DE20211750U1 - Socket with temperature control device for one device - Google Patents

Description

SOCKET WITH TEMPERATURE GUIDE CONTROL DEVICE FOR ONE DEVICE

The present utility model relates to a socket with a temperature control device for an appliance.

Such a socket is mainly used in electric kettles. It is usually located in the foot of the kettle body and connected to the electric heat generator. It serves both to connect the kettle body and the base of the kettle and to control the temperature. The known socket consists of a base, a plug pin arranged on the base, a connecting lug arranged on the plug pin, a spring leaf electrode connected to the heat generator, a dry fire protection double metal disc and a dry fire protection bumper. The fuse bumper is made of plastic, one end of the fuse bumper is pressed against the metal heat generating surface. The base contains a group of spring leaf electrodes which are spring-connected to connecting lugs of plug pins. The base also contains a spring, the arm of which is spring-pressed against both the spring leaf electrode and the connecting lug of plug pins, while the other end of the fuse bumper is arranged against the spring. Normally, the spring pressure contact of the spring leaf electrode with the terminal lug of the plug pin is maintained. When the melting push rod is shortened, the spring arm separates the two from each other so that the power supply is turned off. When the temperature control is broken, the melting push rod, which has the melting property of plastic under a certain temperature, is melted by the high temperature on the metal surface and shortened. Since the plastic has corresponding aging property and the melting rod also has the high temperature during operation,

for a long time, the aging is accelerated and the defect of the temperature control is caused and the operational reliability is thereby also impaired.

The present utility model is based on the task of specifying a socket with a temperature sensor control device, wherein the plug pin can be switched on and off by means of a temperature sensor.

The problem is solved by: a socket with temperature sensor control device, consisting of a base part, a plug pin arranged on the base part, a connecting lug of plug pins, a spring leaf electrode connected to an electrical heat generator, a dry fire protection metal disk, a dry fire protection bumper, wherein a fixed contact leaf is arranged between a spring leaf electrode and a connecting lug of plug pins, said spring leaf electrode and the connecting lug are pressed resiliently against the fixed contact leaf, and a dry fire protection bumper is arranged between said dry fire protection double metal disk and the connecting lug of plug pins, which can press the connecting lug upwards so that the connecting lug is removed from the dry fire protection bumper of the fixed contact leaf, a pressure spring leaf is fixedly arranged on the upper side of the base part, and a holder is arranged on the spring leaf that can be pressed downwards, which can lift the spring leaf, a connecting element made of Metal with a low melting temperature is fixedly arranged between the downwardly pressable spring leaf and the holder, a melting pusher is arranged between the downwardly pressable spring leaf and the spring leaf electrode.

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The present utility model is explained in more detail below using examples in conjunction with drawings. They show:

Fig. 1 Representation of the structure of the utility model socket with temperature control device for an appliance;

Fig.2 Section along AA Line in Fig. 1;
Fig.3 Section along BB line in Fig. 1;
Fig.4 shows the socket according to Fig.1 with the cover removed;

Fig 5 is a perspective view of the socket according to Fig.1 with the base part removed;

Fig. 6 the view of the compression spring leaf.

As shown in the drawings, the utility model socket consists of a base part 1, a plug pin 2, a connecting lug 4, a steam double metal disk 5, a dry fire protection metal disk 6, a rocker switch 7, a dry fire protection bumper 8, a fixed contact blade 9, a pressure spring blade 10, a holder 11, a connecting element 12 made of metal with a low melting temperature, a melting bumper 13 and a steam bumper 14. Two plug pins 2 are fixedly arranged on the base part 1, each of which is connected to a connecting lug 3. Two spring leaf electrodes 4 are fixedly arranged on the base part 1 and are connected to the heat generator. A spring 16 is provided in the contact area of the spring leaf electrode with the heat generator. A steam double metal disk 5 and a

Dry fire protection double metal disk 6 is fixedly arranged, a rocker button 7 being energized to move after the steam double metal disk has been moved under the effect of heat. A steam push rod 14 is arranged between the rocker button 7 and the other spring leaf electrode 4. A cover 17 is arranged on the base part 1. The dry fire protection double metal disk is fixedly arranged on the cover 17. A dry fire protection push rod 8 is arranged between the dry fire protection double metal disk 6 and the connecting lug 3 of plug pins. A fixed contact leaf 9 is provided between one of the spring leaf electrodes 4 and the connecting lug 3 of plug pins. The said spring leaf electrode 4 and the connecting lug 3 of plug pins are spring-pressed against this fixed contact leaf 9. Between the dry fire protection double metal disk 6 and the connecting lug 3 of plug pins, a dry fire protection push rod 8 is arranged, which can move the connecting lug 3 of plug pins and remove the last one from the fixed contact sheet 9. On the upper side of the base part 1, a downwardly pressable spring leaf 10 is fixedly arranged. On the downwardly pressable spring leaf 10, a holder 11 is arranged, which can lift this spring leaf 10 upwards. The connecting element made of metal with a low melting temperature is designed as a rivet made of metal with a low melting temperature, such as a rivet made of tin. Holes for rivet connection are provided on the downwardly pressable spring leaf 10 and the holder 11. The downwardly pressable spring leaf 10 and the holder 11 are connected to each other by means of a rivet made of tin. A melting push rod 13 is provided between the downwardly pressable spring leaf 10 and the spring leaf electrode 4. The holder 11 is designed as an arcuate leaf. And the downwardly pressable spring leaf 10 is formed as a C-shaped leaf. On the downwardly pressable spring leaf 10, a protruding part 15 is provided which is arranged under the arcuate surface of the holder 11 in abutting manner. In operation, the holder 11 is fixed to the metal

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ϕ ϕ

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wall surface of the container. Normally the electric heater is arranged on this surface. If the holder 11 is very closely fitted to this metal surface, both the good contact of the holder with the metal surface is ensured so that the reliable temperature sensor control is achievable, and a certain space is created for mounting and adjustment, since the holder is designed as an arcuate sheet, and the two ends are extended outwards when the central arcuate part is pressed downwards.

When the water in the tank is evaporated, the steam double metal disc 5 is heated by the steam and set in motion, and the rocker switch 7 is driven by the steam double metal disc, and the spring leaf electrode 4 is pushed up by the steam push rod 14 so that it is removed from the connecting lug 3 of the plug pin connected to it and the power supply of the heat generator is switched off. This is how the heating of the water in the tank stops. This is the normal case of switching off the power supply during boiling. If there is no water in the tank or the water in the tank is completely evaporated, the switch-off control no longer works during boiling, or the switch-off control itself fails during boiling when it is impossible to supply the steam to the steam double metal disc. This is how the temperature on the outside of the tank is continuously increased. When the movement temperature of the dry fire protection double metal disc is reached, the dry fire protection double metal disc moves and pushes the

Dry fire protection bumper 8 so that the connecting lug 3 of the plug pin is removed from the fixed contact blade 9 and the power supply of the heat generator is switched off. This is achieved to stop the heating of the container. This is the case of dry fire protection control. When the temperature is reduced, the dry fire protection

Double metal disc 6 reset, In this case, if no one supervises the electric kettle during operation, the process of turning on the heat generator and generating heat, and then turning off the heat generator and lowering the temperature is repeated over and over. Thus, the temperature of the electric kettle remains above 100 ⁰ C. Long-term repetition causes aging or destruction of the plastic parts, failure of the control, and possibly fire. If the boiling shutdown control and the dry fire protection control fail, the temperature of the container will continue to rise. In this case, since the low melting temperature metal connecting member 12 is arranged on the surface of the container in abutting manner, the low melting temperature metal connecting member 12 is melted, when its melting temperature is reached, the downwardly pressable spring leaf 10 is removed from the holder 11 and the melting push rod 13 is displaced so that the spring leaf electrode 4 is removed from the fixed contact leaf 9 and the power supply of the electric kettle is completely turned off and cannot be turned on. Thus, it is achieved to effectively prevent the fire due to the failure of the temperature control of the electric kettle.

Compared to the state of the art, the utility model socket has the following advantages:

the melting temperature control is very precise;

it is not easy to lead to a loss of control;

multiple protection is achieved; and

the temperature control is more safe and reliable,
because a downwardly pressable spring leaf is fixedly arranged on the upper side of the base part, a holder is arranged on the downwardly pressable spring leaf to lift the spring leaf, a connecting element made of metal with a low melting temperature between the downwardly pressable spring leaf

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and the holder and a melting pusher is arranged between the downwardly pressurizable spring leaf and the spring leaf electrode.

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Claims (4)

1. A socket with a temperature sensor control device for a device, comprising a base part ( 1 ), a plug pin ( 2 ) which is arranged on the base part ( 1 ), a connection lug ( 3 ) for plug pins, an electrode ( 4 ) which is designed as a spring leaf and is connected to an electrical heat generator, a dry fire protection metal disk ( 6 ) and a dry fire protection bumper ( 8 ), characterized in that a fixed contact leaf ( 8 ) is arranged between the spring leaf electrode ( 4 ) and the connection lug ( 3 ) of plug pins, said spring leaf electrode ( 4 ) and the connection lug ( 3 ) are pressed resiliently against the fixed contact leaf ( 9 ), and a dry fire protection bumper ( 8 ) is arranged between said dry fire protection double metal disk ( 6 ) and the connection lug ( 3 ) of plug pins which can press the connection lug ( 3 ) upwards so that the connection lug of the plug pin is removed from the fixed contact leaf ( 9 ), a compression spring leaf ( 10 ) is fixedly arranged on the upper side of the base part, and a holder ( 11 ) is arranged on the spring leaf ( 10 ) which can be pressed downwards, which holder can lift the spring leaf ( 10 ) upwards, a connecting element ( 12 ) made of metal with a low melting temperature is fixedly arranged between the spring leaf ( 10 ) which can be pressed downwards and the holder ( 11 ), a melting push rod ( 13 ) is arranged between the spring leaf ( 10 ) which can be pressed downwards and the spring leaf electrode ( 4 ). 2. Socket according to claim 1, characterized in that said holder ( 11 ) is designed as an arcuate sheet. 3. Socket according to claim 1 or 2, characterized in that said downwardly compressible spring leaf ( 10 ) is designed as a C-shaped leaf having a projecting end ( 15 ) arranged in abutting manner under the arcuate part. 4. Socket according to claim 1, 2 or 3, characterized in that said other spring leaf electrode ( 4 ) is resiliently connected to the connecting lug ( 3 ) of plug pins, and on said base part ( 1 ) a tilt button ( 7 ) and a steam double metal disk ( 5 ) which can drive the tilt button ( 7 ) to tilt are arranged, and a steam push rod ( 14 ) is arranged between the tilt button ( 7 ) and the connecting lug ( 3 ) of plug pins.