JPS60155831A - Safety device for high-frequency heater - Google Patents

Abstract

PURPOSE:To permit to absorb the impact force of a lever and prevent the damage of a microswitch by a method wherein a transmission unit, supported pivotably to an oven housing, is moved in conjunction with the movement of contact of the switch lever and second switch, fixed to the oven housing, is opened and closed through the transmission unit in accordance with the opening and closing of a door. CONSTITUTION:A rotatable body is supported on a support shaft 22 on a side wall 5 and the transmission unit 23 of triangular shape generally is formed as a balance unit. A spring 27, hooked to the transmission unit 23, pulls the transmission unit 23 to the position of switching and a switch operating unit 24 initiates the contact element 25' of the microswitch 25. When the door 9 is closed, a lever 14, having an initiating unit 15, pushes the transmission unit 23 against the force of the spring 27 from the microswitch 25 to open a switch (e4). When the door 9 is opened, a door switch (e3) is opened at first and the control switch (e4) or the contact of the microswitch 25, which is corresponding to the switch (e4), is closed.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application This invention relates to a safety device for high frequency heating equipment.

PRIOR ART In a conventional safety device, a switch lever projecting from a rotatably mounted door of a high-frequency heating device (hereinafter referred to as a microwave oven) is supported, and the end of the switch lever is When the door is closed, the switch contacts of the switch in the power circuit of the high frequency oscillator are closed and interact directly with the contact mechanism of the switch fixed on the oven housing to open when the door is moved to the open position. Similarly, Sen's conventional microwave oven has two safety block switches, one on top of the door, and one on the top of the door.
In the manner described above, a mechanical switch lever is supported at its free end which activates one of the safety switches. - At least one of the safety switches is controlled by a sensitive switch arranged in parallel and connected in series with the filament resistance of the thermal fuse of the operating circuit of the microwave installation.

Problem to be Solved by the Invention As a result of frequent operation of the safety switch under load, the switch contact remains locked, i.e., if it does not open, the circuit around the closed sensitive switch and the filament resistance. There will be electrical connection noise between them, and the fuse in the operating circuit will burn out around the filament resistor, making the microwave equipment unable to operate further. As mentioned above, the free end of the switch lever supported on the door directly operates the plunger of the safety switch. When the above-mentioned switch is made as a microswitch with a very short contact travel distance, it is difficult to adjust the switch movement of the switch lever and the interlocking with the microswitch during installation. Improvements have been attempted in the above-mentioned conventional microwave openers by providing a relatively long switch lever on the plunger, or generally on the activation means of the microswitch. Such an improvement has the disadvantage, among other things, that the microswitches must be specially provided and that microswitches installed in series cannot be used.

The object of the present invention is to provide better security in the event that a door switch disposed in an operating circuit malfunctions, and in particular to facilitate adjustment and measurement of the switch lever.

Means for Solving the Problems The safety device of the high frequency heating device of the present invention is such that, by moving the contacts of the switch lever, the transmission unit rotatably supported by the open housing is interlocked with the second switch fixed to the open housing. The contact point is opened and closed via the transmission unit 14 as the door is opened and closed.

The transmission unit between the actuation switch lever and the microswitch allows the large 6-degree travel of the switch lever to be shortened to the shortest distance for the switching action of the microswitch, so that tolerances regarding the action of the switch lever are allowed. No direct action of the switch lever on the control switch, ie the microswitch, is provided.

Therefore, commercially available microswitches can be used. 1
The transmission unit equipped as a rebalance is pulled to the on position by the force of a spring, and can be moved to the off position using only a switch lever. There is no shadow police of the switch lever oval chute.

EMBODIMENT OF THE INVENTION Both phases of the main power supply are shown by power supply lines I and 2 in FIG. A high frequency oscillator and its component operating circuit 1 are arranged between these power supply phases. K6 is a magnetron, K3 is a high potential capacitor, m10 is a high voltage transformer, K4 is a high voltage diode, ell is a heating current fuse, and d3 is a high voltage relay contact. Such an arrangement is well known and will not be described in detail. The operating circuit includes, in series, a time switch U9, a first door safety switch or control switch e3, a second door switch 6.7, a temperature control switch e7, and a temperature limit switch f7.
, thermostat) f8. There is a current dependent fuse e8,
A power relay D2 and a temperature fuse e12 are arranged in parallel with the high voltage transformer m10. Further, in parallel with the high voltage transformer m10, a current-dependent fuse e9 (3
, 15A), a resistor r22 (10 ohms), another resistor r21 (22 ohms) and a starter switch b10'i for the high-frequency oscillator. A power current branch 4 is connected between the sheet resistors r21 and r22 toward the main power line (2), and is connected to the middle of the operating circuit 10 between the two door switches e3 and e6.

This current branch 4 is provided with a further control switch e4 (second switch) in the form of a microswitch, the contacts of which can be switched by means of a lever carried on the microwave opening door 9, as explained below. Furthermore, the door switches e3 and e6 are actuated directly by the door 9, and the opening switch '113ffl function is controlled by the control switch e4. The circuit arrangement of FIG. 1 shows a microwave oven with door 9 closed. In this position door switches e3 and e6 are closed and control switch e4 is open.

Starter switch b1of: When activated, the high frequency oscillator is started with the thermostat) fs and temperature limit switch f7 closed. After operation of a starter switch b10 (not shown), a latch circuit ensures continuous operation of the high frequency oscillator.

Due to the starter operation, relay contact d2 is closed by the response of relay D2, and the operating circuit is closed.

When door 9 is opened, both door switches e3 and e
6 is normally open and control switch e4 is closed without load. If the door switch e3 remains closed when the door 9 is opened and operated frequently under load, the control switch e3
4 is closed separately by a switch lever, and the control circuit 2
is connected to the full power supply voltage. As a result, fuse e
9 jumps, the starter circuit is cut off, and even if door 9 is closed, it cannot be started again. That is, the microwave oven can no longer be used.

FIG. 2 shows a side view of the microwave oven. 6
is the side wall of the microwave oven, 6 is the back wall, 7 is the top, 8
9 is a lower part, and 9 is a door that can be opened and closed.

The door 9 can be pivoted about the door hinge 10 into the open position in the direction of the arrow. In the closed position, this door 9 abuts a flange 11 which wraps around the heating chamber door opening and is of known construction and provided with microwave sealing material and heat sealing means.

A microwave oven of the type shown includes an electrical resistance heating element, such as grill heating element 12, located inside the heating chamber. An elongated lever 14 with an activation part 16, a spring catch 16 and two notch curves 17 and 17' is supported on a lever hinge 13 in the side wall of the door 9. When the door 9 is closed, the notch arms corresponding to both switch arms arranged on both sides of the heating chamber touch the free-rotating roller 19 and the notch curve 17
When the lever 14 provided with '' is in the open position of the door 9, the roller 19
support. During operation of the door 9, the lever 14 slides 9\-7 over the roller 19 between the two notch curves. The door 9 is opened against the force of a spring 21 which is hooked on one side to the spring locking part 16 and on the other hand to the fixed support part 20. A freely rotating body is supported on a support shaft 22 on the side wall 6, and a generally triangular transmission unit 23 is formed as a balance unit. This transmission unit 23 is a control switch e according to FIG. 1 in the form of a microswitch 26 with a contact element 26' in the form of a pushbutton.
Another abutting part 26 protruding between the switch operating part 24 and the actuating part 160 of the lever 14 is provided. The spring 27 hooked to the transmission unit 23 pulls the transmission unit 23 to the switch position, and the switch operation part 24
activates the contact element 25' of the microswitch 26. That is, the control switch e4 according to FIG. 1 is closed. In order to improve the ratio between the lever arm and the switch drain, the switch operation part 24 and the contact part 26 are attached to the support shaft 22.
It is the same distance from. When the door 9 closes, the activation part 1
The lever 14 with 6 pushes the transmission unit 24 against the force of the spring 27 from the microswitch 26, and the switch e4 is opened. When the door 9 is opened, the door switch e3 according to FIG. 1 is first opened, and then the control switch e4 is closed, ie the corresponding switch contact of the microswitch 26 is closed.

The characteristics of the electrical safety circuit will be explained below.

In FIG. 1, the control switch e4 is the starter switch b10'i for the current-dependent fuse and the high-frequency onrator.
The starter circuit 3 and the second switch e4i are arranged in the control and starter circuit 3 together with a power circuit in parallel with the operating circuit connected between the fuse e9 and the starter switch b100 on the starter circuit 3, and the power In the circuit, the fuse and the control switch e4 enter in series, and the incorrectly opened door switch θ3 allows switching to full supply voltage.

Furthermore, the closing of the control switch e4 takes place with a delay after the opening of the controlled door switch e3 of the operating circuit. In this case, the control switch e4 of the door switch e3 is operated under no-load conditions with a time delay 11, . . . -1 between the operation of the door switch e3 and the control switch e4. If the door switch e3 to be controlled does not open by mistake even if the door 9 is opened, the fuse e3
9 is connected around the closed control switch e4, which is at full voltage, so it blows out and the starter circuit 3'ff
: Even if the microwave oven is shut off and the door 9 is closed, the microwave oven cannot be started.

Furthermore, a low impedance limiting resistor is connected to the control and starter circuit 3 in series with the fuse e9. The limiting resistors are preferably arranged on both sides of the distribution point 4 of the power supply circuit, are directly connected to the starter circuit 3, and have different resistance values, preferably in a ratio of 2:1.

Effects of the Invention As described above, according to the present invention, the transmission unit absorbs the impact force of the lever 14, and the transmission unit and the microswitch are separated even when the door is firmly closed. No impact force is transmitted to the structure, preventing damage. This absorbs large errors in assembly dimensions,

[Brief explanation of drawings]

FIG. 1 is a circuit diagram of a safety device for a high-frequency heating device according to an embodiment of the present invention, and FIG. 2 is a side view of the safety device for the high-frequency heating device according to FIG. 1... Operating circuit of high frequency oscillator, 2...
Control circuit, 3... Starter circuit, 4...
Current branch, 6... side wall, 6... rear wall,
End...Top, 8...Bottom, 9...
...Door, 10...Door hinge, 11...
・Flange, 12...Grill heating element, 13・
...Renoku hinge, 14...Lever,
16... Starting part, 16... Spring locking part, 17, 17'... Notch curve, 19...
・・Free rotation roller, 20 ・・・Fixed support part, 2
1...Spring, 22...Spindle, 23...
...Transmission unit, 24...Switch operation section, 26...Micro switch, blo...
...Start inch, D2...Power relay, d2...Relay contact, d3...High voltage relay, e3...Door switch, e4...・
...Control switch, e6...Second door switch, e7...Temperature control switch, e8. e9.
ell...fuse, e12...temperature fuse, f7...temperature limiter 13 hegesical capacitor, K4...high voltage diode, K6... ...Magnetron, m10...
・High voltage transformer, r21, r22...-Resistor, U9...Time switch, 26'...
...Contact element, 26... Contact part, 27...
··Spring. Name of agent Patent attorney Toshio Nakao and 1 other person 1 Figure?

Claims (3)

[Claims] (1) A lever rotatably attached to the door, a spring that presses the lever to a freely rotating roller, a transmission unit rotatably supported by the oven housing, and a transmission unit that is rotatably supported by the transmission unit when the door is opened or closed. Safety of a high-frequency heating device comprising: a door switch to be operated; the transmission unit is rotated by a part of the lever when the door is opened/closed; and the door switch is opened/closed by a part of the transmission unit. Device. (2) a transmission unit is supported around a support shaft of the oven housing, and the transmission unit includes a switch operation part that operates a door switch and a contact part that comes into contact with a lever;
2. The safety device for a high-frequency heating device according to claim 1, wherein the transmission unit is pressed by a spring to a position where the door switch is operated. (3) The safety device for a high-frequency heating device according to claim 2, wherein the switch operation part and the contact part of the transmission unit are arranged at approximately the same distance from the support shaft.