DE102012013782A1 - Temperature protection device for socket - Google Patents

Abstract

A temperature protection device for a socket, wherein a relay contact with the working circuit of the socket is connected in series, for controlling on / off the working circuit of the socket, characterized in that a temperature protection sensor is connected in series with the supply circuit of the relay coil and the temperature protection sensor within the Temperature sensor region, consisting of a thermal conductivity component, which dissipates the heat of the relay contact through a Wärmeleitfähigkeitsmedium arranged. The structure of the present invention is simple, reliable, and particularly adapted for temperature protection in a high power outlet to prevent the occurrence of fire when it is above rated current.

Description

Field of the invention

The present invention relates to a temperature protection device of an electrical device, more particularly relates to a temperature protection device for a power outlet, and more particularly relates to a temperature protection device of the socket with a relay control device.

Background of the invention

When the working current of a socket becomes too large, the temperature of the socket increases. In order to prevent the possibility of accidents caused by too high a temperature, a protective tube is generally connected in series with the working circuit. If the working or operating current is too high, the power supply is interrupted. When the working current reaches 2.5 times the rated current, the conventional protection circuit is turned off. Therefore, there is a problem with temperature rise for some high-performance sockets, for example, when the rated current is 16 A and the operating current for the test is 20 A, and it is difficult to achieve the goal of temperature protection by connecting with a protection circuit in series with the working circuit ,

Summary of the invention

The technical problem which the present invention seeks to solve is to provide a temperature protection device for a socket which has a simple structure but works reliably and which can be used in a high-power socket.

The technical proposal for solving the above problem is:
a relay breaker contact is connected in series with the working circuit of a socket to control the on / off of the working circuit of the socket;
a temperature protective tube is connected in series with the relay coil power supply circuit, and the temperature (protection) sensor is in the temperature protection sensor area, which is a thermally conductive component that dissipates the heat of the real contact through a thermal conductivity medium.

Furthermore, the relay contact is electrically connected to a pad of a corresponding contact on a circuit board and is connected in series by the contact pad with the working circuit of the socket;
the structure of the temperature sensor region is as follows: a temperature sensor clip made of thermal conductivity material is provided, wherein the temperature sensor clip is thermally conductively connected to the pad of the relay contact on the board by the thermal conductivity material;
the temperature sensor clip itself or the temperature sensor clip and the pad of the relay contact or the temperature sensor clip and other components that can conduct the heat of the relay contact form / form a U-shaped clip body; the temperature protection probe is mounted in the body of the U-shaped clip to sense the temperature of the temperature sensor clip.

The principle of operation of the present invention is as follows:
When the temperature sensor region is composed of components that can conduct the heat of the relay contact through the thermal conductivity medium, its temperature has a positive correlation with the temperature of the relay contact. Since the relay contact is connected in series with the power circuit of the socket, the temperature of the relay contact increases as the current becomes large, and the temperature of the temperature sensor area in which the temperature protection sensor is provided also increases. If the operating current of the socket is above a predetermined range, the temperature of the temperature sensor range is above a defined value, the temperature protection sensor in the temperature sensor area is disconnected, the power supply of the relay coil is switched off and the relay contact switches off the working circuit of the socket to protect against the temperature ,

The structure of the present invention is simple, reliable, and tailored to the temperature protection of a high performance power outlet to prevent the occurrence of fire when it is above rated current.

Brief description of the drawings

1 Fig. 10 is a control block diagram of a remote control socket according to Embodiment 1 of the present invention;

2 FIG. 13 is the perspective schematic view according to Embodiment 1 of the present invention; FIG.

3 is the perspective schematic view in the direction A of 2 ;

4 is the perspective schematic view in the direction B of 2 ;

5 Fig. 13 is the perspective schematic view according to Embodiment 2 of the present invention;

6 is the perspective schematic view in the direction C of 5 ;

7 is the perspective schematic view in the direction D of 5 ;

LIST OF REFERENCE NUMBERS

1

circuit board

2

relay

21

relay housing

22

Contact pin of the relay

23

Relaisspulenpin

3

Temperature protection sensor

31

Temperaturschutzfühlerpin

5

Temperature sensor clip

51

Solder pin of the temperature sensor clip

6

contact pad

7

contact pad

8th

Connection of the socket

Detailed Description of the Preferred Embodiments

Embodiment 1 (FIGS. 1 to 4)

This embodiment is a temperature protection device for a remote control socket. Regarding 1 1, which is a block diagram of a remote control socket, J1, J2 are input terminals for 220V AC, respectively, and J1, J2 and D1 to D4 are one bridge rectifier circuit. The voltage regulation line Z1, capacitance C9, C2 constitute a +24 V DC power supply circuit and voltage regulation line Z2, capacitors C4, C3 and resistor R6 constitute a +5 V DC power supply circuit.

The neutral input terminal or neutral input J2 is electrically connected to the neutral output terminal J3 of the remote control socket. The current-carrying input terminal or input J1 is electrically connected to the current-carrying output terminal or output J4 of the remote control socket via a break contact of the relay RL1. The relay RL1 controls / controls on / off the output circuit of the remote control socket.

The remote control circuit is as follows:
a remote control receiving circuit consisting of antenna L2 and an external circuit is used to pick up a remote control on / off signal;
a U1 (H8006) and an external circuit form the coding circuit, a U2 (24C02) is the memory circuit, the output terminal of the remote control receiving circuit RF_DATAIN is pin 7 of the coding circuit connected and pin 5 of the output control coding circuit is connected to the base of the switching control transistor Q1.

The coil of the relay RL1 is connected in series with the collector of the control switching transistor Q1 and +24 V current, Q1 controls the on / off of the supply circuit of the relay coil, and the contact of the relay RL1 is connected to the circuit of the live terminal J4 of FIG Remote control socket connected.

The temperature protection device of this example is as follows:
In the supply circuit of the coil of the relay 2 (RL1 in the block diagram) is the temperature protection probe 3 (F1 in the block diagram) connected in series. The type of temperature protection sensor 3 this example is K18;
Regarding 2 becomes the relay 2 this example on a printed circuit board 1 mounted and the two contact pins 22 of the relay each by soldering with the contact pad 6 . 7 connected to the board ( 3 ) and the two contact pads are respectively electrically connected to the current-carrying input terminal J1 and the current-carrying output terminal J4, and the two contacts of the relay are connected in series to the current-carrying output working circuit of the socket through the contact pads.

Regarding 3 and 4 is a temperature sensor clip 5 , U-shaped made of metallic material, with a contact pad 6 the two contact pads connected by soldering (or with the other contact pad 7 connected by soldering). A temperature protection sensor 3 is clamped in the flexible clip body of the temperature sensor clip to sense the temperature of the temperature sensor clip and the thermal protector is electrically isolated from the temperature sensor clip.

The metallic temperature sensor clip of this example is made of copper. After solder bonding to the contact pad, the temperature sensor clip conducts the heat of the relay contact through the contact pad and allows the temperature protection probe to be clamped in the U-shaped body of the temperature sensor clip to sense the temperature of the relay contact.

When the voltage of this remote control socket is below the rated voltage and the current is not higher than the rated current of the relay contact of 16A, the temperature protection probe K18 selected in this embodiment does not function, so that the socket maintains its normal working condition. If the working current of the relay contact is more than 16 A, the temperature rises too high and the temperature protection probe clamped in the temperature sensor clip is cut off so that the relay coil, the relay contact and the working circuit of the socket are interrupted to protect against the temperature.

Embodiment 2 (FIGS. 5, 6, 7)

The difference from the embodiment 1 is as follows:
The temperature sensor clip 5 this example is close to the case 21 of the relay 2 arranged, and forms a U-shaped temperature sensor clip body with the housing of the relay, pin 51 of the temperature sensor clip in the lower part of the temperature sensor clip is with a pad 6 the two pads 6 . 7 the relay contact through the board connected by soldering, and the temperature protection probe 3 is in the U-shaped clip body, by the temperature sensor clip 5 and the case 21 of the relay is clamped.

The temperature sensor clip 5 This example conducts the heat of the relay contact through the contact pad 6 , If the case 21 of the relay 2 is made of electrically insulating resin material, the thermally conductive medium air in the housing conducts the heat of the relay contact, so that the U-shaped body formed by the temperature sensor clip and the housing of the relay passes the temperature of the relay contact to the temperature protection probe.

The present invention is particularly suitable for a socket with remote control, which is also referred to as a socket with auxiliary device, such as a remote control socket, a socket with a timer, etc. The sockets of the above two embodiments are remote control sockets in which the relay itself is the function of Has control of on / off the socket output or socket output. When practicing the present invention, it is only necessary to add some components, such as a temperature protection probe. While the relay of this device is used, it can also take on the on / off function of the temperature protection.

The above is just one better embodiment of the present invention and does not limit the design in any way. Any simple change, equivalent replacement and modification carried out according to the technical substance of the present invention is within the scope of the technical solution of the present invention.

Claims (4)

Temperature protection device for a socket, wherein a relay contact with the working circuit of the socket is connected in series for controlling or controlling the on / off of the working circuit of the socket, characterized in that a temperature protection probe (temperature protective tube) connected in series with the supply circuit of the relay coil is and the temperature protection sensor within the temperature sensor region, consisting of a thermal conductivity component, which dissipates the heat of the relay contact through a thermal conductivity medium or heat-conducting medium, is arranged. A temperature protection device for a socket according to claim 1, characterized in that the relay contact is electrically connected to a pad of the corresponding contact on a circuit board and is connected in series by the pad of the contact with the working circuit of the socket; the structure of the thermal sensor region is as follows: a temperature sensor clip ( 5 ) made of thermal conductivity material or thermally conductive material is provided, which is thermally conductively connected to the pad of the relay contact on the board by the thermal conductivity material or thermally conductive material; a U-shaped clip body is formed by the temperature sensor clip per se or the temperature sensor clip and the pad of the relay contact or the temperature sensor clip and other components that can conduct the heat of the relay contact; the temperature protection probe is mounted in the U-shaped clip body to sense the temperature of the temperature sensor clip. Temperature protection device for a socket according to claim 2, characterized in that the temperature sensor clip ( 5 ), which is made of a metal material is U-shaped, with one of the two contact pads ( 6 ) is connected by soldering and the temperature protection probe ( 3 ) is clamped in the flexible clip body of the temperature sensor clip. Temperature protection device for a socket according to claim 2, characterized in that the temperature sensor clip ( 5 ), which is made of a metal material, close to the housing ( 21 ) of the relay ( 2 ) is mounted, which forms a U-shaped temperature sensor clip body together with the housing of the relay, wherein the lower part of the temperature sensor clip with one of the two contact pads ( 6 ) is connected by soldering, and the temperature protection probe ( 3 ) in the U-shaped clip body, formed by the temperature sensor clip ( 5 ) and the housing ( 21 ) of the Realis ( 2 ), is clamped.

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