CN211090081U - Multifunctional integrated control device - Google Patents

Abstract

The utility model belongs to the technical field of the lamp cluster switch technique and specifically relates to indicate a collection multi-functional integrative controlling means, insert before the nonpolarity high pressure, the extension line, have polarity high pressure tail insert and be used for connecing many jacks with many sets of lamp cluster connections, insert before the nonpolarity high pressure and insert through extension line electric connection with polarity high pressure tail, the extension line is connected with the function key module that is used for carrying out mode switch to many sets of lamp cluster. The utility model discloses can insert one set or many sets of lamp cluster through one and connect many jacks, through the plug-in connection AC high voltage power supply before the nonpolarity high pressure, realize the remote function of supplying power to one set or many sets of lamp cluster through the extension line, realize that the many sets of lamp cluster of a control open the bright lamp simultaneously through the function key module, the mode switch of the lamp that goes out is changed and closed to the function, need not additionally to control a plurality of control switch button, reach unified management lamp cluster state, the effect of unified switching lamp cluster mode, and the cover number of the lamp cluster of conveniently increasing and decreasing.

Description

Multifunctional integrated control device

Technical Field

The utility model belongs to the technical field of the lamp cluster switch technique and specifically relates to indicate a control device who collects multi-functional an organic whole.

Background

The conventional set of light string is provided with a control switch button, but when the light string is purchased and used by a user, a plurality of sets of light strings are often combined for use, so that when the plurality of sets of light strings are required to be controlled for function conversion, the control switch buttons corresponding to the light strings are required to be controlled one by one, and the setting is troublesome; in addition, the existing lamp has only two functions of on and off, and the function is single.

Disclosure of Invention

The utility model discloses problem to prior art provides a collection multi-functional integrative controlling means.

The utility model adopts the following technical scheme: the utility model provides a collect multi-functional integrative controlling means, inserts before the nonpolarity high pressure, extension line, has polarity high pressure to insert and be used for the one that is connected with many sets of lamp cluster to connect many jacks, inserts before the nonpolarity high pressure and has polarity high pressure to insert through extension line electric connection with the tail, and the extension line is connected with and is used for carrying out the function key module of mode switch to many sets of lamp cluster.

Furthermore, the multifunctional integrated control device further comprises a Bluetooth module, and the Bluetooth module is connected with the function key module.

Furthermore, the multifunctional integrated control device further comprises a WiFi module, and the WiFi module is connected with the function key module.

Furthermore, the multifunctional integrated control device also comprises a timing module, and the timing module is connected with the function key module.

Further, the function KEY module comprises a first alternating current connection port, a main control chip U2, a KEY KEY1 and a thyristor Q1, wherein a first input end of the main control chip U2 is connected with the nonpolar high-voltage front plug through the first alternating current connection port, a second input end of the main control chip U2 is connected with the KEY KEY1 in series and then grounded, an output end of the main control chip U2 is connected with a control end of the thyristor Q1, and a switching end of the thyristor Q1 is connected with an input end connected with a plurality of jacks.

Further, the function KEY module comprises a second alternating current connection port, a main control chip U3, a KEY KEY2, a thyristor Q2, a remote controller and a first remote control receiving module for receiving signals sent by the remote controller, a first input end of the main control chip U3 is connected with the non-polar high-voltage front plug through the second alternating current connection port, a second input end of the main control chip U3 is connected with the KEY KEY2 in series and then is grounded, and a third input end of the main control chip U3 is connected with an output end of the first remote control receiving module; the output end of the main control chip U2 is connected with the control end of the thyristor Q2, and the switch end of the thyristor Q2 is connected with the input end of the multi-jack.

Further, the first remote control receiving module comprises an RF module chip, and an output end of the RF module chip is connected to a third input end of the main control chip U3.

Further, the remote controller comprises a switch button input chip U4, an antenna chip U5 and at least one switch button, wherein the output end of each switch button is connected with the input end of the switch button input chip U4, the output end of the switch button input chip U4 is connected with the input end of the antenna chip U5, the output end of the antenna chip U5 is connected with an antenna, and the antenna is in signal connection with the RF receiving module.

Further, the function key module comprises a third alternating current connection port, a conversion circuit for converting alternating current into direct current, a key SW1, a main control chip U1, a triode Q1, a triode Q2, a triode Q3, a triode Q4 and a second remote control receiving module, wherein the input end of the conversion circuit is connected with a non-polar high-voltage front plug through the third alternating current connection port, the output end of the conversion circuit is connected with the input end of the main control chip U1, the main control chip U1 comprises a first output end L1 and a second output end L, the first output end L is connected with the base of the triode Q4, the second output end L is connected with the base of the triode Q2, the collector of the triode Q4 is connected with the base of the triode Q1, the collector of the triode Q5 is connected with the base of the triode Q3, the collector of the triode Q4 is connected with one of the input end connected with multiple jacks, the collector of the triode Q2 is connected with the other input end connected with the key SW 6342, and the second remote control chip is connected with the receiving end of the main control chip U1.

The utility model has the advantages that: the utility model discloses can insert one set or many sets of lamp cluster through one and connect many jacks, insert before through nonpolarity high pressure and connect alternating current power supply, realize the remote function of supplying power to one set or many sets of lamp cluster through the extension line, realize that many sets of lamp cluster of a control open the bright lamp simultaneously through the function key module, the mode switch of going out the lamp is changed and closed to the function, need not additionally to control a plurality of control switch button, reach unified management lamp cluster state, the effect of unified lamp cluster switching mode, and the cover number of the lamp cluster of conveniently increasing and decreasing.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of the present invention.

Fig. 2 is a schematic circuit diagram according to a first embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a second embodiment of the present invention.

Fig. 4 is a schematic circuit diagram of a second embodiment of the present invention.

Fig. 5 is a schematic circuit diagram of a third embodiment of the present invention.

Fig. 6 is a schematic circuit diagram of the remote controller according to the third embodiment of the present invention.

The reference signs are: 1-non-polar high-voltage front insertion; 2-an extension line; 3-a function key module; 4-polar high-voltage tail insertion; 5-a remote controller; 6-a third ac electrical connection port; 7-a conversion circuit; 8-a first ac electrical connection port; 9-a second ac electrical connection port; 10-a first remote control receiving module; 11-a second remote control receiving module.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention. The present invention will be described in detail with reference to the accompanying drawings.

The first embodiment.

As shown in fig. 1 to 2, a multifunctional integrated control device comprises a non-polar high-voltage front plug 1, an extension cord 2, a polar high-voltage tail plug 4 and a multi-jack socket for connecting with multiple sets of light strings, wherein the non-polar high-voltage front plug 1 and the polar high-voltage tail plug 4 are electrically connected through the extension cord 2, and the extension cord 2 is connected with a functional key module 3 for switching modes of the multiple sets of light strings.

The utility model discloses can insert one set or many sets of lamp cluster through one connect many jacks (not drawn in the picture), insert 1 connection alternating current power supply before through nonpolarity high pressure, realize the remote function of supplying power to one set or many sets of lamp cluster through extension line 2, realize that many sets of lamp cluster of a control open the bright lamp simultaneously through function key module 3, the function changes and closes the mode switch that goes out the lamp, need not additionally to control a plurality of control switch button, reach unified management lamp cluster state, the unified effect of switching lamp cluster mode, and the cover number of convenient lamp cluster increase and decrease.

In this embodiment, the control device integrating multiple functions further includes a bluetooth module, and the bluetooth module is connected with the function key module 3. Therefore, the Bluetooth module can be connected and matched with mobile equipment with a Bluetooth function, such as a mobile phone, so that the function of switching the modes of the plurality of sets of lamp strings under the Bluetooth wireless control is realized.

In this embodiment, the control device integrating multiple functions further includes a WiFi module, and the WiFi module is connected to the function key module 3. Therefore, the WiFi module can be connected with mobile equipment with a WiFi function, such as a mobile phone, so that the effect of WiFi wireless control on mode switching of multiple sets of lamp strings is realized.

In this embodiment, the control device integrating multiple functions further includes a timing module, and the timing module is connected to the function key module 3. The timing module is used for setting the timing on or timing off time of a plurality of sets of light strings.

As shown in FIG. 2, the function KEY module 3 comprises a first alternating current connection port 8, a main control chip U2, a KEY KEY1 and a thyristor Q1, a first input end of the main control chip U2 is connected with a non-polar high-voltage front plug through the first alternating current connection port 8, a second input end of the main control chip U2 is connected with the KEY KEY1 in series and then grounded, an output end L1 of the main control chip U2 is connected with a control end of the thyristor Q1, a switch end of the thyristor Q1 is connected with an input end connected with a plurality of jacks, power is directly supplied to a light string through alternating current, the KEY KEY1 serves as a function selection KEY and inputs signals to the main control chip U2, n function modes are stored in the main control chip U2, a function mode is selected according to pressing the KEY KEY1, the main control chip U2 outputs corresponding function modes, the function modes comprise one or more sets of light strings which are lighted, one or more sets of light strings which are gradually lighted, color changes of one set of light strings and all sets of light strings which are used for controlling the power-off of the LED string through a set of the master control chip before the LED string, the LED string oscillation mode is switched on, the LED lamp string is switched on the LED lamp string, the LED lamp string is switched on the LED lamp string, the LED lamp is switched on the LED lamp string, the LED lamp string is switched on the LED.

Example two.

As shown in fig. 3 and 4, unlike the first embodiment, the function KEY module 3 includes a second ac electrical connection port 9, a main control chip U3, a KEY2, a thyristor Q2, a remote controller 5, and a first remote control receiving module 10 for receiving a signal transmitted from the remote controller 5,

a first input end of the main control chip U3 is connected with the non-polar high-voltage front plug 1 through a second alternating current connection port 9, a second input end of the main control chip U3 is connected with the KEY KEY2 in series and then grounded, and a third input end of the main control chip U3 is connected with an output end of the first remote control receiving module 10;

the output end of the main control chip U2 is connected with the control end of the thyristor Q2, and the switch end of the thyristor Q2 is connected with the input end of the multi-jack.

The LED lamp string power supply system comprises a main control chip U3, a plurality of functional modes are stored in the main control chip U3, n functional modes are stored in the main control chip U3, the main control chip U3 outputs corresponding functional modes according to the times of pressing the KEY KEY1 as distinguishing signals, the functional modes comprise that one or more sets of lamp strings are lightened, one or more sets of lamp strings are gradually lightened, the color change of one or more sets of lamp strings is gradually lightened, and all lamp strings are fully lightened, a ZC input end of the main control chip U3 is used as an IC vibration starting pin and is used for giving an oscillation frequency to the main control chip U3, a driving signal is output through an output end L of the main control chip U3, so that the thyristor Q2 is controlled to switch different functional modes, the functional mode change of one or more sets of lamp strings is controlled, for example, the output end of L outputs high potential, the thyristor Q2 controls L and L2 to be lightened simultaneously, the output end of the thyristor Q8 controls L and L and the thyristor L and the function of the thyristor is controlled to be simultaneously, the power-off, and the current set of the lamp string can be controlled by a plurality of memory switch without power-off function of the master control switch.

In addition, a corresponding instruction is input by pressing the remote controller 5, the instruction is sent to the first remote control receiving module 10 by the remote controller 5 to be received, the instruction is received by the first remote control receiving module 10, the instruction is decoded by the main control chip U3, and the thyristor Q2 is controlled by the output end L1 of the main control chip U3 to switch different working modes, so that the functional modes of wirelessly and remotely controlling one or more sets of lamp strings are changed simultaneously.

In this embodiment, the first remote control receiving module 10 includes an RF module chip, and output terminals of the RF module chip are respectively connected to the third input terminal of the main control chip U3. The RF module chip may be a prior art one

As shown in fig. 4, in the present embodiment, the remote controller 5 includes a switch button input chip U4, an antenna chip U5, and at least one switch button, an output terminal of each switch button is connected to an input terminal of the switch button input chip U4, an output terminal of the switch button input chip U4 is connected to an input terminal of the antenna chip U5, an output terminal of the antenna chip U5 is connected to an antenna, and the antenna is in signal connection with a receiving circuit. As shown in fig. 4, specifically, the number of the switch buttons is 15, and through a combination of closing any one of the keys K1-K10 and instantaneously closing any one of the keys a-E, a corresponding command is coded and sent by the switch button input chip U4 and sent out by the antenna chip U5. And then one or more sets of light strings are controlled to carry out mode switching, so that the function of intuitively and remotely controlling the plurality of sets of light strings is achieved.

Example three.

As shown in fig. 5 and fig. 6, unlike the first and second embodiments, in this embodiment, the function key module 3 includes a third ac electrical connection port 6, a conversion circuit 7 for converting ac power into dc power, a key SW1, a main control chip U1, a transistor Q1, a transistor Q2, a transistor Q3, a transistor Q4, and a second remote control receiving module,

the input end of the conversion circuit 7 is connected with the non-polar high-voltage front plug through a third alternating current connection port 6, the output end of the conversion circuit 7 is connected with the input end of the main control chip U1,

the main control chip U1 includes a first output end L1 and a second output end L2, the first output end L1 is connected to the base of a transistor Q4, the second output end L2 is connected to the base of a transistor Q2, the collector of the transistor Q4 is connected to the base of the transistor Q1, and the collector of the transistor Q2 is connected to the base of the transistor Q3;

the collector of the transistor Q4 is used for being connected with one input end of the one-to-multiple jacks, and the collector of the transistor Q2 is used for being connected with the other input end of the one-to-multiple jacks; the key SW1 is connected with the function input end of the main control chip U1; the second remote control receiving module 11 is connected with a signal receiving end of the main control chip U1. The conversion circuit 7 converts alternating current into direct current to realize direct current power supply of the light string, specifically, the KEY SW1 is used as a function selection KEY to be connected with the function input end KEY1 of the main control chip U1 to input function signals to the main control chip U1,

the main control chip U1 stores n function modes, the main control chip U1 outputs corresponding function modes according to the number of times of pressing a key SW1 as distinguishing signals, and the function modes comprise functions of lightening one or more sets of lamp strings, gradually darkening one or more sets of lamp strings, color change of one or more sets of lamp strings and full lightening of all lamp strings, the main control chip U1 sends out driving signals through a first output end L and a second output end L to correspondingly output high level or low level, and respectively controls a triode Q1, a triode Q2, a triode Q3 and a triode Q4 to be switched on or switched off, so that level change of two input ends connected with multiple jacks is realized, so that function mode change of one or more sets of lamp strings is controlled, decoration of the lamp strings is increased, and the multiple sets of lamp strings are controlled without controlling multiple control switch buttons, use is convenient, high efficiency is achieved, the main control chip U1 has a memory function, namely when power failure occurs, the one or more sets of lamp strings are in which function mode before power failure, the power supply function is recovered, the main control chip U1 can receive remote control signals through a remote control signal receiving circuit RX 24 before the remote control of the remote control chip.

The above is only a preferred embodiment of the present invention, and the present invention is not limited to the above embodiments, and although the present invention is disclosed as above with preferred embodiments, but not limited to the present invention, any skilled person in the art can make some changes or modifications to equivalent embodiments without departing from the technical scope of the present invention, and all the technical contents of the present invention do not depart from the technical scope of the present invention.

Claims (9)

1. The utility model provides a collection multi-functional integrative controlling means which characterized in that: insert (1) before the nonpolarity high pressure, extension line (2), have polarity high pressure tail to insert (4) and be used for connecing many jacks with what many sets of lamp cluster were connected, insert (1) before the nonpolarity high pressure and have polarity high pressure tail to insert (4) through extension line (2) electric connection, extension line (2) are connected with and are used for carrying out mode switch's function key module (3) to many sets of lamp cluster.

2. The multifunctional integrated control device as claimed in claim 1, wherein: the multifunctional integrated control device further comprises a Bluetooth module, and the Bluetooth module is connected with the function key module (3).

3. The multifunctional integrated control device as claimed in claim 1, wherein: the multifunctional integrated control device further comprises a WiFi module, and the WiFi module is connected with the function key module (3).

4. The multifunctional integrated control device as claimed in claim 1, wherein: the multifunctional integrated control device also comprises a timing module, and the timing module is connected with the function key module (3).

5. The multifunctional integrated control device as claimed in claim 1, wherein: the function KEY module (3) comprises a first alternating current connection port (8), a main control chip U2, a KEY KEY1 and a thyristor Q1, wherein a first input end of the main control chip U2 is connected with the nonpolar high-voltage front plug (1) through the first alternating current connection port (8), a second input end of the main control chip U2 is connected with the KEY KEY1 in series and then is grounded,

the output end of the main control chip U2 is connected with the control end of the thyristor Q1, and the switch end of the thyristor Q1 is connected with the input end of the multi-jack.

6. The multifunctional integrated control device as claimed in claim 1, wherein: the function KEY module (3) comprises a second alternating current connection port (9), a main control chip U3, a KEY KEY2, a thyristor Q2, a remote controller (5) and a first remote control receiving module (10) for receiving signals sent by the remote controller (5), a first input end of the main control chip U3 is connected with the nonpolar high-voltage front plug (1) through the second alternating current connection port (9), a second input end of the main control chip U3 is connected with the KEY KEY2 in series and then is grounded, and a third input end of the main control chip U3 is connected with an output end of the first remote control receiving module (10); the output end of the main control chip U2 is connected with the control end of the thyristor Q2, and the switch end of the thyristor Q2 is connected with the input end of the multi-jack.

7. The multifunctional integrated control device as claimed in claim 6, wherein: the first remote control receiving module (10) comprises an RF module chip, and the output end of the RF module chip is connected with the third input end of the main control chip U3.

8. The multifunctional integrated control device as claimed in claim 7, wherein: the remote controller (5) comprises a switch button input chip U4, an antenna chip U5 and at least one switch button, wherein the output end of each switch button is connected with the input end of the switch button input chip U4, the output end of the switch button input chip U4 is connected with the input end of the antenna chip U5, the output end of the antenna chip U5 is connected with an antenna, and the antenna is in signal connection with an RF receiving module.

9. The multifunctional integrated control device according to claim 1, wherein the function key module (3) comprises a third AC connection port (6), a conversion circuit (7) for converting AC into DC, a key SW1, a master control chip U1, a transistor Q1, a transistor Q2, a transistor Q3, a transistor Q4 and a second remote control receiving module, an input end of the conversion circuit (7) is connected with the nonpolar high-voltage front plug through the third AC connection port (6), an output end of the conversion circuit (7) is connected with an input end of the master control chip U1, the master control chip U1 comprises a first output end L and a second output end L, the first output end L is connected with a base of the transistor Q4, the second output end 42 is connected with a base of the transistor Q2, a collector of the transistor Q4 is connected with a base of the transistor Q1, a collector of the transistor Q635 is connected with the base of the transistor Q3, a collector of the key Q4 is connected with a plurality of jacks, a collector of the key plug is connected with a collector of one of the other plug, a collector of the key SW1 is connected with a collector of the master control chip U599 and a signal receiving end of the master control chip U599 is connected with a plurality of jacks.

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