CN214763235U - Intelligent sandbag and electronic game equipment - Google Patents

Abstract

The utility model provides an intelligence sand bag and electronic game equipment. The intelligent sandbag comprises a sandbag body, a sandbag sleeve wrapping the sandbag body, a fully flexible stress sensor and a data processing device; when a user strikes the sandbag, the fully-flexible stress sensor detects stress changes, and striking related data are obtained after the stress changes are collected and processed by the data processing device. The intelligent sandbag realizes full flexibility, is comfortable to the body of a user, has no foreign body sensation and hard texture, and solves the problem of greatly reducing the exercise interest of the user due to improper user experience; the hitting related data can be converted into voice broadcast and/or screen display and the like, so that the technological sense and the multimedia sense are increased; in addition, the intelligent electronic game device can be used as a control terminal of electronic game equipment, combines body-building exercise with games, and increases the intelligence and interestingness of exercise.

Description

Intelligent sandbag and electronic game equipment

Technical Field

The utility model belongs to the technical field of exerciser and smart machine, especially, relate to an intelligence sand bag and electronic game equipment.

Background

In sports equipment, sandbags are mainly used for hitting strength training, but the traditional sandbags do not have man-machine interaction and interestingness. With the development of science and technology, some sandbags are integrated with stress sensors for capturing motion parameters during hitting motion, but the sensors integrated on the sandbags are rigid at present, so that the integration of the sensors with flexible sandbags is poor, and foreign body sensation and hard sensation can be generated when a user hits the sandbags to influence the motion experience of the user.

In addition, with the rapid development of technologies such as sensors, big data, internet of things, artificial intelligence and the like, the intellectualization of fitness products is greatly needed, and fitness products integrating fitness, competition and entertainment are more and more popular with the public.

SUMMERY OF THE UTILITY MODEL

The utility model provides an intelligence sand bag has the advantage of full flexibility, utilizes this sand bag to hit and feels comfortable when beating the motion, and the no abnormal object feels and hard feel can obtain simultaneously and hit the relevant data information of beating the stress of beating, has strengthened motion joyful sense and science and technology greatly and has felt.

In the utility model, the flexibility means that the deformation such as bending, stretching and twisting can occur under the action of external force.

In the utility model, the elasticity means that the deformation such as bending, stretching, twisting can take place under the exogenic action to have certain shape recovery ability when external force is removed.

The utility model provides a technical scheme is: the utility model provides an intelligence sand bag, includes the sand bag body and wraps up the sand bag cover of the sand bag body, characterized by: the device also comprises a fully flexible stress sensor and a data processing device;

the fully flexible stress sensor is used for detecting information change caused by stress action when the sandbag is hit;

the data processing device comprises a data acquisition module and a control module.

And the data acquisition module is used for acquiring the information change and sending the information change to the control module.

And the control module receives the information change, processes the information change to obtain the relevant data of the stress, and sends a control instruction.

The relevant data of the stress is not limited and comprises a hitting area, hitting strength, consumed energy and the like.

Preferably, the fully flexible stress sensor is arranged on the sandbag cover.

The material of the sand bag cover is not limited, and the sand bag cover comprises cloth, leather, wool, hemp, 3D woven material and the like.

The shape of the fully flexible stress sensor is not limited, and the fully flexible stress sensor comprises a square, a rectangle, a circle, an ellipse, a rhombus and the like.

The fully flexible stress sensor is not limited in structure. As one implementation, the fully flexible stress sensor is an elastic sensor, including but not limited to an elastic capacitive sensor, an elastic resistive sensor, or an elastic inductive sensor. When the fully flexible stress sensor is an elastic capacitance sensor, the elastic capacitance sensor comprises an elastic substrate layer, a first conductive layer, a second conductive layer, an elastic dielectric layer and an elastic packaging layer;

the elastic substrate layer has conductive insulation;

the first conducting layer is positioned on the surface of the elastic base layer, consists of conducting liquid, conducting slurry, conducting fibers, conducting wire cloth, conducting adhesive tape and conducting gel and is connected with an external first electrode;

the elastic dielectric layer has conductive insulativity and is positioned on the surface of the first conductive layer;

the second conducting layer is positioned on the surface of the elastic dielectric layer, consists of conducting liquid, conducting slurry, conducting fibers, conducting wire cloth, conducting adhesive tape and conducting gel and is connected with an external second electrode;

the elastic packaging layer is used for packaging the first conducting layer and the second conducting layer.

The elastic packaging layer has conductive insulation and is used for packaging the second conductive layer.

The elastic base layer material is not limited, and comprises one or more of thermoplastic elastomer (TPE), thermoplastic polyurethane elastomer rubber poly (TPU), dimethyl siloxane (PDMS), aliphatic aromatic random copolyester (Ecoflex), silica gel, rubber, hydrogel, polyurethane, and polyethylene octene co-elastomer (POE).

The material of the elastic dielectric layer is not limited and includes elastic polymer material and the like. More preferably, the elastic dielectric layer is made of one or more of thermoplastic elastomer (TPE), thermoplastic polyurethane elastomer rubber poly (TPU), dimethyl siloxane (PDMS), aliphatic aromatic random copolyester (Ecoflex), high molecular polymer resin, silica gel, rubber, hydrogel, polyurethane, and polyethylene octene co-elastomer (POE).

The material of the elastic packaging layer is not limited and includes elastic polymer materials and the like. More preferably, the elastic insulation layer is made of one or more of thermoplastic elastomer (TPE), thermoplastic polyurethane elastomer rubber poly (TPU), dimethyl siloxane (PDMS), aliphatic aromatic random copolyester (Ecoflex), high molecular polymer resin, silica gel, rubber, hydrogel, polyurethane, and polyethylene octene co-elastomer (POE).

The conductive liquid is not limited, such as liquid metal, conductive ink, and the like.

The conductive gel is not limited, such as graphite conductive gel, silver gel, and the like.

The conductive fiber is not limited, such as conductive carbon fiber, conductive silver fiber lamp.

The conductive cloth is not limited, such as conductive silver cloth, conductive graphene cloth, conductive copper cloth, and the like.

The conductive tape is not limited, such as a conductive cloth tape, a conductive aluminum foil tape, a conductive copper foil tape, and the like.

The conductive paste is not limited and includes graphene paste, mixed paste of a conductive material and an elastomer, and the like. The mixed slurry of the conductive material and the elastomer includes, but is not limited to, a mixed slurry of a liquid metal and an elastomer, a mixed slurry of carbon powder and an elastomer, a mixed slurry of carbon fiber and an elastomer, a mixed slurry of graphene and an elastomer, a mixed slurry of a metal powder and an elastomer, and the like.

The liquid metal refers to a metal conductive material which is liquid at room temperature, and includes but is not limited to mercury, gallium-indium alloy, gallium-indium-tin alloy, and one or more doped gallium-indium alloy, gallium-indium-tin alloy and the like of transition metal and solid nonmetal elements.

The first electrode is used for conducting and connecting with an external device, and the materials of the first electrode are not limited and include metal materials, conductive cloth, graphene, graphite conductive adhesive, silver adhesive, liquid metal, a circuit board and the like.

The second electrode is used for conducting and connecting with an external device, and the materials of the second electrode are not limited and include metal materials, conductive cloth, graphene, graphite conductive adhesive, silver adhesive, liquid metal, a circuit board and the like.

Preferably, the sandbag cover is composed of multiple layers, and the fully flexible stress sensor is arranged between two adjacent layers. As one implementation mode, the fully flexible stress sensor and the sand bag sleeve are fixed together through sewing, hot pressing, bonding and other methods.

Preferably, the intelligent sandbag comprises 2 or more than 2 fully flexible stress sensors. Preferably, the fully flexible stress sensor is centered on a fully flexible stress sensor, which is referred to as a sensor a, one fully flexible stress sensor is located on the left side of the sensor a, one fully flexible stress sensor is located on the right side of the sensor a, one fully flexible stress sensor is located right above the sensor a, and one fully flexible stress sensor is located right below the sensor a.

Preferably, the data processing device is disposed at a position avoiding the hitting portion, for example, at the bottom of a sandbag.

As an implementation manner, the data processing apparatus further includes a voice conversion module, the control module sends a voice conversion instruction after processing the relevant data of the stress, and the relevant data of the stress is converted into voice information through the voice conversion module, so as to implement voice interaction with the user. In addition, the intelligent sandbag can be used for the following motions: hit the position and be controlled along with control module by control module, control module control voice conversion module broadcast hits the position of hitting, and the user hits the appointed region of voice broadcast, hits then voice conversion module will hit information conversion and report for voice message under control module effect, and the score adds 1 to voice conversion module is reported for voice message with this score information conversion.

As an implementation mode, the intelligent sandbag further comprises a display module, the control module sends a display instruction after obtaining the relevant data of the stress according to the received stress change, and the relevant data of hitting is displayed through the display module.

Preferably, a light emitting body is arranged around the fully flexible stress sensor. The shape of the light-emitting body is not limited, and comprises a square, a rectangle, a circle, an ellipse, a rhombus and the like. The luminous body is not limited and comprises an LED lamp, a halo, a light band and the like. When the fully flexible stress sensor is arranged between the two layers of the sand bag sleeves, light emitted by the luminous body can penetrate through the sand bag sleeves. The control module can control the on-off and the brightness of the luminous body. At this time, the following movement can be performed by using the intelligent sandbag:

the control module controls the luminous bodies to be randomly lightened, a user strikes the lightened area, the luminous bodies in the area are extinguished when the user strikes the lightened area, and otherwise, the luminous bodies are kept lightened.

Utilize a plurality of these intelligent sand bags can carry out the athletic movement: at the moment, the data processing device in each intelligent sandbag comprises a display module and/or a voice conversion module and also comprises a data transmission and receiving module; the users correspond to the intelligent sandbags one to one, one user strikes one intelligent sandbag, a competitive game starts, the luminous bodies in the intelligent sandbags are randomly lightened under the action of the control module, when the user hits the lightened area, the luminous bodies in the area are extinguished, the score of the user is increased by 1, the display module displays the score, and/or the voice conversion module converts the score information into voice information to be broadcasted, after a certain time, the competitive game is ended, the control module in each intelligent sandbag transmits the score information to the receiving module through data transmission, and after comparison, the person with high score wins, the display module displays winning information, and/or the voice conversion module broadcasts the winning information in a voice mode.

In addition, the intelligent sand bag can be used as a control terminal of an electronic game device, a moving body appears on a display terminal when the electronic game device is used for playing a game, and the motion of the moving body is controlled through the control terminal. For example, the intelligent sandbag comprises 5 fully flexible stress sensors, one fully flexible stress sensor is taken as a center and is marked as a sensor A, and a sandbag area corresponding to the sensor is marked as a center area; a full flexible stress sensor is positioned at the left side of the sensor A, and the area of the sand bag corresponding to the sensor is marked as the left area; a full-flexibility stress sensor is positioned at the right side of the sensor A, and the area of the sand bag corresponding to the sensor is marked as the area of the right side; a full-flexible stress sensor is positioned right above the sensor A, and the area of the sand bag corresponding to the sensor is marked as an upper area; a fully compliant stress sensor is located directly below sensor a, and the area of the sandbag corresponding to this sensor is designated as the lower area. When a user strikes 5 different areas of the sandbag, the control module obtains striking positions according to the data and sends a control instruction to control the movement of the moving body, and the striking positions and the control instruction have the following corresponding relation:

the moving body is stationary in place when the center area is struck;

the moving body moves leftward when hitting the left area;

the moving body moves rightward when hitting the right area;

the moving body moves upward when the upper area is hit;

the moving body moves downward when the lower area is hit.

Namely, the moving direction of the moving body in the display terminal of the electronic game device can be controlled through the hitting motion of the user, so that the combination of the body-building motion and the game is realized, and the intelligence and the interestingness of the motion are increased.

To sum up, the utility model discloses integrated fully flexible stress sensor in the sand bag, when the user hit the sand bag, fully flexible stress sensor surveys the stress change, obtains the relevant data of stress after data processing device gathers, handles, has following beneficial effect:

(1) the sandbag body is flexible, and the flexible stress sensor is combined, so that the fully flexible intelligent sandbag is realized, the sandbag can be kneaded and bent, a user feels comfortable when the sandbag is used for beating, no foreign body sensation or hard texture exists, and the problem that the exercise interest of the user is greatly reduced due to the fact that the user experiences inappropriately is solved;

(2) the data information related to striking can be obtained while the user moves, and the data information can be converted into voice broadcasting and/or screen display and the like, so that the technological sense and the multimedia sense are greatly increased;

(3) the utility model discloses an intelligence sand bag can regard as electronic game equipment's control terminal, hits the terminal input instruction who hits the relevant information conversion of hitting that catches in hitting the motion with the user to control the object in the electronic game equipment, realized that body-building motion and recreation combine together, increased the intelligence and the interest of motion.

Drawings

Fig. 1 is a schematic structural diagram of the intelligent sandbag in example 1.

Fig. 2 is a functional structure diagram of the data processing device of the intelligent sandbag in embodiment 1.

Fig. 3 is a schematic cross-sectional structure diagram of the fully flexible stress sensor of the intelligent sandbag in embodiment 1.

Fig. 4 is a schematic cross-sectional structure diagram of the sand bag sleeve and the fully flexible stress sensor in embodiment 1.

Fig. 5 is a schematic structural diagram of the intelligent sandbag in embodiment 2.

Fig. 6 is a schematic structural diagram of the intelligent sandbag in embodiment 3.

The reference numerals in fig. 1-6 are: the flexible sensor comprises a sandbag body 10, a sandbag cover 11, a fully flexible stress sensor 20, an elastic base layer 21, a first liquid metal layer 22, an elastic dielectric layer 23, a second liquid metal layer 24, an elastic packaging layer 25, a data processing device 30, a data acquisition module 31, a control module 32, a voice conversion module 33, a power supply 40, a support 50, a display module 60, a light-emitting body 70, a first elastic layer 111 and a second elastic layer 112.

Detailed Description

The present invention will be described in further detail with reference to the following drawings and examples, which are not intended to limit the invention, but are intended to facilitate the understanding of the invention.

Example 1:

as shown in fig. 1, the intelligent sandbag comprises a sandbag body 10, a fully flexible stress sensor 20, a data processing device 30 and a power supply 40.

The sandbag body 10 is set on the stand 50. The periphery of the sandbag body 10 is wrapped with a sandbag sleeve 11.

A power supply 40 supplies power to the data processing apparatus.

As shown in fig. 2, the data processing apparatus 30 includes a data acquisition module 31, a control module 32 and a voice conversion module 33.

In this embodiment, the fully flexible stress sensor 20 is a capacitive elastic stress sensor. As shown in fig. 1, the intelligent sandbag comprises 5 capacitive elastic stress sensors, and the 5 capacitive elastic stress sensors are separately arranged.

Taking a full-flexibility stress sensor as a center, marking the sensor A, and marking a sandbag area corresponding to the sensor as a center area; a full flexible stress sensor is positioned at the left side of the sensor A, and the area of the sand bag corresponding to the sensor is marked as the left area; a full-flexibility stress sensor is positioned at the right side of the sensor A, and the area of the sand bag corresponding to the sensor is marked as the area of the right side; a full-flexible stress sensor is positioned right above the sensor A, and the area of the sand bag corresponding to the sensor is marked as an upper area; a fully compliant stress sensor is located directly below sensor a, and the area of the sandbag corresponding to this sensor is designated as the lower area.

As shown in fig. 3, each capacitive elastic stress sensor is a laminated structure, and is composed of an elastic substrate layer 21, a first liquid metal layer 22, an elastic dielectric layer 23, a second liquid metal layer 24, and an elastic encapsulation layer 25 from bottom to top. In this embodiment, the first liquid metal layer 22 and the second liquid metal layer 24 are made of the same material, and the elastic base layer 21, the elastic dielectric layer 23 and the elastic encapsulation layer 25 are made of the same material. The preparation method of the capacitive elastic stress sensor can be as follows: respectively and uniformly coating a liquid metal material on one surface of each of the two elastic substrates, respectively attaching the surfaces of the two elastic substrates coated with the liquid metal to the upper surface and the lower surface of the elastic dielectric layer, and integrally forming the elastic substrates, the liquid metal and the dielectric material in a hot pressing mode.

In this embodiment, as shown in fig. 4, in order to experience boxing exercise well, the sand bag cover is made of a thin elastic material, and the sand bag cover is composed of two layers, i.e., a first elastic layer 111 and a second elastic layer 112. The fully flexible stress sensor 20 is arranged between two layers of the sandbag cover, specifically, the elastic substrate layer 21 and the first elastic layer 111 are fixed together by sewing, hot pressing, bonding and the like, and the elastic packaging layer 25 and the second elastic layer 112 are fixed together by sewing, hot pressing, bonding and the like.

In this embodiment, the liquid metal has a conductivity of better than 3.8 × 10⁶s/m。

In this embodiment, the data acquisition module is a digital capacitive chip FDC2214, and the capacitance value is directly read, so that high-precision and fast measurement is realized.

In this embodiment, the control module performs data processing by using STM32F103C8T 6.

In this embodiment, the power supply 40 is an external 5V power adapter.

In this embodiment, the circuit substrates of the data acquisition module and the control module are polyimide.

When a user strikes the sandbag, the capacitive elastic stress sensor is squeezed to cause capacitance change, and the data acquisition module is connected with the stress sensor and used for acquiring capacitance data of the stress sensor changing along with striking and sending the capacitance data to the control module. The control module obtains relevant data of striking stress according to the capacitance change, such as striking force, striking position, consumed energy and the like, then sends a voice broadcast display instruction to the voice conversion module, converts the relevant data of the striking stress into voice information through the voice conversion module for broadcast, and performs voice interaction with a user.

Example 2:

in this embodiment, the structure of the sandbag is substantially the same as that of the sandbag in embodiment 1, except that in this embodiment, as shown in fig. 5, the sandbag further includes a display module 60. In this embodiment, the display module 60 is a touch liquid crystal display device and is disposed on the surface of the sandbag cover.

When a user strikes the sandbag, the capacitive elastic stress sensor is squeezed to cause capacitance change, and the data acquisition module is connected with the stress sensor and used for acquiring capacitance data of the stress sensor changing along with striking and sending the capacitance data to the control module. The control module obtains relevant data of striking stress according to the capacitance change, such as striking force, striking position, consumed energy and the like, then sends a display instruction to the display module, displays the data through the display module, sends a display voice broadcast instruction to the voice conversion module, and converts the relevant data of the striking stress into voice information through the voice conversion module for broadcast.

Example 3:

in this embodiment, the sandbag structure is substantially the same as that in embodiment 1, except that in this embodiment, as shown in fig. 6, a light emitter 70 is disposed around each capacitive elastic stress sensor. The light 70 is an LED lamp and the emitted light can penetrate the sandbag cover. The data processing device 30 further comprises a light driving module 71, and the control module is connected to the light driving module.

In this embodiment, the functions of the data acquisition device and the data processing device are the same as those of embodiment 1. In this embodiment, utilize this sand bag to play the ground mouse game, 5 luminous bodies 70 of control module through luminous body drive module random lighting, the user hits the region of lighting, hits under the control module effect then the luminous body in this region will extinguish, voice conversion module will hit information conversion this and hit and report into voice information, and the score adds 1, display module shows the score to voice conversion module will be scored information conversion this and be voice information reports.

Example 4:

in this embodiment, the sandbag structure is substantially the same as the sandbag structure in embodiment 1, except that in this embodiment, a voice conversion module of the sandbag is used to play a groundmouse game, the hitting position is controlled by the control module at any time, the control module controls the voice conversion module to play the hitting position, a user hits a region designated by voice playing, the hitting information is converted into voice information by the voice conversion module to be broadcasted when the user hits the sandbag under the action of the control module, the score is added by 1, the score is displayed by the display module after the completion, and the score information is converted into voice information by the voice conversion module to be broadcasted.

Example 5:

in this embodiment, the sandbag structure is substantially the same as that of embodiment 1. What is different from the above, in this embodiment, the sports game is performed by using sandbags, two sandbags are called a sandbag a and a sandbag B, the structure of the sandbag a is basically the same as that of the sandbag in embodiment 3, the structure of the sandbag B is basically the same as that of the sandbag in embodiment 3, the data processing devices 30 in the different sandbags a and the sandbags B further include a wireless data transmission and reception module, and the control module in the sandbag a and the control module in the sandbag B perform score information transmission through the wireless data transmission and reception module.

In this embodiment, the sports game is started, the illuminants in the sandbag a and the sandbag B are randomly lighted under the action of the control module, the user a strikes the area with the light in the sandbag a, the user B strikes the area with the light in the sandbag B, the illuminants in the hitting area are extinguished under the action of the control module, the voice conversion module converts the hitting information into voice information to be broadcast, the score is added by 1, the display module displays the score after the completion, and the voice conversion module converts the score information into voice information to be broadcast. After a certain time, the sports game is ended, the control module in the sand bag A and the control module in the sand bag B transmit score information through the wireless data transmission and receiving module, and after comparison, the person with high score wins, and the voice conversion module converts the winning information into voice information to broadcast.

Example 6:

the embodiment provides an electronic game device, wherein a mobile body appears at a display terminal when a game is played by the electronic game device, the motion of the mobile body is controlled by a control terminal, the control terminal adopts the sandbag in the embodiment 1, when a user hits 5 different areas of the sandbag, a control module obtains a hitting position according to the data and sends a control instruction to control the movement of the mobile body, and the hitting position and the control instruction have the following corresponding relation:

the moving body is stationary in place when the center area is struck;

the moving body moves leftward when hitting the left area;

the moving body moves rightward when hitting the right area;

the moving body moves upward when the upper area is hit;

the moving body moves downward when the lower area is hit.

The above-mentioned embodiment is right the technical scheme and the beneficial effect of the utility model have been explained in detail, it should be understood that above only be the concrete embodiment of the utility model, and not be used for the restriction the utility model discloses, the fan is in any modification and improvement etc. that the principle within range of the utility model was done all should be contained within the protection scope of the utility model.

Claims (13)

1. The utility model provides an intelligence sand bag, includes the sand bag body and wraps up the sand bag cover of the sand bag body, characterized by: the device also comprises a fully flexible stress sensor and a data processing device;

the fully flexible stress sensor is used for detecting information change caused by stress action when the sandbag is hit;

the data processing device comprises a data acquisition module and a control module,

the data acquisition module is used for acquiring the information change and sending the information change to the control module,

and the control module receives the information change, processes the information change to obtain the relevant data of the stress, and sends a control instruction.

2. The intelligent sandbag of claim 1 wherein: the full-flexible stress sensor is arranged on the sand bag sleeve.

3. The intelligent sandbag of claim 1 wherein: the fully flexible stress sensor is an elastic capacitance sensor, an elastic resistance sensor or an elastic inductance sensor.

4. The intelligent sandbag of claim 3 wherein: the elastic capacitive sensor includes an elastic base layer having a conductive insulation property; the first conducting layer is positioned on the surface of the elastic substrate layer and is composed of conducting liquid, conducting slurry, conducting fibers, conducting wire cloth, conducting adhesive tape or conducting gel; an elastic dielectric layer with conductive insulation property and positioned on the surface of the first conductive layer; the second conducting layer is positioned on the surface of the elastic dielectric layer and is composed of conducting liquid, conducting slurry, conducting fibers, conducting wire cloth, conducting adhesive tape or conducting gel; and the elastic packaging layer has conductive insulation and is used for packaging the first conductive layer and the second conductive layer.

5. The intelligent sandbag of claim 1 wherein: the fully flexible stress sensor is square, rectangular, circular, oval or rhombic.

6. The intelligent sandbag of claim 2 wherein: the sand bag cover is composed of a plurality of layers, and the fully flexible stress sensor is arranged between two adjacent layers.

7. The intelligent sandbag of claim 1 wherein: the intelligent sandbag comprises 2 or more than 2 fully-flexible stress sensors.

8. The intelligent sandbag of claim 7 wherein: in the fully flexible stress sensor, a fully flexible stress sensor is taken as a center and is marked as a sensor A, one fully flexible stress sensor is positioned on the left side of the sensor A, one fully flexible stress sensor is positioned on the right side of the sensor A, one fully flexible stress sensor is positioned above the sensor A, and one fully flexible stress sensor is positioned below the sensor A.

9. The intelligent sandbag of claim 1 wherein: the data processing device is disposed at a position avoiding the striking portion.

10. The intelligent sandbag of claim 1 wherein: the data processing device also comprises a voice conversion module, the control module sends a voice conversion instruction after obtaining the stress related data, and the stress related data is converted into voice information through the voice conversion module.

11. The intelligent sandbag of claim 1 wherein: the intelligent sandbag further comprises a display module, the control module sends a display instruction after obtaining the relevant data of the stress, and the relevant data of the stress are displayed through the display module.

12. The intelligent sandbag of claim 1 wherein: and a luminous body is arranged around the fully flexible stress sensor.

13. An electronic game apparatus including a display terminal that displays a moving body and a control terminal that controls movement of the moving body, characterized in that: the control terminal is the intelligent sandbag of any one of claims 1 to 12.

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