CN105251198B

CN105251198B - Mobile venue and method thereof

Info

Publication number: CN105251198B
Application number: CN201510083321.7A
Authority: CN
Inventors: 戴见霖
Original assignee: Individual
Current assignee: Individual
Priority date: 2014-07-10
Filing date: 2015-02-15
Publication date: 2020-05-01
Anticipated expiration: 2035-02-15
Also published as: CN204663050U; CN105332525A; CN105251198A; WO2016050212A1; CN204590684U; CN105298168A; WO2016050212A9; CN105298168B; CN105239801A; TW201612390A; CN105275230A; CN105332525B; TWM527029U; CN204663049U; CN105275230B; TWI711752B

Abstract

The invention relates to a mobile venue, which comprises at least one first forming wall, wherein the first forming wall can selectively provide or enclose at least one motion platform to provide space for various activities, such as various sports, activity venues and exhibition halls. The first forming wall further comprises a sub-wall unit, which is provided independently or combined to form the motion platform, the sub-wall unit being moved to achieve a movement of the motion platform to cater for temporary needs of the motion platform.

Description

Mobile venue and method thereof

Technical Field

The present invention relates to a venue, and more particularly, to a mobile venue which provides at least one mobile unit formed by connecting at least mobile units, wherein the mobile units are movable, thereby improving the efficiency of use of the mobile units.

Background

With the improvement of living standard of people, people pay more and more attention to health. More and more people exercise their bodies by participating in various sports. There is an increasing demand for sports stadiums. In particular badminton and table tennis stadiums of this type. The existing sports stadiums are fixed at a certain position, and people need to come to the sports stadiums to do sports. Although sports such as badminton only require space to perform. But building a badminton stadium requires land resources. Moreover, land is a scarce resource, which is particularly apparent in large and medium cities in China. However, in the large and medium cities of China, there are many idle lands, which may be developed quickly or may continue to be idle, that is, the idle time of the idle lands cannot be determined. If a gym is installed in these vacant lands, people living near the vacant lands can be benefited. However, if a stationary gym is installed on the vacant land, the stationary gym needs to be removed when the vacant land needs to be developed, which results in waste. However, there is no solution to solve the problem of sports stadium shortage by using the idle land.

In some enterprises, attention is paid to the life of abundant employees, such as regularly holding badminton games. Not every business, however, has a badminton stadium. Therefore, renting a field for playing a game becomes the only choice. If only one field is rented, only the staff who participates in the game can participate in the badminton game. If the whole venue is rented, although more staff can participate in the badminton game, the expense for renting the fixed venue becomes another problem. Creating a badminton stadium is more expensive. Some businesses have an open place where temporary activities can take place. Even parking lots may be available for temporary activities. Such sports requiring temporary venues are numerous. Although a temporary field is built in an open space for activities. And then can be disassembled after use, and the original land use is recovered. However, the influence of construction and disassembly on the land may influence the original use of the land. In addition, in the process of construction and disassembly, the generated garbage needs to be additionally cleaned, and the cost of the movement is indirectly increased.

Some developments may require many employees to live for a period of time in a fixed location. The portable house becomes the first choice for the staff to live. The movable board house only considers the living problem of the staff and does not consider the construction of the physical and mental health of the staff. Although the employees can live a surplus life in the portable house by watching television or chess sports, the portable house cannot provide a field for the employees to perform sports activities, such as badminton, table tennis and the like. Lack of movement of the staff can affect the work efficiency. The portable house can not provide places for staff to do badminton, table tennis and other sports. Although the prefabricated house can be repeatedly used, the prefabricated house is convenient to move. But the portable house needs to be attached to other transportation means for storage and movement to another location. That is, the portable housing requires additional carriers for transport. The portable house is a set of design. That is, a suite of portable board rooms is designed according to the number of rooms and the structure required. If the prefabricated house is installed, an additional room is needed. It is also difficult to implement for this suite of portable board houses. It may have to be reinstalled. If the set of movable board house is of a multilayer structure, only one room is added, and the whole structure must be considered, so that the movable board house is not easy to realize. And the corresponding number of rooms is increased according to the number of layers, which causes waste.

The badminton court that fixed badminton hall has is fixed, and the degree of difficulty that will additionally increase the place is very big. Even if the field is increased, the cost is huge. However, in some areas, the demand for the badminton court is low in some time periods, so that some court in the badminton stadium is idle, for example, the badminton stadium is cold in the sky or rainy in the overcast and rainy day. While the need for such shuttlecock fields remains large in another area. Such as sunny or warm weather areas. If the badminton court which is idle in the cold region can be used in the warm region, the utilization rate of the badminton court is improved. But not for stationary sports stadiums.

Fixed venues generally have only a single function, and if the function of the venue is to be changed, the venue is just built up greatly. If a fixed badminton stadium is modified into an indoor swimming pool, a large building of the fixed badminton stadium is needed, such as the building of the swimming pool. The reconstruction of a fixed swimming pool into a badminton pool also requires a large amount of cost. Nowadays, no technical scheme is available, and the purpose of the stadium can be changed by only changing the technical scheme, such as changing a badminton stadium into a swimming stadium, and changing the swimming stadium into the badminton stadium.

Containers are used in large quantities for transportation, but also have a life span. That is, containers with a large number of containers that exceed their useful life need to be handled. It is also a problem how to handle a large number of containers that are over-time. The exterior finish of containers uses special paints, which can cause serious environmental problems if the problem of the container over time is not well handled. And the amount of processing is enormous, and the processing cost required is also enormous. At present, a solution which saves the treatment cost and has little pollution to the environment does not exist.

Disclosure of Invention

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

It is another object of the present invention to provide a mobile venue, the set of mobile units being easily transported, the set of mobile units being easily assembled to form the mobile venue, and also being easily disassembled from the mobile venue to be restored to the set of mobile units, thereby enabling the mobile venue to be moved to another destination by means of the mobile units.

Another object of the present invention is to provide a mobile venue, which has at least two sidewalls, and the two sidewalls form a room for activities.

It is another object of the present invention to provide a mobile venue with a space for a performance platform, wherein the mobile units can be assembled to form the performance platform.

It is another object of the present invention to provide a mobile venue, the mobile base providing four base side walls surrounding the museum body space, the mobile venue providing a waterproof mechanism disposed at the bottom of the museum body space to form a swimming pool.

It is another object of the present invention to provide a mobile venue with a cellular space for an energy supply module to provide electrical power to the mobile venue.

Another object of the present invention is to provide a mobile venue, wherein the mobile unit provides a unit space for installing a water treatment device to provide water resources for the mobile venue.

Another object of the present invention is to provide a mobile badminton stadium that can be moved from place to place, so that the number of mobile badminton stadiums can be adjusted according to the requirements of the badminton stadiums from place to place, thereby meeting the requirements of the badminton stadiums.

It is another object of the present invention to provide a flow badminton stadium that provides a flow base that provides at least one flow platform for badminton.

It is another object of the present invention to provide a mobile badminton stadium that provides a mobile stadium supported by the mobile base that forms a stadium space for positioning the mobile platform for badminton.

It is another object of the present invention to provide a flow badminton stadium, wherein the flow base provides at least one flow cell that facilitates flow to move the flow badminton stadium to a destination by flowing each of the flow cells.

It is another object of the present invention to provide a flow badminton stadium wherein the flow platform provides at least two platform members that are positioned in the flow cell to be moved by the flow cell to a destination and then connected to form the flow platform.

It is another object of the present invention to provide a flow badminton stadium in which the flow platform can be divided into a plurality of platform units for easy flow, so as to be adapted to be provided to the flow unit to be flowed to a destination by the flow unit.

It is another object of the present invention to provide a flow badminton stadium in which the flow cell provides a cellular space for servicing.

Another object of the present invention is to provide a flow badminton stadium, wherein the two flow units connected have a space that can be communicated to expand the space for providing services.

It is another object of the present invention to provide a flow badminton stadium, wherein the flow badminton stadium is adjusted by adjusting the number of the flow cells.

It is another object of the present invention to provide a flow badminton stadium in which the number of flow platforms is adjusted by adjusting the number of flow units.

It is another object of the present invention to provide a flow badminton stadium wherein the flow cell provides a flow assembly that provides a set of wall members that are removably attached to form the cell space around.

It is another object of the present invention to provide a flow badminton stadium in which the flow assembly provides an assembly frame to facilitate mounting of the wall member.

It is another object of the present invention to provide a flow badminton stadium in which the flow frame provides a set of corner connectors and a set of wall connectors to facilitate installation of the wall elements.

It is another object of the present invention to provide a flow badminton stadium wherein the flow cell provides a support adjustment means for supporting the flow assembly.

It is another object of the present invention to provide a flow badminton stadium in which the support adjustment device can be received in the unit space to facilitate flow.

It is another object of the present invention to provide a flow badminton stadium wherein the support adjustment mechanism allows the bottom wall of each of the flow modules connected to be at the same level.

It is another object of the present invention to provide a flow badminton stadium, wherein the flow unit provides a detection control means for detecting and controlling the state of the support adjustment means. It is another object of the present invention to provide a flow badminton stadium, wherein the flow unit is provided with at least one energy supply device forming a flow energy supply unit for supplying energy to the flow badminton stadium.

It is another object of the present invention to provide a mobile badminton stadium, wherein the mobile unit is provided with at least one water treatment device forming a mobile water unit for supplying water to the mobile badminton stadium.

Another object of the present invention is to provide a flow badminton stadium, wherein the flow energy supply unit is connected to the flow water unit to form the flow platform.

Another objective of the present invention is to provide a flow badminton stadium, wherein the flow unit is provided with at least one cooling and heating system to form a flow cooling and heating device for cooling and heating the flow unit, so as to adjust the temperature in the space of the flow badminton stadium to be suitable for the badminton sport.

It is another object of the present invention to provide a flow badminton stadium wherein the detection control provides a positioning means for obtaining the position of the flow cell.

It is another object of the present invention to provide a flow badminton stadium wherein the detection control device provides a means for communicating with other flow units to work in tandem.

It is another object of the present invention to provide a flow badminton stadium wherein the flow cell provides a motion providing means to allow the flow cell to flow on its own.

It is another object of the present invention to provide a flow badminton stadium, wherein the flow unit provides a navigation device to guide the flow unit to a predetermined purpose.

It is another object of the present invention to provide a flow badminton stadium wherein the flow library provides a set of connection supports spaced apart from the flow platform and a set of wall elements disposed between the wall elements.

It is another object of the present invention to provide a flow badminton stadium in which the flow library provides a canopy supported by the connecting supports.

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, meeting, etc. activities to cater for the needs of the use.

Another object of the present invention is to provide a mobile venue which can be conveniently moved to roll over to various destinations, thereby satisfying various temporary event required site platforms, and not occupying environmental sites for a long time, thereby solving the diversified utilization of limited environmental space resources.

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

Another object of the present invention is to provide a mobile venue, which includes an energy supply unit, wherein the energy supply unit can supply water and power to the mobile venue to improve the use condition of the mobile venue.

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

a flow base having a museum space for activities; wherein the content of the first and second substances,

the flow base further comprises a set of flow cells assembled to form at least two base side walls forming the Librarian space between the two base side walls.

The base sidewall further comprises at least one layer of elements, wherein, when the base sidewall comprises at least two layer elements, one of the layer elements is arranged to support the other layer element, forming the base sidewall in such an overlying manner. The layer assembly comprises at least one flow unit, wherein when the layer assembly comprises at least two flow units, one end of one of the flow units is connected with one end of the other flow unit to form the layer assembly. The flow cell further includes a flow assembly having a cell space for providing services, wherein the flow assembly further includes an assembly frame and a set of wall members, each of the wall members being detachably mounted to the assembly frame to form the cell space. The flow cell further includes a service component disposed in the cell space to provide a corresponding service. The service assembly comprises an energy supply assembly, and the energy supply assembly is arranged in the unit space so that the mobile unit supplies electric energy to the mobile venue. Wherein the service assembly comprises a water treatment device disposed in the unit space such that the flow unit provides water treatment services to the flow venue, wherein the water treatment device further comprises a water supply device connected to an external water source to provide domestic water to the flow venue, wherein the flow venue comprises at least one flow unit having the water treatment device.

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

a flow base, the flow base comprising at least one flow platform for performing badminton; wherein the content of the first and second substances,

the flow base further comprises at least two flow units, and the flow platform is formed by connecting the two flow units, wherein the flow base is adjusted by adjusting the number of the flow units so as to provide services.

This badminton stadium that flows further includes a flow library body, and this flow library body is supported by this flow base, and wherein, this flow library body sets up in this flow platform in order to form a body of librarian space, and the body of this flow is adjusted according to the quantity of this flow platform to adjust this body of librarian space, in order to provide the service.

The flow cell further includes a flow assembly, the flow assembly further including an assembly frame and a plurality of wall members, each of the wall members being removably mounted to the assembly frame to form a cell space for providing services.

The flow cell may further comprise a platform element detachably arranged to the flow assembly, wherein the flow platform is formed by connecting at least two platform elements.

The flow unit further includes a support adjusting means detachably supporting the flow assembly for maintaining the flow assembly stable, wherein the support adjusting means is provided to a unit space of the flow assembly to facilitate the flow when the flow unit is flowed.

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

a flow base, this flow base further one includes two at least base lateral walls, and two this bases set up with the interval to form one between two this base lateral walls and organize the body space and supply to carry out the badminton, wherein, the base lateral wall further includes an at least this unit that flows, through the adjustment flow unit is in order to adjust organize the body space.

This flow base further includes at least one flow platform, and this flow platform is set up in this librarian body space and supplies to carry out the badminton, and wherein, this flow platform further includes two at least platform components, the platform component can be set up in this flow unit with dismantling so that follow the flow unit flows, wherein, the platform component is followed the flow unit is dismantled the back and is moved to the librarian body space is connected in order to form the flow platform supplies to carry out the badminton.

This flow base includes four base lateral walls, and four these base lateral walls supply to carry out the badminton around forming this Librarian body space, and wherein this base lateral wall further includes two at least these flow units, through adjusting this flow unit in order to adjust flow Librarian body space.

This flow base further includes at least one flow platform, and this flow platform is set up and is carried out the badminton in this library body space, and wherein, this flow platform further includes two at least platform components, and this platform component is set up in this flow unit with dismantling to in order to flow along with this flow unit, wherein, this platform component is dismantled the back from this flow unit and is moved to this library body space and connect in order to form this flow platform and supply to carry out the badminton.

The flow badminton hall comprises a flow base, wherein the flow base comprises at least one flow unit, and the flow unit can be arranged on a transportation device to facilitate the flow of the flow unit. The flow base is adjusted to provide service by adjusting the number of the flow cells. The flow base comprises at least one flow platform for badminton. The flow platform comprises at least two platform elements which are connected to each other to form the flow platform. The platform element is disposed to the flow cell to facilitate flow with the flow cell. By means of flowing each flow unit, the flow badminton of the invention is convenient to flow to each destination. After reaching each destination, the flow badminton hall is formed by connecting each flow unit. The flow unit has a unit space for arranging each service component. The service components include, but are not limited to, energy supply devices, water treatment devices, display devices, and rest components. The energy supply device is arranged in the cell space of the flow cell so that the flow cell supplies electric energy to the flow badminton stadium. It is worth mentioning that the mobile unit provided with the energy supply device can also be applied to community power supply. For example, when the community suddenly cuts off power, the mobile unit provided with the energy supply device can be called to supply power. And arranging a water treatment device in the unit space of the flow unit so that the flow unit provides water supply service for the flow badminton hall and treats sewage. The mobile unit arranged on the water treatment device can also be applied to water supply for communities or disaster areas in case of disasters. Similarly, the flow cell provided with the energy supply device can supply power to the disaster area when a disaster occurs. Since the flow unit facilitates the flow, the transportation is facilitated. The flow unit further provides for the provision of sanitary and cooking components to provide a solution to sanitary and hunger problems in disaster relief. The display device is arranged in the unit space of the flow unit, and articles can be displayed in the flow badminton stadium for selection. A resting assembly is provided to the flow cell to provide a resting area for a person to rest. The flow platform is used for badminton. The badminton platform is provided with a badminton court. Preferably, the shuttlecock platform is provided with a standard shuttlecock playing field. To facilitate flow, the shuttlecock platform is divided into at least two platform elements. Such as dividing the shuttlecock platform into two platform elements. Or divide the shuttlecock platform into four such platform elements. Or divide the shuttlecock platform into six platform elements, etc. When the platform elements reach the target, the platform elements are connected to form the flow platform for badminton. The divided platform element may be divided according to the size of the flow cell to match the flow cell, so that the platform element also facilitates the flow. The number of flow platforms can thus be adjusted as desired by adjusting the number of flow cells. When the demand on the badminton court is large, the flow platform can be added in a mode of adding the flow unit so as to meet the demand. When demand is reduced, the number of flow cells can be reduced, thereby reducing the flow platform. And the reduced flow unit is flowed to an area with a large demand for a badminton court, thereby improving the utilization rate of the flow unit. The two cell spaces connecting the flow cells may be communicated to expand service space and improve better service. Further, the flow badminton stadium can be customized as required, for example, the flow unit provided with the energy supply device and the flow unit provided with the water treatment device are selected to form the flow platform. Optionally, the flow unit with multiple display devices is formed into the flow platform. Thereby providing various services. The badminton shuttlecock further comprises a flow Limb body which is arranged on the flow platform to reduce the influence of weather on the badminton shuttlecock. And the installation components of the flow collection body can be placed in the cell space of the flow unit and flow with the flow unit. That is, the unit space of the flow cell is available for accommodating articles while flowing. In addition, some places hold large amateur badminton games with unprecedented number of participants, and the number of the available badminton fields in the places is far less than the number required by the badminton games, so that the large-scale games cannot be held. And the number of the badminton stadiums at the place can be rapidly increased in a short time by temporarily moving the nearby mobile badminton stadium to the place for undertaking by applying the mobile badminton stadium. And after the event is finished, the mobile badminton stadium temporarily gathered to the place can be conveniently returned to the place for use within a short time.

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

Preferably, the first forming wall further comprises a sub-wall element, the sub-wall element further comprising:

a first set of wall elements;

a second set of wall elements; and

a ledge element, wherein said second set of wall elements is movably mounted to said first set of wall elements to form a receiving cavity between said first set of wall elements and said second set of wall elements, said motion stage is selectively formed on a surface of said first set of wall elements and said second set of wall elements or within said receiving cavity, said first set of wall elements and said second set of wall elements are mounted to said ledge element to form said sub-wall unit, said ledge element is configured to determine a structural configuration of said first set of wall elements and said second set of wall elements and to reinforce a strength of said first set of wall elements and said second set of wall elements.

Preferably, in another case, the first forming wall further includes at least two sub-wall units, the sub-wall units form the first forming wall by being arranged and combined, the motion platform is selectively formed in a space surrounded by each sub-wall unit or on a surface of the sub-wall unit, wherein the sub-wall unit further includes:

a first set of wall elements;

a second set of wall elements; and

a ledge element, wherein said second set of wall elements is movably mounted to said first set of wall elements to form a receiving cavity between said first set of wall elements and said second set of wall elements, said motion stage is selectively formed on a surface of said first set of wall elements and said second set of wall elements or within said receiving cavity, said first set of wall elements and said second set of wall elements are mounted to said ledge element to form said sub-wall elements, each of said sub-wall elements is detachably connected by said ledge element, said ledge element determines a structural configuration of said first set of wall elements and said second set of wall elements and reinforces a strength of said first set of wall elements and said second set of wall elements, a number of said sub-wall elements required for said first wall formation is arranged as required by a use environment. It should be noted that each sub-wall unit can be selectively arranged and combined in the horizontal direction or the vertical direction to form the first forming wall and the motion platform in various forms.

Preferably, the mobile venue further comprises at least one mobile unit driven to be movable to roll over to each destination, and at least one of the sub-wall units is movable by being mounted to the mobile unit to roll over to each destination as the mobile unit rolls over.

Preferably, the ledge element further comprises:

at least one locking member; and

the locking piece is arranged in the locking groove and can slide along the locking groove all the time, one end of the locking piece is arranged in the locking groove all the time, and the other end of the locking piece can extend out of the locking groove and extend to be arranged in the locking groove of the other adjacent sub-wall unit so as to fix the adjacent sub-wall units in at least one direction.

Preferably, the locking groove further comprises at least one positioning groove, and 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 fix the adjacent sub-wall units at least in one direction.

Preferably, in another case, the ledge element further comprises:

a locking member; and

and the locking pieces are arranged in the locking grooves, when voltage is applied to the locking pieces, current can be formed in the locking pieces to form magnetism, and the adjacent locking pieces can attract each other when reverse current is applied to the adjacent locking pieces, so that the adjacent sub-wall units cannot easily move. Preferably, the locking groove further comprises at least two connecting ends formed at both ends of the locking groove, and the locking grooves of the sub-wall units are selectively and electrically connected to each other through the connecting ends or through a power-on wire to ensure that current is formed in the locking member. Preferably, the ledge member further comprises a cover layer on the surface of the retaining member, wherein the cover layer isolates the voltage applied to the retaining member and the magnetic field generated by the retaining member when the retaining member is magnetically coupled to the retaining member.

Preferably, the second set of wall elements exposes or closes the accommodating cavities by being movably mounted to the first set of wall elements to communicate with the accommodating cavities, and the motion platform is formed between the first set of wall elements and the second set of wall elements of each sub-wall unit and in the accommodating cavities.

Preferably, the mobile venue further comprises an energy supply unit, the energy supply unit further comprising;

a power supply device; and

the power supply device and the water supply device are arranged in the accommodating cavity so that the flowing venue can supply water and power to perfect the use condition of the flowing venue.

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

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

1): adjacently arranging at least two sub-wall units to obtain a first formed wall, wherein adjacently arranging the sub-wall units comprises adjacently, oppositely and spaced arranging the sub-wall units; and

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

It should be noted that the motion platform may be selectively formed in a space surrounded by each sub-wall unit or on surfaces of a first forming wall and a second forming wall of each sub-wall unit according to a use requirement.

Preferably, the step 1) further comprises the steps of:

1.1): arranging the sub-wall unit on a mobile unit; and

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

Preferably, said step 2) further comprises a step 2.1): and driving the moving unit to adjust the shape of the movable platform by adjusting the first forming wall.

Preferably, the step 2) and the step 2.1) also can be as follows: adjusting the sub-wall unit to adjust the first formed wall, wherein the adjustment of the sub-wall unit includes adjustment in a horizontal direction and a vertical direction.

Preferably, the method further comprises step 3): and forming reverse current to the locking pieces of each adjacent sub-wall unit to reinforce the connection between the sub-wall units.

It should be noted that the method further comprises step 3) as follows: extending the other end of the locking member of the sub-wall unit to the locking groove of the adjacent sub-wall unit to ensure that the sub-wall units can easily move relatively in at least one direction.

Preferably, the step 3) further comprises the steps of: one end of the locking member is arranged in the positioning groove, so that the locking member is immovably arranged in the locking groove to ensure that the sub-wall units can easily move relatively in at least one direction.

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

(1): movably connecting a second group of wall units with the first group of wall units to expose the accommodating cavity; and

(2): at least one sub-wall unit is adjacently arranged to form a first forming wall for obtaining at least one movable platform, wherein the movable platform is selectively formed on the surface of the first group of wall elements and the second group of wall elements of each sub-wall unit or the accommodating cavity.

Preferably, the method further comprises step (3): adjusting the sub-wall units to adjust the movable platform, wherein the adjusting of the sub-wall units comprises adjusting the sub-wall units in a horizontal direction and a vertical direction.

Preferably, the flow venue comprises at least one base unit, and the base unit can be arranged and combined to form various forms of the flow venue, wherein the base unit further comprises:

at least one sub-platform unit forms at least one platform unit to provide an activity space for users to use; and

a flow unit, wherein the flow unit is driven by external force to move, and the sub platform unit is detachably mounted on the flow unit and moves along with the flow unit, so that the flow venue can move among destinations.

Preferably, the sub-platform unit further comprises a structural wall enclosing a structural cavity, wherein the structural wall further comprises;

a support member; and

at least one component wall, wherein the component wall is movably mounted to the frame component to form the structural cavity, wherein the platform unit is selectively formed on a surface of at least one of the structural walls or within the structural cavity, and wherein the component wall is movably mounted to the frame component to expose or close 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 may be selectively communicated with each other in a vertical direction or a horizontal direction or in both the vertical direction and the horizontal direction.

Preferably, the bracket element further includes at least one supporting frame and at least one fixing frame, the fixing frame and the element wall are respectively movably mounted on the supporting frame, the element wall further includes at least one fixing member, and the fixing frame is placed on the fixing member so that a fixed angle is maintained between a part of the element wall and the supporting frame to form the platform unit on the element wall.

Preferably, the bracket element further includes at least one supporting frame and at least one fixing frame, and the fixing frame and the element wall are respectively detachably mounted on the supporting frame to expose the structural cavities and communicate with the structural cavities to form the platform unit in the structural cavities.

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

Preferably, the flow unit includes a stop element that increases the difficulty factor of the flow unit when moving to ensure that the platform unit does not move easily.

Preferably, the mobile venue further comprises a power supply unit, the power supply unit further comprising a first supply unit and a second supply unit, the first supply unit and the second supply unit being capable of providing water resource and electric power source to the platform unit, respectively.

Preferably, when the element wall includes at least two fixing pieces, the fixing frame can be installed on different fixing pieces to adjust the angle between part of the element wall and the support.

i: mounting the fixing frame on the fixing piece to expose the structural cavity of the sub-platform unit; and

ii: and 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 the structural cavity of the sub-platform unit is also formed.

Preferably, step ii is followed by the steps of: the adjustment of the braking elements to secure each of the sub-platform units cannot be easily moved.

Drawings

FIG. 1 is a block diagram of a flow unit of a preferred embodiment of the flow arena of the present invention.

Fig. 2A is a perspective view of a flow unit of a preferred embodiment of the flow arena of the present invention.

Fig. 2B is a perspective view of a flow cell of a preferred embodiment of the flow arena of the present invention depicting an energy supply device being positioned on the flow cell.

FIG. 2C is a perspective view of a flow cell of a preferred embodiment of the flow arena of the present invention depicting a water treatment device being positioned in the flow cell.

FIG. 2D is a perspective view of a flow cell of a preferred embodiment of the flow arena of the present invention depicting a display device being positioned on the flow cell.

FIG. 2E is a perspective view of a flow cell of a preferred embodiment of the flow arena of the present invention depicting a resting assembly disposed on the flow cell.

FIG. 3 is an exploded view of a flow cell of another preferred embodiment of the flow arena of the present invention

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

FIG. 4B is a schematic view of a preferred embodiment of the flow arena of the present invention depicting the flow cell deploying the platform element to form the flow platform.

Fig. 4C is a schematic view of a preferred embodiment of the flow arena of the present invention depicting the deployment of the flow cells to form the flow platform.

FIG. 4D is a schematic view of a preferred embodiment of the flow arena of the present invention depicting two flow cells deploying the platform elements to form two flow platforms.

Fig. 5 is a schematic view of another preferred embodiment of the mobile venue of the present invention.

Fig. 6 is a schematic view of another preferred embodiment of the mobile venue of the present invention.

Fig. 7 is a schematic view of another preferred embodiment of the mobile venue of the present invention.

Fig. 8 is a schematic view of the connecting support of another preferred embodiment of the mobile venue of the present invention.

Fig. 9 is a schematic view of another preferred embodiment of the mobile venue of the present invention.

Fig. 10 is a schematic view of another preferred embodiment of the mobile venue of the present invention.

Fig. 11 is a schematic view of another preferred embodiment of the mobile venue of the present invention.

Fig. 12 is a schematic view of another preferred embodiment of the mobile venue of the present invention.

Fig. 13 is a schematic view of another preferred embodiment of the mobile venue of the present invention.

Fig. 14 is a schematic view of another preferred embodiment of the mobile venue of the present invention.

Fig. 15 is a schematic view of another preferred embodiment of the mobile venue of the present invention.

Fig. 16 is a schematic view of another preferred embodiment of the flow arena of the present invention, illustrating the flow arena as a flow badminton stadium.

Fig. 17 is a schematic view of another preferred embodiment of the flow arena of the present invention, illustrating the flow arena as a flow badminton stadium.

Fig. 18 is a schematic view of another preferred embodiment of the mobile stadium of the invention, illustrating the mobile stadium as a mobile natatorium.

Fig. 19 is a schematic view of another preferred embodiment of the flow arena of the present invention, illustrating that the flow arena is a flow natatorium, and the flow natatorium is divided into two areas.

Fig. 20 is a schematic view of another preferred embodiment of the flow arena of the present invention, illustrating that the flow arena is a flow natatorium, and the flow natatorium is divided into two areas.

FIG. 21 is a schematic view of another preferred embodiment of the flow arena of the present invention depicting an outdoor swimming pool being reassembled from the flow arena.

FIG. 22 is a schematic view of another preferred embodiment of the flow arena of the present invention depicting an outdoor swimming pool being reassembled from the flow arena.

Fig. 23 is a schematic view of another preferred embodiment of the mobile venue of the present invention depicting one embodiment of the mobile venue cover.

FIG. 24 is a block diagram of another preferred embodiment of the mobile venue of the present invention illustrating the structure of the service components. Fig. 25 is a block diagram of another preferred embodiment of the flow arena of the present invention, depicting the structure of the flow unit.

Fig. 26 is a schematic view of another preferred embodiment of the mobile venue of the present invention, depicted as a mobile performance venue.

Fig. 27 is a schematic view of another preferred embodiment of the mobile venue of the present invention, depicted as a mobile performance venue.

Fig. 28 is a schematic view of another preferred embodiment of the mobile venue of the present invention, illustrating the mobile venue as an open stairwell auditorium venue.

FIG. 29 is a flow chart of a method for establishing a mobile venue in accordance with the present invention.

FIG. 30 is a schematic view of a mobile venue according to another preferred embodiment of the present invention.

Fig. 31 is a perspective view of a sub-wall unit of a further preferred embodiment of the flow arena of the present invention.

Fig. 32 is another perspective view of a sub-wall unit of another preferred embodiment of the flow arena of the present invention.

Fig. 33 is a perspective view of another preferred embodiment of the mobile venue of the present invention.

Fig. 34 is an alternative to a specific embodiment of yet another preferred embodiment of the mobile venue of the present invention.

FIG. 35 is a schematic view of another embodiment of the mobile venue of the present invention.

FIG. 36 is a schematic view of another embodiment of the mobile stadium of the present invention.

Fig. 37 is a top view of yet another preferred embodiment of the mobile venue of the present invention.

FIG. 38 is a diagram of the assembly process of yet another preferred embodiment of the mobile venue of the present invention.

FIG. 39 is a view of another assembly process of yet another preferred embodiment of the mobile venue of the present invention.

Fig. 40 is a perspective view of a sub-platform unit of a mobile venue according to yet another preferred embodiment of the present invention.

FIG. 41 is a top view of an embodiment of a flow arena in accordance with yet another preferred embodiment of the present invention.

FIG. 42 is an assembly process view of another embodiment of the mobile venue of the present invention.

Fig. 43 is a schematic perspective view of another embodiment of the mobile stadium according to the present invention.

Fig. 44 is a cross-sectional view of an alternative embodiment of the mobile venue of the present invention.

FIG. 45 is a schematic view of a mobile venue according to a further embodiment of the present invention.

FIG. 46 is a schematic view of another embodiment of a mobile venue in accordance with the present invention in a further use state.

FIG. 47 is a flow chart illustrating a method of forming a flow stadium according to the present invention.

FIG. 48 is a partial flow chart of a method of forming a flow arena in accordance with the present invention.

FIG. 49 is a schematic flow chart of another part of the method for forming a flow stadium according to the present invention.

FIG. 50 is a schematic flow chart of another portion of the method of forming a flow arena in accordance with the present invention.

FIG. 51 is a schematic flow chart of another part of the method for forming a flow stadium according to the present invention.

FIG. 52 is another flow chart illustrating a method of forming a flow stadium according to the present invention.

FIG. 53 is a schematic flow chart of a method of forming a flow arena according to the present invention.

Detailed Description

The technical scheme of the invention is specifically as follows according to the contents disclosed in the claims and the specification of the invention.

Figure 3 shows a preferred embodiment of the mobile venue of the present invention. In this embodiment, the flow stadium is a flow badminton. The flow venue includes at least one flow cell 10. The flow cell 10 interconnected is defined as a flow base 90. The flow base 90 is adjusted by adjusting the number of flow cells 10 to meet the demand for service. Preferably, at least two flow cells 10 are interconnected to form the flow base 90. That is, the flow base 90 includes at least two flow cells 10. The flow cell 10 includes at least one platform member 911, and badminton is performed on the flow platform 91 by connecting two flow cells 10 such that the platform members 911 of each flow cell 10 are connected to each other to form a flow platform 91.

As shown in fig. 1 and 2A, the flow cell 10 includes a flow assembly 30. The flow assembly 30 is conveniently located on a transport device and moved with the transport device to a destination. The flow assembly 30 has a unit space 34 to provide a receiving space during the flow of the flow assembly 30 with the transport device. The flow cell 10 can stay at a predetermined destination for a predetermined time, and the flow platform 91 is formed by connecting with other flow cells 10 to provide a badminton court for badminton. The cellular space 34 of each flow assembly 30 serves as a service space to provide services. The flow module 30 further includes a module frame 35 and a plurality of wall members 31, each of the wall members 31 being detachably mounted to the module frame 35 to surround and 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 end portions of the wall connection member 352 are fixedly connected to the corner connection members 352, respectively. Preferably, the set of wall assemblies 31 are mounted to the assembly frame 35 around the unit space 34 forming a right prism. Preferably, four corner connectors 351 and four wall connectors 352 are connected to form a mounting frame 353 to facilitate mounting of the wall member 31. It should be appreciated that the platform member 911 is removably mounted to the assembly frame 35. Specifically, the platform member 911 is removably 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 element 911 is connected to the wall connection 352 at the corner connectors 351, respectively. Preferably, at least one platform element 911 is removably mounted to the assembly frame 35 to facilitate forming the flow platform 91 by connecting the flow cell 10. That is, the flow assembly 30 includes at least one platform element 911 to facilitate forming the flow platform 91. It is worth mentioning that the platform member 911 may be fixed to the wall member 11. When two flow cells 10 are connected to each other, the module frames 35 of the flow modules 30 of each of the flow cells 10 are connected to each other to stably connect the two flow cells 10. The corner connector 351 has a position-limiting hole 3511 to facilitate the positioning of each flow cell 10, thereby facilitating the connection to form the flow platform 91 for badminton.

The flow cell 10 further includes a support adjusting means 20, and the support adjusting means 20 detachably supports the flow assembly 30 to maintain the stability of the flow assembly 30. During the flow of the flow cell 10, the support adjusting means 20 is received in the cell space 34 of the flow assembly 30 to facilitate the flow of the flow cell 10. The support adjusting means 20 further includes a set of support adjusting members 21, and the set of support adjusting members 21 are detachably mounted to the flow members 30, respectively, to adjustably support the flow members 30, thereby maintaining the stability of the flow members 30. It is worth mentioning that each of the support adjusting members 21 is separately adjusted according to the ground conditions to maintain the flow assembly 30 in a horizontal state, thereby facilitating the movement of the flow platform 91 formed by connecting the flow units 10. Each of the supporting-adjusting members 21 is detachably coupled to one of the wall members 31 of the flow assembly 30. Preferably, each of the supporting and regulating members 21 is coupled with the wall member 31 provided at the bottom of the flow assembly 30. The support adjustment assembly 20 further includes a movable support adjustment member 22, the movable support adjustment member 22 detachably supporting the flow assembly 30 to facilitate moving the flow assembly 30 to facilitate fixedly coupling each of the flow assemblies 30 to form the flow base 30. As shown in fig. 5.

As shown in fig. 2B-2C, the flow assembly 30 further includes a service assembly 32, and the service assembly 32 is disposed in the unit space 34 of the flow assembly 30 to provide the service. The service module 32 further includes a power supply device 321, and the power supply device 321 is fixedly disposed in the unit space 34 to provide power supply service. The power supply device 321 further includes a power interface 3211, and the power interface 3211 is electrically connected to an external power source, so as to supply power to the mobile badminton stadium by using the external power source. The power supply device 321 further includes an energy storage device 3212, and the energy storage device 3212 is connected to the power interface 3211 for storing external power. The energy supply device further comprises a group of solar panels 3213, and the group of solar panels 3213 are respectively electrically connected with the energy storage device 3212 to convert solar energy into electric energy, and then store the electric energy in the energy storage device 3212. The power supply 321 further includes a generator 3214, and the generator 3214 can provide electric power to meet the needs of the mobile gym. The generator 3214 is electrically connected to the energy storage device 3212, so that electric energy generated by the generator 3214 is stored in the energy storage device 3212. The energy storage device 3212 can immediately supply power to the mobile badminton stadium when there is a sudden power failure, thereby maintaining the mobile badminton stadium working properly. The flow unit 10 provided with the power supply means 321 is defined as a flow power supply unit 19. The service module 32 further includes a water treatment device 322, the water treatment device 322 being disposed in the flow space 34 to provide water services to the flow badminton stadium, such as drinking water supply and sewage treatment. The water treatment device 322 further comprises a water supply device 3221, wherein the water supply device 3221 is connectable to an external water source to supply drinking water to the mobile badminton stadium. The water treatment device 322 further comprises a sewage treatment device 3222, which is connected to an external sewage treatment system to treat and guide the generated sewage into the external sewage treatment system, thereby avoiding environmental pollution. The flow cell in which the water treatment apparatus 322 is provided is defined as a flow water treatment unit 18. The service assembly 32 further includes a display device 323, the display device 323 is disposed in the cell space 34 to provide display services. The flow cell 10 in which the display 323 is arranged is defined as flow display cell 17. The wall element 31 of the flow cell 10 of the display device is provided with an opening 311 for facilitating display. The service assembly 32 further includes a set of rest assemblies 324 for providing services in the cellular space 34. The flow cell 10 in which the resting assembly 324 is disposed is defined as a flow resting cell 16. It is worth mentioning that the flow cell 10 has the flow space 34, and the service component 32 can be customized as required to provide services by using the flow space 34. During flow, the service assembly 32 is received within the flow cell 10 to facilitate flow.

As shown in fig. 1, the flow cell further comprises a detection control device 40, the detection control device 40 is communicatively connected to the support and adjustment device 20, so as to control the support and adjustment device 20 to maintain the flow component 30 stable. The detection control means 40 further comprises a set of monitoring elements 41 and a control means 42. Each of the monitoring elements 41 is communicatively connected to each of the supporting and adjusting members 21, respectively, such that each of the supporting and adjusting members is communicatively connected to at least one of the monitoring elements 41, thereby facilitating the acquisition of the state of each of the supporting and adjusting members 41 and then the transmission thereof to the control device 42. The state of each support adjusting member 21 is analyzed by the control device 42, and then each support adjusting member 21 is adjusted to maintain the stability of the flow assembly 30. The detection control means 40 further comprises a positioning means. The positioning device 43 acquires the position of the flow cell 10. Preferably, the positioning means 43 acquires the real-time position of the flow cell 10. The positioning device 43 transmits the real-time position of the flow cell 10 to the control device 42 in order to manage the flow cell 10. The test control device 40 further includes a communication device 44, the communication device 44 being communicatively coupled to the control device 42 to facilitate the exchange of information with other of the flow cells 10 to work in conjunction therewith. That is, a plurality of the flow units 10 exchange information through the respective communication devices 44 so as to cooperate. The flow cell 10 receives a predetermined protocol via the communication device 44 and then transmits it to the control module 42. The control device 42 analyzes the predetermined scheme and obtains the position of the flow cell by the positioning device to obtain the expected arrival time of the flow cell 10 to the predetermined destination. The information and the preset arrival time of the flow unit 10 are then coordinated with other flow units receiving the preset schedule via the communication device 44 to obtain the preset stay position of the flow unit and the preset connection mode with other flow units after the destination is reached. In other words, the communication device 44 may analyze the preset scheme, obtain a preset destination, a predicted stopping time at the preset destination, a stopping position at the preset destination, and a preset state of the accommodating moving space 34. It is noted that the communication means 44 may employ communication means including, but not limited to, Wi-Fi, Li-Fi, satellite network, communication network, and the internet.

The flow cell 10 further includes a power supply device 50, and the power supply device 50 can provide power for the flow cell 10, so that the flow cell 10 can flow by itself. The power supply device 50 is connected to the detection control device 40. The detection control means 40 controls the power supply means 50 to supply power. Specifically, the control unit 42 of the detection control unit 40 controls the motion providing unit 50 to provide the motion. Preferably, if the power supply device 321 is disposed on the flow unit, the power supply device 321 is connected to the power supply device 50 to supply power to the power supply device 50, so as to move the power supply device 50. Preferably, the energy storage device 3212 of the energy supply device 321 supplies energy to the power supply device 50. The power supply means 50 is connected to the moving support adjusting member 22 to supply power to the moving support adjusting member 22. The flow cell 10 further includes a navigation device 60, the navigation device 50 communicatively coupled with the detection control device 40 to direct the flow of the flow cell 10 to a destination. That is, the flow cell 10 can self-flow to a destination by the power supply device 50 and the navigation device 60.

In the preferred embodiment, as shown in fig. 3, two flow units 10 are connected to form the flow base 90, and the flow base 90 is provided with the flow platform 91 for badminton. That is, the flow platform 91 includes two platform members 911 respectively disposed on two of the flow cells 10. Preferably, the platform element 911 is mounted to the mounting frame 35 of the flow assembly 30 of the flow cell 10. The two-flow unit 10 is fixedly connected such that the two platform members 911 are connected to form the flow platform 90 for badminton. It is noted that two platform components 911 are further defined as a first platform component 9111 and a second platform component 9112, respectively. That is, in the preferred embodiment, the flow platform 10 includes a first platform element 9111 and a second platform element 9112, the first and

second platform elements

9111, 9112 being connected to form the flow platform 91 for shuttlecock movement.

As shown in fig. 4A, in the preferred embodiment, the flow cell 10 includes two platform members 911, wherein one of the platform members 911 is mounted to the assembly frame 35 of the flow assembly 30, and the other platform member 911 is detachably fixed to the outer side of the assembly frame 35. Preferably, the platform element 911 is installed on the top of the assembly frame 35, and another platform element 911 and the platform element 911 are overlapped and disposed outside the top of the assembly frame 35. As shown in fig. 4B, another platform element 911 may be removed from the flow cell 10 and then supported by the supporting members 21 so as to be connected to and in the same horizontal plane as the platform element 911, thereby forming the flow platform 91 for badminton. The two flow units 10 are connected such that the other platform element 911 of the flow unit 10 is connected with the other platform element 911 of the other flow unit 10 to form the flow platform 91 for badminton. In addition, when the other platform element 911 of the flow unit 10 is moved away from the flow unit 10 and then supported by the supporting and adjusting members 21, the other platform element 911 of the flow unit 10 is connected with the platform element 911 of the flow unit 10 to form the flow platform 91 for badminton. It is worth mentioning that by adjusting each of the supporting and adjusting members 21, the surface of the other platform element 911 of the flow unit 10 is at the same level as the surface of the platform element 911 of the flow unit 10, so as to facilitate the badminton game. While the other platform 911 of the other flow cell 10 is moved away from the flow cell 10 and then supported by each of the supporting and adjusting members 21 so that the other platform 911 of the other flow cell 10 is connected with the platform 911 of the other flow cell 10 to form the flow platform 91 for badminton. Specifically, in one of the flow cells 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 on top of the assembly frame 35 of the flow assembly 30. In another flow cell 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 on top of the assembly frame 35 of the flow assembly 30. As shown in fig. 5, the flow platform 90 is formed by connecting two flow units 10, such that the second platform element 9112 of one of the flow units 10 is connected with the first platform 9111 of the other flow unit 10 for badminton. When the flow platform 90 is unable to meet the demand, the second platform element 9112 of one of the flow units 10 is moved away from the flow unit 10 and then supported by each of the supporting adjusters 22, so that the second platform element 11 is connected with the first platform element 9111 of the flow unit 10 to form the flow platform 91. The first platform element 9111 of another flow cell 10 is moved away from the flow cell 10 and then supported by each of the support adjusters 22 such that the first platform element 9111 is connected with the second platform element 9112 of another flow cell 10 to form another flow platform 91 for shuttlecock movement. It is worth mentioning that the first platform element 9111 and the second platform element 9112 are positioned at the same level by each of the supporting and adjusting members to facilitate the badminton game. It is to be noted that another platform element 911 of the flow cell 10 may also be placed at the bottom of the flow cell 10. That is, another stage member 911 is supported by the support adjusting means 21, and the other stage member 911 supports the flow member 30.

Another preferred embodiment of the mobile stadium of the invention is shown in fig. 5. In the preferred embodiment, the flow stadium is used as a badminton stadium. In order to make the flow platform easy to transport, the flow platform is divided into at least two platform elements. In this 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 cells 10 are connected to form the flow base 90, wherein each of the flow cells 10 has at least one of the platform elements 911. The destination to be set up for setting up the flow badminton stadium of the invention, and the number of flow units 10 required, are determined. In this embodiment, four flow cells 10 are connected to form the flow base 90, and each flow cell 10 includes at least one platform element 91. The platform elements 91 of the four flow cells 10 are connected to form the flow platform 90 for badminton. Four such flow cells 10 are selected as required for setting up the flow badminton stadium of the present invention. The mobile badminton stadium of the present invention needs to provide electric power and water, and the mobile unit 10 provided with the power supply device 321 and the mobile unit 10 provided with the water treatment device 322 are selected. That is, the flowing power supply unit 19 and the flowing water treatment unit 18 are selected to provide power supply service and water treatment service. Two more such flow cells 10 are selected. It is noted that the platform members 911 of selected four flow cells 10 can be connected to form the flow platform 91 for badminton. It is worth mentioning that the initial positions of four such flow cells 10 may be located at different places. One of the flow cells 10 receives flow badminton information via 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 information of the floating badminton stadium to obtain destination information. The control module 42 then obtains the real-time position of the flow cell 10 via the positioning device 43. The control module 42 transmits the destination information and the real-time location to the navigation device 60, and obtains a route to the destination or an estimated time of arrival. One of the flow units 10 transmits the current location, route and estimated time of arrival of one of the flow units 10 to the other three flow units 10 via the communication device 44 to coordinate a connection scheme. That is, four of the flow units 10 are coordinated at a destination stop position during the flow process according to the location of the destination, the current location of each of the flow units 10 and the time each of the flow units is expected to reach the destination, so that the flow unit 10 arriving earliest reaches the destination and stops at a preset position. And after the last flow cell 10 to reach the destination is parked to a predetermined position, four flow cells 10 are connected to form the flow base 90. The four flow units 10 respectively include the platform element 911, and after the four flow units 10 are connected to form the flow base 90, the platform elements 911 are connected to form the flow platform 91 for badminton. Fig. 6 shows the process of forming the flow platform with four flow cells. It is worth mentioning that the four flow units 10 comprise one flow energizing unit 19 and one flow water treatment unit 18.

The flow platform 91 is provided for the placement of a flow collection body 80, as shown in figure 7. That is, the flow platform 91 serves as the bottom wall of the flow collection body 80. The body 80 further comprises a librarian wall 82 and a cover 83. The library wall 82 is positioned on the flow platform 91 for supporting the top cover 83. Preferably, this librarian wall 82 is set up in the edge portion of this platform 91 that flows, and this librarian wall 82's the high requirement that carries out the badminton that accords with, and this flow librarian body 80 provides the space and is convenient for carry out the badminton. The Library wall 82 further comprises a set of connection supports 821 and a set of Library wall elements 822. The two ends of the wall element 822 are detachably connected to two connecting supports 821, respectively, and the connecting supports 821 are detachably connected to the two walls 822. In this manner, the library wall 82 is formed. Each of the connection supports 821 is detachably and fixedly provided to an edge portion of the flow platform 91. Preferably, each of the connection supports 821 is fixedly disposed at a corner 912 of the flow platform 91. Further, the connection support 81 is provided at the connection portion 913 of the two platform members 911 to facilitate the fixed connection of the hall wall members 821. The top cover 83 further includes a supporting frame 831 and at least one cover 832, wherein the cover 832 covers the supporting frame 831 to form the top cover 83. The support 831 further includes a set of support ends 8311. The set of supporting ends 8311 is respectively disposed on each of the connecting supporting devices 821 to be supported by each of the connecting supporting devices 821. It is worth mentioning that the connecting support 821 has an inflation channel 8211. An inflator 8212 is provided at the bottom of the connection support 821 to inflate the inflation passage. As shown in fig. 8. The support 831 may be formed by inflation. It is worth mentioning that the walls 82 of the whole flow library 80 and the roof 83 can be formed by inflating, as shown in fig. 9. It is worth mentioning that the entire fluid library 80 can be formed by filling it, as shown in fig. 13 and 14.

Fig. 10 is another preferred embodiment of the mobile venue of the present invention. In the preferred embodiment, the flow stadium functions as a flow badminton stadium. A set of flow cells 10 are flowed to the destination, respectively. During the flowing process, the flowing units 10 exchange information through the communication device of the detection control device 40 of each flowing unit 10 respectively to coordinate the scheme of forming the flowing badminton stadium. Each of the flow cells 10 is arranged according to a scheme for forming a flow badminton stadium, with each of the flow cells 10 at the location of the destination forming the flow base 90A. In this embodiment, the flow base 90A has a museum space 92A for receiving the flow platform 91A to provide badminton. Specifically, the flow base 90A includes at least two base sidewalls 93A, with a museum space 92A between the base sidewalls 93A for performing badminton activities. The base sidewall 93A further includes at least one flow cell 10. In the preferred embodiment, the base side wall 93A includes two flow cells 10, and the two flow cells 10 are connected to each other. It is worth mentioning that the wall members 31 at the side where the two flow cells 10 are connected are detached respectively to communicate the cell spaces 34 respectively provided in the two flow cells 10, thereby facilitating the service. Preferably, each mobile unit 10 detaches the platform element 911A of each mobile unit 10 and places each platform element 911A in the Librarian space 92A. The platform elements 911A are interconnected to form the flow platform 91A in the museum space 92A to facilitate badminton. Preferably, each of the platform members 911A is supported by each of the support adjustment devices 20. By coordinating with the communication device 44 of the detection control device 40 of each flow unit 10, the control device 42 of the detection control device 40 of each flow unit 10 adjusts the support adjustment device 20 of each flow unit 10 so that the surfaces of the platform elements 911A are at the same level, thereby facilitating badminton. It is worth mentioning that the flow platform 91 is provided with a flow collection structure 80A. The body of mobile museum 80A further comprises a museum wall 82A and a top cover 83A. This library wall 82A is connected with this mobile platform 91A, and this top cap 83A is supported by this library wall 82A to provide a library body space 92A around this mobile platform 91A and satisfy the requirement of carrying out the badminton activity. The Library wall 82A further comprises a set of connection supports 821A and a set of Library wall elements 822A. The side of the base sidewall 93A facing the flow platform 91A is defined as a connecting side 931A. The connecting supports 821A are disposed on the top of the two sidewalls of the base respectively. Specifically, the set of connecting supports 821A is disposed at intervals on top of the connecting side 931A of the base sidewall 93A. The bambin wall elements 822A are detachably arranged between the two connection supports 821A, so that the bambin wall elements 822A arranged above the base side wall 93A and the connection sides 931A form the side walls of the flow body 821. The top cover 83A further includes a supporting frame 831A and at least one cover 832A, and the cover 832A covers the supporting frame 831A to form the top cover 83A. The support 831A further includes a set of support ends 8311A. The set of supporting ends 8311 is respectively disposed on each of the connecting supporting devices 821A to be supported by each of the connecting supporting devices 821A. It is worth mentioning that the connecting support 821A has an inflation channel 8211A. An inflator 8212A is provided at the bottom of the connecting support 821A to inflate the inflation passage. The support 831A may be formed by inflation. It is worth mentioning that the two library wall elements 822A are detachably journalled in the wall connectors 352 of the flow modules 30 of the two flow units 10, respectively, to form one of the end walls of the flow library 80A. As shown in fig. 10.

It is worth mentioning that if the service provided by the flow base 90A cannot meet the demand, the flow base 90A can meet the demand by increasing the number of the flow cells 10. An add unit request is sent via the communication device 44 of the test control device 40 of one of the flow cells 10 of the flow base 90A. It is worth mentioning that the add unit request includes, among other things, the destination location, the number of flow units to be added and the type of service module 32, such as the power supply 321 or the water treatment 322, to be installed in the flow unit 10. When another of the flow cells 10 receives an add cell request via the communication means 44 of the test control means 40, the other of the flow cells 10 analyzes the add cell request via the control means 42 of the test control means 40. If another of the flow units 10 meets the add unit request, another of the flow units 10 issues a response request. The response request contains the type of service component 12 that another of the mobile units 10 includes, the current location of another of the mobile units 10, the expected time to reach the destination, etc. When the flow unit 10 that issued the add unit request receives the response request, the control means 42 of the test control means 40 of the flow unit 10 analyzes the response request to determine whether another flow unit 10 meets the demand. If yes, sending an acceptance message to another flow unit 10 so that another flow unit 10 receives the acceptance message and then flows to the position of the flow unit 10. If the other flow unit 10 is not in demand, a rejection message is sent to the other flow unit 10 to reject the request of the other flow unit 10. The control means 44 of the detection control means 40 of the flow cell 10 further judges whether or not the required number of the flow cells 10 is reached. If the number of flow units 10 that need to be increased has been reached, the flow unit 10 sends a stop increase unit request through the communication means 40 of the detection control means 40 to stop receiving response requests sent by other flow units 10. When the other flow unit 10 receives the stop adding unit request, the other flow unit 10 stops sending the response request to the flow unit 10. It is worth mentioning that when the flow unit 10 receives a plurality of response requests of the other flow units, the flow unit 10 with a short estimated arrival time is preferably selected according to the estimated arrival time. In the preferred embodiment, as shown in FIG. 11, the flow base 90A requires the addition of two flow cells 10. It is worth mentioning that the parking positions of the two flow units 10 are coordinated during the flow to the destination of the two flow units 10. After the two newly added flow units 10 reach their destination, they are parked in the coordinated parking positions, so that the two flow units 10 are fixedly connected to two of the flow units 10 of the flow base 90A. Two new flow cells 10 each include the platform element 911. The two platform members 911 are connected to the platform members 911 of two of the flow units 10 of the flow base 90A to form another flow platform 91A, thereby providing 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 the other flow platform 91A are at the same level, thereby facilitating the badminton game.

If the usage rate of the other flow platform 91A is decreased and no service is needed, the two newly added flow units 10 respectively send idle information through the communication device 44 of the detection control device 40 to receive requests. When the two newly added flow units 10 receive the reception information, the two newly added flow units 10 receive the respective support adjusting devices 20 into the respective unit spaces 34, respectively, so as to facilitate the flow. The newly added two of the flow units 10 are then flowed to another destination. It is worth mentioning that the destination to which the two newly added flow units 10 are flowed may not be the same.

Fig. 12 is another preferred embodiment of the mobile badminton stadium of the invention. A group of the flow cells 10 is flowed to a predetermined destination. The flow base 90B is formed by arranging the positions of the flow cells 10 according to the flow-badminton scenario formed by the coordinated set of flow cells 10 during flow. The flow base 90B has a museum space 92B for receiving the flow platform 90B to provide badminton. According to the needs of badminton, the space 90B of the library body is provided with at least one flow platform 91B for badminton. In this embodiment, the museum space 92B is provided to house two of the flow platforms 91B for badminton. This flow base 90B includes four base lateral walls 93B, and four both ends of this base lateral wall 93B connect gradually to surround and form this Librarian body space 92B. The base sidewall 93B further includes at least two layer assemblies 931B, wherein one of the layer assemblies 931B is fixedly disposed on another of the layer assemblies 931B in an overlapping manner to be supported by the other of the layer assemblies 931B. The layer assembly 931B further includes at least two flow cells 10, and the flow cells 10 are connected to each other. The adjacent wall members 31 of the two flow cells 10 are detached, respectively, so that the cell spaces 34 of the two flow cells 10, respectively, are communicated. It is worth mentioning that the two wall members 31 of the two flow units 10 of the two adjacent base side walls 93B are detached to communicate with the unit spaces 34 of the two flow units 10 of the two adjacent base side walls 931B, thereby forming one layer of channels 931B to penetrate the two adjacent base side walls 93B. It is worth mentioning that the service module 12 further comprises a stair member 125 for being disposed in the cell space 34 of the flow cell 10 so as to communicate with the adjacent tier assembly 931B.

In the preferred embodiment, the flow base 90B provides the museum space 92B for accommodating two flow platforms 91B for badminton. That is, the library space 92B allows for two badminton games to be played simultaneously. The platform elements 911 provided at the respective flow units 10 are detached from the respective flow units and then the respective platform elements 911 are moved to the Library space 92B. The platform elements 911 are then joined to form the flow platform 91B. It should be noted that each platform element 911 can be provided with the adjusting and supporting device 20 to adjust and support the adjusting and supporting device 20 of each platform element 911, so that the surface of each platform element 911 is at the same horizontal plane to facilitate badminton. The flow platform 91B can be provided with the flow library 80B. Each of the base side walls 93B serves as a collection wall 82A of the flow collection body 80B. The fluid library 80B further comprises a top cover 83B. The top cover 83B is supported by the base sidewall 93B. The top cover 83B further includes a support frame 831B and a cover 832B, the cover 832B covering the support frame 831B. The support 831B is supported by each of the base sidewalls 93B. It is worth mentioning that the wall element 31 of the flow element 30 of the flow cell 10 of the layer assembly 93B at the bottom of the base side wall 93B may be detached to form a channel 932B for access to and from the flow platform 91B.

Fig. 13 shows another preferred embodiment of the mobile badminton stadium of the invention. In the preferred embodiment, two of the flow cells 10 are joined to form the flow base 90C. The two flow units 10 receive a predetermined flow badminton scenario, and each flow unit 10 analyzes the predetermined flow badminton scenario by the control device 44 of the detection control device 40 to obtain the information of the expected destination. Then, each of the flow cells 10 communicates through the respective communication device 44, and an assembly plan at a destination is determined based on the real-time positions of the two flow cells 10. Each flow cell 10 is then flowed to the destination. When one of the flow cells 10 reaches the destination, it is guided to a predetermined stop point according to an assembly scheme after reaching the destination. Then, a set of the supporting members 221 are taken out from the unit space 34 and mounted to the adjusting device 21, respectively, for stably supporting the flow assembly 30. After another flow cell 10 is flowed to the predetermined purpose, it is guided to a predetermined staying place so as to be connected to the flow cell 10. Then, the set of supporting members 221 is taken out from the unit space 34 of another flow unit 10 and set in the adjusting device 21 to keep another flow unit 10 stable. Then the selected side of the wall member 31 of the flow member 30 of another flow cell 10 is moved with the selected side of the wall member 31 of the flow member 30 of the flow cell 10 to connect the two flow cells 10. Then, the selected wall member 31 of the flow member 30 of the flow unit 10 and the selected wall member 31 of the flow member 30 of another flow unit 10 are disassembled, so that the unit space 34 of another flow unit 10 is communicated with the unit space 34 of the flow unit 10, thereby forming a service space 34A. It is worth mentioning that the control device 42 of the detection control device 40 of the flow cell 10 cooperates with another flow cell 10 via the communication device 44. The wall assembly 31 of the flow unit 10 at the bottom of the flow assembly 30 and the wall assembly 31 of the other flow unit 10 at the bottom of the flow assembly 30 are at the same level for movement by adjusting the adjusting supports 221 of the flow unit 10 and the supporting adjusting supports 221 of the other flow unit 10, respectively. The two flow units 10 cooperate through respective detection and control means 20 to maintain the two bottom wall members 31 of the two flow assemblies 30 at the same level. It is worth mentioning that one of the wall elements 31 may be additionally detached to form an opening 314 for accessing the active space 34C. The activity space 34C formed by the two flow units 10 is available for activity. Two of the flow cells 10 are joined to form the flow base 90C.

It is worth mentioning that if the space provided by the flow base 90C cannot meet the demand, a request for adding the flow unit 10 can be issued by the communication device 44 of the inspection control device 40 of one of the flow units 10 to increase the space. A flow library 80C is added to the flow base 90C. The communication means 44 of the detection control means 40 of one of the flow units 10 requests the addition of two of the flow units 10. The two added flow units 10, upon receiving a request, communicate via their respective communication modules 44 to facilitate cooperative operation. Based on the positions of the two added flow cells 10, a new assembly scheme is determined. After one of the added flow cells 10 has flowed to the destination, the flow platform 91 of the flow assembly 30 of the flow cell 10 is positioned according to the determined assembly scheme. Next, the two wall elements 31 of the two flow elements 30 of the two flow cells 10 that are connected in advance are detached, so that the cell space 34 of the newly added flow cell 10 is communicated with the cell space 34 of the other newly added flow cell 10 to form a newly added active space 34C. Two new flow cells 10 are connected to form the flow collection chamber 80C. The two wall members 31 selected from the two newly added flow cells 10 are removed to connect the cell spaces 34 of the two newly added flow cells 10, respectively, to meet the requirement. It should be noted that, before the flow unit 10 is disposed on the flow base 90, the predetermined wall element 31 of the flow component 30 of the flow unit 10 can be removed, and the predetermined wall element 31 of the flow component 30 of another flow unit 10 can be removed, so that after two new flow units 10 are disposed on the flow base 90 and connected according to a predetermined scheme, the unit space 34 of the flow unit 10 is communicated with the unit space 34 of another flow unit 10 to meet the requirement. The two detection control devices 40 of the two newly added flow units 10 respectively control the corresponding wall elements 31 to adjust so as to lift the corresponding wall elements 31, so that the height of the newly added activity space 34C meets the requirement of badminton. In addition, a fixing device (not shown) may be added between the flow cells 10 to fixedly connect the two flow cells 10.

Fig. 14 and 15 show that the laterally and/or top-arranged wall elements 31 of the flow cell 10 can be inflatable devices. In other words, the inflator forms the sides of the flow assembly 30 of the flow cell 10 disposed at the sides and top

Fig. 16 shows another preferred embodiment of the mobile venue of the present invention. The flow arena includes a flow base 90D having a museum space 92D for badminton activity. This flow badminton stadium further includes a top cap 83D, and this top cap 83D is supported by this flow base 90D to cover this library body space 92D, thereby make and reduce the influence of other factors outside this badminton stadium to carrying out the badminton, like weather factor. The flow base 90D further comprises at least two base side walls 93D forming the museum space 92D between the two base side walls 93D for activities, preferably badminton. The top cover 83D is supported by the two base sidewalls 93D, respectively. Preferably, the flow base 90D includes four base sidewalls 93D, and the top cover 83D is supported by the four base sidewalls 93D. Four of the base side walls 93 surround to form the library space 92D for activities. 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 assemblies 931D forms the base sidewall 93D in an overlying 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 connection means allow a secure connection of the layer assemblies 931D. Preferably, the base sidewall 93D includes three of the layer assemblies 931D. That is, three of the layer assembly 931D form the base sidewall 93D in an overlying manner. To facilitate flow, the layer assembly 931D further includes at least one flow cell 10D. In the preferred embodiment, two of the flow cells 10D are coupled to each other at one of their ends to form the layer assembly 931D. The flow cell 10D facilitates flow, that is, the flow cell 10D facilitates disassembly, assembly, and transportation. That is, the flow venue may be disassembled into a set of flow cells 10D. The flow venue is moved to a predetermined destination by moving the set of flow units 10D, and then the set of flow units 10D is assembled into the flow venue. It is worth mentioning that the mobile badminton stadium may provide services corresponding to a set of service components 32D through the set of service components 32D. Preferably, the service component 32D is disposed on the flow cell 10D to facilitate disassembly, assembly, and transportation as a unit with the flow cell 10D. It is worth mentioning that if the mobile venue cannot meet the service requirements, the mobile unit 10D with the service component 32D can be added to meet the service requirements. If some of the flow cells 10D in the flow venue are in low usage, the flow cells 10D can be removed from the flow venue. And then flows to a flow venue where the flow cell 10D needs to be added to improve the utilization of the flow cell 10D.

As shown in fig. 25, the flow cell 10D includes the flow element 30D. The flow module 30D further includes a module frame 35D and a plurality of wall members 31D, the wall members 31D being detachably connected to the module frame 35D to form a unit space 34D. It should be noted that two connected flow cells 10D are connected by detaching two adjacent wall members 31D of the two flow cells 10D, respectively, so that two cell spaces 34D of the two flow cells 10D are communicated with each other. By communicating the adjacent two unit spaces 34D of the adjacent two flow modules 30D so that the adjacent two-layer modules 931D communicate, the service is facilitated. By communicating the adjacent two unit spaces 34D of the adjacent two flow assemblies 30D, more space is provided for the service assembly 32D, thereby providing better service. Preferably, the service assembly 32D is provided in a single flow assembly 30D to facilitate disassembly, assembly and transport with the flow cell 10D to provide flow efficiency of the flow badminton stadium. It is worth mentioning that two of the wall elements 31D opposite to one of the flow cells 10D disposed at the bottom of the flow venue are disassembled to form a cell passage 341D through which to enter the venue.

As shown in fig. 24, the flow assembly 30D further includes at least one service assembly 32D, and the service assembly 32D is disposed in the cell space 34D of the flow assembly 30D, so that the flow unit 34D provides services of the service assembly 32D. The service assembly 32D further includes an energy supply device 321D, the energy supply device 321D can be fixedly disposed in the cell space 34D, so that the mobile unit 10D provided with the energy supply device 321D provides energy supply service. The powering service is to provide electric energy to the mobile badminton stadium formed by the assembly of the set of unit spaces 34D. The power supply device 321D further includes a power interface 3211D for connecting an external power source, so as to supply power to the mobile badminton stadium by using the external power source. The energy supply device 321D further includes an energy storage device 3212D, and the energy storage device 3212D is electrically connected to the power interface 3211D to store electric energy. The energy storage device 3212D may be used as a backup power source to power the mobile badminton stadium when an external power source ceases to power the mobile badminton stadium. The energy supply device 321D further includes a set of solar energy acquisition devices 3213D, and the set of solar energy acquisition devices 3213D is electrically connected to the energy storage device 3212D. The group of solar energy acquisition devices 3213D acquire solar energy, and then convert the solar energy into electric energy to be stored in the energy storage device 3212D. Preferably, the set of solar energy harvesting devices 3213D is disposed outside the wall element 31D to facilitate collection of solar energy. The power supply device 321D further includes a generator 3214D, and the generator 3214D is electrically connected to the energy storage device 3212D to store the generated electric energy in the energy storage device 3212D. The generator 3214D may provide power directly to the mobile badminton stadium. When the external power source ceases to provide power to the mobile badminton stadium, the generator 3214D provides power to the mobile badminton stadium. When the external power source resumes supplying power to the mobile badminton stadium, the generator 3214D stops supplying power to the mobile badminton stadium. When the external power source and the generator 3214D simultaneously stop providing power to the mobile badminton stadium, the energy storage device 3212D provides power to the mobile badminton stadium. The service assembly 32D further includes a water treatment device 322D, the water treatment device 322 being disposed in the unit space 34D of the flow assembly 30D for providing water treatment services to the flow badminton stadium, such as providing drinking water, purifying water for recycling, and treating sewage. The water treatment device 322D may be connected to an external water source to provide a water source for the mobile badminton stadium. The water treatment device 322D may be connected to an external sewage treatment system to treat the sewage treated in the mobile badminton stadium and then discharge the sewage to the external sewage treatment system, thereby preventing pollution of the environment. The water treatment device 322D further comprises a water supply device 3221D, the water supply device 3221D is connected to the external water source to supply domestic water to the mobile badminton stadium. Further, the water supply device 3221D processes an external water source to supply drinking water. The water treatment device 322D further comprises a sewage treatment device 3222D, wherein the sewage treatment device 3222D is connected with an external sewage treatment system to treat and guide the generated sewage into the external sewage treatment system, so as to avoid environmental pollution. The water treatment device 322D further comprises a water purification device 3223D, and the water purification device 3223D can be used for purifying water sources so as to be recycled. The water purification means 3223D includes at least two fixed connection portions 32231D. Wherein one of the fixing connection portions 32231D guides water into the water purification apparatus 3223D to perform water purification. The other of the fixed connection portions 32231D guides the purified water to be discharged out of the water purification apparatus 3223D. The service assembly 32D further includes a set of presentation devices 323D, the presentation devices 323D being disposed in the unit space 34D of the flow assembly 30D to provide presentation services. The wall element 31D of the flow cell 10D provided with the display device 34D has an opening 311D for facilitating display. The service component 32D further includes a set of rest components 324D for providing services in the cellular space 34. The service assembly 32D further includes a temperature adjustment assembly 325D to adjust the temperature of the mobile venue. The temperature adjustment assembly 325D is disposed within the unit space 34D of the flow assembly 32D to adjust the temperature within the flow venue. It is worth mentioning that the temperature adjustment assembly 325D may be used to adjust the quality of the air to maintain fresh air in the venue. It is noted that the flow cell 10D has the cell space 34D that can be customized to the service component 32D as needed to provide services using the cell space 34D. If a dressing service is to be provided, a dressing service component 326D is customized and then the dressing service component 326D is placed in the cell space 34D of the flow cell 30D of the flow cell 10D such that the flow cell 10D provides the dressing service. That is, the dressing room service can be provided in the flow space 34D by the dressing service component 326D. If a toilet is to be provided, a sanitary component 327D is customized and the sanitary service component 326D is then positioned in the unit space 34D of the flow component 30D to provide sanitary service. If cooking services are to be provided, a cooking assembly 328D may be customized and then the cooking assembly 328D may be placed in the unit space to provide cooking services. It is worth mentioning that at least one service component 32D may be provided in the cell space 34D of the flow component 32D of the flow cell 10D. That is, a plurality of service modules 32D may be provided in the unit space 34D which the flow module 32D has, as necessary. Preferably, one of the service components 34D is disposed solely within the cell space 34D of the flow component 32D of one of the flow cells 10D. The flow unit 10D provided with the power supply means 321D is defined as a flow power supply unit 19D. The flow cell 10D in which the water treatment unit 322D is provided is defined as a flowing water treatment unit 18D. The flow cell 10D in which the display device 323D is disposed is defined as a flow display cell 17D. The flow cell 10D in which the resting assembly 324D is disposed is defined as a flow resting cell 16D. The flow unit in which the temperature regulation assembly 325D is provided is defined as a flow temperature regulation unit 15D. The flow cell 10D in which the dressing room assembly 326D is disposed is defined as a flow dressing room unit 14D. The flow cell 10D in which the toilet component 327D is disposed is defined as a flow toilet cell 13D. It is noted that at least one service element 32D may be disposed in the flow cell 10D such that the flow cell 10D serves the flow badminton stadium. Preferably, the mobile venue comprises at least one mobile power supply unit 19D, i.e. the mobile venue comprises at least one mobile unit 10D provided with the power supply device 321D. The mobile venue includes at least one mobile water treatment unit 322D, i.e., the mobile venue further includes a mobile unit 10D having the water treatment device 322D.

The top cover 83D further includes a support 831D and a cover 832D, the cover 832D covering the support 831D, the support 831D being supported by the base sidewalls 93D. Preferably, the cover 832D is made of a soft waterproof material so as to be received into the unit space 34D of the flow element 30D. It is noted that the support frame 831D can also be received in the cell space 34D of the flow element 30D and moved to a destination along with the flow element 10D. It is worth mentioning that the first-mentioned type of the coating,

fig. 23 shows another alternative embodiment of the cap. The top cover 83E further comprises at least one supporting device 831E and at least one covering 832E, the group of supporting devices 831E are disposed at intervals in the library space 92D, and preferably, the supporting device 831E is disposed in the gap between two badminton fields. The set of covers 832E is respectively fixed between the two supporting devices 831E for covering the Library space 92D. The supporting device 831E further includes a main supporting member 8311E, at least two sub-supporting members 8312E and at least two connecting members 8313E, the two sub-supporting members 8312E are respectively disposed outside the two wall assemblies 93D, and the main supporting member 8311E is disposed in the space of the living room. Preferably, the badminton court is arranged in the gap between the two badminton court. The connecting member 8313E connects the main support member 8311E and the sub support member 8312E. The cover 832E is fixedly connected to the connecting member to be fixed between the two supporting devices 831E. It is worth mentioning that one type of the flow cell 10D can be customized such that the length of the flow cell 10D is greater than that of the two opposing wall assemblies 93D to be supported by the two wall assemblies, respectively, to form the top cover. It is worth mentioning that the top cover may be of a tensioned membrane construction, or other construction.

This flow badminton stadium further includes a flow platform 91D, and this flow platform 91D is set up in the bottom of this library body space 92D to supply to carry out the badminton. It is worth mentioning that at least one badminton court is arranged on the flow platform 91D. In the preferred embodiment, the flow platform 91D is provided with three badminton fields. The flow platform 91D further includes a set of platform elements 911D. Each platform element 911D defines a portion of a badminton court. The stage elements 911D may be respectively disposed on the flow units 10D to flow with the flow units 10D to destinations. For example, the platform component 911D is placed in the cell space 34D of the flow assembly 30D of the flow cell 10D. It is worth mentioning that the platform member 911D may be detachably provided as the wall member 31D to be mounted on the assembly frame 35D, thereby improving the flow efficiency.

The flow cell 10D further includes a support and adjustment device 20D, the support and adjustment device 20D detachably supporting the flow element 30D to maintain the stability of the flow element 30D, the support and adjustment device 20D being receivable in the cell space 34D of the flow element 30D. The support adjustment device 20D further includes a set of support adjustment members 21D, and the set of support adjustment members 21D are detachably mounted to the flow assembly 30D, respectively, to adjustably support the flow assembly 30D, thereby maintaining the stability of the flow assembly 30D. It is worth mentioning that the supporting adjustment member 21D can be installed at each of the platform members 911D to stably support each of the platform members 911D. It should be noted that each of the supporting and adjusting members 21D can be adjusted to make each of the platform members 911D in the same horizontal plane, so that the flow platform 91D formed by assembling each of the platform members 911D is convenient for badminton.

It is worth mentioning that the flow cell 10D can be customized to various specifications in order to facilitate flow. In the preferred embodiment, the flow cell 10D includes two specifications, a first flow cell 101D and a second flow cell 102D. Preferably, the type of the first flow unit 101D is a 20-foot container size, and the type of the second flow unit 102D is a 40-foot container size. The advantage of having the type of the first flow unit 101D as the size of the first container and the type of the second flow unit 102D as the size of the second container is that when the next destination is determined, the service provided by the floating badminton stadium at that destination is further determined. The mobile badminton stadium is then disassembled. The flow badminton stadium is disassembled and arranged into a set of flow cells 10D to facilitate flow. The set of flow cells 10D is flowed to the next destination where the set of flow cells 10D is then assembled to form the flow badminton stadium. It is worth mentioning that after the mobile badminton stadium is disassembled and arranged as a group of mobile units 10D, the group of mobile units 10D provided with the corresponding service components 32D is moved to the destination according to the services required by the mobile badminton stadium at the next destination. At the same time, a group of containers is prepared in advance at the destination, and is combined with the group of mobile units 10D provided with the corresponding service module 32D to form another mobile badminton stadium. That is, the mobile badminton stadium is disassembled, and the set of mobile units 10D after being assembled can be moved to different destinations, respectively, according to the needs. The set of flow cells 10D may be assembled in conjunction with a container to form the flow badminton stadium. It is worth mentioning that the flow shuttlecock stadium with multiple shuttlecock fields can be assembled according to the number of flow assemblies 10D. Preferably, the first container size is a 20 foot container. The second container format is a 40 foot container. It is worth mentioning that the service component 32D is intended to be mounted to a container.

The flow cell 10D further includes a detection control device 40D, the detection control device 40D communicatively connected to the support adjustment device 20D to control the support adjustment device 20D to maintain stability. The detection control device 40D further includes a group of monitoring elements 41D and a control device 42D. Each of the monitoring elements 41D is communicatively connected to each of the supporting and adjusting members 21D, respectively, such that each of the supporting and adjusting members 21D is communicatively connected to at least one of the monitoring elements 41D, thereby facilitating acquisition of the state of each of the supporting and adjusting members 21D, and then transmitted to the control device 42D. The state of each support adjuster 21D is analyzed by the control device 42, and then each support adjuster 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 cell 10D. Preferably, the positioning device 43D acquires the real-time position of the flow cell 10D. The positioning device 43D transmits the real-time location of the flow cell 10D to the control device 42D to facilitate management of the flow cell 10D. The test control device 40D further includes a communication device 44D, the communication device 44D communicatively coupling the control device 42D to facilitate the exchange of information with other of the flow cells 10D to work in tandem. That is, a plurality of the flow units 10D exchange information through the respective communication devices 44D so as to cooperate. The flow cell 10D receives a predetermined protocol via the communication device 44D and then transmits it to the control module 42D. The control device 42D analyzes the predetermined scheme and obtains the position of the flow cell 10D through the positioning device 43D to obtain the estimated arrival time of the flow cell 10D at the predetermined destination. The information and the predetermined arrival time of the flow cell 10D are then coordinated with other flow cells receiving the predetermined plan via the communication device 44D to obtain the predetermined stop location of the flow cell and the predetermined assembly manner with other flow cells 10D after the destination is reached. In other words, the communication device 44D can analyze the preset scheme, obtain the preset destination, the expected stay time at the preset destination, the position where the stay is at the preset destination, and the state of the accommodating space of the preset destination. It is noted that the communication means 44D may be implemented by any communication means including, but not limited to, Wi-Fi, Li-Fi, satellite network, communication network, and the Internet.

The set of the flow cells 10D is flowed to a preset destination. During flow, the set of flow cells 10D may be coordinated to arrive at a solution for forming the flow badminton stadium. When the set of flow cells 10D reaches the destination, assembly occurs according to the coordinated scheme. For example, to assemble the flow badminton stadium as shown in FIG. 18, the bottom components 931D are assembled. In the preferred embodiment, the layer assembly 931D includes two of the flow cells 10D. Each of the flow cells 10D, which is required to be assembled with each of the layer assemblies 931D at the bottom, is guided to a predetermined assembly area. Two of the flow cells 10D are connected to form the layer assembly 931D. After the assembly of each of the layer assemblies 931D at the bottom is completed, each of the layer assemblies 931D at the middle is assembled. The flow units 10D in the middle are assembled on the bottom components 931D, respectively, to be supported by the bottom components 931D. Connecting the two flow cells 10D forms the layer assembly 931D disposed in the middle. The assembly of the top layers of assemblies 931D is finally completed. Each of the flow cells 10 is placed on the middle layer assembly 931D, and supported by the middle layer assembly 931D. Two of the flow cells 10 are then connected 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 supporting frame 831D of the top cover 83D is placed on the top layer assembly 931D such that the supporting frame 831D of the top cover 83D is supported by each top layer assembly 931D. The cover 832D is then placed over the support 831D to form the top cover 83D. It is noted that the service component 32D may be disposed in each of the flow cells 10D prior to assembly, or may be disposed in each of the flow cells 10D after assembly.

Fig. 18 shows another preferred embodiment of the mobile venue of the present invention. In the preferred embodiment, the mobile stadium is a mobile natatorium having at least one swimming pool 70D. It is worth mentioning that in the preferred embodiment shown in fig. 16, only a waterproof device 71D is added to convert the mobile stadium from a mobile badminton stadium to a mobile swimming stadium. The watertight fittings 71D are arranged at the bottom of the library body space 92D and are mounted inside the bottom of each of the base side walls 93D to form a swimming pool 70D at the bottom of the library body space 92D. The waterproof device 71D is further provided with at least two flow guide ports 711D for guiding water flow. Preferably, the guiding opening 711D is connected with the fixing connection portion 32231D (not shown in the drawings) of the water purification device 3223D to be fixed by the fixing connection portion 32231D (not shown in the drawings). The water in the water-proof device 71D enters one of the fixing connection portions 32231D through one of the guiding openings 711D, and then enters the water purification device 3223D for purification treatment. The purified water is then guided back into the waterproof device 71D through another fixing connection portion 32231D (not shown in the drawings) and the guide port 711D, thereby ensuring the quality of the water. The waterproof device 71D can be arranged as desired to form a desired swimming pool 70D. Preferably, each waterproof device 71D is disposed corresponding to each swimming pool 70D. The depth of the pool can depend on the height at which the flashing device 70D is positioned on the base side wall 93D. In the preferred embodiment, the height of the waterproof device 70D preferably reaches the middle of the layer assembly 931D. Preferably, the waterproof device 70D is made of a soft waterproof material so as to be received in the unit space 34D, thereby facilitating the flow. It is worth mentioning that at least one of the flow cells 10D is arranged in a part of the bottom of the formed swimming pool to form different water depth zones in the swimming pool.

As shown in fig. 19 and 20, it is worth mentioning that a plurality of such flow cells 10D may be provided to divide the swimming pool into at least two zones to provide different services in different zones. First, the boundaries of the divided areas are determined in the swimming pool. A number of the flow cells 10D are then arranged in a stack along the boundary to separate the water on either side of the boundary to form at least two zones. Preferably, several of the flow cells 10D are stacked to the water depth of the swimming pool 70D. The flow cell 10D having the water treatment device 322D is provided to treat the water in the two regions to provide different services. Such as by providing a hot water basin and a cold water basin, respectively, via water treatment device 322D. As shown in fig. 19. Preferably, the waterproof means 71D is provided on both sides of a partition wall 72D formed by each of the flow cells 10D for partitioning the regions, respectively, so as to prevent water of the two regions from passing through the partition wall 72D. Preferably, a plurality of water treatment units 322D are disposed at a plurality of the flow units 10D at the bottom of the floating swimming pool, and when an accident such as drowning occurs in the swimming pool, two fixed connection portions 32231D (not shown) of the purifying device 3223D are both configured to guide the water flow to the purifying device 3223D, and the purifying device 3223D stops purifying the water, but discharges the water out of the swimming pool, so as to save the drowned person. Since the plurality of purification devices 3223D are provided, drainage efficiency is improved, so that efficiency of rescuing the person is improved. It is worth mentioning that during the setting from the mobile badminton stadium to the mobile natatorium, the services provided by the mobile badminton stadium through the service components, such as power supply, water treatment, changing rooms, toilets, restrooms, etc., are retained, thereby continuing to provide services to the mobile natatorium.

It is worth mentioning that if the swimming pool 70D of the mobile natatorium cannot meet the requirements, the mobile natatorium can be disassembled and then reassembled to form an outdoor swimming pool, thereby increasing the area of the swimming pool to meet the requirements. An area of the swimming pool can be formed, as shown in fig. 21. Or to form a multi-zone swimming pool, as shown in figure 22. If the mobile natatorium needs to be moved to another destination, the mobile natatorium, like the mobile natatorium, is disassembled and then arranged into individual mobile units 10D. The flow is performed in units of flow cells 10D. Flow to another destination and then assemble.

Fig. 26 and 27 show another preferred embodiment of the mobile venue of the present invention. The mobile venue is a mobile venue. A performance platform 73D is provided in the library space 92D of the mobile badminton stadium. The performance platform 73D includes at least one flow cell 10D. That is, the flow cell 10 is assembled to form the performance platform 73D by placing the flow cell in the museum space 92D. Preferably, several of the flow units 10 are connected side by side at the bottom of the library volume 92D to form the performance platform 73D. It is worth mentioning that, in the performance platform 73D, the two adjacent wall elements 31D of the two flow assemblies 30D of the two connected flow units 10D are respectively detached to communicate the unit spaces 34D of the flow units 10D, thereby forming a background space 731D. The position of the performance platform 731 is adjustable as required for the performance. Such as at one end of the bottom of the library body space 92D or at the middle of the bottom of the library body space 92D. It is worth mentioning that the performance platform 73D is arranged in the middle of the bottom of the library space 92D and can be used as a match platform for fighting sports. Such as boxing, taekwondo, etc.

It is noted that the flow venue may include a plurality of flow cells 10D, and that the plurality of flow cells 10D may be configured as desired to accommodate different uses, such as adding flow cells 10, or reassembling flow cells 10. Thereby enabling the mobile badminton stadium to be converted into a mobile swimming stadium or mobile performance stadium. The mobile natatorium and the mobile show can be converted with each other.

It should be noted that the group of mobile units 10D in the same mobile venue can be moved to different destinations to form different mobile venues with other mobile units 10D. For example, the mobile stadium acts as the mobile badminton stadium. The mobile venue receives requests for two destinations, one for the establishment of a mobile natatorium and the other for the establishment of a mobile stadium. The mobile venue cannot satisfy the requests of both destinations simultaneously. However, if the size of each mobile unit 10D of the mobile venue is consistent with the size of the container, each mobile unit 10 of the mobile venue can be cooperatively assembled with the container to form the mobile venue. Preferably, the mobile unit 10D is a container. Therefore, the mobile venue can be disassembled and arranged into the set of mobile units 10D according to the needs of the destination. The set of flow cells 10D is then split into two portions, one portion being flowed to a destination requiring a flow natatorium, and the other portion being flowed to a destination requiring the flow natatorium. It should be noted that when dividing the group of flow cells 10D into different sections, since one of the destinations requires a flow natatorium, more flow water treatment units 18D may be assigned to the group. While allocating the number of power supply units 19D according to the size of the venue to be set up. And then the number of the service units is set according to the required service distribution. Each of the flow cells 10D is transported to a respective destination by a transport vehicle. After each flow cell 10D reaches the destination, the cooperative assembly with the container is started.

As shown in fig. 28, the flow arena includes a flow base 90E, the flow base 90E having a museum space 92E. Preferably, the library space 92E provides for badminton activity. The flow base 90E further includes at least two base sidewalls 93E, and the two base sidewalls 93E form the museum space 92E therebetween for performing activities, preferably badminton. Preferably, the flow base 90E includes four of the base side walls 93E, the four base side walls 93E are disposed around to form the library body space 92D for activities. 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 assemblies 931E disposed in the inner portion and the layer assemblies 931E disposed in the outer portion. That is, three of the layer assemblies 931E are connected in parallel to form a viewing portion 9311E. Preferably, there are three of the layer assemblies 931E, which are the three flow cells 10D having different heights. There is another alternative to the base sidewall 93E. The base sidewall 93E has two layers of components 931E, wherein one layer of components 931E is disposed inside and the other layer of components is disposed outside and coupled to the layer of components 931E disposed inside. It is worth mentioning that the outer layer assembly 931E comprises a larger number of flow cells 10D than the inner layer assembly 931E comprises flow cells 10D. Preferably, the outer layer assembly 931E includes twice the number of flow cells 10D as the inner layer assembly 931E includes the flow cells 10D. The outer layer assembly 931E has a multi-layer structure, in other words, the flow cells 10D form the outer layer assembly 931D in an overlapping manner. Thereby forming the base sidewall 93E of a stepped structure.

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

step 1001: the flow cell 10D required to establish the flow venue is determined.

Step 1002: each of the mobile units 10D participating in the assembly of the mobile venue is moved to a building destination.

Step 1003: each of the flow cells 10D is assembled to establish the flow venue.

Step 1001 further includes the steps of:

step 10011: the type of the mobile venue is determined. E.g. to determine whether the established fimbriae are fimbriae or natatories. Further, it is also necessary to determine whether the type of the flow venue needs to be changed. Such as the mobile badminton stadium to the mobile natatorium.

Step 10012: and determining the establishment mode of the mobile venue. It is determined whether the flow venue is assembled entirely using flow cells 10D or a mixture of flow cells 10D and containers.

Step 10013: the flow cell 10D required to establish the flow venue is determined. First, the type of flow unit needed to set up the service component 32D to establish the flow unit 10D is determined. For example, the flowing energy supply unit 19D of the energy supply device 321D of the service module 32D is disposed on the flowing unit 10D, or the flowing water treatment unit 18D of the water treatment device 322D of the service module 32D is disposed on the flowing unit 10D, or the flowing display unit 17D is disposed on the flowing unit 10D. Then, the number of the flow cells 10D required for each type is further determined. Next, the starting positions of the mobile units 10D participating in the establishment of the mobile venue are determined, and the starting positions of each of the mobile units 10D having the service component 32D installed therein are determined. It should be noted that the flow unit 10D is determined to include at least one flow energizing unit 19D for providing electrical energy to the flow venue. The flow cell 10D is further defined to include at least one flow water treatment unit 18D to provide water treatment services to the flow venue. It is worth mentioning that the flow units 10D participating in the construction of the flow venue do not necessarily start to flow at the same starting position. That is, the flow unit 10D of the flow venue can also be used to assemble another flow venue.

It should be noted that, before step 1002, a step of: the flow unit 10D is removed from another flow venue. The flow cell 10D is then assembled into a state convenient for transportation.

Step 1003 further includes the steps of:

step 10031: determining the assembly mode of the mobile stadium. The assembling mode comprises at least two types: one is to assemble according to the number of layers of the flow venue, that is, the bottommost layer of the flow venue is mounted to the top layer, one layer of the flow venue comprising 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 sidewalls 93D is assembled first, and the other base sidewall 93D is assembled until the assembly is completed. The manner in which each of the layer assemblies 931D are assembled is further determined. The layer assembly 931D includes at least the flow cell 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 the type of the service unit 32D for each of the flow units 10D. It is worth mentioning that in the flow venue, at least one layer of components 931D comprises the flow cell 10D provided with the energizing arrangement 321D. That is, in the flow venue, at least one tier of assemblies 321D includes the flow energizing unit 19D. In the flow arena, at least one layer of assemblies 931D includes the flow cell 10D in which the water treatment device 321D is disposed. That is, in the mobile venue, at least one layer of modules 321D includes the mobile water treatment unit 18D.

Step 10032: forming the mobile venue. The corresponding flow units 10D are selected for assembly in the determined assembly manner of step 10031 to form the layer assembly 931D. It should be noted that if the number of the layers of the flow venue is determined in step 10031, the layer assemblies 931D of the bottom layer of the flow venue are formed first, and then the layer assemblies 931D are assembled to form the bottom layer of the flow venue. The intermediate layer of the layer assemblies 931D are then assembled, and the layer assemblies 931D are then assembled to form the intermediate layer of the flow venue. Finally, the layer assemblies 931D of the top layer of the flow venue are assembled. The layers of the assembly 931D are then formed into the top layer of the flow field 931D. The top cover 83D is installed recently. The supporting frame 831D is installed first, and then the cover 832D covers the supporting frame 831D to form the top cover 83D. If the assembly method of the base sidewall 93D is selected in step 10031. The order of assembly of the base side walls 93D is first determined. One of the base sidewalls 93D is then selected for assembly. First, the layer assembly 931D forms the bottom layer of the base sidewall 93D. Second, the layer assembly 931D forms a middle layer of the base sidewall 93D. The middle layer assembly 931D is then disposed over the bottom layer assembly 931D and supported by the bottom layer assembly 931D. Third, the layer element 931D of the top layer of the base sidewall 93D is formed. The layer assembly 931D of the top layer is then disposed over and supported by the layer assembly 931D of the middle layer. The base side wall 93D is assembled. The remaining base side wall 93D is then assembled according to the manner in which the base side wall 93D is assembled. After the assembly of each of the base side walls 93D is completed, the top cover 83D is assembled. First, the supporting frame 831D is disposed on the top layer of each of the base sidewalls 93D to be supported by the top layer of each of the base sidewalls. The cover 832D is then placed on the support 831D. Thereby forming the mobile gym.

Step 1003 is followed by step 1004: changing the use of the mobile venue. Changing the use of visiting mobile venues includes two ways, one of which is to add devices. Only a waterproof device 71D is needed to be added to change the mobile badminton stadium to the mobile natatorium. The waterproof device is arranged at the bottom of the mobile badminton stadium, so that the mobile badminton stadium is converted into the mobile natatorium. Another approach is to change the structure of the flow arena. For example, as shown in fig. 17, a mobile natatorium is disassembled into a plurality of the flow cells 10D, and then the plurality of the flow cells 10D are assembled to form 3 swimming pools. The area of each of the three swimming pools is consistent with that of the swimming pool of the original flowing swimming pool. Or a plurality of the flow cells 10D are assembled to form a swimming pool.

Fig. 30, 31 and 32 show a perspective view of a floating venue according to the present invention, which is preferably used for sports and various event activities, such as sports stadiums for various sports such as badminton, table tennis, billiards, volleyball, tennis, basketball, etc., stages, party halls, music halls, event halls, exhibition halls, etc.

Specifically, the flow stadium includes a first forming wall 100G, at least one of the first forming walls 100G providing or enclosing at least one motion platform 300G in a closed or semi-closed or fully open configuration for use as a badminton stadium. In other words, the configuration of the motion platform 300G is determined by the first forming wall 100G, wherein the configuration of the motion platform 300G includes the size and the configuration of the motion platform 300G, and the form of the motion platform 300G.

Further, the first forming wall 100G further includes at least two sub-wall units 10G, and each of the sub-wall units 10G is detachably arranged and combined to form the first forming wall 100G, that is, the appearance of the first forming wall 100G is determined by the sub-wall units 10G, that is, the sub-wall units 10G determine the appearance of the motion platform 300G. The sub-wall units 10G are mutually disassembled to present the motion platform 300G with various forms for users to use.

It should be noted that the sub-wall units 10G can be selectively disposed adjacent to each other, opposite to each other, or end-to-end, so as to provide different forms of the motion platform 300G for users.

It should be noted that each sub-wall unit 10G can be disposed adjacently, oppositely or end-to-end in the vertical direction and the horizontal direction, that is, each sub-wall unit 10G can be disposed in an overlapping manner.

It should be noted that the motion platform 300G is formed on the surface of the sub-wall unit 10G or between the sub-wall units 10G, so that the motion platform 300G can be used in various modes according to the use environment and the use requirement.

The sub-wall unit 10G has at least one accommodating cavity 11G, and the accommodating cavity 11G can be used as a movable space or an accommodating space or the like to be used in combination with the motion platform 300G.

It is worth mentioning that the accommodation cavities 11G of the adjacent sub-wall units 10G are disposed to communicate with each other to utilize the sub-wall units 10G as required.

It is worth mentioning that the accommodating chamber 11G can be utilized to place various objects, such as various water and electricity supply facilities, various living and sports goods, etc., to improve the use environment of the mobile venue.

It is worth mentioning that the sub-wall unit 10G can be prepared into various specifications as required.

The sub-wall units 10G can be transported from one destination to another destination by a transport means, and the sub-wall units 10G are rearranged and combined to obtain the desired configuration of the mobile venue for use, that is, the mobile venue can be formed at different locations as the sub-wall units 10G are transported to different destinations to provide the motion platform 300G for use.

The mobile venue further preferably includes at least one mobile unit 400G, wherein the mobile unit 400G is driven by an external force, i.e., the mobile unit 400G is mobile. The sub-wall units 10G of the first forming wall 100G are detachably mounted to the mobile unit 400G, and thus, each sub-wall unit 10G is moved by moving the mobile unit 400G, that is, the sub-wall unit 10G is movable by being placed on the mobile unit 400G, that is, the mobile venue is movable.

As shown in fig. 33, the mobile venue further includes at least one second forming wall 200G, the second forming wall 200G being detachably mounted to the first forming wall 100G to further complete the motion platform 300G. The second forming wall 200G is detachably connected to the first forming wall 100G to form the motion platform 300G into a closed or semi-closed or fully open configuration.

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

In summary, the motion platform 300G can be moved by moving the sub-wall units 10G, and the arrangement and combination of the sub-wall units 10G can also affect the shape of the motion platform, so that the motion platform 300G can be mobile and versatile.

It is worth mentioning that the mobile venue provides a temporary event floor to make up for the lack of facilities and floor environments for sporting and stage activities in the target environment, and the mobile venue provides the action platform 300G in various forms according to the use requirement and the use environment by detachably connecting the sub-wall units 10G.

As shown in fig. 33, a specific implementation manner of the preferred embodiment is that in the specific implementation manner of the preferred embodiment, the mobile stadium is preferably used as a badminton stadium, that is, the motion platform 300G of the mobile stadium is preferably used for badminton, that is, the mobile stadium is used as a badminton stadium.

In this embodiment, the flow venue includes at least four sub-wall units 10G, each sub-wall unit 10G is adjacently disposed to form the first forming wall 100G, and at least one motion platform 300G is formed between the sub-wall units 10G, that is, the motion platform 300G is formed by each sub-wall unit 10G for users to perform badminton.

Further, each sub-wall unit 10G is preferably arranged end to end, and in this embodiment, each sub-wall unit 10G preferably forms a quadrangle, and the motion platform 300G is formed in the quadrangle formed by the four sub-wall units 10G for the user to perform badminton.

It should be noted that each sub-wall unit 10G can present various forms of the motion platform 300G through various arrangements.

It is worth mentioning that at least one standard badminton court is formed in the quadrangle enclosed by the sub-wall units 10G for users to use.

It should be noted that each sub-wall unit 10G can be transported by being placed in a transportation vehicle, that is, the detachable interface of each sub-wall unit 10G can be transported from one destination to another destination by the sub-wall unit 10G, so that the mobile venue can be mobile, that is, the motion platform 300G can be mobile.

It is worth mentioning that, in the face of the current situation that the number of the popular badminton stadiums is seriously insufficient, the mobile stadium can be temporarily assembled and used for providing various temporary requirements by disassembling and restoring the use environment, does not affect the use environment, and has larger mobility.

Preferably, in this embodiment, the mobile venue includes at least one mobile unit 400G, at least one sub-wall unit 10G is detachably mounted on the mobile unit 400G, and each sub-wall unit 10G is transported to each destination along with the mobile unit 400G and arranged to provide the mobile venue, that is, the mobile venue is movable along with the mobile unit 400G.

It should be noted that each of the sub-wall units 10G can also be arranged and combined on the basis of the mobile unit 400G to form the motion platform 300G.

The accommodating cavity 11G of the sub-wall unit 10G provides a space for accommodating articles or providing a use space, such as the accommodating cavity 11G is used for placing supporting facilities such as a hydroelectric system and the like to perfect the use environment of the mobile stadium as a badminton stadium, or as a rest area, a changing room or an article supply area to meet the needs of users. Each of the receiving cavities 11G can also be used as a part of the sports platform 300 as a badminton court.

It is worth mentioning that each accommodating cavity 11G can be used as an independent space or used as a combined space by communicating each accommodating cavity 11G with each accommodating cavity 11G.

More specifically, the sub-wall unit 10G further comprises at least one first set of wall elements 12G and at least one second set of wall elements 13G, the second set of wall elements 13G being movably mounted to the first set of wall elements 12G to form the accommodating cavity 11G. The second set of wall elements 13G can be movably mounted on the first set of wall elements 12G to expose the accommodating cavity 11G or to form a closed space for the accommodating cavity 11G.

It should be noted that the platform unit 100 can be selectively formed in the accommodating cavity 11G or the first and second sets of

wall elements

12G and 13G of each sub-wall unit 10G.

When the first set of wall elements 12G and the second set of wall elements 13G are movably connected to expose the accommodating cavities 11G, the accommodating cavities 11G are communicated with each other to be used as a communicating space, and the platform unit 100 is selectively formed in the communicating accommodating cavities 11G.

The second forming wall 200G is selectively installed to the first forming wall 100G, i.e., the second forming wall 200G is installed to each sub-wall unit 10G to further complete the motion platform 300G. In this embodiment, the second forming wall 200G is installed on the upper portion of the quadrangle formed by the sub-wall units 10G, in other words, the second forming wall 200G is installed on the sub-wall units 10G to cover the quadrangle formed by the sub-wall units 10G, so that the motion platform 300G forms a complete space unit for the user to perform badminton.

In summary, the arrangement of the sub-wall units 10G and the second forming wall 200G enable the motion platform 300G to form a complete space, and further, the motion platform 300G can eliminate the influence of environmental factors such as strong wind and rain on the badminton.

It is worth mentioning that the second forming wall 200G is made of a material with adjustable shape and coverage area, such as a rain shed, and further, the second forming wall 200G can be adjusted according to the size of the quadrangle enclosed by the sub-wall units 10G.

The length of the first forming wall 100G affects the area of the motion platform 300G, wherein the length of the first forming wall 100G is determined by the length and number of the sub-wall units 10G, that is, the sub-wall units 10G affect the area of the motion platform 300G.

Preferably, in this embodiment, the motion platform 300G is disposed in a square shape, and further, the motion platform 300G can be more preferably used as a badminton stadium.

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

It is worth mentioning that the ledge elements 14G reinforce the first set of wall elements 12G and the second set of wall elements 13G and determine the form factor of the first set of wall elements 12G and the second set of wall elements 13G.

The ledge member 14G further comprises at least one locking member 141G and at least one locking slot 142G, the locking member 141G being disposed in the locking slot 142G and the locking member 141G being slidable along the locking slot 142G. Wherein, the depth of the locking groove 142G is larger than the length of the locker 141G, that is, the locker 141G is completely seated in the locking groove 142G.

It should be mentioned that the wall of the locking groove 142G is semi-transparent, so as to ensure that the locking member 141G is always disposed in the locking groove 142G to slide and cannot be removed from the locking groove 141G.

The locking groove 142G further includes at least one positioning groove 1421G, and one end of the locking member 141G is movably disposed in the positioning groove 1421G to prevent the locking member 141G from moving in the locking groove 142G, that is, the locking member 141G is immovably fixed in the locking groove 142G through the positioning groove 1421G of the locking groove 142G.

It should be noted that as one end of the locking member 141G is disposed in the positioning groove 1421G, the other end of the locking member 141G extends out of the locking groove 142G, that is, one end of the locking member 141G is disposed in the locking groove 142G all the time, and the other end of the locking member 141G extends out of the locking groove 142G. In other words, the length of the locking member 141G extending out of the locking groove 142G is changed as one end of the locking member 141G is switched at each of the positioning grooves 1421G.

It is worth mentioning that the length of the locking member 141G disposed in the locking groove 142G is decreased as one end of the locking member 141G is selectively disposed in the positioning groove 1421G adjacent to the notch of the locking groove 142G.

It should be noted that when the sub-wall units 10G are adjacently disposed, the other end of the adjacent locking member 141G can be inserted into the locking groove 141 of another sub-wall unit 10G by moving in the locking groove 142G through the locking member 141G, and meanwhile, by disposing one end of the locking member 141G in the fixing groove, the locking member 141G can be fixedly disposed in the locking groove 142G of two sub-wall units 10G at the same time, and further, the locking member 141G can ensure that the two adjacent sub-wall units 10G cannot be relatively displaced in at least one direction, that is, the locking member 141G and the locking groove 142G can achieve a locking action in at least one direction, so that the adjacent sub-wall units 10G can be semi-fixed together. That is, each of the sub-wall units 10G may be removably attached by the ledge element 14G.

Preferably, in the present embodiment, the sub-wall unit 10G has a prism structure, and the vertex angle of each prism preferably has the locking member 141G and the locking groove 142G arranged along the side length of the prism, that is, each vertex angle of each prism has the locking member 141G and the locking groove 142G for achieving the locking action in three directions. Further, when the sub-wall units 10G are adjacently disposed, the locker 141G reinforces the connection between the sub-wall units 10G.

In the present embodiment, each of the accommodating chambers 11G is used for installing a supporting facility of the mobile stadium. The mobile venue further comprises an energy supply unit 500G, wherein the energy supply unit 500G is arranged in at least one accommodating cavity 11G to supply required conventional energy to the action platform 300G, and the matching use condition of the action platform 300G is perfected.

Preferably, in this embodiment, the energy supply unit 500G further includes a power supply device 51G and a water supply device 52G, and the power supply device 51G and the water supply device 52G can respectively supply power and water to the motion platform 300G, so as to meet various requirements in badminton.

As shown in fig. 33, when the accommodating cavity 11G is exposed by adjusting the second set of wall elements 13G, the second set of wall elements 13G are spliced together to form a continuous platform, that is, the continuous platform formed by splicing the second set of wall elements 13G is used as the motion platform 300G. It is worth mentioning that when the motion platform 300G is obtained by splicing the second group of wall members 13G, the boundary of the standard badminton court is painted on the motion platform 300G according to the standard badminton court, and when the mobile stadium is used as a badminton court next time, the badminton is performed by splicing the second group of wall members 13G without re-establishing the boundary of the standard badminton court. It is worth mentioning that the motion platform 300 obtained by the second group of wall elements 13G can utilize the second group of wall elements 13G to avoid the influence on the badminton motion caused by uneven ground possibly existing in the external use ground.

As shown in fig. 34, in an alternative of the present embodiment, the sub-wall units 10G of the flow stadium are adjacently disposed in both the vertical direction and the horizontal direction, that is, the sub-wall units 10G are disposed on top of each other.

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

The sub-wall units 10G adjacently disposed in the vertical direction and the horizontal direction are quickly and fixedly attached to and detached from each other by the locking member 141G and the locking groove 142G.

It is worth mentioning that the accommodating chambers 11G adjacent in the vertical direction communicate by taking over or the like so that the user can roll over between the accommodating chambers 11G.

It should be noted that each of the accommodating cavities 11G can also be used as a stand for watching badminton.

In an alternative to this embodiment, the ledge elements 14G of the sub-wall units 10G are preferably arranged adjacent to each other, optionally in the vertical and horizontal direction, and the first set of wall elements 12G and the second set of wall elements 13G are then mounted to the ledge elements 14G to form the first forming wall 100G. In other words, the sub-wall unit 10G and the first forming wall 100G are obtained by adjacently arranging the ledge elements 14G in the horizontal direction and in the vertical direction, and then embedding the first set of wall elements 12G and the second set of wall elements 13G in each ledge element 14G. Preferably, the first forming wall 100G and the motion platform 300G are obtained by half-fixing the adjacent sub-wall units 10G together through the adjacent locking pieces 141G and locking grooves 142G. In an alternative of the present embodiment, the flow venue includes at least three sub-wall units 10G in a vertical direction, so as to utilize the accommodating cavities 11G of the sub-wall units 10G.

As shown in fig. 35 and fig. 36, which are schematic diagrams of two other embodiments of the present preferred embodiment, in the present embodiment, the sub-wall units 10G are oppositely disposed and form at least one motion platform 300G between the sub-wall units 10G.

More specifically, as shown in fig. 35, at least one sub-wall unit 10G is disposed opposite to at least one sub-wall unit 10G to form a space between the motion platform 300G and the two sub-wall units 10G, and at least one standard badminton court is formed on the motion platform 300G. In other words, the motion platform 300G is surrounded by two first forming walls 100G, i.e. the motion platform 300G is formed between the two first forming walls 100G.

It is worth mentioning that at least one standard badminton court can be formed on the motion platform 300G.

The sub-wall unit 10G further comprises a ledge element 14G, at least a first set of wall elements 12G and at least a second set of wall elements 13G, the first set of wall elements 12G and the second set of wall elements 13G being detachably connected to each other, the first set of wall elements 12G and the second set of wall elements 13G preferably being mounted to the ledge element 14G to form the sub-wall unit 10G. The ledge element 14G is used to reinforce the connection of the first and second set of

wall elements

12G, 13G and to influence the configuration of the first and second set of

wall elements

12G, 13G, i.e. the ledge element 14G influences the configuration of the receiving cavity 11G.

It is worth mentioning that the ledge elements 14G reinforce the first and second sets of

wall elements

12G, 13G, i.e. the ledge elements 14G increase the strength of the sub-wall unit 10G and the first forming wall 100G.

The ledge member 14G further comprises at least one locking member 141G ', said member 141 ' preferably being formed on the outer surface of the ledge member 14G, said locking member 141G ' also preferably being in an adjacent position when the sub-wall units 10G are adjacently arranged. The locking members 141G 'are all good electric conductors, and when a voltage is applied to each locking member 141G', electrons moving in the locking members 141G 'are formed and attract magnetic materials, that is, the locking members 141G' are magnetic. It is worth mentioning that the locking members 141G' moving in the opposite directions are attracted to each other. Further, if a voltage is applied to the adjacent locking member 141G ' to provide a current for reverse movement in the adjacent locking member 141G ', the two adjacent locking members 141G ' are attracted to each other under the magnetic force and remain relatively stationary.

It is worth mentioning that, when a voltage is applied to the locking members 141G ', the magnetism of the locking members 141G ' is increased as the applied voltage is increased, that is, the force between the locking members 141G ' is increased. When the voltage applied to the locking members 141G 'is removed, the force between the locking members 141G' is removed, that is, the force between the locking members 141G 'is controlled by whether the voltage is applied to the locking members 141G'. When a voltage is applied to the adjacent locking member 141G ' to form a current for relatively moving in the opposite direction in the adjacent locking member 141G ', the adjacent locking members 141G ' are attracted to each other, and thus the adjacent sub-wall units 10G are attracted to each other; when the voltage applied to the locking members 141G ' is removed, the attractive force between the adjacent locking members 141G ' is removed, that is, the locking members 141G ' are not attracted to each other, that is, the attractive force between the adjacent sub-wall units 10G is removed, and the adjacent sub-wall units 10G are not attracted to each other.

The locking member 141G ' is covered with a covering layer 143G ', that is, the covering layer 143G ' covers the outer surface of the locking member 141G ', and further, the locking member 141G ' is isolated from the outside under the condition of being powered on and generating magnetism, so that the external environment is not affected by the voltage applied to the locking member 141G ' and the magnetic field generated by the locking button 141 '.

The ledge element 14G further comprises at least one locking groove 142G ', the locking member 141G' is disposed in the locking groove 142G ', an energizing wire is laid in the locking groove 142G, the locking member 141G' is connected to the energizing wire, and the energizing wire applies a voltage to the locking member 141G 'to generate a current in the locking member 141G' so as to provide magnetism. Preferably, the locking groove 142G 'further includes at least two connecting ends 1421G', the connecting ends 1421G 'are preferably formed at two ends of the locking groove 142G', and when the sub-wall units 10G are adjacently disposed, the power-on wires laid in the locking groove 142G 'of each sub-wall unit 10G are mutually communicated through the connecting ends 1421G', that is, the power-on wires in each locking groove 142G 'are mutually communicated through the connecting ends 1421G'. That is, for the sub-wall units 10G disposed adjacently, when there is a current in the conducting wire in the locking groove 142G 'of one of the sub-wall units 10G, the conducting wires in the adjacent locking members 141G' can simultaneously have a current, that is, opposite currents are formed between the sub-wall units 10G applied with voltages of opposite-phase electrodes to attract each other, and thus the sub-wall units 10G can be stably disposed without being easily moved relative to each other.

It should be noted that the connecting end 1421G 'is connected to a conducting wire, and then, when each sub-wall unit 10G is adjacently disposed and has a certain distance, each sub-wall unit 10G is electrically connected to the conducting wire in the locking groove 142G' through the conducting wire.

The receiving cavity 11G of the sub-wall unit 10G is used for placing the power supply unit 500G, the power supply unit 500G further includes a power supply device 51G, the power supply device 51G is used for providing an electric energy source to the energized conductor in the locking groove 142G ' to make the locking member 141G ' magnetic, that is, the power supply device 51G is used for ensuring that the locking members 141G ' are attracted to each other to avoid relative displacement, which affects the formation and configuration of the motion platform 300G.

The detachable connection between the sub-wall units 10G allows the sub-wall units 10G to be freely moved by external force, that is, the sub-wall units 10G determine the first forming wall 100G to have various shapes, such as the sub-wall units 10G are adjacently disposed in the horizontal direction or the vertical direction, that is, the sub-wall units 10G are also overlappingly disposed.

It should be noted that the power supply device 51G can be a mobile battery, a generator device or an external power supply.

The mobile venue preferably includes at least one of the mobile units 400G, the mobile unit 400G being mobile, i.e., the mobile unit 400G is available for movement between destinations. Preferably, at least one sub-wall unit 10G is disposed in the mobile unit 400G and moves along with the mobile unit 400G, that is, the sub-wall unit 10G has mobility, so that the sub-wall unit 10G can be moved between destinations to fulfill temporary requirements of the motion platform 300G without site restrictions.

It is worth mentioning that the accommodating cavity 11G can be used for placing other objects to provide the required services, such as serving as a catering room, dressing room, storage room, rest area, etc.

Preferably, the power supply unit 500G further includes a water supply device 52G, and the water supply device 52G supplies water to the mobile venue as required by the use environment. It should be noted that the water supply device 52G can call up the water resource in the water supply device 52G through a water pipe, a water tank, and the like.

It should be noted that the water supply device 52G can be a water storage device such as a water storage tank or a water storage tank, or an apparatus for taking water from the environment, such as a water pump or a water guiding pipe.

It should be noted that, when the first set of wall elements 12G is movably mounted on the second set of wall elements 13G to expose the accommodating cavity 11G, the second set of wall elements 13G are spliced to form the motion platform 300G, and further, the motion platform 300G can avoid the problem of uneven height in the use environment by only adjusting the position of the sub-wall unit 10G.

The second forming wall 200G is installed on the sub-wall unit 10G, and the second forming wall 200G covers the motion platform 300G, that is, the second forming wall 200G covers the motion platform 300G by being installed on the sub-wall unit 10G, so that the second forming wall 200G enables the motion platform 300G to form a closed or semi-closed space for isolating external environmental factors such as wind and rain according to the use environment.

As shown in fig. 36, the sub-wall units 10G can be disposed adjacent to each other in the horizontal direction and the vertical direction, so that the accommodation cavities 11G of the sub-wall units 10G can be used independently or in communication with each other. Meanwhile, the form of the platform unit 300 can be changed by increasing the number of the adjacent sub-wall units 10G, including increasing the area of the platform unit 300, so that at least one standard badminton court can be formed on the platform unit 300 to adapt to the use requirement.

As shown in fig. 47 to 51, the present invention also provides a method for forming the flow stadium, the method comprising the steps of:

1): adjacently disposing the sub-wall units 10G to obtain the first forming wall 100G, wherein adjacently disposing the sub-wall units 10G includes adjacently, oppositely, and distantly disposing the sub-wall units 10G; and

2): adjusting the first forming wall 100G to obtain the motion platform 300G, wherein the shape of the motion platform 300G is obtained and changed by arranging and combining the sub-wall units 10G or increasing or decreasing the number of the sub-wall units 10G.

It should be noted that the motion platform 300G is formed in the space enclosed by each sub-wall unit 10G or on the surfaces of the first forming wall 12 and the second forming wall 13 of each sub-wall unit 10G according to the usage requirement.

Preferably, as shown in fig. 47, the step 1) further includes the steps of:

1.1): disposing the sub-wall unit 10G to the mobile unit 400G; and

1.2): the moving unit 400G is driven to acquire the first forming wall 100G.

Preferably, as shown in fig. 48, said step 2) further comprises a step 2.1): the moving unit 400G is driven to adjust the first forming wall 100G, thereby adjusting the shape of the motion platform 300G.

It should be noted that, as shown in fig. 49, the step 2.1) can also be as follows: the sub-wall unit 10G is adjusted to adjust the first forming wall 100G, wherein the adjustment of the sub-wall unit 10G includes adjustment in a horizontal direction and a vertical direction, that is, the first forming wall 100G is adjusted by horizontally moving the sub-wall unit 10G or vertically stacking the sub-wall unit 10G, thereby changing the aspect of the motion platform 300G.

As shown in fig. 50, preferably, the method further includes step 3): the opposite current is formed to the locking pieces 141G of each adjacent sub-wall unit 10G, so that the adjacent locking pieces 141G are attracted to each other by magnetic force, thereby reinforcing the connection between the sub-wall units 10G.

It is worth mentioning that the covering layer outside the locking member 141G makes the magnetism generated by the locking member 141G in the case of power-on not affect the use of the mobile stadium.

It should be noted that, as shown in fig. 51, the step 3) can also be as follows: the other end of the locking member 141G of the sub-wall unit 10G is extended to the locking groove 142G of the adjacent sub-wall unit 20 to ensure that the sub-wall units 10G can easily move relative to each other at least in one direction, thereby reinforcing the connection between the sub-wall units 10G. The step 3) is preferably followed by the following steps: one end of the locking member 141G is seated in the positioning groove 1421G, so that the locking member 141G is immovably seated in the locking groove 142G to ensure that each sub-wall unit 10G is easily moved relative to each other in at least one direction, thereby reinforcing the connection between the sub-wall units 10G.

The present invention also provides another method for forming the flow stadium, as shown in fig. 52, the method includes the following steps:

(1): movably connecting the second set of wall elements 13G to the first set of wall elements 12G to expose the accommodating cavity 11G; and

(2): the sub-wall units 10G are adjacently disposed to form the first forming wall 100G for obtaining the motion platform 300G, wherein the motion platform 300G is formed on the surfaces of the first set of wall elements 12G and the second set of wall elements 13G or the accommodating cavity 11G of each sub-wall unit 10G.

Preferably, the method further comprises step (3): the position of the sub-wall unit 10G is adjusted to adjust the form of the motion platform 300G.

It is worth mentioning that the adjusting of the position of the sub-wall unit 10G includes adjusting the sub-wall unit 10G in the horizontal direction and the vertical direction, that is, the sub-wall unit 10G can be moved in the horizontal direction or overlapped in the vertical direction, wherein when the sub-wall unit 10G is moved in the horizontal direction, the sub-wall unit 10G can be moved by being driven by an external force or can be moved by being placed behind the moving unit 400G along with the movement of the moving unit 400G.

Referring to fig. 37 to 40, there is shown another preferred embodiment of a mobile venue according to the present invention, which includes at least one base unit 10F, wherein the base unit 10F can be arranged and combined to form various forms of the mobile venue. The base unit 10F further includes a sub-platform unit 11F and at least one flow unit 12F, the sub-platform unit 11F being mounted to the flow unit 12F, as shown in fig. 40. At least one of the sub-platform units 11F is arranged and combined to provide at least one platform unit 100F, and the platform unit 100F provides a moving space for a user to use. The flow unit 12F is moved by a driving force, preferably by rolling friction, so that the sub-platform unit 11F is movable as the flow unit 12F moves, that is, the platform unit 100F is movable, that is, the flow venue is movable to roll between destinations. The space provided by the platform unit 100F is used for various sports activities, stage activities, meeting reports, and the like.

It is worth mentioning that the mobility of the mobile venue enables the mobile venue to be temporarily built for use and timely detached, and further the mobile venue can be used in a mobile manner or temporarily.

It should be noted that each of the sub-platform units 11F is driven to move along with the flow unit 12F, and further, each of the sub-platform units 11F is rearranged and combined along with the flow unit 12F to obtain the platform units 100F with different shapes.

It is worth mentioning that when the sub-platform unit 11F is used to provide the platform unit 100F, the flow unit 12F is used in combination with or separately from the sub-platform unit 11F as required.

The flow unit 12F further includes a braking member 121F, and when the flow unit 12F moves using rolling friction, the braking member 121F converts the rolling friction into sliding friction, that is, the braking member 121F increases the difficulty factor of the movement of the flow unit 12F, that is, the flow unit 12F is difficult to move by adjusting the braking member 12F. It should be noted that when the sub-platform unit 11F is used to form the platform unit 100F, the flow unit 12F can be selectively used to carry the flow unit 12F and control the difficulty coefficient of the sub-platform unit 11F moving along with the flow unit 12F through the braking element 121F, and then the sub-platform unit 11F can be quickly arranged and combined to quickly disassemble the movable platform 100. At the same time, the flow unit 12F can adjust the height of the platform unit 100F by carrying the sub-platform unit 11F.

It should be noted that the platform unit 100F can be transformed into a plurality of different patterns according to the combination and arrangement manner among the sub-platform units 11F for the use environment.

The sub-platform unit 11F includes at least one structure wall 101F, the structure wall 101F is surrounded to form a structure cavity 102F, and the platform unit 100F is selectively formed on the surface of the structure wall 101F or in the structure cavity 102F. When the platform unit 100F is formed in the structure cavity 12 of the sub-platform unit 11F and the platform unit 100F is formed by at least two sub-platform units 11F, the structure cavities 102F of the sub-platform units 11F are arranged in communication with each other through the structure walls, that is, when the platform unit 100F is formed in the structure cavities 102F of at least two sub-platform units 11F, the structure cavities 102F are in communication with each other through the structure walls 101F.

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

In the present preferred embodiment, the sub-platform units 11F are preferably of prismatic design, that is, the element walls 1012F of each sub-platform unit 11F are allowed to have two by two perpendicular planes, i.e., each sub-platform unit 11F is allowed to have a surface, a lower surface and four sides. In other words, the support element 1011F can also be of a prismatic frame design. Each of the sub-platform units 11F is preferably disposed adjacently, and further, the upper surfaces of the sub-platform units 11F are disposed adjacently to each other to form the platform unit 100F.

Preferably, each of the sub-platform units 11F is installed to the flow unit 12F to form the flow venue and is moved by an external force to rearrange and combine to adjust the form of the sub-platform unit 11F according to use needs or move the flow venue by moving the sub-platform unit 11F. When the sub-platform units 11F are adjacently disposed such that the upper surfaces thereof are adjacently disposed, the position of each of the sub-platform units 11F is fixed by fixing each of the flow units 12F, that is, the platform unit 100F is stably disposed by fixing each of the flow units 12F.

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

It should be noted that the area of the platform unit 100F can be adjusted by flexibly increasing or decreasing the number of the sub-platform units 11F, and the area of the platform unit 100F can also be adjusted by adjusting and formulating the sub-platform units 11F with different specifications.

As shown in fig. 38, the mobile venue further includes an energy supply unit 200F, the energy supply unit 200F further includes a first supply unit 201F and a second supply unit 202F, and the first supply unit 201F and the second supply unit 202F can respectively provide water and electricity for users to use. The power supply unit 200F is preferably disposed in the structural cavity 102F, and thus the power supply unit 200F is movable as the sub-platform unit 11F is disposed in the flow unit 12F, i.e., the power supply unit 200F is moved as the platform unit 100F is moved to complete the use condition of the platform unit 100F.

It should be noted that the mobile venue may lay a power line and a power socket on the inter-platform element 1011 of the sub-platform unit 11F, and when each of the sub-platform units 11F is adjacently disposed, each of the sub-platform units 11F may be electrically connected by the power line, and the power socket may be used to provide the electric energy source for the second supply unit 202F.

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

It is worth mentioning that the flow cell 12F may autonomously comprise a drive means to move or to move under the action of an applied driving force.

As shown in FIG. 40, the sub-platform unit 11F further comprises a frame member 1011F and at least one member wall 1012F, the member wall 1012F is movably mounted to the frame member 1011F to form the sub-platform unit 11F. Preferably, in the preferred embodiment, the element wall 1012F is mounted to the bracket element 1011F by a mechanical connection, such as a movable link, e.g., a screw-on connection.

It is worth mentioning that the element wall 1012F is mounted to the bracket element 1011F in a multi-body manner, that is, in an alternative manner of the preferred embodiment, the sub-platform unit 11F includes at least five of the element walls 1012F. When the element wall 1012F is movably coupled to the bracket element 1011F, the element wall 1012F is allowed to expose or enclose the structural cavity 102F.

The supporting element further includes at least one supporting frame 10111F and at least one fixing frame 10112F, and the fixing frame 10112F is movably and fixedly connected to the supporting frame 10111F to form the supporting element 1011F. Wherein, the component wall 1012F has at least one fixing member 10121F at the edge, and the fixing member 10112F is detachably mounted on the fixing member 10121F to maintain a desired angle between the supporting frame 10111F and the component wall 1012F. It should be noted that each sub-platform unit 11F is kept stationary by the braking element 121F, that is, the platform unit 100F formed by the upper surface and the side surface of each sub-platform unit 11F is kept stable under the action of the braking element 121F.

It should be noted that the connection between each support frame 10111F and each fixing frame 10112F is a detachable structure, and each support frame 10111F and each fixing frame 10112F can be freely combined according to the specification of the sub-platform unit 11F, and when the individual support frame 10111F and the fixing frame 10112F are damaged, the sub-platform unit 11F can be reused by replacing the individual support frame 10111F and the individual fixing frame 10112F.

As shown in fig. 41, 42 and 43, which are schematic views of three specific embodiments of the present preferred embodiment, the platform unit 100F is preferably formed on the upper surface and the side surface of the sub-platform unit 11F. Specifically, the fixing frame 10112F is mounted on the fixing member 10121F, the element wall 1012F in the vertical direction is arranged at a right angle with the supporting frame 10111F in the vertical direction under the action of the fixing frame 10112F and the fixing member 10121F, that is, the element wall 1012F in the vertical direction is arranged horizontally under the action of the fixing frame 10112F and the fixing member 10121F to form the platform unit 100F for use. That is, the fixing frame 10112F is placed on the fixing member 10121F such that a part of the component wall 1012F and the supporting frame 10111F are held at a fixing angle to form the platform unit 100F on the component wall 1012F.

It should be noted that the sub-platform unit 11F can selectively select at least one side of the sub-platform unit 11F as required to adapt to the site conditions of the use environment and form the required platform unit 100F, as shown in fig. 41, the platform unit 100F is simultaneously formed on each side and the top of the sub-platform unit 11F, and as shown in fig. 42 and 43, the platform unit 100F is formed on each side and the top of the sub-wall unit 11F.

The structural cavity 102F is conditioned by the element walls 1012F to assume a closed or semi-closed or open configuration for use as desired. It is worth mentioning that the structural cavities 102F can be used in communication with each other or independently according to the use requirement.

It is worth mentioning that the height of the platform unit 100F is adjusted by the support 10111.

It is worth mentioning that the structural cavity 102F is used for placing other objects such as the energy supply unit 200F.

When the fixing frame 10112F is separated from the fixing member 10121F, the side surfaces of the sub-platform unit 11F are brought into contact with the supporting frames 10111F of the sub-platform unit 11F to hide the structural cavity 102F, so that the platform unit 100F is removed, and at the same time, by moving the flow unit 12F, the sub-platform units 11F are adjacently disposed, so that the upper surfaces of the sub-platform units 11F are adjacently disposed to retrieve another platform unit 100F, and the area of the platform unit 100F obtained by adjustment is reduced, so that the use and use environment of the flow venue can be adapted. In other words, the upper top surfaces of the sub-platform units 11F are adjacently disposed to obtain the platform units 100F, and when it is required to obtain the platform units 100F with a larger area, the sub-platform units 11F can obtain the platform units 100F with a larger area by moving the flow unit 12F and optionally disposing the side surface of at least one of the sub-platform units 11F in parallel with the upper surface thereof, and then moving the sub-platform units 11F. Preferably, the sub-platform units 11F are flexibly moved between the destinations by the flow units 12F, and further, the platform units 100F are flexibly arranged between the destinations and arranged to obtain the platform units 100F in various forms.

It should be noted that the platform unit 100F may also be disposed with at least one of the sub-platform units 11F, so as to utilize the structural cavity 102F of the sub-platform unit 11F.

It is worth mentioning that the platform unit 100F formed on the upper surface and the side surface of the sub platform unit 11F is more stabilized by supporting and reinforcing the lower portions of the upper surface and the side surface of the sub platform unit 11F by using various supporting members.

As shown in fig. 44, as an alternative to the preferred embodiment, when the platform unit 100F is formed in at least two structural cavities 102F, and the structural cavities 102F are exposed by the fixing member 10112F being mounted on the fixing member 10121F, the sub-wall units 11F are adjacently disposed along with the movement of the flow unit 12F, so that the structural cavities 102F are communicated with each other.

It is worth mentioning that the specification of the sub-platform unit 11F is artificially defined by the specifications of the bracket element 1011F and the bracket wall element 1012, and further, the sub-platform unit 11F is centered according to the required specification, that is, the structural cavity 102F can have various specifications.

It is worth mentioning that when the mobile stadium is used as a soccer stadium, the size of the soccer stadium is determined by the number and size of the sub-platform units 11F.

Specifically, the size of the floating stadium is consistent with the standard size and football pitch, that is, the space provided by the platform unit 100F formed by arranging and combining the sub-platform units 11F is greater than or equal to the space provided by the standard football pitch. The sub-platform units 11F are adjacently disposed to form a sufficient space, and in this particular mode of the preferred embodiment, the sub-evaluation units 11 preferably form a square field to form the platform unit 100F as a football field. Wherein each of said sub-platform units 11F is adapted to communicate with each other by selectively removing said element walls 1012F mounted to said bracket elements 1011F.

It is worth mentioning that the sub platform units 11F surrounding the platform unit 100F are adjacently disposed in the horizontal direction and the vertical direction at the same time, that is, the sub platform units 11F are disposed to be overlapped with each other.

Preferably, in this embodiment, each of the component walls 1012F of the sub-platform unit 11F is removable from the bracket component 1011F, that is, the component walls 1012F are used independently. Preferably, the element wall 1012F removed from the element wall 1012F is laid on the platform unit 100F surrounded by each of the sub-platform units 11F, that is, the flow venue includes a plurality of the sub-platform units 11F and a plurality of the element walls 1012F.

It is worth mentioning that the platform unit 100F can avoid the problems of unstable site caused by environmental factors and the like.

Preferably, the element walls 1012F separated from the support elements 1011F are preferably mounted to the flow cell 12F and then laid on the platform unit 100F, and preferably, the flow cell 12F is placed at the junction of at least two of the element walls 1012F, that is, at least two of the element walls 1012F are mounted to the flow cell 12F and one of the element walls 1012F is mounted to at least one of the flow cells 12F.

It is worth mentioning that when the element wall 1012F is mounted to the flow cell 12F, the element wall 1012F is mounted to the flow cell 12F by means of a mechanical connection, such as screwing or the like.

It is worth mentioning that when the element walls 1012F are installed to the flow unit 12F, the element walls 1012F can be secured to be flat between the element walls 1012F laid on the platform unit 100F by adjusting the height between the flow unit 12F and the contact ground or adjusting the height between the element walls 1012F and the flow unit 12F.

It is worth mentioning that in order to ensure flatness between the element walls 1012F laid on the platform unit 100F, a covering layer, such as artificial turf, may be laid on the surface of each element wall 1012F to suit the use requirement, so that the platform unit 100F can be used as a soccer field.

It is worth mentioning that the sub-platform units 11F enclosing the platform unit 100F can provide more structural cavities 102F for use by way of stacking.

It is worth mentioning that the objects such as a canopy and a ceiling are arranged above the platform unit 100F to prevent the football game performed by the platform unit 100F from being affected by various environmental factors, such as strong wind and rain.

Similarly, as shown in fig. 45, in a usage state diagram of an embodiment of the present preferred embodiment, the flow venue can be preferably used as a swimming pool by covering the platform unit 100F with a water-tight covering layer, that is, by covering the platform unit 100F and the structural cavity 102F of at least one of the sub-platform units 11F with the covering layer, water can be injected into the flow venue so that the flow venue becomes a swimming pool. Wherein the area of the flow arena used as a natatorium is realized by adjusting the number of the sub platform units 11F or the number of the support and the room 1011 and the element walls 1012F, that is, the use area of the flow arena used as a natatorium is artificially controlled. It is worth mentioning that the flow arena as a natatorium is provided with a water-conditioning device such as a water pump to replace the water in the flow arena.

As shown in fig. 46, which is a schematic view of a usage state of another specific implementation manner of the present preferred embodiment, the platform unit 100F is formed in the structural cavity 102F of at least one of the sub-platform units 11F, and when the platform unit 100F is formed in the structural cavities 102F of at least two of the sub-platform units 11F, each of the sub-platform units 11F can make the structural cavities 102F of each of the sub-platform units 11F communicate with each other by removing a part of the element wall 1012F, that is, the structural cavities 102F of at least two of the sub-platform units 11F are combined to form the platform unit 11F. The platform unit 100F can be used in indoor sports halls, lounges, storage rooms, entertainment rooms, and the like.

It is further worth mentioning that the structural cavity 102F of the sub-platform unit 11F is provided to form the platform unit 100F, and the top and side surfaces of the sub-platform unit 11F are provided to form the platform unit 100F at the same time, that is, the mobile venue is provided with at least one of the platform units 100F.

The present invention also discloses another method for forming the flow stadium, as shown in fig. 53, the method includes the following steps:

i: placing the fixing frame 10112F on the fixing member 10121F to expose the structural cavity 102F of the sub-platform unit 11F, while keeping the side surface and the upper surface of the sub-platform unit 11F at a fixed angle; and

ii: the flow cell 12F is driven to adjust the position of the sub-wall unit 10F, wherein the platform unit 100F is formed on the top and side surfaces of the sub-platform unit 11F, and also formed on the structural cavity 102F of the sub-platform unit 10F.

Preferably, step ii is followed by the step of: the braking element 121 is adjusted to fix the flow unit 12F, so that the relative movement between the sub-platform units 11F does not easily occur to affect the shape of the platform unit 100F.

The foregoing is illustrative of specific embodiments of the present invention and reference should be made to the implementation of apparatus and structures not specifically described herein, which is understood to be a general purpose apparatus and method of operation known in the art.

Meanwhile, the above embodiments of the present invention are only used for illustrating the technical solutions of the present invention, and are only examples of the technical solutions of the present invention, and are not used to limit the technical solutions of the present invention and the protection scope thereof. Modifications of the technical solutions disclosed in the claims and the specification by equivalent technical means, equivalent devices and the like should be considered as not exceeding the scope of the claims and the specification of the invention.

Claims

1. A mobile venue comprising:

a flow base having a museum volume for activities, wherein the flow base further comprises at least two base side walls forming the museum volume therebetween, wherein the flow base is formed by at least one flow cell, wherein the flow cell comprises a flow assembly, the flow assembly has a unit space, which is arranged at one side of the Librarian space, wherein the flow unit further comprises a positioning device and a communication device, the positioning device acquires the current position information of the flow unit, wherein, in the flowing process of the flowing units, the flowing units exchange the current position information through the communication device respectively to form a flowing venue assembly scheme, such that each of the flow cells is assembled into the flow base according to the flow venue assembly protocol.

2. The flow arena of claim 1, wherein the base side wall further comprises at least one layer of components, the layer of components being disposed on one side of the library volume, the height of the base side wall being adjustable by stacking the layer of components, and the width of the base side wall being adjustable by juxtaposing the layer of components.

3. The flow venue of claim 2, wherein the floor assembly further comprises at least two of the flow cells, adjacent ones of the flow cells being interconnected to form the floor assembly.

4. The flow venue of claim 3, wherein the flow assembly further comprises an assembly frame and a plurality of wall members removably mounted to the assembly frame to form the cellular space, respectively.

5. The flow venue of claim 4, wherein the flow cell further comprises a support adjustment device that removably supports the flow assembly, wherein the support adjustment device further comprises a set of support adjustments removably mounted to the flow assembly to support the flow assembly, respectively, wherein the support adjustments are received in the cell space after removal.

6. The flow venue of claim 5, wherein the flow unit further comprises a test control device communicatively coupled to the support adjustment device, wherein the test control device further comprises a plurality of monitoring elements and a control device, the control device adjusting the support adjustments by communicatively coupling each monitoring element to each support adjustment, respectively.

7. The flow venue of claim 6, wherein the support adjustment device further comprises a set of mobile supports removably mounted to the mobile assembly, wherein the flow unit further comprises a power supply and a navigation device, the power supply and the navigation device each communicatively coupled to the detection control, wherein the power supply provides power to the flow unit and the navigation device directs flow of the flow unit.

8. The mobile venue of claim 7, wherein the mobile units are pre-fabricated according to predetermined criteria to facilitate assembly of the mobile units into a personalized mobile venue.

9. The mobile venue of claim 8, wherein the mobile unit is a container.

10. The flow venue of claim 4, further comprising a top supported by the base side walls, wherein the top further comprises a support frame and at least one cover covering the support frame.

11. The mobile venue of claim 10, wherein the support frame further comprises a set of sub-supports to be received in the unit spaces for facilitating the movement, and wherein the cover is a soft material to be received in the unit spaces.

12. The mobile venue of claim 4, further comprising a top cover, the top cover further comprising at least one support device and at least one cover, the support devices being spaced apart from the museum space, the set of covers being secured between each of the support devices.

13. The mobile venue of claim 12, wherein the support means further comprises a main support member, at least two sub-support members and at least two connecting members, the two sub-support members are respectively disposed on the outer sides of the opposite sidewalls of the base, the main support member is disposed in the space of the living room, the connecting members connect the main support member and the sub-support members, and the covering is respectively fixedly connected to the two connecting members.

14. The mobile venue of claim 4 or 10, further comprising a mobile platform disposed at the bottom of the library body space.

15. The flow venue of claim 14, wherein the flow platform further comprises a plurality of platform elements, adjacent platform elements being interconnected to form the flow platform.

16. The mobile venue of claim 14, further comprising at least one waterproof device, wherein a swimming pool is formed at the bottom of the mobile base by the waterproof device being disposed at the bottom of the body space.

17. The flow venue of claim 16, wherein the flow cell is positioned in a portion of the bottom of the pool to create areas of varying water depth in the pool.

18. The flow venue of claim 17, wherein a partition wall is formed by positioning a set of the flow cells in the pool, the partition wall dividing the pool into at least two functional areas to provide service.

19. The flow venue of claim 16, wherein at least one partition wall is formed by positioning a set of flow cells in the pool, the partition wall dividing the pool into at least two functional areas for separate service.

20. The flow arena as claimed in claim 14, wherein at least two of the flow units are assembled in the library space to form a performance platform, and wherein a background space is formed by detaching the adjacent wall members of the adjacent two flow units, respectively, to connect the two unit spaces of the two flow units, respectively.

21. The flow venue of claim 8, wherein at least two types of the flow units are prefabricated, the two types of the flow units having a height difference, wherein the same type of the flow units are assembled to form two types of the layer assemblies, respectively, and the two types of the layer assemblies are connected in parallel.

22. The flow venue of claim 21, wherein the base sidewall has a stepped configuration, the base sidewall further comprising an inner layer assembly and an outer layer assembly, the inner layer assembly connecting the outer layer assembly in parallel, wherein the outer layer assembly includes twice as many flow cells as the inner layer assembly.

23. The flow venue of claim 15, wherein each of the platform members is supported by each of the support and adjustment assemblies, the flow units further comprising a detection and control assembly communicatively coupled to the support and adjustment assemblies, wherein the detection and control assembly further comprises a plurality of monitoring elements and a control assembly, the control assembly being configured to adjust each of the support and adjustment assemblies by communicatively coupling each of the monitoring elements to each of the support and adjustment assemblies, the control assembly of each of the flow units being configured to adjust the support and adjustment assembly of each of the flow units by the control assembly of the detection and control assembly of each of the flow units.

24. The mobile arena of claim 23, wherein the mobile platform is configured to provide a mobile museum, the mobile museum further comprising a museum wall and a top cover, the museum wall being coupled to the mobile platform, the top cover being supported by the museum wall, wherein the museum wall further comprises a set of connection supports and a set of museum wall elements, each of the connection supports being spaced apart at a top of the connection side of the base side wall, each of the museum wall elements being detachably disposed between two of the connection supports, respectively.

25. The flow venue of claim 24, wherein the top cover further comprises a support frame and at least one cover covering the support frame, wherein the support frame further comprises a plurality of support ends disposed in corresponding relation to each of the plurality of connecting supports.

26. The mobile venue of claim 3, wherein the mobile component further comprises a service component configured to provide services to the cellular space.

27. The mobile venue of claim 26, wherein the service module includes at least one power module disposed in the cellular space to provide electrical power.

28. The flow venue of claim 27, wherein the service assembly further comprises at least one water treatment device disposed in the unit space.

29. The mobile venue of claim 28, wherein the service assembly further comprises at least one display device, at least one layer of connectors, and at least one set of resting assemblies, the display device and the resting assemblies being disposed in the unit spaces, respectively, the layer of connectors being disposed in the unit spaces.

30. The mobile venue of claim 29, wherein the service module further comprises at least one air conditioning device disposed in the unit space.

31. The flow venue of claim 2, wherein one of the floor assemblies further comprises a flow energy unit coupled to the flow unit to supply electrical energy.

32. The flow venue of claim 31, wherein one of the floor assemblies further comprises a flow water treatment unit coupled to the flow unit to provide water treatment services.

33. The mobile venue of claim 32, wherein the mobile unit is a container.

34. A mobile venue comprising:

at least two flow cells, said flow cells having a cell space; the mobile unit comprises at least one platform element, each platform element is connected with each mobile unit to form a mobile platform for movement, the unit space is positioned on one side of the mobile platform, the mobile unit further comprises a detection control device, the detection control device is arranged on the mobile unit, the detection control device further comprises a positioning device and a communication device, the positioning device acquires the current position information of the mobile unit, and in the mobile process of the mobile unit, each mobile unit exchanges the current position information through the communication device to form a mobile venue assembly scheme.

35. The flow venue of claim 34, wherein the flow cell further comprises an assembly frame and a plurality of wall members, each wall member being disposed on the assembly frame to form the cell space.

36. The mobile venue of claim 35, wherein the mobile component further comprises a service component disposed in the cellular space to provide services.

37. The mobile venue of claim 36, wherein the service components are selected from the group consisting of energy supply, water treatment, display, and rest components.

38. The flow venue of claim 37, wherein one of the flow cells further comprises an energy supply device, the energy supply device being disposed in the cell space.

39. The flow venue of claim 38, wherein one of the flow cells further comprises a water treatment device disposed in the cell space.

40. The flow venue of claim 39, wherein the flow unit further includes a support adjustment device that removably supports the flow assembly, wherein the support adjustment device further includes a set of support adjustments, each support adjustment being removably coupled to the flow assembly.

41. The flow venue of claim 40, wherein the flow unit further comprises a navigation device, the detection control device communicatively coupled to the navigation device, wherein the detection control device further comprises a set of monitoring elements and a control device communicatively coupled to each of the monitoring elements, the positioning device, and the communication device, respectively.

42. The flow venue of claim 41, comprising four of the flow units, wherein four of the platform elements are connected to form the flow platform for activity by connecting the four flow units.

43. The mobile venue of claim 38 or 42, wherein the mobile unit is a container.

44. A method of setting up a mobile venue according to claim 1 or 34, comprising the steps of:

step 1: determining the flow cell required to establish a flow venue, wherein the flow cell has a cell space;

step 2: moving each of the mobile units participating in the assembly of the mobile venue to a venue destination, wherein said step 2 further comprises the substeps of:

step 2.1: acquiring the current position of each flow unit;

step 2.2: forming an assembly flow venue scheme according to the current position of each flow unit; and

step 2.3: each of the flow units is flowed to the building destination; and

and step 3: assembling each of the flow units according to the assembly flow venue plan to create the flow venue, wherein the flow units include at least one platform element that forms a flow platform for activities by assembling each of the flow units, wherein the unit space is located on one side of the flow platform.

45. The method of establishing a mobile venue according to claim 44, wherein said step 1 further comprises the steps of:

step 11: determining a type of the mobile venue;

step 12: determining the establishment mode of the mobile stadium; and

step 13: determining the type and number of the flow units required to establish the flow venue.

46. The method of establishing a mobile venue according to claim 44, wherein said step 3 further comprises the steps of:

step 31: determining to assemble the mobile stadium according to the number of floors or to install the mobile stadium in units of a base sidewall, if the mobile stadium is determined to assemble the mobile stadium according to the number of floors, executing step 32, and if the mobile stadium is determined to install the mobile stadium in units of a base sidewall, executing step 33;

step 32: assembling to form the flow venue according to the number of layers of the flow venue; and

step 33: assembling in units of base sidewalls to form the flow arena.

47. The method of creating a mobile venue according to claim 46, further comprising, after step 3, the step of: the use of the flow venue is changed by adding devices.

48. The method of creating a mobile venue according to claim 44, further comprising, after step 3, the step of: the use of the flow venue is changed by changing the structure of the flow venue.

49. The method of establishing a mobile venue according to claim 47, wherein said step 13 further comprises the steps of:

step 131: determining the type of a service component required to set up the flow unit;

step 132: determining the number of the flow units of each type; and

step 133: determining the starting position of the flow unit participating in the establishment of the flow venue and determining the starting position of each of said flow units provided with said service assembly.

50. The method of establishing a mobile venue according to claim 46, wherein said step 32 further comprises the steps of:

step 321: at least one layer of components forming a bottom layer of the flow venue, each of the layer of components being assembled to form the flow venue bottom layer;

step 322: forming a middle layer of the flow venue, each of the layer assemblies, assembling each of the layer assemblies to form the flow venue middle layer;

step 323: forming a top layer of the flow venue, each of the layer assemblies, assembling each of the layer assemblies to form the top layer of the flow venue; and

step 324: a top cover is installed to form the flow venue.

51. The method of establishing a mobile venue according to claim 46, wherein said step 33 further comprises the steps of:

step 331: determining an assembly sequence of each of the base side walls;

step 332: judging whether all the base side walls are assembled, if not, selecting one base side wall in the base for assembly, executing step 333, and if all the base side walls are assembled, executing step 336;

step 333: forming at least one layer of components of a bottom layer of selected said base sidewall;

step 334: forming the layer assembly of the middle layer of the selected sidewall of the base, disposing the layer assembly of the middle layer over the layer assembly of the bottom layer;

step 335: forming the layer assembly of the top layer of the selected sidewall of the base, disposing the layer assembly of the top layer on the layer assembly of the middle layer, returning to step 332; and

step 336: assembling a top cover to form the flow venue.