KR19980040227U - Microwave Sensor Driving Device - Google Patents

Abstract

The present invention relates to a drive unit of the sensor unit which is mounted to be rotated for a certain period in order to detect the temperature of food in the microwave oven.

The drive device according to the present invention can maintain a predetermined angular position in conjunction with a drive motor, a worm rotating by the drive motor, a worm wheel that decelerates and rotates in engagement with the worm, and rotation of the worm wheel. It is configured to include a sensor unit, so that the desired reduction ratio and drive torque can be obtained by the worm and worm wheel.

Description

Microwave Sensor Driving Device

1 is a configuration diagram showing the structure of a conventional sensor drive device

2 is a block diagram showing the structure of the sensor drive device of the present invention.

* Description of the symbols for the main parts of the drawings *

40: sensor bracket 42: drive motor

44: worm 46: worm wheel

50: sensor unit

The present invention relates to a sensor drive device of a microwave oven, and more particularly, to a sensor drive device configured to obtain a desired reduction ratio and high torque by using a worm gear and a worm wheel for power transmission from a motor to a sensor. will be.

In the microwave oven, the sensor senses the temperature of the food in the cavity, and the microwave determines the subsequent cooking progress condition based on the detected temperature. Such a sensor is usually installed in the upper part of the microwave oven or the upper end of the side wall. Then, the position of the food placed on the turntable in the microwave oven is usually set in two positions, and the sensor moves to fit each position.

For the sensor to detect the position of the two parts on the turntable, firstly, the sensor can reciprocate between the two sensor balls, and secondly, the sensor rotates at an angle using one sensor ball. How to detect location. The drive of the sensor using this second method is shown in FIG.

As shown, the sensor bracket 22 is mounted on one side of the upper surface of the cavity to support the entire driving device configured as follows. The drive gear 4 rotated by the motor 2 mounted on the sensor bracket 22 rotates in engagement with the standby gear part 6a of the idle gear 6 and the small gear part of the idle gear 6. 6b) rotates in engagement with the driven gear 10. The rotating shaft 13 of the idle gear 6 and the rotating shaft 12 of the driven gear 10 are both rotatably mounted to the sensor bracket 22. In addition, the rotation of the driven gear 10 is transmitted to the sensor unit 20 through the rotation shaft 12, so that the sensor unit 20 rotates together. The sensor unit 20 may mean a constant case in which a sensor is incorporated, or may be considered as a pivotable shaft to which a sensor is directly attached.

Looking at whether or not the rotation speed is reduced in the power transmission device, as shown, the driven gear 10, the primary reduction by the engagement rotation of the drive gear 4 and the standby gear portion 6, the small gear portion 6b ) Is decelerated at a desired speed by secondary deceleration due to engagement rotation of the driven gear 10, and the deceleration of the speed drives the sensor unit 20 with a predetermined drive torque.

According to the conventional configuration example as described above, the following disadvantages are pointed out. In order to decelerate the rotation of the motor at a desired speed and to obtain a predetermined drive torque for rotating the sensor unit 20, as described above, a separate idle gear 6 is essentially provided so There are many disadvantages, which is disadvantageous in the assembly process. In addition, the precision is reduced due to the increase in the number of parts.

In the state where the power is not applied to the motor, when the gear train is in a free state, the sensor unit 20 freely rotates due to its own weight of the sensor unit 20. If the motor is not rotated while being powered, a problem may occur because the motor overheats.

The present invention is to solve this problem, it is an object to provide a sensor drive device of a simpler structure.

The drive device according to the present invention for achieving the above object, the drive motor, the worm to rotate by the drive motor, the worm wheel to decelerate and rotate in engagement with the worm, and predetermined in conjunction with the rotation of the worm wheel Characterized in that it comprises a sensor unit capable of maintaining the angular position of the.

Next, the present invention will be described in more detail with reference to the embodiments of the present invention shown in the drawings.

As shown in FIG. 2, the drive device according to the present invention includes a worm 44 that rotates by a motor 42, a worm wheel 46 that rotates in engagement with the worm, and the worm wheel 46. It is configured to include a sensor unit 50 to interlock with.

The driving device according to the present invention is supported by the sensor bracket 40, which is mounted on the upper surface of the cavity. The rotational force of the motor 42 supported by the sensor bracket 40 is transmitted to the worm 44, and the rotation of the worm 44 is transmitted to the worm wheel 46 engaged with it. At this time, the worm wheel 46 is decelerated and rotated at a constant speed due to its characteristics, and thus has a low and large driving torque.

The worm wheel 46 is fixed to rotate together with the rotation shaft 48, and the rotation shaft 48 may rotate together with the sensor unit 50 in a state in which the rotation shaft 48 is rotatably supported by the sensor bracket 40. It is supposed to be. Therefore, the rotation of the worm wheel 48 is substantially connected to the rotation of the sensor unit 50, and the worm wheel 48 that rotates at a low speed has sufficient torque to drive the sensor unit 50. It has, so as to rotate the sensor unit 50 at the desired rotation angle.

Using the drive device according to the present invention configured as described above it is possible to have the sensor unit 50 to have a desired angular position. That is, by rotating the motor 42 in one direction, in the case of the worm 44 and the worm wheel 46, the sensor unit 50 rotates in a predetermined direction, and the rotation of the motor 42 stops. At this point it becomes possible to measure the temperature of the food inside the cavity.

And in this state, to move to another angular position, the sensor unit 50 by the power transmitted in the case of the worm 44 and the worm wheel 46 in the same way by the reverse rotation of the motor 42 is By rotating in the other direction, it is possible to rotate to a desired position.

Driving device according to the present invention is configured as described above can be expected the following advantages.

First, it can be seen that the driving device for driving the sensor unit is significantly simpler than the conventional one. This configuration simplicity can contribute to productivity improvement by reducing the number of parts and simplifying the assembly process.

In addition, a large reduction ratio and a large driving torque can be obtained by inherent characteristics of the worm and the worm wheel. In general, when the spur gear is used, the deceleration is proportional to the number of teeth, and when the spur gear is used to obtain the high reduction ratio as described above, the volume becomes considerably large.

However, in the case of using the worm and the worm wheel as described above, the reduction ratio of about 1/60 can be easily obtained as it is known, and the position control using the motor can be easily performed, and at the same time, sufficient driving torque can be obtained.

In addition, although the power is transmitted from the worm to the worm wheel side due to the characteristics of the worm and the worm wheel, since the power is not transmitted from the worm wheel side to which the worm wheel is mounted, the power is not transferred to the worm side. Due to the weight of the wealth, it is not rotated, and it becomes possible to maintain a fixed position.

As described above, according to the present invention, the desired reduction ratio and driving torque can be easily obtained, and at the same time, the effect for simplifying the structure for power transmission is expected.

Claims (1)

A drive motor; A worm rotating by the drive motor; A worm wheel engaged with the worm and deceleratingly rotating; And And a sensor unit capable of maintaining a predetermined angular position in association with rotation of the worm wheel.