CN107062133B - Wireless control's portable stage lamp performance system - Google Patents

Abstract

The patent relates to the technical field of stage lighting and discloses a wireless control movable stage lamp performance system, which comprises a wireless communication assembly, a Williams transmission system, a movable power supply assembly and a stage lamp, wherein the wireless communication assembly is respectively connected with the movable power supply assembly and the stage lamp and is used for receiving and transmitting control signals; the Williams transmission system is used for hanging the mobile power supply assembly and the stage lamp and driving the mobile power supply assembly and the stage lamp to slide along the Williams steel wire; the mobile power supply assembly is connected with the wireless communication assembly and the stage lamp and is used for supplying power. The utility model provides a not only realized hanging stage lamps and lanterns on the wei ya steel wire to can wholly follow wei ya steel wire and freely slide controllably, and overcome effectively and used but the inconvenient problem of power supply to stage lamps and lanterns in special occasion, have application range wide, loading and unloading simple, convenient to use, advantage such as the security is higher.

Description

Wireless control's portable stage lamp performance system

Technical Field

The patent relates to the technical field of stage lighting, and more particularly relates to a wireless control movable stage lamp performance system.

Background

The application of stage lighting in modern performances is quite extensive, and is one of the means of stage art modeling. The stage lighting equipment and the technical means are used for baking stage effect during performance, the light color and the change thereof are used for displaying environment, rendering atmosphere and highlighting central characters along with the development of the drama during performance, the stage space sense and the time sense are created, the external image of the stage performance is molded, and the performance atmosphere is fully scheduled. In the traditional stage lighting application occasions, a stage lamp is generally fixed on a stage lamp bracket, and an external power supply is connected with the stage lamp through a power line to supply power in a wired control mode. Therefore, it is necessary to install a stage lamp holder for fixing a special device, and to install a fixed switch and wiring on a specific stage. Once the wiring and the installation are finished, the position of the stage lamp is difficult to change, and the movable stage also needs to be re-wired and disassembled, so that the use of the stage lamp is particularly complicated and inconvenient, and the setting of the stage lamp is fixed and dead, so that the corresponding stage effect cannot be achieved.

However, with expansion of stage occasions, stage lamps are not only used indoors and in theatres, but also widely used in outdoor venues. The novel performance stages are built in places far away from power supply, in some oversized performance occasions, in order to meet the design requirements of lamplight operators, some stages are built in special places such as sky, lake surface, desert, mountain and forest, in the special occasions, the stage lamps need to be hung in midair, the difficulty is increased for fixing stage lamps and connecting the stage lamps with mains supply to obtain power, and even the stage lamps cannot be flexibly hung for use or connected with the mains supply to obtain power, so that the use of the stage lamps on the stages is greatly limited, and the stage effect is seriously affected. The conventional wired stage lamp connection system cannot meet the requirement of the special stadium, so that a wireless power supply and movable stage lamp is needed.

Disclosure of Invention

This patent aims at solving above-mentioned current stage lamp and uses place and power supply, the limitation problem of communication, provides a portable stage lamp performance system of wireless control.

The technical scheme that this patent adopted is as follows:

the wireless communication assembly is respectively connected with the mobile power supply assembly and the stage lamp and is used for receiving and transmitting control signals; the Williams transmission system is used for hanging the mobile power supply assembly and the stage lamp and driving the mobile power supply assembly and the stage lamp to slide along the Williams steel wire; the mobile power supply assembly is connected with the wireless communication assembly and the stage lamp and is used for supplying power.

The utility model discloses a mobile power supply assembly and stage lamps and lanterns will be hung on the stage arranges the preset weiya steel wire through weiya transmission system is indirect, has both realized the suspension arrangement of stage lamps and lanterns, and the inconvenient problem of place power supply has also been solved to mobile power supply assembly follow-up mode in addition, and wireless communication assembly's signal transceiver action satisfies the all-round accuse that the user was preset along weiya steel wire's removal, the effect of light and electric quantity to stage lamps and lanterns, provides the advantage for the nimble stage lamp arrangement of adaptation multiple special occasion.

Further, the Weiya transmission system comprises a pulley block, a connecting plate, a motor and Weiya steel wires, wherein the pulley block is arranged on the connecting plate, the connecting plate is connected with the mobile power supply unit and the stage lamp, the Weiya steel wires are wound around the pulley block to realize hanging and sliding, and the motor is connected with the Weiya steel wires and used for starting the telescopic movement of the Weiya steel wires under the control of a control console.

The Weiya transmission system is a transmission piece of the device, the motor is connected with the Weiya steel wire, the motor is controlled to start through the control console, the Weiya steel wire is controlled to stretch and retract, the mobile power supply assembly and the stage lamp are indirectly driven to slide along the Weiya steel wire, and the flying effect of the stage lamp and the flying effect of lamplight are achieved. In addition, the wire is wound around the pulley block, so that the friction force between the wire and the pulley block is further reduced, and smooth movement of the stage lamp is facilitated.

The pulley block comprises four pulleys which are arranged in a V shape, so that the stability of hanging connection with the Weiya steel wire is further improved, and the effect of light is prevented from being influenced by inclination in the sliding process.

Further, the wireless communication assembly includes a first wireless communication element, a second wireless communication element, an interlock circuit and a DMX element, when a command needs to be sent, the first wireless communication element and the second wireless communication element perform interlock control by using the interlock circuit, so as to achieve the purpose of alternatively determining whether the first wireless communication element or the second wireless communication element sends the command, and the DMX element is used for receiving a signal or outputting the command.

In order to improve the reliability of wireless communication, the patent adopts two independent wireless communication elements, wherein a first wireless communication element is used as a main communication element, a second wireless communication element is used as a backup communication element, and the two wireless communication elements both receive commands from a console at the same time, but only the first wireless communication element outputs commands to the DMX element under normal conditions, and when the first wireless communication element has unsmooth command output or fails, the interlocking circuit carries out interlocking control to switch to the backup second wireless communication element for command output. The redundancy design in hardware improves the reliability of wireless communications.

Further, the wireless communication assembly also includes a display that facilitates manual monitoring of the operating conditions of the present patent to make appropriate control adjustments.

Further, the mobile power supply assembly comprises a rechargeable battery and an inverter, the rechargeable battery is connected with an external power supply through a charging control circuit to obtain electricity, one end of the inverter is connected with the rechargeable battery, and the other end of the inverter is respectively connected with the stage lamp and the wireless communication assembly to supply power to the stage lamp and the wireless communication assembly.

When the charging control circuit is communicated with an external power supply, the rechargeable battery can be charged. Therefore, when the stage arrangement place is inconvenient to supply power, the mobile power supply assembly which is charged in advance can be used, wherein the inverter can output the electric energy of the rechargeable battery as alternating current so as to meet the requirements of the stage lamp and the wireless communication assembly.

Further, the mobile power supply assembly further comprises a battery manager, one end of the battery manager is connected with the wireless communication assembly and used for receiving a command or outputting a signal, and the other end of the battery manager is connected to the charging control circuit and used for controlling the charging mode of the rechargeable battery to be started.

The battery manager is used for receiving relevant information of the rechargeable battery, including electric quantity, power supply on-off and the like, sending the relevant information to the wireless communication assembly so as to feed back relevant use information of the mobile power assembly to the control console, receiving a control command output by the wireless communication assembly so as to realize adjustment of a control power consumption mode, and automatically controlling to stop a charging mode according to whether the rechargeable battery is charged and saturated or not.

Further, the mobile power supply assembly further comprises an indicator lamp used for prompting the power utilization state. The indicator lamp is used for prompting the power utilization state. The setting of pilot lamp can let the user know more directly perceivedly the power consumption or the condition of charging of portable power source subassembly to the time and the charge time of outdoor use stage lamps and lanterns of convenient to use according to remaining capacity control avoid appearing emergency or waste electric energy resource because of the electric quantity of initial charge is spent.

Further, the first wireless communication element and the second wireless communication element are respectively a Bluetooth wireless communication element or a WIFI wireless communication element or a 3G wireless communication element or a 4G wireless communication element, so that the wireless module is ensured to have a communication distance of 300 meters or more and has stronger anti-interference capability.

Because this patent is applicable to stage arrangement under the special occasion, therefore further, stage lamps and lanterns are more suitable for the use in corresponding stage place for waterproof stage lamps and lanterns, can even deal with outdoor sudden rainfall, fog etc. bad weather.

Because the motor-driven Williams wire drives the flying of the pulley assembly, purely mechanical control is adopted, because the stage emphasizes the consistency of performance, each motor-driven stage lamp always has a certain error, when the running time is long, a relatively obvious height error can be generated, at this time, the displacement sensor arranged on the pulley block can judge the moving distance of the pulley, and when each displacement sensor senses that the distance is different, the telescopic action of the motor to the Williams wire can be controlled by the control console.

In addition, due to the adoption of pure mechanical control, after the pulley block and the steel wire or the motor and the steel wire run for a long time, the problem that the stage lamp is not on an expected plane is solved, when the inclination sensor senses that the stage lamp exceeds a preset gesture or angle, the motor is controlled to regulate and control a small distance, so that gesture deviation or angle deviation caused by the problem of the pause is solved.

Further, in order to solve the convenience of charging, still include the wireless charging system of battery for portable power source subassembly charges, it includes electric energy emission module and electric energy receiving charging module, electric energy receiving charging module with portable power source subassembly links to each other.

Further, the electric energy transmitting module and the electric energy receiving and charging module are charged in a magnetic resonance mode, the number of the electric energy transmitting modules is n, the number of the electric energy receiving and charging modules is 2n, and a single electric energy transmitting module corresponds to two electric energy receiving and charging modules for charging.

Further, the electric energy transmitting module and the electric energy receiving module can rotate relatively, and when the electric energy receiving module is charged and saturated, the electric energy receiving module rotates to charge the other group of electric energy receiving and charging modules.

The wireless charging system of battery is because of prior art restriction, and single group charging energy can only reach about 15W at most, but battery power supply system is high-power supply, uses the scheme of rotatory group wireless charging to this problem this patent: when the electric energy receiving and charging module is charged and saturated, the electric energy transmitting module and the electric energy receiving and charging module rotate relatively, so that the next electric energy receiving and charging module is charged, the electric energy receiving and charging module which is charged and saturated before can discharge the battery power supply system, the time difference between charging and discharging is fully utilized, the defect of slower magneto-electric conversion is overcome, and the charging efficiency is greatly improved.

Compared with the prior art, this patent uses through the cooperation of wireless communication subassembly, portable power source subassembly, weiya transmission system and stage lamps and lanterns, has not only realized hanging stage lamps and lanterns indirectly on weiya steel wire to can wholly follow weiya steel wire controllable free slip, thereby should build the stage demand at special occasion, hang in the sky and according to the design requirement of light artist, stage effect and nimble removal, still solved the inconvenient problem of stage lamps and lanterns power supply at special occasion through using mobilizable charging source, make stage lamps and lanterns can satisfy the use in arbitrary place. In addition, this patent adopts the complementary wireless communication mode of two wireless communication components, has avoided the reliance to single communication component, has improved wireless communication's reliability, has solved traditional lamps and lanterns limitation and communication effect poor, easily receive the problem of interference, satisfies and uses at the long-range wireless control of half sky. The novel multifunctional safety belt has the advantages of wide application range, simplicity in assembly and disassembly, convenience in use, higher safety and the like.

Drawings

Fig. 1 is a partial schematic view of the present patent.

Fig. 2 is a logic schematic diagram of the present patent.

Fig. 3 is a schematic diagram of the operation of the battery wireless charging system of the present patent.

Fig. 4 is a schematic diagram of the power receiving and charging module of the present patent.

Fig. 5 is a schematic diagram of the power emission module of the present patent.

Wherein: 100 Weiya steel wires, 110 pulley blocks, 120 connecting plates, 200 mobile power supply components, 210 indicator lamps and 300 stage lamps.

Detailed Description

To further illustrate the structure and operation of this patent, the following examples of which are given in further detail. Wherein the drawings are for illustrative purposes only and are schematic representations, not physical figures, and are not to be construed as limiting the present patent.

The embodiment discloses a wireless control's portable stage lamp performance system, including wireless communication subassembly, weiya transmission system, portable power source subassembly and stage lamps and lanterns. As shown in fig. 1, one side of the portable power source assembly 200 is connected to the wilson transmission system, and the other side is connected to the stage light fixture 300, and the wilson transmission system is used to hang on a wilson steel wire.

The wire drive system comprises a pulley block 110, a connecting plate 120, a motor (not shown in the figure) and a wire 100, wherein the pulley block 110 is mounted on the connecting plate 120, and the wire 100 is wound around the pulley block 110. The connection board 120 is connected with the portable power source set 200 and the stage lamp 300, the wire 100 is wound around the pulley block 110 to realize hanging and sliding, and the motor is connected with the wire 100 and used for starting the telescopic movement of the wire 100 under the control of the console.

As shown in fig. 2, the portable power source module 200 includes a charge control circuit, an inverter, a rechargeable battery, and a battery manager. The inverter, the rechargeable battery and the battery manager are connected through the charging control circuit, and one end of the charging control circuit can be connected with an external power supply to charge the rechargeable battery. The inverter is respectively connected with the wireless communication assembly and the stage lamp and provides alternating current for the stage lamp. The battery manager is connected with the wireless communication assembly, and is used for receiving relevant information of the rechargeable battery, including electric quantity, power supply on-off and the like, sending the relevant information to the wireless communication assembly so as to feed back relevant use information of the mobile power supply assembly to a console, receiving a control command output by the wireless communication assembly so as to realize adjustment of a power utilization mode, and automatically controlling a charging stopping mode according to whether the rechargeable battery is charged and saturated or not.

Further, the rechargeable battery is a battery pack formed by connecting a plurality of rechargeable lithium batteries. Because the wireless communication assembly and the stage lamp are required to be powered at the same time, the rechargeable battery needs larger capacitance, and the battery pack formed by a plurality of batteries can meet the requirement of electricity consumption. Further, the battery is a rechargeable lithium battery. The lithium battery has the advantages of no memory effect, small volume and large capacitance, and is suitable for the application of the patent.

In addition, as shown in fig. 1, the portable power source assembly 200 further includes an indicator lamp 210, and when the rechargeable battery is saturated, the indicator lamp 210 lights up a green light; when the electric quantity of the rechargeable battery is less than 10%, the indicator lamp 210 is changed into a red lamp; the indicator light 210 may continuously flash while the charging process is ongoing.

As shown in fig. 2, the wireless communication assembly includes a first wireless communication element, a second wireless communication element, an interlock circuit, and a DMX element, where the first wireless communication element and the second wireless communication element are configured to receive a wireless signal given by a console, and the first wireless communication element and the second wireless communication element perform interlock control by using the interlock circuit and are connected to the DMX element, so as to alternatively determine whether the first wireless communication element or the second wireless communication element sends a command to the DMX element. When the wireless device needs to be controlled to be used in a severe environment, the communication element for receiving the wireless signal is often easily affected by the environment and even damaged, and the design of the main communication element and the backup communication element in the embodiment is matched, so that the dependence on a single communication element is avoided. The first wireless communication element is a main communication element, the second wireless communication element is a backup communication element, the first wireless communication element and the second wireless communication element receive wireless signals at the same time, and under the control of the interlocking circuit, only the first wireless communication element is used as the main communication element to transmit a command to the DMX element under the normal condition, but when the first wireless communication element fails or is not smooth in transmission, the interlocking circuit is triggered to start the interlocking control, and at the moment, the first wireless communication element and the second wireless communication element are switched to output the command to the DMX element, so that the smoothness and the reliability of wireless communication are ensured. As is clear from fig. 1, the DMX element is respectively connected to the battery manager and the stage light fixture 300, so that, on one hand, the command signal is output to control the power consumption of the portable power source assembly 200 and the lighting effect of the stage light fixture 300, and on the other hand, the DMX element can also receive the operation information from the portable power source assembly 200 and the stage light fixture 300, so as to feed back the operation information to the wireless communication element, and finally, the operation information is wirelessly transmitted to the console, thereby facilitating the user to control the embodiment. Preferably, the first wireless communication element and the second wireless communication element are respectively a bluetooth wireless communication element or a WIFI wireless communication element or a 3G wireless communication element or a 4G wireless communication element, so as to ensure that the wireless module has a communication distance of 300 meters or more and has stronger anti-interference capability.

The pulley block is provided with a displacement sensor for judging the moving distance of the pulley, and the displacement sensor is in signal connection with the wireless communication assembly; when the displacement sensor of the stage lamp senses that the distance exceeds a preset range, the control console controls the telescopic action of the Weiya steel wire through the control motor. The displacement sensor can be a Hall sensor for sensing the rotation number of the pulley or a sensor for sensing the moving distance of other pulleys, and the moving distance is the flying height or track of the stage lamp.

The stage lamp is also provided with an inclination sensor for sensing the posture or the angle of the stage lamp, and the inclination sensor is in signal connection with the wireless communication assembly; when the inclination sensor senses that the stage lamp exceeds a preset gesture or angle, the control console controls the motor to perform micro-distance regulation and control actions so as to solve gesture deviation or angle deviation caused by the pause feeling possibly generated after the Weiya steel wire and the pulley block or the motor are operated for a long time, and therefore the stage lamp can be kept to fly more consistently and more harmoniously on the stage.

As shown in fig. 3, 4 and 5, the wireless charging system further comprises a battery for charging the mobile power supply assembly, and the wireless charging system comprises an electric energy transmitting module and an electric energy receiving and charging module, wherein the electric energy receiving and charging module is connected with the mobile power supply assembly.

Further, the electric energy transmitting module and the electric energy receiving and charging module are charged in a magnetic resonance mode, the number of the electric energy transmitting modules is n, the number of the electric energy receiving and charging modules is 2n, and a single electric energy transmitting module corresponds to two electric energy receiving and charging modules for charging.

Further, the electric energy transmitting module and the electric energy receiving module can rotate relatively, and when the electric energy receiving module is charged and saturated, the electric energy receiving module rotates to charge the other group of electric energy receiving and charging modules.

The electric energy transmitting module is used for transmitting electric charge in the air between the charger and the equipment by utilizing magnetic resonance, the coil and the capacitor in the electric energy receiving and charging module are used for forming resonance between the equipment, the battery module is charged by realizing electric energy transmission, and outdoor application can be realized by disconnecting a power supply after full charging, so that power can be directly supplied to the wireless communication system and the Williams, and indirectly supplied to the stage lamp. However, due to the limitation of the prior art, the highest charging energy of a single group can only reach about 15W, but the battery power supply system is a high-power supply, and the scheme of rotary grouping wireless charging is used for the patent to solve the problem: as shown in fig. 4 and 5, in this embodiment, there are 4 power transmitting modules and 8 power receiving and charging modules, where one power transmitting module can charge corresponding to two power receiving and charging modules, and when the power receiving and charging modules are charged and saturated, the power transmitting module and the power receiving and charging modules rotate relatively, so as to charge the next power receiving and charging module, and the previously charged and saturated power receiving and charging module can discharge and charge the lithium battery pack, so that the time difference between charging and discharging is fully utilized, and the disadvantage of slow magneto-electric conversion is overcome, and the charging efficiency is greatly improved.

Because this patent is applicable to stage arrangement under the special occasion, consequently will stage lamps and lanterns set up to waterproof stage lamps and lanterns more are fit for the use in corresponding stage place, can deal with outdoor sudden rainfall, fog etc. bad weather even.

The foregoing is only a preferred embodiment of the present patent, and the scope of implementation of the present patent is not limited by this, and all technical solutions for implementing the purposes of the present patent by substantially the same means are within the scope of protection of the present patent.

Claims (10)

1. The wireless control movable stage lamp performance system is characterized by comprising a wireless communication assembly, a Williams transmission system, a movable power supply assembly and a stage lamp, wherein the wireless communication assembly is respectively connected with the movable power supply assembly and the stage lamp and is used for receiving and transmitting control signals; the Williams transmission system is used for hanging the mobile power supply assembly and the stage lamp and driving the mobile power supply assembly and the stage lamp to slide along the Williams steel wire; the mobile power supply assembly is connected with the wireless communication assembly and the stage lamp and is used for supplying power;

the Weiya transmission system comprises a pulley block, a connecting plate, a motor and Weiya steel wires, wherein the pulley block is arranged on the connecting plate, the connecting plate is connected with the mobile power supply unit and the stage lamp, the Weiya steel wires are wound around the pulley block to realize hanging and sliding, and the motor is connected with the Weiya steel wires and used for starting the telescopic movement of the Weiya steel wires under the control of a control console;

the pulley block is provided with a displacement sensor for judging the moving distance of the pulley, and the displacement sensor is in signal connection with the wireless communication assembly; when the displacement sensor of the stage lamp senses that the distance exceeds a preset range, the control console controls the telescopic action of the Weiya steel wire through the control motor;

the stage lamp is also provided with an inclination sensor for sensing the posture or the angle of the stage lamp, and the inclination sensor is in signal connection with the wireless communication assembly; when the inclination sensor senses that the stage lamp exceeds a preset gesture or angle, the console controls the motor to perform micro-distance regulation and control actions.

2. A wirelessly controlled movable stage lighting system according to claim 1, wherein the pulley block comprises four pulleys arranged in a V-shape.

3. A wirelessly controlled portable stage lighting performance system according to claim 1, wherein the wireless communication assembly includes a first wireless communication element, a second wireless communication element, an interlock circuit, and a DMX element for receiving signals or outputting commands, the first wireless communication element and the second wireless communication element being controlled to interlock by the interlock circuit when a command is required.

4. A wirelessly controlled mobile stage lighting system according to claim 3, wherein the wireless communication assembly further comprises a display.

5. A wirelessly controlled portable stage lighting system according to claim 1, wherein the portable power source assembly comprises a rechargeable battery and an inverter, the rechargeable battery is connected to an external power source via a charging control circuit to obtain power, one end of the inverter is connected to the rechargeable battery, and the other end of the inverter is connected to the stage lighting device and the wireless communication assembly, respectively, to supply power thereto.

6. A wirelessly controlled portable stage lighting performance system according to claim 5, wherein the portable power source assembly further includes a battery manager connected to the wireless communication assembly at one end for receiving commands or output signals and at the other end for accessing the charge control circuit for controlling the start of the charging mode of the rechargeable battery.

7. A wirelessly controlled portable stage lighting performance system according to claim 3, wherein the first and second wireless communication elements are bluetooth or WIFI or 3G or 4G wireless communication elements, respectively.

8. A wirelessly controlled portable stage lighting performance system according to claim 1, further comprising a battery wireless charging system for charging the portable power source assembly, including a power transmitting module and a power receiving charging module, the power receiving charging module being coupled to the portable power source assembly.

9. The system of claim 8, wherein the power transmitting modules and the power receiving and charging modules are charged by magnetic resonance, the number of the power transmitting modules is n, the number of the power receiving and charging modules is 2n, and a single power transmitting module is charged corresponding to two power receiving and charging modules.

10. A wirelessly controlled portable stage lighting system according to claim 9, wherein the power transmitting module and the power receiving module are rotatable relative to each other to charge the other set of power receiving and charging modules when the power receiving modules are saturated.