KR100691895B1 - The fixing structure of temperature sensor for electric oven - Google Patents

Abstract

The present invention relates to a temperature sensor fixing structure of an electric oven in which a temperature sensor for measuring the temperature of the oven cavity is inserted at the correct position of the sensor receiving tube, and the position thereof is fixed by the fixing pin.

The temperature sensor fixing structure of the electric oven according to the present invention, the temperature sensor (T) for measuring the temperature inside the oven cavity (100) which is a space for cooking food; A sensor accommodation tube 300 installed through the oven cavity 100 and accommodating the temperature sensor T therein; A wire 400 connected to one side of the temperature sensor T to transmit a current to the temperature sensor T; A through hole 340 formed to penetrate the sensor receiving tube 300 from a side; It is selectively inserted into the through hole 340 is configured to include a fixing pin 500 for fixing the wire 400 inside the sensor receiving tube (300). According to the present invention, the temperature sensor is mounted and fixed at the correct position has the advantage that the reliability of the temperature measurement of the oven cavity is improved.

Oven, cavity, temperature sensor, sensor tube, fixed pin

Description

{The fixing structure of temperature sensor for electric oven}

1 is a perspective view showing the appearance of a typical electric oven.

Figure 2 is a partial perspective view showing the upper surface of the oven cavity of the electric oven according to the prior art.

3 is a schematic view schematically showing a fixed state of a temperature sensor according to the prior art.

Figure 4 is a perspective view showing the inside of the rear of the electric oven employing a preferred embodiment of the temperature sensor fixing structure of the electric oven according to the present invention.

5 is an exploded perspective view showing the configuration of a preferred embodiment of the temperature sensor fixing structure of the electric oven according to the present invention.

Figure 6 is a schematic cross-sectional view showing the mounting state of the main pin dominant fixing pin of the preferred embodiment of the temperature sensor fixing structure of the electric oven according to the present invention.

Explanation of symbols on the main parts of the drawings

100. Oven cavity 120. Upper heater

200. Electric Battle Room 220. Insulator Lower

300. Sensor housing tube 320. Fixed bracket

340. Through hole 400. Electric wire

420. Display part 500. Push pin

520. Insertion part 540. Winding part

T. Temperature sensor

The present invention relates to an electric oven, and more particularly, a temperature sensor for measuring the temperature of the oven cavity is inserted into the correct position of the sensor receiving tube, the position of the temperature sensor fixing structure of the electric oven is fixed by a fixing pin. It is about.

In general, an electric oven is dried by using various heaters and high frequency generators such as ceramic heaters, sheath heaters, and halogen heaters that are electrically operated after the cooking material is sealed. 조리) As a cooking appliance for heating cooking materials by heating the inside and the inside of the food at the same time, the cooking speed is fast, the thermal efficiency is high, and safety is increased by using electricity, and its use is increasing.

In recent years, kitchen appliances including electric ovens are being built in a built-in type. Built-in refers to a method of incorporating various electronics into the furniture to give a sense of unity to the design. It is not only able to make the most of the small space but also has excellent interior effects.

1 is a perspective view showing the appearance of a general electric oven, as shown in the drawing, the electric oven 10 is formed in a substantially rectangular parallelepiped shape, the inside of the oven cavity 20 is a space for cooking while holding food. ) Is formed.

The front surface of the oven cavity 20 is formed to be opened, the open front surface of the oven cavity 20 is selectively shielded by the oven door 30 formed to be rotatable. In addition, a door handle 32 is provided at an upper end of the oven door 30 so that the user can easily grip the oven door 30.

 In addition, a control panel 40 is provided on an upper front surface of the electric oven 10, that is, an upper front surface of the oven cavity 20. The control panel 40 forms a part of the front appearance of the electric oven 10 and at the same time displays a manipulation knob 42 for controlling the operation of the electric oven 10 and a display 44 for displaying an operation state. It is to provide a space provided with the back.

FIG. 2 is a partial perspective view showing the upper surface of the oven cavity of the electric oven according to the prior art. As shown in the drawing, the upper heater 50 is mounted on the inner upper surface of the oven cavity 20.

The upper heater 50 directly heats the inside of the oven cavity 20 from the inner upper surface of the oven cavity 20, and is mounted on the upper surface of the oven cavity 20 to be exposed to the inside of the oven cavity 20. It is fixed by a plurality of fixing brackets (52).

The upper heater 50 is formed by bending a plurality of times to evenly heat the inside of the oven cavity 20 on the upper surface of the oven cavity 20, the upper heater 50 is formed by one heater or If necessary, one or more heaters are formed in combination.

On the other hand, the upper one side of the oven cavity 20 is equipped with a sensor receiving tube 60 with a built-in temperature sensor (T) for measuring the temperature inside the oven cavity (20). The sensor receiving tube 60 is mounted to be inserted into the oven cavity 20 by a predetermined length through the oven cavity 20 in a long cylindrical shape.

3 is a schematic view schematically showing a fixed state of a temperature sensor according to the prior art. As shown in the drawing, the sensor accommodating tube 60 is formed in a long cylindrical shape, and of the oven cavity 20. The portion inserted into the inner portion is formed to be blocked, the portion exposed to the outside of the oven cavity 20 is formed to be opened.

The sensor receiving tube 60 is formed of a length sufficient to be inserted to an appropriate position of the oven cavity 20, the temperature sensor (T) for measuring the temperature at a predetermined position inside the sensor receiving tube (60) Will be inserted.

One side of the temperature sensor (T) is connected to the wire 62 for supplying a current to the temperature sensor (T) for the operation of the temperature sensor (T), the wire 62 is the sensor accommodation tube (60) Is exposed to the outside and connected to the control device.

On the other hand, the temperature sensor (T) should be fixed at a predetermined position inside the sensor receiving tube 60, the position may be changed by carelessness during the assembly process or use, which is accurate inside the oven cavity (20) Problems with temperature measurement can also occur.

In order to solve this problem, the temperature sensor T is inserted into an inner side of the sensor accommodation tube 60 and positioned at a predetermined position, and then one end of the opened sensor accommodation tube 60 is molded with silicon or the like. Molding process is to form a molding unit 64 for fixing the wire 62 connected to the temperature sensor (T).

Therefore, the temperature sensor T can maintain the original fixed position continuously, and the temperature inside the oven cavity 20 can be continuously measured at a constant position.

However, the prior art as described above has the following problems.

The temperature sensor (T) is a molding unit (64) for molding the one end of the open side of the sensor accommodation tube 60 to the wire 62 connected to the temperature sensor inserted into the sensor accommodation tube (60) By fixing the mounting position is fixed.

Therefore, after the initial mounting of the temperature sensor (T), the arbitrary adjustment of the mounting position of the temperature sensor (T) is not easy, and if it is not mounted at the correct position during the initial installation, it may be difficult to re-install There is a problem.

In addition, even when a service operation is necessary due to the replacement of the temperature sensor T or for other reasons, the molding unit 64 formed on the opened side of the sensor accommodating tube 60 is completely removed, and then the service operation is performed. The molding part 64 is formed on the opened side of the receiving tube 60 to fix the temperature sensor T, thereby causing a significant inconvenience in service.

An object of the present invention is to solve the problems of the prior art as described above, the temperature sensor for measuring the temperature of the oven cavity to provide a temperature sensor fixing structure of the electric oven is inserted into the correct position of the sensor receiving tube. will be.

Another object of the present invention is to provide a temperature sensor fixing structure of an electric oven in which the mounting position of the temperature sensor is fixed by a fixing pin.

The temperature sensor fixing structure of the electric oven according to the present invention for achieving the above object, the temperature sensor for measuring the temperature inside the oven cavity which is a space for cooking food; A sensor accommodation tube installed through the oven cavity and accommodating the temperature sensor therein; A wire connected to one side of the temperature sensor to transfer a current to the temperature sensor; A through hole formed to penetrate the sensor receiving tube from the side; Optionally inserted into the through hole is characterized in that it comprises a fixing pin for fixing the wire inside the sensor receiving tube.

The sensor accommodation tube is formed so that the end of the side that is inserted into the oven cavity is blocked, the end of the side exposed to the outside of the oven cavity is formed to be open.

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The fixing pin is configured to include an insertion part which is formed at both ends and extends in one direction and is inserted into the through hole, and a winding part wound at least once or more to provide elasticity.

End portions of the insertion portions are formed to step outwardly, respectively.

One side of the wire is further formed with a display indicating the degree of insertion of the temperature sensor.

According to the present invention having such a configuration, it is possible to mount the temperature sensor in the correct position to prevent the malfunction of the temperature sensor, it is possible to easily change the mounting position has the effect of improving the serviceability. .

Hereinafter, a preferred embodiment of the present invention as described above in detail with reference to the accompanying drawings, the appearance and structure of the electric oven is the same as that of a general electric oven will be omitted a detailed description.

Figure 4 is a perspective view showing the inside of the rear of the electric oven employing a preferred embodiment of the temperature sensor fixing structure of the electric oven according to the present invention, as shown in the figure, the electric oven is formed in a substantially rectangular parallelepiped shape, the electric oven Most of the space of is formed by the oven cavity 100 of the cuboid shape.

The oven cavity 100 is formed in a rectangular parallelepiped shape in which a front surface is opened to a space in which food is accommodated and cooked, and is not shown, but by an oven door (not shown) provided to be rotatable in the front of the electric oven. The opened front surface of the oven cavity 100 may be selectively shielded.

The electrical chamber is formed above the oven cavity 100. The electrical equipment room 200 is a space provided with electrical equipment required for the operation of the electric oven, a magnetron, a high pressure transformer and a fan assembly for cooling are installed.

On the other hand, the upper heater 120 is mounted on the inner upper portion of the oven cavity (100). The upper heater 120 heats the inside of the oven cavity 100, and an end thereof passes through the rear surface of the oven cavity 100 and is exposed to the outside of the rear surface of the oven cavity 100.

An electric wire is connected to an end of the upper heater exposed outside the rear surface of the oven cavity 100 to apply an external power source, and generates heat inside the oven cavity 100 according to a user's manipulation.

The sensor accommodation tube 300 is mounted to penetrate the oven cavity 100 on the rear left upper side of the oven cavity 100 (see FIG. 4). The sensor accommodation tube 300 is that the temperature sensor (T) for measuring the internal temperature of the oven cavity 100 is accommodated in the inside of the rear of the oven cavity 100, as well as being mounted at various positions. It will be possible.

One side of the sensor receiving tube 300 is provided with a fixing bracket 320 for fixing the sensor receiving tube 300, the fixing bracket 320 is one side of the rear of the oven cavity 100, or the overall length It is coupled with one side of the insulator lower 220 forming the bottom surface of the chamber 200 to fix the sensor receiving tube 300.

5 is an exploded perspective view showing a configuration of a preferred embodiment of the temperature sensor fixing structure of the electric oven according to the present invention, as shown in the drawing, the sensor receiving tube 300 is a cylindrical tubular shape of the oven cavity 100 It is formed to have a sufficient length so as to be penetrated and inserted into a predetermined position inside of the).

And, the sensor receiving tube 300 is formed so that one end is inserted into the inside of the oven cavity 100 is blocked, one end exposed to the outside of the oven cavity 100 is formed to be open.

The temperature sensor T for measuring the internal temperature of the oven cavity 100 is inserted into the open side of the sensor accommodation tube 300, and is inserted to a predetermined depth of the sensor accommodation tube 300. And, one side of the temperature sensor (T) is connected to the wire 400 for supplying a current for the operation of the temperature sensor (T).

One side of the wire 400 is connected to the temperature sensor T, and the other side of the wire 400 is connected to a power supply or a control device for providing a current to the temperature sensor T, wherein a part of the wire 400 is the sensor It is formed to be exposed to the outside of the receiving tube (300).

On the other hand, one side of the wire 400 is formed with a display unit 420 that can be recognized when viewed by the user. The display unit 420 may measure the mounting position of the temperature sensor T, and may be formed by painting or taping a color different from the color of the wire 400 on one side of the wire 400. .

That is, when the temperature sensor T is mounted at an appropriate position of the sensor accommodation tube 300, the display unit 420 of the wire 400 is exposed to the opened surface of the sensor accommodation tube 300. It is possible to know the exact mounting position of the temperature sensor (T).

In addition, a through hole 340 is formed at one side adjacent to the opened surface of the sensor accommodation tube 300. The through hole 340 is formed to have a predetermined width along the outer circumference of the sensor accommodating tube 300, and the length of the through hole 340 is not greater than half of the outer circumference of the sensor accommodating tube 300.

In addition, the through hole 340 is formed so as to vertically penetrate the sensor accommodation tube 300 from the side on one side of the sensor accommodation tube 300, each other based on the center of the outer periphery of the sensor accommodation tube 300 The fixing pin 500 to be described below in detail in a corresponding position is formed to vertically penetrate the sensor accommodation tube 300.

The fixing pin 500 is mounted through the through-hole 340 of the sensor accommodation tube 300, the wire 400 inside the sensor accommodation tube 300 to the inside of the sensor accommodation tube 300 It is formed to be in close contact with and fixed to the outer wall.

The fixing pin 500 is formed of a wire having a predetermined elasticity, and consists of an insertion part 520 and a winding part 540. The winding part 540 is wound and formed at least once so that the fixing pin 500 may have elasticity structurally, thereby providing elasticity to the fixing pin 500.

In addition, an insertion part 520 extending from both sides of the winding part 540 is formed. The insertion portion 520 is formed to extend in the same length in one direction at both ends of the fixing pin 500 wound in a predetermined shape, so that the gap between the winding portion 540 is gradually widened from each other, both sides This is approximately 'V' shape.

 The insertion portion 520 is formed to extend to a length sufficient to penetrate the through hole 340 of the sensor accommodation tube 300, the width between approximately the central portion of the both insertion portion 520 is the through hole ( It is formed larger than the horizontal length of the 340.

Accordingly, in order to insert the fixing pin into the through hole 340, the compression pins are inserted to be compressed to narrow the distance between the insertion parts 520, thereby inserting the insertion part 520 into a predetermined tension. It is mounted in a shape that spreads from the inner side of the sensor accommodation tube 300 to the outside.

The end portions of the insertion portions 520 are formed to step outwardly, respectively. Therefore, the ends of each insertion portion 520 are further open to each other, which means that the stepped end of the insertion portion 520 is inserted when the fixing pin 500 is inserted through the through hole 340. It penetrates the through hole 340 and is exposed to the outside so as to be caught by the through hole 340.

On the other hand, in the approximately center portion of the sensor receiving tube 300, the fixing bracket 320 to fix the sensor receiving tube 300 when the sensor receiving tube 300 is mounted to pass through the oven cavity 100 ) Is formed.

The fixing bracket 320 is coupled to the insulator lower 220 forming the bottom surface of the oven cavity 100 or the electric chamber 200 to fix the sensor accommodation tube 300. And, if necessary, the sensor receiving tube 300 may be mounted to the oven cavity 100 without a separate fixing bracket 320 is mounted.

Hereinafter, the operation of the electric oven employing the temperature sensor fixing structure of the electric oven according to the present invention having the configuration as described above.

When the user opens the oven door (not shown) for cooking to put food in the interior of the oven cavity 100 and then closes the oven door, the oven cavity 100 is sealed.

When the oven cavity 100 is completely sealed and ready for cooking, the user operates the electric oven in a desired cooking manner, and power is applied to a plurality of heaters mounted in the oven cavity 100. It will cause fever.

The inside of the oven cavity 100 is heated by a plurality of heaters, such as the upper heater 120, the heat inside the oven cavity 100 by the convection fan (not shown) is forced to circulate the oven cavity The food inside 100 is cooked.

At this time, the heat of the oven cavity 100 is transmitted to the sensor receiving tube 300 mounted on one side of the oven cavity 100, to the temperature sensor (T) provided inside the sensor receiving tube (300). By being transmitted, the temperature inside the oven cavity 100 is sensed.

Meanwhile, when cooking using the electric oven, the temperature inside the oven cavity 100 should be properly cooked according to the characteristics of the food, and the internal temperature detected by the temperature sensor T is displayed (not shown). Not shown) to be recognized by the user.

In addition, the temperature sensed by the temperature sensor (T) is a reference for adjusting the output of various heat sources in the automatic cooking function programmed for various foods.

On the other hand, looking at the mounting process of the temperature sensor (T), the sensor receiving tube 300 is inserted to penetrate the oven cavity (100). At this time, the blocked surface of the both ends of the sensor receiving tube 300 is inserted so as to be located inside the oven cavity 100, the temperature sensor (T) is inserted through the open surface of the sensor receiving tube (300). do.

Checking the display unit 420 of the wire connected to the temperature sensor (T) to mount the temperature sensor (T) in a predetermined position and then fixed to the through-hole 340 formed on one side of the sensor receiving tube (300) The pin 500 is inserted into the fixing pin 500 so as to penetrate the sensor receiving tube 300.

The state in which the fixing pin 500 is mounted through the sensor accommodating tube 300 is shown in detail in FIG. 6. Referring to the drawings, the fixing pin 500 is the sensor accommodating tube ( It is mounted to the sensor receiving tube 300 so as to pass through the through hole 340 of the 300.

In this case, the wire 400 connected to the temperature sensor T is positioned outside the insertion portion 520 of the fixing pin 500, and compresses the fixing pin 500 between the insertion portions 520. Then, the fixing pin 500 is inserted into the through hole 340.

The fixing pin 500 is mounted to penetrate the through hole 340, and when the compression force given to the fixing pin 500 is removed, the insertion part 520 of the fixing pin 500 is opened to the outside. The wire 400 is pushed to the inner surface of the sensor receiving tube (300).

Thus, the wire 400 is fixed between the inner surface of the sensor receiving tube 300 and the insertion portion 520 of the fixing pin 500, the mounting position of the temperature sensor (T) is fixed.

On the other hand, in order to replace the temperature sensor (T) or to change the mounting position of the temperature sensor (T) by compressing the fixing pin (500) between the insertion portion 520 and then in the through hole (340) The fixing pin 500 may be removed and the temperature sensor T may be replaced or the mounting position of the temperature sensor T may be changed, and then the fixing pin 500 may be reattached to the through hole 340.

The scope of the present invention is not limited to the above-exemplified embodiments, and many other modifications based on the present invention may be made by those skilled in the art within the above technical scope.

In the temperature sensor fixing structure of the electric oven according to the present invention as described above in detail, a display portion is formed on one side of the wire connected to one side of the temperature sensor, the temperature sensor is inserted into the sensor receiving tube.

And, when the temperature sensor is inserted into a predetermined position of the sensor accommodation tube, the display portion of the wire is located in the open end surface of the sensor accommodation tube, so that the user can easily determine the mounting position of the temperature sensor do.

Therefore, it is possible to easily check the exact position at which the temperature sensor can be operated most accurately, so that the temperature sensor can be mounted at the correct position when the temperature sensor is mounted, thereby maximizing the temperature detection performance of the temperature sensor. Therefore, there is an effect that can improve the cooking performance of the electric oven.

When the electric oven is assembled, the mounting position of the temperature sensor may be changed by touching an electric wire on which the temperature sensor is mounted or by vibration or shock during various processes, and the position of the temperature sensor may be changed through the display unit. By easily gauging, it is possible to always check the mounting of the temperature sensor to the correct position, thereby minimizing the defective rate of the product.

In addition, in order to fix the mounting position of the temperature sensor by fixing the wire connected to the temperature sensor by inserting a fixing pin having elasticity in the through-hole penetrating the sensor accommodation tube to fix the mounting position of the temperature sensor. do.

Therefore, in the case where the position of the temperature sensor needs to be changed after replacement of the temperature sensor for service or replacement of the temperature sensor, a simple operation of detaching the fixing pin from the through hole is performed and mounting the fixing pin again. It is possible to improve the serviceability is possible by.

Claims (7)

A temperature sensor for measuring a temperature inside an oven cavity, which is a space for cooking food; A sensor accommodation tube installed through the oven cavity and accommodating the temperature sensor therein; A wire connected to one side of the temperature sensor to transfer a current to the temperature sensor; A through hole formed to penetrate the sensor receiving tube from the side; Optionally inserted into the through-hole the temperature sensor fixing structure of the electric oven characterized in that it comprises a fixing pin for fixing the wire inside the sensor receiving tube. According to claim 1, wherein the sensor receiving tube, An end portion of the side surface inserted into the oven cavity is formed to be blocked, the end portion of the side surface exposed to the outside of the oven cavity is formed so as to open the temperature sensor fixing structure. delete delete The method of claim 1 or 2, wherein the fixing pin, Inserts inserted into the through-holes are formed by extending in one direction at both ends; A temperature sensor fixing structure of an electric oven, characterized in that it comprises a winding unit which is wound at least once to provide elasticity. 6. The temperature sensor fixing structure according to claim 5, wherein the end portions of the insertion portions are formed to step outwardly, respectively. The temperature sensor fixing structure of claim 1, wherein a display unit is further formed at one side of the wire to indicate the degree of insertion of the temperature sensor.

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