KR101078875B1 - Plug for temperature control of heater unit - Google Patents

Abstract

PURPOSE: A plug for controlling the temperature of a heater unit is provided to minimize the malfunction of a bimetal. CONSTITUTION: A plug of heating tool(60) includes an electrode terminal(31) and a conduction pin(41). The conduction pin is protruded between the electrode terminals. A plug socket of a power cable(50) accepts a corresponding terminal(54) and a conduction pipe(51). The conduction pin is inserted in the conduction pipe. A bimetal(55) detects the heat of a heating device.

Description

Plug for temperature control of heater unit

The present invention relates to a plug coupling structure for temperature control of a high temperature heating apparatus that can be applied to a plurality of heating apparatuses that generate heat through electric power such as a steamer, a hand stove, an oven, and the like. In particular, the conductive pin is inserted close to the heater of the heating apparatus, and the other end of the conductive pin is inserted into the conductive tube protruding from the inside of the plug socket when the terminals of the positive electrode and the negative electrode of the plug and socket are fitted together to relay heat. This conducted heat changes the shape of the bimetal located inside the plug socket, and through this change, the plug socket coupling structure for temperature control of the hot heater can be detected and controlled. It is about.

In general, a heating device such as a steamer, a hand stove, an electric pot, an oven generates a high temperature through a heater inside, and is a tool that enables steaming, heating, and cooking using this heat. Therefore, all of these heaters have a bimetal for controlling the temperature.

An example looks at the problem through a conventional steaming machine.

This utility model is registered No. 20-383040, as shown in Figs. 1 and 2, the double disk is manufactured in the form of a hollow disk, the insulating cotton 12 is built, and the packing 14 is fitted on the outer peripheral surface, the surface There are upper and lower bodies 10 and 10 'accommodated in the lid 16 on which the acupressure protrusion 16a and the far infrared ray heating element 16b are formed.

Between the insulating cotton 12 of the upper and lower bodies 10, 10 'is made of soil such as kaolin, loess, etc. to form an insertion groove 20a and a fastening hole 20b, the insertion groove ( The heating plate 20 is fastened in multiple stages with the heating wire 22 interposed in the 20a. In addition, a first fuse 32 is installed together with a heat sensing plate 32a having one end inserted between the heating plates 20, and the second fuse is extended to the first fuse 32 so as to be connected to the input socket 36. In addition to the 34, the steaming machine includes a shut-off means 30 having a light emitting diode 35.

The conventional design is that the heating wire is heated through the electric power, the heat energy radiated from the heating wire heats the heating plate, the heat energy of the heating plate is stored in the thermal insulation cotton and steamed. The heat energy of the heating plate is stored in the warming cotton, and the heat energy is gradually removed, and a method of applying a poultice to the user's skin is performed.

The steam generator heats up, and when plugged in and connected to a power source, electric current flows through the heating wire to generate heat. This heat does not have to be supplied continuously, and once a certain amount of heat energy is filled, it must cut off the supply of further heat energy. To this end, the conventional invention used a heat sensing plate. In fact, most of the thermal sensing plates use bimetal, which is composed of two metal layers having different coefficients of thermal expansion, so when the heat rises, the ratio of length expansion according to the heat is different so that it is bent or curved to one side. It is a way to measure the amount of thermal energy charged using bimetals whose shape is deformed and thus control of the power source.

By the way, in the case of such a conventional steamer, the defect that occurs in the majority of use was due to bimetal. The failure rate is high because the bimetal continues to receive temperature until the heat energy is completely released from the hot steam generator. The breakdown of the biketal is in fact a breakdown of the steamer, which creates the cost of AS and the low durability.

The present invention is to provide a plug coupling structure for controlling the temperature of a high-temperature heating device that can be applied to a plurality of heating devices for generating heat through electric power such as a steamer, a hand stove, an oven.

Accordingly, the present invention, the conductive pin is inserted close to the heater of the heating apparatus, and the other end of the conductive pin is inserted into the conductive tube protruding from the inside of the plug socket when the terminals of the positive and negative terminals of the plug and socket are fitted together A plug for temperature control of a high temperature heater that allows the heat transfer and the conducted heat to change the shape of the bimetal located inside the plug socket so as to detect and control the temperature of the heater. To provide a coupling structure.

The coupling structure of the plug for controlling the temperature of the high-temperature heating device according to the present invention, protrudes between the electrode terminal 31 and the electrode terminal 31 of the circular cross section of the negative electrode and the positive electrode for current energization of the heating mechanism 100 A heating device side plug 60 having a conductive pin 41 to be formed; A power cable for accommodating the corresponding terminal 54 corresponding to the electrode terminal 31 of the negative electrode and the positive electrode and the conductive tube 51 into which the conductive pin 41 is fitted so that the heating device side plug 60 can be fitted. Side plug socket 50; And a bimetal (55) embedded in the power cable side plug socket (50) to detect heat of the heating mechanism (100) conducted through the conductive pipe (51) and short-circuit the power. It senses the temperature inside and controls the short circuit of the power supply if necessary.

In addition, according to the coupling structure of the plug for controlling the temperature of the heating device of the high temperature of the present invention, the power socket side plug socket 50 is an injection molding inserted into the insertion hole of the plug 60, and the corresponding terminal in the hollow space. The box-shaped body 56 accommodating the 54 and the conductive tube 51 and the bimetal 55 is screwed together through the cover 57 to be integrated: the power cable side plug socket 50 is a plug 60. Injection molded into the insertion hole of the) has a body (K) integrally molded to accommodate the corresponding terminal 54, the conductive tube 51 and the bimetal 55 therein: the power cable side plug socket 50 inside The lamp 52 is connected to the bimetal 55 to turn the lamp 52 on and off in accordance with the change of the bimetal 55 through high heat.

In addition, according to the coupling structure of the plug for controlling the temperature of the heating device of the high temperature of the present invention, a small speaker 53 and a speaker hole 57 are formed in the plug socket 50 of the power cable side to change the bimetal 55. According to the small speaker (53) informs the state.

According to the present invention, the durability of the bimetal used to sense and control the heat generated by the heating device can be minimized, thereby improving durability.

In addition, according to the present invention, there is an advantage that it is possible to implement the present invention by a simple method of changing the shape of the existing heating device and the plug of the power cable.

In addition, according to the present invention, there is an advantage that it is easy to use because it can recognize the interruption or continuous supply of power in real time through the speaker and the lamp to inform the charging of the power.

1 is a view showing a conventional steaming machine,
Figure 2 is a cross-sectional view showing the inside of the conventional steamer,
3 is an exploded view showing the heating device and the plug of the present invention;
4 shows an integrated plug of the present invention,
5 is a cross-sectional view showing an embodiment of the integrated heating apparatus of the present invention;
6 is a view showing a heating device such as a steamer according to the present invention.

The present invention relates to a steamer. Therefore, the configuration and operation of the present invention will be described in detail with reference to FIGS.

The present invention, as shown, the heating device side plug having a conductive pin 41 protruding between the electrode terminal 31 and the electrode terminal 31 of the circular cross section of the negative electrode and the positive electrode for current flow of the heating mechanism 100 And a conductive tube 51 into which the corresponding terminal 54 corresponding to the electrode terminal 31 of the negative electrode and the positive electrode and the conductive pin 41 are fitted so that the plug 60 can be fitted to the heating device side plug 60. There is a power cable side plug socket (50) for accommodating, and the bimetal for shorting the power supply by detecting the heat of the heating mechanism (100), which is embedded in the power cable side plug socket (50) and conducted through the conduction pipe (51) There is 55. Therefore, they are configured to include sensing the temperature in the heating mechanism 100, and if necessary to control the short circuit of the power supply.

That is, the present invention can be applied to various heating apparatuses 100, steamers, electric ovens, hand stoves and the like. In the illustrated drawings of the present invention, the steamer is illustrated as an example, but is not limited thereto, and may be used in home appliances and heating apparatuses having all electric heat sources. For the present invention provides a plug 60 that can be powered on one side of the heating device (100). The plug socket 50 is a space into which the plug socket 50 can be fitted and maintains the same shape as that of the outer circumferential surface of the plug socket 50. The plug 60 has three protruding pins, and electrode terminals 31 serving as cathodes and anodes protrude from both left and right ends thereof. A plug socket 50 of a power cable is inserted into the electrode terminal 31 of the negative electrode and the positive electrode to charge electricity, and accordingly, the heater 11 connected to the terminal is heated to fill the thermal energy.

As for the plug socket 50 on the power cable side fitted to the plug 60, a corresponding terminal 54 corresponding to the electrode terminal 31 is provided. Plug socket 50 of the present invention is formed in a somewhat enlarged size compared to the body 56 of the general plug socket 50, the conductive tube 51, the corresponding terminal 54 is fitted therein, the bimetal (55) Connected by wires. Looking at the coupling relationship between the terminal, the pin and the tube, the electrode terminal of the negative electrode and the positive electrode is fitted to the corresponding terminal 54 of the plug socket 50, the conductive pin 41 is coupled in a manner that is fitted to the conductive tube 51. .

In more detail, the electrode terminal 31 of the negative electrode and the positive electrode formed on the plug 60 is fitted to the corresponding terminal 54 of the negative electrode and the positive electrode protruding from the plug socket 50, and the conductive pin 41 is connected to the conductive tube 51. ) Is inserted into. The conductive pin 41 and the conductive tube 51 is a highly conductive metal that is easy to conduct heat inside the heating device 100 is suitable. As a result, when a current flows through the corresponding terminal 54 of the power cable, it is energized to the electrode terminal 31 of the heating apparatus 100, and this energized current heats the heater 11 inside to generate a high temperature. Look at the way of delivery through the poultice of Figure 5 shown.

The current through the electrode terminal 31 and the corresponding terminal 54 of the cable heats the heater 11 and the heat generated by the heating heats the heat storage body 12 on the outside. Heat energy accumulated and heated is to heat the heat insulating body 12 outside. When the heat storage body 11 and the heat insulating body 12 is heated, the temperature rises. The temperature rises and the temperature is transferred to the conductive pipe 51 through the conductive pin 41 shown in the plug socket 50. Move inside). Since the bimetal 55 is mounted at the end of the conductive tube 51, the thermal energy transmitted through the conductive tube 51 also affects the bimetal 55, causing bending and bending. This bimetal 55 is used to generate a control signal for shorting the power supply.

In the present invention, the bimetal 55 is mounted inside the plug socket 50, and when the current should be supplied and when the supply has been completed and the current should be stopped now. If the bimetal is manufactured by inserting the inside of the heating device, as in the conventional heating device, as shown in FIG. If it is in the state of the bimetal 55 is easy to receive the heat energy as it is, it is broken. However, since the bimetal 55 of the present invention is provided in the power plug socket 50 of the power cable, once the power source is removed and the power cable is removed, the charging of the current is stopped while thermal energy causes the high temperature of the bimetal 55. This prevents the phenomenon of sweetening and reduces the risk of breakdown.

A more detailed configuration of the present invention will now be described in detail with the drawings shown.

In the present invention, the power cable side plug socket 50 is an injection molded product inserted into the insertion hole of the plug 60 and accommodates the corresponding terminal 54, the conductive tube 51 and the bimetal 55 in the empty space. The box-shaped body 56 is screwed together through the cover 57 to be integrated. That is, the power cable side plug socket 50 of the present invention is composed of an injection molded body 56 and a cover 57, as shown in FIG. In the case of the body 56 is formed in a size to fit the insertion hole of the plug 60 corresponding to the box shape is a structure that can be pushed. It is preferable that the corresponding terminal 54, the conductive tube 51, the bimetal 55 are mounted in the empty space of the body 56, and the cover 57 is fastened with a screw.

In addition, in the present invention, the power socket-side plug socket 50 is an injection molding that is inserted into the insertion hole of the plug 60 and is integrally molded to accommodate the corresponding terminal 54, the conductive pipe 51, and the bimetal 55 therein. It is preferred to have a body K that is fitted. In other words, the body (K) to produce a plug socket 50, the corresponding terminal 54, the conductive tube 51 and the bimetallic 55 is inserted into the molding to be manufactured. The molten synthetic resin is cured to form a plug socket 50 of one body (K). In the present invention, the plug socket 50 of one body K can be used.

Next, in the present invention, the inside of the power cable side plug socket 50 connects the lamp 52 to the bimetal 55 to turn the lamp 52 ON-OFF according to the change of the bimetal 55 through high heat. desirable. The bimetal 55 is coupled to the lamp 52 as a means that can be recognized by the user through the change of state receives the heat energy. If the bimetal 55 is bent by receiving heat energy through the conductive tube 51, the bimetal 55 may stop the charging of the current through the conductive tube 51 or notify the user of the lamp 52 through the fire of the lamp 52. The ON of the lamp 52 means complete charging of thermal energy and the OFF indicates that it is filling.

On the other hand, it is preferable to form a small speaker 53 and a speaker hole 57 in the power socket-side plug socket 50 so as to inform the state through the small speaker 53 according to the change of the bimetal 55.

It can be used for both the integrated body (K) and the body 56 with the cover 57, it is also possible to mount the small speaker 53 together with the above-described lamp 52, and to mount only the small speaker 53 It can be used. This too, when the filling is completed, the bimetal 55 detects this, and operates the small speaker 53 to inform the user of the perfect filling of the current by sound.

As a result, in the present invention, while filling the thermal energy as in the prior art, in order to improve the durability of the bimetal 55, the bimetal 55 is pulled out by the plug socket 50, and the characteristics and functions of the existing heating apparatus 100 are all It can be utilized.

Then it will be described a simple reference for the steamer of the present invention carried out shown in Figures 3 to 6. Reference numerals 10 and 20 in the drawings are the outer shell of the steaming machine which wraps the insulating agent 13 with upper and lower cover plates. In addition, the screw 14 serves to fasten the steamer perfectly, the lid 15 that can be coupled to the center of the upper, lower cover plate (10, 20) to hide the head of the screw (14) It is designed to help. 30 is preferably formed by applying silicone as an edge.

10, 20; Upper and lower cover plates 30; edge
31; Electrode terminal 41; Conduction pin
50; Plug socket 51; Conduction pipe
52; Lamp 53; Small Speaker
54; Corresponding terminal 55; Bimetal
56; Body 57; Speaker ball
60; plug

Claims (5)

A heating device side plug (60) having a conductive pin (41) projecting between the electrode terminal (31) and the electrode terminal (31) of a circular cross section of a cathode and an anode for current conduction of the heating device (100);
A power cable for accommodating the corresponding terminal 54 corresponding to the electrode terminal 31 of the negative electrode and the positive electrode and the conductive tube 51 into which the conductive pin 41 is fitted so that the heating device side plug 60 can be fitted. Side plug socket 50; And
And a bimetal (55) which is built in the plug socket (50) of the power cable and detects the heat of the heating mechanism (100) conducted through the conduction pipe (51) and short-circuits the power supply. A coupling structure of a plug for temperature control of a high temperature heating device, characterized by sensing the temperature and controlling a short circuit of a power supply if necessary.
The method of claim 1,
Power cable side plug socket 50,
An injection molded product inserted into the insertion hole of the plug 60 is a box-shaped body 56 which accommodates the corresponding terminal 54, the conductive tube 51, and the bimetallic 55 in an empty space thereof, and a cover 57. The coupling structure of the plug for controlling the temperature of the high temperature heating device, characterized in that the integrated with the fastening.
The method of claim 1,
Power cable side plug socket 50,
High temperature heating, characterized in that the injection molding is inserted into the insertion hole of the plug 60 has a body (K) integrally molded to accommodate the corresponding terminal 54, the conductive pipe 51 and the bimetal 55 therein. Combined construction of plugs for temperature control of equipment.
The method according to claim 2 or 3,
Inside the power socket side plug socket 50,
The coupling structure of the plug for controlling the temperature of the heating device of the high temperature, characterized in that by connecting the lamp 52 to the bimetal 55 to turn the lamp 52 on and off according to the change of the bimetal 55 through high heat.
The method of claim 4, wherein
On the power cable side plug socket 50,
Combination structure of plug for temperature control of a high temperature heating device, characterized in that the small speaker 53 and the speaker hole 57 is formed to inform the state through the small speaker 53 in accordance with the change of the bimetal (55) .

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