JPH0153044B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to an electric cooking machine mainly for cooking vegetables, fruits, etc.

Conventional technology Generally speaking, the rotation speed of the cutter when squeezing the fruit is approximately 5,000 revolutions per minute, so conventionally, the rotation speed of the motor was reduced using a reduction gear.
However, when a reduction gear is used, the main body becomes very large.

Therefore, the present inventors have considered an electric cooking machine in which the rotation speed of the motor is controlled by an electronic control circuit, and the motor and cutter are directly connected without a reduction gear. This disrupts the rotation speed control and causes the motor to rotate at extremely high speeds (approximately 15,000 revolutions per minute), creating a dangerous situation. Therefore, the inventors fixed a leaf spring to the motor drive shaft, which does not operate during normal rotation but assumes a horizontal shape due to the increase in centrifugal force during high-speed rotation, and connected it in series to the motor winding. We devised a mechanism to cut off the current flowing to the motor by cutting the wires.

Hereinafter, such an electric cooking machine will be explained using a diagram, taking a juicer as an example.

In FIG. 4, a motor 3 whose rotational speed is controlled by an electronic control circuit 2 is provided at the inner bottom of the main body 1.
is provided. A container 5 in which a spinner 4 is rotatably provided is placed on the top of the main body 1, and the motor 3 and the spinner 4 are connected via a coupling ring 6. A leaf spring 8 is fixed to the drive shaft 7 at the lower part of the motor 2 and has a non-linear shape with respect to the drive shaft 7, and a blade part 9 is provided on the back surface of the leaf spring 8. A wire 10 connected in series with the windings of the motor 2 was provided at a position close to the portion 9.

Problems to be Solved by the Invention However, the shape of the leaf spring in the configuration described above does not easily deform due to changes in centrifugal force during rotation, and the difference in displacement between normal and high-speed rotation is small. There was also a chance of cutting the wire during rotation.

Therefore, the present invention overcomes the above-mentioned problems and ensures reliable operation only during high-speed rotation.

Means for Solving the Problems The technical means of the present invention for solving the above-mentioned problems is a motor that rotates the cutter and a motor that is fixed to the drive shaft of the motor and that is bent linearly at a plurality of points. and a blade portion wider than the bent portion provided on the back side of the leaf spring, and connected in series with the winding of the motor in close proximity to the blade portion of the leaf spring. It is equipped with a wire.

Effect The effect of this technical means is as follows.

In other words, during normal rotation in which the rotation of the motor is normally controlled, only the first stage bending portion approaches the horizontal shape, so the amount of displacement of the blade at the tip of the leaf spring is small, and it It is impossible for the wires to come into contact with the wires.

Next, when the motor rotates at extremely high speeds due to a malfunction or failure in the electronic control circuit, the centrifugal force applied to the tip of the leaf spring increases, and the bent portion of the first stage of the leaf spring The bending part of the second stage deforms in the direction of increasing the angle with respect to the center line of the motor drive shaft, and the blade part provided on the back side of the leaf spring displaces greatly, and eventually It comes into contact with the wire and is cut by the torque of the high-speed rotation of the motor.

This wire is connected in series with the motor windings, so at that moment the current is cut off and the motor stops rotating.

Embodiment Hereinafter, an embodiment of the present invention will be described based on the accompanying drawings.

In FIG. 1, a motor 12 is installed inside the main body 11.
is held, and the drive shaft 1 of this motor 12
A spinner 15 is fitted to 3 via a coupling ring 14. A leaf spring 1 is fixed to the drive shaft 13 by an insulator 17 protruding from the frame 16 at the bottom of the motor 12.
8, bent linearly at multiple points,
The back portion is provided with a blade portion 19 that is wider than the bent portion (a shape in which several points on a curve are connected in a straight line). A mounting plate 20 made of a non-conductor is fixed on the frame 16, and a wire 21 is stretched on the mounting plate 20 in the vicinity of the blade portion 19 of the leaf spring 18.

Next, the operation of the configuration of this embodiment will be explained. When the drive shaft 13 rotates, the blade portion 19 of the leaf spring 18 shown in FIGS. 2 and 3 is displaced in a direction toward the adjacent wire 21 due to the action of centrifugal force. First, when the motor 12 rotates normally, only the first stage bent portion deforms to a horizontal shape, but there is a gap between the blade portion 19 of the leaf spring 18 and the wire 22. Yes, and no action is taken. Next, if the electronic control circuit 22 installed inside the main body 11 malfunctions or breaks down and the motor 12 rotates at an extremely high speed, the bent portion of the first stage of the leaf spring 18 will be Since the width of the blade portion 19 is wider than that of the bent portion, the weight is further away from the center of rotation, so the second bent portion is closer to the center line of the drive shaft 13 of the motor 12. The blade portion 19 is deformed in the direction of increasing the angle, and is displaced so as to approach the wire 21, and eventually comes into contact with the wire 21, and is cut by the torque of the high-speed rotation of the motor. Since the wire 21 is connected to the motor winding, the current is cut off and the rotation of the motor 12 is stopped.

As described above, because the blade portion 19 is bent linearly at multiple points and the width of the blade portion 19 is made wider than the bent portion, the leaf spring 1 can be easily bent during normal rotation and high speed rotation.
Since the difference in the amount of displacement of the blade part 19 of 8 is large, the operation of cutting the wire 21 is performed reliably only in an emergency when the motor 12 rotates at high speed, and the mistake of cutting the wire 21 during normal rotation is avoided. There isn't.

Effects of the Invention In the present invention, by bending the shape of the leaf spring linearly at a plurality of points, the correlation between the motor rotation speed and the amount of displacement of the leaf spring becomes non-linear. Since the difference in the amount of displacement is relatively large, it does not operate during normal rotation, but is ensured to operate only during high-speed rotation. In addition, since the width of the blade is wider than the bending part, the strength at the moment when the blade cuts the wire can be ensured.

[Brief explanation of drawings]

FIG. 1 is a longitudinal sectional view of a Juuser showing an embodiment of the present invention, FIGS. 2 and 3 are a sectional view and a plan view showing the main parts, respectively, and FIG. 4 is a longitudinal sectional view of a Juuser showing a conventional example. It is. 12...Motor, 13...Drive shaft, 18...
Leaf spring, 19...blade, 21...wire.

Claims (1)

[Claims] 1. A motor that rotates the cutter, a leaf spring that is fixed approximately perpendicularly to the drive shaft of this motor and is bent linearly at multiple points, and a leaf spring that is installed at the tip of the leaf spring and that is attached to the bent portion of the tip. a wire having a wider blade than that of the motor, and connected in series with the winding of the motor in close proximity to the tip of the blade of the leaf spring in a direction in which the tip of the leaf spring is displaced by centrifugal force when the motor rotates; An electric cooking machine equipped with