KR101504962B1 - The mechanic type timer that replacing moter movement with soleniod movement using power originated by semiconductor - Google Patents

Abstract

The present invention relates to a power-saving mechanical timer connected between an external power source and a plug of a load device. More specifically, a motor incorporated in a conventional mechanical timer is replaced by a solenoid, and the gear connection portion inside the timer is rotated only by a specific time unit using a semiconductor switch to rotate the linked time setting rotator, And a mechanical timer configured to overcome the errors and failures of the timers according to the limits of mechanical life of the gears.
The present invention relates to a mechanical timer having a self-plug connected to an outlet, a power plug holder for plugging a load device, and a time setting rotator marked with 24 hours so as to set an operation time, A counter driven by an external power source, having a built-in clock function and transmitting control signals at specific time intervals; A semiconductor switch triggered by the control signal of the counter and energized; A coil for generating an electromotive force by an input current while external power is input from the socket through the self-plug while the semiconductor switch is energized; A solenoid which linearly moves according to a magnetomotive force of the coil; A gear connection portion that rotates in accordance with the linear movement of the solenoid and meshes with the time setting rotation body to rotate the time setting rotation body at the specific time interval; And a spring for providing a resilient restoring force to the solenoid. The power-saving type mechanical timer is replaced with a motor-driven timer using linear motion of a semiconductor power source synchronous type solenoid.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a mechanical timer that replaces a motor drive using a linear motion of a semiconductor power-source synchronous solenoid,

The present invention relates to a power-saving mechanical timer connected between an external power source and a plug of a load device.

More specifically, a motor incorporated in a conventional mechanical timer is replaced by a solenoid, and the gear connection portion inside the timer is rotated only by a specific time unit using a semiconductor switch to rotate the linked time setting rotator, And a mechanical timer configured to overcome the errors and failures of the timers according to the limits of mechanical life of the gears.

The timer is a device configured to set a predetermined time as an operation time and to operate and turn off only for a set time. Such a timer is used for various devices to which power is supplied.

In particular, a timer including a power plug holder to which a plug of a load device is connected is used to reduce the standby power of the load device by supplying external power to the load device and shutting off the external power source only for a predetermined time period.

Standby power has been recognized as a main cause of power waste for several years. According to the Korea Energy Management Corporation, the average standby power of electronic devices (300 million units) used in Korea is 3.6W. It consumes electricity. In the whole country, one million kW power plant is wasted without work, and the annual electricity bill of 500 billion won is blown up by standby power.

As a result, "less than 1W of standby power" is being promoted to reduce the world's wasted energy. Korea has also confirmed the National Roadmap (Standby Korea 2010) for 2005 to reduce standby power of electronic products to less than 1W by 2010.

Therefore, the timer outlet can reduce the standby power consumed unnecessarily because the electric appliance is turned off at the preset time by the user, thereby saving the electric charge by 20 to 25% by preventing standby power without unplugging the electronic device. In the case of a commercially available timer outlet, the Korea Radio Research Institute (KRII) conducted a test at 0.6 ~ 0.8W, a level at which standby power hardly occurs.

FIG. 1 is a perspective view showing a shape of a conventional mechanical timer, and FIG. 2 is a state diagram showing an operation method of a conventional mechanical timer.

Referring to the drawings, the upper cover on the outer side of the case of the mechanical timer includes a power plug holder in which a plug of a load device is plugged, and a time setting rotator 10 marked with 24 hours so as to set an operation time.

The knob 10a is configured to be turned back and forth so that the time can be set at intervals of 15 minutes on a one-hour-by-hour basis. In the load device, only the operation time of the knob 10a, As shown in FIG.

Referring to FIG. 2, the inside of the case of the mechanical timer is composed of a micro switch set 30, a motor 50, a gear connection 60, and a protection resistor 70.

When a mechanical timer is plugged into an outlet and an external power source is connected, a current flows to rotate the motor 50, and the motor rotates the gear connector 60 while rotating. And finally the time-setting rotary body 10 in which the gear connecting portion 60, which receives the rotational force of the motor 50, is gear-engaged is rotated.

In order to set the operation time of the timer, the knob 10a formed on the time setting rotation body 10 is moved. For example, in order to operate the load device from 14:00 pm to 16:00 pm, And moves the knob 10a positioned at the time until the center in the center direction.

An operation lever 30a is formed in the micro switch set 30. The microcomputer switch 30 is operated such that the time setting rotator 10 rotates to rotate the knob 10a at a point where the pressed advanced knob 10a of the time setting rotator 10 is located. The operation lever 30a of the micro switch set 30 is pushed by the push switch 30 and the micro switch 30b is pressed and the plate spring 30c inside the micro switch set is operated to turn the switch off on state.

When the time setting rotator 10 rotates and the microcomputer knob 30b is depressed by the time setting rotator 10 and there is no advanced knob 10a, The leaf spring 30c of the micro switch set is restored while the lever 30a returns to its home position, and the switch is again switched to the off state.

Therefore, power is input to the load device only for a period of time at the point where the advanced knob 10a is pressed in the time setting rotation body 10, and is operated.

However, these conventional mechanical timers have some problems. As shown in FIG. 2, when the mechanical timer is supplied with power, the internal motor 50 continuously rotates. In the case of the gear connection portion 60 engaged therewith, the driving force of the motor 60 is continuously increased And is rotated.

Generally, in the case of a motor, since it is a device that rotates as a very small force, defects may occur when some foreign matter enters. Especially, in the case of a mechanical timer, more than 90% of the cause of the failure is caused by a failure of the motor.

Particularly, in the case of a mechanical timer, since the gear connection portion receives the driving force of the motor, the time of the seconds and minutes is determined by the gear ratio, so that the precision of the gear connection portion is also required.

However, as in the conventional case, when the gear connection is continuously and continuously engaged with the time-setting rotating body, abrasion must occur. This also causes a failure of the timer. To overcome this, the gear material is made of a special material POM In some cases, however, the cost is high and the mechanical life is limited due to continuous driving.

In order to solve the above problems, it is an object of the present invention to provide a mechanical timer configured to overcome the error and failure of a timer due to a motor failure by constituting a driving apparatus replacing a motor incorporated in a conventional mechanical timer.

In addition, according to the present invention, not only the gear connection is continuously rotated like a conventional timer but the gear connection portion inside the timer is rotated only by a specific time unit so as to rotate the time setting rotator linked thereto, It is an object of the present invention to provide a mechanical timer configured to overcome errors and failures of a timer.

In order to solve the above problems, the present invention provides a mechanical timer having a self-plug connected to an outlet, a power plug holder for plugging a load device, and a time setting rotator marked with 24 hours so as to set an operation time, A counter driven by an external power source drawn from the outlet through its own plug, a built-in clock function and transmitting control signals at specific time intervals; A semiconductor switch triggered by the control signal of the counter and energized; A coil for generating an electromotive force by an input current while external power is input from the socket through the self-plug while the semiconductor switch is energized; A solenoid which linearly moves according to a magnetomotive force of the coil; A gear connection portion that rotates in accordance with the linear movement of the solenoid and meshes with the time setting rotation body to rotate the time setting rotation body at the specific time interval; And a spring for providing a resilient restoring force to the solenoid. The power-saving type mechanical timer is replaced with a motor-driven timer using linear motion of a semiconductor power source synchronous type solenoid.

The counter may further include: a drive frequency selection unit for selecting a drive frequency; A control unit for incorporating a clock function and transmitting control signals at specific time intervals; And a time interval setting unit for setting a time interval of the control signal transmitted from the control unit.

The solenoid includes a central body inserted into the coil and linearly moving according to the magnetomotive force of the coil; And a contact portion which is hinged to the center body and is in contact with a gear formed on the gear connection portion. The contact portion is configured to rotate the gear connection portion by applying a force to the contacting gear when the magnetomotive force of the coil is applied.

Further, when the restoring force of the spring acts, the hinge-coupled contact portion contacts the gear of the gear connection portion and rotates to move over the contacted gear.

Hereinafter, the following effects can be achieved by the mechanical power-saving type mechanical timer which is replaced with the motor driving by using the linear motion of the semiconductor power source synchronous type solenoid of the present invention.

First, the present invention can overcome errors and failures of a timer due to a motor failure by replacing a motor built in a conventional mechanical timer with a coil and a solenoid.

Secondly, according to the present invention, the gear connection portion inside the timer is rotated only by a specific time unit using a counter and a semiconductor switch without using a motor built in a conventional mechanical timer, , It is possible to overcome the error and failure of the timer according to the limit of the mechanical life of the gear.

1 is a perspective view showing a shape of a conventional mechanical timer.
2 is a state diagram illustrating an operation method of a conventional mechanical timer.
3 is an internal configuration diagram of a mechanical timer according to the present invention.
4 is an operational state diagram of a gear connection and a solenoid constructed inside the mechanical timer according to the present invention.

Hereinafter, a power-saving type mechanical timer, which replaces a motor drive using a linear motion of a semiconductor power source synchronous type solenoid of the present invention, will be described in detail with reference to the accompanying drawings.

3 is an internal configuration diagram of a mechanical timer according to the present invention. Referring to the drawings, the mechanical timer of the present invention includes a self-plug (not shown) connected to a wall outlet or a multi-tap, a power plug holder 100 having a plug of a load device, The set rotation body 200 is constituted.

In the timer of the present invention, a counter 300 is built in. The counter is driven by an external power source which is drawn in from a socket or the like through the self-plug (not shown) .

In addition, the timer of the present invention includes a semiconductor switch 400 that receives a control signal of the counter 300 and is energized while being triggered. Various switches such as a transistor and an FET can be used as the semiconductor switch 400.

In addition, in the timer of the present invention, when the semiconductor switch 400 is energized and external power is input from the socket through the self-plug, a coil 500 generating a magnetomotive force by an input current is formed in a cylindrical shape, The solenoid 600 is linearly moved according to the magnetomotive force of the solenoid 600.

In the timer of the present invention, a gear connection unit 700 is provided which rotates the time setting rotator 200 at a specific time interval according to the control signal of the counter 300 by engaging with the time setting rotator 200, The gear connection portion 700 rotates in accordance with the linear motion of the solenoid 600 to rotate the time setting rotator 200.

The timer of the present invention includes a spring that provides an elastic restoring force to the solenoid 600. The timer of the present invention contacts the knob 200a of the time- And a micro switch set 800 which is an essential component of the mechanical timer.

The counter 300 includes a driving frequency selector 310 for selecting a driving frequency of the input power source such as a driving frequency of 50/60 Hz and a controller 320 having a clock function and transmitting a control signal at specific time intervals. .

The counter 300 includes a time interval setting unit 330 for setting a time interval of a control signal transmitted from the control unit 320.

In other words, the time interval setting unit 330 is configured to set a time interval of the control signal at a specific time interval, such as 15 minutes, 20 minutes, and 30 minutes, It is preferable to set it in accordance with the time unit constituted in the display unit.

The solenoid 600 includes a central body 610 which is inserted into the cylindrical coil 500 and linearly moves according to the magnetomotive force of the coil, and a central body 610 hinged to the central body 610 and formed in the gear connecting portion 700 A contact portion 620 that contacts the gear is constructed. The contact portion 620 applies a force to the gear of the contacting gear connecting portion when the magnetizing force of the coil 500 acts, thereby rotating the gear connecting portion 700.

The hinge coupling of the center body 610 and the contact portion 620 is configured such that the contact portion 620 rotates only in one direction with the center body 610 as a center.

Hereinafter, an operation method of a power-saving mechanical timer that replaces a motor drive by using a linear motion of a semiconductor power source synchronous type solenoid of the present invention will be described in detail.

3, when the self-plug of the timer is plugged into a wall socket or the like, external power is input to the counter 300 through the bridge circuit, the plug of the load device is placed in the power plug holder 100 of the timer, Is set in the timer.

First, a method of rotating the time setting rotation body 200 in which a knob 200a for setting an operation time of a load device is configured in a timer is as follows.

In the case of the timer of the present invention, the driving force of the conventional motor is applied to the magnetomotive force of the coil 500, And the solenoid 600, and the time setting rotator 200 is configured to rotate only in a specific time unit instead of the continuous time unit.

First, the counter 300 inside the timer is driven by an external power source which is drawn in from a socket or the like through the self-plug, has a built-in clock function, and transmits a control signal to the semiconductor switch 400 at specific time intervals.

Next, when the semiconductor switch 400 receives the control signal of the counter, the semiconductor switch 400 is triggered at a predetermined time interval and the current is energized. When the external power is inputted from the socket through the self-plug, 500). ≪ / RTI >

Next, the solenoid 600 located inside the cylindrical shape moves linearly according to the magnetomotive force of the coil 500. [ When the solenoid 600 is linearly moved, the gear connecting portion 700 is rotated while applying force to the gear contacting the gear connecting portion 700.

Next, the gear connection portion 700 rotates the time setting rotator 200, which is engaged with the rotation, at the predetermined time intervals.

For example, when the number of gears of the time setting rotator 200 is 96, the rotation angle of the time setting rotator 200 is determined according to the number of gears formed in the time setting rotator 200. For example, Since the angle between the gears is 3.75 degrees, the time-setting rotation body 200 is rotated at 3.75 angles in units of 15 minutes when the control signal interval of the counter 300 is in units of 15 minutes.

The control signal of the counter 300 is transmitted in units of 15 minutes and the semiconductor switch 400 is energized so that the electromotive force of the coil 500 acts to linearly move the solenoid 600, The time setting rotator 200 that is engaged with the gear connection portion 700 rotates at an angle of 3.75 degrees in units of 15 minutes.

4a to 4b are operational states of a gear connection and a solenoid configured in the mechanical timer according to the present invention.

In the timer of the present invention, a spring 900 for providing an elastic restoring force to the solenoid 600 is formed.

4A shows a state in which the solenoid 600 is positioned between the gears of the gear connection portion 700 having the contact portion 620 hinged to the central body in a state in which the coil 500 is not magnetized.

4B, when the semiconductor switch 400 is energized in response to the control signal of the counter 300 to generate a magnetomotive force due to the current flowing through the coil 500, the solenoid 600 is linearly moved by the magnetomotive force The contact portion 620 applies a force to the gear of the gear connection portion 700 to rotate the gear connection portion 700. At this time, the spring 900 connected to the solenoid 600 is expanded.

4C, when the repulsive force generated in the coil 500 disappears again, the solenoid 600 returns to its original position due to the restoring force of the spring 900. When the restoring force of the spring 600 acts The contact portion 620 hinged to the center body 610 is configured to move to the opposite side of the gear that is in contact with the gear of the gear connection portion 700 while being rotated.

In other words, when the restoring force of the spring 900 is applied, the hinge-coupled contact portion 620 is configured to contact the gear of the gear connection portion 700 and to rotate over the contacted gear, The state in which the solenoid 600 is returned to the initial position by the restoring force of the spring 900 is shown.

Next, the driving method of the load device according to the timer setting is as follows.

The plug of the load device is placed in the power plug holder 100 of the timer and the operation time for operating the load device is set by using the knob 200a of the time setting rotary body 200 marked with 24 hours.

An operation lever 800a is formed in the micro switch set 800. When the time setting rotator 200 rotates at a specific time interval by the gear connection unit 700 and the time setting rotator 200 is pushed forward The operation lever 800a of the micro switch set 800 is pushed by the knob 200a at the point where the knob 200a is located and this force pushes the micro switch knob 800b, The switch 800c is operated to switch the switch from the off state to the on state.

When the time setting rotator 200 rotates and the microcomputer knob 800b does not have the advanced knob 200a pressed by the time setting rotator 200, The leaf spring 800c of the micro switch set is restored while the lever 800a returns to its home position and the switch is again switched to the off state.

Accordingly, power is input to the load device only for a time at a point where the advanced knob 200a is pressed in the time setting rotation body 200, and operates.

That is, in the case of the timer of the present invention, by replacing the motor built in the conventional mechanical timer by using the nose 500 and the solenoid 600, errors and failures of the timer due to the motor failure can be overcome, The gear connection unit 700 in the timer is rotated only by a specific time unit using the counter 300 and the semiconductor switch 400 without using the motor built in the conventional mechanical timer, So that it is possible to overcome the error and the failure of the timer according to the limit of the mechanical life of the gear.

Also, in the case of the mechanical timer according to the present invention, the power consumption is about 0.3 W, which is much higher than 0.6 ~ 0.8 W of the conventional mechanical timer.

In the foregoing, the present invention has been described with reference to the preferred embodiments thereof with reference to the accompanying drawings. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings and the foregoing embodiments are provided by way of illustration for purposes of clarity of understanding to those skilled in the art to which the present invention pertains. It is, therefore, to be understood that the various embodiments of the present invention may be embodied in various forms without departing from the essential characteristics thereof, and the above-described embodiments are to be considered as illustrative and not restrictive. Accordingly, the scope of the present invention should be construed in accordance with the invention as set forth in the appended claims rather than the foregoing embodiments, and various changes, alternatives, and equivalents by those skilled in the art may be made by the inventions It is obvious that it is included in the range of.

100: Power plug holder 200: Time setting Rotating body
200a: Knob
300: counter 310: driving voltage selection unit
320: control unit 330: time interval setting unit
400: semiconductor switch
500: Coil 600: Solenoid
610: center body 620:
700: gear connection
800: Micro switch set 800a: Operation lever
800b: Micro switch knob 800c: Plate spring
900: spring

Claims (4)

A mechanical timer comprising a self-plug connected to an outlet, a power plug holder holding a plug of the load device, and a time setting rotator marked with 24 hours so as to set an operation time,
A counter driven by an external power source input from the socket through the plug, a clock function incorporated therein and transmitting a control signal at a specific time interval;
A semiconductor switch triggered by the control signal of the counter and energized;
A coil for generating an electromotive force by an input current while external power is input from the socket through the self-plug while the semiconductor switch is energized;
A solenoid which linearly moves according to a magnetomotive force of the coil;
A gear connection portion that rotates in accordance with the linear movement of the solenoid and meshes with the time setting rotation body to rotate the time setting rotation body at the specific time interval; And
And a spring for providing a resilient restoring force to the solenoid. The mechanical timer is a power-saving type mechanical timer that replaces a motor drive by using a linear motion of a semiconductor power source synchronous type solenoid. The apparatus according to claim 1,
A drive frequency selection unit for selecting a drive frequency;
A control unit for incorporating a clock function and transmitting control signals at specific time intervals; And
And a time interval setting unit for setting a time interval of a control signal transmitted from the control unit. The power-saving mechanical timer is a motor-driven timer using a linear motion of a semiconductor power source synchronous type solenoid. 2. The solenoid valve according to claim 1,
A core inserted into the coil and linearly moving according to a magnetomotive force of the coil; And
And a contact portion hinged to the center body and contacting a gear formed on the gear connecting portion,
Wherein the contact portion is configured to rotate the gear connecting portion by applying a force to the contacting gear when a magnetomotive force of the coil acts on the contact portion. The power saving type mechanical timer . delete

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