WO2016050212A9

WO2016050212A9 - Stadium having movable unit and method thereof

Info

Publication number: WO2016050212A9
Application number: PCT/CN2015/091205
Authority: WO
Inventors: 戴见霖
Original assignee: 戴见霖
Priority date: 2014-07-10
Filing date: 2015-09-30
Publication date: 2016-05-26
Also published as: CN105298168A; WO2016050212A1; CN204590684U; CN105251198A; CN105275230A; TWI711752B; CN105275230B; CN105298168B; TWM527029U; CN105332525A; CN204663050U; CN105251198B; CN105239801A; CN204663049U; TW201612390A; CN105332525B

Abstract

A stadium having movable units (10), comprising a stadium body having a space (92B); the stadium body further comprises a top cover (83B) and at least one wall apparatus (93B); the top cover (83B) covers the space (92B); the wall apparatus (93B) is disposed at one side of the space (92B). A method of assembling the stadium having movable units comprises: determining the type of a movable stadium; grouping wall units according to the type; and assembling the wall units into a wall apparatus (93B). The stadium having movable units has a simple structure, is easy to assemble, and improves the utilization of the movable units.

Description

Venue with flow unit and method thereof

Technical field

The present invention relates to a stadium, and more particularly to a venue having a flow unit and a method for managing a flow unit, wherein the flow unit is detachably disposed in the venue to replace the provided service by replacing the flow unit, wherein Assembling the flow unit can form a mobile venue where the flow unit can be dispatched to other buildings to provide services. The use efficiency of the flow unit is improved by the management method of the flow unit.

Background technique

As people's living standards improve, people are paying more and more attention to health. As a result, more and more people are exercising by participating in a variety of sports. Therefore, people's demand for sports venues is also growing. In particular, sports venues such as badminton halls and table tennis halls. The existing sports venues are fixed at a certain location, and people need to come to the sports venue for sports. Although sports like badminton only need open space. But building a badminton hall requires land resources. Moreover, land is a scarce resource, especially in large and medium-sized cities in China. However, there are many idle land in large and medium-sized cities in China. These idle land may be developed quickly and may remain idle, which means that the idle time of these idle land cannot be determined. If you set up a sports hall on these idle land, you can benefit people living near idle land. However, if a fixed sports hall is set up on these idle land, when the idle land needs to be developed, the fixed sports hall needs to be dismantled, resulting in waste. But how to use these idle land to solve the problems that are lacking in sports venues, there is no solution so far.

In some companies, it also focuses on enriching the lives of employees, such as regular badminton competitions. But not every company has a badminton hall. Therefore, renting a venue for the competition is the only option. If only one venue is rented, only the employees participating in the competition will participate in the badminton competition. If you rent the entire venue, although more employees can participate in the badminton competition, the cost of renting a fixed venue will become another problem. It takes more to build a badminton venue. However, some companies have open space for temporary activities. Even parking lots can be used for temporary activities. There are many sports that require temporary venues. Although temporary sites were built in an open space for activities. It can then be dismantled after use to restore the original land use. However, the impact of construction and demolition on the land may affect the original use of the land. Moreover, during the construction and disassembly process, the waste generated needs to be additionally cleaned, which indirectly increases the cost of holding the event.

Some development projects may require many employees to live in a fixed place for a while. The movable board room has become the first choice for employees to live. The movable board room only considers the employee's living problems and does not take into account the physical and mental health of the employees. Construction. Although employees can spend their leisure time watching TV or board games in the activity board room, the activity board room cannot provide venues for employees to carry out sports activities, such as badminton and table tennis. Lack of exercise for employees can affect work efficiency. However, the movable board room cannot provide employees with sports such as badminton or table tennis. Although the movable board room can be reused, it is easy to move. However, the mobile board room needs to be attached to other transport devices for storage and movement to another location. In other words, the mobile board room requires additional carriers for transportation. The movable board room is a set of designs. That is to say, a set of movable board houses are designed according to the number of rooms and structures required. If the mobile board room is installed, an additional room is required. For this mobile board room, it is also difficult to implement. It may be necessary to reinstall. If the set of movable board houses is multi-layered, only one room is added, and the overall structure must be considered, which is difficult to achieve. Increasing the number of rooms according to the number of floors will cause waste.

The badminton courts in the fixed badminton hall are fixed, and it is very difficult to add additional venues. Even if the venue is added, it is costly. However, in some areas, the demand for these badminton venues during certain periods of time has caused some venues in the badminton hall to be idle, such as cold weather or rainy weather. At the same time, the demand for these badminton courts is still large in another area. Such as sunny or warm weather. If the badminton courts that are idle in cold weather areas can be used in warm weather areas, the utilization rate of the badminton courts is improved. However, it is impossible to achieve a fixed sports venue.

Fixed venues generally only have a single function. If you want to change the function of the venue, you just need to make a big construction of the venue. If the fixed badminton hall is converted into an indoor swimming pool, it is necessary to make a large construction of a fixed badminton hall, such as building a swimming pool. The conversion of a fixed swimming pool into a badminton hall will also result in a large construction, which will cost a lot of money. Nowadays, there is no technical solution that only needs to be changed to change the use of the venue. For example, the badminton hall is changed to a swimming pool, and the swimming pool is changed to a badminton hall.

Containers are used in large quantities for transportation, but containers also have a lifespan. That is to say, there are a large number of containers that exceed the service life and need to be processed. How to deal with a large number of containers that exceed the deadline is also a problem. The exterior coating of the container is made of special paint. If the problem of the container exceeding the deadline is not handled well, it will cause serious environmental problems. Moreover, the amount of processing is huge, and the processing cost required is also enormous. There is currently no solution that saves on processing costs and has less environmental pollution.

In a fixed venue, if you need to add a service at a certain location, you need to renovate at this location to add equipment to provide new services. If you need to exchange services in two locations, you need to renovate both locations so that both locations can provide service. Moreover, during the renovation, the service provider cannot provide services to the customer. Customers cannot enjoy the service. Other services in the venue were also affected. This is a three-losing situation. If there is a replaceable unit in the venue, the unit can be renovated by another place. After the decoration is completed, the unit at this position is replaced. The venue will soon be able to offer new services. If you need to swap two locations, then swap the two locations. service provider Service can be provided immediately, customers can enjoy the service quickly, and the service of the venue is rarely affected. This is a win-win situation. But there is no such venue now. Moreover, if the unit is required to have services elsewhere, the unit can be removed from the venue and moved to a place where service is required to provide services. After the service is completed, it is installed back to the venue. However, there are no such venues at present and there are no such units.

Summary of the invention

It is an object of the present invention to provide a mobile venue that provides a set of flow units that are assembled to form a flow base having a body space for activity.

Another object of the present invention is to provide a mobile stadium that facilitates transportation. The group of flow units facilitates assembly to form the mobile stadium, and is also detachable from the mobile stadium to the group of flow units, thereby flowing through the flow unit. In order to make the mobile venue flow to another destination.

Another object of the present invention is to provide a mobile stadium that provides at least two pedestal side walls, and a space between the two pedestal walls forms the shed space for the event.

Another object of the present invention is to provide a mobile stadium for providing a performance platform, and the flow unit can be assembled to form the performance platform.

Another object of the present invention is to provide a mobile stadium that provides four base sidewalls, four base sidewalls surrounding the gallery space, the mobile stadium providing a waterproof device, the waterproof device being disposed The bottom of the pavilion space forms a swimming pool.

Another object of the present invention is to provide a mobile stadium that provides a unit space for providing an energy supply component to provide electrical energy to the mobile venue.

Another object of the present invention is to provide a mobile stadium that provides a unit space for providing a water treatment device to provide water for the mobile venue.

Another object of the present invention is to provide a mobile badminton hall that can be moved from one place to another, thereby adjusting the number of mobile badminton halls according to the needs of the badminton halls in various places to meet the demand for the badminton hall. .

Another object of the present invention is to provide a mobile badminton hall that provides a flow base that provides at least one flow platform for badminton.

Another object of the present invention is to provide a mobile badminton hall, which provides a mobile pavilion body supported by the mobile base to form a pavilion space for setting the mobile platform for badminton. .

Another object of the present invention is to provide a mobile badminton hall, wherein the flow base provides at least one flow unit that facilitates flow so that the flow badminton hall flows by flowing each of the flow units To the destination.

Another object of the present invention is to provide a mobile badminton hall, wherein the flow platform provides at least two platform elements, the platform elements are disposed on the flow unit to be flowed to the destination by the flow unit, and then connected to the two Platform elements to form the flow platform.

Another object of the present invention is to provide a mobile badminton hall in which, for ease of flow, the flow platform can be divided into a plurality of platform units adapted to be disposed on the flow unit so as to be flowed by the flow unit to destination.

Another object of the present invention is to provide a mobile badminton hall in which the flow unit provides a unit space for providing services.

Another object of the present invention is to provide a mobile badminton hall in which the two connected flow units have spaces to communicate to provide services in an extended space.

Another object of the present invention is to provide a mobile badminton hall in which the mobile badminton hall is adjusted by adjusting the number of the flow units.

Another object of the present invention is to provide a mobile badminton hall in which the number of the flow platforms is adjusted by adjusting the number of flow units.

Another object of the present invention is to provide a mobile badminton hall wherein the flow unit provides a flow assembly that provides a set of wall members that are detachably coupled to form the unit space.

Another object of the present invention is to provide a mobile badminton hall in which the flow assembly provides a component frame to facilitate mounting of the wall member.

Another object of the present invention is to provide a mobile badminton hall wherein the flow frame provides a set of corner connectors and a set of wall connectors to facilitate mounting of the wall members.

Another object of the present invention is to provide a mobile badminton hall wherein the flow unit provides a support adjustment device for supporting the flow assembly for supporting the flow assembly.

Another object of the present invention is to provide a mobile badminton hall in which the support adjustment device can be housed in the unit space to facilitate flow.

Another object of the present invention is to provide a mobile badminton hall wherein the support adjustment means can position the bottom wall of each of the flow components connected to each other at the same level.

Another object of the present invention is to provide a mobile badminton hall in which the flow unit provides a detection control device for detecting and controlling the state of the support adjustment device. Another object of the present invention is to provide a mobile badminton hall, wherein the flow unit is provided with at least one energy supply device to form a flow energy supply unit for supplying energy Measured to the mobile badminton hall.

Another object of the present invention is to provide a mobile badminton hall in which the flow unit is provided with at least one water treatment device to form a flowing water unit to supply water to the mobile badminton hall.

Another object of the present invention is to provide a mobile badminton hall in which the flow energy supply unit connects the flow water unit to form the flow platform.

Another object of the present invention is to provide a mobile badminton hall, wherein the flow unit is provided with at least one cooling and heating system to form a flow cooling and heating device to supply cooling and hot air to the flow unit, so that the mobile badminton hall is provided. Adjust the temperature in the space to the temperature suitable for badminton.

Another object of the present invention is to provide a mobile badminton hall in which the detection control device provides a positioning device for acquiring the position of the flow unit.

Another object of the present invention is to provide a mobile badminton hall in which the detection control device provides a communication device for communicating with other of the flow units to cooperate.

Another object of the present invention is to provide a mobile badminton hall in which the flow unit provides a motion providing device to allow the flow unit to flow by itself.

Another object of the present invention is to provide a mobile badminton hall in which the flow unit provides a navigation device to direct the flow unit to a predetermined purpose.

Another object of the present invention is to provide a mobile badminton hall, wherein the mobile gym body provides a set of connection support members and a plurality of gallery wall members, the connection support members are spaced apart from the flow platform, and the gallery wall members are disposed Between the wall elements of the hall.

Another object of the present invention is to provide a mobile badminton hall in which the mobile pavilion provides a top cover that is supported by each of the connecting supports.

Another object of the present invention is to provide a stadium having a flow unit, the stadium having a flow unit providing a hall body and at least one flow unit, the flow unit being detachably disposed in the hall body.

Another object of the present invention is to provide a stadium having a flow unit, wherein the hall body provides at least one unit accommodating chamber detachably housed in the unit accommodating chamber.

Another object of the present invention is to provide a venue having a flow unit that provides a hall space that is disposed on one side of the hall space.

Another object of the present invention is to provide a stadium having a flow unit that provides a plurality of wall devices, each of which is disposed on one side of the hall space. The unit receiving chamber is provided to the wall device.

Another object of the present invention is to provide a venue having a flow unit, wherein the flow unit is further provided A set of wall elements and a flow unit frame, each of the wall elements being disposed to the flow unit frame to form the unit space.

Another object of the present invention is to provide a stadium having a flow unit, wherein the flow unit further provides at least one service component, the service component being disposed in the unit space.

Another object of the present invention is to provide a stadium having a flow unit, wherein the service component is provided to at least one energy supply device, the energy supply device being disposed in the unit space.

Another object of the present invention is to provide a stadium having a flow unit, wherein the service assembly further provides a water treatment device, a display device, a rest assembly, a guiding device, and an air conditioning device for selection.

Another object of the present invention is to provide a stadium having a flow unit, wherein the flow unit provides a management device for detecting and controlling the state of the flow unit. The management device further provides a communication device to facilitate communication with other flow units to cooperate.

Another object of the present invention is to provide a venue having a flow unit, wherein the flow unit provides a navigation device for directing the flow unit to a destination to provide service.

Another object of the present invention is to provide a stadium having a flow unit, wherein the venue having the flow unit provides a movable platform that is disposed at the bottom of the hall space to facilitate movement.

Another object of the present invention is to provide a stadium having a flow unit, wherein the hall body further provides a top cover and at least one wall device covering the hall space, each wall device being disposed on the hall body One side of the space.

Another object of the present invention is to provide a stadium having a flow unit, wherein the wall device provides a set of flow units, each of which is disposed on one side of the hall space.

Another object of the present invention is to provide a stadium having a flow unit, wherein the top cover further includes a top cover support frame, at least one cover and a set of top cover support members, each of the top cover support members supporting the top cover A support frame that supports each of the covers.

Another object of the present invention is to provide a stadium having a flow unit, wherein the wall assembly provides a unit support that is disposed between the two top cover supports.

Another object of the present invention is to provide a stadium having a flow unit, wherein the unit holder provides at least one unit receiving chamber for receiving the flow unit.

Another object of the present invention is to provide a stadium having a flow unit, wherein the wall assembly provides an additional wall that provides a flow unit opening for providing the flow unit.

Another object of the present invention is to provide a stadium having a flow unit in which the body space is adjusted by the movement of the flow unit opening in the flow unit.

Another object of the present invention is to provide a mobile venue that can be disassembled into at least two flow orders Yuan, transporting the mobile venue by transporting each of the flow units.

Another object of the present invention is to provide a mobile stadium that provides a flow base having a body space for movement, wherein the flow base can be detached into at least two of the bases Side wall.

Another object of the present invention is to provide a mobile stadium wherein the base sidewall can be detached into at least one layer assembly, wherein adjacent layer assemblies are connected in a stacked manner.

Another object of the present invention is to provide a flow venue in which the layer assembly can be disassembled into at least one of the flow units, wherein two adjacent flow units are joined to form the layer assembly.

Another object of the present invention is to provide a mobile stadium in which the mobile base provides a flow platform, wherein the mobile platform can preset site features.

It is another object of the present invention to provide a mobile venue wherein the mobile platform further provides additional venue features that can be placed in the mobile venue.

Another object of the present invention is to provide a mobile stadium in which the gallery space is provided with at least one partition wall formed by at least one of the flow cells, the gallery space being divided into two different regions.

It is another object of the present invention to provide a flow field wherein the flow platform provides a set of platform elements for transport, the platform element providing an element body and at least two element supports, the two supporting the element body, wherein The component body has a set of through holes.

Another object of the present invention is to provide a mobile venue that can provide a venue platform for various sports activities such as badminton, soccer, swimming, and stage, conference, and the like to cater for the needs of use.

Another object of the present invention is to provide a mobile venue that can be conveniently moved to navigate to various destinations to meet the venue platforms required for various temporary activities without long-term occupation of environmental venues. In order to solve the diversified use of limited environmental space resources.

Another object of the present invention is to provide a mobile venue that can be obtained by rapid assembly and that can be quickly disassembled for convenient provision of a venue platform.

Another object of the present invention is to provide a mobile stadium comprising an energy supply unit, which is capable of supplying water and power to the mobile stadium to complete the use conditions of the mobile stadium.

In order to achieve the above object, the present invention provides a mobile venue comprising:

a flow base having a body space for carrying out activities; wherein

The flow base further includes a plurality of flow cells assembled to form at least two base sidewalls, the gallery space being formed between the two base sidewalls.

The base sidewall further includes at least one layer of components, wherein when the base sidewall includes at least two layer assemblies, The first layer assembly is configured to support another layer assembly to form the base sidewall in such a superimposed manner. The layer assembly includes at least one of the flow units, wherein when the layer assembly includes at least two of the flow units, one of the flow units is coupled to one end of the other flow unit to form the layer assembly. The flow unit further includes a flow assembly having a unit space for providing service, wherein the flow assembly further includes a component frame and a set of wall members, each of the wall members being detachably mounted to the assembly frame to The unit space is formed. The flow unit further includes a service component disposed within the unit space to provide a corresponding service. The service assembly includes an energy supply component disposed within the unit space such that the flow unit supplies electrical energy to the flow venue. Wherein the service component includes a water treatment device disposed in the unit space such that the flow unit provides a water treatment service to the mobile venue, wherein the water treatment device further includes a water supply device, The water supply device is coupled to an external water source to provide domestic water to the mobile stadium, wherein the mobile stadium includes at least one of the flow units provided with the water treatment device.

In order to achieve the above object, the present invention provides a mobile badminton hall comprising:

a flow base comprising at least one flow platform for performing badminton; wherein

The flow base further includes at least two flow units that form one of the flow platforms by connecting the two flow units, wherein the flow base is adjusted to provide service by adjusting the number of flow units.

The mobile badminton hall further includes a mobile pavilion supported by the mobile base, wherein the mobile pavilion is disposed on the mobile platform to form a pavilion space, and the flow is adjusted according to the number of the mobile platform The body of the hall, thereby adjusting the space of the hall to facilitate the provision of services.

The flow unit further includes a flow assembly further including a component frame and a plurality of wall members, each of the wall members being detachably mounted to the assembly frame to form a unit space for service.

The flow unit further includes a platform member detachably disposed to the flow assembly, wherein the flow platform is formed by joining at least two platform members.

The flow unit further includes a support adjustment device detachably supporting the flow assembly for maintaining stability of the flow assembly, wherein the support adjustment device is disposed when the flow unit is flowed The unit space of the flow component is to facilitate flow.

In order to achieve the above object, the present invention provides another mobile badminton hall comprising:

a flow base, the flow base further comprising at least two base side walls, the two bases being spaced apart to form a body space between the two side walls of the base for badminton movement, wherein The base sidewall further includes at least one flow unit that adjusts the gallery space by adjusting the flow unit.

The flow base further includes at least one flow platform disposed in the hall space for feathering Ball movement, wherein the flow platform further comprises at least two platform elements, the platform element being detachably disposed to the flow unit to facilitate flow with the flow unit, wherein the platform element is from the flow unit After disassembly, the space is moved to the hall to form the mobile platform for badminton.

The flow base includes a four-base side wall, and the base side wall surrounds the hall body space for badminton movement, wherein the base side wall further includes at least two flow units, and the flow unit is adjusted to adjust the The flow hall space.

The flow base further includes at least one flow platform disposed in the hall space for badminton movement, wherein the flow platform further includes at least two platform members, the platform member being detachably disposed on the flow unit In order to flow with the flow unit, wherein the platform element is detached from the flow unit and moved to the hall space to form the flow platform for badminton.

The mobile badminton hall of the present invention includes a flow base including at least one flow unit that can be placed in the transport device to facilitate flow of the flow unit. The flow base is adjusted to provide service by adjusting the number of flow units. The flow base includes at least one flow platform for badminton. The flow platform includes at least two platform elements that are interconnected to form the flow platform. The platform element is disposed in the flow unit to facilitate flow with the flow unit. The flow badminton hall of the present invention is facilitated to flow to each destination by means of flowing each flow unit. After reaching each destination, the mobile badminton hall of the present invention is formed by connecting the flow units. The flow unit has a unit space for setting up each service component. Service components include, but are not limited to, energy supply devices, water treatment devices, display devices, and rest components. The energy supply device is disposed in the unit space of the flow unit such that the flow unit supplies electrical energy to the mobile badminton hall. It is worthwhile that the flow unit provided with the energy supply device can also be applied to the community power supply. For example, if the community suddenly loses power, the flow unit that sets the energy supply device can be called to supply power. A water treatment device is disposed in the unit space of the flow unit such that the flow unit provides a water supply service to the mobile badminton hall and processes the sewage. The flow unit provided in the water treatment device can also be applied to water supply to the community or to the disaster area when a disaster occurs. Similarly, the flow unit provided with the energy supply device can also supply power to the disaster area in the event of a disaster. The flow unit is convenient because it is easy to flow. The flow unit is further provided with a sanitary component and a cooking component to provide a solution to the health problems and hunger problems that arise during disaster relief. The display device is disposed in a unit space of the flow unit for displaying items in the mobile badminton hall for selection. A rest assembly is placed in the flow unit to provide a resting area for people to rest. The mobile platform is used for badminton. The badminton platform features a badminton court. Preferably, the badminton platform is provided with a standard badminton court. To facilitate flow, the badminton platform is divided into at least two platform elements. For example, the badminton platform is divided into two platform elements. Or divide the badminton platform into four platform components. Or divide the badminton platform into six platform components and the like. When each platform component reaches the destination At the time, each platform component is connected to form the mobile platform for badminton activities. The divided platform elements can be divided according to the size of the flow unit to match the flow unit such that the platform element also facilitates flow. Therefore, the number of the flow platforms can be adjusted by adjusting the number of the flow units as needed. When the demand for the badminton court is large, the mobile platform can be increased by increasing the flow unit to meet the demand. When the demand is reduced, the number of flow units can be reduced, thereby reducing the flow platform. The reduced flow unit is flowed to an area that is in high demand for the badminton court, thereby increasing the utilization of the flow unit. The unit space connecting the two units to the flow unit can be connected to expand the service space and improve the service. Further, the mobile badminton hall may be customized as needed, such as selecting the flow unit provided with the energy supply device and the flow unit provided with the water treatment device to constitute the flow platform. For another example, the flow unit provided with a plurality of display devices is selected to constitute the flow platform. Thereby providing a variety of services. The invention further includes a flow gallery body disposed on the flow platform to reduce the impact of weather on badminton. Moreover, the mounting components of the flow gallery body can be placed in the cell space of the flow cell, with which the flow cell flows. That is to say, the unit space of the flow unit is available for accommodating articles when flowing. In addition, due to the large-scale amateur badminton event in an unprecedented number of places, the number of badminton venues already in the area is far less than the number required for the badminton event. Therefore, it is impossible to undertake such a large-scale event. And we can apply the mobile badminton hall to temporarily move the nearby mobile badminton hall to the contractor, and we can quickly increase the number of badminton halls in the area in a short time. Moreover, when the event is over, it can be temporarily assembled to the mobile badminton hall in the area in a short period of time, and it is convenient to return to it for use.

In order to achieve the above object, the present invention provides a venue having a flow unit, comprising:

a library body having at least one unit receiving cavity; and

At least one flow unit detachably received in the unit receiving chamber to enable the flow unit to be dispatched to its preset destination to provide service.

Wherein, the hall body further has a hall body space, and each of the unit accommodating cavities is respectively disposed at one side of the hall body space.

Wherein the hall body further comprises a set of wall devices, each of the wall devices being disposed on one side of the hall body space to surround the hall body space, wherein the unit receiving cavity is disposed on the Wall device.

Wherein, the flow unit further has a unit space, wherein when the flow unit is disposed in the unit accommodating chamber, the unit space is disposed on one side of the hall space.

Wherein, the flow unit further comprises a set of wall elements and a flow unit frame, each of the wall elements being detachably disposed on the flow unit frame to form the unit space.

a library body, the library body has a library space, wherein

The hall body further includes a top cover and at least one wall device, wherein the top cover covers the hall body space, and the wall device is disposed at one side of the hall body space.

Wherein the wall device further comprises a set of flow units, the flow unit having a unit space, each of the flow units being stacked to form the wall device, wherein each of the flow units is disposed in the hall space On one side, the unit space is disposed on the same side of the hall space as the corresponding flow unit.

The top cover further includes a top cover support frame, at least one cover and a set of top cover support members, and each of the top cover support members respectively supports the top cover support frame, and the top cover support frame supports each Covering.

Wherein the wall device further comprises at least one unit support, the unit support being disposed between the two top cover support frames, wherein the unit support further comprises a set of unit receiving chambers, the flow unit being received The unit housing cavity.

Wherein the flow unit further comprises a set of wall elements and a flow unit frame, each of the wall elements being disposed on the flow unit frame to form the unit space.

Wherein the wall element is detachably disposed on the flow unit frame.

The flow unit further includes at least one service component, and the service component is disposed in the unit space.

Wherein, the service component includes an energy supply device, and the energy supply device is disposed in the unit space.

a hall body, the hall body having a hall body space, wherein the hall body further comprises a set of wall devices, each of the wall devices being disposed on one side of the hall body space to surround the hall body space Wherein the wall device further comprises a plurality of flow units, each of the flow units forming a wall device, the flow unit having a unit space, the unit space being disposed on one side of the hall space.

The hall body further includes a top cover covering the hall body space, wherein the top cover further comprises a top cover support frame, at least one cover and a set of top cover support members, each of the The top cover support members respectively define the top cover support frame, and the top cover support frame supports each of the covers.

a library body having an activity space for activities, wherein

The hall body further includes at least two wall devices respectively disposed on two sides of the movable space to form the movable space between the two wall devices, wherein the wall device further comprises at least one layer assembly. The layer assembly has a layer of space that is placed on one side of the active space.

Wherein the layer assembly further comprises at least one wall unit, the wall unit further comprising a flow component having a unit space, wherein the layer space is divided into at least one of the unit spaces, the flow component and the corresponding The unit space is disposed on one side of the active space.

Wherein, when the wall device comprises at least two of the layer components, the wall device is adjusted by adjusting a connection relationship of the layer components, wherein the height of the wall device is adjusted by stacking the layer components, by juxtaposed The layer assembly is sized to adjust the width of the side wall of the base.

Wherein the length of the wall device is adjusted by adjusting the length of the layer assembly, wherein the wall unit is added, and the wall unit is connected to the wall unit included in the layer assembly to increase the length of the wall device, and the wall unit is removed One of the wall elements of the layer assembly to reduce the length of the layer assembly.

The invention also provides a mobile venue, characterized in that it comprises:

a library body with an activity space;

The hall body further includes at least one wall device disposed at a lower portion of the movable space, wherein the wall device further includes at least one component, the layer assembly forming the wall device by a side-by-side connection, wherein the wall device The layer assembly further includes at least one wall member, the adjacent two wall members being interconnected to form the layer assembly, the wall member further comprising a flow assembly having a unit space, the unit space being disposed below the active space .

Wherein one of the layer components further comprises a flow energy supply unit, the flow energy supply unit being disposed below the active space.

Wherein one of the layer components further comprises a flowing water treatment unit, the water treatment unit being disposed below the active space.

Wherein, the flow component further comprises a component frame and a set of wall elements fixed to the component frame to form the cell space.

The invention also provides a method for establishing a mobile stadium, comprising the following steps:

Step 1: Determine the flow unit required to establish a mobile venue;

Step 2: Flowing each of the mobile units participating in the assembly of the mobile venue to a destination; and

Step 3: Assemble each of the flow units to establish the mobile venue.

The step 1 further includes the following steps:

Step 11: Determine the type of the mobile venue;

Step 12: Determine how the mobile venue is established; and

Step 13: Determine the type and number of the flow unit required to establish the mobile venue.

The step 3 further includes the following steps:

Step 31: Determine to assemble according to the number of layers of the mobile stadium or install in units of the base side wall. If it is determined to be assembled according to the number of layers of the mobile stadium, perform step 32, if it is determined to be performed on the base side wall Install, go to step 33;

Step 32: assembling according to the number of layers of the mobile stadium to form the mobile venue; and

Step 33: Assemble the base side of the base to form the mobile stadium.

The invention also provides a method for assembling a mobile stadium, characterized in that it comprises the following steps:

Step A: Determine the type of a mobile venue;

Step B: grouping each of the flow units according to the determined type of the mobile venue; and

Step C: Assemble each of the flow cells to form a flow susceptor.

Wherein, after step C, further comprising step D:

Step D: Assembling a top cover, the top cover is placed on the flow base such that the top cover is supported by the flow base.

Wherein, after step D, further comprising step E:

Step E: Assemble the mobile platform.

The step B further includes the following steps:

Step B1: determining the number of divided base sidewall groupings according to the determined number of the base sidewalls included in a flow base of the mobile stadium;

Step B2: dividing each of the flow units assembled on the same base side into the same base sidewall group;

Step B3: respectively determining the number of layers of each of the side walls of the base; and

Step B4: Each of the flow units belonging to the same layer component is divided into one layer group in the same base sidewall group.

The step C further includes the following steps:

Step C1: selecting one of the set of base wall groups, and selecting the same in the selected base wall group Each of said flow units of said set of layers;

Step C2: setting each of the flow units selected by the same layer group to a corresponding preset position;

Step C3: assembling each of the selected flow units to form the layer assembly;

Step C4: determining whether there is a separate flow unit in each of the base sidewall groups, and if so, performing step C1, if there is no separate flow unit in each of the base sidewall groups, Then the flow base is assembled.

The step A also includes a step A': flowing a plurality of the flow units to a destination respectively.

The step A' further includes a step A" of disassembling the mobile stadium into a plurality of the flow units.

Step A" further includes the following steps:

Step A1": separating the top cover from the flow base such that the flow base no longer supports the top cover; and

Step A2": Disassemble the flow base.

The step A2" further includes the following steps:

Step A21": determining whether the base base has at least two layers of the base side wall of the layer assembly, and if there are at least two layers of the base side wall of the layer assembly, performing step A22", If the base of each of the bases of the flow base has only one layer of the layer assembly, step A24" is performed, if the base side wall is not present, step A26" is performed;

Step A22": selecting a layer assembly located at the top of at least two layers of the base sidewall of the layer assembly, disassembling the selected layer assembly into at least one of the flow units;

Step A23": return to step A21";

Step A24": selecting the layer assembly of the flow base of the layer assembly having only one layer of the layer assembly, disassembling the selected layer assembly into at least one of the flow units;

Step A25": return to step A21";

Step A26": disassembling the mobile platform, disassembling the mobile platform into a plurality of platform components; and

Step A27": The platform element is placed on the flow unit.

The step A1" further includes the following steps:

Step A11": disassembling the top cover into a top frame and at least one covering; and

Step A12": further splitting the top frame into a set of sub-brackets to facilitate accommodation in the unit space of the flow component of the flow unit.

Step A' further includes the following steps:

Step A1': providing the cover and each of the sub-brackets to the flow component of the flow unit Unit space; and

Step A2': Each of the flow units is moved to a destination, respectively.

To achieve the above object, the present invention provides a mobile stadium comprising at least one first forming wall, the first forming wall optionally providing or enclosing at least one action platform to provide space for various activities, Such as various sports, event venues and exhibition halls.

The first forming wall further includes a sub-wall unit, the sub-wall unit further comprising:

a first set of wall elements;

a second set of wall elements;

a ledge member, wherein the second set of wall members are movably mounted to the first set of wall members to form a receiving cavity between the first set of wall members and the second set of wall members, The action platform is selectively formed on a surface of the first set of wall elements and the second set of wall elements, or in the receiving cavity, the first set of wall elements and the second set of wall elements are mounted The ledge element to form the sub-wall unit, the ledge element determining the first set of wall elements and the second set of wall element structural forms and reinforcing the first set of wall elements and the The strength of the second set of wall elements.

In another case, the first forming wall further includes at least two sub-wall units, the sub-wall unit forming the first forming wall by arrangement and combination, and the action platform is selectively formed in each of the sub-ports a space enclosed by the wall unit or the surface of the sub-wall unit, wherein the sub-wall unit further comprises:

a first set of wall elements;

a second set of wall elements;

a ledge member, wherein the second set of wall members are movably mounted to the first set of wall members to form a receiving cavity between the first set of wall units and the second set of wall units, The action platform is selectively formed on a surface of the first set of wall elements and the second set of wall elements, or in the receiving cavity, the first set of wall elements and the second set of wall elements are mounted The ledge element to form the sub-wall unit, each of the sub-wall units being detachably connected by the ledge element, the ledge element determining the first set of wall elements and the second The wall element structure is configured to enhance the strength of the first set of wall elements and the second set of wall elements, and the number of the sub-wall units required for the first forming wall can be arranged according to the environment of use. It is worth mentioning that each of the sub-wall units is selectively arranged in a horizontal direction or a vertical direction to form the first forming wall and the action platform in various forms.

The mobile stadium further includes at least one mobile unit that is driven to be movable to transfer to respective destinations, at least one of the sub-wall units being mounted to the mobile unit to move with the The unit is mobile to each destination.

The ledge element further includes:

At least one locking member;

At least one locking groove, the locking member is placed in the locking groove and is always slid along the locking groove, wherein one end of the locking member is always placed in the locking groove, The other end of the locking member extends out of the locking groove and extends into the locking groove of the adjacent one of the sub-wall units to fix the adjacent sub-walls in at least one direction unit.

The locking groove further includes at least one positioning groove, one end of the locking member is movably disposed in the positioning groove to non-slidably fix the locking member in the locking groove to at least one The adjacent sub-wall units are fixed in the direction.

In another aspect, the ledge element further comprises:

a locking member;

a locking groove, wherein the locking member is placed in the locking groove, and when the locking member is applied with a voltage, an electric current is formed in the locking member and is magnetic, and the adjacent arrangement is When the locking members have a reverse current, they are attracted to each other such that the adjacent sub-wall units disposed adjacent to each other do not easily move. Preferably, the locking groove further comprises at least two connecting ends, the connecting end is formed at two ends of the locking groove, and the locking groove of each of the sub-wall units is selectively passed through each of the connecting ends The ends are interconnected or electrically coupled by energizing wires to ensure that current is formed in the locking member. Preferably, the ledge element further comprises a cover layer on the surface of the locking member, the cover layer is isolated from being applied to the locking member when the locking member is applied with a voltage and is magnetic The voltage of the locking member and the magnetic field generated by the locking member.

Preferably, the second set of wall elements are movably mounted to the first set of wall elements to expose or enclose the receiving cavity to communicate with each of the receiving cavities to form the action platform in each of the sub-wall units Between the first set of wall elements and the second set of wall elements, and within the receiving cavity.

Preferably, the mobile stadium further includes an energy supply unit, the power supply unit further comprising;

a power supply device;

A water supply device, wherein the power supply device and the water supply device are disposed in the accommodating cavity to enable the mobile stadium to supply water and power to improve the use conditions of the mobile stadium.

It is worth mentioning that the mobile stadium further comprises a second forming wall detachably mounted to the first forming wall to complete the action platform.

To achieve the above object, the present invention also provides a method for forming a mobile stadium, the method comprising the following steps:

1): at least two sub-wall units are disposed adjacent to each other to obtain a first forming wall, wherein the sub-wall sheets are adjacently disposed The element includes the sub-wall units disposed adjacently, oppositely and spaced apart;

2) adjusting the first forming wall to obtain at least one action platform, wherein the shape of the action platform is transformed by arranging and combining or increasing or decreasing the number of the sub-wall units .

It is worth mentioning that the action platform is selectively formed in a space surrounded by each of the sub-wall units according to use, or formed on the first forming wall and the second forming wall of each of the sub-wall units. surface.

The step 1) further includes the following steps:

1.1): locating the sub-wall unit to the mobile unit;

1.2): driving the mobile unit to acquire the first forming wall.

The step 2) further comprises the step 2.1) of driving the mobile unit to adjust the shape of the movable platform by adjusting the first forming wall.

The step 2) of the step 2) is also a step of adjusting the sub-wall unit to adjust the first forming wall, wherein the adjustment of the sub-wall unit comprises horizontal and vertical directions. Adjustment.

The method also includes the step of 3) forming a reverse current to the locking member of each adjacent sub-wall unit to reinforce the connection between each of the sub-wall units.

It is worth mentioning that the method further comprises the step of 3) also: extending the other end of the locking member of the sub-wall unit to the locking slot of the adjacent sub-wall unit In order to ensure that each of the sub-wall units easily moves relative to each other in at least one direction.

The step 3) further includes the steps of: arranging one end of the locking member on the positioning groove such that the locking member is non-movably disposed in the locking groove to ensure that each of the sub-wall units is at least in one direction Relative movement easily occurs.

(1) movably connecting a second set of wall units to the first set of wall units to expose the receiving chamber;

(2): at least one sub-wall unit is disposed adjacent to form a first forming wall for acquiring at least one movable platform, wherein the movable platform is selectively formed in the first group of each of the sub-wall units a wall member and a surface of the second set of wall members, or the receiving cavity.

The method also includes the step (3) of adjusting the sub-wall unit to adjust the movable platform, wherein the adjusting of the sub-wall unit includes adjusting the sub-wall unit in a horizontal direction and a vertical direction.

Preferably, the mobile stadium comprises at least one base unit, and the base unit is configured to form the mobile stadium in various forms by arrangement and combination, wherein the base unit further comprises:

a sub-platform unit, at least one of the sub-platform units forming at least one platform unit to provide an active space for use Use; and

a flow unit, wherein the flow unit is movable under external force, the sub-platform unit is detachably mounted to the flow unit and moves with the flow unit, thereby enabling the flow venue to be used for each purpose Move between the ground.

The sub-platform unit further includes a structural wall, the structural wall is configured to enclose a structural cavity, wherein the structural wall further comprises;

a bracket component;

At least one component wall, wherein the component wall is movably mounted to the bracket component to form the structural cavity, the platform unit being selectively formed on a surface of the at least one structural wall or within the structural cavity Locably mounted to the bracket element by the element wall, the element wall being exposed to the structural cavity or enclosing the structural cavity.

It is worth mentioning that when the platform unit is formed by at least two of the sub-platform units, the structural cavities are selectively interconnected in a vertical direction or a horizontal direction or both in a vertical direction and a horizontal direction.

The bracket component further includes at least one support frame and at least one fixing frame, the fixing frame and the component wall are respectively movably mounted to the support frame, and the component wall further comprises at least one fixing member, the fixing The frame is placed in the fixture such that a portion of the element wall and the support frame are maintained at a fixed angle to form the platform unit on the element wall.

The bracket component further includes at least one support frame and at least one fixing frame, the fixing frame and the component wall are respectively detachably mounted on the support frame to expose the structural cavity to each of the structural cavity in parallel Forming the platform unit in the structural cavity.

It is worth mentioning that each of the sub-platform units is selectively placed in the flow unit to form the platform unit or from the flow platform to form the flow unit.

The flow unit includes a brake element that increases the difficulty factor of the flow unit as it moves to ensure that the platform unit does not move easily.

The mobile stadium further includes an energy supply unit, the energy supply unit further includes a first supply unit and a second supply unit, wherein the first supply unit and the second supply unit are respectively respectively Provide water and electricity.

When the element wall includes at least two of the fixing members, the fixing frame is adjustable by mounting the different fixing members to adjust an angle between a portion of the element wall and the support member.

In order to achieve the above object, the present invention also provides a method for forming a mobile stadium, the method comprising the following steps:

i: placing a fixing frame on the fixing member to expose the structural cavity of the sub-platform unit;

Ii: driving the flow unit to adjust the position of the sub-wall unit, wherein the platform unit is formed on the top surface and the side surface of the sub-platform unit, and is also formed in the structural cavity of the sub-platform unit.

The step ii further includes the following steps: adjusting the braking element to fix each of the sub-platform units does not easily move.

a library body having a library space; and

At least one flow unit disposed on one side of the hall to provide service, wherein the flow unit has a flow unit space, and the flow unit space is disposed in the hall space One side.

Wherein the stadium with the flow unit further comprises at least one wall device, the wall device is disposed on one side of the hall body, and the flow unit is disposed on the wall device.

The stadium having a flow unit further includes at least one gallery wall, the gallery wall being disposed on one side of the gallery body, and the gallery space being formed between the wall device and the gallery wall. Wherein, the other wall devices are respectively disposed on corresponding sides of the hall body, and the wall device surrounds the hall body space.

Wherein the wall device is formed by stacking each of the flow cells.

Wherein the wall device further comprises an additional wall, the flow unit being disposed on the additional wall, wherein the additional wall further has at least one flow unit opening, the flow unit being disposed at the flow unit opening .

Wherein the wall device further has at least one flow unit accommodating chamber, and the flow unit is disposed in the flow unit accommodating chamber.

Wherein, the flow unit further comprises a service component, the service component being disposed in the flow unit space to provide a service.

Wherein the service component further comprises an energy supply device, the energy supply device being disposed in the flow unit space to enable the flow unit to provide a power supply service.

Wherein the service component further comprises a water treatment device disposed in the flow unit space to cause the service component to further provide a water treatment service.

Wherein, the flow unit further comprises a management device, the management device is disposed in the flow unit, wherein the management device further comprises a group of monitoring components, a control device and a communication device communicatively connected to each other, The monitoring elements are respectively disposed on the flow unit, and the control device acquires a state of the flow unit by the monitoring element to adjust according to a state of the flow unit, wherein the communication device and the other flow are The communication devices of the unit are communicatively coupled to exchange information to cooperate with other of the flow units.

Wherein, the flow unit further comprises a set of wall elements and a flow unit frame, each of the wall members being disposed in the flow unit frame to form the flow unit space.

Wherein, the flow unit is a container.

Wherein, the flow unit is detachably connected to the hall body, so that the flow unit can be separated from the hall body and sent to a preset destination to provide a service.

And further comprising a management unit, wherein the management unit communicably connects the management devices of each of the flow units to obtain a state of each of the flow units, wherein the management unit is configured according to states of each of the flow units Each of the flow units is arranged to provide a service to a preset destination.

Wherein, the management unit arranges each of the flow units to form at least one wall device, and forms the hall space by setting a position of the wall device.

Wherein the management unit is capable of rearranging each of the flow unit stacks to form a wall device and resetting the position of the wall device to change the use of the hall space.

Wherein further comprising a top cover covering the hall space, wherein the top cover further comprises a top cover body and a set of top cover supports, the top cover support supporting the top cover .

Therein, a cover is further included, and the top cover is supported by the wall device.

DRAWINGS

1 is a block diagram showing the structure of a flow unit of a preferred embodiment of a mobile stadium of the present invention.

2A is a perspective view of a flow unit of a preferred embodiment of the mobile stadium of the present invention.

2B is a perspective view of a flow unit of a preferred embodiment of the mobile stadium of the present invention, depicting an energy supply device disposed in the flow unit.

2C is a perspective view of a flow unit of a preferred embodiment of the mobile stadium of the present invention, depicting a water treatment device disposed to the flow unit.

2D is a perspective view of a flow unit of a preferred embodiment of the mobile stadium of the present invention, depicting a display device disposed on the flow unit.

2E is a perspective view of a flow unit of a preferred embodiment of the mobile stadium of the present invention, depicting a rest assembly disposed on the flow unit.

3 is an exploded view of a flow unit of another preferred embodiment of the mobile stadium of the present invention.

4A is a schematic view of a preferred embodiment of a mobile stadium of the present invention.

4B is a schematic diagram of a preferred embodiment of a mobile stadium of the present invention, depicting the flow unit unfolding the platform element to form the flow platform.

4C is a schematic illustration of a preferred embodiment of a mobile stadium of the present invention depicting the flow unit unfolding to form the flow mobile platform.

4D is a schematic diagram of a preferred embodiment of a mobile stadium of the present invention, depicting two of the flow units deploying the platform elements to form two of the flow platforms.

Figure 5 is a schematic illustration of another preferred embodiment of a mobile stadium of the present invention.

Figure 6 is a schematic illustration of another preferred embodiment of a mobile stadium of the present invention.

Figure 7 is a schematic illustration of another preferred embodiment of a mobile stadium of the present invention.

Figure 8 is a schematic view showing the structure of the connecting support of another preferred embodiment of the mobile stadium of the present invention.

Figure 9 is a schematic illustration of another preferred embodiment of a mobile stadium of the present invention.

Figure 10 is a schematic illustration of another preferred embodiment of a mobile stadium of the present invention.

Figure 11 is a schematic illustration of another preferred embodiment of a mobile stadium of the present invention.

Figure 12 is a schematic illustration of another preferred embodiment of a mobile stadium of the present invention.

Figure 13 is a schematic illustration of another preferred embodiment of a mobile stadium of the present invention.

Figure 14 is a schematic illustration of another preferred embodiment of a mobile stadium of the present invention.

Figure 15 is a schematic illustration of another preferred embodiment of a mobile stadium of the present invention.

Figure 16 is a schematic view showing another preferred embodiment of the mobile stadium of the present invention, illustrating that the mobile venue is a mobile badminton hall.

Figure 17 is a schematic view showing another preferred embodiment of the mobile stadium of the present invention, illustrating that the mobile venue is a mobile badminton hall.

Figure 18 is a schematic view showing another preferred embodiment of the mobile stadium of the present invention, illustrating that the mobile venue is a mobile swimming pool.

19 is a schematic view showing another preferred embodiment of the mobile stadium of the present invention, illustrating that the mobile venue is a mobile swimming pool, and the mobile swimming pool is divided into two areas.

20 is a schematic view showing another preferred embodiment of the mobile stadium of the present invention, illustrating that the mobile stadium is a mobile swimming pool, and the mobile swimming pool is divided into two regions.

Figure 21 is a schematic illustration of another preferred embodiment of the mobile stadium of the present invention, depicting the formation of an outdoor swimming pool after reassembly by the mobile swimming pool.

Figure 22 is a schematic illustration of another preferred embodiment of the mobile stadium of the present invention, depicting the formation of an outdoor swimming pool after reassembly by the mobile swimming pool.

23 is a schematic diagram of another preferred embodiment of a mobile stadium of the present invention, depicting an embodiment of the mobile stadium roof.

Figure 24 is a block diagram of another preferred embodiment of a mobile stadium of the present invention, depicting the structure of the service component.

Figure 25 is a block diagram of another preferred embodiment of the mobile stadium of the present invention, depicting the structure of the flow unit.

26 is a schematic diagram of another preferred embodiment of a mobile stadium of the present invention, depicting the mobile venue as a mobile performance venue.

Figure 27 is a schematic illustration of another preferred embodiment of a mobile stadium of the present invention, depicting the mobile venue as a mobile performance venue.

28 is a schematic diagram of another preferred embodiment of a mobile stadium of the present invention, depicting the mobile venue as an open venue with a stepped auditorium.

29 is a flow chart of a method for establishing a mobile stadium according to the present invention.

Figure 30 is a schematic illustration of a preferred embodiment of a venue having a flow unit of the present invention.

Figure 31 is a block diagram showing the structure of a flow cell of a preferred embodiment of a venue having a flow unit of the present invention.

Figure 32 is a schematic illustration of a platform element of a preferred embodiment of a venue having a flow unit of the present invention.

Figure 33 is a flow diagram showing the flow of a flow unit of a preferred embodiment of a stadium having a flow unit of the present invention.

Figure 34A is a schematic illustration of a top cover of another preferred embodiment of a stadium having a flow unit of the present invention.

Figure 34B is a schematic illustration of another preferred embodiment of a venue having a flow unit of the present invention.

Figure 35 is a flow diagram showing the flow of a flow unit of another preferred embodiment of a stadium having a flow unit of the present invention.

Figure 36 is a schematic illustration of another alternative of the top cover of another preferred embodiment of a stadium having a flow unit of the present invention.

37 is a schematic illustration of another alternative form of a top cover of another preferred embodiment of a stadium having a flow unit of the present invention.

38 is a schematic illustration of a flow unit of another preferred embodiment of a stadium having a flow unit of the present invention.

Figure 39 is a schematic illustration of another preferred embodiment of a stadium having a flow unit of the present invention.

Figure 40 is a schematic illustration of another preferred embodiment of a venue having a flow unit of the present invention.

Figure 41 is a schematic illustration of another preferred embodiment of a stadium having a flow unit of the present invention, depicting the flow unit being removed from the hall space.

42 is a schematic diagram of another preferred embodiment of a mobile stadium of the present invention, depicting the mobile stadium providing indoor soccer sports.

Figure 43 is a schematic illustration of another preferred embodiment of a mobile stadium of the present invention depicting the mobile stadium providing indoor soccer campaigns.

Figure 44A is a schematic illustration of a preferred embodiment of a layer assembly of a mobile stadium of the present invention.

Figure 44B is another preferred embodiment of the layer assembly of the mobile stadium of the present invention.

Figure 45 is a block diagram showing the structure of another preferred embodiment of the flow unit of the mobile stadium of the present invention.

Figure 46 is a block diagram of another preferred embodiment of a mobile venue of the present invention, depicting a block diagram of another alternative of the service component.

Figure 47 is another preferred embodiment of the mobile stadium of the present invention, depicting the use of the mobile stadium as a swimming pool.

Figure 48 is another preferred embodiment of the mobile stadium of the present invention, depicting that the hall space of the mobile stadium is divided into two functional areas by a dividing wall.

49 is a flow chart of a method of assembling a mobile stadium of the present invention.

Figure 50A is another preferred embodiment of the mobile stadium of the present invention, depicting the side walls of the base and the walls of the fixed building forming the hall space.

Figure 50B is another preferred embodiment of the mobile stadium of the present invention, depicting the base side wall and the wall of the fixed building forming the hall space.

Figure 51 is another preferred embodiment of the mobile stadium of the present invention, depicting the mobile stadium as a mobile soccer field.

Figure 52 is a top plan view of another preferred embodiment of the mobile stadium of the present invention.

Figure 53 is a schematic illustration of the platform component of another preferred embodiment of the mobile stadium of the present invention.

Figure 54 is a schematic illustration of another preferred embodiment of a mobile stadium of the present invention, depicting the platform member being disposed on top of the flow unit.

Figure 55 is a schematic illustration of another preferred embodiment of the mobile arena of the present invention.

Figure 56 is a schematic illustration of another preferred embodiment of the mobile arena of the present invention.

Figure 57 is a schematic illustration of a unit fixture of another preferred embodiment of the mobile stadium of the present invention.

Figure 58 is a schematic illustration of another preferred embodiment of the mobile stadium of the present invention illustrating an embodiment of the single fixture.

Figure 59 is a schematic illustration of another preferred embodiment of a mobile badminton hall of the present invention.

Figure 60 is a schematic illustration of another preferred embodiment of a mobile stadium of the present invention.

Figure 61A is a schematic diagram of a layer assembly of another preferred embodiment of the mobile stadium of the present invention.

Figure 61B is a layer assembly of another preferred embodiment of the mobile stadium of the present invention, depicting side-by-side connections to adjust the width of the layer assembly.

Figure 62 is a block diagram showing the structure of another preferred embodiment of the wall unit of the mobile stadium of the present invention.

Figure 63 is a block diagram of another preferred embodiment of a block diagram of the service component of the wall unit of another preferred embodiment of the mobile stadium of the present invention.

Figure 64 is another preferred embodiment of the mobile badminton hall of the present invention.

Figure 65 is a schematic illustration of the platform component of another preferred embodiment of the mobile stadium of the present invention.

Figure 66 is a schematic view of a support frame of another preferred embodiment of the mobile badminton hall of the present invention.

Figure 67 is a schematic view showing another preferred embodiment of the mobile badminton hall of the present invention.

Figure 68 is a schematic illustration of another preferred embodiment of the mobile badminton hall of the present invention.

Figure 69 is a schematic view of a support frame of another preferred embodiment of the mobile badminton hall of the present invention.

Figure 70 is a schematic view of still another preferred embodiment of the mobile stadium of the present invention.

Figure 71 is a perspective view of a sub-wall unit of still another preferred embodiment of the mobile stadium of the present invention.

Figure 72 is another perspective view of a sub-wall unit of still another preferred embodiment of the mobile stadium of the present invention.

Figure 73 is a perspective view of a preferred embodiment of a preferred embodiment of the mobile stadium of the present invention.

Figure 74 is an alternative to a particular embodiment of a preferred embodiment of the mobile stadium of the present invention.

Figure 75 is a schematic view showing another embodiment of another preferred embodiment of the mobile stadium of the present invention.

Figure 76 is a schematic view showing still another embodiment of a preferred embodiment of the mobile stadium of the present invention.

Figure 77 is a top plan view of still another preferred embodiment of the mobile stadium of the present invention.

Figure 78 is a diagram showing the assembly process of still another preferred embodiment of the mobile stadium of the present invention.

Figure 79 is a diagram showing another assembly process of still another preferred embodiment of the mobile stadium of the present invention.

Figure 80 is a perspective view of a sub-platform unit of still another preferred embodiment of the mobile stadium of the present invention.

Figure 81 is a top plan view of a preferred embodiment of a flow field of the present invention.

Figure 82 is a diagram showing the assembly process of another embodiment of a further preferred embodiment of the mobile stadium of the present invention.

Figure 83 is a perspective view showing still another embodiment of a further preferred embodiment of the mobile stadium of the present invention.

Figure 84 is a cross-sectional view showing an alternative embodiment of a further preferred embodiment of the mobile stadium of the present invention.

Figure 85 is a schematic view showing the use of a preferred embodiment of the flow field of the present invention.

Figure 86 is a schematic view showing still another use state of another embodiment of a further preferred embodiment of the mobile stadium of the present invention.

87 is a schematic flow chart of a method for forming a mobile stadium according to the present invention.

88 is a partial flow chart of a method for forming a mobile stadium of the present invention.

89 is a schematic flow chart showing another part of a method for forming a mobile stadium according to the present invention.

FIG. 90 is a schematic diagram showing still another part of the method for forming a mobile stadium according to the present invention.

Figure 91 is a flow chart showing still another part of the method for forming a mobile stadium of the present invention.

FIG. 92 is another schematic flow chart of a method for forming a mobile stadium according to the present invention.

FIG. 93 is still another schematic flowchart of a method for forming a mobile stadium according to the present invention.

detailed description

According to the claims and the disclosure of the present invention, the technical solution of the present invention is specifically as described below.

Figure 3 shows a preferred embodiment of the mobile stadium of the present invention. In this embodiment, the mobile venue is a mobile feather pavilion. The mobile venue includes at least one flow unit 10. The flow unit 10 interconnected is defined as a flow base 90. The flow base 90 is adjusted by adjusting the number of flow units 10 to meet the demand for service. Preferably, at least two flow units 10 are interconnected to form the flow base 90. That is, the flow base 90 includes at least two of the flow units 10. The flow unit 10 includes at least one platform element 911 by connecting the two flow units 10 such that the platform elements 911 of each of the flow units 10 are interconnected for forming a flow platform 91, thereby performing on the flow platform 91. Badminton.

As shown in Figures 1 and 2A, the flow unit 10 includes a flow assembly 30. The flow assembly 30 is conveniently disposed on the transport device as the transport device moves to a destination. The flow assembly 30 has a unit space 34 to provide a containment space as the flow assembly 30 flows with the transport device. The flow unit 10 can stay at a preset destination for a preset time, and the mobile platform 91 is formed by connecting with other flow units 10 to provide a badminton court for badminton. The unit space 34 of each of the flow components 30 serves as a service space to provide service. The flow assembly 30 further includes a component frame 35 and a plurality of wall members 31, each of which is detachably mounted to the assembly frame 35 to form the unit space 34. The assembly frame 35 further includes a set of corner connectors 351 and a set of wall connectors 352. Both ends of the wall connector 352 are fixedly connected to the two corner connectors 352, respectively. Preferably, the set of wall assemblies 31 are mounted to the assembly frame 35 around the unit space 34 forming the regular prisms. Preferably, the four corner connectors 351 and the four wall connectors 352 are joined to form a mounting frame 353 for facilitating the mounting of the wall member 31. It is worth noting that the platform member 911 is detachably mounted to the assembly frame 35. Specifically, the platform member 911 is detachably mounted to the mounting frame 353. That is, the platform member 911 is detachably mounted to the mounting frame 353 as the wall member 31. That is, the platform member 911 is coupled to the wall connection 352 at the corner connector 351, respectively. Preferably, at least one platform member 911 is detachably mounted to the assembly frame 35 to facilitate formation of the flow platform 91 by connecting the flow unit 10. That is, the flow assembly 30 includes at least one platform member 911 to facilitate formation of the flow platform 91. It is worth mentioning that the platform element 911 can be fixed to the wall element 11. When the two flow units 10 are connected to each other, the assembly frame 35 of the flow assembly 30 of each of the flow units 10 is connected to each other to firmly connect the flow units 10. The corner connector 351 has a limiting hole 3511 to facilitate the position of each of the flow units 10 to facilitate connection to form the flow platform 91 for badminton movement.

The flow unit 10 further includes a support adjustment device 20 that removably supports the flow assembly 30 to maintain stability of the flow assembly 30. During the flow unit 10, the support adjustment device 20 is housed in the unit space 34 of the flow assembly 30 to facilitate the flow unit 10 to flow. The support adjustment device 20 further includes a set of support adjustment members 21 detachably mounted to the flow assembly 30 to adjustably support the flow assembly 30 to maintain the stability of the flow assembly 30. . It is worth mentioning that each of the support adjustment members 21 is separately adjusted according to the ground condition to maintain the flow assembly 30 in a horizontal state, thereby facilitating movement by the flow platform 91 formed by connecting the flow unit 10. Each of the support adjustment members 21 is detachably coupled to one of the wall members 31 of the flow assembly 30, respectively. Preferably, each of the support adjustment members 21 and the wall member 31 disposed at the bottom of the flow assembly 30. The support adjustment device 20 further includes a moving support adjustment member 22 that detachably supports the flow assembly 30 to facilitate moving the flow assembly 30 to facilitate fixedly connecting the flow assemblies 30 to form the Flow base 30. As shown in Figure 5.

As shown in Figures 2B-2C, the flow assembly 30 further includes a service assembly 32 that is placed in the unit space 34 of the flow assembly 30 to provide the service. The service component 32 further includes an energy supply device 321 that is secured to the unit space 34 to provide an energy service. The power supply device 321 further includes a power interface 3211 electrically connected to the external power source to supply power to the mobile badminton hall using an external power source. The energy supply device 321 further includes an energy storage device 3212 connected to the power interface 3211 for external power supply. The energy supply device further includes a set of solar panels 3213 that are electrically coupled to the energy storage device 3212 to convert solar energy into electrical energy and then stored in the energy storage device 3212. The energizing device 321 further includes a generator 3214 that can provide electrical energy to meet the needs of the mobile sports hall. The generator 3214 is electrically coupled to the energy storage device 3212 to store electrical energy generated by the generator 3214 in the energy storage device 3212. When a sudden power outage occurs, the energy storage device 3212 can immediately supply power to the mobile badminton hall to maintain the normal operation of the mobile badminton hall. The flow unit 10 in which the energizing means 321 is provided is defined as a flow energizing unit 19. The service assembly 32 further includes a water treatment device 322 disposed in the flow space 34 to provide water services to the mobile badminton hall, such as supplying potable water and providing sewage treatment. The water treatment device 322 further includes a water supply device 3221 that can be connected to an external water source to supply drinking water to the mobile badminton hall. The water treatment device 322 further includes a sewage treatment device 3222 that is coupled to an external sewage treatment system to treat the generated sewage and introduce it to an external sewage treatment system to avoid environmental pollution. The flow unit in which the water treatment device 322 is disposed is defined as the flowing water treatment unit 18. The service component 32 further includes a set of display devices 323. The display device 323 is disposed in the unit space 34 to provide a display service. The flow unit 10 in which the display device 323 is disposed is defined as a flow display unit 17. The wall element 31 of the flow unit 10 in which the display device is disposed has an opening 311 for display. The service component 32 further includes a set of rest components 324 for providing services in the unit space 34. The flow unit 10 that sets the rest assembly 324 is defined as a flow rest unit 16. It is worth mentioning that the flow space 34 of the flow unit 10 can be customized as needed to provide service using the flow space 34. The service assembly 32 is housed within the flow unit 10 during flow to facilitate flow.

As shown in FIG. 1, the flow unit at one step includes a detection control device 40, and the detection control device 40 communicatively connects the support adjustment device 20 to control the support adjustment device 20 to maintain the flow assembly 30. stable. The detection control device 40 further includes a set of monitoring elements 41 and a control device 42. Each of the monitoring elements 41 is communicably connected to each of the support adjustment members 21 such that each of the support adjustment members is communicatively coupled to at least one of the monitoring elements 41, thereby facilitating acquisition of the state of each of the support adjustment members 41 and then transmitting to the control. Device 42. The state of each of the support adjustment members 21 is analyzed by the control device 42, and then each of the support adjustment members 21 is adjusted to maintain the stability of the flow assembly 30. The detection control device 40 further includes a positioning device. The positioning device 43 acquires the position of the flow unit 10. Preferably, the positioning device 43 acquires the real-time position of the flow unit 10. The positioning device 43 transmits the real-time position of the flow unit 10 to the control device 42 to facilitate management of the flow unit 10. The detection control device 40 further includes a communication device 44 communicatively coupled to the control device 42 for facilitating exchange of information with other of the flow units 10 for cooperative operation. That is, a plurality of the flow units 10 exchange information through each of the communication devices 44 to facilitate cooperative operation. The flow unit 10 receives a predetermined scheme via the communication device 44 and then transmits it to the control module 42. The control device 42 analyzes the preset scheme, and acquires the location of the flow unit by the positioning device to obtain an estimated arrival time of the flow unit 10 to reach a preset destination. Then, the information of the flow unit 10 and the preset arrival time are coordinated by the communication device 44 with other flow units that receive the preset solution to obtain a preset stop position and the flow unit after reaching the destination. The default connection method for other flow units. In other words, the communication device 44 can analyze the preset scheme, obtain a preset destination, an estimated stay time at the preset destination, a position to stay at the preset destination, and a preset space for accommodating the motion space 34. status. It is worth mentioning that the communication means adopted by the communication device 44 include, but are not limited to, Wi-Fi, Li-Fi, satellite networks, communication networks and the Internet.

The flow unit 10 further includes a power providing device 50 that can power the flow unit 10 to allow the flow unit 10 to flow by itself. The power supply device 50 is connected to the detection control device 40. The detection control device 40 controls the power supply device 50 to provide power. Specifically, the detection control device The control device 42 of the set 40 controls the motion providing device 50 to provide motion. Preferably, if the flow unit is provided with the energy supply device 321, the side energy supply device 321 is connected to the power supply device 50 to provide energy to the power supply device 50 to cause the power supply device 50 to generate motion. Preferably, the energy storage device 3212 of the energy supply device 321 supplies energy to the power supply device 50. The power supply device 50 is coupled to the mobile support adjustment member 22 to provide power to the mobile support adjustment member 22. The flow unit 10 further includes a navigation device 60 communicatively coupled to the detection control device 40 to direct the mobile unit 10 to a destination. That is, the flow unit 10 can flow from the power supply device 50 and the navigation device 60 to the destination.

As shown in FIG. 3, in the preferred embodiment, two of the flow units 10 are coupled to form the flow base 90, and the flow base 90 is provided with the flow platform 91 for badminton activities. That is, the flow platform 91 includes two platform elements 911 that are respectively disposed on two of the flow units 10. Preferably, the platform element 911 is mounted to the mounting frame 35 of the flow assembly 30 of the flow unit 10. The two flow units 10 are fixedly coupled such that the two platform elements 911 are joined to form the flow platform 90 for badminton movement. It is worth mentioning that the two platform elements 911 are further defined as a first platform element 9111 and a second platform element 9112, respectively. That is, in the preferred embodiment, the mobile platform 10 includes a first platform element 9111 and a second platform element 9112. The first platform element 9111 and the second platform element 9112 are connected to form the flow platform 91 for performing. Badminton.

As shown in FIG. 4A, in the preferred embodiment, the flow unit 10 includes two platform members 911, one of which is mounted to the assembly frame 35 of the flow assembly 30, and the other platform member 911 is It is detachably fixed to the outside of the assembly frame 35. Preferably, the platform element 911 is mounted on top of the assembly frame 35, and the other platform element 911 is disposed on the outside of the top of the assembly frame 35 in overlapping with the platform element 911. As shown in FIG. 4B, another platform member 911 can be moved away from the flow unit 10 and then supported by each of the support adjustment members 21 to be coupled to the platform member 911 and at the same level to form the flow platform 91. Conduct badminton. The two flow units 10 are connected such that the other platform element 911 of the flow unit 10 is coupled to another of the platform elements 911 of the other flow unit 10 to form the flow platform 91 for badminton movement. Furthermore, when the other platform element 911 of the flow unit 10 is moved away from the flow unit 10, it is then supported by each of the support adjustments 21 such that the other platform element 911 of the flow unit 10 and the flow unit 10 The platform element 911 is coupled to form the flow platform 91 for badminton movement. It is worth mentioning that by adjusting each of the support adjustment members 21, the surface of the other platform member 911 of the flow unit 10 is at the same level as the surface of the platform member 911 of the flow unit 10 to facilitate badminton movement. And the other of the platform elements 911 of the flow unit 10 is moved away from the flow unit 10 and then supported by each of the support adjustment members 21 such that another of the platform elements 911 of the other flow unit 10 and the other flow The platform element 911 of the unit 10 is connected to form the mobile platform 91 for Conduct badminton. Specifically, in one of the flow units 10, the first platform element 9111 is mounted to the assembly frame 35 of the flow assembly 30. The second platform element 9112 is mounted to the outside of the assembly frame 35 of the flow assembly 30 and overlaps the first platform element 9111. Preferably, the first platform element 9111 is mounted to the top of the assembly frame 35 of the flow assembly 30. In another such flow unit 10, the second platform element 9112 is mounted to the assembly frame 35 of the flow assembly 30. The first platform element 9111 is mounted to the outside of the assembly frame 35 of the flow assembly 30 and overlaps the first platform element 9111. Preferably, the second platform element 9112 is mounted to the top of the assembly frame 35 of the flow assembly 30. As shown in FIG. 5, the flow platform 90 is formed by connecting the two flow units 10 such that one of the second platform elements 9112 of the flow unit 10 is connected to the first platform 9111 of the other flow unit 10 to form the flow platform 90. For badminton. When the flow platform 90 fails to meet the demand, the second platform element 9112 of the flow unit 10 is moved away from the flow unit 10 and then supported by each of the support adjustment members 22 such that the second platform The element 11 is coupled to the first platform element 9111 of the flow unit 10 to form the flow platform 91. The first platform element 9111 of the other flow unit 10 is moved away from the flow unit 10 and then supported by each of the support adjustment members 22 such that the first platform element 9111 and the second of the other flow unit 10 The platform element 9112 is coupled to form another such flow platform 91 for badminton movement. It is worth mentioning that the first platform element 9111 and the second platform element 9112 are at the same level by each of the support adjustment members to facilitate badminton movement. It is worth mentioning that another platform element 911 of the flow unit 10 can also be placed at the bottom of the flow assembly 10 of the flow unit 10. That is to say, the other platform element 911 is supported by the support adjustment device 21, and the other platform element 911 supports the flow assembly 30.

As shown in Figure 5, another preferred embodiment of the mobile stadium of the present invention. In the preferred embodiment, the mobile venue is used as a badminton hall. In order to facilitate the transport of the mobile platform, the mobile platform is divided into at least two platform elements. In the present embodiment, the flow platform is divided into four platform elements 911. The four platform elements are defined as a third platform element 9113, a fourth platform element 9114, a fifth platform element 9115 and a sixth platform element 9116, respectively. In the preferred embodiment, four of the flow units 10 are connected to form the flow The base 90, wherein each of the flow units 10 has at least one of the platform elements 911. The number of destinations to be established for setting up the mobile badminton hall of the present invention, as well as the number of the flow units 10, is determined. In the present embodiment, four flow units 10 are required to be connected to form the flow base 90, and each of the flow units 10 includes at least one of the platform elements 91. The platform element 91 of the flow unit 10 is connected to form the flow platform 90 for badminton movement. According to the need to set up the mobile badminton hall of the present invention, four flow units 10 are selected. The mobile badminton hall of the present invention needs to supply electric energy and water, and the flow unit 10 provided with the energizing device 321 and the flow unit 10 provided with the water treatment device 322 are selected. That is, the flow energy supply unit 19 and the flowing water treatment unit 18 are selected to provide an energy supply service and a water treatment service. Two more of the flow unit 10 are selected. Worth note It is intended that each of the four platform elements 911 of the selected four flow units 10 can be joined to form the mobile platform 91 for badminton activities. It is worth mentioning that the initial positions of the four flow units 10 can be located at different places. One of the flow units 10 receives the flow badminton hall information through the communication device 44 of the detection control device 40 and then transmits it to the control module 42. The control module 42 analyzes the acquired mobile badminton hall information to obtain destination information. The control module 42 then acquires the real-time position of the flow unit 10 through the positioning device 43. The control module 42 transmits the destination information and the real-time location to the navigation device 60 to obtain a route or estimated arrival time to the destination. One of the flow units 10 transmits the current position, route and estimated arrival time of one of the flow units 10 to the other three of the flow units 10 via the communication device 44 to coordinate a connection scheme. That is to say, during the flow of the four flow units 10, according to the position of the destination, the current position of each of the flow units 10 and the time when each of the flow units is expected to reach the destination, coordinate the stop position at the destination, thereby making When the first arriving flow unit 10 reaches the destination, it is parked to the preset position. And when the last flow unit 10 arriving at the destination is parked to the preset position, four of the flow units 10 are connected to form the flow base 90. The flow unit 10 includes the platform element 911, respectively. After the four flow units 10 are connected to form the flow base 90, each of the platform elements 911 is connected to form the flow platform 91 for badminton activities. Figure 6 shows the process by which the flow unit forms the flow platform. It is worth mentioning that four of the flow units 10 include one of the flow energy supply unit 19 and one of the flow water treatment units 18.

The flow platform 91 is provided with a flow body 80 as shown in FIG. That is, the flow platform 91 serves as the bottom wall of the flow hall body 80. The flow gallery body 80 further includes a gallery wall 82 and a top cover 83. The gallery wall 82 is disposed on the flow platform 91 for supporting the top cover 83. Preferably, the gallery wall 82 is disposed at an edge portion of the flow platform 91, and the height of the gallery wall 82 conforms to the requirement for badminton movement, and the flow hall body 80 provides space for badminton activities. The gallery wall 82 further includes a set of attachment supports 821 and a set of gallery wall elements 822. Both ends of the gallery wall member 822 are detachably connected to the two connection supports 821, respectively, and the connection supports 821 detachably connect the two walls 822. The gallery wall 82 is formed in this manner. Each of the connection supports 821 is detachably fixedly disposed at an edge portion of the flow platform 91, respectively. Preferably, each of the connection supports 821 is fixedly disposed at a corner portion 912 of the flow platform 91. Further, the connection support 81 is provided at the connection portion 913 of the two platform members 911 so as to be fixedly connected to the gallery wall member 821. The top cover 83 further includes a support frame 831 and at least one cover 832. The cover 832 covers the support frame 831 to form the top cover 83. The support frame 831 further includes a set of support ends 8311. The set of support ends 8311 are respectively disposed corresponding to the connection support devices 821 to be supported by the connection support devices 821. It is worth mentioning that the connection support 821 has an inflation channel 8211. An inflator 8212 is provided at the bottom of the connection support device 821 to inflate the inflation passage. As shown in Figure 8. The support frame 831 can be formed by inflation. It is worth mentioning that the wall 82 of the entire mobile pavilion 80 and the top cover 83 can be formed by inflation, as shown in FIG. It is worth mentioning that the entire mobile pavilion body 80 can be formed by charging, as shown in FIG. 13 and FIG.

Figure 10 is another preferred embodiment of the mobile stadium of the present invention. In the preferred embodiment, the mobile venue serves as a mobile badminton hall. A set of flow units 10 are separately flowed to the destination. During the flow, each of the flow units 10 exchanges information through the communication device of the detection control device 40 of each flow unit 10 to coordinate the formation of a flow badminton hall. Each of the flow units 10 arranges the flow unit 10 at a destination according to a scheme for forming a flowing badminton hall to form the flow base 90A. In the present embodiment, the flow base 90A has a hall space 92A for accommodating the flow platform 91A to provide badminton. Specifically, the flow base 90A includes at least two base side walls 93A with a hall space 92A between the two base side walls 93A for badminton activities. The base sidewall 93A further includes at least one of the flow cells 10. In the preferred embodiment, the base side wall 93A includes two of the flow units 10, and the two flow units 10 are interconnected. It is worth mentioning that the wall elements 31 on the side where the two flow units 10 are connected are respectively disassembled so that the unit spaces 34 respectively provided by the two flow units 10 are communicated, thereby facilitating the provision of service. Preferably, each of the moving units 10 detaches the platform element 911A of each of the flow units 10, and each of the platform elements 911A is disposed in the hall space 92A. Each of the platform members 911A is connected to each other in the hall space 92A to form the flow platform 91A for badminton movement. Preferably, each of the platform elements 911A is supported by each of the support adjustment devices 20. Coordinating by the communication device 44 of the detection control device 40 of each of the flow units 10, the control device 42 of the detection control device 40 of each flow unit 10 adjusts the support adjustment device 20 of each of the flow units 10 to The surfaces of each of the platform members 911A are placed at the same level to facilitate badminton. It is worth mentioning that the mobile platform 91 is provided with a mobile pavilion 80A. The flow gallery body 80A further includes a gallery wall 82A and a top cover 83A. The gallery wall 82A is coupled to the flow platform 91A, and the roof 83A is supported by the gallery wall 82A to provide a hall space 92A around the flow platform 91A to meet the requirements for badminton activities. The gallery wall 82A further includes a set of attachment supports 821A and a set of gallery wall elements 822A. This side of the base side wall 93A facing the flow platform 91A is defined as a connection side 931A. The set of connection supports 821A are respectively disposed on the tops of the two side walls of the base. Specifically, the set of connection supports 821A are spaced apart from the top of the connection side 931A of the base side wall 93A. The gallery wall member 822A is detachably disposed between the two connection supports 821A such that the respective gallery wall members 822A disposed on the base sidewalls 93A and the connection side 931A form the flow gallery body 821. Side wall. The top cover 83A further includes a support frame 831A and at least one cover 832A, and the cover 832A covers the support frame 831A to form the top cover 83A. The support frame 831A further includes a set of support ends 8311A. The set of support ends 8311 are respectively arranged corresponding to each The connection support 821A is supported by each of the connection supports 821A. It is worth mentioning that the connection support 821A has an inflation passage 8211A. An inflator 8212A is provided at the bottom of the connection support 821A to inflate the inflation passage. The support frame 831A can be formed by inflation. It is worth mentioning that the two wall members 822A are detachably coupled to the wall connectors 352 of the flow assembly 30 of the flow unit 10 to form one end wall of the flow body 80A. As shown in Figure 10.

It is worth mentioning that if the service provided by the mobile base 90A is not satisfactory, the number of the flow units 10 can be increased to make the flow base 90A meet the demand. The communication unit 44 of the detection control device 40 of one of the flow units 10 of the flow base 90A transmits an increase unit request. It is worth mentioning that in the adding unit request, the destination location, the number of the flow unit need to be increased, and the type of the service component 32 that the flow unit 10 needs to be installed, such as the energy supply device 321 or the water treatment device 322 and so on. When another of the flow unit 10 receives the request for the addition unit through the communication device 44 of the detection control device 40, the other control device 42 that passes the detection control device 40 analyzes the increase of the increase unit request. If the other flow unit 10 meets the increase unit request, the other flow unit 10 issues a response request. The response request includes another type of service component 32 that the flow unit 10 includes, another current location of the flow unit 10, an estimated time to reach the destination, and the like. When the flow unit 10 that issued the request for the increase unit receives the response request, the control device 42 of the detection control device 40 of the flow unit 10 analyzes the response request to determine whether the other flow unit 10 satisfies the demand. If so, the acceptance information is sent to the other of the flow units 10 such that the other flow unit 10 flows to the position of the flow unit 10 after receiving the acceptance information. If the other flow unit 10 does not meet the demand, a rejection message is sent to the other of the flow units 10 to reject the request of the other flow unit 10. The control device 44 of the detection control device 40 of the flow unit 10 further determines whether the required number of flow units 10 is reached. If it is necessary to increase the number of the flow unit 10, the flow unit 10 transmits a stop increase unit request through the communication device 40 of the detection control device 40 to stop receiving the response request sent by the other flow unit 10. When the other flow unit 10 receives the stop increase unit request, the other flow unit 10 stops transmitting a response request to the flow unit 10. It is worth mentioning that, when the flow unit 10 receives a response request from a plurality of the other flow units, the flow unit 10 that is expected to arrive at a short destination time is preferably selected according to the expected arrival time. As shown in FIG. 11, in the preferred embodiment, the flow base 90A requires the addition of two of the flow units 10. It is worth mentioning that the two flow units 10 coordinate the parking positions of the two flow units 10 during the flow to the destination. After the two newly added flow units 10 reach the destination, they are parked according to the coordinated parking position, so that the two flow units 10 are fixedly connected to two of the flow units 10 of the flow base 90A. The two newly added flow units 10 each include the platform element 911. Two of the platform elements 911 and two of the flow units 10 of the flow base 90A are respectively included The platform element 911 is coupled to form another such flow platform 91A to provide badminton service. It is worth mentioning that the two newly added flow units 10 are respectively adjusted by the respective support adjusting devices 20, so that the surfaces of the platform elements 911 connected to form another of the mobile platforms 91A are at the same level, thereby facilitating the operation. Badminton.

If the usage rate of the other mobile platform 91A is degraded, after the service is not required, the newly added two mobile units 10 respectively send idle information through the communication device 44 of the respective detection control device 40 to facilitate receiving the request. When the two newly added flow units 10 receive the acceptance information, the two newly added flow units 10 respectively store the respective support adjustment devices 20 into the respective unit spaces 34 to facilitate the flow. The two newly added flow units 10 are then flowed to another destination. It is worth mentioning that the newly added destinations to which the flow unit 10 is flowed may be different.

Figure 12 is another preferred embodiment of the mobile badminton hall of the present invention. A set of the flow unit 10 is flowed to a preset destination. The flow base 90B is formed according to the position of the flow unit 10 which is arranged by the flow unit 10 in the flow process to form the flow badminton hall. The flow base 90B has a hall space 92B for accommodating the flow platform 90B to provide badminton. According to the need for badminton, the hall space 90B provides at least one of the mobile platforms 91B for badminton. In the present embodiment, the hall space 92B is provided to accommodate two of the mobile platforms 91B for badminton. The flow base 90B includes four base side walls 93B, and four end portions of the base side walls 93B are sequentially connected to surround the hall body space 92B. The base side wall 93B further includes at least two layer assemblies 931B, one of which is fixedly disposed over the other of the layer assemblies 931B to be supported by the other of the layer assemblies 931B. The layer assembly 931B further includes at least two of the flow units 10, the two flow units 10 being interconnected. The adjacent wall elements 31 of the flow unit 10 are respectively disassembled so that the unit spaces 34 respectively provided by the two flow units 10 are in communication. It is worth mentioning that the two wall elements 31 of the flow unit 10 of the two-layer assembly 931B adjacent to the adjacent two base side walls 93B are respectively disassembled to communicate the two flow units of the adjacent two-layer assembly 931B. 10 has the unit space 34, respectively, thereby forming a layer of channels 931B to penetrate the adjacent two-layer group assembly 931B of the adjacent two of the base side walls 93B. It is worth mentioning that the service assembly 12 further includes a stair element 125 for the unit space 34 disposed in the flow unit 10 to communicate with adjacent layer assemblies 931B.

In the preferred embodiment, the hall space 92B provided by the flow base 90B is provided for accommodating the two mobile platforms 91B for badminton activities. That is to say, the hall body space 92B can perform two badminton sports at the same time. The platform member 911 disposed in each of the flow units 10 is detached from each of the flow units, and then each of the platform members 911 is moved to the hall space 92B. Each of the platform elements 911 is then coupled to form the flow platform 91B. It is worth mentioning, Each of the platform members 911 can be provided with the adjustment support device 20 to adjust the adjustment support device 20 for supporting each of the platform members 911, respectively, such that the surfaces of the platform members 911 are at the same level to facilitate badminton. The flow gallery body 80B is provided in the two mobile platforms 91B. Each of the base side walls 93B serves as a gallery wall 82A of the flow hall body 80B. The flow body 80B further includes a top cover 83B. The top cover 83B is supported by the base side wall 93B. The top cover 83B further includes a support frame 831B and a cover 832B that covers the support frame 831B. The support frame 831B is supported by each of the base side walls 93B. It is worth mentioning that the wall element 31 of the flow assembly 30 of the flow unit 10 of the layer assembly 93B at the bottom of the base side wall 93B can be detached to form a passage 932B for access to the flow platform 91B.

Figure 13 shows another preferred embodiment of the mobile badminton hall of the present invention. In the preferred embodiment, the two flow cells 10 are joined to form the flow pedestal 90C. The flow unit 10 receives a preset flow badminton hall plan, and each of the flow units 10 analyzes the preset flow badminton hall plan through the control device 44 of the respective detection control device 40 to obtain predicted destination information. Then, each of the flow units 10 communicates through the respective communication device 44, and the assembly plan at the destination is determined according to the real-time positions of the two flow units 10. Each flow unit 10 is then flowed to the destination. When one of the flow units 10 arrives at the destination after reaching the destination, it is guided to the preset stop location according to the assembly scheme. A set of the support members 221 are then removed from the unit space 34 and mounted to the adjustment device 21, respectively, for stably supporting the flow assembly 30. When the other flow unit 10 is flown to the preset purpose, it is guided to a preset stop to facilitate connection with the flow unit 10. The set of supports 221 is then removed from the unit space 34 of the other flow unit 10 and placed in the adjustment device 21 to keep the other flow unit 10 stable. Then, one side of the selected wall assembly 31 of the flow unit 30 of the other flow unit 10 and one side of the selected wall assembly 31 of the flow unit 30 of the flow unit 10 are moved so that two The flow unit 10 is connected. The selected wall assembly 31 of the flow assembly 30 of the flow unit 10 and the selected wall assembly 31 of the flow assembly 30 of the other flow unit 10 are then disassembled such that the other flow unit 10 has The unit space 34 communicates with the unit space 34 of the flow unit 10 to form a service space 34A. It is worth mentioning that the flow unit 10 of the detection control device 40 controls the control device 42 to cooperate with another flow unit 10 via the communication device 44. By adjusting each of the adjustment supports 221 of the flow unit 10 and each of the support adjustment members 221 of the other flow unit 10, the wall assembly 31 of the flow unit 10 at the bottom of the flow assembly 30 and the other The wall assembly 31 of the flow unit 10 at the bottom of the flow assembly 30 is in the same horizontal plane for ease of movement. The two flow units 10 cooperate by respective detection control devices 20 to maintain the two wallless members 31 of the flow assembly 30 at the bottom in the same horizontal plane. It is worth mentioning that one of the wall elements 31 can be additionally removed to form an opening 314 for accessing the active space 34C. The two flow units 10 are combined This event space 34C is available for activities. The flow unit 10 is coupled to form the flow base 90C.

It is worth mentioning that if the space provided by the flow base 90C cannot meet the demand, the communication device 44 of the detection control device 40 of the flow unit 10 can issue a request to increase the flow unit 10 to increase space. One way of adding the flow unit 10 to the basis of FIG. 2A in a preferred embodiment of the invention illustrated in FIG. The flow body 80C is added to the flow base 90C. The communication device 44 of the detection control device 40 of one of the flow units 10 requests to add two of the flow units 10. The two added mobile units 10 communicate with each other through the respective communication module 44 after receiving the request to facilitate cooperation. Based on the increased position of the two flow units 10, a new assembly scheme is determined. After one of the added flow units 10 has flowed to the destination, the flow platform 91 of the flow unit 10 is placed in accordance with the determined assembly scheme. Then, the two preset wall elements 31 of the two flow components 30 of the two flow units 10 that are connected in advance are respectively disassembled, so that the newly added flow unit 10 has the unit space 34 and another added flow. The unit spaces 34 of the unit 10 are connected to form a new active space 34C. The two newly added flow units 10 are connected to form the flow hall body 80C. The two newly selected two wall elements 31 of the flow unit 10 are respectively disassembled so that the newly added two flow units 10 respectively have the unit spaces 34 communicated to meet the needs. It is worth mentioning that the predetermined wall element 31 of the flow unit 30 of the flow unit 10 can be disassembled and the other flow unit 10 can be disassembled before the flow unit 10 is placed on the flow base 90. The predetermined wall element 31 of the flow assembly 30, such that the newly added two flow units 10 are disposed on the flow base 90 and connected according to a preset scheme, the flow unit 10 has the unit space 34 and The other flow unit 10 has the unit space 34 connected to meet the needs. The two new detection control devices 40 of the two flow units 10 respectively control the corresponding wall elements 31 to adjust to raise the corresponding wall elements 31, so that the height of the newly added movable space 34C meets the requirements for badminton activities. . In addition, a fixture (not shown) may be added between each flow unit 10 to allow the two flow units 10 to be fixedly coupled.

14 and 15 show that the wall element 31 of the flow unit 10 disposed on the side and/or top may be an inflator. In other words, the inflator forms the side of the flow assembly 30 of the flow unit 10 disposed on the side and the top

Figure 16 shows another preferred embodiment of the mobile stadium of the present invention. The mobile stadium includes a flow base 90D having a hall space 92D for badminton. The mobile badminton hall further includes a top cover 83D supported by the flow base 90D to cover the hall body space 92D, thereby reducing the influence of other factors outside the badminton hall on badminton movement, such as weather. factor. The flow base 90D further includes at least two base side walls 93D between which the hall body space 92D is formed for movement, preferably for badminton activities. The top cover 83D is supported by the two base side walls 93D, respectively. Preferably, the flow The base 90D includes four base side walls 93D that are supported by four of the base side walls 93D. Fourth, the base side wall 93 is disposed to form the hall body space 92D for movement. The base sidewall 93D further includes at least one layer assembly 931D. If the base sidewall 93D includes two layer assemblies 931D. Each of the layer components 931D forms the pedestal sidewall 93D in a superposed manner. That is, one of the layer assemblies 931D supports the other of the layer assemblies 931D to form the base sidewall 931D. It is worth mentioning that the layer components 931D are firmly connected by the connecting means. Preferably, the base sidewall 93D includes three of the layer assemblies 931D. That is, the three layer components 931D form the pedestal sidewall 93D in an overlapping manner. In order to facilitate flow, the layer assembly 931D further includes at least one flow unit 10D. In the preferred embodiment, one of the two flow cells 10D is coupled to each other to form the layer assembly 931D. The flow unit 10D facilitates flow, that is, the flow unit 10D facilitates disassembly, assembly, and transportation. That is, the mobile venue can be disassembled into a set of flow units 10D. The mobile venue is flowed to a preset destination in such a manner as to flow the set of flow units 10D, and then the set of flow units 10D is assembled into the mobile venue. It is worth mentioning that the mobile badminton hall can provide services corresponding to the set of service components 32D through a set of service components 32D. Preferably, the service component 32D is disposed in the flow unit 10D to facilitate disassembly, assembly, and transportation with the flow unit 10D as a unit. It is worth mentioning that if the mobile venue cannot meet the service requirements, the demand for the service can be satisfied by adding the flow unit 10D provided with the service component 32D. If some of the mobile unit 10D usage rate is low in the mobile venue, the flow unit 10D can be removed from the mobile venue. It then flows to the flow venue where the flow unit 10D needs to be added to increase the utilization of the flow unit 10D.

As shown in Figure 25, the flow unit 10D includes a flow assembly 30D. The flow assembly 30D further includes a component frame 35D and a set of wall elements 31D that are detachably coupled to the component frame 35D to form a unit space 34D. It is worth mentioning that the two connected flow units 10D respectively disengage the two adjacent wall elements 31D of the flow unit 10D such that the two unit spaces 34D respectively possessed by the two flow units 10D are in communication. By providing communication between the adjacent two unit spaces 34D of the adjacent two flow components 30D, the adjacent two-layer assembly 931D is communicated to facilitate service. By connecting the adjacent two unit spaces 34D of the adjacent two flow components 30D, it is also possible to have more space to set the service component 32D, thereby providing better service. Preferably, the service assembly 32D is disposed in a single flow assembly 30D for ease of disassembly, installation, and transportation with the flow unit 10D to provide flow efficiency for the mobile badminton hall. It is worth mentioning that one of the two opposite wall elements 31D of the flow unit 10D disposed at the bottom of the mobile stadium will be disassembled to form a unit passage 341D through which the stadium is accessed.

As shown in FIG. 24, that is, the flow component 30D further includes at least one service component 32D, the service The service component 32D is disposed in the unit space 34D of the flow component 30D such that the flow unit 34D provides the service of the service component 32D. The service component 32D further includes an energy supply device 321D that can be secured to the unit space 34D such that the flow unit 10D provided with the energy supply device 321D provides an energized service. The energized service refers to providing electrical energy to the mobile badminton hall assembled through the set of unit spaces 34D. The power supply device 321D further includes a power interface 3211D for connecting an external power source to supply power to the mobile badminton hall using an external power source. The energy supply device 321D further includes an energy storage device 3212D electrically connected to the power interface 3211D to store electrical energy. The energy storage device 3212D can be used as a backup power source, and when the external power source stops supplying power to the mobile badminton hall, the energy storage device 3212D supplies power to the mobile badminton hall. The energizing device 321D further includes a set of solar energy harvesting devices 3213D electrically coupled to the energy storage device 3212D. The set of solar energy harvesting devices 3213D acquires solar energy and then converts the solar energy into electrical energy for storage in the energy storage device 3212D. Preferably, the set of solar energy harvesting devices 3213D are disposed outside of the wall member 31D to facilitate collection of solar energy. The energizing device 321D further includes a generator 3214D electrically coupled to the energy storage device 3212D to store the generated electrical energy in the energy storage device 3212D. The generator 3214D can directly supply power to the mobile badminton hall. When the external power source stops supplying power to the mobile badminton hall, the generator 3214D supplies power to the mobile badminton hall. When the external power source resumes supplying power to the mobile badminton hall, the generator 3214D stops supplying power to the mobile badminton hall. When the external power source and the generator 3214D simultaneously stop supplying power to the mobile badminton hall, the energy storage device 3212D supplies power to the mobile badminton hall. The service assembly 32D further includes a water treatment device 322D disposed in the unit space 34D of the flow assembly 30D to provide water treatment services to the mobile badminton hall, such as providing drinking water and purifying the water. The treatment is facilitated for recycling and the sewage is treated. The water treatment device 322D device can be connected to an external water source to provide a water source to the mobile badminton hall. The water treatment device 322D can be connected to an external sewage treatment system to treat the sewage treated in the mobile badminton hall and then discharged to an external sewage treatment system to avoid environmental pollution. The water treatment device 322D further includes a water supply device 3221D that connects the external water source and supplies domestic water to the mobile badminton hall. Further, the water supply device 3221D processes an external water source to supply drinking water. The water treatment device 322D further includes a sewage treatment device 3222D that is connected to an external sewage treatment system to treat the generated sewage and introduce it into an external sewage treatment system to avoid polluting the environment. The water treatment device 322D further includes a water purification device 3223D that is available to purify the water source for recycling. The water purification device 3223D includes at least two fixed connection portions 32231D. One of the fixed joints 32231D directs water into the water purification device 3223D for water purification. The other fixed connection portion 32231D guides the purified water to discharge the water purification device 3223D. The service component 32D further includes a set of display devices 323D disposed in the unit space 34D of the flow component 30D to provide display services. The wall member 31D of the flow unit 10D provided with the display device 34D has an opening 311D for display. The service component 32D further includes a set of rest components 324D for providing services in the unit space 34. The service component 32D further includes a temperature adjustment component 325D to regulate the temperature of the flow venue. The temperature adjustment assembly 325D is disposed within the unit space 34D of the flow assembly 32D to regulate the temperature within the flow venue. It is worth mentioning that the temperature adjustment component 325D can adjust the quality of the air to maintain fresh air in the venue. It is worth mentioning that the unit space 34D of the flow unit 10D can customize the service component 32D as needed to provide service by using the unit space 34D. If a dressing service is required, a dressing service component 326D is customized, and then the dressing service component 326D is placed in the unit space 34D of the flow component 30D of the flow unit 10D to cause the flow unit 10D to provide a dressing service. That is, through the dressing service component 326D, a locker room service can be provided in the flow space 34D. If a toilet is required, a sanitary component 327D is customized and the sanitary service component 326D is then placed in the unit space 34D of the flow component 30D to provide sanitary services. If a cooking service is desired, a cooking component 328D can be customized and then placed in the unit space to provide a cooking service. It is worth mentioning that at least one service component 32D can be disposed in the unit space 34D of the flow component 32D of the flow unit 10D. That is, a plurality of service components 32D can be disposed in the unit space 34D that the flow component 32D has as needed. Preferably, one of the service components 34D is separately disposed within a unit space 34D of the flow component 32D of the flow unit 10D. The flow unit 10D in which the energizing device 321D is provided is defined as a flow energizing unit 19D. The flow unit 10D in which the water treatment unit 322D is disposed is defined as a flowing water treatment unit 18D. The flow unit 10D in which the display device 323D is disposed is defined as a flow display unit 17D. The flow unit 10D in which the rest component 324D is disposed is defined as a flow rest unit 16D. The flow unit in which the temperature adjustment unit 325D is disposed is defined as a flow temperature adjustment unit 15D. The flow unit 10D in which the locker compartment assembly 326D is disposed is defined as the flow locker unit 14D. The flow unit 10D in which the toilet component 327D is disposed is defined as a mobile toilet unit 13D. It is worth mentioning that at least one service component 32D can be disposed in the flow unit 10D to enable the flow unit 10D to serve the mobile badminton hall. Preferably, the mobile venue includes at least one flow energy supply unit 19D, that is, the mobile stadium includes at least one flow unit 10D to provide the energy supply device 321D. The mobile venue includes at least one flowing water treatment unit 322D, that is, the mobile venue further includes a flow unit 10D provided with the water treatment device 322D.

The top cover 83D further includes a support frame 831D and a cover 832D that covers the support frame 831D, and the support frame 831D is supported by each base side wall 93D. Preferably, the cover 832D is soft The waterproof material is made to be received into the unit space 34D of the flow assembly 30D. It is worth mentioning that the support frame 831D can also be received into the unit space 34D of the flow assembly 30D, and moved to the destination along with the flow unit 10D. It is worth mentioning that,

Figure 23 shows another alternative embodiment of the top cover. The top cover 83E further includes at least one support device 831E and at least one cover 832E. The set of support devices 831E are spaced apart from the hall space 92D. Preferably, the support device 831E is disposed at a gap between the two badminton courts. The set of covers 832E are respectively fixed between the two supporting devices 831E for covering the hall space 92D. The support device 831E further includes a main support member 8311E, at least two sub-support members 8312E and at least two connecting members 8313E. The two sub-support members 8312E are respectively disposed on the outer sides of the two base walls 93D. The main support member 8311E It is disposed in the hall space. Preferably, the gap is set at the two badminton courts. The connector 8313E connects the main support 8311E and the sub-support 8312E. The cover 832E is fixedly coupled to the two connecting members 8313E to be fixed between the two supporting devices 831E. It is worth mentioning that one type of the flow unit 10D can be customized such that the length of the flow unit 10D is greater than the distance between the two opposite wall assemblies 93D to be respectively supported by the two wall assemblies, thereby forming The top cover. It is worth mentioning that the top cover can adopt a tension film structure or other structure.

The mobile badminton hall further includes a flow platform 91D disposed at the bottom of the hall space 92D for badminton. It is worth mentioning that at least one badminton court is provided on the mobile platform 91D. In the preferred embodiment, the mobile platform 91D is provided with three badminton courts. The flow platform 91D further includes a set of platform elements 911D. Each of the platform elements 911D is provided with a part of each badminton court. The platform element 911D can be disposed on the flow unit 10D, respectively, with the flow unit 10D flowing to a destination. For example, the platform element 911D is placed in the unit space 34D of the flow component 30D of the flow unit 10D. It is worth mentioning that the platform member 911D can be detachably mounted as the wall member 31D on the assembly frame 35D, thereby improving flow efficiency.

The flow unit 10D further includes a support adjustment device 20D that detachably supports the flow assembly 30D to maintain stability of the flow assembly 30D, the support adjustment device 20D being receivable in the flow assembly 30D Cell space 34D. The support adjustment device 20D further includes a set of support adjustment members 21D detachably mounted to the flow assembly 30D to adjustably support the flow assembly 30D to maintain stability of the flow assembly 30D. It is worth mentioning that the support adjustment member 21D can be mounted on each of the platform members 911D to stably support each of the platform members 911D. It is worth mentioning that each of the support adjustment members 21D can be adjusted such that each of the platform members 911D is at the same horizontal plane, so that the flow platform 91D formed by assembling the platform members 911D facilitates badminton movement.

It is worth mentioning that the flow unit 10D can be customized to various specifications in order to make it flow. In the preferred embodiment, the flow unit 10D includes two gauges, a first flow unit 101D and a second flow unit 102D. Preferably, the type of the first flow unit 101D is a specification of a 20-foot container, and the type of the second flow unit 102D is a specification of a 40-foot container. The type of the first flow unit 101D is the specification of the first type of container, and the type of the second flow unit 102D is the specification of the second type of container. The advantage is that after the next destination is determined, the mobile badminton hall is further determined to be The services provided by the services provided by the destination. Then disassemble the mobile badminton hall. The mobile badminton hall is disassembled and organized into a set of flow units 10D to facilitate flow. The set of flow units 10D are flowed to the next destination, and then the set of flow units 10D are assembled at the destination to form the mobile badminton hall. It is worth mentioning that after the mobile badminton hall is disassembled into a group of flow units 10D, the group of flow units provided with the corresponding service components 32D will be provided according to the services required by the mobile badminton hall of the next destination. 10D flows to the destination. At the same time, a set of containers is prepared in advance at the destination, and is formed in cooperation with the set of flow units 10D provided with the corresponding service components 32D to form another mobile badminton hall. That is to say, the mobile badminton hall is disassembled, and the arranged flow units 10D can be separately flowed to different destinations according to demand. The set of flow units 10D can be assembled with the container to form the mobile badminton hall. It is worth mentioning that, according to the number of the flow components 10D, the mobile badminton hall having a plurality of badminton courts can be assembled. Preferably, the first type of container is a 20 foot container. The second type of container is a 40-foot container. It is worth mentioning that the service component 32D is available for installation in a container.

The flow unit 10D further includes a detection control device 40D communicatively coupled to the support adjustment device 20D to control the support adjustment device 20D to remain stable. The detection control device 40D further includes a set of monitoring elements 41D and a control device 42D. Each of the monitoring elements 41D is communicably connected to each of the support adjusting members 21D, such that each of the supporting regulating members 21D is communicatively coupled to at least one of the monitoring members 41D, thereby facilitating acquisition of the state of each of the supporting regulating members 21D, and then transmitting to the Control device 42D. The state of each of the support adjustment members 21D is analyzed by the control device 42D, and then each of the support adjustment members 21D is adjusted to maintain the stability of the flow assembly 30D or the platform member 911D. The detection control device 40D further includes a positioning device 43D. The positioning device 43D acquires the position of the flow unit 10D. Preferably, the positioning device 43D acquires the real-time position of the flow unit 10D. The positioning device 43D transmits the real-time position of the flow unit 10D to the control device 42D to facilitate management of the flow unit 10D. The detection control device 40D further includes a communication device 44D communicatively coupled to the control device 42D for exchanging information with other of the flow units 10D to cooperate. That is, a plurality of the flow units 10D exchange information through the respective communication devices 44D to facilitate cooperative operation. The flow unit 10D receives a predetermined scheme through the communication device 44D and then transmits it to the control module 42D. The control device 42D analyzes the preset scheme, and acquires the location of the flow unit 10D through the positioning device 43D to obtain an estimated arrival time of the flow unit 10D to reach a preset destination. Then, the information of the flow unit 10D and the preset arrival time are coordinated by the communication device 44D with other flow units that receive the preset solution to obtain a preset stop position and the flow unit after reaching the destination. The preset assembly method of the other flow unit 10D. In other words, the communication device 44D can analyze the preset scheme, obtain a preset destination, estimate a stay time at the preset destination, a position to stay at the preset destination, and the accommodation space of the preset destination. status. It is worth mentioning that the communication method adopted by the communication device 44D includes, but is not limited to, Wi-Fi, Li-Fi, satellite network, communication network and Internet.

The set of the flow unit 10D is flowed to a preset destination. During the flow, the set of flow units 10D can coordinate to derive a plan for forming the mobile badminton hall. When the set of flow units 10D arrives at the destination, assembly is performed according to the coordinated solution. For example, assembling the mobile badminton hall as shown in Fig. 18, first assembling each of the layer components 931D at the bottom. In the preferred embodiment, the layer assembly 931D includes two of the flow units 10D. Each of the flow units 10D assembled with each of the layer assemblies 931D at the bottom is guided to a predetermined assembly area. Two of the flow units 10D are connected to form the layer assembly 931D. After the assembly of each of the layer components 931D at the bottom is completed, each of the layer components 931D in the middle portion is assembled. Each of the flow cells 10D in the middle of the assembly is respectively disposed on each of the layer components 931D at the bottom to be supported by each of the layer components 931D at the bottom. Connecting the two flow units 10D forms the layer assembly 931D disposed in the middle. Finally, the assembly of each of the top layer assemblies 931D at the top is completed. Each of the flow cells 10 is placed over the layer assembly 931D of the middle portion and supported by the layer assembly 931D in the middle. The two flow cells 10 are then joined to form the top layer assembly 931D. In the preferred embodiment, the bottom layer assembly 931D and the middle layer assembly 931D and the top layer assembly 931D are assembled to form the wall assembly 93D. The support frame 831D of the top cover 83D is placed on each of the top layer assemblies 931D such that the support frame 831D of the top cover 83D is supported by the respective top layer assemblies 931D. The cover 832D is then covered by the support frame 831D to form the top cover 83D. It is worth mentioning that the service component 32D can be disposed in each of the flow units 10D prior to assembly, or can be disposed in each flow unit 10D after assembly.

Figure 18 shows another preferred embodiment of the mobile stadium of the present invention. In the preferred embodiment, the mobile stadium serves as a mobile swimming pool having at least one swimming pool 70D. It is worth mentioning that in the preferred embodiment shown in Fig. 16, only one waterproof device 71D needs to be added, so that the mobile stadium of the present invention can be converted from a mobile badminton hall to a mobile swimming pool. The waterproof device 71D is disposed at the bottom of the hall space 92D and is installed inside the bottom of each of the base side walls 93D to form a swimming pool 70D at the bottom of the hall space 92D. The waterproof device 71D is further provided with at least two air guiding ports 711D for draining water flow. Preferably, the air guiding port 711D and the water net The fixed connection portion 32231D (not shown) of the device 3223D is connected to be fixed by the fixed connection portion 32231D (not shown). The water disposed in the waterproof device 71D enters one of the fixed connection portions 32231D through one of the flow guiding ports 711D, and then enters the water purification device 3223D for purification processing. The purified water is then drained back into the waterproofing device 71D through the other fixed connection portion 32231D (not shown) and the flow guiding port 711D, thereby ensuring the quality of the water. The waterproof device 71D can be provided as needed to form a swimming pool 70D that meets the needs. Preferably, each of the waterproof devices 71D corresponds to each of the swimming pools 70D. The depth of the swimming pool may be determined according to the height at which the waterproof device 70D is disposed on the base side wall 93D. In the preferred embodiment, preferably, the height of the waterproof device 70D reaches the central layer assembly 931D. Preferably, the waterproof device 70D is a soft waterproof material so as to be accommodated in the unit space 34D to facilitate flow. It is worth mentioning that at least one of the flow units 10D is provided in a portion of the bottom of the formed swimming pool to form different water depth regions in the swimming pool.

As shown in FIG. 19 and FIG. 20, it is worth mentioning that a plurality of the flow units 10D may be provided to divide the swimming pool into at least two areas to provide different services in different areas. First, the boundaries of the divided areas are determined in the swimming pool. A plurality of the flow cells 10D are then arranged in a stacked manner along the boundary to separate the water on both sides of the boundary to form at least two regions. Preferably, a number of the flow units 10D are stacked to the water depth of the swimming pool 70D. The water in the two zones is separately treated by the flow unit 10D provided with the water treatment device 322D to provide different services. A warm water pool and a cold water pool are respectively provided by the water treatment device 322D. As shown in Figure 19. Preferably, the waterproofing device 71D is respectively disposed on both sides of a partition wall 72D formed by each of the flow cells 10D of the partitioning area to prevent water of the two regions from passing through the partitioning wall 72D. Preferably, a plurality of water treatment units 322D may be disposed at a plurality of the flow units 10D at the bottom of the mobile swimming pool. When an accident occurs in the swimming pool, such as drowning, the two fixed connection portions 32231D of the purification device 3223D may be Both are shown to direct water flow to the purification device 3223D, which stops purifying the water, but removes the water from the swimming pool to save the person who is in contact. Since a plurality of purification devices 3223D are provided, the drainage efficiency is improved, so that the efficiency of saving people is improved. It is worth mentioning that in the process of setting up the mobile badminton hall from the mobile badminton hall, the mobile badminton hall is preserved through the services provided by the service components, such as power supply, water treatment, dressing room, bathroom, lounge and other services. To continue to serve the mobile swimming pool.

It is worth mentioning that if the swimming pool 70D of the mobile swimming pool cannot meet the demand, the mobile swimming pool can be disassembled and reassembled to form an outdoor swimming pool, thereby increasing the area of the swimming pool to meet the needs. A swimming pool can be formed in one area, as shown in FIG. Or a swimming pool forming a plurality of areas, as shown in FIG. If the mobile swimming pool needs to flow to another destination, the mobile swimming pool is disassembled and organized into the respective flow units 10D like the mobile feather hall. The flow is performed in units of the flow unit 10D. Move to another destination and then move on Line assembly.

Figures 26 and 27 show another preferred embodiment of the mobile stadium of the present invention. The mobile venue is a mobile performance hall. A performance platform 73D is provided in the hall space 92D of the mobile badminton hall. The performance platform 73D includes at least one of the flow units 10D. That is, the flow platform 10 is assembled by the hall space 92D to form the performance platform 73D. Preferably, a plurality of the flow units 10 are connected side by side at the bottom of the hall space 92D to form the performance platform 73D. It is worth mentioning that in the performance platform 73D, the two adjacent wall members 31D of the two flow units 30D of the two connected flow units 10D are respectively disassembled so that the unit spaces 34D of each of the flow units 10D have communication. , thereby forming a background space 731D. The position of the performance platform 731 can be adjusted according to the needs of the performance. For example, it is disposed at one end of the bottom of the hall body space 92D, or at the bottom of the bottom of the hall body space 92D. It is worth mentioning that the performance platform 73D is disposed in the middle of the bottom of the hall space 92D, and can be used as a competition platform for the fighting sports. Such as boxing, Taekwondo and so on.

It is worth mentioning that the mobile stadium comprises a group of flow units 10D, which can be arranged to suit different purposes, such as adding the flow unit 10, or reassembling the flow unit 10, etc., as needed. As a result, the mobile badminton hall is converted into a mobile swimming pool or a mobile performance hall. Mobile swimming pools and mobile performance halls can also be converted to each other.

It is worth mentioning that the group of flow units 10D of the same mobile stadium can be separately flowed to different destinations, and the other flow units 10D form different mobile venues. For example, the mobile venue serves as a mobile badminton hall. The mobile venue receives requests from two destinations, one of which requests to establish a mobile swimming pool and the other destination to establish a mobile performance hall. The mobile venue cannot satisfy the requests of both destinations at the same time. However, if the specifications of the flow units 10D of the mobile stadium are the same as the specifications of the container, each of the flow units 10 of the mobile stadium can be assembled with the container to form a mobile stadium. Preferably, the flow unit 10D is a container. Therefore, the mobile stadium can be disassembled according to the needs of the destination and organized into the group of flow units 10D. The set of flow units 10D is then divided into two sections, one of which is flowed to the destination where the swimming pool is required to be flown, and the other part is flowed to the destination where the mobile performance venue is needed. It is to be noted that when the group of flow units 10D are divided into different sections, since one of the destinations requires a mobile swimming pool, the flowing water treatment unit 18D can be allocated more to the group. At the same time, the number of power supply units 19D is allocated according to the size of the venue to be established. The number of service units is then set according to the required service allocation. Each of the flow units 10D is transported to a respective destination by a transportation means. After each flow unit 10D arrives at the destination, it begins to cooperate with the container.

As shown in FIG. 28, the mobile stadium includes a flow base 90E having a hall space 92E. Preferably, the hall space 92E provides for badminton activities. The flow base 90E further includes at least The two base side walls 93E and the two base side walls 93E form the hall body space 92E for movement, and badminton activities are preferentially performed. Preferably, the flow base 90E includes four base side walls 93E, and the base side walls 93E are disposed to form the hall body space 92D for movement. The base sidewall further includes at least one layer assembly 931E. In the preferred embodiment, the base sidewall 93E includes three of the layer assemblies 931E, and the layer assemblies 931E disposed in the middle are respectively connected to the layer assembly 931E disposed inside and the layer assembly 931E disposed outside. That is, the three layer components 931E are connected side by side to form a viewing portion 9311E. Preferably, the three layer assemblies 931E are respectively three flow units 10D of different heights. The base side wall 93E has another alternative. The base side wall 93E has two layer assemblies 931E with one layer assembly 931E disposed inside and another layer assembly externally coupled to the layer assembly 931E disposed therein. It is worth mentioning that the number of the flow unit 10D included in the outer layer assembly 931E is greater than the number of the flow unit 10D included in the inner layer assembly 931E. Preferably, the outer layer assembly 931E includes the flow unit 10D in an amount that is twice the number of the flow unit 10D included in the inner layer assembly 931E. The outer layer assembly 931E has a multi-layered structure, in other words, the flow unit 10D forms the layer assembly 931D disposed outside in an overlapping manner. The pedestal side wall 93E of the stepped structure is thus formed.

That is, at least two types of the flow unit 10D are prefabricated, wherein one type of the flow unit 10D has a height greater than the other type of the flow unit 10D. That is, the two types of the flow unit 10D have a height difference. The flow unit 10D of the same type is assembled to form the layer assembly 931E. That is, two types of the flow unit 10 are assembled to form two types of layer assemblies 931E. The two types of said layer components 931E are then connected side by side. Further, the distance from each type of the layer assembly 931E to the hall space is arranged in descending order according to the height of each type of the layer component 931E.

As shown in Figure 29, establishing the mobile venue includes the following steps:

Step 1001: Determine the flow unit 10D required to establish the mobile venue.

Step 1002: Flow each of the flow units 10D participating in assembling the mobile stadium to a construction destination.

Step 1003: Assemble each of the flow units 10D to establish the mobile venue.

Step 1001 further includes the following steps:

Step 10011: Determine the type of the mobile venue. For example, determine whether the established mobile venue is a mobile badminton hall or a mobile swimming pool. Further, it is also necessary to determine whether the type of the mobile venue needs to be changed. If the mobile badminton hall is transformed into the mobile swimming pool.

Step 10012: Determine how the mobile venue is established. It is determined whether the mobile stadium is all assembled by the flow unit 10D or the flow unit 10D and the container are mixed and assembled.

Step 10013: Determine the flow unit 10D needed to establish the mobile venue. First, make sure to establish The type of the service component 32D that is required for the flow unit 10D is set. If the flow energy supply unit 19D of the energy supply device 321D of the service component 32D is disposed in the flow unit 10D, or the flow water treatment unit 18D of the water treatment device 322D of the service component 32D is disposed in the flow unit 10D, Or the flow display unit 17D or the like. Then, the number required for each type of the flow unit 10D is further determined. Next, the starting position of the flow unit 10D participating in establishing the mobile stadium is determined, and the starting position of each of the flow units 10D provided with the service component 32D is determined. It is worth mentioning that the determined flow unit 10D includes at least one of the flow energy supply units 19D to provide electrical energy to the mobile venue. The determined flow unit 10D further includes at least one of the flow water treatment units 18D to provide water treatment services to the flow venue. It is worth mentioning that each of the flow units 10D participating in the formation of the mobile stadium does not have to start flowing at the same starting position. That is, the flow unit 10D of the mobile venue can also be used to assemble another of the mobile venues.

It is worth mentioning that before step 1002, a step may be included: the flow unit 10D is detached from another mobile stadium. The flow unit 10D is then assembled into a state that is easy to transport.

Step 1003 further includes the following steps:

Step 10031: Determine the manner in which the mobile stadium is assembled. The assembly method includes at least two types: one is assembled according to the number of layers of the flow venue, that is, the bottom layer of the flow venue is installed to the top layer, and one layer of the flow venue includes at least two layer assemblies 931D. The other is assembled by using the base side wall 93D as an assembly unit. That is, one of the base side walls 93D is assembled first, and the other of the base side walls 93D is assembled until the assembly is completed. The manner in which each of the layer components 931D is assembled is further determined. This layer assembly 931D includes at least the flow unit 10D. That is, it is determined that the layer component 931D includes the number of the flow units 10D, whether each of the flow units 10D sets the service component 32D, and each of the flow unit 10D sets the type of the service unit 32D. It is worth mentioning that in the mobile stadium, at least one layer of components 931D includes the flow unit 10D provided with the energy supply setting 321D. That is, in the mobile venue, at least one layer of components 321D includes the flow energy supply unit 19D. In the mobile stadium, at least one layer of components 931D includes the flow unit 10D in which the water treatment device 321D is disposed. That is, in the mobile venue, at least one layer of components 321D includes the flowing water treatment unit 18D.

Step 10032: Form the mobile venue. Each of the corresponding flow units 10D is selected for assembly according to the determined assembly manner of step 10031 to form the layer assembly 931D. It is worth mentioning that if the number of layers of the mobile stadium is grouped in step 10031, each layer component 931D of the bottom layer of the mobile stadium is first formed, and each layer component 931D is assembled to form the bottom layer of the mobile stadium. Each of the layer assemblies 931D of the intermediate layer is then assembled, and each of the layer assemblies 931D is assembled to form an intermediate layer of the flow field. Finally, each of the layer components 931D of the top layer of the mobile stadium is assembled. Each layer component 931D is then formed into the top layer of the mobile stadium 931D. Finally, the top cover 83D is installed. First of all The support frame 831D is installed, and then the cover 832D is overlaid on the 831D to form the top cover 83D. If at this step 10031, the assembly of the base side wall 93D is selected. First, the assembly sequence of each of the base side walls 93D is determined. One of the base side walls 93D is then selected for assembly. First, the layer assembly 931D of the bottom layer of the base sidewall 93D is formed. Second, the layer assembly 931D of the middle layer of the pedestal side wall 93D is formed. The intermediate layer assembly 931D is then placed over the layer assembly 931D of the bottom layer and supported by the bottom layer assembly 931D assembly. Third, the layer assembly 931D of the top layer of the pedestal sidewall 93D is formed. The layer component 931D of the top layer is then placed over the layer component 931D of the intermediate layer and supported by the layer component of the middle layer. The base side wall 93D is assembled. The remaining base side walls 93D are then assembled in accordance with the assembly of the base side walls 93D. After the assembly of each of the base side walls 93D is completed, the top cover 83D is assembled. First, the support frame 831D is disposed on the top layer of each of the base side walls 93D to be supported by the top layer of each of the base side walls. The cover 832D is then placed on the support frame 831D for support. Thereby forming the mobile sports hall.

Step 1003 further includes a step 1004 of changing the use of the mobile venue. There are two ways to change the use of a visit to a mobile venue, one of which is to add devices. If the mobile badminton hall is changed to the mobile swimming pool, only one waterproof device 71D needs to be added. The waterproof device is placed at the bottom of the mobile badminton hall to transform the mobile badminton hall into the mobile swimming pool. Another method is to change the structure of the mobile stadium. For example, as shown in the mobile swimming pool shown in Fig. 17, the mobile swimming pool is disassembled into a plurality of the flow units 10D, and then the plurality of the flow units 10D are assembled to form three swimming pools. The area of each of the three swimming pools is the same as the area of the swimming pool of the original mobile swimming pool. Or a plurality of the flow units 10D are assembled to form a swimming pool.

Figure 30 shows a preferred embodiment of a venue having a flow unit of the present invention. The stadium having the flow unit of the present invention includes a hall body 90K and at least one flow unit 91K. The hall body 90K has at least one unit accommodating chamber 92K to accommodate the flow unit 91K. The flow unit 91K has a flow cell space 911K. The flow unit 91K further includes at least one service component 912K that is disposed in the flow unit space 912K to provide services. The service component 912K further includes at least one energy supply device 9121K, the energy supply device 9121K being disposed in the flow unit space 911K. The energizing device 9121K supplies electric energy to the stadium having the flow unit of the present invention. It is worth mentioning that the energy supply device 9121K can supply electric energy to other buildings. The flow unit 91K provided with the energizing means 9121K is defined as a power supply flow unit 101K. It is worth mentioning that the energy supply flow unit 101K is connected to the flow unit 91K. The service component 912K further includes at least one water treatment device 9122K disposed in the flow unit space 911K. The water treatment device 9122K further includes a water supply device 91221K to provide domestic water. The water treatment unit 9122K further includes a sewage treatment unit 91222K to provide sewage treatment services. The sewage treatment device 91222K is connected to an external sewage treatment system to The treated sewage is introduced into an external sewage treatment system to avoid polluting the environment. The water treatment device 9122K further includes a water purification device 91223K to provide a water purification service. The flow unit 91K provided with the water treatment unit device 9122K is defined as a water treatment flow unit 102K. The water treatment flow unit 102K can be fixedly coupled to the flow unit 91K.

The service component 912K further includes at least one display device 9123K disposed in the flow unit space 911K of the flow unit 91K. The flow unit 91K provided with the display device 9123K is defined as a display flow unit 103K. The service component 912K further includes a set of rest components 9124K to provide a rest service. The rest assembly 9124K is disposed in the flow unit space 911K of the flow unit 91K. The flow unit 91K provided with the body component 9124K is defined as a rest wall assembly 104K. The service component 912K further includes a guiding device 9125K disposed in the flow unit space 911K of the flow unit 91K to guide a user from one of the flow unit spaces 911K to another of the flow unit spaces 911K. For example, two adjacent flow units 91K are connected in a stacked manner. That is, one of the flow units 91K is disposed at the upper portion of the other of the flow units 91K to be supported by the other of the flow units 91K. The guiding device 9125K is disposed in one of the flow units 91K such that the user enters the unit space 911K of the other flow unit 91K from the unit space 911K of one of the flow units 91K through the guiding device 9125K. The flow unit 91K provided with the guiding device 9125K is defined as a guiding flow unit 105K. The service component 912K further includes at least one air conditioning device 9126K for regulating air temperature and/or humidity within the venue. The flow unit 91K provided with the air conditioning device 9126K is defined as an air conditioning flow unit 106F. Preferably, the stadium having the flow unit of the present invention is provided with at least one flow energy supply unit 101K. The number of the flow energizing units 101K is adjusted as needed.

It is worth mentioning that the energy supply flow unit 101K can supply power to other buildings. The water treatment flow unit 102K can supply water to other buildings and/or perform sewage treatment. The display flow unit 103K can be placed in other buildings to provide display services for the fixed building. The rest flow unit 104K can be placed in other buildings to provide services to other buildings. The air conditioning flow unit 106K can be applied to other buildings to provide air conditioning services to other buildings.

As shown in FIG. 38, the flow unit 91K further includes a set of wall members 913K and a flow unit frame 914K. Each of the wall members 913K is disposed to the flow unit frame 914K to form the unit space 911K. Preferably, each of the wall members 913K is detachably disposed to the flow unit frame 914K to form the unit space 911K. It is worth mentioning that the two adjacent flow units 91K communicate the two flow unit spaces 911K of the flow units 91K by disassembling the two wall elements 913K of the adjacent two flow units 91K, respectively, in order to provide service.

The flow unit 91K further includes a support adjustment device 915K detachably mounted to the flow unit 91K for supporting the flow unit 91K and maintaining the flow unit 91K stable. The support adjusting device 915K is detachably mounted to the wall member 913K of the flow unit 91K. It is worth mentioning that when the flow unit 91K is detached from the stadium having the flow unit of the present invention, the support adjusting device 915K is detachably mounted to the unit. The flow unit 91K is adjusted by the support adjustment device 915K to adapt the flow unit 91K to various terrain environments. The support adjustment device 915K further includes a set of support adjustment members 9151K that are detachably mounted to the flow unit 91K, respectively. Further, the set of support adjustment members 9151K are detachably mounted to the wall member 913K of the flow unit 91K, respectively. The flow unit 91K is maintained stably by adjusting each of the support adjustment members 9151K, respectively, to reduce the influence of the flow unit 91K by the topographical environment. It is worth mentioning that the support adjustment member 9151K can be accommodated in the flow unit space 911K of the flow unit 91K.

As shown in FIG. 31, the flow unit 91K further includes a management device 916K, which is disposed in the flow unit 91K to detect and control the state of the flow unit 91K. The management device 916K further includes a set of monitoring elements 9161K, a control device 9162K and a communication device 9163K that are communicatively coupled to each other. The monitoring element 9161K is disposed in the flow unit to acquire the state of the flow unit 91K. The control device 9162K acquires the state of the flow unit 91K through the monitoring element 9161K, and then adjusts according to the state of the acquired flow unit 91K. The communication device 9163K communicates with the communication device 9163K of the other flow unit 91K to exchange information for cooperation. The status information of the flow unit 91K is exchanged such that the flow unit 91K adjusts the state in cooperation with the other flow units 91K.

For example, each of the monitoring elements 9161K may be disposed to each of the wall members 913K and the support adjustment device 915K for acquiring the state of each of the wall members 913K and the support adjustment device 915K. The control device 9162K adjusts based on the acquired state of each wall member 913K and the state of the support adjustment device 915K. The communication device 9163K communicates with the communication devices 9163K of other flow units to cooperate. According to the state of each of the flow units 91K, they are respectively adjusted cooperatively. Each of the monitoring elements 9161K is communicably connected to each of the support adjustment members 9151K such that each of the support adjustment members 9151K is connected to at least one of the monitoring elements 9161K, thereby facilitating acquisition of the state of each of the support adjustment members 9151K, and then transmitting to the control. Device 9162K. The state of each of the support adjustment members 9151K is analyzed by the control device 9162K, and then each of the support adjustment members 9151K is adjusted to maintain the stability of the flow unit 91K.

The flow unit 91K further includes a navigation device 917K communicatively coupled to the management device 916K. Specifically, the navigation device 917K communicably connects the communication device of the management device 916K 9163K. The navigation device 917K directs the flow unit 91K to move to a destination to provide service at the destination. The navigation device 917K further includes a positioning device 9171K. The positioning device 9171K acquires the position of the flow unit 91K. Preferably, the positioning device 9171K acquires the real-time position of the flow unit 91K. The positioning device 9171K transmits the real-time position of the flow unit 91K to the control device 9162K through the communication device 9163K to facilitate management of the flow unit 91K. It is worth mentioning that the positioning device 9171K can acquire the position of the flow unit 91K at the hall body 90K. That is to say, the positioning device 9171K can acquire which of the unit accommodating chambers 92K the flow unit 91K is located in the hall body 90K. The navigation device 917K further includes a routing device 9172K communicatively coupled to the positioning device 9171K. The route device 9172K presets at least one movement route according to the position of the flow unit 91K and the position of the destination to guide the flow unit 91F to move to the destination.

It is worth mentioning that the support adjustment device 915K further includes at least one mobile support adjustment member 9152K. The moving support adjuster 9152K detachably supports the flow unit 91K. The flow unit 91K can be moved by mounting the moving support 9152K to the flow unit 91K. The flow unit 91K can be moved by disposing the flow unit 91K to the transport device.

The flow unit 91K further includes a power supply device 918K coupled to the mobile support member 9152K to provide power to the mobile support adjustment member 9152K. The power supply device 918K is controllably coupled to the management device 916K to be controlled by the management device 916K for power supply.

The hall body 90K further has a hall space 94K, and the hall body space 94K is for activities. The unit accommodating chamber 92K is disposed on one side of the hall body space 94K. The body further includes a plurality of wall devices 93K, each of which is disposed on one side of the hall space 94K. Preferably, each of the wall devices 93K is disposed around the hall space 94K. Preferably, the unit accommodating chamber 92K is provided to the wall device 93K such that the flow unit 91K is disposed to the wall device 93K.

It is worth mentioning that the flow unit 91K can be pre-customized according to the unit accommodating chamber 92K such that the flow unit 91K matches the unit accommodating chamber 92K. It is worth mentioning that the flow unit 91K adopting the same standard can be disposed in the corresponding unit accommodating chamber 92K. A corresponding service is provided in the library 90K according to the service component 912K provided to the flow unit 91K. Further, by replacing the flow unit 91K, the efficiency of changing the service type of the flow unit 91K is improved. It is worth mentioning that the unit accommodating chamber 92K can accommodate a plurality of the flow units 91K, and the adjacent flow units 91K are connected to each other.

The stadium having the flow unit of the present invention further includes a management unit 4K communicably connected to the management device 916K of each of the flow units 91K to acquire the state of the flow unit 91K. Specifically, the management unit 4K communicably connects the control device of the management device 916K of each flow unit 91K. 9162K. The management unit 4K manages according to the state of each of the flow units 91K. For example, when the stadium having the flow unit of the present invention is disassembled, the management unit 4K acquires the position of each of the flow units 91K at the wall device 93K through the positioning device 9171K of the navigation device 917K of each of the flow units 91K. The flow unit 91K is then disassembled. When the wall member 91K moves, the real-time position of each of the flow units 91K is obtained to set a moving path to the destination. Upon reaching the destination, the wall element 91K provides service. After the service is completed, the wall element 91K is guided by the management unit 4K back to the location of the venue of the present invention having the flow unit. The wall member 91K is mounted back to the corresponding unit accommodating chamber 92K.

The hall body 90K further includes an activity platform 96K that is disposed at the bottom of the hall body space 94K to facilitate activities at the activity platform 96K. The activity platform further includes a set of platform elements 961K, each of which is assembled to form the active platform 96K. Adjacent two platform elements 961K are connected to each other.

As shown in FIG. 32, the platform member 961K includes at least two component supporting portions 9611K and an element body 9612K, and the component supporting portions 9611K are respectively disposed on both sides of the component body 9612K to support the component supporting 9612K. Preferably, the component body 9512K has a set of through holes 95121K. It is worth mentioning that the surface of the object supporting the two element supporting portions 9611K is defined as a supporting surface through which a buffer space 9613K is formed between the element main body 9612K and the supporting surface. The space 9613K reduces the effect of the support surface environment on the component body 9612K, thereby reducing the effect of the support surface environment on the motion performed on the platform element 961K. Preferably, the buffer space 9513K can be adjusted by adjusting the lengths of the two element supporting portions 9611K.

The activity platform 96K further includes a field feature 962K that is adapted to perform a predetermined activity on the activity platform. The venue feature 962K further includes a set of sub-site features 9621K, each of which is disposed on each of the platform elements 961K. The activity platform 96K further includes an additional venue feature 963K that covers the active platform 96K. When the activity platform 96K performs other activities, the additional site features 963K can be laid to make the activity platform suitable for other activities, thereby increasing the efficiency of the active platform transition use.

Figure 33 is a flow diagram showing the flow of a flow unit of a preferred embodiment of a venue having a flow unit of the present invention. The venue of the present invention having a flow unit receives a service request to provide service to a venue request having a flow unit of the present invention. The management unit 4K analyzes the service request to determine the requested service content. If the venue having the mobile unit of the present invention can provide a corresponding service to the requester who made the service request through the mobile unit, the management unit 4K feeds back a service information to the requester. If the venue with the mobile unit of the present invention cannot satisfy the service request, the management unit 4K feeds back that the service information cannot be provided to the requester. For example, the service request supplies power to the request. The invention has The power supply service can be provided by the venue of the flow unit, and the management unit 4K arranges to separate the flow unit 91K provided with the energy supply device 9121K by disassembly. The management unit 4K transmits the destination information of the requester to the management device 916K of the flow unit 91K provided with the energy supply device 9121K. The management device 916K of the flow unit 91K provided with the power supply unit 9121K receives the destination of the requester and transmits the destination of the requester to the navigation device 917K. The navigation device 917K guides the flow unit 91K provided with the energy supply device 9121K to the destination of the requester based on the destination of the requester. It is worth mentioning that the flow unit provided with the energy supply device 9121K can be disposed on the transport device, and the power supply service is provided by the transport device flowing to the requester's destination.

The flow unit 91K provided with the energy supply device 9121K is guided back to the location of the venue in which the flow unit of the present invention is provided by the navigation device 917K after the service is provided. However, the flow unit 91K provided with the energizing means 9121K is mounted to the corresponding unit accommodating chamber 92K so that the flow unit 91K provided with the energizing means 9121K supplies power to the stadium provided with the flow unit of the present invention.

34A and 34B show another preferred embodiment of the stadium having the flow unit of the present invention. The stadium having the flow unit of the present invention includes a hall body 90L having a hall space 94L. The hall's body space is 94L for activities. Preferably, the hall space is for badminton activities. The hall body 90L further includes a top cover 95L that covers the hall body space 94L. The influence of the outside on the hall space 94L is reduced by the top cover 95L. The top cover 95L further includes a top cover main body 951L and a set of top cover support members 952L, each of which supports the top cover main body 951L such that the top cover main body 952L covers the hall body space 94L. The top cover body 951L further includes a top cover support 9511L and at least one cover 9512L. The top cover support 9521L supports the cover 9512L. Each of the top cover supports 952L supports the top cover support 9511L, respectively.

The hall body 90L further includes at least one wall device 93L that is disposed on one side of the hall body space 94L. Preferably, each of the wall devices 93L is disposed around the hall space 94L. Preferably, the top cover body 951L covers each of the wall devices 93L. The wall device 93L further includes a plurality of flow units 91K, each of which is stacked to form the wall device 93L. The stack means that one of the flow units 91K is disposed above the other of the flow units 91 to be supported by the other of the flow units 91. The wall unit 93L is detached into each of the flow units 91K. Each of the mobile units 91K is provided with a service at a preset destination by flowing each of the moving units 91K to a preset destination.

The stadium having the flow unit of the present invention further includes a management unit 4L that is communicably connected to the management device 916K of each of the flow units 91K to acquire the state of the flow unit 91K. Specifically, the management unit 4L communicably connects the control device 9162K of the management device 916K of each flow unit 91K. The management unit 4L manages according to the state of each of the flow units 91K. For example, the invention has a flow When the venue of the unit is disassembled, the management unit 4L acquires the position of each of the flow units 91K at the wall unit 93K via the positioning unit 9171K of the navigation unit 917K of each of the flow units 91K. The flow unit 91K is then disassembled. When the flow unit 91K moves, the real-time position of each of the flow units 91K is obtained to set the movement path to the destination. Upon reaching the destination, the flow unit 91K provides the service. After the service is completed, the flow unit 91K is guided by the management unit 4L to return to the location of the venue having the flow unit of the present invention. The flow unit 91K is mounted back to the original position. It is worth mentioning that the positioning device 9171K can rearrange the position of each of the flow units 91K at the wall device 93L as needed. Each of the flow units 91K is disposed at the position of the wall unit 91K so as to stack each of the flow units, in accordance with the order of the respective flow units 91K to the location of the venue having the flow units. As shown in Figure 35.

36A and 36B are schematic views showing the flow of a flow unit of another preferred embodiment of the stadium having the flow unit of the present invention. The venue of the present invention having a flow unit receives a service request. The management unit 4L analyzes the service request to determine the requested service content. The management unit 4L determines whether each of the flow units 91K can provide a service based on the requested service type. If the venue of the present invention having a flow unit can provide a service, the management unit 4L responds to the service request. If the service cannot be provided, the management unit 4L issues a service information that cannot be provided. The management unit 4L selects the corresponding mobile unit to flow to the location where the service request is made, according to the content of the service. After the flow unit is serviced, the flow unit is flowed back to the location with the flow unit venue.

For example, the management unit 4L receives a service request. Through the analysis by the management unit 4L, the service content is obtained by establishing a museum at the destination through the flow unit 91K, and the venue provides the service within a preset time. Preferably, the venue may provide for badminton, as shown in FIG. The venue requires at least two wall units 93L. Each of the wall units 93L cooperates with a wall W of a fixed building such that each of the wall units 93L and the wall W of the fixed building surrounds a body space 94L'. The hall space 94L' provides for activities, preferably for badminton. The management unit 4L confirms the wall unit 4L to determine the number of the flow units 91K that need to be dispatched. Each of the wall units 93L is then detached into each of the flow units 91K so that the flow unit 91K is moved to a destination. It is worth mentioning that the flow unit 91K dispatched to the destination includes at least one flow unit 91K provided with the energy supply device 9121K. Preferably, the flow unit 91K dispatched to the destination includes at least one flow unit 91K provided with the energy supply device 9121K and at least one flow unit 91K provided with the water treatment device 9122K.

After each of the flow units 91K is moved to the destination, the management unit 4L arranges each of the flow units 91K according to the service request content to establish a desired venue for the service request content. It is worth mentioning that one end of each wall device 93L is connected to the wall W of the fixed building. The two wall means 93L are opposed to each other to form the hall space 94L' with the wall W of the fixed building. It is worth mentioning that two of the wall devices 93L can be connected in parallel. Pass The wall elements 91K corresponding to the corresponding two flow units 91K are respectively disassembled to connect the corresponding two unit spaces 911K, thereby facilitating service. After each of the wall units 93L is formed by stacking the flow units 91K, a top cover 95L' is placed at the top of the stadium to be supported by each of the wall units 93L. The top cover 95L' further includes a top cover support 951L' and at least one top cover 952L' that supports the top cover 952L'. The top cover support 951L' further includes a plurality of top cover supports 9511L', each of which is fixedly coupled to form the top cover support 951L'. Preferably, the top cover 952L' is a flexible material to facilitate being received in the unit space 911K of the flow unit 91K. Each of the top cover supports 9511L' can be housed in the unit space 911K of the flow unit 91K. The venue further includes an activity platform 96L' disposed at the bottom of the hall space 94L. The activity platform 96L' further includes a set of platform units 961L'. Each of the platform units 961L' is assembled to form the movable platform 96L' for activity. Each of the platform units 961L' may be fixedly disposed to the flow unit 91K to flow with the flow unit 91K.

After the service of the venue is completed, the venue is disassembled into each of the flow units 91K. The top cover 95L' is detached into each of the top cover supports 951L' to be housed in the unit space 911K of the flow unit 91K. The movable platform 96L' is detached into each of the platform units 961L'. Each of the platform units 961L' is fixedly disposed to each of the flow units 91K to flow with each of the flow units 91K to the location of the venue having the flow unit of the present invention. The management unit 4L then arranges the stacking order of the respective flow units 4L to stack each of the flow units 91K into the respective wall devices 93L to restore the stadium having the flow unit of the present invention.

36 and 37 are another alternative of the wall device 93L of the mobile stadium having a flow unit of the present invention. The wall device 93M further includes a unit bracket 931M that is disposed on one side of the hall space 94L. Preferably, the unit holder 931M is covered by the top cover 95L. The unit holder 931M further has a set of unit accommodating chambers 9311M for accommodating each of the flow units 91K. Preferably, the top cover support 9511M covers the unit support 953M. Through the management unit 4L, each of the flow units 91K can be separately dispatched to provide services without being affected by the position of the flow unit 91K at the wall unit 93K. It is worth mentioning that, depending on the service provided, the position of each of the flow units 91K is adjusted without the need to disassemble the wall unit 93K and to assemble the wall unit 93K in a stacked manner. Preferably, the stacking manner is a superimposed manner. It is worth mentioning that the unit accommodating chamber 9531M can have multiple standards. The flow unit 9531 can also be pre-customized according to different standards.

40 and 41 show another preferred embodiment of the stadium having the flow unit of the present invention. The stadium having the flow unit of the present invention includes at least one hall body 90N having a hall space 94N. The hall space is available for activities. Preferably, the hall space is for badminton activities. The hall body 90N further includes at least one wall device 93N, the wall device 93N is disposed on one side of the hall space 94L. The hall body 90N further includes at least one hall wall 938N, which is disposed on one side of the hall body space 94N. The hall body space is formed between the hall wall 938N and the wall device 93N. Between the wall 938N and the wall device 93, the wall 938N is disposed opposite to the wall device 93N, and the wall 938N is connected to the wall device 93 and the wall 938N and the wall device 93 are There is an angle. The angle range is greater than zero degrees. Specifically, the wall device 93N and the gallery wall 938N are respectively disposed to opposite sides of the hall body 90N, so that the wall device 93N and the hall wall 938N form the hall body space 94N. And, the wall device 93N and the gallery wall 938N are respectively disposed on both sides adjacent to the hall body 90N, thereby surrounding the hall body space 94N. The wall device 93N and the gallery wall 938N surround the hall space 94N. Preferably, a wall device 93N and a plurality of the wall 938N surround the hall space 94N. It is worth mentioning that the hall body space 94N can be formed by all of the wall devices 93N. If the hall space 94N is formed by the wall device 93N. The hall space is formed between the two wall devices 93N. Between the two wall devices 93N, two wall devices 93N are disposed opposite to each other, and two devices 93N are disposed adjacent to each other and two devices 93N have an angle which is greater than zero degrees. The wall device 93N further includes at least one flow unit 91K and an additional wall 939N. The flow unit 91K is disposed on the additional wall 939N. The additional wall 939N is coupled to the gallery wall 938N. The flow unit 91K can also be connected to the gallery wall.

The additional wall 939N has at least one flow cell opening 9391N. The flow unit 91K is placed in the corresponding flow unit opening 9391N. Preferably, the flow unit 91K is movable at the flow unit opening 9391N to change the hall space 94N. For example, when the space outside the hall requires more space, the flow unit 91K is moved toward the outside of the hall to increase the hall space 41 as shown in FIG. When more space is required in the hall space 41, the flow unit 91K is removed from the hall space 94N. That is, the hall space 41 is adjusted by setting the position of the flow unit 91 at the additional wall 939N.

The additional wall 939N further includes an additional support device 9392N that is secured to one side of the additional wall 939N for supporting the flow unit 91K. Preferably, below the flow cell opening 9391N, the additional payment device 9392N is secured at the additional wall 939N such that the flow unit 91K supports the flow unit 91K at the flow cell opening 9391N. It is worth mentioning that the flow unit 91K is detachably mounted to the flow unit opening 9391N.

It is worth mentioning that the additional wall 939N can serve as the top of the hall body 90N and is supported by the wall device 93N and/or the additional wall 939N, respectively. The hall body 90N further includes a top cover 95N that is disposed at the top of the hall body 90N. As shown in FIG. 39, the top cover 95N further includes a top cover support 951L (not shown) and at least one top cover 952N. The top cover support 951N supports the top cover 952N. The top cover The support frame 951L further includes a set of top cover supports 9511L, each of which is fixedly coupled to form the top cover support 951N. Preferably, the top cover 952N is a flexible material so as to be received in the unit space 911K of the flow unit 91K. Each of the top cover supports 9511N can be housed in the unit space 911K of the flow unit 91K.

It is worth mentioning that the flow unit 91K of the preferred embodiment is flowed to a preset destination according to requirements to provide a service for a preset destination. The flow unit 91K of the preferred embodiment accepts management of the management unit 4K.

Figures 42 and 43 show another preferred embodiment of the mobile stadium of the present invention. The mobile venue includes a hall body 90F having an activity space 92F for activities. The hall body 90F further includes at least two wall devices 93F, which are respectively disposed on both sides of the hall body 90F to form the movable space 92F between the two wall devices 93F, thereby making the movable space 92F Available for activities. The mobile stadium further includes a top cover 94F supported by the hall body 90F. Specifically, the top cover 94F is supported by the two wall devices 93F. Preferably, the flow base further includes four such wall devices 93F, and four of the wall devices 93F are disposed to surround the movable space 92F. That is, four of the wall devices 93F surround the formation of the movable space 92F. It is worth mentioning that the active space 92F can be formed by more than four of the wall devices 93F. The top cover 94F is supported by the four wall devices 93F. Preferably, the activity space 92F is for indoor soccer.

The wall device 93F further includes at least one layer of components 931F. The height of the wall device 93F is adjusted by stacking the layer assembly 931F. This is shown in Figure 44A. The width of the wall device 93F is adjusted by juxtaposing the layer assembly 931F in parallel. This is shown in Figure 44B. That is, the wall device 93F can be adjusted by adjusting the positional relationship of the layer assembly 931F. Preferably, the connection relationship between the layer components is detachably connected. Preferably, each of the wall devices 93F is connected in sequence. Specifically, one of the wall devices 93F is connected to one end of the other wall device 93F. The layer assembly 931F of the wall device 93F is coupled to the corresponding layer assembly 931F of the other wall device 93F. That is, the corresponding layer components 931F located in the same layer of each wall device 93F are sequentially connected. This layer component 931F has a layer of space 9311F. Preferably, each of the layer spaces 9311F of the corresponding layer components 931F located in the same layer of each wall device 93F are sequentially connected. It is worth mentioning that the layer space 9311F can accommodate at least one service component 32F for providing services in the layer space. Preferably, the layer assembly 931F is disposed in a predetermined standard such that the wall device 93F is easy to disassemble and assemble. Since the layer assembly 931F is set as standard, the layer assembly 931F is easily adjusted at the position of the wall unit 93F. For example, the layer assembly 931F at the bottom of the wall unit 93F can be interchanged with another layer assembly 931F located at the top of the wall unit 93F. That is, each of the layer assemblies 931F of the wall unit 93F is adjustable. It is worth mentioning that the layer assembly 931F can be transported by means of a transport device. That is to say, the mobile stadium of the present invention can flow through the layer component 931F Flow.

In the flow of the mobile stadium of the present invention, first, each wall device 93F of the mobile stadium of the present invention is detached into at least one of the layer assemblies 931F. Then, a plurality of the layer assemblies 931F are respectively flown to the destination by the motion device. Next, a plurality of the layer assemblies 931F are assembled into the respective wall devices 93F at the destination to form the mobile stadium of the present invention. It is worth mentioning that the top cover 94F is detached before the wall device 93F is removed. Specifically, the top cover 94F is removed from the top of the mobile stadium of the present invention, and then the top cover 94F is detached so that the top cover 94F is received in the layer space 9311F of the layer assembly 931F to This layer assembly 931F is shipped together. The top cover 94F is assembled after reaching the destination and then assembled. Finally, the top cover 94F is attached to each of the wall devices 93F such that the top cover 94F is supported by the wall unit 93F. The mobile stadium of the present invention completes the flow. That is, the mobile stadium of the present invention is disassembled, then transported to a destination, and finally assembled again to form the mobile stadium of the present invention.

The layer assembly 931F further includes at least one wall unit 10F. Preferably, the layer assembly 931F includes 931G including at least one of the wall units 10F. That is, the layer assembly 931F can be split into at least one wall unit 10F. Preferably, the layer assembly 931F is split into at least two wall units 10F. The two wall units 10F are sequentially connected. That is, one end of the wall unit 10F is connected to one end of the other wall unit as shown in Fig. 44A. It is worth mentioning that the layer assembly 931F sets the wall unit 10F according to a preset standard, so that the wall unit 10F can be freely assembled to form the layer assembly 931F to meet the requirements of the layer assembly 931F. It is worth mentioning that the wall unit 10F can be customized according to preset standards. The wall unit 10F can be prefabricated in various types. The wall unit customized according to preset criteria facilitates the formation of a personalized mobile venue of the present invention. Preferably, the wall unit is a container.

This wall unit 10F has a unit space 34F. Specifically, the wall unit 10F includes a flow assembly 30F having the unit space 34F. This layer space 9311F can be divided into at least one of the unit spaces 34F. The unit space 34F is disposed on one side of the movable space 92F. Preferably, the unit space 34F is disposed outside the movable space 92F. The service component 32 is configurable in the unit space 34F for providing service in the unit space 34F. The service component 32F further includes at least one energy supply device 321F disposed in the unit space 11F to provide electrical energy to the mobile stadium of the present invention. The wall unit 10F provided with the energizing device 931F is defined as a flow energizing unit 101F. The number of energizing devices 321F can be adjusted according to the power consumption of the venue to meet the needs of the mobile venue of the present invention. That is, the number of the flow energy supply units 101F can be adjusted according to the power consumption of the venue. The service component 32F further includes at least one water treatment device 322F to provide water service to the mobile venue of the present invention. The water treatment device may be disposed in the unit space 34F of the wall unit 10F. The water treatment device 322F further includes at least one water supply device 3221F to provide domestic water to the mobile stadium of the present invention. The water treatment unit 322F further includes a sewage treatment unit 3222F to provide a sewage treatment service. The sewage station The device 3222F is connected to an external sewage treatment system to process the sewage generated by the system and introduce it into an external sewage treatment system to avoid polluting the environment. The water treatment device 322F further includes a water purification device 3223F to provide a purified water source service. The wall unit 10F provided with the water treatment device 332F is defined as a flowing water treatment unit 102F.

The service component 32F further includes at least one display device 323F for providing display services in the layer space. The display device 323F can be disposed in the unit space 34F of the wall unit 10F. The wall unit 10F provided with the display device 323F is defined as a flow display unit 103F. The service component 32F further includes a set of rest components 324F to provide rest services for the mobile venue. The set of rest components 324F can be disposed in the unit space 34F of the wall unit 10F. The wall unit 10F provided with the set of rest components 324F is defined as a flow rest unit 104F. The service assembly 32F further includes at least one layer of connectors 325F to provide connection to at least two of the layer assemblies 931F such that a user can access the layer space 9311F of another of the layer assemblies 931 through the layer connectors 325F. The layer connector 325F is provided to the unit space 34F of the wall unit 10F. The wall unit 10F provided with the layer connector 325F is defined as a flow connector 105F. The service component 32F further includes at least one air conditioning device 326F for regulating air temperature and/or humidity within the mobile stadium of the present invention. The air conditioning device 326F is available to the unit space 34F of the wall unit 10F. The wall unit 10F provided with the air conditioning device 326F is defined as a flow air conditioning unit 106F. Preferably, the mobile stadium of the present invention is provided with at least one flow energy supply unit 101F. The number of flow energy supply units 101F can be adjusted according to the needs of the mobile stadium of the present invention.

The top cover 94F further includes a support frame 941F and at least one cover 942F covering the support frame 941F to form the top cover 94F. The support frame 941F further includes a set of sub-support frames 9411F that can be assembled to form the support frame 941F. It is worth mentioning that the sub-support frame 941F is telescopic or foldable so as to be received in the unit space 34F of the wall unit 10F, so that the sub-support frame 9411F is flowed together with the wall unit 10F. The two sub-support frames 9411F may also be connected to each other to form the support frame 941F. That is, the sub-support frame 9411F is adapted to be housed in the unit space 34F of the wall unit 10F. Preferably, the cover 942F is a soft material covering the sub-support frame 9411F. The cover 942F can be housed in the unit space 34F of the wall unit 10F to facilitate the flow.

It is worth mentioning that the flow energy supply unit 101F can also supply power to the fixed building to meet the power demand of the fixed building. The flowing water treatment unit 102F can supply water to a fixed building and/or perform sewage treatment. The flow display unit 103F can be disposed in a fixed building to provide a display service for the fixed building. The mobile rest unit 104F can be placed in a fixed building to service the fixed building. The flow air conditioning unit 106F can provide air conditioning services to a stationary building.

The hall body 90F further includes a flow platform 95F disposed at the bottom of the activity space 92F to facilitate activities on the mobile platform 95F, such as badminton, soccer, basketball, tennis, and squash. It is worth mentioning that on the mobile platform 95F, venues for activities such as badminton courts, indoor soccer courts, basketball courts, tennis balls and squash can be preset. In the present embodiment, preferably, indoor football activities are performed on the mobile platform 95F. The flow platform 95F further includes a set of platform elements 951F. Each of the platform elements 951F is coupled to form the flow platform 95F. Preferably, the set of platform elements 951F are arranged in an array, with two adjacent platform elements 951F being interconnected. It is worth mentioning that the platform member 951F can be disposed on the wall unit 10F to be flowed together with the wall unit 10F. Preferably, the platform member 951F can be disposed on one side of the flow assembly 30F of the wall unit 10F as a wall member 31F of the flow assembly 30F of the wall unit 10F such that the platform member 951F The wall units 10F are flowed together. This is shown in Figure 44A. The platform member 951F can also be fixed to the top of the wall unit 10F to be flowed together with the wall unit 10F.

It is worth mentioning that the mobile platform 95F is provided with at least one field feature 952F for facilitating activities. The site features are disposed on the surface of the flow platform. The venue feature 952F further includes a set of venue sub-features 9521F. The site sub-feature 9521F can be disposed on the platform member 951F such that the site feature 952F is formed after the platform member 951F is combined to form the flow platform 95F. In the preferred embodiment, preferably, the venue feature 952F is a venue feature of an indoor soccer pitch.

It is worth mentioning that the mobile platform 95F further includes at least one additional site feature 953F that is detachably laid on the mobile platform 95F to cause the mobile venue to perform other activities. For example, the additional venue feature 953F is laid on the mobile platform 95F for badminton court features to make the mobile venue suitable for badminton activities. It is worth mentioning that the additional site feature 953F can be laid directly on the ground. The additional venue feature 953F further includes a set of sub-additional venue features 9531F to which two adjacent additional venue features 9531F are interconnected. This sub-additional site feature 9531F is easily accommodated in the unit space 34F of the wall unit 10F. By setting this additional venue feature 953F, the mobile venue is allowed to perform other activities. For example, the additional venue feature 953F provides for badminton activities. After the additional venue feature 953F is set, the mobile venue of the present invention is transformed from providing an indoor soccer event to providing a badminton event. Moreover, the laying efficiency is high by laying additional site features. That is to say, by laying the additional site feature 953F, the mobile stadium of the present invention is converted into a mobile badminton hall as a mobile soccer stadium. And the transition to provide a type of service is highly efficient.

It is worth mentioning that the mobile stadium of the present invention further includes at least one waterproofing device 71F which can be disposed at the bottom of the mobile stadium of the present invention for forming a swimming pool 70F at the bottom of the mobile stadium of the present invention. As shown in Figure 47. Specifically, the waterproof device 71F is disposed at the bottom of the hall body 90F and is mounted to each of the wall mounts The bottom inner side of the 93F is placed to form the swimming pool 70F at the bottom of the movable space 92F. The waterproof device 71F is further provided with at least two air guiding ports 711F for draining water flow. Preferably, the two flow guiding ports 711F are respectively connected to the water treatment device 322F to purify the water of the swimming pool 70F, thereby maintaining the quality of the water inside the swimming pool. It is worth mentioning that at least one of the wall units 10F is provided in a portion of the bottom of the swimming pool 70F to form different water depth regions in the swimming pool. It is worth mentioning that by providing a group of wall units 10F in the swimming pool 70F, by stacking the wall units 10F to form at least one partition wall 72F, the swimming pool 70F is divided into at least two functional areas 74F. Different features provide different services. As shown in Fig. 47, cold water is used in one of the functional areas 74F, and warm water is used in the other functional area 74F. Preferably, the waterproof device 71F is a waterproof material, and the waterproof material is closely attached to the inner side of the bottom of each of the wall devices 93F to prevent water from seeping.

It is worth mentioning that a plurality of the wall units 10F are provided in the movable space 92F of the mobile stadium of the present invention to form the partition wall 72F to divide the movable space 92F into at least two sub-functional areas 921F. The waterproofing device 71F is disposed at the bottom of one of the sub-chamber spaces 921F such that the swimming pool 70F is formed in one of the sub-cabin spaces 921F. The other sub-chamber space 921F is provided with the additional site feature 953F at the bottom such that a badminton court is formed in the other sub-chamber space 921F. As shown in Figure 48. That is to say, in the present embodiment, the mobile stadium of the present invention is used as an indoor soccer stadium, and is changed to a swimming pool and a badminton hall as needed. Implement different functions.

A preferred embodiment of the wall unit 10F shown in Fig. 44A. The wall unit 10F includes the flow assembly 30F having the unit space 34F. The flow assembly 30F further includes a component frame 35F and a set of wall elements 31F. The wall member 31F is fixed to the assembly frame 35F. Preferably, the wall member 31F is detachably fixed to the assembly frame 35F. Each of the wall members 31F is detachably fixed to the assembly frame 35F, respectively, to form the unit space 34F. It is worth mentioning that the platform member 951F is detachably fixed to the assembly frame 35F as one of the wall members 31F of the flow assembly 30F. It is worth mentioning that the two flow components 30F are connected to each other by detaching the adjacent two wall elements 31F of the flow components 30F, respectively, so that the adjacent two flow components 30F are in communication. That is, when the layer assembly 931F is split, the layer space 9311F of the layer assembly 931F can be split into at least two of the unit spaces 34F by mounting the wall member 31F.

The wall unit 10F further includes a support adjustment device 20F that detachably supports the flow assembly 30F to maintain the flow assembly 30F stable. It is worth mentioning that the flow assembly 30F can be made by the support adjustment device 20F so that the flow assembly can be adapted to different terrain environments. The support adjustment device 20F is configurable to the platform member 951. The support adjustment device 20F further includes a set of support adjustment members 21F. The set supports the flow assembly 21F, and the set of support adjustment members 21F are detachably mounted to the flow assembly 30F, respectively. Pass Adjusting the set of support adjustment members 21 separately maintains the flow assembly 30F stable so that the flow assembly 30F is adapted for use in different terrain environments.

As shown in Fig. 45, the wall unit 10F further includes a detection control device 40F communicatively coupled to the support adjustment device 20F to control the support adjustment device 20F to remain stable. The detection control device 40F is provided to the wall unit 10F. Preferably, the detection control device 40F is disposed to the flow assembly 30F. The detection control device 40F further includes a group of monitoring units 41F and a control device 42F. Each of the monitoring elements 41F is communicably connected to each of the support adjustment members 21F such that each of the support adjustment members 21F is communicatively coupled to at least one of the monitoring elements 41F, thereby facilitating acquisition of the state of each of the support adjustment members 21F, and then transmitting to The control device 42F. The monitoring element can be disposed on each wall element 31F to acquire the state of each wall element, respectively. The state of each of the support adjustment members 21F is analyzed by the control device 42F, and then each of the support adjustment members 21F is adjusted to maintain the stability of the flow assembly 30F or the platform member 951F. The detection control device 40F further includes a positioning device 43F. The positioning device 43F acquires the position of the wall unit 10F. Preferably, the positioning device 43F acquires the real-time position of the wall unit 10F. The positioning device 43F transmits the real-time position of the wall unit 10F to the control device 42F to facilitate management of the wall unit 10F. It is worth mentioning that the positioning device 43F can acquire the position of the wall unit 10F at the wall device 93F in order to set the position of each wall unit 10F at the wall device. The detection control device 40F further includes a communication device 44F communicatively coupled to the control device 42F for exchanging information with other wall units 10F for cooperative operation. That is, a plurality of the wall units 10F exchange information through the respective communication devices 44F to facilitate cooperative operation. It is worth mentioning that each of the wall elements 31F of the flow assembly 30F can be respectively provided with the monitoring element 41F, so that the control device 42F obtains the state of each of the wall elements 31F. Each of the platform elements 951F of the flow platform 95F can be separately provided with the monitoring element 41F such that the control device 42F can acquire the state of each platform element 951F.

The mobile stadium of the present invention further includes a management unit 4F that is communicably connected to the detection control device 40F of each of the wall units 10F, respectively, to acquire the state of the wall unit 10F. Specifically, the management unit 4F communicably connects the control device 42F of the detection control device 40F of each wall unit 10F. The management unit 4F manages according to the state of each of the wall units 10F. For example, when the mobile stadium of the present invention is disassembled, if the disassembly sequence of each of the wall units 10F is arranged, the platform member 951F is arranged to be disposed on the corresponding wall unit 10F. When each of the wall units 10F is transported, the transport paths of the wall units 10F are coordinated to obtain the real-time position of each of the wall units 10F. When the mobile stadium of the present invention is assembled, the assembly sequence of each of the wall units 10F is arranged. Preferably, the management unit 4F can preset an assembly plan.

It is worth mentioning that a performance platform 73F is provided in the activity space 92F, and the performance platform 73F includes at least In the wall unit 10F, two adjacent wall units 10F are connected to each other to form the performance platform 73F. Specifically, first, the movable space 92F is provided with at least one wall unit 10F, and then each of the wall units 10F is assembled to form the performance platform 73F. Preferably, a plurality of the wall units 10F are connected side by side at the bottom of the movable space 92F. To form the performance platform 73F. It is worth mentioning that, in the performance platform, the two wall elements 31F adjacent to the two wall units 10F are respectively disassembled to connect the unit spaces 34F of the wall units 10F, thereby forming a background space 731F. . The position of the performance platform 731F can be adjusted according to the needs of the performance. For example, it is disposed at one end of the bottom of the movable space 92F or the middle of the bottom of the movable space 92F. The performance platform can also be used as a combat sports platform, such as boxing, taekwondo and so on.

Figure 49 is a flow chart showing the assembly method of the mobile stadium of the present invention. The assembly method of the mobile stadium of the present invention comprises the following steps:

Step 2001: Disassembling the mobile stadium of the present invention into a plurality of the wall units 10F.

Step 2002: A plurality of the wall units 10F are respectively transported to the destination. It is worth mentioning that the destination can be preset.

Step 2003: A plurality of the wall units 10F are assembled to form the mobile stadium of the present invention.

Wherein step 2001 further comprises the following steps:

Step 20011: Separate the top cover 94F from the hall body 90F so that the hall body 90F no longer supports the top cover 94F. The top cover 94F and the hall body 90F can be separated by disassembly. The top cover 94F is further detached into the top frame 941F and the cover 942F. The top frame 941F is further split into the set of sub-mounts 9411F to facilitate the unit space 34F of the flow assembly 30F housed in the wall unit 10F.

Step 20012: Disassemble the hall body 90F. Step 20012 further includes the following steps:

Step 20011: Determine whether the wall body 93F has at least two layers of the wall device 93F of the layer assembly 931F. If there are at least two layers of the wall device 93F of the layer assembly 931F, then step 200122 is performed. If the wall device 93F of the hall body 90F has only one layer of the layer assembly 931F, step 200124 is performed. If the wall device 93F is not present, step 200126 is performed.

Step 200122: Selecting a layer assembly 931F at the top of the wall device 93F of at least two of the layer assemblies 931F, disassembling the selected layer assembly 931F into at least one of the wall units 10F. Specifically, if the selected layer assembly 931F is one of the wall units 10F, the wall unit 10F is detached from the hall body 90F. If the selected layer assembly 931F is divided into at least two wall units 10F, each of the hall bodies 90F is detached from the hall body 90F. It is worth mentioning that the layer space 9311F of the selected layer component 931F is separated into at least two by installing the wall element 31F to the component frame 35F of the flow component 30F of the corresponding wall unit 10F. The cell space 34F is capable of dividing the selected layer component 931F into at least two of the wall cells 10F.

Step 200123: Return to step 200121.

Step 200124: Selecting the layer component 931F of the hall body 90F having only one layer of the layer component 931F, and disassembling the selected layer component 931F into at least one of the wall units 10F. Specifically, if the selected layer assembly 931F is one of the wall units 10F, the wall unit 10F is detached from the hall body 90F. If the selected layer assembly 931F is divided into at least two wall units 10F, each of the hall bodies 90F is detached from the hall body 90F. It is worth mentioning that the layer space 9311F of the selected layer component 931F is separated into at least two by installing the wall element 31F to the component frame 35F of the flow component 30F of the corresponding wall unit 10F. The cell space 34F is capable of dividing the selected layer component 931F into at least two of the wall cells 10F.

Step 200125: Return to step 200121.

Step 200126: Disassemble the flow platform 95F. The flow platform 95F is detached into a plurality of platform elements 951F.

Step 200127: The platform element 951F is placed in the wall unit 10F. Specifically, the platform member 951F is receivable in the unit space 34F of the wall unit 10F. Preferably, the platform member 951F is disposed to the assembly frame 35F of the flow assembly 30F of the corresponding wall unit 10F as the wall member 31F of the flow assembly 30F such that the unit space 34F is surrounded by the plurality of walls The element 31F is surrounded to facilitate accommodation of the item.

Step 2002 further includes the following steps:

Step 20021: The cover 942F and each of the sub-supports 9411F are disposed in the unit space 34F of the flow assembly 30F of the wall unit 10F to facilitate transporting the cover 942F and each of the sub-mounts 9411F.

Step 20022: Move each of the wall units 10F to a destination, respectively. Preferably, they are transported separately to the destination by the exercise device.

Step 2003 further includes the following steps:

Step 20031: Determine the type of the mobile stadium formed by assembling each of the wall units 10F. For example, an indoor soccer hall, an indoor badminton hall, an indoor swimming pool, or the like is formed by assembling each of the wall units 10F.

Step 20032: Grouping the wall units 10F according to the determined type of the mobile stadium. First, the number of the wall device groups divided is determined according to the number of the wall devices 93F included in the hall body 90F of the mobile stadium to be assembled. Then, each of the wall units 10F is divided into one wall device group according to the same wall device 93F. Next, the number of layers of the wall device 93F is determined. Next, each of the wall units 10F belonging to the same wall device group is grouped according to the determined number of layers of the wall device 93F. Each of the wall units 10F belonging to the same layer component 931F is divided into a layer group.

Step 20033: Each of the wall units 10F is assembled to form the hall body 90F. Step 20033 further includes the following step:

Step 200331: Select one of the group of wall devices, and select each of the wall units 10F belonging to the same group of the groups in the selected group of wall devices.

Step 200332: Set the selected wall units 10F of the same layer group to corresponding preset positions. Specifically, if the wall device 93F corresponding to each of the wall units 10F selected by the layer group has not been assembled, each wall unit 10F selected by the same layer group is disposed at the destination. The preset position of the corresponding wall device 93F is assembled. The layer assembly 931F assembled by the wall unit 10F selected by the same layer group is used as the layer assembly 931F at the bottom of the corresponding wall device 93F. If the layer assembly 931F of the wall device 93F corresponding to each wall unit 10F selected by the same layer group has been set, each wall unit 10F selected by the same layer group is separately assembled in the assembled Corresponding to the top of the wall device 93F. That is, each of the wall units 10F selected by the same layer group is supported by the assembled corresponding wall device 93F.

Step 200333: Assembling each of the selected wall units 10F to form the layer assembly 931F.

Step 200334: Determine whether there is a separate wall unit 10F in each wall device group. If there is a separate wall unit 10F in each wall device group, step 200331 is performed; if there is no separate one in each wall device group The wall unit 10F is assembled by the hall body 90F. Preferably, after the assembly of the hall body 90F is completed, the hall body 90F has the activity space 92F. It is worth mentioning that between step 200331 and step 200332, there is further included a step of removing the articles of the unit space 34F of the flow assembly 30F housed in each of the wall units 10F.

Step 20035: The top cover 94F is assembled, and the top cover 94F is placed on the hall body 90F such that the top cover 94F is supported by the hall body 90F. First, each sub-bracket 941F is assembled to form the top frame 941F. The cover 942F is then covered by the top frame 941F to form the top cover 94F.

Step 20036: Assemble the mobile platform 95F. Each of the platform elements is assembled to form the flow platform.

It is worth mentioning that at least one of the wall units 10F is provided with the energy supply device 321F during the flow. That is, at least one of the flow energizing units 101F participates in the flow process. Preferably, at least one of the energizing unit 101F and the at least one water treatment unit 102F participate in a flow process. That is, preferably, the mobile stadium of the present invention includes at least one of the energizing units.

It is worth mentioning that the flow method of the mobile stadium of the present invention can be performed by the management unit 4F. The management unit 4F is connected to each of the detection control devices 40F of the wall units 10F to acquire the state of each of the wall units 10F, thereby controlling the execution of the flow method. That is, the management unit 4F knows whether the wall unit 10F is assembled with the other wall unit 10F through the detection control device 40F of the wall unit 10F to form the layer assembly 931F, which is located at the mobile stadium of the present invention. Location, and location of the flow unit during transportation, etc.

It is worth mentioning that the wall of the fixed building can be used as the wall device 93F of the hall body 90F of the mobile stadium of the present invention. This is shown in Figures 50A and 50B. That is to say, in the assembly process, the mobile stadium of the present invention can be assembled according to the mobile venue before the flow, or can be assembled in combination with the fixed venue. For example, the mobile stadium as shown in Fig. 50A is assembled. First, two preset positions of the wall device 93F are set in advance. The two preset positions are respectively connected to one of the walls W of the fixed building, so that after assembling the two bases to avoid the 93F, the two wall devices 93F and one of the walls W of the fixed building enclose the activity. Space 92F. Then, each of the wall units 10F is assembled separately to form two wall devices 93F. Next, the top cover 94F is assembled, and the top cover 94F is placed on top of the two wall devices 93F to be supported by the two wall devices 93F. Next, the flow platform 95F is assembled to facilitate movement on the flow platform 95F. It is worth mentioning that the preset site feature 951F is set on the mobile platform 95F. Preferably, at least one of the flow energy supply units 101F is included in each of the wall units 10F in which the mobile stadium is assembled. The flow energy supply unit 101F can supply electrical energy to the fixed building.

It is worth mentioning that the plurality of wall units 10F can be assembled to form a mobile soccer field, as shown in FIG.

Figure 51 shows another preferred embodiment of the mobile stadium of the present invention. The mobile stadium of the present invention serves as the mobile soccer field. The mobile stadium of the present invention includes a hall body 90G having an activity space 92G for performing activities. Preferably, the activity space 92G is located at an upper portion of the hall body 90G. The hall body 90G further includes at least one wall device 93G located above the wall device 93G. Preferably, the hall body 90G includes two wall devices 93G, and the two wall devices 93G are connected to each other to form the hall body 90G, and the movable space 92G is provided at an upper portion of the hall body 90G. The wall device 93G further includes at least one layer of components 931G, the layer assembly 931G being juxtaposed to form the wall device 93G. The layer assembly 931G further includes at least one wall unit 10F, and the adjacent two of the wall units 10F are interconnected to form the layer assembly 931F. That is, the hall body 90G is formed by assembling a plurality of the wall units 10F. Preferably, the hall body 90G includes an array of wall units 10F, that is, the wall unit 10F array is a rectangular array. As shown in Figure 52. The hall body 90G further includes a flow platform 95G disposed between the hall body 90G and the activity space 92G to be supported by the hall body 90G. The flow platform 95G further includes a set of platform elements 951G, and two adjacent platform elements 951G are interconnected to form the flow platform 95G. The set of platform elements 951G are respectively supported by the flow unit 10G. It is worth mentioning that the platform component 951G can be pre-customized.

As shown in FIG. 53, the platform member 951G further includes at least two component supporting portions 9511G and an element body 9512G, and the component supporting portions 9511G are respectively disposed on both sides of the component body 9512G to support the component body 9511G. Preferably, the element body 9512G has a set of through holes 95112G. It is worth mentioning that the surface of the object supporting the two element supporting portions 9511 is defined as a supporting surface through which the two element supporting portions 9511G are A buffer space 9513G is formed between the element body 9512G and the support surface, and the influence of the surface environment of the support surface on the element body 9512G is reduced by the buffer space 9513G, thereby reducing the influence of the support surface environment on the movement on the platform element 951G. . As shown in Figure 54. It is worth mentioning that the platform element 951G can also be applied to other preferred embodiments of the mobile stadium of the present invention. Preferably, the buffer space 9513G can be adjusted by adjusting the lengths of the two element supporting portions 9511G.

The flow platform 95G further includes an additional site feature 953G that is laid on top of the flow platform 95G. That is, each of the platform elements 951G supports the additional venue feature 953G. The additional venue feature 953G further includes a set of sub-additional venue features 9531G, with two adjacent additional venue features 9531G interconnected. This sub-additional site feature 9531G is easily accommodated in the unit space 34G of the flow unit 10G. Preferably, the additional venue feature 9531G is an artificial turf. It is worth mentioning that when it rains, rainwater penetrates through the artificial turf to the platform element 951G. The set of through holes 95112G of the platform body 9512G of the platform member 951G are guided away from the platform member 951G, thereby reducing the influence of rain when performing football activities on rainy days. Further, the two element supporting portions 9511G support the element main body 9512G, which is supported by the top of the flow unit 10G. That is, the buffer space 9513G is formed between the platform main body 9512G and the machine portion of the flow unit 10G so that water flows in the flow guiding space 9513, reducing the influence on the platform main body 9512G, thereby reducing the addition. The impact of the site features 9531G. Preferably, the platform element 951G is a preform that can be preset as needed. It is worth mentioning that the mobile platform 95G can be directly laid on the ground. Each of the element supporting portions 9511G supports the element main body 9512G to form a flow guiding space 9513G between the ground and the element main body 9512G, thereby reducing the influence of the ground environment on the element main body 9512G. Figure 55 is a schematic illustration of another preferred embodiment of the mobile arena of the present invention. The mobile stadium of the present invention includes a hall body 90H having an activity space 92H. The hall body 90H further includes at least two wall devices 93H, each of which is disposed on one side of the movable space 92H to form the movable space 92F between the two wall devices 93F, thereby making the movable space 92F Available for activities. The mobile stadium further includes a top cover 94H supported by the hall body 90H. The top cover 94H is supported by each of the wall devices 93H. The top cover 94H covers the movable space 92H. Preferably, the top cover 94H covers each of the wall devices 93H and the movable space 92H. The wall unit 93H includes at least one layer of components 931H in one step, and the height of the wall unit 93F is adjusted by stacking the layer assembly 931H. The layer assembly 931H further includes at least one wall unit 10F having a unit space 34F. Specifically, the wall unit 10F includes a flow assembly 30F having the unit space 34F.

The top cover 94H further includes a support frame 941H and at least one cover 942H as shown in Fig. 56, and the cover 942H covers the support frame 941H to shape the top cover 94H. The support frame 941H further includes a set of sub-supports 9411H, the set of sub-supports 9411H can be assembled to form the support frame 941H.

The wall unit 10F can be fixed between the two wall units by a fixing device. Preferably, the fixing device is a bridge lock or a twist lock. As shown in Fig. 57 and Fig. 58, the mobile stadium of the present invention further includes a wall unit fixing device 99H which is provided at a joint portion of the four wall unit fixing devices. The wall unit fixing device 99H further includes a fixing plate 991H and four clamping members 992H, and the clamping members 922H are respectively fixed to the four corner portions of the fixing plate 991 to be between the two clamping members 992H. A clamping groove 993H is formed. When the two wall units 10F are overlapped, the joint portions of the two assembly frames 35F are fitted into the holding grooves 993H for fixing. That is, when the four wall units 10F are stacked, at the connection portion of the four wall units 10F, the connecting portions of the two assembly frames 35F of the adjacent two wall units 10F are embedded in the corresponding clamping slots 993H. Thereby four wall units 10F are fixed. The fixing plate 991H further has a set of fixing holes 9911H corresponding to the holding groove 993H for further fixing by other fixing means such as rivets.

Figures 59 and 60 show another preferred embodiment of the mobile badminton hall of the present invention. The mobile venue further includes a hall body 90F' having an activity space 92F'. The hall body 90F' further includes at least two wall devices 93F', and the movable space 92F' is formed by providing each of the wall devices 93F'. Preferably, the movable space 92F' is formed by setting the positional relationship of each of the wall devices 90F'. For example, the two wall devices 93F' are disposed opposite each other to form the movable space 92F' between the two wall devices 93F'. Alternatively, two adjacent wall devices 93F' are connected to each other, and the movable space 92F' is formed between the two wall devices 93F'. The event space 92F' provides for badminton activities, and the like. It is worth mentioning that the movable space 92F' is adjusted by adjusting the positional relationship of each of the wall devices 93F'. In the preferred embodiment, preferably, the hall body 90F' further includes four wall devices 93F', and two ends of the four wall devices 93F' are sequentially connected to form the movable space 92F'. That is, four of the wall devices 93F' are disposed to surround the movable space 92F'.

The wall device 93F' further includes at least one wall unit 931F' having a wall unit space 9311F'. The wall device 93F' is formed by stacking each of the wall units 931F'. It is worth mentioning that the height of the wall unit 93F' is adjusted by stacking the wall unit 931F'. The stacking means that the wall unit 931F' is disposed at the upper portion of the other of the wall units 931F' such that the wall unit 931F' is supported by the other of the wall units 931F'. This is shown in Figure 61B. The width of the wall unit 93F' is adjusted by juxtaposing the wall unit 931F' in parallel. This is shown in Figure 61A. The length of the wall means 93F' is adjusted by connecting one end of one of the wall units 931F' to one end of the other wall unit 931F'.

The wall unit 931F' further includes a set of wall members 9312F' and a wall unit frame 9313F'. Each of the wall members 9312F' is disposed to the wall unit frame 9313F'. Preferably, each of the wall elements 9132F' is The wall unit frame 9313F' is detachably provided to form the wall unit space 9311F'. It is to be noted that the adjacent two wall units 931F' communicate the two wall unit spaces 9311F' by detaching the adjacent two wall members 9312F', thereby facilitating service through the wall unit spaces 9311F'. The wall unit space 9311F' is disposed on one side of the movable space 92F'. It is worth mentioning that the wall unit 931F' can be prefabricated. Specifically, when the wall unit 931F' is prefabricated, it needs to be satisfied to facilitate disassembly of the wall device 93F' into at least one wall unit 931F'; the wall unit 931F' is convenient for transportation; and the wall device 93F' is facilitated to be assembled. Wall device 93F'. That is, the flow means that the flow venue is easily disassembled into a plurality of the wall units 931F', a plurality of the wall units 931F' are facilitated to be transported, and a plurality of the wall units are facilitated to be assembled into the mobile stadium. If the mobile stadium of the present invention is flowed to a destination, the mobile stadium of the present invention is first disassembled into a plurality of the wall units 931F'. A plurality of the wall units 931F' are then transported to the destination, respectively. Finally, the plurality of wall units 931F' are assembled into a mobile stadium for the purpose. It is worth mentioning that the destination can be preset.

As shown in Fig. 63, the wall unit 931F' further includes at least one service component 9314F', which is disposed in the wall unit space 9311F' to provide a service. The service component 9314F' further includes at least one energizing device 93141F' disposed in the wall unit space 9311F'. The energizing device 93141F' supplies electrical energy to the mobile stadium of the present invention. It is worth mentioning that the energy supply device 93141F' can supply electrical energy to a fixed building. The wall unit 931F' provided with the energizing means 93141F' is defined as the energy supply wall unit 101F'. The energy supply wall unit 101F' can be coupled to the wall unit to supply electrical energy to the mobile badminton hall of the present invention. Preferably, the mobile stadium of the present invention includes at least one energy supply wall unit 101F'. The power supply wall unit 931F' is connectable to the wall unit 931F' to be assembled with each of the wall units 931F' to form the wall means 93F'. The service component 9314F' further includes at least one water treatment device 93142F' disposed in the wall unit space 9311F'. The water treatment device 93142F' provides a water treatment service. The water treatment device 93142F' further includes at least one water supply device 931421F' to provide domestic water to the mobile stadium of the present invention. The water treatment unit 93142F' further includes a sewage treatment unit 931422F' to provide a sewage treatment service. The sewage treatment unit 931422F' is connected to an external sewage treatment system to treat the sewage generated by the system and to the external sewage treatment system to avoid polluting the environment. The water treatment unit 9314F' further includes a water purification unit 931423F' to provide a purified water source service. The wall unit 931F' provided with the water treatment device 931423F' is defined as the water treatment wall unit 102F'. The water treatment wall unit 102F' is connected to each of the wall units 931F' to assemble and form the wall device 93F'.

The service assembly 9314F' further includes at least one display device 93143F' that can be disposed in the wall unit space 9311F' of the wall unit 931F'. The device provided with the display device 93143F' Wall unit 931F' is defined as display wall unit 103F'. The service component 931F' further includes a set of rest components 93144F' to provide a rest service for the mobile venue. The set of rest components 93144F' are disposed in the wall unit space 9311F' of the wall unit 931F'. The wall unit 931F' provided with the set of rest assemblies 93144F' is defined as a rest wall unit 104F'. The service assembly 9314F' further includes at least one guiding device 93145F' to guide the user from one of the wall unit spaces 9311F' to the other of the wall unit spaces 9311F'. For example, two adjacent wall units 931F', two of the wall units 931F' are in a stacked state. That is, one of the wall units 931F' is disposed at the upper portion of the other of the wall units 931F' and is supported by the other of the wall units 931F'. The guiding device 93145F' is disposed on the other wall unit 931F' so that the user can enter the other wall unit 931F' from the wall unit space 9311F' of one of the wall units 931F' through the guiding device 93145F'. Unit space 9311F'. This wall unit 931F' provided with the guiding means 93145F' is defined as the guiding wall unit 105F'. The service component 9314F' further includes at least one air conditioning device 93146F' for adjusting the temperature and/or humidity of the air within the mobile stadium of the present invention. The air conditioning unit 93146F' is provided to the wall unit space 9311F' of the wall unit 931F'. The wall unit 931F' provided with the air conditioning unit 93146F' is defined as an air conditioning wall unit 106F'. Preferably, the mobile stadium of the present invention is provided with at least one flow energy supply unit 101F'. The number of flow energy supply units 101F' can be adjusted according to the needs of the mobile stadium of the present invention.

It is worth mentioning that the energy supply wall unit 101F' can also supply power to the fixed building to meet the power requirements of the fixed building. The water treatment wall unit 102F' can supply water to a fixed building and/or perform sewage treatment. The display wall unit 103F' can be disposed in a fixed building to provide a display service for the fixed building. The rest wall unit 104F' can be placed in a fixed building to provide service to the fixed building. The air conditioning wall unit 106F' can provide air conditioning services to a fixed building.

The mobile stadium further includes a top cover 94F' supported by the hall body 90F'. Specifically, the top cover 94F' is supported by each wall unit 93F'. The top cover 94F' covers the movable space 92F'. The top cover 94F' further includes a support frame 941F' and at least one cover 942F' that covers the support frame 941F' to form the top cover 94F'. The support frame 941F' further includes a set of sub-support frames 9411F' which are assembled to form the support frame 941F'. It is worth mentioning that the sub-support frame 941F' is retractable or foldable so as to be received in the wall unit space 34F' of the wall unit 931F', so that the sub-support frame 9411F' is together with the wall unit 931F' flow. The two sub-support frames 9411F' may also be interconnected to form the support frame 941F'. That is, the sub-support frame 9411F' is adapted to be housed in the wall unit space 9311F' of the wall unit 931F'. Preferably, the cover 942F' is a soft material covering the sub-support frame 9411F'. The cover 942F' can be housed in the unit of the flow unit 10F' Space 34F' to facilitate flow.

The hall body 90F' further includes a movable platform 95F' disposed at the bottom of the activity space 92F' to facilitate badminton activities on the mobile platform 95F'. The flow platform 95F' further includes a set of platform elements 951F'. Each of the platform members 951F' is assembled to form the movable platform 95F'. The adjacent platform members 951F' are connected to each other. Preferably, the set of platform elements 951F' are arranged in an array, with two adjacent platform elements 951 being interconnected. It is worth mentioning that the platform member 951F' can be disposed on the wall unit 931F' to be flowed together with the wall unit 931F'. Preferably, the platform member 951F' may be disposed on one side of the wall unit frame 9313F' of the wall unit 931F' as one of the wall members 9132F' of the wall unit 931F'. It is worth mentioning that the platform member 951F' can also be fixed to the top of the wall unit 10F' to be flowed together with the wall unit 931F'.

It is worth mentioning that the event platform 95F' is provided with a preset field feature 952F' to facilitate the event. Preferably, the field feature 952F' is disposed on a surface of the movable platform 95F'. The venue feature 952F' further includes a set of venue sub-features 9521F'. The site sub-feature 9521F' can be disposed on the platform member 951F' such that the site feature 952F' is formed after the platform member 951F' is combined to form the flow platform 95F'. Preferably, the venue feature 952F' is a badminton court feature.

It is worth mentioning that the mobile platform 95F' further includes at least one additional site feature 953F' that is detachably laid on the mobile platform 95F' to cause the mobile venue to perform other activities. For example, the additional venue feature 953F' is laid on the mobile platform 95F' for the badminton court feature to make the mobile venue suitable for badminton activities. It is worth mentioning that the additional site feature 953F' can be laid directly on the ground. The additional venue feature 953F' further includes a set of sub-additional venue features 9531F', and the two adjacent additional venue features 9531F' are interconnected. The sub-additional site feature 9531F' is easily accommodated in the unit space 34F' of the flow unit 10F'. By setting the additional venue feature 953F', the mobile venue is allowed to perform other activities. For example, the additional venue feature 953F' provides for badminton activity. After the additional venue feature 953F' is set,

It is worth mentioning that the wall unit 931F' can be disposed in the active space 92F'. For example, a plurality of the wall units 931F' are stacked in the movable space 92F' to form at least one partition wall 72F'. The partition wall 72F' divides the movable space 92F' into at least two of the sub-active spaces 921F'.

As shown in Fig. 62, the wall unit 931F' further includes a support adjusting means 9314F' which is detachably provided to the wall unit 931F' to maintain the wall unit 9314F' stable. The support adjustment means can be disposed on the wall member 9311F' of the wall unit 931F'. It is worth mentioning that the flow wall unit 9311F' can be adjusted by the support adjusting means 9314F' so that the wall unit 9314F' can be adapted to The same terrain environment. The support adjustment device 9314F' is available for placement on the platform member 951F'. The support adjustment device 9314F' further includes a set of support adjustment members 93141F'. The set of support adjusters 93141F' are detachably mounted to the wall unit 931F', respectively. The wall unit 931F' is stabilized by adjusting each of the support adjustment members 93141, respectively, so that the wall unit 931F' is adapted to be used in different terrain environments.

As shown in Fig. 62, the wall unit 931F' further includes a management device 9317F' communicably coupled to the support adjustment device 9314F' to manage the support adjustment device 9314F' to remain stable. The support adjusting means 9314F' is provided to the wall unit 931F'. Preferably, the management device 9317F' is provided to the wall unit 931F'. The management device 9317F' further includes a set of monitoring elements 93171F' and a control device 93172F'. Each of the monitoring elements 93171F' is communicably connected to each of the support adjustment members 93141F' such that each of the support adjustment members 93141F' is communicatively coupled to at least one of the monitoring elements 93171F', thereby facilitating acquisition of each of the support adjustment members 931411F'. The status is then transmitted to the control device 93172F'. The state of each of the support adjusting members 93141F' is analyzed by the control means 93172F', and then each of the support adjusting members 93141F' is adjusted to maintain the stability of the wall unit 931F' or the platform member 951F'. The management device 9317F' further includes a communication device 93173F' communicatively coupled to the control device 93172F' for communication with other wall unit 931F' to facilitate operation with other wall units 931F'.

The wall unit 931F' further includes a navigation device 9316F' communicatively coupled to the management device 9317F'. Specifically, the navigation device 9316F' communicably connects the communication device 93173F' of the management device 9317F'. The navigation device 9316F' directs the wall unit 931F' to move to the destination. The navigation device 9316F' further includes a positioning device 93161F'. The positioning device 93161F' acquires the position of the wall unit 931F'. Preferably, the positioning device 93161F' acquires the real-time position of the wall unit 931F'. The positioning device 93161F' transmits the real-time position of the wall unit 931F' to the control device 93172F' to facilitate management of the wall unit 931F'. It is worth mentioning that the positioning device can acquire the position of the wall unit 931F' at the wall device 93F'. The navigation device 9316F' further includes a routing device 93162F' that communicatively connects the positioning device 93161F'. The route device 93162F' sets at least one movement route in accordance with the position of the wall unit 931F' and the position of the destination to guide the wall unit 931F' to move to the destination.

It is worth mentioning that the support adjustment device 9314F' further includes at least one mobile support adjustment member 93142F'. The moving support adjuster 93142F' detachably supports the wall unit 931F'. The wall unit 931F' is moved by the moving support adjusting member 93142F'.

The wall unit 931F' further includes a power supply device 9315F' coupled to the mobile support adjustment member 93142F' to power the mobile support adjustment member 93142F'. The power supply device 9315F' is controllably coupled to the management device 9317F' to be powered by the management device 9317F'.

The mobile badminton hall of the present invention further includes a management unit 4F' which is communicably connected to the management means 9317F' of each of the wall units 931F', respectively, to acquire the state of each wall unit 9317F'. Specifically, the management unit 4F' communicably connects the control means 93172F' of the management means 9317F' of each wall unit 931F'. The management unit 4F' is managed in accordance with the state of each of the wall units 931F'. For example, when the mobile stadium of the present invention is disassembled, the management unit 4F' acquires the position of each of the wall units 931F' at the wall unit 93F' by the positioning means of the navigation unit 9316F' of each of the wall units 931F'. Then, the disassembly sequence of each of the flow units 10F' is arranged in accordance with the position of each of the wall units 931F' at the wall unit 93F'. Further, the platform member 951F' is arranged to be disposed in the corresponding flow wall member 951F'. When each of the wall members 931F' moves, the movement path of each of the wall units 931F' is coordinated to obtain the real-time position of each of the wall units 931F'. When the mobile stadium of the present invention is assembled, the assembly sequence of each of the wall units 931F' is arranged. Preferably, the management unit 4F' can preset an assembly plan. Preferably, the wall means 93F' is provided with each of the wall units 931F' in an array. That is, the wall device 93F' can function as an array of the wall units 931F'. It is worth mentioning that the management unit 4F' can be disposed in the wall unit space 9311F' of the wall unit 931F'. This wall unit provided with the management unit 4F' is defined as the management wall unit 107F'.

Figure 64 is another preferred embodiment of the mobile badminton hall of the present invention. The mobile stadium of the present invention includes a hall body 90G' having an activity space 92G' located at an upper portion of the hall body 93G'. The hall body 90G' further includes a wall device 93G' located at an upper portion of the wall device 93G'. That is, the wall device 93G' is located at the bottom of the movable space 92G'. The wall device 93G' further includes a plurality of wall units 931F'. Adjacent wall units 931F' are interconnected to form the wall means 93G'. Preferably, the set of wall units 931F' are assembled in an array to form the wall means 93G'. It is worth mentioning that the two adjacent wall elements 9312F' of the two adjacent wall units 931F' can be respectively disassembled to connect the wall unit spaces 9311F' of the adjacent two wall units 931F'. In order to facilitate communication, the wall unit space 9311F' provides service. It is worth mentioning that the wall device 93G' includes at least one energy supply wall unit 101F' connected to the other wall unit 931F' to supply electric power to the mobile badminton hall of the present invention.

It is worth mentioning that the hall body 90G' further includes an activity platform 95G'. The flow platform 95G' is disposed between the wall device 93G' and the movable space 92G' and supported by the wall device 93G'. The activity is flat Stage 95G' further includes a set of platform elements 951G' to which two adjacent platform elements 951G' are interconnected. Each of the platform members 951G' is supported by each of the wall members 931G'. It is worth mentioning that the platform component 951G' is available for pre-customization.

As shown in FIG. 65, the platform member 951G' further includes at least two component supporting portions 9511G' and an element body 9512G', and the component supporting portions 9511G' are respectively disposed on both sides of the component body 9512G' to support the Element body 9511G'. It is worth mentioning that the component body 9512G' has a set of through holes 95121G'. It is to be noted that the surface of the object supporting the two element supporting portions 9511 is defined as a supporting surface through which a buffer space 9513G' is formed between the element body 9512G' and the supporting surface. The buffer space 9513G' reduces the effect of the support surface environment on the component body 9512G', thereby reducing the effect of the support surface environment on the motion performed on the platform element 951G'. As shown in Figure 65. It is worth mentioning that the platform element 951G' can also be applied to other preferred embodiments of the mobile stadium of the present invention. It is worth mentioning that the buffer space 9513G' can be adjusted by adjusting the lengths of the two element supporting portions 9511G'.

The flow platform 95G' further includes an additional site feature 953G' that is placed on top of the flow platform 95G'. That is, each of the platform elements 951G' supports the additional venue feature 953G'. The additional venue feature 953G' further includes a set of sub-additional venue features 9531G', and the adjacent two additional venue features 9531G' are interconnected. The sub-additional site feature 9531G' is easily accommodated in the unit space 34G' of the flow unit 10G'. In the preferred embodiment, preferably, the additional venue feature 9531G' is a badminton court.

Preferably, the platform member 951G' is a preform that can be preset as needed. It is worth mentioning that the mobile platform 95G' can be laid directly on the ground. Each of the element supporting portions 9511G' supports the element body 9512G' to form a buffer space 9513G' between the ground and the element body 9512G', thereby reducing the influence of the ground environment on the element body 9512G'.

As shown in Figs. 66 and 67, the mobile stadium of the present invention includes a hall body 90H' having an activity space 92H'. The hall body 90H' further includes at least two wall devices 93H', and the movable space 92H' is formed between the two wall devices 93H'. That is, each of the wall devices 93H' is disposed on one side of the movable space 92H' to surround the movable space 92H'. The mobile stadium of the present invention further includes a top cover 94H' that covers the active space 92H'. Preferably, the top cover 94H' covers each of the wall means 93H'.

The top cover 94H' further includes a support frame 941H' and at least one cover 942H'. The cover 942H' covers the support frame 941H'. The support frame 941H' is fixedly disposed on the support surface to support the cover 942H'. The support frame 941H' further includes a support portion 9411H' and a cover portion 9412H'. The support portion 9411H' The cover portion 9412H' is supported, and the cover portion 9412H' is covered by the cover 942H'. That is, the cover 942H' covers the cover portion 9412H'. Preferably, the cover 942H' is a solar receiver. The support portion 9411H' further includes a set of support columns 94111H', each of which supports the cover portion 9412H'.

The wall unit 93H' further includes a plurality of wall units 931F' adjacent to the wall unit 931F'. The set of wall units 931F' form the wall means 93F' in a stacked manner. It is worth mentioning that the wall unit 93H' is detached into the wall units 931F', and then each of the wall units 931F' is moved to the destination. It is worth mentioning that the wall device 93F' includes at least one wall unit 931F' provided with the service assembly 9314F'. That is, the wall device 93F' may further include the energy supply unit 101F', the water treatment wall unit 102F', the display wall unit 103F', the rest wall unit 104F', the air conditioning wall unit 106F', and the like. Preferably, the wall means 93F' includes at least one energy supply wall unit 101F'. If a power supply service is required to be provided, the power supply wall unit 101F' can be detached from the wall unit 93F' and then moved to the destination to provide a power supply service. When the destination does not require a power supply service, the power supply wall unit 101F' can be moved back to the location of the mobile stadium of the present invention, and then the energy supply device is reassembled to the wall device 93F'. If it is desired to provide a water treatment service, the water treatment wall unit 931F' can be detached from the wall unit 93F', and then the water treatment wall unit 931F' can be moved to a destination to provide water service. After the service is completed, the water treatment wall unit 931F' returns to the location of the mobile stadium of the present invention and is reassembled to the wall device 93F'. That is, the wall unit 931F' provided with the corresponding service component 9314F' is detached from each of the wall devices 93F' in accordance with the type of service to be provided for each destination. The wall unit 931F' provided with the corresponding service component 9314F' is then moved to the corresponding destination to provide the service. After the service is completed, the wall unit 931F' provided with the corresponding service component 9314F' is returned to the location of the mobile stadium of the present invention and reassembled into the wall device 93F'. That is, each of the wall units 931F' of the wall unit 93F' can be moved to a different destination to provide a service.

It is worth mentioning that each of the wall devices 93F' can be moved to the same destination and assembled into another mobile badminton hall of the present invention to provide services.

It is worth mentioning that the disassembly, flow and assembly of each of the wall units 931F' can be managed by the management platform 4F'.

Figure 68 shows another preferred embodiment of the mobile stadium of the present invention (the roof is supported by a support frame, the frame being movable or not moving). The mobile stadium of the present invention includes a hall body 90J' having an activity space 92J'. The hall body 90J' further includes at least two wall devices 93J', and the movable space 92J' is formed between the two wall devices 93J'. That is, each of the wall devices 93J' is disposed on one side of the movable space 92J' to surround the activity. Space 92J'.

As shown in Fig. 69, the wall device 93J' further includes a wall frame 939J' and a set of wall units 931J'. Each of the wall units 931F' is provided to the wall frame 939J'. The wall frame 939J' has a set of wall unit accommodating chambers 9391J'. The wall unit accommodating chamber 9391J' is for accommodating the wall unit 931F'. It is to be noted that the wall unit accommodating chamber 9391J' and the wall unit accommodating chamber 9391J' may be patterned on the wall frame 939J' by the wall unit 931F'. According to the movement in the movable space 92J', the wall frame 939J' is formed in a pattern at the position of the set of wall unit accommodating chambers 9391J' by the wall unit 931F', and is fitted to the movable space 92J'. It should be noted that each of the wall unit accommodating chambers 9391J' located at the top of the wall frame 939J' may not be provided with the wall unit 931F' such that the wall unit accommodating chamber 9391J' serves as a ventilation passage for the movable space 92J' Exchange air with the outside world. Preferably, the wall unit 931F' mounts the wall unit 931F' to the wall unit accommodating chamber 9391J' in such a manner as to be embedded in the wall unit accommodating chamber 9391J'. The wall unit 931F' detaches the wall unit 931F' by withdrawing the wall unit accommodating chamber 9391F'.

It is worth mentioning that the wall device 93J' includes at least one wall unit 931F' provided with the service assembly 9314F'. That is, the wall device 93J' may include the energy supply unit 101F', the water treatment wall unit 102F', the display wall unit 103F', the rest wall unit 104F' and/or the air conditioning wall unit 106F', etc. . The wall unit 931F' provided with the service unit 9314F' can be housed in the wall unit accommodating chamber 9391J'. That is, the energy supply unit 101F', the water treatment unit 102F', the display wall unit 103F', the rest wall unit 104F' or the air conditioning wall unit 106F' can be housed in the wall unit receiving cavity 9391J' . The wall unit 931F' provided with the corresponding service component 9314F' can be detached from the wall device 93J' according to the service required to be provided at the destination. The wall unit 931F' provided with the corresponding service component 9314F' is then moved to a destination where service is required. After the service is provided, the wall unit 931F' provided with the service component 9314F' returns to the location of the mobile stadium of the present invention. Then, the wall unit 931F' provided with the service unit 9314F' is reinstalled to the wall unit accommodating chamber 9391J' of the wall unit 93J'. For example, if the destination needs to provide an electric service, the power supply wall unit 101F' is detached from the wall unit accommodating chamber 9391J' of the wall unit 93J'. The power supply wall unit 101F' is then moved to a destination to provide a power supply service at the destination. After the service is completed, the power supply wall unit 101F' is moved back to the location of the mobile stadium, and then installed again in the wall unit accommodating chamber 9391J'. It is worth mentioning that each of the wall units 931F' provided with the service component 9314F' can be moved to a corresponding destination to provide different services, or can be moved to the same destination to provide the same service. For example, in this embodiment, each of the wall units 931F' can be moved to a destination to cooperate with a side wall of a fixed building to form a temporary mobile venue, as shown in Figs. 66 or 38. It is worth mentioning that each of the walls provided with the service component 9314F' can be managed by the management unit 4F' Unit 931F'.

The wall frame 939J' further includes a plurality of wall unit connectors 9398J'. The wall unit connector 9398J' is disposed between the adjacent two wall units 931F' to connect the adjacent two wall units 931F'. The adjacent two wall units 931F' respectively disassemble the adjacent two wall members 931F' so that the adjacent two wall unit spaces 9311F' communicate. A plurality of the wall unit connectors 9398J' are joined to form the wall unit accommodating chambers 9391J'.

The mobile stadium of the present invention further includes a top cover 94J' that covers the active space 92J'. Preferably, the top cover 94J' covers each of the wall means 93J'. The top cover 94J' is detachably supported by the hall body 90J'. The top cover 94J' is supported by each of the wall devices 93J'. Further, the top cover 94J' is supported by the wall frame 939J' of each of the wall devices 93J'. The top cover 94J' further includes a support frame 941J' and at least one cover 942J' that covers the support frame 941J' to define the top cover 94J'. The support frame 941J' further includes a set of sub-support frames 9411J' that can be assembled to form the support frame 941J'. It is worth mentioning that the sub-support frame 941J' is retractable or foldable so as to be received in the wall unit space 9311F' of the flow unit 10F', so that the sub-support frame 9411F' is together with the wall unit 931F' flow. That is, the sub-support frame 9411F' is adapted to be housed in the wall unit space 9311F' of the wall unit 931F'. Preferably, the cover 942F' is a soft material covering the sub-support frame 9411F'. The cover 942F' can be housed in the wall unit space 9311F' of the wall unit 931F' to facilitate the flow. .

The hall body 90J' further includes a movable platform 95F' disposed at the bottom of the activity space 92J' to facilitate badminton activities on the movable platform 95F'. The movable platform 95F' can be used for the mobile badminton hall shown in Figs. 66 and 67.

FIG. 70, FIG. 71 and FIG. 72 are schematic perspective views of a mobile stadium according to the present invention. The mobile stadium is preferably used for sports projects and various project activities, such as badminton, table tennis, billiards, volleyball, tennis, Sports halls such as basketball, sports venues, party venues, concert venues, event venues, exhibition halls, etc.

Specifically, the flow field includes a first forming wall 100O, and at least one of the first forming walls 100O can provide or enclose at least one action platform 300O in a closed or semi-closed or fully open form for use as a badminton hall. . In other words, the display form of the action platform 300O is determined by the first forming wall 100O, wherein the form of the action platform 300O includes the size of the action platform 300O, the shape of the display, and the action platform 300O. Sealed, closed form, etc.

Further, the first forming wall 100O further includes at least two sub-wall units 10O, each of the sub-wall units 10O being detachably arranged to form the first forming wall 100, that is, the first forming The presentation form of the wall 100O is determined by the sub-wall unit 10O, that is, the sub-wall unit 10O determines the action platform 300O. Shape. Each of the sub-wall units 10O is detachably assembled to present the action platform 300O in various forms for use by a user.

It is worth mentioning that each of the sub-wall units 10O can be selectively adjacent, opposite or end-to-end to provide different action modes for the user to use.

It is worth mentioning that each of the sub-wall units 10O can be placed adjacent to each other in the vertical direction and the horizontal direction, that is, each of the sub-wall units 10O can be placed in an overlapping manner.

It is worth mentioning that the action platform 300O is formed on the surface of the sub-wall unit 10O or between the sub-wall units 10O to present the action platform 300O in various manners according to the use environment and use requirements. use.

The sub-wall unit 10O has at least one accommodating cavity 11O, which can be used as an active space or an accommodating space or the like for use in conjunction with the action platform 300O.

It is worth mentioning that the accommodating chambers 11O of the adjacent sub-wall units 10O are disposed in communication with each other to utilize each of the sub-wall units 10O as needed.

It is worth mentioning that the accommodating chamber 11O can be utilized to place various items, such as various water and electricity supply facilities, various living, sporting goods, etc., to perfect the use environment of the mobile stadium.

It is worth mentioning that the sub-wall unit 10O can be prepared into various specifications according to the requirements.

The sub-wall unit 10O is transported from one destination to another by means of a transport, and each of the sub-wall units 10O is rearranged to obtain the desired form of the mobile stadium for use. That is, the mobile venue can be formed at different locations as the sub-wall unit 10O is transported to different destinations to provide the action platform 300O for use.

The mobile stadium further preferably includes at least one mobile unit 400O that is driven by an external force, that is, the mobile unit 400O has mobility. The sub-wall unit 10O of the first forming wall 100O is detachably mounted to the moving unit 400O, and further, each of the sub-wall units 10O is moved by moving the moving unit 400O, that is, the The sub-wall unit 10O has mobility by being placed in the mobile unit 400O, that is, the mobile stadium has mobility.

As shown in FIG. 73, the flow stadium further includes at least one second forming wall 200O, and the second forming wall 200O is detachably mounted to the first forming wall 100O to further complete the action platform 300O. Wherein, the second forming wall 200O is detachably connected to the first forming wall 100O such that the action platform 300O forms a closed or semi-closed or fully open morphological structure.

Further, the second forming wall 200O is formed on the front side or the side surface of the action platform 300O by being mounted on the sub-wall unit 10O, thereby adapting to the use of the action platform 300O in various forms.

In the above, the moving platform 300O can be moved by moving the sub-wall unit 10O, and the arrangement and combination of the sub-wall units 10O can also affect the form of the action platform. Further, the action platform 300O can be provided. Mobility and diversity.

It is worth mentioning that the mobile venue can provide temporary required activity venues to compensate for the lack of venues in the destination environment for the sports and stage activities of the equipment and venue environment, and through the sub-wall units 10O detachably In connection, the mobile venue can provide the action platform 300O in various forms according to the needs of use and the environment in which it is used.

As shown in FIG. 73, a specific embodiment of the preferred embodiment, in a specific embodiment of the preferred embodiment, the mobile venue is preferably used as a badminton court, that is, the action of the mobile venue The platform 300O is preferably used for badminton, that is, the mobile stadium is used as a badminton hall.

In this embodiment, the flow field includes at least four of the sub-wall units 10O, and each of the sub-wall units 10O is adjacently disposed to form the first forming wall 100O, and at least one of the action platforms is formed. 300O is between the sub-wall units 10O, that is, the action platform 300O is formed by each of the sub-wall units 10O for the user to perform badminton.

Further, each of the sub-wall units 10O is preferably disposed end to end. Preferably, in the specific embodiment, each of the sub-wall units 10O preferably encloses a quadrilateral, and the four sub-wall units 10O The action platform 300O is formed in the formed quadrilateral for the user to perform badminton.

It is worth mentioning that each of the sub-wall units 10O can present the action platform 300O in various forms by various arrangements.

It is worth mentioning that a standard at least one badminton court is formed in the quadrilateral surrounded by the sub-wall unit 10O for use by the user.

It is worth mentioning that each of the sub-wall units 10O can be carried by being placed in a transportation means, that is, the detachable interface of each of the sub-wall units 10O can be used for the purpose of the sub-wall unit 10O. The ground is transported to another destination, and in turn, the mobile stadium is made mobile, that is, the action platform 300O is provided with mobility.

It is worth mentioning that in the face of the serious shortage of the use of popular badminton venues, the mobile venues can be temporarily assembled and restored to reduce the use environment to provide various temporary needs without causing the use environment. Impact, with greater mobility.

Preferably, in this embodiment, the mobile stadium includes at least one mobile unit 400O, at least one of the sub-wall units 10O is detachably mounted to the mobile unit 400O, and thus each of the sub-walls Unit 10O is transported to various destinations along with the mobile unit 400O and arranged to provide the flow The venue, that is, the mobile venue, is capable of being movable with the mobile unit 400O.

It is worth mentioning that each of the sub-wall units 10O can also be arranged and combined on the basis of the mobile unit 400O to form the action platform 300O.

The accommodating chamber 11O of the sub-wall unit 10O is provided with space for accommodating articles or providing a use space, such as the accommodating chamber 11O being used for placing an auxiliary facility such as a hydroelectric system to complete the use of the mobile stadium as a badminton hall. The use environment, or as a rest area, locker room or item supply area to meet the needs of users. Each of the accommodation chambers 11O is also used as a part of the exercise platform 300 as a badminton court.

It is worth mentioning that each of the accommodating cavities 11O can be used as a separate space or communicate with each of the accommodating cavities 11O as a compositing space.

More specifically, the sub-wall unit 10O further includes at least a first set of wall elements 12O and at least a second set of wall elements 13O, the second set of wall elements 13O being movably mounted to the first set of wall elements 12O to form the accommodation chamber 11O. Wherein the second set of wall elements 13O are exposed to the receiving chamber 11O by being movably mounted to the first set of wall elements 12O or such that the receiving chamber 11O forms a closed space for use.

It is worth mentioning that the platform unit 100 is selectively formed in the receiving cavity 11O of the sub-wall unit 10O or the first group of wall elements 12O and the second group of wall elements 13O.

When the first group of wall members 12O and the second group of wall members 13O are movably connected to expose the receiving cavity 11O, each of the receiving chambers 11O can communicate with each other to be used as a communication space, and the platform is further The unit 100 is selectively formed in each of the receiving chambers 11O that are in communication.

The second forming wall 200O is selectively mounted to the first forming wall 100O, that is, the second forming wall 200O is mounted to each of the sub-wall units 10O to further complete the action platform 300O. In this embodiment, the second forming wall 200O is mounted on an upper portion of a quadrangle surrounded by each of the sub-wall units 10O. In other words, the second forming wall 200 is mounted to the sub-wall unit 10O. And covering the quadrilateral formed by the sub-wall unit 10O, so that the action platform 300O forms a complete space unit for the user to perform badminton.

In summary, the arrangement between the sub-wall units 10O and the second forming wall 200O enable the action platform 300O to form a complete space. Further, the action platform 300O can eliminate environmental factors such as wind and rain. The impact on badminton.

It is worth mentioning that the second forming wall 200O is made of a material having an adjustable shape and a covering area, such as a canopy. Further, the second forming wall 200 is formed according to each of the sub-wall units 10O. The size of the quadrilateral is adjusted.

The length of the first forming wall 100O affects the area of the action platform 300O, wherein the length of the first forming wall 100O is determined by the length and number of the sub-wall unit 10O, that is, the sub- The wall unit 10O is capable of affecting the area of the action platform 300O.

Preferably, in the specific embodiment, the action platform 300O is arranged in a square shape, and further, the action platform 300O is more preferably used as a badminton stadium.

The sub-wall unit 10O further includes a ledge element 14O, and the first set of wall elements 12O and the second set of wall elements 13O are preferably mounted to the ledge element 14O to form the sub-wall unit 10O.

It is worth mentioning that the ledge element 14O is capable of reinforcing the strength of the first set of wall elements 12O and the second set of wall elements 13O and determining the first set of wall elements 12O and the second set of wall elements The morphological structure of 13O.

The ledge member 14O further includes at least one locking member 141O and at least one locking groove 142O, the locking member 141O is disposed in the locking groove 142O and the locking member 141O is along the lock The tight groove 142O slides. Wherein, the groove depth of the locking groove 142O is greater than the length of the locking member 141O, that is, the locking member 141O is completely placed in the locking groove 142O.

It is to be noted that the groove wall of the locking groove 142O is semi-transparent, thereby ensuring that the locking member 141O is always slid in the locking groove 142O and does not slide from the locking groove 141. Move out inside.

The locking groove 142O further includes at least one positioning groove 1421O, and one end of the locking member 141O is movably disposed in the positioning groove 1421O to stop moving in the locking groove 142O, that is, The locking member 141O is non-movably fixed to the locking groove 142O through the positioning groove 1421O of the locking groove 142O.

It is worth mentioning that, as one end of the locking member 141O is placed in the positioning groove 1421O, the other end of the locking member 141O is extended out of the locking groove 142O, that is, the One end of the locking member 141O is always placed in the locking groove 142O, and the other end of the locking member 141O is extended out of the locking groove 142O. In other words, the length of the locking member 141O extending out of the locking groove 142O changes as one end of the locking member 141O switches between the positioning grooves 1421O.

It is worth mentioning that the length of the locking member 141O placed on the locking slot 142O is selected to be placed near the slot of the locking slot 142O along the end of the locking member 141O. And decrease.

It is to be noted that when each of the sub-wall units 10O is disposed adjacent to each other, the other end of the adjacent locking member 141O is moved by the locking member 141O in the locking groove 142O. The locking groove 141 of the other sub-wall unit 10O is penetrated, and at the same time, one end of the locking member 141O is disposed on the fixing groove, and the locking member 141O is fixedly placed at the same time. In the locking groove 142O of the sub-wall unit 10O, and further, The locking member 141O ensures that the adjacent two sub-wall units 10O are not displaced relative to each other in at least one direction, that is, the locking member 141O and the locking groove 142O are realized in at least one direction. The locking action causes the adjacent sub-wall units 10O to be semi-fixed together. That is, each of the sub-wall units 10O is detachably connected by the ledge member 14O.

Preferably, in the embodiment, the sub-wall unit 10O has a prismatic structure, and the apex angle of each prism preferably has the locking member 141O and the locking groove 142O disposed along the side length of the prism, that is, It is said that each of the apex angles of the prisms has the locking member 141O and the locking groove 142O that can achieve a locking action in three directions. Further, when each of the sub-wall units 10O is disposed adjacent to each other, the locking member 141O can reinforce the connection between the sub-wall units 10O.

In this embodiment, each of the receiving chambers 11O can be used to set up an auxiliary facility of the mobile stadium. The mobile stadium further includes an energy supply unit 500O. The energy supply unit 500O is disposed in at least one of the receiving chambers 11O to provide the required conventional energy source to the motion platform 300O, and completes the matching of the motion platform 300O. Conditions of Use.

Preferably, in the embodiment, the power supply unit 500O further includes a power supply device 51O and a water supply device 52O, and the power supply device 51O and the water supply device 52O can respectively supply power and water to the action platform 300O. In order to meet the various needs in badminton.

As shown in FIG. 73, when the accommodating cavity 11O is exposed by adjusting the second group of wall members 13O, each of the second group of wall members 13O is spliced to each other to form a continuous platform, that is, each The continuous platform formed by the splicing of the second set of wall elements 13O can be used as the action platform 300O. It is worth mentioning that when the action platform 300O is obtained by splicing the second group of wall elements 13O, the action platform 300O draws the boundary of the standard badminton court according to the standard badminton court, and the next time the mobile stadium is used. When used as a badminton court, it is possible to perform badminton by splicing the second group of wall elements 13O without having to redefine the boundaries of the standard use site of the feathers. It is worth mentioning that the motion platform 300 obtained by the second group of wall elements 13O can utilize the second group of wall elements 13O to avoid the unevenness of the field which may exist in the external use site, etc. influences.

An alternative embodiment of the present embodiment is shown in FIG. 74. Each of the sub-wall units 10O of the mobile stadium is disposed adjacently in the vertical direction and the horizontal direction at the same time, that is, each of the above-mentioned The sub-wall units 10O are disposed to overlap each other.

It is worth mentioning that the accommodating cavities 11O of the sub-wall units 10O disposed adjacently in the vertical direction are selectively independently or in communication with each other in the vertical direction and the horizontal direction for use.

Each of the sub-wall units 10O disposed adjacently in the vertical direction and the horizontal direction can be quickly and detachably fixed to each other through the locking member 141O and the locking groove 142O.

It is worth mentioning that each of the accommodating chambers 11O adjacent in the vertical direction is communicated by means of replacement or the like so that the user can twir between the respective accommodating chambers 11O.

It is worth mentioning that each of the accommodating chambers 11O can also be used as a stand for watching badminton for use.

In an alternative form of the present embodiment, the ledge elements 14O of the sub-wall unit 10O are preferentially disposed adjacently in a vertical direction and a horizontal direction, and then the first set of wall elements are 12O and the second set of wall elements 13O are mounted to the ledge element 14O to form the first forming wall 100O. In other words, the wall member 14O is disposed adjacently in the horizontal direction and the vertical direction, and then the first group of wall members 12O and the second group of wall members 13O are embedded in each of the ledges The sub-wall unit 10O and the first forming wall 100O are obtained in the element 14O. Preferably, each of the adjacent sub-wall units 10O is semi-fixed together by the adjacent locking members 141O and the locking grooves 142O to obtain the first forming wall 100O, and at the same time The action platform 300O is described. In an alternative to this embodiment, the flow field comprises at least three of the sub-wall units 10O in a vertical direction, thereby enabling utilization of the receiving chambers 11O of the sub-wall units 10O.

FIG. 75 and FIG. 76 are respectively schematic views of two other specific embodiments of the preferred embodiment. In the specific embodiment, each of the sub-wall units 10O is oppositely disposed and forms at least one of the action platforms 300O. Between the sub-wall units 10O.

More specifically, as shown in FIG. 75, at least one of the sub-wall units 10O is disposed opposite to at least one of the sub-wall units 10O to form at least one standard between the action platform 300O and the two sub-wall units 10O. A badminton court is formed on the action platform 300O. In other words, the action platform 300O is surrounded by two first forming walls 100O, that is, the action platform 300O is formed between the two first forming walls 100O.

It is worth mentioning that at least one standard badminton court is formed on the action platform 300O.

The sub-wall unit 10O further includes a ledge element 14O, at least a first set of wall elements 12O and at least a second set of wall elements 13O, and the first set of wall elements 12O and the second set of wall elements 13O are mutually Removably coupled, the first set of wall elements 12O and the second set of wall elements 13O are preferably mounted to the ledge element 14O to form the sub-wall unit 10O. The ledge element 14O can be used to reinforce the connection of the first set of wall elements 12O and the second set of wall elements 13O and affect the appearance of the first set of wall elements 12O and the second set of wall elements 13O That is, the ledge element 14O can affect the form of the receiving cavity 11O.

It is worth mentioning that the ledge element 14O can strengthen the strength of the first set of wall elements 12O and the second set of wall elements 13O, that is, the ledge element 14O can improve the sub-wall unit 10O and the First forming wall 100O strength.

The ledge element 14O further includes at least one locking member 141O', which is preferably formed on an outer surface of the ledge element 14O, when the sub-wall units 10O are adjacently disposed, the lock The fasteners 141O' are also preferably in adjacent positions. Wherein, the locking members 141O' are good electrical conductors, and when each of the locking members 141O' is applied with a voltage, the locking members 141O' can form moving electrons and attract magnetic materials. That is, the locking member 141O' is magnetic. It is worth mentioning that the locking members 141O' moving in the opposite direction are attracted to each other. Further, if a voltage is applied to the adjacent locking member 141O' such that the adjacent locking member 141O' has a reverse moving current, the adjacent two locking members 141O' Under the action of magnetic force, they attract each other and remain relatively static.

It is worth mentioning that, in the case where a voltage is applied, the locking member 141O' increases the magnetic property of the locking member 141O' as the applied voltage increases, that is, each of the locks The greater the force between the members 141O'. When the voltage applied to the locking member 141O' is removed, the force between the locking members 141O' disappears, that is, by applying voltage to the locking member 141O'. It is possible to control the force between each of the locking members 141O'. When a voltage is applied to the adjacent locking members 141O' such that a current of a relatively reverse movement is formed in the adjacent locking members 141O', the adjacent locking members 141O' are attracted to each other. Further, the adjacent sub-wall units 10O are attracted to each other; when the voltage applied to the locking member 141O' disappears, the attraction between the adjacent locking members 141O' disappears. That is, each of the locking members 141O' is no longer attracted to each other, that is, the attraction between the adjacent sub-wall units 10O disappears, and the adjacent sub-wall units 10O are no longer attracted to each other.

The locking member 141O' is covered with a covering layer 143O', that is, the covering layer 143O' is formed to cover the outer surface of the locking member 141O. Further, the locking member 141O' is energized and generates magnetic condition. It is isolated from the outside so that the external environment is not affected by the voltage applied to the locking member 141O' and the magnetic field generated by the lock button 141'.

The ledge member 14O further includes at least one locking slot 142O', the locking member 141O' is disposed in the locking slot 142O', and the locking slot 142O is provided with a conducting wire, the lock The pressing member 141O' is connected to the energizing wire, and further, the energizing wire is applied with a voltage to the locking member 141O' such that an electric current is generated in the locking member 141O' to be magnetic. Preferably, the locking groove 142O' further includes at least two connecting ends 1421O', and the connecting end 1421O' is preferably formed at two ends of the locking groove 142O', when each of the sub-wall units 10O is adjacent When disposed, the energized wires laid in the locking grooves 142O' of each of the sub-wall units 10O can communicate with each other through the connecting end 1421O', that is, the energization in each of the locking grooves 142O' The wire is passed through The connection terminals 1421O' are in communication with each other. That is, for the adjacent sub-wall units 10O, when there is current in the energizing wires in the locking grooves 142O' of one of the sub-wall units 10O, each adjacent one The energized wires in the locking member 141O' can simultaneously have a current, that is, each of the sub-wall units 10O to which the voltage of the inverting electrode is applied forms an opposite current to attract each other, and further, each The sub-wall units 10O are stably arranged without relative movement easily.

It is worth mentioning that the connection end 1421O' is connected to the energized wire, and then, when each of the sub-wall units 10O is adjacently disposed and has a certain distance, each of the sub-wall units 10O can pass the energized wire. Electrical coupling between the energized wires within the locking slots 142O' between each other is achieved.

The accommodating chamber 10O of the sub-wall unit 10O is configured to place the power supply unit 500O, and the power supply unit 500O further includes a power supply device 51O, and the power supply device 51O is provided to the locking slot 142O. The energized wire in the inside provides an electric energy source to cause the locking member 141O to generate magnetism, that is, the power supply device 51O ensures that the locking members 141O' are attracted to each other to avoid occurrence. The relative displacement affects the formation of the action platform 300O and its morphology.

The detachable connection between the illustrated sub-wall units 10O allows the sub-wall unit 10O to be freely moved by an external force, that is, the sub-wall unit 10O determines how much the first forming wall 100O has. In the case where the sub-wall unit 10O is disposed adjacently, the sub-wall unit 10O is adjacently disposed according to the horizontal direction or the vertical direction, that is, the sub-wall unit 10O is also Can be set up overlapping.

It is worth mentioning that the power supply device 51O can be a mobile battery, a generator device or an external power source.

The mobile venue preferably includes at least one of the mobile units 400O, the mobile unit 400O being mobile, that is, the mobile unit 400O is movable for use between destinations. Preferably, at least one of the sub-wall units 10O is placed in the mobile unit 400O and moves with the mobile unit 400O, that is, the sub-wall unit 10O is provided with mobility, thereby The sub-wall unit 10O is moved between the various destinations to achieve the temporary requirements of the action platform 300O without being limited by the venue.

It is worth mentioning that the accommodating chamber 11O can be used for placing other items to provide a desired service, such as a catering supply room, a dressing room, a storage room, a rest area, and the like.

Preferably, the energy supply unit 500O further includes a water supply device 52O that is capable of supplying water to the mobile stadium for use in a use environment. It is worth mentioning that the water supply device 52O can call the water resources in the water supply device 52O through water pipes, water tanks and the like.

It is worth mentioning that the water supply device 52O can be a water storage device having a water storage function such as a water storage tank or a water storage tank or a device capable of extracting water resources from the environment, such as a water pump, a water guiding pipe, and the like.

It is worth mentioning that when the first set of wall elements 12O are movably mounted to the second set of wall elements 13O to expose the receiving cavity 11O, each of the second set of wall elements 13O is spliced to form The action platform 300O, in turn, can only make the action platform 300O avoid the problem of high and low unevenness in the use environment by merely adjusting the position of the sub-wall unit 10O.

The second forming wall 200O is mounted to the sub-wall unit 10O, and the second forming wall 200 is covered by the action platform 300O, that is, the second forming wall 200 is mounted to the sub-wall unit 10O. The action platform 300O is covered, so that the second forming wall 200O enables the action platform 300O to form a closed or semi-closed space to isolate external environmental factors such as wind and rain according to the use environment.

As shown in FIG. 76, each of the sub-wall units 10O is simultaneously disposed adjacent to each other in the horizontal direction and the vertical direction, thereby enabling the accommodation chambers 11O of the sub-wall unit 10O to be independently or indirectly connected to each other. use. At the same time, the form of the platform unit 300 is changed by increasing the number of adjacent sub-wall units 10O, including increasing the area of the platform unit 300, thereby achieving formation of at least one standard in the platform unit 300. The badminton court is suitable for use.

As shown in FIG. 87 to FIG. 91, the present invention further provides a method for forming a mobile stadium, the method comprising the following steps:

1): each of the sub-wall units 10O is disposed adjacently to acquire the first forming wall 100O, wherein the sub-wall units 10O are disposed adjacent to each other, and the sub-wall units 10 are disposed adjacently, oppositely, and spaced apart from each other. Wall unit 10O;

2): adjusting the first forming wall 100O to obtain the action platform 300O, wherein the shape of the action platform 300O is arranged or combined or increased or decreased by the sub-wall unit 10O by each of the sub-wall units 10O. The quantity is acquired and transformed.

It is to be noted that the action platform 300O can be formed in a space surrounded by each of the sub-wall units 10O or formed in the first forming wall 12 of each of the sub-wall units 10O according to the use. The surface of the second forming wall 13 is formed.

Preferably, as shown in FIG. 87, the step 1) further includes the following steps:

1.1): the sub-wall unit 10O is disposed in the mobile unit 400O;

1.2): The mobile unit 400O is driven to acquire the first forming wall 100O.

Preferably, as shown in FIG. 88, the step 2) further comprises a step 2.1): driving the mobile unit 400O to adjust the first forming wall 100O, thereby adjusting the shape of the action platform 300O.

It is worth mentioning that, as shown in FIG. 89, the step 2.1) is also a step of adjusting the sub-wall unit 10O to adjust the first forming wall 100O, wherein the sub-wall unit 10O Adjustments are included in the horizontal Adjustment in the vertical direction, that is, the first forming wall 100O is adjusted by horizontally moving the sub-wall unit 10O or vertically superimposing the sub-wall unit 10O, thereby changing the action platform 300O The form of the.

As shown in FIG. 90, preferably, the method further includes a step 3) of forming a reverse current with the locking member 141O of each adjacent sub-wall unit 10O, and further, each of the adjacent The locking members 141O are attracted to each other by magnetic force, thereby reinforcing the connection between the sub-wall units 10O.

It is worth mentioning that the cover layer outside the locking member 141O causes the magnetic force generated by the locking member 141O to be energized without affecting the use of the mobile stadium.

It is worth mentioning that, as shown in FIG. 91, the step 3) is also a step of extending the other end of the locking member 141O of the sub-wall unit 10O to the adjacent sub-wall unit 20 The locking groove 142O is configured to ensure that each of the sub-wall units 10O is relatively easily moved in at least one direction, thereby reinforcing the connection between each of the sub-wall units 10O. After the step 3), the method further includes the following steps: placing one end of the locking member 141O in the positioning groove 1421O, so that the locking member 141O is non-movably disposed in the locking groove 142O, In order to ensure that each of the sub-wall units 10O is relatively easily moved in at least one direction, the connection between each of the sub-wall units 10O is reinforced.

The present invention also provides another method for forming the mobile stadium. As shown in FIG. 92, the method includes the following steps:

(1): movably connecting the second group of wall units 13O to the first group of wall units 12O to expose the receiving chambers 11;

(2): each of the sub-wall units 10O is disposed adjacent to form the first forming wall 100O for acquiring the action platform 300O, wherein the action platform 300O is formed on each of the sub-wall units 10O The first set of wall elements 12O and the surface of the second set of wall elements 13O or the receiving cavity 11O.

Preferably, the method further comprises the step (3) of adjusting the position of the sub-wall unit 10O to adjust the shape of the action platform 300O.

It is worth mentioning that the adjustment of the position of the sub-wall unit 10O includes adjusting the sub-wall unit 10O in the horizontal direction and the vertical direction, that is, the sub-wall unit 10O is horizontally Moving or being superimposed in a vertical direction, wherein when the sub-wall unit 10O is moved in the horizontal direction, the sub-wall unit 10O is moved by an external force or placed after the mobile unit 400O The movement of the mobile unit 400O moves.

77 to 80 show a mobile stadium according to another preferred embodiment of the present invention. The mobile stadium includes at least one base unit 10P, and the base unit 10P is formed by various combinations to form various forms. Flow field Pavilion. The base unit 10P further includes a sub-platform unit 11P and at least one flow unit 12P, and the sub-platform unit 11P is mounted to the flow unit 12P as shown in FIG. At least one of the sub-platform units 11P provides at least one platform unit 100P by arrangement and combination, and the platform unit 100P can provide an activity space for the user to use. The flow unit 12P is preferably moved by rolling friction under the driving force, so that the sub-platform unit 11P is movable with the movement of the flow unit 12P, that is, the The platform unit 100P has mobility, ie the mobile venue has mobility to move between destinations. The space provided by the platform unit 100P can be used for various activities such as various sports activities, stage events, conference reports, and the like.

It is worth mentioning that the mobility of the mobile venue enables the mobile venue to achieve the purpose of temporary construction and timely disassembly, thereby enabling the mobile venue to be used or temporarily used.

It is worth mentioning that each of the sub-platform units 11P can be moved as the flow unit 12P is driven, and further, each of the sub-platform units 11P can be rearranged and combined with the flow unit 12P to obtain The platform unit 100P of different forms.

It is worth mentioning that when the sub-platform unit 11P is used to provide the platform unit 100P, the flow unit 12P can be used in combination or separately from the sub-platform unit 11P as needed.

The flow unit 12P further includes a brake element 121P that enables the rolling friction to be converted into sliding friction when the flow unit 12P is moved by rolling friction, that is, the brake element The 121P is capable of increasing the difficulty factor of the movement of the flow unit 12P, that is, the adjustment of the brake element 12P makes the flow unit 12P difficult to move. It is worth mentioning that when the sub-platform unit 11P is used to form the platform unit 100P, the flow unit 12P can be selectively used to carry the flow unit 12P and control the device through the brake element 121P. The sub-platform unit 11P is rapidly arranged and combined to quickly disassemble the movable platform 100 as the flow unit 12P moves with the difficulty coefficient of the movement. At the same time, the flow unit 12P is capable of adjusting the height of the platform unit 100P by carrying the sub-platform unit 11P.

It is worth mentioning that the platform unit 100P can be converted into a plurality of different modes according to the combined arrangement between the sub-platform units 11P for the environment.

The sub-platform unit 11P includes at least one structural wall 101P that is formed to surround a structural cavity 102P that is selectively formed in the surface of the structural wall 101P or in the structural cavity 102P. Wherein, when the platform unit 100P is formed in the structural cavity 12 of the sub-platform unit 11P and the platform unit 100P is formed by at least two of the sub-platform units 11P, each of the sub-platform units 11P The structural cavities 102P are disposed in communication with each other through the structural walls, that is, when the platform unit 100P is formed in the structural cavities 102P of at least two of the sub-platform units 11P, each of the structural cavities 102P is able to communicate with each other through the structural wall 101P.

It is worth mentioning that the structural cavity 102P is optionally in communication with each other in a vertical direction or a horizontal direction or both in a vertical direction and a horizontal direction.

In the preferred embodiment, the sub-platform unit 11P is preferably in the shape of a prism, that is, the element wall 1012P of each of the sub-platform units 11P has a plane that is perpendicular to each other, that is, each The sub-platform unit 11P has a surface, a lower surface and four sides. In other words, the bracket element 1011P is also designed in a prismatic frame. Each of the sub-platform units 11P is preferably disposed adjacently, and further, upper surfaces of the sub-platform units 11P are disposed adjacent to each other to form the platform unit 100P.

Preferably, each of the sub-platform units 11P is mounted to the flow unit 12P to form the flow venue and is movable under external force to rearrange the combination to adjust the shape of the sub-platform unit 11P according to usage requirements or The mobile stadium is moved by moving the sub-platform unit 11P. When each of the sub-platform units 11P is disposed adjacently such that its upper surface is intended to be disposed adjacently, the position of each of the sub-platform units 11P is fixed by fixing each of the flow units 12P, that is, Each of the flow units 12P is fixed, and the platform unit 100P is stably disposed.

In the preferred embodiment, the platform unit 100P is preferably used for soccer, that is, the mobile stadium is used as a soccer stadium, that is, the upper surfaces of the sub-platform units 11P are disposed adjacent to each other. Used for football.

It is worth mentioning that the area of the platform unit 100P can be adjusted by manually increasing or decreasing the number of the sub-platform units 11P, and also by adjusting and formulating the sub-platform units 11P of different specifications. The area of the platform unit 100P is adjusted.

As shown in FIG. 78, the mobile stadium further includes an energy supply unit 200P, and the energy supply unit 200P further includes a first supply unit 201P and a second supply unit 202P, the first supply unit 201P and the The second supply unit 202P is separately provided with water and electricity for the user to use. The energy supply unit 200P is preferably placed in the structural cavity 102P, and further, the energy supply unit 200P is movable as the sub-platform unit 11P is disposed in the flow unit 12P, that is, the The energy supply unit 200P is moved as the platform unit 100P moves to complete the use conditions of the platform unit 100P.

It is worth mentioning that the mobile stadium is capable of laying the power line and the power socket between the elements 1011 of the sub-platform unit 11P, and when each of the sub-platform units 11P is adjacently disposed, each of the Sub-platform unit 11P can be electrically connected by a power supply wire or the like, and the electric energy source that the second supply unit 202P can provide can be utilized by a power outlet or the like.

It is worth mentioning that the structural cavity 102P can be utilized as a space for a restroom, a storage room, an auditorium, etc. to complete the use of the platform unit 100P.

It is worth mentioning that the flow unit 12P can autonomously include a driving device to move or move under the action of an external driving force.

As shown in FIG. 80, the sub-platform unit 11P further includes a bracket member 1011P and at least one component wall 1012P, and the component wall 1012P is movably mounted to the bracket member 1011P to form the sub-platform unit 11P. Preferably, in the preferred embodiment, the component wall 1012P is mounted to the bracket component 1011P by a mechanical connection, such as a live link such as a screw.

It is worth mentioning that the component wall 1012P is multi-faceted to the bracket element 1011P, that is to say, in an alternative to the preferred embodiment, the sub-platform unit 11P comprises at least five of the component walls 1012P. . When the element wall 1012P is movably coupled to the bracket element 1011P, the element wall 1012P is exposed or encloses the structural cavity 102P.

The bracket component further includes at least one support bracket 10111P and at least one mount 10112P, the mount 10112P being movably fixedly coupled to the support bracket 10111P to form the bracket component 1011P. Wherein, the wall edge of the component wall 1012P has at least one fixing member 10121P, and the fixing frame 10112P is detachably mounted to the fixing member 10121P to maintain the space between the supporting frame 10111P and the component wall 1012P. The angle of need. It is worth mentioning that each of the sub-platform units 11P can be kept relatively stationary by the braking element 121P, that is, the platform unit 100P formed by the upper surface and the side surfaces of each of the sub-platform units 11P can be The brake element 121P is kept stable under the action of the brake element 121P.

It is to be noted that the connection between the support frame 10111P and each of the fixed frames 10112P is a detachable structure, and each of the support frames 10111P and each of the 10112s can be connected according to the sub-platform unit. The specifications of the 11P are freely combined, and when the individual support frame 10111P and the fixed frame 10112P are damaged, the sub-platform unit 11P can be made by replacing the individual support frames 10111P and the individual fixing frames 10112P. Can be put back into use.

As shown in FIG. 81, FIG. 82 and FIG. 83, respectively, a schematic view of three specific embodiments of the preferred embodiment is shown. The platform unit 100P is preferably formed on the upper surface and the side surface of the sub-platform unit 11P. Specifically, the fixing frame 10112P is mounted on the fixing member 10121P, and the element wall 1012P in the vertical direction is supported by the fixing frame 10112P and the fixing member 10121P and the supporting frame in the vertical direction. Between 10111P The right angle setting, that is, the element wall 1012P in the vertical direction is horizontally disposed under the action of the holder 10112P and the fixing member 10121P to form the platform unit 100P for use. That is, the holder 10112P is placed in the fixing member 10121P such that a portion of the element wall 1012P and the support frame 10111P are held at a fixed angle to form the platform unit 100P on the element wall 1012P. .

It is worth mentioning that the sub-platform unit 11P can selectively select at least one side of the sub-platform unit 11P to adapt to the situation of the environment of the use environment and form the required platform unit 100P, as shown in the figure. 81P, the platform unit 100P is simultaneously formed on each side surface and top surface of the sub-platform unit 11P. As shown in FIG. 82P and FIG. 83P, the platform unit 100P is formed on an individual side of the sub-wall unit 11P and The top surface.

The structural cavity 102P is adjusted by the element wall 1012P to assume a closed or semi-closed configuration or an open configuration for use. It is worth mentioning that each of the structural cavities 102P can be used in conjunction with each other or independently depending on the use.

It is worth mentioning that the height of the platform unit 100P can be adjusted by the support member 10111.

It is worth mentioning that the structural cavity 102P can be used to place other items such as the energy supply unit 200P.

When the fixing frame 10112P is separated from the fixing member 10121P, each side surface of the sub-platform unit 11P is brought into contact with the supporting frame 10111P of the sub-platform unit 11P to hide the structural cavity. 102P, so that the platform unit 100P can be removed, and at the same time, by moving the flow unit 12P, each of the sub-platform units 11P can be disposed adjacently, and further, the upper surface of the sub-platform unit 11P can be adjacently Another platform unit 100P is set up to be retrieved, and the area of the platform unit 100P obtained after adjustment is reduced, thereby being adapted to the use and use environment of the mobile stadium. In other words, the upper top surface of each of the sub-platform units 11P is adjacently disposed to obtain the platform unit 100P, and when the platform unit 100P of a larger area needs to be acquired, each of the sub-platform units 11P It is possible to obtain a larger area of the platform by moving the flow unit 12P and optionally such that at least one side of the sub-platform unit 11P is disposed in parallel with its upper surface, and then moving each of the sub-platform units 11P. Unit 100P. Preferably, the sub-platform unit 11P is flexibly moved between the respective destinations by the flow unit 12P, and further, the platform unit 100P is flexibly arranged between the respective destinations and acquired by arrangement and combination. The platform unit 100P of various forms.

It is worth mentioning that the platform unit 100P can also place at least one of the sub-platform units 11P, thereby utilizing the structural cavity 102P of the sub-platform unit 11P.

It is worth mentioning that the platform unit 100P formed on the upper surface and the side surface of the sub-platform unit 11P is supported and reinforced by the support member under the upper surface and the side surface of the sub-platform unit 11P. It is more stable.

As shown in FIG. 84, in an alternative embodiment of the preferred embodiment, when the platform unit 100P is formed on at least two of the structural cavities 102P, the fixing member 10112P is mounted on the fixing member 10121P to expose the When the cavity 102P is structured, each of the sub-wall units 11P is adjacently disposed as the flow unit 12P moves and causes each of the structural cavities 102P so that the structural cavities 102P are communicated.

It is worth mentioning that the specification of the sub-platform unit 11P is artificially defined by the specifications of the bracket component 1011P and the shelf component 1012, and further, the sub-platform unit 11P can formulate alignment specifications according to requirements. That is, the structural cavity 102P can be provided in various specifications.

It is worth mentioning that when the mobile venue is used as a football stadium, the size of the football stadium can be determined by the number and specifications of the sub-platform units 11P.

Specifically, the specifications of the mobile stadium are the same as those of the standard size and size of the soccer field, that is, the space provided by the platform unit 100P formed by the arrangement and combination of each of the sub-platform units 11P is greater than or equal to the standard soccer field. The space available. Each of the sub-platform units 11P is surrounded by an adjacent arrangement to form a sufficiently large use space. In a specific mode of the preferred embodiment, each of the sub-evaluation units 11 preferably encloses a square field to form the platform. Unit 100P serves as a venue for football. Each of the sub-platform units 11P is configured to interconnect the structural cavities 102P of each of the sub-platform units by selectively removing the component walls 1012P mounted to the bracket elements 1011P.

It is worth mentioning that the sub-platform units 11P forming the platform unit 100P are simultaneously disposed adjacently in the horizontal direction and the vertical direction, that is, each of the sub-platform units 11P is superposed on each other.

Preferably, in the present embodiment, each of the element walls 1012P of the sub-platform unit 11P is removed by the bracket member 1011P, that is, the element wall 1012P is used independently. Preferably, the component wall 1012P removed from the component wall 1012P is laid on the platform unit 100P surrounded by each of the sub-platform units 11P, that is, the mobile venue includes a plurality of The sub-platform unit 11P and the plurality of component walls 1012P.

It is worth mentioning that the platform unit 100P can avoid problems such as unstable ground due to environmental factors and the like.

Preferably, the element wall 1012P separated from the bracket element 1011P is preferably mounted to the flow unit 12P and then laid on the platform unit 100P. Preferably, the flow unit 12P is placed in at least two of the The junction of the component walls 1012P, that is, at least two of the component walls 1012P are mounted to the flow cell 12P, and one of the component walls 1012P is mounted to at least one of the flow cells 12P.

It is worth mentioning that when the component wall 1012P is mounted to the flow unit 12P, the component wall 1012P It is possible to be attached to the flow unit 12P by means of a mechanical connection such as screwing.

It is worth mentioning that when the element wall 1012P is mounted to the flow unit 12P, each of the element walls 1012P can adjust the height between the flow unit 12P and the contact ground or adjust the element wall 1012P and The height between the flow cells 12P is to ensure a flatness between the respective component walls 1012P of the platform unit 100P.

It is worth mentioning that in order to ensure the flatness between the component walls 1012P of the platform unit 100P, a cover layer is laid on the surface of each of the component walls 1012P to meet the needs of use, such as artificial turf. In order to make the platform unit 100P a soccer field.

It is worth mentioning that the sub-platform unit 11P surrounding the platform unit 100P is provided with more of the structural cavity 102P for use by superposition.

It is worth mentioning that by setting a canopy, a ceiling, and the like above the platform unit 100P, it is avoided that the soccer game performed by the platform unit 100P is affected by various environmental factors such as high wind and rain.

Similarly, as shown in FIG. 85, a schematic view of the state of use of a preferred embodiment of the preferred embodiment, by covering a platform portion 100P with a watertight cover layer, is preferably used as a swimming pool. That is, the covering of the structural unit 102P of the platform unit 100P and the at least one of the sub-platform units 11P by the cover layer enables water injection into the mobile stadium to make the mobile stadium become a swimming pool. Wherein, the area of the mobile stadium used as a swimming pool can be realized by adjusting the bracket and the partition 1011 and the component wall 1012P or the number of each of the sub-platform units 11P, that is, the mobile stadium as a swimming pool The area of use used is artificially controlled. It is worth mentioning that the mobile stadium as a swimming pool can realize the replacement of the water in the mobile stadium by being equipped with a water-removing device such as a water pump.

FIG. 86 is a schematic view showing a state of use of another embodiment of the preferred embodiment. The platform unit 100P is formed in the structural cavity 102P of at least one of the sub-platform units 11P, when the platform unit 100P When the structural cavity 102P is formed in at least two of the sub-platform units 11P, each of the sub-platform units 11P is configured to remove each of the structural cavities 102P of each of the sub-platform units 11P by removing portions of the component walls 1012P. In other words, that is, each of the structural cavities 102P of at least two of the sub-platforms 11P are combined to form the platform unit 11P. The platform unit 100P can be used as an indoor sports hall, a restroom, a storage room, an entertainment lounge, and the like.

It is further worth mentioning that while the structural cavity 102P of the sub-platform unit 11P is provided to form the platform unit 100P, the top surface and the side surface of the sub-platform unit 11P are simultaneously provided to form the platform unit 100P. That is, the mobile venue is capable of providing at least one of the platform units 100P.

The present invention also discloses another method for forming the mobile stadium. As described in FIG. 93, the method includes the following steps:

i: disposing the fixing frame 10112P on the fixing member 10121P to expose the structural cavity 102P of the sub-platform unit 11P while maintaining the side surface of the sub-platform unit 11P at a fixed angle with the upper surface;

Ii: driving the flow unit 12P to adjust the position of the sub-wall unit 10P, wherein the platform unit 100P is formed on the top surface and the side surface of the sub-platform unit 11P, and is also formed in the sub-platform unit The structural cavity 102P of 10P.

Preferably, the step ii further comprises the steps of: adjusting the braking element 121 to fix the flow unit 12P, and further, the relative movement between the sub-platform units 11P does not easily affect the platform. The form of unit 100P.

The foregoing is an exemplification of the specific embodiments of the present invention, and the devices and structures not described in detail are understood to be implemented by the general equipment and general methods which are available in the art.

The above embodiments of the present invention are merely illustrative of the technical solutions of the present invention, and are merely illustrative of the technical solutions of the present invention, and are not intended to limit the technical solutions of the present invention and the scope thereof. The improvement of the technical solutions disclosed in the claims and the description of the present invention by means of equivalent technical means, equivalent equipment, etc., is considered to be within the scope of the claims and the disclosure.

Claims

A venue having a flow unit, characterized by comprising:

a library body having at least one unit receiving cavity; and

At least one flow unit detachably received in the unit receiving chamber to enable the flow unit to be dispatched to its preset destination to provide service.
The stadium with a flow unit according to claim 1, wherein the hall body further has a hall space, and each of the unit accommodating chambers is disposed at one side of the hall space.
A stadium with a flow unit according to claim 2, wherein said hall body further comprises a plurality of wall devices, each of said wall devices being disposed on one side of said hall space to surround formation The hall body space, wherein the unit accommodating chamber is disposed to the wall device.
The stadium with a flow unit according to claim 3, wherein the flow unit further has a unit space, wherein when the flow unit is disposed in the unit housing chamber, the unit space is It is disposed on one side of the hall space.
A stadium having a flow unit according to claim 4, wherein said flow unit further comprises a plurality of wall members and a flow unit frame, each of said wall members being detachably disposed on said flow unit A frame to form the unit space.
A stadium having a flow unit according to claim 5, wherein said flow unit further comprises at least one service component, said service component being disposed in said unit space.
A stadium having a flow unit according to claim 6, wherein said service component comprises at least one energy supply device, said energy supply device being disposed in said unit space.
A stadium having a flow unit according to claim 7, wherein said service component is selected from the group consisting of a water treatment device, a display device, a rest assembly, a guiding device, and an air conditioning device.
A stadium with a flow unit according to claim 5, wherein said flow unit further comprises a support adjustment device, said support adjustment device being detachably mounted to said flow unit, wherein said The support adjustment device further includes a set of support adjustment members, each of which is detachably mounted to the wall member of the flow unit to support the flow unit, wherein when the flow unit is moved, The support adjustment device may be housed in the unit space.
A stadium having a flow unit according to claim 9, wherein said flow The mobile unit further includes a management device, the management device being disposed in the flow unit, wherein the management device further includes a group of monitoring components, a control device and a communication device communicatively coupled to each other, the monitoring component being Provided respectively in the flow unit, the control device acquires a state of the flow unit by the monitoring element to adjust according to a state of the flow unit, wherein the communication device and the other of the flow units are The communication devices are communicatively coupled to exchange information to cooperate with other of the flow units.
A stadium having a flow unit according to claim 10, wherein said flow unit further comprises a navigation device communicatively coupled to said management device to direct said navigation device to a destination.
A stadium with a flow unit according to claim 3 or 11, further comprising a movable platform, the movable platform being disposed at a bottom of the gallery space, wherein the active platform further comprises a set of platforms An element, two adjacent platform elements are interconnected to assemble to form the movable platform.
The stadium having a flow unit according to claim 12, wherein said platform member is further provided with a sub-site feature, and each of said platform members is assembled to assemble each sub-site feature to form a site feature to facilitate providing an activity.
A stadium with a flow unit according to claim 10, further comprising a management unit communicatively coupled to said management device of each of said flow units, wherein said management unit The state of each flow unit is acquired by the management device of each of the flow units to arrange the position of each of the flow units at the wall device according to the state of each flow unit.
A venue having a flow unit, characterized by comprising:

a library body, the library body has a library space, wherein

The hall body further includes a top cover and at least one wall device, wherein the top cover covers the hall body space, and the wall device is disposed at one side of the hall body space.
A stadium having a flow unit according to claim 16, wherein said wall means further comprises a plurality of flow units, said flow unit having a unit space, said stacking said flow units forming said wall means Each of the flow units is disposed at one side of the hall space, and the unit space is disposed on a same side of the hall space as the corresponding flow unit.
The stadium with a flow unit according to claim 17, wherein the top cover further comprises a top cover support frame, at least one cover and a set of top cover support members, each of the top cover supports The struts respectively define the top cover support frame, and the top cover support frame supports each of the covers.
A stadium having a flow unit according to claim 18, wherein said wall means further comprises at least one unit support, said unit support being disposed between said two top cover supports, wherein said The unit holder further includes a set of unit accommodating chambers, the flow unit being housed in the unit accommodating chamber.
A stadium having a flow unit according to claim 18 or 19, wherein said flow unit further comprises a plurality of wall members and a flow unit frame, each of said wall members being disposed in said flow unit frame To form the unit space.
A stadium having a flow unit according to claim 20, wherein said flow unit further comprises a plurality of wall members and a flow unit frame, each of said wall members being disposed on said flow unit frame to form The unit space.
A stadium having a flow unit according to claim 21, wherein said wall member is detachably disposed to said flow unit frame.
A stadium having a flow unit according to claim 22, wherein said flow unit further comprises at least one service component, said service component being disposed in said unit space.
A stadium having a flow unit according to claim 23, wherein said service component comprises an energizing means, said energizing means being disposed in said unit space.
A stadium having a flow unit according to claim 24, wherein said service component is selected from the group consisting of a water treatment device, a display device, a rest assembly, a guiding device, and an air conditioning device.
A stadium with a flow unit according to claim 22, wherein said flow unit further comprises a support adjustment device, said support adjustment device being detachably mounted to said flow unit, wherein said The support adjustment device further includes a set of support adjustment members, each of which is detachably mounted to the wall member of the flow unit to support the flow unit, wherein when the flow unit is moved, The support adjustment device may be housed in the unit space.
A stadium having a flow unit according to claim 26, wherein said flow unit further comprises a management device, said management device being disposed in said flow unit, wherein said management device further comprises communicating with each other a set of monitoring elements connected to the ground, a control device and a communication device, the monitoring elements being respectively disposed on the flow unit, the control device acquiring the state of the flow unit by the monitoring element to be according to the flow The state of the unit is adjusted, wherein the communication device is communicatively coupled to the communication device of the other of the flow units to exchange information, thereby interacting with other The flow units work together.
A stadium having a flow unit according to claim 27, wherein said flow unit further comprises a navigation device communicatively coupled to said management device to direct said navigation device to a destination.
A stadium having a flow unit according to claim 28, further comprising a management unit communicably connected to said management device of each of said flow units, wherein said management unit The state of each flow unit is acquired by the management device of each of the flow units to arrange the position of each of the flow units at the wall device according to the state of each flow unit.
A mobile venue characterized by comprising:

a library body having an activity space for activities, wherein

The hall body further includes at least two wall devices respectively disposed on both sides of the movable space to form the movable space between the two wall devices, wherein the wall device further comprises At least one layer of components having a layer of space disposed on one side of the active space.
A mobile stadium as claimed in claim 30, wherein said layer assembly further comprises at least one wall unit, said wall unit further comprising a flow component, said flow component having a unit space, wherein said layer The space is divided into at least one of the unit spaces, the unit space being disposed on one side of the active space.
A mobile stadium according to claim 31, wherein said wall means is adjusted by adjusting a connection relationship of said layer assemblies when said wall means comprises at least two of said layer assemblies, wherein The layer assembly adjusts the height of the wall means by adjusting the width of the side walls of the base by juxtaposed connection of the layer assemblies.
A mobile stadium according to claim 31, wherein the length of said wall means is adjusted by adjusting the length of said layer assembly, wherein said wall unit is increased, and said wall unit is said The layer assembly includes wall unit connections to increase the length of the wall device, detaching one of the wall units of the layer assembly to reduce the length of the layer assembly.
A mobile stadium according to claim 31, wherein one of said layer assemblies further comprises a flow energy supply unit, said flow energy supply unit being disposed on one side of said active space to provide electrical energy.
A mobile stadium as claimed in claim 34, wherein one of said layers The assembly further includes a flowing water treatment unit disposed on one side of the active space.
The mobile stadium of claim 31 wherein said flow assembly further comprises a component frame and a plurality of wall members, said wall members being secured to said assembly frame to form said unit spaces.
The mobile stadium of claim 36 wherein said wall member is removably secured to said assembly frame.
A mobile stadium according to claim 36, wherein said wall unit further comprises a support adjustment device, said support adjustment device detachably supporting said flow assembly, wherein said support adjustment device further comprises A set of support adjustment members, the support adjustment members being respectively disposed to the flow assembly.
A mobile stadium according to claim 38, wherein said wall unit further comprises a detection control device, said detection control device communicatively coupled to said support adjustment device, wherein said detection control device further comprises a set of monitoring elements and a control device, the monitoring elements being communicatively coupled to the control device, wherein each of the monitoring elements is disposed on each of the wall members and each of the support adjustment members for accessing each The state of the wall member and the state of each of the support members, the control device adjusts the state of each of the support adjustment members by each of the monitoring members.
A mobile stadium according to claim 39, wherein said detection control means further comprises a positioning means and a communication means, said positioning means and said communication means are communicably connected to said control means, respectively a positioning device acquires a position of the wall unit at the wall device, so that the control device adjusts a position of the wall unit at the wall device, wherein the positioning device acquires a position of the wall unit In order to be guided in accordance with the position of the wall unit, wherein the control device exchanges information with the other wall units via the communication device in order to cooperate with the other wall units.
A mobile stadium according to claim 40, wherein said wall unit is prefabricated according to a preset standard to facilitate formation of a personalized mobile venue through said wall unit.
The mobile stadium of claim 41 wherein said wall unit is a container.
The mobile stadium of claim 31 wherein said wall unit further comprises a service component, said service component being disposed in said unit space.
A mobile stadium as claimed in claim 43 wherein said service component is selected Self-powered device, water treatment device, display device, rest assembly, layer connector and air conditioning device.
30. The mobile stadium of claim 31, further comprising a top cover supported by each wall device, wherein said top cover further includes a support frame and at least one of said coverings. The support frame is supported by each wall device, and each of the covers is supported by the support frame.
A mobile stadium as claimed in claim 45, wherein said support frame further comprises a plurality of sub-support frames, each sub-support frame being assembled to form said support frame, wherein said sub-support frame facilitates storage of said wall unit The unit space, wherein the cover is a software material so as to be received in the unit space.
A mobile stadium as claimed in claim 31 or claim 45, further comprising a flow platform placed at the bottom of the activity space.
The mobile stadium of claim 47 wherein said flow platform further comprises a set of platform elements, and adjacent ones of said platform elements are interconnected to form said flow platform.
A mobile stadium according to claim 48, wherein said platform member further comprises an element body and at least two element support portions, said two element support portions being respectively disposed on both sides of said element body Supporting the element body, wherein a buffer space is formed between the element body and the support surface by respectively providing the two element support portions on the support surface to reduce the surface environment of the support surface to the element body influences.
A mobile stadium as claimed in claim 48, wherein said mobile platform presets a field feature, said site feature being disposed on a surface of said mobile platform, wherein said site feature further comprises a set Sub-site features, respectively, are provided to each of the platform elements, and each sub-site feature is assembled to form the site features by assembling the platform elements.
The mobile stadium of claim 50 wherein said mobile platform further comprises at least one additional site feature, said additional site feature being laid on said mobile platform, said additional site feature further comprising a plurality of Additional site features are provided that are placed in the flow space to facilitate transport.
The mobile stadium according to claim 47, wherein said mobile stadium further comprises at least one waterproofing device, wherein said waterproofing device is disposed at a bottom of said gallery body to form a bottom portion of said gallery body swimming pool.
A mobile stadium according to claim 52, wherein said wall unit is disposed in a portion of said swimming pool to form an area of different water depth in said swimming pool.
A mobile stadium according to claim 53, wherein a plurality of said wall units are provided in said swimming pool, and a partition wall is formed by stacking said wall units, wherein said partition wall The swimming pool is divided into two functional areas.
A mobile stadium according to claim 47, wherein a plurality of said wall units are disposed at a bottom of said hall body space, and a partition wall is formed by stacking said wall units, said partition wall The hall space is divided into two functional areas.
A mobile stadium according to claim 55, wherein said mobile stadium further comprises at least one waterproofing device disposed at a bottom of one of said functional areas to form a swimming pool.
A mobile stadium according to claim 45 or 47, further comprising a performance platform, said performance platform being disposed in said activity space, wherein said performance platform further comprises at least one of said wall units, Two adjacent wall units 10F are connected to each other to form the performance platform.
A mobile venue characterized by comprising:

a library body having an activity space;

The hall body further includes at least one wall device disposed at a lower portion of the movable space, wherein the wall device further includes at least one layer assembly, the layer assembly forming the said manner by side by side connection a wall assembly, wherein the layer assembly further comprises at least one wall element, the adjacent two wall elements being interconnected to form the layer assembly, the wall element further comprising a flow component, the flow component having a unit space, The unit space is disposed below the active space.
A mobile stadium as claimed in claim 58, wherein one of said layer assemblies further comprises a flow energy supply unit, said flow energy supply unit being disposed below said active space.
A mobile stadium according to claim 59, wherein one of said layer assemblies further comprises a flowing water treatment unit, said water treatment unit being disposed below said active space.
The mobile stadium of claim 58 wherein said flow assembly further comprises an assembly frame and a plurality of wall members, said wall members being secured to said assembly frame to form said unit spaces.
A mobile stadium as claimed in claim 59, wherein said wall member is detachably fixed to said assembly frame.
A mobile stadium according to claim 63, wherein said wall unit further comprises a support adjustment device, said support adjustment device detachably supporting said flow assembly, wherein said support adjustment device further comprises A set of support adjustment members, the support adjustment members being respectively disposed to the flow assembly.
A mobile stadium according to claim 63, wherein said wall unit further comprises a detection control device, said detection control device communicatively coupled to said support adjustment device, wherein said detection control device further comprises a set of monitoring elements and a control device, the monitoring elements being communicatively coupled to the control device, wherein each of the monitoring elements is disposed on each of the wall members and each of the support adjustment members for accessing each The state of the wall member and the state of each of the support members, the control device adjusts the state of each of the support adjustment members by each of the monitoring members.
A mobile stadium according to claim 64, wherein said detection control means further comprises a positioning means and a communication means, said positioning means and said communication means are communicably connected to said control means, respectively a positioning device acquires a position of the wall unit at the wall device, so that the control device adjusts a position of the wall unit at the wall device, wherein the positioning device acquires a position of the wall unit In order to be guided in accordance with the position of the wall unit, wherein the control device exchanges information with the other wall units via the communication device in order to cooperate with the other wall units.
A mobile stadium as claimed in claim 65, wherein said wall unit is prefabricated according to a preset standard to facilitate formation of a personalized mobile venue through said wall unit.
A mobile stadium as claimed in claim 66, wherein said wall unit is a container.
The mobile stadium of claim 29 wherein said wall unit further comprises a service component, said service component being disposed in said unit space.
The mobile stadium of claim 68 wherein said service component is selected from the group consisting of an energy supply device, a water treatment device, a display device, a rest assembly, a layer connector, and an air conditioning device.
A mobile stadium as claimed in claim 58 or claim 68, further comprising a flow platform, said mobile platform being placed at the bottom of said activity space.
70. The mobile stadium of claim 70, wherein the flow platform further comprises a set of platform elements, the two adjacent platform elements being interconnected to form the flow platform.
A mobile stadium according to claim 71, wherein said platform member further comprises an element body and at least two element support portions, said two element support portions being respectively disposed in said Two sides of the element body support the element body, wherein by respectively providing the element support portions on the support surface, a buffer space is formed between the element body and the support surface to reduce the surface environment of the support surface The effect on the body of the component.
A mobile stadium as claimed in claim 71, wherein said mobile platform presets a field feature, said site feature being disposed on a surface of said mobile platform, wherein said site feature further comprises a set Sub-site features, respectively, are provided to each of the platform elements, and each sub-site feature is assembled to form the site features by assembling the platform elements.
The mobile stadium of claim 71 wherein said mobile platform further comprises at least one additional site feature, said additional site feature being laid on said mobile platform, said additional site feature further comprising a plurality of Additional site features are provided to the platform elements to facilitate transport.
The mobile stadium of claim 74 wherein said additional venue feature is an artificial turf such that said flow field is adapted for playing football.
The mobile stadium of claim 74 wherein said venue features meet badminton court requirements for facilitating badminton activities.
A method of assembling a mobile stadium, characterized in that it comprises the following steps:

Step A: Determine the type of a mobile venue;

Step B: grouping the wall units according to the determined type of the mobile venue; and

Step C: Assemble each of the wall units to form a wall device.
The method of assembling a mobile stadium according to claim 77, wherein the step C further comprises the step D:

Step D: assembling a top cover, and placing the top cover on the hall body such that the top cover is supported by the hall body.
A method of forming a mobile stadium assembled as set forth in claim 78, wherein step D further comprises step E:

Step E: Assemble the mobile platform.
A method of forming a mobile stadium assembled as set forth in claim 77, wherein said step B further comprises the steps of:

Step B1: determining the number of divided wall device groups according to the determined number of the wall devices included in a hall of the mobile stadium;

Step B2: dividing each wall unit assembling the same wall device into the same wall device group;

Step B3: respectively determining the number of layers of each of the wall devices; and

Step B4: In the same wall device group, each of the flow units belonging to the same layer component is divided into one layer group.
The method of assembling a mobile stadium according to claim 77, wherein said step C further comprises the steps of:

Step C1: selecting one of the group of wall devices, and selecting each of the flow units belonging to the same layer group in the selected group of wall devices;

Step C2: setting each of the wall units selected by the same layer group to a corresponding preset position;

Step C3: assembling each of the selected wall units to form the layer assembly;

Step C4: determining whether there is a separate flow unit in each of the wall device groups, and if so, performing step C1, if there is no separate flow unit in each wall device group, the wall The device is installed.
A method of assembling a mobile stadium according to claim 77, wherein said step A further comprises a step A' of: flowing said plurality of said wall units to a destination, respectively.
A method of assembling a mobile stadium according to claim 82, wherein said step A' further comprises a step A" of disassembling said mobile stadium into a plurality of said wall units.
A method of assembling a mobile stadium as claimed in claim 83, wherein the step A" further comprises the steps of:

Step A1": separating the top cover from the hall body such that the hall body no longer supports the top cover; and

Step A2": Disassemble the hall body.
A method of assembling a mobile stadium according to claim 84, wherein said step A2" further comprises the steps of:

Step A21": determining whether the wall body has at least two layers of the wall device of the layer assembly, and if there are at least two layers of the wall device of the layer assembly, performing step A22", if the hall body Each of the wall devices has only one layer of the layer assembly, step A24" is performed, if the wall device is not present, step A26" is performed;

Step A22": selecting a layer at the top of the wall device of at least two layers of the layer assembly An assembly that disassembles the selected layer assembly into at least one of the wall units;

Step A23": return to step A21";

Step A24": selecting the layer assembly of the hall body of the layer assembly having only one layer of the layer assembly, and disassembling the selected layer assembly into at least one of the wall units;

Step A25": return to step A21";

Step A26": disassembling the mobile platform, disassembling the mobile platform into a plurality of platform components; and

Step A27": The platform element is placed on the flow unit.
The method of assembling a mobile stadium according to claim 85, wherein said step A1" further comprises the steps of:

Step A11": disassembling the top cover into a top frame and at least one covering; and

Step A12": further splitting the top frame into a set of sub-brackets to facilitate accommodation in the unit space of the flow component of the flow unit.
The method of assembling a mobile stadium according to claim 82, wherein said step A' further comprises:

Step A1': disposing the cover and each of the sub-brackets in the unit space of the flow component of the flow unit; and

Step A2': Each of the wall units is moved to a destination, respectively.
A venue having a flow unit, characterized by comprising:

a library body having a library space; and

At least one flow unit disposed on one side of the hall to provide service, wherein the flow unit has a flow unit space, and the flow unit space is disposed in the hall space One side.
A stadium having a flow unit according to claim 88, further comprising at least one wall device disposed on one side of said hall body, said flow unit being disposed to said wall device.
A stadium having a flow unit according to claim 89, further comprising at least one hall wall, said gallery wall being disposed on one side of said hall body, said wall means being formed between said wall means and said hall wall The hall space.
A stadium having a flow unit according to claim 90, wherein the other wall means are respectively disposed on a corresponding side of the hall body, the wall means surrounding the hall body space.
A stadium having a flow unit according to claim 90 or 91, wherein said wall means is formed by stacking each of said flow units.
A stadium having a flow unit according to claim 90 or 91, wherein said wall means further comprises an additional wall, said flow unit being disposed on said additional wall, wherein said additional wall further has at least one flow A unit opening, the flow unit being disposed at the flow unit opening.
A stadium having a flow unit according to claim 90 or 91, wherein said wall means further has at least one flow unit accommodating chamber, said flow unit being disposed in said flow unit accommodating chamber.
A stadium having a flow unit according to claim 88, wherein said flow unit further comprises a service component, said service component being disposed in said flow unit space to provide a service.
A stadium having a flow unit according to claim 95, wherein said service assembly further comprises an energizing means, said energizing means being disposed in said flow unit space to enable said flow unit to supply electric energy service.
A stadium having a flow unit according to claim 96, wherein said service assembly further comprises a water treatment device disposed in said flow unit space to cause said service component to further provide water treatment service.
A stadium having a flow unit according to claim 97, wherein said flow unit further comprises a management device, said management device being provided to said flow unit, wherein said management device further comprises one communicatively coupled to each other a group monitoring element, a control device and a communication device, the monitoring elements being respectively disposed in the flow unit, the control device acquiring a state of the flow unit by the monitoring element to perform according to a state of the flow unit Adjustment, wherein the communication device is communicatively coupled to the communication device of the other of the flow units to exchange information to cooperate with other of the flow units.
A stadium having a flow unit according to claim 98, wherein said flow unit further comprises a plurality of wall members and a flow unit frame, each of said wall members being disposed in said flow unit frame to form said flow unit space .
A stadium having a flow unit according to claim 97, wherein said flow unit is a container.
A stadium having a flow unit according to claim 97, wherein said flow unit is detachably coupled to said hall body such that said flow unit is separated from said hall body and dispatched to a preset head Provide services.
A stadium having a flow unit according to claim 98, further comprising a management unit, wherein said management unit communicably connects said management means of each of said flow units to obtain a state of each of said flow units, The management unit respectively arranges each of the flow units to provide a service to a preset destination according to the state of each of the flow units.
A stadium having a flow unit according to claim 102, wherein said management unit arranges each of said flow unit stacks to form at least one wall device, and forms said hall space by setting a position of said wall device.
A stadium having a flow unit according to claim 103, wherein said management unit is capable of rearranging each of said flow unit stacks to form a wall device, and resetting a position of said wall device to change said The use of the library space.
A stadium having a flow unit according to claim 89, further comprising a top cover covering said hall space, wherein said top cover further comprises a top cover body and a set of top cover supports The top cover support supports the top cover.
A stadium having a flow unit according to claim 89, further comprising a top cover supported by said wall means.
A stadium having a flow unit according to claim 89, wherein the hall space is used for badminton.