KR100996547B1 - Controlling method for a cooking device and controlling method for VFD display device - Google Patents

Abstract

In order to improve the user's recognition rate of the display device of the cooking appliance and to accurately display the VFD display state, if the cooking appliance is continuously operated, all segments of the VFD are emitted after the set time has elapsed. When the operation of the cooking appliance is finished, all segments of the VF are controlled to emit light.

VF, Display, Cookware

Description

Controlling method for a cooking device and controlling method for VFD display device}

The present invention relates to a display device, and more particularly, to a cooking apparatus control method and a control method of the VFD display device.

The cooking appliance is a device that cooks food by applying heat, and the appliance generates high heat itself. Due to the characteristics of such a device, a VFD display device is mainly used for a display device displaying an operation or an operation state of a cooking appliance.

In the VFD display device (hereinafter abbreviated as VFD), VFD is an abbreviation of Vacuum Flourescent Display (Fluorescent Display Tube), and applies a voltage to the filament to generate hot electrons, and to accelerate the electrons in the grid to reach the anode. It is a display product that displays information by emitting light by hitting patterned phosphor.

As described above, the display device is a component widely used in a cooking appliance because its operation can be stably implemented even at high heat as described above.

However, if the VF continues to be used, there is a problem in that the brightness of a specific display area is lowered, causing a quality problem for the user or a misunderstanding of the operation of the device. The present invention is of primary interest in analyzing why such problems arise and suggesting corresponding improvements.

The present invention proposes a cooking method control method and a control method of the VF display device when VFD is used as a display device of the cooker, which can prevent a decrease in luminance caused by long time use and a decrease in recognition rate of the user. do.

In the method of controlling a cooking appliance according to the present invention, if the operation of the cooking appliance continues, all segments of the VFP are controlled to emit light after the set time has elapsed, and if the operation of the cooking appliance is terminated, all the segments of the VDF Is controlled to emit light.

The cooking apparatus control method according to the present invention is characterized in that for the volatilization of the gas particles that are unevenly attached to each segment, the segments that do not need to be displayed at present at a predetermined interval to emit light.

The control method of the VFD display device according to the present invention is to cause the entire segment of the VFD to emit light so that the gas particles generated during the operation of the VFD and adhered to the surface of the phosphor may be volatilized. It features.

According to the present invention, an accurate recognition rate of the user with respect to the display device of the cooker of the user is improved, and the display state of the VD is accurately implemented.

Hereinafter, with reference to the drawings will be described in detail a specific embodiment of the present invention. However, the spirit of the present invention is not limited to the accompanying drawings, and those skilled in the art who understand the spirit of the present invention can easily add, change, delete, or add other elements included in the scope of the same idea. It may be proposed, but this is also included in the scope of the present invention.

1 and 2 illustrate the process of the present inventors exploring the reason for the lowering of luminance in VF and finding out the reason thereof.

Referring to FIG. 1, VF has a filament 1 for generating hot electrons by an applied voltage, a grid 2 for accelerating hot electrons generated in the filament, and an attraction force or pushing force for pulling the hot electrons. And a phosphor 4 which emits light when the hot electrons collide with each other.

Here, the cathode 5 is operated by a power source applied from a substrate provided below the cathode 5, and when a positive voltage is applied to the cathode 5, it provides an attraction force for pulling the hot electrons. Therefore, the hot electrons drawn toward the cathode 5 collide with the phosphor 4 so that light is generated in the phosphor 4. On the contrary, when a negative voltage is applied to the cathode 5, the hot electrons cannot be attracted by the force pushing the hot electrons. Therefore, the hot electrons cannot move toward the phosphor 4, and the corresponding phosphor 4 does not emit light.

In FIG. 1, a positive voltage is applied to segment 2 to drive hot electrons, and negative voltages are applied to segments 1 and 3 to push hot electrons. do.

In this state, only the segment 2 emits light. However, as a side effect thereof, gas particles of the phosphor 4 are scattered by hot electrons colliding with the phosphor 4 in segment 2. The scattered phosphor gas is then attached to segments 1 and 3 which are not emitting light. Further, since the energy is excited in the present state, the segment 2 which emits light emits only the scattering of the phosphor and no scattering gas particles. Gas particles are shown at 3. In the figure, the gas particles 3 are shown to be quite large, but in reality the size of the particles may be quite small, but when the amount reaches a certain level, the corresponding segments (segment 1, segment 3) which are not emitted are emitted. Occasionally, the upper surface of the cover) is covered to actually block the light emitting surface as a whole.

In such a case, it can be said that it is mainly generated when a constant display state continues for a predetermined time like a cooking appliance. In other words, in the case of the cooking appliance, since the current cooking state must be continuously known, the display state is continuously displayed.

As described above, if a constant display state persists, a thin film is formed on the segment that does not emit light. Then, even if a positive voltage is applied to the cathode 5 in the corresponding segment to draw hot electrons, the gas particles ( Covered by 3), hot electrons do not collide with the phosphor, and the area emitted from the phosphor 4 as a whole decreases. As a result, the corresponding segment is lowered in luminous efficiency and thus in luminance. In severe cases, this leads to a problem in which luminance is rarely generated.

This problem should be considered to remove the gas particles adhering to the segment that is not emitting light while adjoining the segment that emits light. Such a method is driven by forcibly driving the segment that does not emit light, and thus the attached gas. It will be called a method of volatilizing the particles.

In order to improve the above problems, an embodiment of the present invention proposes the following method.

3 is a flowchart illustrating a cooking method control method and a control method of the VFD display device according to an embodiment of the present invention.

Referring to FIG. 3, when the user starts the operation of the cooking appliance, the cooking appliance is operated, and at the same time, the cooking appliance will be displayed in a proper state. In this state, the operation of the cooking appliance is continued (S1). After the operation of the cooking appliance is continued, it is determined whether a predetermined time has elapsed (S2). Otherwise, the operation is continued, and in such a case, the operation proceeds to the next step.

If the predetermined time elapses, the VF is made to emit light as a whole (S3). The light emitting of all VDs is to emit all segments provided to the VFD display, so that the gas particles attached to the VFDs are volatilized. More specifically, when all segments provided to the VDF emit light, the gas particles attached to the phosphor are volatilized. At this time, not only the segment which has previously been emitted and does not have the gas particles attached thereto, but also the gas particles which have been attached to the segment which has not previously emitted the light is volatilized. As a result, the gas attached to all the segments is volatilized, and when the light is subsequently emitted again, the segments emit light of the intended brightness at the time of design.

Subsequently, it is determined whether to continue cooking (S4), and when continuing to cook, the process proceeds to the first step (S1), otherwise, the heater built in the cooking appliance is turned off, and the end sound Etc., to perform the end sequence of the cooking appliance.

At this time, all VFs emit light once again (S5). In this case, when the operation of the next cooking appliance is performed, it may be expected that VF will operate normally. More specifically, once the operation of the cooking appliance is finished, gas particles are attached to a segment which has not been emitted before, such gas particles remain until the gas particles are volatilized by light emission of the attached segment. After that, it acts as a factor of lowering the luminance at the time of light emission of the segment. In order to overcome such disadvantages, by emitting all segments at the end of the operation of the cooker, the gas particles of all segments are volatilized, so that reliability of the operation of the segment at the next operation of the cooker can be improved. It becomes possible.

In the above, a preferred embodiment of the present invention has been described. However, it is not intended that the spirit of the present invention be limited to such one embodiment. The following further suggests other embodiments that fall within the scope of the same idea.

First, the process in which all segments constituting the VF is made to emit light is presented after all the segments constituting the VFD are emitted after a certain time has elapsed while the operation of the first cooking appliance is continued, and after the second cooking is finished. However, either case may not be performed.

This is because if the VF suddenly emits all of the light while cooking is in progress, the display of the current cooking state becomes disadvantageous, causing inconvenience to the user. Therefore, it is more preferable not to emit light when cooking is in progress. In addition, when all the segments are emitted when the cooking is finished, since the light of the high output is instantaneously emitted, the user can recognize the fact that the end of cooking even in the field of view.

In another case, if all segments are lighted at a predetermined time while cooking is in progress, it may not be necessary to emit all segments separately at the end of cooking. It may not emit light. In this case, however, it should be noted that when the cooking is in progress, the light emitting period of all segments is short, so that the corresponding effect can be obtained. Otherwise, when the cooking is finished, it is preferable to light all the segments once.

According to another embodiment of the present invention, when cooking is finished, all the segments may be emitted, and a predetermined sound may be output. In this case, the user can conveniently know the end of cooking. That is, the user can recognize the end of cooking at the same time with light and sound.

According to the present invention, the display state of the VF is accurately implemented, the user's recognition rate of the operation state of the cooking appliance is improved, the image of the product is advanced, and the problem of the malfunction of the device due to the misrecognition of the display device is improved. It has the advantage of being.

1 and 2 are diagrams illustrating the reason why the decrease in luminance occurs in the VFD, FIG. 1 illustrates a process in which gas particles are attached in the VFD, and FIG. 2 is blocked by the gas particles, A diagram illustrating that no light emission is performed.

3 is a flow chart of a cooking apparatus control method and a control method of the VFD display device according to an embodiment of the present invention.

Claims (4)

delete If the cooker continues to operate, the control is performed so that all segments of the VF are emitted after the set time has elapsed. When the operation of the cooking appliance is finished, the control method of the cooking appliance is controlled so that all segments of VF. delete A method of controlling a VDP display device such that all segments constituting the VFD are light-emitted at regular intervals so that gas particles generated during operation of the VFD and adhered to the surface of the phosphor are volatilized.

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