CN111010762A

CN111010762A - Intelligent model display control system

Info

Publication number: CN111010762A
Application number: CN201911069373.3A
Authority: CN
Inventors: 廖文瑾; 王启; 赵云辉
Original assignee: Shanghai Saimeng Cultural Creativity Co Ltd
Current assignee: Shanghai Saimeng Cultural Creativity Co Ltd
Priority date: 2019-11-05
Filing date: 2019-11-05
Publication date: 2020-04-14
Anticipated expiration: 2039-11-05
Also published as: CN111010762B

Abstract

The invention relates to an intelligent model display control system, which comprises: the system comprises a plurality of models and a plurality of groups of atmosphere lamps, wherein each model corresponds to at least one group of atmosphere lamps; the master control device is used for generating lamp control signals for controlling each group of atmosphere lamps and mode control signals for controlling each model; the lamp control device is used for controlling the brightness and the color of each group of atmosphere lamps based on the lamp control signals; and the mode control device is used for controlling the action of each model based on the mode control signal. By implementing the intelligent model display control system, the model and the atmosphere lamp can be controlled, so that the model can be displayed in all directions, the model can be displayed more vividly, the model display effect is improved, and the model understanding of visitors is enhanced.

Description

Intelligent model display control system

Technical Field

The invention relates to the field of model display, in particular to an intelligent model display control system.

Background

With the development of society, models are widely used in many fields such as architectural design, stage design, urban planning, and aerospace technology. However, most of the existing models are in fixed placing modes, most of the light adopted by the models is fixed light on a display counter, the models are usually fixed and unchangeable, and the models cannot be well displayed in an all-around manner in the displaying process, so that visitors can hardly visually observe the specific design details of the models, and the displaying of the models is not vivid enough. This affects not only the effect of model display, but also the visitor's understanding of the model.

Disclosure of Invention

The invention aims to solve the technical problem of providing an intelligent model display control system which can control a model and an atmosphere lamp so as to display the model in all directions, so that the display of the model is more vivid, the display effect of the model is improved, and the understanding of a visitor to the model is enhanced.

The technical scheme adopted by the invention for solving the technical problems is as follows: constructing an intelligent model exhibition control system, comprising:

the system comprises a plurality of models and a plurality of groups of atmosphere lamps, wherein each model corresponds to at least one group of atmosphere lamps;

the master control device is used for generating lamp control signals for controlling each group of atmosphere lamps and mode control signals for controlling each model;

the lamp control device is used for controlling the brightness and the color of each group of atmosphere lamps based on the lamp control signals;

and the mode control device is used for controlling the action of each model based on the mode control signal.

In the intelligent model display control system of the present invention, the main control device includes:

the preset control module is used for generating preset lamp control signals for controlling each group of atmosphere lamps to sequentially emit light for at least a first time according to the first brightness color and at least a second time according to the second brightness color, and generating preset mode control signals for controlling each model to execute a first action in the first time and execute a second action in the second time.

In the intelligent model display control system according to the present invention, the main control device further includes:

and the interactive control module is used for receiving a user interactive control instruction, interrupting the preset lamp control signal and the preset mode control signal based on the interactive control instruction, and generating an interactive lamp control signal for controlling at least one group of atmosphere lamps to emit light for at least a third time according to a third brightness color and at least a fourth time according to a fourth brightness color and an interactive mode control signal for controlling at least one model to execute a third action in the third time and execute a fourth action in the fourth time based on the interactive control instruction.

In the intelligent model display control system, each model is installed on a model chassis, each group of atmosphere lamps are respectively hoisted above each model through an atmosphere lamp support, a model guardrail is installed around the model chassis, a reserved hole is formed in each model guardrail to install a touch screen, the preset control module and the interactive control module are respectively connected with the lamp control device and the model control device through a network server, and the interactive control module is further electrically connected with the touch screen.

In the intelligent model display control system, at least one model is a hollow model formed by a first model half part and a second model half part, and a food support used for containing food is arranged in the hollow model; the mould control means is for driving the first and second mould halves to move towards each other for closing the hollow mould and to move away from each other for opening the hollow mould in a fourth time based on the interactive mould control signals.

In the intelligent model exhibition control system of the invention, the mold control device comprises a first support structure for supporting the first model half, a second support structure for supporting the second model half, a guide rail for allowing the first support structure and the second support structure to slide towards or away from each other, a drive module for driving the first support structure and the second support structure to move along the guide rail, and a drive controller for controlling the drive module to open and close based on the interactive mold control signal.

In the intelligent model display control system of the present invention, the first support structure includes a first pillar, a first movable bracket and a first slider, the first model half is fixed on the first pillar, the first pillar is fixed on the first movable bracket, the first slider is disposed in the guide rail, and the first movable bracket is fixed on the first slider; the second supporting structure comprises a second supporting column, a second movable support and a second sliding block, the second model half part is fixed on the second supporting column, the second supporting column is fixed on the second movable support, the second sliding block is arranged in the guide rail, and the second movable support is fixed on the second sliding block.

In the intelligent model display control system of the present invention, the driving module further includes a first dc gear motor disposed on the first support structure, a second dc gear motor disposed on the second support structure, and a rack disposed in the guide rail, and when the first dc gear motor and the second dc gear motor rotate, gears of the first dc gear motor and the second dc gear motor move on the rack, so as to drive the first support structure and the second support structure to move.

In the intelligent model exhibition control system of the present invention, the hollow model further includes: set up and be in removal position detection device on the guide rail, removal position detection device is based on first model half with the second model is half in position generation control on the guide rail the displacement control signal that drive module closed and be used for detecting half with whether there is the anti-pinch detection device of foreign matter between half of the second model, prevent pinch detection device based on the existence generation control of foreign matter the anti-pinch control signal that drive module closed.

In the intelligent model display control system of the present invention, the moving position detecting means includes a magnet provided on the slider and a touch detecting element provided at an extreme opening position of the guide rail; the model further comprises an audio device arranged on the model, an atomizer and an atomizing pipe, wherein the atomizer and the atomizing pipe are arranged in the hollow model, the atomizer generates water mist based on the interactive mode control signals, and the water mist is filled into the hollow model through the atomizing pipe.

By implementing the intelligent model display control system, the model and the atmosphere lamp can be controlled, so that the model can be displayed in all directions, the model can be displayed more vividly, the model display effect is improved, and the model understanding of visitors is enhanced. Furthermore, through the interaction with the visitors, the interest and entertainment of model display can be further improved, and the participation of the visitors is increased.

Drawings

The invention will be further described with reference to the accompanying drawings and examples, in which:

FIG. 1 is a functional block diagram of a first embodiment of an intelligent model presentation control system of the present invention;

FIG. 2 is a functional block diagram of a second embodiment of the intelligent model presentation control system of the present invention;

FIG. 3 is a schematic illustration of the preferred hollow mold of the intelligent model display control system of the present invention in a closed configuration;

fig. 4 is a schematic view of the preferred hollow model of the intelligent model display control system of the present invention when open.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

FIG. 1 is a functional block diagram of a first embodiment of an intelligent model presentation control system of the present invention. As shown in fig. 1, the intelligent model exhibition control system includes a plurality of models 410, a plurality of sets of atmosphere lamps 310, a master control device 100, a lamp control device 210, and a model control device 220. In this embodiment, each model 410 corresponds to at least one set of atmosphere lamps 310. In the present invention, each form 410 may include a plurality of form elements, such as a hollow form formed by two house form halves, or a separate single form. Each set of atmosphere lamps 310 may include one or more atmosphere lamps, which may be LED lamps, incandescent lamps, and the like. Each set of atmosphere lamps 310 may be placed anywhere on the form 410, such as inside, outside.

The master control device 100 may be any microprocessor or controller that may be used to generate lamp control signals for controlling the groups of ambience lamps 310 and model control signals for controlling the respective models 410. The lamp control device 210 is configured to control the brightness and the color of each group of atmosphere lamps 310 based on the lamp control signal. The modeling device 220 is configured to control the actions of each model 410 based on the modeling signals. In a preferred embodiment of the present invention, the lamp control device 210 may be, for example, an LED driving device or a circuit, and the mode control device 220 may be, for example, a PLC controller. The lamp control device 210 is configured to drive the groups of atmosphere lamps 310 to change according to different colors and brightness, so as to represent a day-to-night change or a night-to-day change, such as 7 minutes day and 3 minutes night, or vice versa. The model control device 220 can be used to drive the model up or down, or turn it on or off, or to drive the model to perform any suitable action in coordination with the day-to-night lighting. In a preferred embodiment of the present invention, for example, at least one model 410 is a castle with a castle door, and the master control device 100 may be programmed to control the lamp control device 210 to drive at least one set of atmosphere lamps to generate day-to-night variation, and at the same time, the program controls the model control device 220 to drive the castle door of the castle to be opened in the day and closed in the night. Of course, in other preferred embodiments of the present invention, other arrangements may be made, and all fall within the scope of the present invention.

In the preferred embodiment shown in fig. 1, the master control device 100 may include a preset control module 110 and an interactive control module 120. The preset control module 110 may be a computer software program stored on the main control device 100, and when the main control device 100 executes the computer software program, is configured to generate a preset lamp control signal for controlling each group of atmosphere lamps 310 to sequentially emit light according to the first brightness color for at least a first time and emit light according to the second brightness color for at least a second time, and generate a preset mode control signal for controlling each model 410 to execute a first action in the first time and a second action in the second time. For example, in a preferred embodiment of the present invention, the default control module 110 is designed to cycle the brightness color variation between day and night, and it controls the lamp control device 210 to drive the groups of ambience lamps 310 to emit light according to the first brightness color for 10 minutes, thereby giving the visitors an image of the day, and then to emit light according to the second brightness color for 5 minutes, thereby giving the visitors an image of the night, while at the same time controlling the mode control device 220 to drive the mode 410 to move, such as open, close, walk, etc. In a further preferred embodiment of the present invention, the preset control module 110 can also design brightness color cycle changes of day, morning, noon, afternoon, dusk, evening, and various action scene changes of the model. It will be appreciated by those skilled in the art that the present invention may be constructed using any of the light intensity and color adjustments known in the art as well as model action scene changes.

In this embodiment, the interaction control module 120 may also be a computer software program, stored on the main control device 100, and configured to receive a user interaction control instruction when the main control device 100 executes the computer software program, interrupt the preset light control signal and the preset mode control signal based on the interaction control instruction, and generate an interaction light control signal for controlling at least one group of ambience lights 310 to emit light according to a third brightness color for at least a third time and to emit light according to a fourth brightness color for at least a fourth time and an interaction mode control signal for controlling at least one model 410 to execute a third action in the third time and to execute a fourth action in the fourth time based on the interaction control instruction. In a preferred embodiment of the present invention, the interaction control module 120 may receive a user interaction control command through a communication module, and the visitor receives the user interaction control command through a mobile phone APP or in other manners. In another preferred embodiment of the present invention, the interaction control module 120 may be connected to an instruction receiving device, such as a button, a touch screen, etc., near the model 410 to receive the user interaction instruction. For example, when the user interaction control command is received, the light control device 210 and the mode control device 220 are controlled to stop executing the current operation, and a new action is performed for a period of time according to the user interaction control command. Then, the lamp control device 210 and the mode control device 220 continue to operate according to the original preset lamp control signal and the preset mode control signal. This is particularly suited for particular model presentations, for example, day and night changes, as well as door opening and closing actions for a castle model are accomplished via the default control module 110, while visitors may direct the model's unusual actions such as water spray, sound production, etc. via the interactive control module 120, and at this point cooperate with more specific ambient lighting (e.g., very dim and intermittent high-intensity lighting) to simulate rain, lightning, etc. scenes. Therefore, through interaction with the visitors, the interest and entertainment of model display can be further improved, and the participation of the visitors is increased.

FIG. 2 is a functional block diagram of a second embodiment of the intelligent model presentation control system of the present invention. As shown in FIG. 2, the intelligent model 410 illustrates a control system, including: a plurality of models 410 and a plurality of sets of atmosphere lamps 310, master control devices 100, lamp control devices 210, and model control devices 220. In this embodiment, each model 410 corresponds to at least one set of atmosphere lamps 310. In the present invention, each form 410 may include a plurality of form elements, such as a hollow form formed by two house form halves, or a separate single form. Each set of atmosphere lamps 310 may include one or more atmosphere lamps, which may be LED lamps, incandescent lamps, and the like. Each set of atmosphere lamps 310 may be placed anywhere on the form 410, such as inside, outside. The main control device 100 includes a preset control module 110 and an interactive control module 120. In this embodiment, the interactive control module 120, the preset control module 110, the lamp control device 210 and the mode control device 220 may be constructed according to the embodiment shown in fig. 1.

As further shown in FIG. 2, each model 410 is mounted on a model chassis 411, each group of atmosphere lamps 310 is respectively hung above each model 410 through an atmosphere lamp bracket 320, and model guard rails 412 are mounted around the model chassis 411. The model guardrail 412 is provided with a reserved hole for installing the touch screen 121. The preset control module 120 and the interactive control module 110 are respectively connected to the lamp control device 210 and the module control device 220 through a network server, and the interactive control module 110 is further electrically connected to the touch screen 121.

In this embodiment, a cabinet may be configured to install the preset control module 120, the interactive control module 110, and a network server, and connect the terminal connection lines. Then, each group of atmosphere lamps 310 are respectively hoisted above each model 410 through the atmosphere lamp support 320, and the light direction and position are adjusted according to actual needs. The model guard rails 412 are installed around the model chassis 411, and the distance is adjusted according to actual needs, and the height is preferably equal. The touch screen 9 and/or the buttons are installed in the reserved holes of the model guardrail 412, and power lines and signal lines are connected. The mold control device 220 (preferably with a PLC controller) is installed under the model chassis 411, the wire end is connected, and the device is fixed after debugging. The preset control module 110 and the interactive control module 120 are connected to the lamp control device 210, the mode control device 220 and the touch screen 9 through a network server. Each set of atmosphere lamps 310 is connected to the lamp control device 210 and the mode control device 220 through the touch screen 9 and/or the buttons and debugged.

Then, referring to the embodiment shown in fig. 1, the preset control module 120, the lamp control device 210, and the model control device 220 may be used to perform light and shade control and model action control on each group of atmosphere lamps 310 and models 410. Further, through the interaction control module 110 and the touch screen 9, the light control device 210 and the mode control device 220 can further control light and shade control and model action control through user instructions.

In a further preferred embodiment of the present invention, the preset control module 120 can also control the content displayed on the screen of the touch screen 9 according to different addresses. When a user interaction instruction is input, the preset control module 120 may control a corresponding light, dynamic or scene action according to an internally set program and delay for a period of time, and at the same time, the preset control module 120 may cut off the control of the preset control module 120 in the program, and when the delay time is reached, the preset control module 120 may resume its control. Therefore, through interaction with the visitors, the interest and entertainment of model display can be further improved, and the participation of the visitors is increased. Further, for some historical culture models, the history, building content and stories of each model can be known through a touch screen.

Fig. 3 and 4 show a preferred model structure, which can be controlled by the preset control module 120, the interactive control module 110, the touch screen 9, and the model control device 220. In this embodiment, the preset control module 120 and the interactive control module 110 may be constructed by using a PLC controller 5. In this embodiment, the day and night control of the presetting control module 120 can refer to the embodiment shown in fig. 1-2, and the model control is based on time control rather than user instruction, and will not be described in detail here.

The following description is only given by way of example of setting the payment module 21 to generate the user interaction instruction instead of the touch screen 9. After the visitor scans the corresponding two-dimensional code and pays successfully, the code scanning payment module sends a signal, which can be called a user interaction instruction. The PLC controller 5 will then control the switching of the two house model halves 1 based on the user interaction command.

As shown in fig. 3-4, the model is a hollow model made up of two house model halves 1. An ice cream holder 4 for holding ice cream 3 is provided in the hollow mould. The two house model halves 1 are each fixed to one end of a support 6, the other end of the support 6 being each fixed to a travelling carriage 7 under the model chassis 11. The top of pillar 6 is wide platform structure to make things convenient for the installation of half 1 of house model, the lower part is minor diameter cylinder structure, and is convenient fixed. A plurality of slides 20, for example 4, are arranged below each mobile carriage 7. The sliding blocks 20 are arranged in the guide rails 10, and the moving brackets 7 are fixed to the sliding blocks 20 so as to be slidable back and forth toward both sides, respectively. One DC speed reducing motor 16 is respectively arranged on one side of the two moving brackets 7, and a rack 14 is arranged in the guide rail 10. When the dc gear motor 16 rotates, the gear 15 thereon moves back and forth on the rack, thereby driving the moving brackets 7 to respectively slide in the guide rails 10.

In the preferred embodiment shown in fig. 3-4, there are further provided audio means (including the voice module 8 and the speaker box 9), a nebulizer 18 and a nebulizing tube 17, as well as lighting means. The PLC controller 5 will also control these modules and devices based on the user interaction command, thereby achieving better entertainment and interaction effects. Of course, in a simplified embodiment of the invention, these could be eliminated or only a part thereof could be retained, for example, only at least one of the audio device, the nebulizer 18 and the nebulizing tube 17 and the lighting device 20 could be provided. In this embodiment, audio means may be provided inside, or outside, or anywhere near the hollow model for playing food supply announcements and/or music based on said user interaction instructions. An atomizer 18 and an atomizing tube 17 are preferably arranged inside the hollow mould, possibly around the ice cream holder 4. The atomizer 18 generates water mist based on the user interaction command and fills the hollow model with the water mist through the atomizing pipe 17. The lighting means preferably comprise two sets of LED lamps 2, which are arranged in the two house model halves 1, respectively, and which turn on the lights based on the user interaction instructions.

For example, after the visitor scans the corresponding two-dimensional code and pays successfully, the code scanning payment module sends a signal, which may be called a user interaction instruction. At this time, the PLC 5 immediately controls the voice module 8 to notify the shop assistant of purchasing ice cream through the voice box 9 by voice, and the shop assistant is required to prepare the ice cream. After the voice broadcast is completed, the voice module 8 continues to be controlled to play the waiting music through the sound box 9, and the waiting time is preferably 30 s. The store clerk prepares ice cream 3 within 30s and then places it on ice cream stand 4. When the time reaches 25s, the PLC 5 energizes the atomizer 18, and the atomizer 18 generates water mist. The water mist fills the interior of the hollow mold through the atomizing pipe 17. When the time reaches 30s, the PLC controller 5 controls the two house model halves 1 to be opened, controls the lighting device to emit light and controls the voice module 8 to play relevant music made by ice cream through the sound box 9. The PLC controller 5 controls the operation of the two dc gear motors 16, and when the dc gear motors 16 rotate, the gear wheels 15 thereon move back and forth on the gear racks 14, thereby driving the two mobile carriages 7 to slide back to each other in the guide rails 10 by means of the sliders 20, thereby opening the two house model halves 1.

Preferably, the PLC controller 5 can set the operating time of the two dc gear motors 16 so as to ensure the opening degree of the house model half 1. While in a further preferred embodiment of the invention a movement position detection means may be provided in the guide rail. The mobile position detection means generate a displacement control signal controlling the closing of the drive module on the basis of the position of the two house model halves 1 on the guide rail 10. As shown in the drawing, the moving position detecting means includes a magnet 12 provided on the slider 20 and a touch detecting element 13 provided at the extreme open position of the guide rail 10. When the magnet 12 touches the touch detection element 13, the touch detection element 13 sends a displacement control signal to the PLC controller 5, informing the PLC controller 5 that the house model half 1 has reached the extreme opening position and the whole house model has been completely opened, and then the PLC controller 5 controls the dc speed reduction motor 16 to stop working.

About 2s after the house model is opened, the PLC 5 stops energizing the atomizer 18, so that the water mist inside the house model is dispersed, and the ice cream 3 waits for the guest to take away on the ice cream bracket 4. Meanwhile, the PLC 5 controls the voice module 8 to inform the visitors of taking the ice cream within 20s through the sound box 9 in a voice mode. After 20s, the PLC controller 5 controls the operation of the two dc gear motors 16, and when the dc gear motors 16 rotate, the gear wheels 15 thereon move back and forth on the gear racks 14, thereby driving the two mobile carriages 7 to slide towards each other in the guide rails 10 by means of the sliders 20, thereby closing the two house model halves 1, while the PLC controller 5 controls the speech module 8 and the lighting device to be turned off and waits for the next visitor.

In a further preferred embodiment of the invention, a mobile location detection module may also be used to detect whether the house model is closed. For example, the touch detection element 13 may be provided at a closing detection position of the guide rail 10. When the magnet 12 fixed to the slider 20 does not touch either the touch sensing element 13 of the closing sensing position or the touch sensing element 13 of the extreme opening position, it is considered that the house model may be in the non-closing state, and the PLC controller 5 controls the dc gear motor 16 to operate, thereby closing the house model. When the magnet 12 fixed to the slider 20 touches the touch detection element 13 of the closing detection position, it is determined that the house model is closed, and it sends a position detection signal to the PLC controller 5. And the PLC controller 5 will stop driving the dc gear motor. Meanwhile, the PLC 5 controls the light device 2, the voice module 8 and the atomizer 18 to stop working.

In a further preferred embodiment of the invention, in order to prevent a person from not taking his hands out or reaching them in during the closing of the house model, an anti-pinch detection device 22 can be provided for detecting whether a foreign object is present between the two house model halves 1, which anti-pinch detection device 22 generates an anti-pinch control signal on the basis of the presence of said foreign object. Upon receiving the signal, the PLC controller 5 stops driving the dc gear motor 16. In the preferred embodiment of the present invention, the dc gear motor 16 is also controlled to operate in reverse. When the foreign object is taken out, i.e. the anti-pinch detection device 22 cannot detect the foreign object, no signal is sent to the PLC controller 5, and the PLC controller 5 drives the dc gear motor 16 to continue to operate.

Those skilled in the art will appreciate that the setting of the above-mentioned time periods, the setting of the food types, and the specific control flows can be set according to actual needs, and those skilled in the art can set the setting by themselves without departing from the teachings of the present invention.

The invention has been described above with the aid of functional blocks illustrating some important functions. For convenience of description, the boundaries of these functional building blocks have been defined specifically herein. When these important functions are implemented properly, varying their boundaries is permissible. Similarly, flow diagram blocks may be specifically defined herein to illustrate certain important functions, and the boundaries and sequence of the flow diagram blocks may be otherwise defined for general application so long as the important functions are still achieved. Variations in the boundaries and sequence of the above described functional blocks, flowchart functional blocks, and steps may be considered within the scope of the following claims.

The present invention may also be implemented by a computer program product, comprising all the features enabling the implementation of the methods of the invention, when loaded in a computer system. The computer program in this document refers to: any expression, in any programming language, code or notation, of a set of instructions intended to cause a system having an information processing capability to perform a particular function either directly or after either or both of the following: a) conversion to other languages, codes or symbols; b) reproduced in a different format.

While the invention has been described with reference to specific embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted without departing from the scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from its scope. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. An intelligent model display control system, comprising:

2. The intelligent model exhibition control system of claim 1, wherein said master control means comprises:

3. The intelligent model exhibition control system of claim 2, wherein said master control device further comprises:

4. The intelligent model display control system according to claim 3, wherein each model is installed on a model chassis, each group of atmosphere lamps are respectively hoisted above each model through an atmosphere lamp support, a model guardrail is installed around the model chassis, a reserved hole is formed in the model guardrail to install a touch screen, the preset control module and the interactive control module are respectively connected with the lamp control device and the model control device through a network server, and the interactive control module is further electrically connected with the touch screen.

5. The intelligent model display control system according to claim 4, wherein at least one model is a hollow model composed of a first model half and a second model half, and a food support for holding food is arranged inside the hollow model; the mould control means is for driving the first and second mould halves to move towards each other for closing the hollow mould and to move away from each other for opening the hollow mould in a fourth time based on the interactive mould control signals.

6. The intelligent model display control system of claim 5, wherein the model control device comprises a first support structure for supporting the first model half, a second support structure for supporting the second model half, a guide rail for the first support structure and the second support structure to slide towards or away from each other, a drive module for driving the first support structure and the second support structure to move along the guide rail, and a drive controller for controlling the drive module to open and close based on the interactive model control signal.

7. The intelligent model display control system of claim 6, wherein the first support structure comprises a first post, a first moving bracket, and a first slide, the first model half being secured to the first post, the first post being secured to the first moving bracket, the first slide being disposed in the guide rail and the first moving bracket being secured to the first slide; the second supporting structure comprises a second supporting column, a second movable support and a second sliding block, the second model half part is fixed on the second supporting column, the second supporting column is fixed on the second movable support, the second sliding block is arranged in the guide rail, and the second movable support is fixed on the second sliding block.

8. The intelligent model display control system according to claim 7, wherein the driving module further comprises a first dc gear motor disposed on the first support structure, a second dc gear motor disposed on the second support structure, and a rack disposed in the guide rail, wherein when the first dc gear motor and the second dc gear motor rotate, gears of the first dc gear motor and the second dc gear motor move on the rack, thereby driving the first support structure and the second support structure to move.

9. The intelligent model display control system of claim 8, wherein the hollow model further comprises: set up and be in removal position detection device on the guide rail, removal position detection device is based on first model half with the second model is half in position generation control on the guide rail the displacement control signal that drive module closed and be used for detecting half with whether there is the anti-pinch detection device of foreign matter between half of the second model, prevent pinch detection device based on the existence generation control of foreign matter the anti-pinch control signal that drive module closed.

10. The intelligent model exhibition control system of claim 9, wherein said moving position detection means comprises a magnet provided on said slider and a touch detection element provided at an extreme opening position of said guide rail; the model further comprises an audio device arranged on the model, an atomizer and an atomizing pipe, wherein the atomizer and the atomizing pipe are arranged in the hollow model, the atomizer generates water mist based on the interactive mode control signals, and the water mist is filled into the hollow model through the atomizing pipe.