CN212226470U - Last response operating system and VR cinema response elevating gear of power supply - Google Patents

Abstract

The application discloses a continuously-powered induction lifting system and a VR cinema induction lifting device, which comprise a circuit shunting module, an intelligent induction module, a lifting control module, an uninterrupted power supply module and a mounting platform, and aim to automatically lower VR glasses equipment after sensing that a person sits below through a human body induction switch module arranged on the upper part of a lifter, and automatically withdraw the VR glasses equipment after the person leaves after film watching is finished; the system can uninterruptedly supply power to VR glasses equipment in the operation process of the VR cinema, has wide application, saves the expenditure cost of cinema entertainment activities, ensures that the life is more convenient and rapid, and improves the entertainment index; the incessant operating trouble and inconvenience that the human response of VR cinema was incessant charging operating system can effectively solve and need remote controller remote control to go up and down to bring also can solve the VR cinema simultaneously in the operation, VR glasses battery live time is short, the inconvenient problem of charging.

Description

Last response operating system and VR cinema response elevating gear of power supply

Technical Field

The application relates to the field of intelligent control, in particular to a continuously-powered induction lifting system and a VR cinema induction lifting device.

Background

Virtual Reality (VR) technology, also called Virtual technology and Virtual environment, is a completely new practical technology developed in the 20 th century, and is a Virtual world that is generated by computer simulation, provides a simulation of senses of a user about vision and the like, makes the user feel as if he is, and can observe things in a three-dimensional space in real time without limitation as a comprehensive embodiment of the advanced modern technology.

Compared with the new media art under the traditional window operation, the interactivity and the expanded man-machine conversation are the key points for the VR technology to present unique advantages. In a general sense, VR technology is a technical form of interactivity based on new man-machine conversation, and has the greatest advantage of constructing a conversation between a work and a participant, and revealing a meaning generation process through the conversation.

VR cinema is a new entertainment technology developed on the traditional cinema facilities, but VR cinema is an innovative concept, and at present, a complete cinema software and hardware system is not available. In addition, what traditional VR experienced still adopted is scattered VR glasses of placing, receive and release VR glasses when seeing the shadow personnel and pass in and out, this just needs to increase manpower distribution, recovery plant, and the cost increases, causes equipment damage and loses easily simultaneously. Secondly, the process of independently picking and placing the equipment increases the workload of operators. If can make VR equipment sense see the shadow personnel take one's place/leave the back, the automatic VR equipment that descends/withdraws, then can make the cinema upgrade to intelligent VR cinema, promote cinema entertainment effect greatly, brought different experience for seeing the shadow personnel.

SUMMERY OF THE UTILITY MODEL

The main objective of this application is to provide an respond to operating system and VR cinema response elevating gear of lasting power supply to solve present problem.

The technical purpose is to provide an intelligent sensing lifting system capable of continuously supplying power, and the intelligent sensing lifting system aims to automatically lower VR glasses equipment after sensing that a person sits below through a human body sensing switch module arranged at the upper part of a lifter, and automatically withdraw the VR glasses equipment after the person leaves after watching a movie; the system can uninterruptedly supply power to VR glasses equipment in the operation process of the VR cinema.

In order to achieve the above object, the present application provides the following techniques:

a continuously powered inductive lift system comprising:

the circuit shunting module is used for shunting the main circuit into each branch circuit and providing a shunting power supply for the branch circuit;

the intelligent sensing module aims at detecting a human body signal, sending a signal instruction according to the detected human body signal and sending the signal instruction through wireless or wired communication;

the lifting control module is used for receiving the signal instruction, converting the signal instruction into an uninterrupted signal and sending the uninterrupted signal to instruct the motor to act;

the uninterrupted power supply module aims to receive the rotation action in the uninterrupted signal state and realize the uninterrupted power supply of the motor reel in the running state through the electric brush device;

the mounting platform aims to realize the up-and-down lifting action according to the uninterrupted power supply running state of the motor reel.

The circuits are communicated in the mode of attached figures 1 and 2, a communication line is arranged between the intelligent induction module and the lifting control module, and the intelligent induction module and the lifting control module are connected through the communication line to receive and send signals. Among the above-mentioned five facilities, the last gentle tow chain power cord etc. of hanging of brush device, motor device rotates according to sensor and automatically controlled module instruction, drives the incessant elevating movement of below carry platform. The brush device ensures that uninterrupted power supply is provided during the operation of the motor reel. The cinema facility is hung on the mounting platform, when a person who looks at a film sits on the cinema facility, the intelligent sensing module sends a signal instruction after detecting a human body signal, the intelligent sensing module instructs the motor to work and place down the mounting platform, and the lifting control module stops the motor from running after lifting or descending to a set position according to the motor, so that the function that the sensing module and the electric control module control the motor to lift to a proper position is realized; when the film viewer leaves the position, the signal is disconnected, and the motor is reset to operate by withdrawing the command; the uninterrupted lifting action can be realized by circularly carrying out the steps. As an implementation of the present technology, the facilities such as the modules are not limited to actual specific installation positions, but as a preferred implementation of the present technology, the facilities are preferentially implemented in VR theaters, VR experience halls, science and technology halls, ghost houses, stage effects, and occasions where uninterruptible charging and intelligent inductive lifting interaction are required to be provided for suspended objects.

Furthermore, the circuit shunting module is a junction box and is divided into four branches, and the four branches respectively correspond to the intelligent sensing module, the lifting control module, the uninterrupted power supply module and the mounting platform. As shown in fig. 1, the junction box divides the trunk circuit L0 into four branch circuits, namely L1, L2, L3 and L4, which respectively provide power to the above parts.

Optimally, the intelligent sensing module is a human body sensing module, and the mode of detecting the human body signal is one or more of infrared sensing, human body sensing, microwave radar, space sensing or laser sensing. In order to realize uninterrupted power supply lifting action after receiving/disconnecting a human body signal detected by an induction module, a relay control principle is adopted, a permanent magnet motor 50KTYZ can be selected as the motor, an AC220V human body induction switch module (the cost of reducing and reducing a voltage and rectifying power supply) is selected as the intelligent induction module, during installation, an induction probe can be installed at the top or the side part, specific selection can be determined according to actual requirements according to used products and manufacturers, and in addition, a 220V alternating current relay with the voltage of 220V and 2-open and 2-close is selected.

As shown in fig. 1 and 3, in order to ensure that the motor can be controlled to stop smoothly when the motor is in top-flushing and bottom-flushing, the wiring mode of the relay is as follows:

the live wires of the ascending and descending (positive and negative rotation) of the motor are respectively connected into two travel switches: k_{Upper limit of}(normally closed), K_{Lower limit of}(normally closed); when the hanging object rushes to the top, the contact K is touched_{Upper limit of}When the switch is switched from on to off, the motor is stopped; when the operation reaches the required descending height, triggering K_{Lower limit of}When the switch is switched from on to off, the motor is stopped;

a relay is connected to connect the live wire and the K_{Upper limit of}Connected to a relayNormally closed group switching (point BA in the figure); the live wire and K_{Lower limit of}And switching in the normally open group of the relay (point BC in the figure).

Finally, the human body induction module is switched into a coil group of the relay (DE point in the figure);

the principle of human body induction lifting action is as follows:

in the normal state, the plant is stopped at an initial position (suspended object is stopped by pushing the top, K)_{Upper limit of}Keeping action, changing from closed to open, and cutting off the power supply of the motor);

when a person passes through the lower part of the equipment, the inductive probe of the human body inductive switch acts to output a signal (switch on the coil of the relay), the relay starts to work, the BC is switched off from the beginning AB closed state to the beginning AB open state, the BC closed state is switched on, and the down firing line is switched on. The motor starts and keeps descending until the motor descends to a designated height, K_{Lower limit of}The action is changed from closed to open, the power supply of the motor is cut off, and the machine is stopped; after the motor starts to move downwards and the hanging object leaves the top, K_{Upper limit of}And exiting the action from open to closed.

When a person leaves, the human body inductive switch acts to stop outputting signals (the relay coil is disconnected), the relay stops working, BC is disconnected, AB is closed, and an uplink live wire is connected. The motor starts and keeps going upwards until the hanging object rushes to the top, and the initial state is recovered.

Optimally, the intelligent sensing module is a gravity sensor, and the human body signal detected by the intelligent sensing module is a human body gravity signal. As another preferred embodiment of the technology, a gravity sensor is adopted to feed back a human body detection signal, the gravity sensor transmits a signal instruction, and a motor control module controls the gravity sensor to complete lifting operation; the sensor may be mounted to the bottom of a seat or floor.

Further, the lifting control module comprises a control panel which is connected with the motor. The control board receives and inputs the signal instruction, and then controls the rotation action condition of the motor.

Furthermore, the electric brush device is provided with a power line, and the lower end of the electric brush device is connected with the mounting platform. The power cord supplies power for the lower part, and simultaneously keeps the effect of pulling load to the mounting platform.

Further, the inside power adapter that is equipped with of carry platform, the last power cord of brush device inserts power adapter, and the power adapter lower extreme is connected with TYPE composite line. After a power line on the electric brush device is connected to the power adapter, the voltage is adjusted through the power adapter, and a matched charging power supply is provided for the suspended object.

Furthermore, the electric brush device comprises a pressing sheet carbon brush and a copper sheet which are communicated, and the branch circuit is connected with the pressing sheet carbon brush. The copper sheet is connected the power cord, and above-mentioned power adapter is connected to the power cord, and the TPYE compound line is connected to the power adapter lower extreme, and the power cord is connected the brush device and is realized incessant power supply and draw and carry, reaches the purpose that goes up and down and supply power continuously.

A VR cinema induction lifting device comprises any one of the above induction lifting systems with continuous power supply; the intelligent elevator is characterized by further comprising an upper lifter support and a lower lifter support, the circuit shunting module, the intelligent sensing module, the lifting control module and the uninterruptible power supply module are all located on the upper lifter support, and the mounting platform is located on the lower lifter support. The VR intelligence elevating gear of this technique adopts upper and lower disconnect-type, for the riser structure of disconnect-type, for insulating material's riser upper portion support and riser lower part support, and riser lower part support lower extreme shaping has the couple for hang VR equipment, as shown in figure 1, during the use, riser upper portion support is fixed, and riser lower part support moves under the control of the intelligent response operating system of incessant charging.

Furthermore, still include VR equipment power, VR equipment power is connected the TYPE and is compound the line. VR equipment power is the interface of VR equipment, and VR equipment power is connected to TYPE composite line, during the use, with the VR equipment of cinema carry on the couple of riser lower part support, uses TYPE composite line to connect VR equipment power, realizes above-mentioned lift action.

Compared with the prior art, this application can bring following technological effect:

1. can trigger the lift action according to human response, go up and down the equipment of hanging to the assigned position to provide and last power supply function at the lift operation in-process. The inductive lifting device is widely applied, the expenditure cost of cinema operation is saved, the entertainment index is improved, and the life is more convenient, rapid, comfortable and interesting;

2. the VR cinema human body induction uninterrupted charging lifting system can effectively solve the trouble and inconvenience in operation caused by the scattered placement of VR glasses or the remote control lifting of a remote controller, and can also solve the problems of short service time and inconvenience in charging of VR glasses batteries in the operation of a VR cinema;

3. at VR cinema yet not walk into the present of people's life, VR cinema response elevating gear is not only pleasing to the eye practical, can effectively solve trouble and inconvenience in the operation that needs remote controller remote control to go up and down to bring, can also save operation personnel work load, promote work efficiency, improve customer's amusement interactivity, VR cinema response elevating gear will be in future widely used.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, serve to provide a further understanding of the application and to enable other features, objects, and advantages of the application to be more apparent. The drawings and their description illustrate the embodiments of the invention and do not limit it. In the drawings:

fig. 1 is a schematic diagram of the control principle of the present invention;

FIG. 2 is a schematic view of the operation of the brush of the present invention;

FIG. 3 is a schematic diagram of a relay (DE electric is a human body induction module access point);

in the figure: 01. the device comprises an induction probe, 02 and TYPE composite wires, 03, a scroll, 04, a copper sheet, 05, a pressing sheet carbon brush, 06, a lifter lower support, 07, a lifter upper support, 08, a power line, 09 and a hook.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only partial embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application described herein may be used. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

In this application, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings. These terms are used primarily to better describe the present application and its embodiments, and are not used to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meaning of these terms in this application will be understood by those of ordinary skill in the art as appropriate.

In addition, the term "plurality" shall mean two as well as more than two.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

Example 1

Please refer to fig. 1, 2 and 3, the present technology aims to provide an intelligent inductive lifting system for continuous power supply, which aims to automatically lower VR glasses equipment after sensing that a person sits below through a human body inductive switch module arranged at the upper part of a lifter, and automatically withdraw VR glasses equipment after the person leaves after watching; the system can uninterruptedly supply power to VR glasses equipment in the operation process of the VR cinema.

In order to achieve the above object, the present application provides the following techniques:

a continuously powered inductive lift system comprising:

the circuit shunting module is used for shunting the main circuit into each branch circuit and providing a shunting power supply for the branch circuit;

the intelligent sensing module aims at detecting a human body signal, sending a signal instruction according to the detected human body signal and sending the signal instruction through wireless or wired communication;

the lifting control module is used for receiving the signal instruction, converting the signal instruction into an uninterrupted signal and sending the uninterrupted signal to instruct the motor to act;

the uninterrupted power supply module aims to receive the rotation action in the uninterrupted signal state and realize the uninterrupted power supply of the motor reel 03 in the running state through the electric brush device;

the mounting platform aims to realize the up-and-down lifting action according to the uninterrupted power supply running state of the motor reel.

The circuits are communicated in the mode of attached figures 1 and 2, a communication line is arranged between the intelligent induction module and the lifting control module, and the intelligent induction module and the lifting control module are connected through the communication line to receive and send signals. Among the above-mentioned five facilities, the last gentle tow chain power cord etc. of hanging of brush device, motor device rotates according to sensor and automatically controlled module instruction, drives the incessant elevating movement of below carry platform. The brush device ensures that uninterrupted power supply is provided during the operation of the motor reel. The cinema facility is hung on the mounting platform, when a person who looks at a film sits on the cinema facility, the intelligent sensing module sends a signal instruction after detecting a human body signal, the intelligent sensing module instructs the motor to work and place down the mounting platform, and the lifting control module stops the motor from running after lifting or descending to a set position according to the motor, so that the function that the sensing module and the electric control module control the motor to lift to a proper position is realized; when the film viewer leaves the position, the signal is disconnected, and the motor is reset to operate by withdrawing the command; the uninterrupted lifting action can be realized by circularly carrying out the steps. As an implementation of the present technology, the facilities such as the modules are not limited to actual specific installation positions, but as a preferred implementation of the present technology, the facilities are preferentially implemented in VR theaters, VR experience halls, science and technology halls, ghost houses, stage effects, and occasions where uninterruptible charging and intelligent inductive lifting interaction are required to be provided for suspended objects.

Furthermore, the circuit shunting module is a junction box and is divided into four branches, and the four branches respectively correspond to the intelligent sensing module, the lifting control module, the uninterrupted power supply module and the mounting platform. As shown in fig. 1, the junction box divides the trunk circuit L0 into four branch circuits, namely L1, L2, L3 and L4, which respectively provide power to the above parts.

Optimally, the intelligent sensing module is a human body sensing module, and the mode of detecting the human body signal is one or more of infrared sensing, human body sensing, microwave radar or laser sensing. Wherein, in order to reach after receiving/breaking the human body signal that the response module surveyed, realize uninterrupted power supply lift action, adopt the relay control principle, the motor can select permanent magnet motor 50KTYZ, intelligent response module chooses the human body inductive switch module (the cost of reducing step-down rectifier power supply) of AC220V for use, during the installation, induction probe 01 wherein can install in top or lateral part, specifically select can be according to actual demand according to product and the producer that use, in addition select again a voltage to be 220V, 2 open 2 closed 220V AC relay.

As shown in fig. 1 and 3, in order to ensure that the motor can be controlled to stop smoothly when the motor is used for punching the top and the bottom, the wiring mode is as follows:

the live wires of the ascending and descending (positive and negative rotation) of the motor are respectively connected into two travel switches:K_{upper limit of}(normally closed), K_{Lower limit of}(normally closed); when the hanging object rushes to the top, the contact K is touched_{Upper limit of}When the switch is switched from on to off, the motor is stopped; when the operation reaches the required descending height, triggering K_{Lower limit of}When the switch is switched from on to off, the motor is stopped;

a relay is connected to connect the live wire and the K_{Upper limit of}Switching in a normally closed group of the relay (point BA in the figure); the live wire and K_{Lower limit of}And switching in the normally open group of the relay (point BC in the figure).

Finally, the human body induction module is switched into a coil group of the relay (DE point in the figure);

the principle of human body induction lifting action is as follows:

in the normal state, the plant is stopped at an initial position (suspended object is stopped by pushing the top, K)_{Upper limit of}Keeping action, changing from closed to open, and cutting off the power supply of the motor);

when a person passes through the lower part of the equipment, the inductive probe 01 of the human body inductive switch acts to output a signal (switch on a relay coil), the relay starts to work, the BC is switched off from the beginning AB closed state to the beginning AB open state, and the BC is switched on to switch on a down live wire. The motor starts and keeps descending until the motor descends to a designated height, K_{Lower limit of}The action is changed from closed to open, the power supply of the motor is cut off, and the machine is stopped; after the motor starts to move downwards and the hanging object leaves the top, K_{Upper limit of}And exiting the action from open to closed.

When a person leaves, the human body inductive switch acts to stop outputting signals (the relay coil is disconnected), the relay stops working, BC is disconnected, AB is closed, and an uplink live wire is connected. The motor starts and keeps going upwards until the hanging object rushes to the top, and the initial state is recovered.

Optimally, the intelligent sensing module is a gravity sensor, and the human body signal detected by the intelligent sensing module is a human body gravity signal. As another preferred embodiment of the technology, a gravity sensor is adopted to feed back a human body detection signal, the gravity sensor transmits a signal instruction, and a motor control module controls the gravity sensor to complete lifting operation; the sensor may be mounted to the bottom of a seat or floor.

Further, the lifting control module comprises a control panel which is connected with the motor. The control board receives and inputs the signal instruction, and then controls the rotation action condition of the motor.

Further, the electric brush device is provided with a power line 08, and the lower end of the electric brush device is connected with the mounting platform. The power line 08 supplies power to the lower part and keeps the pulling load effect on the mounting platform.

Further, a power adapter is arranged inside the mounting platform, a power line 08 on the electric brush device is connected into the power adapter, and the lower end of the power adapter is connected with a TYPE composite wire 02. After a power cord 08 on the electric brush device is connected to a power adapter, the voltage is adjusted through the power adapter, and a matched charging power supply is provided for a suspended object.

Further, the electric brush device comprises a pressing sheet carbon brush 05 and a copper sheet 04 which are communicated, and the branch circuit is connected with the pressing sheet carbon brush 05. Copper sheet 04 is connected power cord 08, and power cord 08 connects above-mentioned power adapter, and TPYE compound line 02 is connected to the power adapter lower extreme, and power cord 08 connects the brush device and realizes incessant power supply and draws and carry, reaches the purpose of going up and down and continuously supplying power.

A VR cinema induction lifting device comprises any one of the above induction lifting systems with continuous power supply; the intelligent elevator system is characterized by further comprising an upper elevator support 07 and a lower elevator support 06, wherein the circuit shunting module, the intelligent sensing module, the lifting control module and the uninterruptible power supply module are all located on the upper elevator support 07, and the mounting platform is located on the lower elevator support 06. The VR intelligence elevating gear of this technique adopts upper and lower disconnect-type, for disconnect-type riser structure, for insulating material's riser upper portion support 07 and riser lower part support 06, and riser lower part support 06 lower extreme shaping has couple 09 for hang VR equipment, as shown in figure 1, during the use, riser upper portion support 07 is fixed, and riser lower part support 06 moves under the control of the intelligent response operating system of incessant charging.

Further, still include VR equipment power, VR equipment power is connected TYPE and is compound line 02. VR equipment power is the interface of VR equipment, and VR equipment power is connected to TYPE composite line 02, during the use, with the VR equipment of cinema carry on the couple 09 of riser lower part support 06, uses TYPE composite line 02 to connect the VR equipment power, realizes above-mentioned lift action.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. A continuously powered inductive lift system, comprising:

the circuit shunting module is used for shunting the main circuit into each branch circuit and providing a shunting power supply for the branch circuit;

the intelligent sensing module aims at detecting a human body signal, sending a signal instruction according to the detected human body signal and sending the signal instruction through wireless or wired communication;

the lifting control module is used for receiving the signal instruction, converting the signal instruction into an uninterrupted signal and sending the uninterrupted signal to instruct the motor to act;

the uninterrupted power supply module aims to receive the rotation action in the uninterrupted signal state and realize the uninterrupted power supply of the motor reel (03) in the running state through the electric brush device;

the mounting platform aims to realize the up-and-down lifting action according to the uninterrupted power supply running state of the motor reel.

2. The system of claim 1, wherein the circuit shunting module is a distribution box having four branches, and the four branches respectively correspond to the intelligent sensing module, the lifting control module, the uninterruptible power supply module and the mounting platform.

3. The system of claim 1, wherein the smart sensor module is a body sensor module that detects the body signal by one or more of infrared sensing, body sensing, microwave radar, or laser sensing.

4. The system of claim 1, wherein the smart sensor module is a gravity sensor that detects the human body signal as a human body gravity signal.

5. A continuously powered inductive lift system according to claim 1 wherein the lift control module includes a control panel, the control panel being connected to the motor.

6. A continuously powered induction lifting system as claimed in claim 5, characterized in that the brush means is provided with a power cord (08) the lower end of which is connected to the mounting platform.

7. A continuously powered inductive lifting system according to claim 6, characterized in that the mounting platform is provided with a power adapter inside, the power cord (08) of the brush device is connected to the power adapter, and the lower end of the power adapter is connected with a TYPE composite cord (02).

8. A continuously powered induction hoist system according to claim 7, characterized in that the brush assembly comprises a stator carbon brush (05) and a copper strip (04) in communication, and the branch circuit is connected to the stator carbon brush (05).

9. A VR cinema induction lifting device is characterized by comprising any one of the above induction lifting systems with continuous power supply; the intelligent elevator is characterized by further comprising an upper lifter support (07) and a lower lifter support (06), wherein the circuit shunting module, the intelligent sensing module, the lifting control module and the uninterruptible power supply module are all located on the upper lifter support (07), and the mounting platform is located on the lower lifter support (06).

10. The VR theatre induction lifting device of claim 9, further comprising a VR device power supply, the VR device power supply being connected to the TYPE composite line (02).

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