is provided in the electronic equipment casing 11 as shown in FIG. The tilt detection switch 6 is provided in the electronic device housing 11. The tilt detection switch 6 is composed of, for example, a mercury switch or the like so as to operate when the heat pipe 8 is tilted at a predetermined angle with respect to the horizontal, for example, 10 degrees.

Ie. When the back side of the housing 11 (the switching transistor 1 side of the heat pipe 8) is lifted 10 degrees or more with respect to the front side, the tilt detection switch 6 is turned on. The temperature detection switch 5, which has a low operating temperature, intervenes in the circuit. If the temperature of the heat pipe 8 has reached the operating temperature of the temperature detection switch 5. The temperature detection switch 5 turns on. Off signal generation circuit 4
The OFF signal is input to the switching control circuit 2. The switching transistor 1 becomes inoperative.

Since this embodiment is constructed as described above, it is normally. The inclination detection switch 6 is turned off so that only the normal temperature detection switch 3 works when excessive heat is generated. The switching power supply is in a state in which a load with a rated output can be connected. or. The back side of the housing 11 is from the front side. When it is lifted at a predetermined angle, for example, 10 degrees or more. Tilt detection switch 6
Turns on. The input signal of the switching transistor 1 is cut off by the temperature detection switch 5 to make it inoperative. However. When the heat pipe 8 is at a temperature at which the temperature detection switch 5 does not operate. In other words, when the load of the switching power supply is in the light load state. You can continue to take the load as before.

recent years. Heat pipe technology is also advanced. The cooling effect no longer deteriorates significantly with respect to the tilt angle in the opposite direction. Pay attention to that. By providing one temperature detection switch as in the present embodiment, when in the horizontal state. It is assumed that the temperature rise is guaranteed up to the operating temperature of one temperature detection switch. When the slope is added. The temperature rise shall be guaranteed up to the operating temperature of the other temperature detection switch. Ie. With the protection device according to the prior art. When an inclination over a certain angle is detected. Immediately, the protection circuit operates and disables the switching transistor 1. In a switching power supply device, the output is cut off as soon as the housing 11 is tilted by a predetermined angle or more. Or, it will be in a restricted state. However. By using the combination of the inclination detection switch 6 and the temperature detection switches 3 and 5 of this embodiment. For switching power supplies, the output is below the rated output. For example, if it was used at about 50%. Because the temperature rise of the heat pipe 8 is not so high. Even if the inclination is added and the temperature detection switch 5 intervenes in the circuit. If the temperature of the heat pipe 8 has not reached the operating temperature of the temperature detection switch 5. Even if an inclination is applied, the output of the switching power supply is not interrupted. It can be used as it is.

[Effect of the Invention] As described above, according to the present invention. For heat dissipation using a heat pipe. When the heat dissipation effect decreases due to the inclination of the heat pipe. Instead of immediately stopping the heat generation operation of the cooled element. By making it possible to continue operation depending on the state of heat generation. It is possible to provide an overheat protection device capable of preventing the heat generation operation of the cooled element according to the operating state of the electronic device.

[Brief description of drawings]

FIG. 1 is a structural explanatory view showing an embodiment of the present invention. FIG. 2 (a) is a front view showing a state in which a switching transistor and various switches are mounted on the heat pipe according to the present invention. 2 (b) is a side view. FIG. 3 is a structural explanatory view showing a state in which the heat pipe and the inclination detection switch of FIG. 2 are housed in a housing. 1 ... Switching transistor. 2 ... Switching control circuit. 3 ... First temperature detection switch. 4 ... Off signal generation circuit. 5 ... Second temperature detection switch. 6 ...
Tilt detection switch. 8 ... Heat pipe.

Claims (1)

[Scope of utility model registration request] 1. A heat pipe to which an element to be cooled is attached. An inclination detection switch that operates when this heat pipe is inclined at a specified angle to the horizontal. A first temperature detection switch that operates when the heat pipe reaches a predetermined temperature; The heat pipe comprises a second temperature detection switch that operates at a predetermined temperature lower than the operating temperature of the first temperature detection switch. When the tilt detection switch and the second temperature detection switch operate. Alternatively, the overheat protection device is characterized in that the heat generation operation of the cooled element is stopped when the first temperature detection switch operates.