JPH04129645U - Gas amount adjustment device - Google Patents

Abstract

(57) [Summary] [Purpose] To maintain good ignitability and reduce the discomfort (feeling of fear) given to the user when igniting. [Structure] A first rocking plate 21 that is pivotally supported on a fixed shaft 20 and is swingable, and a second rocking plate 2 that is pivotally supported on a fixed shaft 23 and is swingable.
2, the first swing plate 21 and the second swing plate 22 are pressed rightward by the swing plate pressing convex portion 25 which is linked to the operation of the ignition button 2. Therefore, the first swing plate 21 swings counterclockwise and the second swing plate 22 swings clockwise, causing the needle 9
14 to the center position. Therefore, during ignition, the needle is always set to the middle flow position.

Description

[Detailed explanation of the idea]

0001

[Industrial application field]

This invention relates to a gas amount adjustment device for gas appliances. The present invention also relates to a gas amount adjusting device that also sets the gas amount.

0002

[Conventional technology]

Traditionally, in gas appliances such as gas stoves, it has been necessary to adjust the heating power, that is, the gas flow rate. A gas amount adjustment device is provided to adjust the amount of gas. With this device, the firepower adjustment lever By operating it, you can move the needle installed in the gas flow path and change the flow path area. and adjusts the gas flow rate. In such gas appliances, it is important to ensure a good ignition time. Good ignitability is required. Therefore, the heat adjustment lever is set to low heat (small flow rate). In order to achieve good ignition even when the gas is A device is known in which a predetermined amount of gas is added from this bypass flow path only in the event of a fire. Also Another technique is to operate the ignition button only when the ignition is set to low heat. There are also known devices that move the needle to the medium or high heat side in conjunction with the above.

0003 In other words, these conventional devices always have a medium to high gas flow rate during ignition. It was set during the flow rate.

0004

[Problem that the idea aims to solve]

However, if the gas flow rate at the time of ignition is set to a large flow rate, it is safe. However, because it ignites vigorously, it may give the user a sense of fear. . In particular, with the spread of high-calorie burners, the discomfort (feeling of fear) when igniting a strong flame has decreased. I can't overlook it.

[0005] This invention solves the above problems, maintains good ignitability, and is easy to use when igniting. The purpose is to reduce the discomfort caused to people.

[0006]

[Means to solve the problem]

In order to solve the above problems, the first gas amount adjusting device of the present invention is as follows: A gas machine whose firepower can be adjusted between low and high heat by arbitrarily adjusting the gas flow rate. In the gas amount adjustment device of the container, The above gas flow rate at the time of ignition is approximately medium regardless of the arbitrarily adjusted flow rate. The gist of the present invention is to include means for setting the gas amount at the time of ignition, which sets the gas amount to a medium flow rate equivalent to a fire.

[0007] Moreover, the second gas amount adjusting device of the present invention is The gas flow rate is adjusted according to the position of the flow rate changing member provided in the gas flow path. The first gas amount adjusting device, The above gas amount setting means at the time of ignition is In conjunction with the operation of the ignition operation section, the above flow rate changing member is moved from the high flow rate side to the medium flow side. a first moving member to be moved; In conjunction with the operation of the ignition control section, the flow rate changing member is moved from the small flow rate side to the medium flow rate side. The gist is that the second moving member is moved.

[0008]

[Effect]

The gas flow rate adjustment device of the present invention having the above configuration allows the gas flow rate at the time of ignition to be controlled as desired. Regardless of the gas flow rate that is intentionally adjusted, the gas amount setting means at the time of ignition allows the flame to reach approximately medium flame phase. It is set to the appropriate medium flow rate. Therefore, when igniting, the flame is always set to approximately medium. It will catch fire in this condition.

[0009] Further, in the second gas amount adjusting device of the present invention, the gas flow rate is controlled by the flow rate changing member. Adjusted according to position. Moreover, when the flow rate changing member is on the high flow side at the time of ignition, The first moving member moves the flow rate changing member to the middle flow rate side in conjunction with the ignition operation, Conversely, when the flow rate changing member is on the small flow rate side, the second moving member moves the flow rate changing member. Move it to the middle flow rate side. As a result, the flow rate changing member is always in the middle flow position during ignition. The flame will be maintained and the flame will ignite at approximately medium flame. Stir frying requires high heat, and medium heat is most often used for general use. This is more desirable from the standpoint of thermal efficiency. Therefore, it is better to start with medium heat. Good hands.

0010

【Example】

In order to further clarify the structure and operation of the present invention explained above, the following is a guide to the present invention. A preferred embodiment of the waste amount adjustment device will be described. FIG. 1 shows a schematic configuration of a table stove equipped with a gas amount adjustment device as an example. FIG. 2 is an explanatory diagram of the operation of gas amount adjustment at the time of ignition.

[0011] As shown in Figure 1, the table stove 1 has a push button 2 for ignition/extinguishing operation (hereinafter referred to as (lower, referred to as ignition button 2), and by operating ignition button 2, it slides horizontally to release the gas. a sliding switch 5 that pushes the spindle 4 in the conduit 3 and locks it in a predetermined position; , a main part that is fixed to the spindle 4 and opens and closes the gas flow path by operating the ignition button 2. Similarly to valve 6, the gas flow path is opened by ignition operation and is kept open only during combustion. The magnetic valve 7, the fire power adjustment lever 8, and the fire power adjustment lever 8 are operated in conjunction with the A needle 9 that moves downward and adjusts the gas flow rate according to its position, and the gas whose flow rate is adjusted. and a burner 10 that performs combustion by mixing and combustion air. Also, during combustion A thermocouple 11 that generates an electromotive force to keep the magnet valve 7 open, and an ignition An igniter 12 that generates a high voltage pulse voltage in response to the operation of the button 2; and an electrode 13 that performs a pulse discharge for ignition by the operation of the motor 12.

0012 In this table stove 1, when the ignition button 2 is pressed, the main valve 6 and the magnetic The gas valve 7 opens at the same time, and the gas flows in the direction of the arrow (the arrow in the gas pipe 3 in Fig. 1). flows along. The flow rate of gas passing through the needle 9 depends on the vertical position of the needle 9. will be determined. In other words, the needle 9 is in the upper position by operating the firepower adjustment lever 8. Sometimes the flow rate is large, and conversely, when it is in the lower position, the flow rate is small. fire power adjustment lever 8 is set to low heat and needle 9 is lowered to the lowest position. A minimum flow rate is ensured by the bypass hole 9a provided in the center of the dollar 9. like this The gas whose flow rate has been adjusted and the combustion air are mixed in the mixing pipe 10a, and the burner 10 ignition occurs due to discharge from the electrode 13. This ignition causes thermocouple 11 to detect flame. (generates an electromotive force), and the magnetic valve 7 is held open.

[0013] Here, gas amount adjustment using the needle 9 will be explained. Shown in Figures 1 and 2. A pin 14 is vertically provided on the side surface of the head of the needle 9 so as to be shown. This pin 14 is the oblique guide hole 1 of the guide plate 15 fixed to the gas pipe line 3 on the side surface side of the needle 9. 5a, and is slidable within this oblique guide hole 15a. Furthermore On the outside of this guide plate 15, there is a shaft of the needle 9 in the center integrally with the firepower adjustment lever 8. A pin engagement plate 16 that swings centrally is provided. This pin engagement plate 16 is vertically A long vertical guide hole 16a is formed in the vertical guide hole 16a, and the needle 9 is inserted into this vertical guide hole 16a. The pin 14 is inserted loosely. Therefore, by operating the firepower adjustment lever 8, The pin 14 of the needle 9 is pushed and slides inside the diagonal guide hole 15a, and the needle 9 itself The vertical position is changed.

[0014] Next, a mechanism for adjusting the gas amount at the time of ignition will be explained using FIG. 2. still , Figure 2 (A) shows the state in which the ignition button 2 is not pressed, and Figure 2 (B) shows the state in which the ignition button 2 is not pressed. Represents the state when 2 is pressed. Also, this mechanism is omitted in Figure 1. Ru. As shown in the figure, as a gas amount adjustment mechanism at the time of ignition, a fixed A first rocking plate 21 in the shape of a hook that is pivotally supported by the fixed shaft 20 and is swingable; A second rocking plate 22 is pivotally supported by another fixed shaft 23 formed below and is swingable. Ru. When the ignition button 2 shown in Fig. 2 (A) is not operated, the first The movable plate 21 is configured to swing clockwise around the fixed shaft 20 due to the position of its center of gravity. However, the stopper 24 protruding from the gas pipe line 3 prevents further swinging. It is. On the other hand, the second rocking plate 22 is centered around the fixed shaft 23 due to its center of gravity. It works to swing counterclockwise, but like the first swing plate 21, it is stopped by the stopper 24. Further fluctuations are regulated. In addition, 22b in the figure is formed on the second swing plate 22. The fixed shaft 20 is loosely inserted through the oval-shaped hole. Therefore, the second swing plate 22 is capable of swinging by a predetermined angle regardless of the fixed shaft 20.

[0015] In this state, the hand-shaped tips 2 of the hooks of the first oscillating plate 21 and the second oscillating plate 22 are 1a and 22a are located outside the left and right ends of the oblique guide hole 15a of the guide plate 15. The pin 14 of the needle 9 is prevented from coming into contact with the pin 14 of the needle 9. subordinate Therefore, even if the position of the needle 9 is changed by operating the firepower adjustment lever 8, nothing will happen. The pin 14 never comes into contact with the first swing plate 21 or the second swing plate 22.

[0016] The first swing plate 21 and the second swing plate 22 are operated by the ignition button 2 as shown below. It is configured to swing in conjunction with the movement. That is, by operating the ignition button 2 A rocking plate pressing convex portion 25 is formed on the side surface of the sliding switch 5 that slides in the horizontal direction. The first swing plate 21 and the second swing plate 22 are simultaneously pushed to the right in the drawing by the moving plate pressing convex portion 25. Press it and make it swing. In detail, the upper and lower guide members 26 of the sliding switch 5 A rocking plate pressing convex portion 25 is formed between a and 26b, and the ignition button 2 is fully When the rocking plate is pressed, the right end of the rocking plate pressing convex portion 25 is located at a position lower than the right end of the stopper 24. It is positioned so that it protrudes a fixed distance.

[0017] Therefore, as shown in FIG. 2(a), when the ignition button 2 is pressed, the rocking plate The pressing convex portion 25 moves to the right in the drawing and simultaneously moves the first swing plate 21 and the second swing plate 22. push. At this time, the first swing plate 21 moves around the fixed shaft 20 as shown by arrow A. The second swing plate 22 swings counterclockwise, and the second swing plate 22 rotates around the fixed shaft 23 as shown by arrow B. Swing clockwise in your mind. For this reason, the flame is set to high as shown in Figure 2 (a). When the ignition button 2 is pressed from the state where the The tip 21a of the swing plate 21 presses the pin 14 of the needle 9 to the left, so the needle The dollar 9 is rotating and falling. In this case, when ignition button 2 is pressed fully Then, the pin 14 of the needle 9 is moved to the approximate center of the diagonal guide hole 15a. 1. The stopping position of the swing plate 21 is set. This stop position is the position of the first swing plate 21. Can be set by shape and swing angle.

[0018] As a result, if the ignition is operated while the flame is set to high, the operation The needle 9 moves downward in conjunction with the flow rate of gas supplied to the burner 10. is set to medium flow rate.

[0019] Conversely, if ignition button 2 is pressed when the fire is set to low, the clock The pin 14 of the needle 9 is pushed to the right by the second swing plate 22 that swings in the direction, The needle 9 moves upward while rotating. This second swing plate 22 is also the same as the first swing plate 21. It stops when the pin 14 of the needle 9 is located approximately at the center of the diagonal guide hole 15a. is set to Therefore, even though the flame is set to low, when igniting The amount of gas supplied to the burner 10 is set to a medium flow rate.

[0020] Furthermore, as shown in Figure 2 (a), when the ignition button 2 is fully pressed, the pin 1 4 is not pinched between the first swing plate 21 and the second swing plate 22. The stopping position of the second swing plate 22 is such that the pin 14 is slightly away from the center of the diagonal guide hole 15a. It is set to stop at the front.

[0021] When the ignition operation is completed and the ignition button 2 is released, the sliding switch is moved by a spring (not shown). Switch 5 returns to the left by a predetermined distance. For this reason, the first swing plate 21, the second swing plate The rocking plate pressing convex portion 25 that was pressing 22 moves to the left side of the stopper 24. to release the pressure. As a result, the first swing plate 21 and the second swing plate 22 are swings clockwise and counterclockwise, returning to the state shown in FIG. 2(A). In this way, firepower The firepower can be adjusted using the adjustment lever 8.

[0022] As explained above, the gas amount adjustment device of this embodiment swings in conjunction with the ignition operation. The first rocking plate 21 and the second rocking plate 22 are provided with a first rocking plate and a second rocking plate. Move the needle 9 to the middle flow position. Therefore, when igniting, gas always flows in the middle. Since the flame is set to a certain amount, it will start with a medium flame no matter what flame power is adjusted before ignition. fire As a result, ignition in high flame conditions is prevented, causing discomfort such as fear to the user. Never give up. Moreover, even when the flame is set to low, the ignition operation Since the flame is changed to medium and ignited, good ignitability is maintained. Also, conventional There is no need to provide a bypass flow path for increasing the amount of gas during ignition.

[0023] Note that the needle 9 of this embodiment corresponds to the flow rate changing member of the present invention, and the first swing plate 21 corresponds to the first moving member of the present invention, and the second rocking plate 22 corresponds to the second moving member of the present invention. . Although the embodiments of the present invention have been described above, the present invention is in no way limited to these embodiments. Of course, the present invention is not limited to a specific embodiment, and may be implemented in various ways. For example, flow control valve is configured to maintain the flow rate during a predetermined period of time in conjunction with the ignition button's on signal. You may.

[0024]

[Effect of the idea]

As described in detail above, the gas flow rate adjustment device of the present invention adjusts the gas flow rate at the time of ignition. Regardless of the flow rate that is arbitrarily adjusted, the flow rate is set at a medium flow rate that is approximately equivalent to medium heat, so it is always It ignites at approximately medium heat. As a result, it maintains good ignitability and also This has the excellent effect of reducing the discomfort caused to the user.

[Brief explanation of drawings]

FIG. 1 is a schematic configuration diagram of a table stove.

FIG. 2 is an explanatory diagram of the operation of gas amount adjustment during ignition.

[Explanation of symbols]

2...Ignition button, 8...Firepower adjustment lever, 9...Needle,
14...pin, 21...first swing plate, 22...second swing plate, 2
5... Rocking plate pressing convex part

Claims (2)

[Scope of utility model registration request] Claim 1: A gas amount adjustment device for a gas appliance in which the firepower is adjusted between low heat and high heat by arbitrarily adjusting the gas flow rate, wherein the gas flow rate at the time of ignition is adjusted to the arbitrarily adjusted flow rate. A gas amount adjusting device characterized in that it is provided with a gas amount setting means for setting the gas amount at the time of ignition to a medium flow rate corresponding to approximately a medium flame. 2. The gas amount adjusting device according to claim 1, wherein the gas flow rate is adjusted according to the position of a flow rate changing member provided in the gas flow path, wherein the gas amount setting means at the time of ignition A first moving member that moves the flow rate changing member from the high flow rate side to the medium flow rate side in conjunction with the operation of the operating section; and a first moving member that moves the flow rate changing member from the small flow rate side to the medium flow rate side in conjunction with the operation of the ignition operation section. A gas amount adjusting device comprising: a second moving member that moves toward the flow rate side.