EP1264131A1

EP1264131A1 - Valve assembly with electronic timer to control open/shut functions

Info

Publication number: EP1264131A1
Application number: EP01910165A
Authority: EP
Inventors: Young-Gyu Choi
Original assignee: Individual
Current assignee: Individual
Priority date: 2000-02-29
Filing date: 2001-02-27
Publication date: 2002-12-11
Also published as: KR20010084871A; KR200191106Y1; CN1363023A; KR100359624B1; EP1264131A4; JP2003525413A; AU3774601A; CN1170078C; WO2001065160A1

Abstract

The present invention relates to a valve assembly equipped with an electronic timer to control the length of time a valve is opened. A valve assembly comprising a timer to electronically predetermine the operation period, a motor having a pin fixed on to one side operates based on a signal from the timer, a valve sensor 15 which is turned on or off by the rotation of the lever member and monitors open/close status of the valve and a valve having a home formed at the valve cap, and a winding spring which is secured onto the main body of the valve and a valve cap connected to the knob to perform the open/close functions of the valve and other end is fixed onto the inside of a valve cap to push the valve cap in the direction of a closed position of the valve as the lever member moves. The valve assembly according to the present invention provides safer way to use a gas fueled cooking device and allows more precise control of valve system.

Description

VALVE ASSEMBLY WITH ELECTRONIC TIMER TO CONTROL

OPEN/SHUT FUNCTIONS

Technical Field

This invention relates to a valve assembly such as a gas valve,

more particularly a valve assembly having an electronic timer to

precisely control the duration of a usage time period and a status of a

valve while in use.

Background Art

Generally, many homes use a gas fueled cooking device for

cooking. A gas pipe is utilized for connecting a gas fueled cooking

device such as a gas burner and a gas source such as a gas tank, and a

gas pipe is equipped with a gas control valve to shut off the gas from

flowing into a gas burner. A spring is placed in the cap of the valve to

prevent unintended rotation of a knob of a gas control valve which

causes opening of a gas passage. To open the gas passage, the knob

is pushed down against the spring and rotated 90 degrees. And to shut off the gas passage, the knob is rotated 90 degrees in an opposite

direction and when the knob is at the closed position the spring push

the knob outwardly to a position in which the knob is prevented from

rotating freely.

To operate the a gas fueled cooking device for cooking, an

ignition switch is turned on to start a flame and the gas supply lever is

controlled to regulate the amount of the gas that is being flown into the

gas fueled cooking device so that the heat may be adjusted according to

the type of food being prepared.

However, in the conventional, in the event that a user leave the

gas fueled cooking device unattended for a long period of time while

the food is being cooked, overheating of the gas fueled cooking device

is resulted and the food that is being cooked may overflow and

extinguish a flame causing the gas to flow into the house resulting in a

build-up of gas and a subsequent explosion.

Attempts to prevent the foregoing accident, the gas fueled

cooking device that comprises a system which prevents a fire from

extinguished due to the overflow of the food being cooked, and cuts of

the gas supply has been invented. However, since the gas control valve attached to the gas pipe is not closed, there still is a chance of a

gas leakage.

In order to resolve the foregoing problems, I have invented a

device which mechanically controls the opening duration of the gas

valve. (Korean Patent No. 10-219443)

Fig. 1 and 2 illustrate the foregoing mentioned patent. The

valve assembly according to the foregoing invention comprises; a

spring and a plurality of gears to preset the operation time period; a

timer having a cam member 107 placed at the axis of a timer 105 which

rotates according to the predetermined time; a lever member 111 fixed

onto a rotation axis 109 such that the center part of the lever member

111 moves, and one end touches the cam member 107 rotates about the

rotation axis 109; a spring 113 attached to the lever member 111 and

the cam member 107 such that the lever member 111 is pulled toward

the cam member 107; a home 115 which covers the lever member 111;

a valve cap 119 attached with the valve member and a handle 121 to

open and close the valve 117. This safety system automatically shuts

off the gas supply when the predetermined time period comes to end.

However, the foregoing valve assembly utilizes mechanically operated controls, thus the construction of the system is complex.

And also frequent occurrences of operational problem and system

breakdown must be addressed.

Disclosure of Invention

It is therefore an object of the present invention to provide a

valve assembly in which the aforementioned problems are addressed.

The aforementioned object is satisfied by a valve assembly comprising

a timer to electronically predetermine the operation period, a motor

having a pin fixed on to one side operates based on a signal from the

timer, a valve sensor 15 which is turned on or off by the rotation of the

lever member and monitors open/close status of the valve and a valve

having a home formed at the valve cap, and a winding spring which is

secured onto the main body of the valve and a valve cap connected to

the knob to perform the open/close functions of the valve and other end

is fixed onto the inside of a valve cap to push the valve cap in the

direction of a closed position of the valve as the lever member moves. Brief Description of Drawings

FIG. 1 is a partial sectional view showing the valve of the conventional

valve assembly that allows the control of the length of time the valve is

opened.

FIG. 2 is a cross sectional view showing the valve of FIG. 1 in a closed

status.

FIG. 3 is a cross sectional view of the valve assembly in accordance

with the first embodiment of the present invention.

FIG. 4 is a perspective view of a timer employed in the present

invention.

FIG. 5 is a cross sectional view of the valve assembly in accordance

with the second embodiment of the present invention.

FIG. 6 is a flowchart showing the control processes of the timer when

an electric current flows into the timer.

FIG. 7 is a flowchart illustrating the control processes of the timer of

the valve assembly in accordance with the first embodiment of the

present invention.

FIG. 8 is a flowchart illustrating the control processes of the timer of

the valve assembly in accordance with the second embodiment of the present invention.

Best Mode for Carrying Out the Invention

Fig. 3 is an illustration of the first preferred embodiment of the

present invention, and Fig. 4 shows electronically operated timer

employed by the valve assembly of the present invention.

As shown in Fig. 4, the valve assembly in accordance with the

present invention comprises a timer 1 that electronically predetermine

the operation period is employed to control the length of time the valve

is opened. In this preferred embodiment, the valve assembly

comprises a motor 11 which operates based on a signal from the timer

1, a lever member 13 rotates about the rotational axis 23 placed at

middle of the lever member 13, a valve sensor 15 which monitors

open/close status of the valve and a valve 17.

A pin 17 is fixed onto the one side of the motor 11 and a

protruded element 21 is formed at the end of the lever member 13 near

the motor 11. When the motor 11 is activated, the pin 17 rotates and

pushes the protruded element 21 of the lever member 13 causing the

lever member 13 to rotate about the rotational axis 23. The valve sensor 15 is activated by the movement of the lever

member 13 and provides a signal indicating whether the valve 17 is

opened or closed.

The valve 17 in accordance with the present invention comprises

the valve cap 27 connected to the knob 25 to perform the open/close

functions of the valve 17, and a winding spring (not shown) which

pushes the valve cap 27 in the direction of a closed position of the

valve 17.

A portion of the valve cap 27 is formed with a home 29 to place

the end of lever member 13 opposite from the protruded element 21.

One end of the winding spring is secured onto the main body of the

valve and other end is fixed onto the valve cap 27. Therefore, during

the predetermined time period determined by the electronic timer 1 the

lever member 13 clicks into the home 29 formed at the valve cap 27

resulting in opening of the valve 17. The signal indicating the end of

the predetermined time period initiates the rotation of the lever

member 13 causing the lever member 13 to separate from the home 29

of the valve cap 27, and then the winding spring forces the valve cap 27

to rotates in the direction of the closed position of the valve. Fig. 5 illustrates the second embodiment of the valve assembly

in accordance with the present invention.

The second embodiment comprises an electronic timer 1 (shown

in Fig. 4) to predetermine and control the time period, a solenoid 51

which operates based on a signal of the timer 1, a lever member 53

which rotates about the rotational axis 63 placed in the middle of the

lever member 53 through the operation of the solenoid 51, a valve

sensor 55 which on/off functions are controlled by the lever member 53

and monitors open/close status of the valve 57, a home formed at the

one side of the valve cap 67 in which the end of lever member 53 is

placed upon, a valve cap 67 connected to the knob 65 to perform the

open/close functions of the valve and a winding spring (not shown)

which is secured onto the valve cap 67 and pushes the valve cap 67 in

the direction of a closed position of the valve 57 as the lever member

53 rotates.

In this embodiment, the lever member 53 is moved by the

solenoid 51 as the signal from the timer 1 initiates an electric current to

flows into the solenoid 51 creating an electromagnetic effect which

cause the solenoid 51 to either pull or push the lever member 53. Other constructions of the second embodiment are same as that

of the first embodiment.

Hereinafter, the flowcharts are used to illustrate the electronic

timer utilized by the valve assembly.

Fig. 6 shows the operation of the electronic timer of the first

embodiment when an electric current first flows into the electronic

timer.

As illustrated in the flowchart, when the electronic timer is

supplied with an electric current (la) the motor is drived to close the

valve (2a). Next phase is monitoring the outer sensor system (gas

leakage sensor) to check whether any signal has been sent out. In the

event that a signal is transmitted from the outer sensor system (gas

leakage sensor), an alarm is raised and the motor is drived to close the

valve (4a). If a gas leakage signal is monitored even after the valve

has been closed, a warning message is sent out and operation comes to

complete stop (6a). If no signal is monitored, then the timer is initiated

and normal operation is performed (7a).

Fig. 7 is a flowchart illustrating normal operational processes of

the electronic timer of the valve assembly according to the first embodiment.

The electronic timer remains standby status until the warning

signal is transmitted from the outer sensor system or the valve is

opened. If the warning signal is transmitted from the outer sensor

system, then the electronic timer conducts the alarming process (lb).

If the valve is opened, then the timer goes into an operational mode and

the standard predetermined time period (30 minutes) is inputted (2b).

If a user adjusts the predetermined time period, the electronic timer is

reset accordingly (3b). While is the operational mode, the electronic

timer continuously monitors the sensor signal, the time setting button,

the gas valve sensor and the remaining time period to perform the

functions corresponding to messages sent from those parts (4b). If a

user adjusts the predetermined time period while is the operational

mode, then the electronic timer changes the setting to accommodate

the adjusted predetermined time period (5b). If the user manually

shuts off the valve, the operational mode comes to stop and the

electronic timer goes into the standby status (6b). When the

predetermined time period comes to end, the valve-closing signal is

outputted and the end of the predetermined period is informed to the user by a sound, and the motor is drived to close the valve (7b). If the

valve is not closed even after the motor has been drived to close the

valve, then the sound goes off to alert the user to check the valve

assembly for a possible malfunction. If the valve closes properly, then

the electronic timer returns to the standby status of the initial phase

(8b). In the event that a malfunction signal is transmitted, the warning

signal is manifested and the sound goes off to alert the malfunction of

the system. The user may manually close the valve (9b). If it has

been determined that the valve has not been closed, and then the motor

is drived to close the valve (10). If the warning signal is transmitted,

then the corresponding message is manifested and informed to the user.

Unless the warning signal is turned off, the electronic timer returns to

the standby status (l ib).

Fig. 8 is a flowchart illustrating normal operational processes of

the electronic timer of the valve assembly according to the second

embodiment.

As illustrated in the flowchart, the operational processes are

same as the first embodiment. The difference is that the second

embodiment utilizes the solenoid system (7c, 10c) instead of the motor. The valve assembly according to the foregoing description

comprises an electronic timer to precisely control the duration of a

usage time and a status of a valve while in use. As a result, the

present invention can be used for a gas fueled cooking device such as a

gas burner to increase the safety measures.

Although the invention has been shown and described with

respect to detailed embodiments thereof, it should be understood by

those skilled in the art that various changes and omissions in form and

detail may be made therein without departing from the spirit and the

scope of the invention.

Claims

CLAIMS.

1. The valve assembly comprising:

a timer to electronically predetermine the operation period;

a motor having a pin fixed on to one side operates based on a

signal from the timer;

a valve sensor 15 which is turned on or off by the rotation of the

lever member, and monitors open/close status of the valve; and

a valve having a home formed at the valve cap, and a winding

spring which is secured onto the main body of the valve and a

valve cap connected to the knob to perform the open/close

functions of the valve and other end is fixed onto the inside of a

valve cap to push the valve cap in the direction of a closed

position of the valve as the lever member moves.

2. The valve assembly comprising:

a timer to electronically predetermine the operation period;

a solenoid 51 which operates based on a signal of the timer;

a lever member which makes contact with the solenoid and rotates about the rotational axis placed in the middle of the lever

member when the solenoid operates;

a valve sensor 15 which is turned on or off by the rotation of the

lever member and monitors open/close status of the valve; and

a valve having a home formed at the valve cap, and a winding spring

which is secured onto the main body of the valve and a valve cap

connected to the knob to perform the open/close functions of the valve

and other end is fixed onto the inside of a valve cap to push the valve

cap in the direction of a closed position of the valve as the lever

member moves.