TIME SWITCH OF CONTROLLABLE TIME ADJUSTMENT

Abstract

A time switch of controllable time adjustment, including a switch housing, a control circuit board, an input terminal, an output terminal, a connecting piece, a first spring, a warped plate, and an electromagnet. The control circuit board is arranged inside the switch housing and electrically connected to the electromagnet and the output terminal. The control circuit board is configured to control the electromagnet to be powered on according to a turn-off time preset by the control circuit board. The first spring is provided between the warped plate and the connecting piece to enable the warped plate to sway around the rotating shaft and drive the connecting piece to sway. The connecting piece is configured to connect the input terminal and the output terminal. The swaying of the connecting piece causes the input terminal and the output terminal to complete closing and opening.

Description

TECHNICAL FIELD

The present invention relates to the field of switch, and more specifically, to a time switch capable of setting time freely to control the switch disconnection.

BACKGROUND OF THE INVENTION

To solve stand-by power consumption on the electrical appliances, many product designers design a time switch circuit on the electrical appliances. When the time switch is connected in the circuit, the electrical appliances can judge power on or off according to the setting time, so that the stand-by state can be stopped in time and power consumption can be saved.

In industry practice, time switch is generally supplied to manufacturers of electrical appliances as finished switch, and the manufacturers design corresponding circuit module and installation structure on electrical goods to match with the appearance of time switch. Currently, there are two types of time switch at home and abroad, one is permanent magnet type in a way of suction, its product structure determines defects of unstable performance, poor hand feeling in opening and closing button during using; the other is spring-type rocker switch, which has good hand feeling due to optimization of inner springback structure, and this time switch is frequently used in China. Traditional time switch described hereinafter is spring-type rocker switch.

The structure of traditional time switch comprises a cuboid-shaped switch body, a circuit board and touch points are arranged inside the switch body, a ship-shaped button is arranged in front of the switch body, rotating shaft holes are arranged on both sides of the ship-shaped button, the touch points are aligned to two ends of the ship-shaped knob. It is necessary that the rotating shaft is inserted into the rotating shaft holes because pulling action of both ends of the ship-shaped button needs to be realized. However, for traditional time switch, structure designs such as rotating shaft are solved by manufacturers of electrical appliances, that is, a switch mounting bracket for embedding switch body is designed on panel of electrical appliances, and a rotating shaft is arranged on the mounting bracket. In this way, the manufacturing and assembling of the complete set of time switch meet trouble, many structures of electrical appliances' panel are interfered with each other and are not easy to open the mold; accessories are scattered, the assembly of time switch is unstable; because products are designed independently by both sides, it cannot be well matched in actual assembling; ship-shaped button is single and replacement is difficult.

SUMMARY OF THE INVENTION

The present invention aims to solve problems of single button and difficult replacement by providing a time switch of controllable time adjustment.

The present invention is realized as follows: a time switch of controllable time adjustment, the time switch comprises a switch housing, a control circuit board, an input terminal, an output terminal, a connecting piece, a first spring, a warped plate, and an electromagnet; the control circuit board is arranged inside the switch housing and electrically connected to the electromagnet and the output terminal; the control circuit board is configured to control the electromagnet to be powered on according to a turn-off time preset by the control circuit board; the electromagnet is configured to push the warped plate; the warped plate configured to bend the first spring is connected to the switch housing by means of a rotating shaft; the first spring is provided between the warped plate and the connecting piece to enable the warped plate to sway around the rotating shaft and drive the connecting piece to sway; the connecting piece is configured to connect the input terminal and the output terminal; the input terminal and the output terminal are arranged on a bottom surface of the switch housing; the swaying of the connecting piece causes the input terminal and the output terminal to complete closing and opening, such that the time switch is turned on and off.

A further technical scheme of the present invention is the time switch also comprises a microcontroller configured to control the electromagnet to be powered on according to the turn-off time.

A further technical scheme of the present invention is the time switch also comprises a timing rotary switch, the timing rotary switch is electrically connected with the control circuit board.

A further technical scheme of the present invention is the timing rotary switch comprises a first circuit board, a rotary switch, a rotary knob and a case; a circular hole is arranged on the top surface of the case, the rotary knob is exposed out of the case through the circular hole for rotation, the rotary switch is arranged on the first circuit board; the rotary knob is sleeved on a rotary shaft of the rotary switch; and the first circuit board is connected with the control circuit board by the plug wire.

A further technical scheme of the present invention is the time switch also comprises a waterproof rubber ring, the waterproof rubber ring is arranged inside the switch housing; and the waterproof rubber ring is provided between the warped plate, the connecting piece and the control circuit board.

A further technical scheme of the present invention is the time switch also comprises a bottom cover, the bottom cover is connected to the body of the time switch via a buckle.

A further technical scheme of the present invention is an opening is provided on the top surface of the warped plate; a lamp cover is connected with the inner of the opening via a buckle.

A further technical scheme of the present invention is the electromagnet comprises a copper coil, a coil framework, a second spring, a terminal and an iron core, the second spring is sleeved on the iron core, the iron core is arranged inside the coil framework, the copper coil is wound and sleeved on the coil framework; the terminal is provided on the coil framework; and the copper coil is electrically connected to the terminal.

A further technical scheme of the present invention is the control circuit comprises a coil J1, a resistor R4, a resistor R3, a resistor R2, a resistor R1, a capacitor C1, a capacitor C4, a diode D1, a diode D2, a neon tube N-LD, a silicon controlled rectifier Q1, a control chip U1 and a connector JP1, an input voltage is connected to the input terminal of the coil, the output terminal of the coil is respectively connected to one end of the resistor R4 and the second pin of the silicon controlled rectifier Q1, the other end of the resistor R4 is grounded, the first pin of the silicon controlled rectifier Q1 is grounded, the third pin of the silicon controlled rectifier Q1 is connected to one end of the resistor R3, the other end of the resistor R3 is connected to the fifth pin of the control chip U1, one end of the capacitor C4 is grounded, and the other end is respectively connected to the third pin of a triode Q5 and the third pin of a triode Q1, the eighth pin of the control chip U1 is respectively connected to the third pin and the sixth pin of the connector JP1, the seventh pin of the control chip U1 is connected to the third pin of the connector JP1, the sixth pin of the control chip U1 is grounded, the third pin and the fourth pin of the control chip U1 are respectively connected to the first pin of the connector JP1, the second pin of the control chip U1 is connected to the second pin of the connector JP1, the first pin of the connector JP1 is respectively connected to the cathode of the diode D2 and the anode of the capacitor C1, the anode of the diode D2 and the cathode of the capacitor C1 are grounded, the anode of the diode D1 is connected to one end of the resistor R1, and the other end of the resistor R1 is connected to the input voltage, one end of the resistor R2 is grounded, and the other end of the resistor R2 is connected to the anode of the neon tube N-LD, the cathode of the neon tube N-LD is connected to the input voltage.

A further technical scheme of the present invention is a time adjusting circuit is arranged on the first circuit board, the time adjusting circuit comprises a control chip U2, a capacitor C5, a diode D3, a rotary switch SW1 and a connector JP2, the first pin of the control chip U2 is connected to the third pin of the connector JP2, the second pin of the the control chip U2 is grounded, the third pin of the control chip U2 is connected to the third pin of the rotary switch SW1, the fourth pin of the control chip U2 is connected to the first pin of the rotary switch SW1, the fifth pin of the control chip U2 is connected to the input voltage, the sixth pin of the control chip U2 is connected to the sixth pin of the rotary switch SW1, the seventh pin of the control chip U2 is connected to the fourth pin of the rotary switch SW1, the eighth pin of the control chip U2 is unconnected, the ninth pin of the control chip U2 is connected to the first pin of the connector JP2, the tenth pin of the control chip U2 is connected to the second pin of the connector JP2, one end of the diode D3 is connected to the first pin of the connector JP2, and the other end of the diode D3 is respectively connected to the anode and input voltage of the capacitor C5, the cathode of the capacitor C5 is grounded, the second pin and the fifth pin of the rotary switch SW1 are grounded.

The beneficial effects of the present invention is as follows: the present invention has a rotating shaft in the time switch, so that manufacturers of electric appliances using the switch have no need to design the rotating shaft on the switch mounting bracket of electrical appliances, and reduce trouble of mold design; in addition, a middle clamping rack is disposed, through which the switch body can be easily installed on the panel, and it is very easy to be assembled and disassembled due to clamping structure. The present invention has a simple and reliable structure and a convenient installation, so it can be installed in various electric appliances needing to realize a timing function.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a section view of a time switch of controllable time adjustment of the present invention.

FIG. 2 is a three-dimensional diagram of the time switch of controllable time adjustment of the present invention.

FIG. 3 is a break-down structure diagram of the time switch of controllable time adjustment of the present invention.

FIG. 4 is a three-dimensional diagram of a timing rotary switch of the present invention.

FIG. 5 is a break-down structure diagram of the timing rotary switch of the present invention.

FIG. 6 is a circuit diagram of a control circuit of a time switch of controllable time adjustment of the present invention.

FIG. 7 is a circuit diagram of a timing circuit of a time switch of controllable time adjustment of the present invention.

Reference numbers: 1—lamp cover; 2—warped plate; 3—waterproof rubber ring; 4—first spring; 5—connecting piece; 6—input terminal; 7—output terminal; 8—terminal; 9—control circuit board; 10—switch housing; 11—copper coil; 12—coil framework; 13—second spring; 14—iron core; 15—bottom cover; 16—rotating shaft; 17—buckle; 18—buckle hole; 19—leg; 20—center hole; 21—column; 22—microcontroller; 23—neon tube; 30—electromagnet; 40—timing rotary switch; 401—first circuit board; 402—rotary switch; 403—rotary knob; 404—case; 405—plug wire; 406—pluggable plug; 407—circular hole; 408—rotary shaft.

DETAILED DESCRIPTION OF EMBODIMENTS

FIGS. 1-3 show a time switch of controllable time adjustment of the present invention, the time switch comprises a switch housing 10, a control circuit board 9 arranged inside the switch housing 10, an input terminal 6 and an output terminal 7 arranged on the bottom surface of the switch housing 10, a connecting piece 5 for connecting the input terminal 6 and the output terminal 7, a warped plate 2 connecting to the switch housing 10 by means of a rotating shaft 16. The warped plate 2 includes a leg 19, a rotating shaft 16 and a center hole 20. The warped plate 2 is connected to the switch housing 10 by means of the rotating shaft 16. A first spring 4 is provided between the warped plate 2 and the connecting piece 5 enabling the warped plate 2 to sway around the rotating shaft 16 and drive the connecting piece 5 to sway. Specifically, one end of the first spring 4 is inserted into the center hole 20 and the other end of the first spring 4 is sleeved on a column 21 provided on the connecting piece 5. An end of the connecting piece 5 is connected to the output terminal 7. The swaying of the connecting piece 5 causes the input terminal 6 and the output terminal 7 to complete closing and opening. The control circuit board 9 is electrically connected with the output terminal 7. When the warped plate 2 is pressed, the leg 19 abuts on an upper end of the coil framework 12 and the first spring 4 is released by the center hole 20. Then the connecting piece 5 sways, such that an end of the connecting piece 5 is connected to the input terminal 6. Thus, the input terminal 6 and the output terminal 7 are connected, such that the time switch is turned on. At the same time, the control circuit board 9 is powered on. The control circuit board 9 is provided with a microcontroller 22 configured to control the electromagnet 30 to be powered on according to a turn-off time preset in the microcontroller 22. When the preset turn-off time is up, the microcontroller 22 controls the electromagnet 30 to be powered on. For example, the turn-off time value is preset as one minute, when the one minute is up, the microcontroller 22 controls the electromagnet 30 to be powered on. Then the electromagnet 30 generates an electromagnetic force which pushes the leg 19, such that an end of the warped plate 2 rises. Then the first spring 4 is bended by the center hole 20. The connecting piece 5 is pressed by the first spring 4, such that an end of the connecting piece 5 is disconnected to the input terminal 6. Finally, the input terminal 6 and the output terminal 7 are disconnected, such that the time switch is turned off. At the same time, the control circuit board 9 and the electromagnet 30 are powered off. Specifically, the microcontroller 22 includes a timer configured to control the electromagnet 30 to be powered on according to the turn-off time. The present invention has a rotating shaft 16 in the time switch, so that manufacturers of electric appliances using the switch have no need to design the rotating shaft 16 on the switch mounting bracket of electrical appliances, and reduce trouble of mold design; in addition, a middle clamping rack is disposed, through which the switch body can easily installed on the panel, and it is very easy to be assembled and disassembled due to clamping structure. The present invention has a simple and reliable structure and a convenient installation, so it can be installed in various electric appliances needing to realize a timing function.

After a bottom cover 15 and the circuit board are combined and connected with the switch housing 10, the whole product design has delicate structure, so that the product has smaller volume, lower cost, and easy installation, besides, it is convenient for users to install and use.

The time switch also comprises a timing rotary switch 40. As shown in FIG. 4, the timing rotary switch 40 is electrically connected to the control circuit board 9 in a plugging manner by a plug wire 405. Specifically, the plug wire 405 is connected to a pluggable plug 406 of the control circuit board 9. In some embodiments, the timing rotary switch 40 is integrated in the control circuit board 9. The timing rotary switch 40 is configured to set various turn-off time values. Then the microcontroller 22 of the control circuit board 9 will control the time switch to turn off according to the various turn-off time values. For example, the turn-off time values may be set as 1 minute, 2 minutes or 10 minutes and so on. When the turn-off time value is set as 1 minute, the turn-off time value of 1 minute is received by the control circuit board 9 and then allocated to the microcontroller 22. The microcontroller 22 controls the electromagnet 30 to be powered on when the 1 minute is up. Then the time switch is turned off. That means the turn-off time values in the control circuit board 9 are able to be adjusted by the timing rotary switch 40. The time of switch disconnection can be set freely, so that actual demand meet users' need.

As shown in FIGS. 4-5, the timing rotary switch 40 comprises a first circuit board 401, a rotary switch 402, a rotary knob 403, a case 404 and the plug wire 405; a circular hole 407 is arranged on the top surface of the case 404, the rotary knob 403 is exposed out of the case 404 through the circular hole 407 for rotation, the rotary switch 402 is arranged on the first circuit board 401, the rotary knob 403 is sleeved on a rotary shaft 408 of the rotary switch 402; and the first circuit board 401 is connected with the control circuit board 9 by the plug wire 405. The rotary knob 403 is rotated to set the turn-off time values.

The time switch also comprises a waterproof rubber ring 3, the waterproof rubber ring 3 is arranged inside the switch housing 10, the waterproof rubber ring 3 is provided between the warped plate 2, the connecting piece 5 and the control circuit board, so that small amount of water inside can be discharged to prevent short circuit inside the switch.

As shown in FIGS. 2-3, the time switch also comprises the bottom cover 15 provided with a buckle 17. The switch housing 10 is provided with a buckle hole 18. The bottom cover 15 is connected to the switch housing 10 via a buckle 17. Specifically, the buckle 17 is connected to buckle hole 18. Buckle connection is convenient for disassembling and maintenance.

As shown in FIG. 1, an opening is provided on the top surface of the warped plate 2, a lamp cover 1 is clamped in inner of the opening. A neon tube 23 emits a light passing through the lamp cover 1, so that an indication of neon tube shining can be obtained.

The electromagnet 30 is arranged on the control circuit board 9, and a control circuit is arranged inside the control circuit board 9.

The electromagnet 30 comprises a copper coil 11, a coil framework 12, a second spring 13, a terminal 8 and an iron core 14, the second spring 13 is sleeved on the iron core 14, the iron core 14 is arranged inside the coil framework 12, the copper coil 11 is wound on the coil framework 12, the terminal 8 is provided on the coil framework 12 and the copper coil 11 is electrically connected to the terminal 8.

The control circuit comprises a coil J1, a resistor R4, a resistor R3, a resistor R2, a resistor R1, a capacitor C1, a capacitor C4, a diode D1, a diode D2, a neon tube N-LD, a silicon controlled rectifier Q1, a control chip U1 and a connector JP1, an input voltage is connected to the input terminal of the coil, the output terminal of the coil is respectively connected to one end of the resistor R4 and the second pin of the silicon controlled rectifier Q1, the other end of the resistor R4 is grounded, the first pin of the silicon controlled rectifier Q1 is grounded, the third pin of the silicon controlled rectifier Q1 is connected to one end of the resistor R3, the other end of the resistor R3 is connected to the fifth pin of the control chip U1, one end of the capacitor C4 is grounded, and the other end is respectively connected to the third pin of a triode Q5 and the third pin of a triode Q1, the eighth pin of the control chip U1 is respectively connected to the third pin and the sixth pin of the connector JP1, the seventh pin of the control chip U1 is connected to the third pin of the connector JP1, the sixth pin of the control chip U1 is grounded, the third pin and the fourth pin of the control chip U1 are respectively connected to the first pin of the connector JP1, the second pin of the control chip U1 is connected to the second pin of the connector JP1, the first pin of the connector JP1 is respectively connected to the cathode of the diode D2 and the anode of the capacitor C1, the anode of the diode D2 and the cathode of the capacitor C1 are grounded, the anode of the diode D1 is connected to one end of the resistor R1, and the other end of the resistor R1 is connected to the input voltage, one end of the resistor R2 is grounded, and the other end of the resistor R2 is connected to the anode of the neon tube N-LD, the cathode of the neon tube N-LD is connected to the input voltage.

A time adjusting circuit is arranged on the first circuit board, the time adjusting circuit comprises a control chip U2, a capacitor C5, a diode D3, a rotary switch SW1 and a connector JP2, the first pin of the control chip U2 is connected to the third pin of the connector JP2, the second pin of the control chip U2 is grounded, the third pin of the control chip U2 is connected to the third pin of the rotary switch SW1, the fourth pin of the control chip U2 is connected to the first pin of the rotary switch SW1, the fifth pin of the control chip U2 is connected to the input voltage, the sixth pin of the control chip U2 is connected to the sixth pin of the rotary switch SW1, the seventh pin of the control chip U2 is connected to the fourth pin of the rotary switch SW1, the eighth pin of the control chip U2 is unconnected, the ninth pin of the control chip U2 is connected to the first pin of the connector JP2, the tenth pin of the control chip U2 is connected to the second pin of the connector JP2, one end of the diode D3 is connected to the first pin of the connector JP2, and the other end of the diode D3 is connected to the anode and input voltage of the capacitor C5, the cathode of the capacitor C5 is grounded, the second pin and the fifth pin of the rotary switch SW1 are grounded.

Above disclosure are merely some preferred embodiments of the present invention, and the present invention is not limited thereto. Any variations, equivalent replacement and modifications under the spirit and principle of the present invention shall be covered within the scope of the present invention.

Claims

1. A time switch of controllable time adjustment, comprising: a switch housing,a control circuit board,an input terminal,an output terminal,a connecting piece,a first spring,a warped plate, andan electromagnet; whereinthe control circuit board is arranged inside the switch housing and electrically connected to the electromagnet and the output terminal; the control circuit board is configured to control the electromagnet to be powered on according to a turn-off time preset by the control circuit board;the electromagnet is configured to push the warped plate;the warped plate configured to bend the first spring is connected to the switch housing by means of a rotating shaft;the first spring is provided between the warped plate and the connecting piece to enable the warped plate to sway around the rotating shaft and drive the connecting piece to sway;the connecting piece is configured to connect the input terminal and the output terminal;the input terminal and the output terminal are arranged on a bottom surface of the switch housing; the swaying of the connecting piece causes the input terminal and the output terminal to complete closing and opening, such that the time switch is turned on and off.

2. The time switch of claim 1, wherein the control circuit board comprises a microcontroller configured to control the electromagnet to be powered on according to the turn-off time.

3. The time switch of claim 1, wherein the time switch further comprises a timing rotary switch electrically connected with the control circuit board.

4. The time switch of claim 3, wherein the timing rotary switch comprises a first circuit board, a rotary switch, a rotary knob and a case; a circular hole is arranged on a top surface of the case; the rotary knob is exposed out of the case through the circular hole for rotation; the rotary switch is set on the first circuit board; the rotary knob is sleeved on a rotary shaft of the rotary switch; and the first circuit board is electrically connected with the control circuit board by a plug wire.

5. The time switch of claim 4, wherein the time switch further comprises a waterproof rubber ring arranged inside the switch housing; and the waterproof rubber ring is provided between the warped plate, the connecting piece and the control circuit board.

6. The time switch of claim 5, wherein the time switch further comprises a bottom cover connected to the switch housing of the time switch via a buckle.

7. The time switch of claim 6, wherein an opening is provided on a top surface of the warped plate; a lamp cover is clamped in inner of the opening.

8. The time switch of claim 1, wherein the electromagnet comprises a copper coil, a coil framework, a second spring, a terminal and an iron core; the second spring is sleeved on the iron core, the iron core is arranged inside the coil framework, the copper coil is wound and sleeved on the coil framework; the terminal is provided on the coil framework; and the copper coil is electrically connected to the terminal.