CN204663050U - Flowing venue - Google Patents

Abstract

A kind of flowing venue, comprise first-class moving base, this flowing pedestal has a shop body space, for carrying out activity. This flowing pedestal comprises at least two pedestal sidewalls, forms a shop body space between two these pedestal sidewalls. This flowing venue comprises a top cover further, and this top cover is arranged at the respectively top of this pedestal sidewall, to be supported by each pedestal sidewall. This flowing venue, as this flowing Badminton Stadium, is made this flowing Badminton Stadium change this flowing natatorium into by a water-tight device is set.

Description

Flowing venue

Technical field

The utility model relates to venue, in particular to a kind of assemble method of flow venue and a kind of venue that flows, this flowing venue is provided to a few flow unit, by assemble this flow unit form this flowing venue should, wherein, this flow unit is convenient to transport to make by the mode of traffic flow moving cell this flowing venue that flows, wherein, and the assemble method by flowing venue is assembled this flowing venue.

Background technology

Along with people's growth in the living standard, people more and more focus on health. Therefore increasing people is by participating in various sports to take exercises. Therefore people are also increasing to the demand of sports buildings. Particularly Badminton Stadium and the such sports buildings of table tennis training hall. Existing sports buildings is all to be fixed on a certain position, and people need to come sports buildings and move. Although only need vacant lot just can carry out as this type games of shuttlecock. But build a Badminton Stadium and need land resource. And soil is a kind of scarce resource, and this situation is particularly evident in Chinese big and medium-sized cities. But but have a lot of idle soils in Chinese big and medium-sized cities, these idle lands may be developed very soon, also likely continue idle, that is can not determine the standby time of these idle lands. If Stadium is set on these idle lands, near idle land live people then can be benefited. But fixing Stadium is set on these idle lands, and then when idle land need to develop, fixing Stadium then needs to be removed, thus causes waste. But the problem of how utilizing these idle lands to solve sports buildings to lack, neither one solution so far.

Also focus on enriching employee's life in some enterprise, as regularly held badminton game. But be not that each enterprise has Badminton Stadium. Therefore the place selection that becomes unique that plays is rented. If only rent a place, can only be then to participate in the employee involvement of match in badminton game. If rent whole venue, although more employee involvement can be made in badminton game, the expense of renting fixing venue can become again another problem. Building a badminton game venue then spends larger. But having vacant lot, some enterprise interim activity can be held. Even parking lot also can be supplied with utilization and holds provisional activity. This class needs the motion of temporary venue a lot. Although build provisional place in a vacant lot, for accomodation of activities. Then can dismantle after using, recover the purposes in original soil. But build and the impact of dismounting on soil, likely affect the original purposes in soil. And in construction and unloading process, the rubbish producing need to additionally be cleared up, and indirectly increases and holds movable cost.

Some development projects may need a lot of employees fixing local in life a period of time at one. Movable plank house becomes the first-selection that employee lives. Movable plank house is just considered employee's living problem, does not consider employee's physiology and the construction of mental health. Although employee can be carried out life spare time by watch TV or chess game etc. in movable plank house, movable plank house cannot provide place and carry out sports for employee, as carried out shuttlecock, the motions such as table tennis. Employee lacks motion, and operating efficiency can be affected. And the place that movable plank house cannot provide employee and carries out the motion such as shuttlecock or table tennis. Although movable plank house can reuse, be convenient to move. But movable plank house need to depend on other conveying arrangements and store and move to another location. That is, movable plank house needs extra carrier to transport. Movable plank house is an Analysis of Nested Design. That is, a set of movable plank house is by required room number, and structure designs. If after this movable plank house is mounted well, need the extra room that increases. For this cover movable plank house, implement also difficulty. Likely must reinstall. If this cover movable plank house is sandwich construction, only increase a room, the structure of entirety also must be considered, not easily realize. And increase corresponding room number according to the number of plies, waste then can be caused again.

The shuttlecock place that fixing Badminton Stadium has is fixing, and the difficulty that place additionally be increased is very large. Even if add place, also expend huge. But some time period causes some place in Badminton Stadium idle to these shuttlecock place demands less in certain areas, as be cold or rainy weather many etc. Simultaneously still large to these shuttlecock place demands in another area. As become a fine day or the area of day hot air heating. If the area that the idle shuttlecock place, area of being cold can be used day hot air heating, then improves the utilization rate in shuttlecock place. But be irrealizable for fixing sports buildings.

Fixing venue generally only has single function, if change the function of venue, just need to venue be made greatly and being built. As being indoor swimming pool by fixing Badminton Stadium reconstruction, then needing fixing Badminton Stadium to make and build greatly, as built swimming pool. Fixing natatorium reconstruction also will be made building greatly for Badminton Stadium, need at substantial cost. Now, do not have technical scheme that the purposes that then can change venue only need to be made a change, change into natatorium as Badminton Stadium, Badminton Stadium is changed in natatorium.

Container by a large number for transport, but container also has useful life. That is, there is a large amount of containers that exceedes useful life to need to process. The container going beyond the time limit how to process enormous amount is also a difficult problem. The external coating of container is to use special paint, if the issue handling of the container going beyond the time limit is bad, serious environmental problem can be caused. And treating capacity is huge, and required processing cost also spends huge. Do not have at present a kind of to save processing cost yet, and the few solution of environmental pollution.

Utility model content

An object of the present utility model is to provide a flowing venue, and this flowing venue provides a shop body, and this shop body has an activity space for carrying out activity.

Another object of the present utility model is to provide a flowing venue, and wherein, this shop body provides at least two wall devices, between two these wall devices, forms described activity space.

Another object of the present utility model is to provide a flowing venue, and wherein, this wall device provides at least one deck assembly, and this layer assembly has a sheaf space, and this sheaf space is arranged on the side of described activity space.

Another object of the present utility model is to provide a flowing venue, and wherein, this layer assembly provides at least one wall unit, and this wall unit provides a flow module, and this flow module has a unitary space. This sheaf space is divided at least one this unitary space. This unitary space is arranged at the side of this activity space.

Another object of the present utility model is to provide a flowing venue, and wherein, this wall unit has a unitary space, and this unitary space is arranged at the below between this activity.

Another object of the present utility model is to provide a flowing venue, and wherein, this flowing venue provides a flowing supply unit electric energy is provided.

Another object of the present utility model is to provide a flowing venue, and wherein, this flowing venue provides a flowing unit for treating water water treatment service is provided.

Another object of the present utility model is to provide a flowing venue, and wherein, this wall elements provides a component framework and one group of wall elements, and described wall elements is fixed in described component framework, to form described unitary space.

Another object of the present utility model is to provide a flowing venue, and wherein, this wall unit provides a component blocks and adds and one group of wall elements, and the removable benefit that falls on the ground of described wall elements is fixed on described component framework.

Another object of the present utility model is to provide a flowing venue, and wherein, this wall unit provides a supporting and regulating device, and this supporting and regulating device removably supports described flow module.

Another object of the present utility model is to provide a flowing venue, and wherein, this supporting and regulating device provides one group and supports regulating part, and described support regulating part is respectively set at this flow module.

Another object of the present utility model is to provide a flowing venue, and wherein, this detection control apparatus provides one group of monitoring element and a control device, and respectively this monitoring element is sent to this control device for obtaining status data.

Another object of the present utility model is to provide a flowing venue, and wherein, this detection control apparatus provides this positioner of a positioner further and obtains this wall unit in the position of described wall device and the position of this wall device in moving process.

Another object of the present utility model is to provide a flowing venue, and wherein, this detection control apparatus provides a communicator further, this communicator for the communication device switches information with other wall unit so that with other wall unit collaborative work.

Another object of the present utility model is to provide a flowing venue, and wherein, this flowing venue comprises a guider further, and this guider connects this detection control apparatus communicatedly, so that navigation Service to be provided when being moved in this wall unit.

Another object of the present utility model is to provide a flowing venue, and wherein, described wall unit is able to make according to default standard.

Another object of the present utility model is to provide a flowing venue, and wherein, described wall unit provides at least one serviced component further, and this serviced component is arranged at this unitary space.

Another object of the present utility model is to provide a flowing venue, and wherein, this serviced component provides a power supply device so that electric energy to be provided.

Another object of the present utility model is to provide a flowing venue, and wherein, this serviced component provides a water treatment facilities so that water treatment service to be provided.

Another object of the present utility model is to provide a flowing venue, and wherein, this flowing venue provides a top cover, and this top cover is supported by this shop body.

Another object of the present utility model is to provide a flowing venue, and wherein, this top cover provides a bracing frame and at least one covering, and this bracing frame supports respectively this covering.

Another object of the present utility model is to provide a flowing venue, and wherein, this flowing venue provides first-class moving platform, and this flowing platform is placed in this activity space bottom.

Another object of the present utility model is to provide a flowing venue, and wherein, this flowing platform provides a group platform element, and two adjacent these platform elements are connected to each other to form this flowing platform.

Another object of the present utility model is to provide a flowing venue, and wherein, this platform element provides an element body and two elements support portion at least, and this two elements support portion is set up respectively the both sides of this element body, to support this element body.

Another object of the present utility model is to provide a flowing venue, and wherein, this flowing platform is preset a Site characteristic.

Another object of the present utility model is to provide a flowing venue, and wherein, this flowing venue provides a water-tight device further, and this water-tight device is arranged at the bottom of this shop body to form a swimming pool.

Another object of the present utility model is to provide a flowing venue, and wherein, this activity space forms a partition wall for one group of this wall unit is set, for activity space is separated into two functional areas.

Another object of the present utility model is to provide a flowing venue, and this flowing venue provides one group of flow unit, and this group flow unit assembling forms first-class moving base, and this flowing pedestal has a shop body space for carrying out activity.

Another object of the present utility model is to provide a flowing venue, this group flow unit is convenient to transport, this group flow unit is convenient to assembling and is formed this flowing venue, also be convenient to be reduced to this group flow unit from flowing venue dismounting, thus the mode being flowed by flow unit is to make this flowing venue flow to another destination.

Another object of the present utility model is to provide a flowing venue, and this flowing pedestal is provided to few two pedestal sidewalls, between two these pedestal sidewalls, forms this shop body space, and this shop body space is for carrying out activity.

Another object of the present utility model is to provide a flowing venue, and this shop body space is for a performance platform is set, and described flow unit can be assembled and form this performance platform.

Another object of the present utility model is to provide a flowing venue, this flow-based provides four pedestal sidewalls, four pedestal sidewalls are around forming this shop body space, and this flowing venue provides a water-tight device, and this water-tight device is arranged on this body space bottom, shop to form a swimming pool.

Another object of the present utility model is to provide a flowing venue, and this flow unit provides a unitary space for an energy supply assembly is set, and thinks that this flowing venue provides electric energy.

Another object of the present utility model is to provide a flowing venue, and this flow unit provides a unitary space for a water treatment facilities is set, and thinks that this flowing venue provides water resource.

Another object of the present utility model is to provide a flowing Badminton Stadium, this flowing Badminton Stadium can move to another place by a place, thus according to each place, Badminton Stadium demand is adjusted the quantity of flowing Badminton Stadium, with the demand meeting Badminton Stadium.

Another object of the present utility model is to provide a flowing Badminton Stadium, and this flowing Badminton Stadium provides first-class moving base, and this flowing pedestal is provided to less first-class moving platform for carrying out badminton.

Another object of the present utility model is to provide a flowing Badminton Stadium, and this flowing Badminton Stadium provides a flowing shop body, and this flowing shop body, by this flow-based seat supports, forms a shop body space for described flowing platform is set for carrying out badminton.

Another object of the present utility model is to provide a flowing Badminton Stadium, wherein, this flowing pedestal is provided to a few flow unit, and this flow unit is convenient to flowing, thus by flowing respectively this flow unit mode by this flowing Badminton Stadium flow to destination.

Another object of the present utility model is to provide a flowing Badminton Stadium, wherein, this flowing platform provides at least two platform elements, and this platform element is arranged at described flow unit, to be flowed to destination by described flow unit, and then connection two platform elements are to form this flowing platform.

Another object of the present utility model is to provide a flowing Badminton Stadium, and wherein, for the ease of flowing, this flowing platform can be divided into multiple platform unit, to be suitable for being arranged at described flow unit, thus is flowed to destination by described flow unit.

Another object of the present utility model is to provide a flowing Badminton Stadium, and wherein, this flow unit provides a unitary space for service is provided.

Another object of the present utility model is to provide a flowing Badminton Stadium, and wherein, the space that two these flow units that are connected have can be communicated with, and provides service with extending space.

Another object of the present utility model is to provide a flowing Badminton Stadium, wherein, by regulating this flowing Badminton Stadium of quantity regulating of this flow unit.

Another object of the present utility model is to provide a flowing Badminton Stadium, wherein, is regulated the quantity of this flowing platform by regulating the quantity of this flow unit.

Another object of the present utility model is to provide a flowing Badminton Stadium, and wherein, this flow unit provides a flow module, and this flow module provides one group of wall elements, this wall elements removably connect with around form this unitary space.

Another object of the present utility model is to provide a flowing Badminton Stadium, and wherein, this flow module provides a component framework, so that this wall elements is installed.

Another object of the present utility model is to provide a flowing Badminton Stadium, and wherein, this flowing framework provides a group angle connector and one group of wall connector, so that this wall elements is installed.

Another object of the present utility model is to provide a flowing Badminton Stadium, and wherein, this flow unit provides a supporting and regulating device for supporting this flow module, for supporting this flow module.

Another object of the present utility model is to provide a flowing Badminton Stadium, and wherein, this supporting and regulating device can be incorporated in this unitary space, so that flowing.

Another object of the present utility model is to provide a flowing Badminton Stadium, and wherein, this supporting and regulating device can make this diapire of each this flow module being connected be in same level.

Another object of the present utility model is to provide a flowing Badminton Stadium, and wherein, this flow unit provides a detection control apparatus, and this detection control apparatus is for the state of this supporting and regulating device of detection and control. Another object of the present utility model is to provide a flowing Badminton Stadium, and wherein, this flow unit, at least one power supply device is set, forms flowing supply unit with supplying energy to this flowing Badminton Stadium.

Another object of the present utility model is to provide a flowing Badminton Stadium, and wherein, this flow unit, at least one water treatment facilities is set, forms circulating water unit with supply water to this flowing Badminton Stadium.

Another object of the present utility model is to provide a flowing Badminton Stadium, and wherein, this flowing supply unit connects this circulating water unit and forms this flowing platform.

Another object of the present utility model is to provide a flowing Badminton Stadium, wherein, this flow unit is at least one cooling, heating system are set, form flowing cooling, thermal, with to flow unit cooling, hot gas, make to be adjusted in flowing Badminton Stadium space the temperature that suitable badminton is carried out.

Another object of the present utility model is to provide a flowing Badminton Stadium, and wherein, this detection control apparatus provides a positioner for the position that obtains flow unit.

Another object of the present utility model is to provide a flowing Badminton Stadium, and wherein, this detection control apparatus provides a communicator for communicating with other this flow unit, thus collaborative work.

Another object of the present utility model is to provide a flowing Badminton Stadium, and wherein, this flow unit provides a motion generator to make this flow unit to flow voluntarily.

Another object of the present utility model is to provide a flowing Badminton Stadium, and wherein, this flow unit provides a guider, to guide this flow unit to arrive default object.

Another object of the present utility model is to provide a flowing Badminton Stadium, wherein, this flowing shop body provides one group of connection support member and one group of shop wall elements, and this connection support member compartment of terrain is arranged at this flowing platform, and this shop wall elements is arranged between the wall elements of described shop.

Another object of the present utility model is to provide a flowing Badminton Stadium, and wherein, this flowing shop body provides a top cover, and this top cover is supported by each connection support member.

Another object of the present utility model is to provide a flowing venue, and this flowing venue can be disassembled as at least two flow units, is transported this flowing venue by transporting the respectively mode of this flow unit.

Another object of the present utility model is to provide a flowing venue, and this flowing venue provides first-class moving base, and this flowing pedestal has a shop body space for carrying out activity, and wherein, this flowing pedestal can be disassembled as at least two these pedestal sidewalls.

Another object of the present utility model is to provide a flowing venue, and wherein, this pedestal sidewall can be disassembled at least one layer assembly, wherein, and this adjacent layer assembly connects in a stacked fashion.

Another object of the present utility model is to provide a flowing venue, and wherein, this layer assembly can be disassembled at least one this flow unit, wherein, and two adjacent these flow units are connected to form this layer assembly.

Another object of the present utility model is to provide a flowing venue, and wherein, this flowing pedestal provides first-class moving platform is set, wherein, and the predeterminable Site characteristic of this flowing platform.

Another object of the present utility model is to provide a flowing venue, and wherein, this flowing platform provides additional Site characteristic further, and described additional Site characteristic is arranged at described flowing venue.

Another object of the present utility model is to provide a flowing venue, and wherein, this shop body space must, at least one partition wall being formed by least one this flow unit is set, be divided into two different regions by this shop body space.

Another object of the present utility model is to provide a flowing venue, wherein, one group platform element is provided this flowing platform so that transport, this platform element provides an element body and two elements support portion at least, this element body is supported in two these support portions, wherein, this element body has one group of through hole.

To achieve these goals, the utility model provides a flowing venue, comprising:

First-class moving base, this flowing pedestal has a shop body space for carrying out activity; Wherein,

This flowing pedestal comprises one group of flow unit further, and this flow unit assembling forms at least two pedestal sidewalls, forms this shop body space between two pedestal sidewalls.

This pedestal sidewall comprises at least one layer assembly further, and wherein, when pedestal sidewall comprises at least two layer assemblies, wherein this layer assembly is set up and supports another this layer assembly, forms this pedestal sidewall with such stacked system. This layer assembly comprises at least one this flow unit, and wherein, when this layer assembly comprises at least two these flow units, one end of this flow unit of one end and another of one of them this flow unit is connected to form this layer assembly. This flow unit comprises a flow module further, this flow module has a unitary space so that service is provided, the wherein further component framework of this flow module and one group of wall elements, respectively this wall elements is removably installed in this component framework, to form this unitary space. This flow unit comprises a serviced component further, and this serviced component is arranged in this unitary space so that corresponding service to be provided. This serviced component comprises an energy supply assembly, and this energy supply assembly is arranged in this unitary space, to make this flow unit to this flowing venue supply electric energy. Wherein this serviced component comprises a water treatment facilities, this water treatment facilities is arranged in described unitary space, to make this flow unit provide water treatment service to this flowing venue, wherein, this water treatment facilities comprises a water supply installation further, to provide domestic water to this flowing venue, wherein, this flowing venue comprises at least one described flow unit that is provided with this water treatment facilities to this water supply installation connection external water source.

To achieve these goals, the utility model provides a flowing Badminton Stadium, comprising:

First-class moving base, this flowing pedestal comprises at least one flowing platform for carrying out badminton; Wherein,

This flowing pedestal comprises at least two flow units further, is formed this flowing platform by flow unit described in connecting two, wherein, by regulating flowing pedestal described in the quantity regulating of this flow unit so that service is provided.

This flowing Badminton Stadium comprises a flowing shop body further, this flowing shop body is by this flow-based seat supports, wherein, this flowing shop body is arranged at this flowing platform to form a shop body space, according to this flowing shop body of the quantity regulating of this flowing platform, thus regulate this shop body space, so that service is provided.

This flow unit comprises a flow module further, and this flow module comprises a component framework and one group of wall elements further, and respectively this wall elements is removably installed in described component framework, to form a unitary space for service is provided.

This flow unit is further to comprise a platform element, and this platform element is removable installed in this flow module, wherein, is formed this flowing platform by connection at least two platform elements.

This flow unit comprises a supporting and regulating device further, it is stable for maintaining described flow module that this supporting and regulating device removably supports described flow module, wherein, when described flow unit is flowed, described supporting and regulating device is arranged at the unitary space of described flow module, so that flowing.

To achieve these goals, the utility model provides another flowing Badminton Stadium, comprising:

First-class moving base, this flowing pedestal enters one and comprises at least two pedestal sidewalls, two these pedestal compartment of terrains arrange, to form a shop body space for carrying out badminton between two these pedestal sidewalls, wherein, described pedestal sidewall comprises at least one this flow unit further, by adjusting described flow unit to regulate described shop body space.

This flowing pedestal comprises at least one flowing platform further, this flowing platform is arranged at this shop body space for carrying out badminton, wherein, this flowing platform comprises at least two platform elements further, described platform element is removably arranged at this flow unit, so that with the flowing of described flow unit, wherein, described platform element moves to described shop body space and connects to form described flowing platform for carrying out badminton from described flow unit is disassembled.

This flowing pedestal comprises four pedestal sidewalls, and four these pedestal sidewalls are around forming this shop body space for carrying out badminton, and wherein this pedestal sidewall comprises at least two these flow units further, by adjusting this flow unit to regulate described flowing shop body space.

This flowing pedestal comprises at least one flowing platform further, this flowing platform is arranged at this shop body space for carrying out badminton, wherein, this flowing platform comprises at least two platform elements further, this platform element is removably arranged at this flow unit, so that with the flowing of this flow unit, wherein, this platform element moves to this shop body space and connects to form this flowing platform for carrying out badminton from this flow unit is disassembled.

The utility model flowing Badminton Stadium comprises first-class moving base, and this flowing pedestal comprises at least one flow unit, and this flow unit can by being arranged at conveying arrangement to make this flow unit be convenient to flowing. By regulating this flowing pedestal of quantity regulating of this flow unit so that service to be provided. This flowing pedestal comprises at least one flowing platform for carrying out badminton. This flowing platform comprises at least two platform elements, and two these platform elements are connected to each other to form this flowing platform. This platform element is arranged at this flow unit so that along with this flow unit flowing. By the mode of each flow unit that flows, be convenient to the utility model flowing Badminton Stadium and flow to each destination. After arriving each destination, formed the utility model Badminton Stadium that flows by connecting each flow unit. This flow unit has a unitary space, for each serviced component is set. Serviced component includes, but are not limited to power supply device, water treatment facilities, exhibiting device and rest assembly. This power supply device is arranged at this unitary space of this flow unit, to make this flow unit to this flowing Badminton Stadium supply electric energy. Be worth one, this flow unit that is provided with this power supply device also can be applied to community and power. For example community has a power failure suddenly, this flow unit that this power supply device be set can be called and go to power supply. Water treatment facilities is arranged at this unitary space of this flow unit, to make this flow unit that this flowing Badminton Stadium is provided water services and sewage is processed. This flow unit that is arranged at water treatment facilities also can be applicable to community to supply water, or is supplied water in disaster area when there is disaster. Similarly, this flow unit that this power supply device is set also can be powered to disaster area when there is disaster. Because flow unit is convenient to flowing, thus transport is convenient. This flow unit further can for sanitary parts and culinary art assembly are set, with the hygienic issues and the hungry problem that occur when the solution disaster relief is provided. This exhibiting device is arranged at the unitary space of this flow unit, can supplies at this flowing Badminton Stadium displaying articles, for you to choose. Rest assembly is arranged to described flow unit, has a rest for people to relaxing area is provided. This flowing platform is for carrying out badminton. This shuttlecock platform is provided with a shuttlecock place. Preferably, this shuttlecock platform is provided with the shuttlecock place of a standard. For the ease of flowing, this shuttlecock platform is divided into at least two platform elements. As this shuttlecock platform is divided into two these platform elements. Maybe this shuttlecock platform is divided into four these platform elements. Maybe this shuttlecock platform is divided into six these platform elements etc. When each platform element arrives object, then connect each platform element and form this flowing platform for carrying out shuttlecock activity. The platform element of dividing can be divided according to the size of this flow unit, to mate this flow unit, thus makes this platform element also be convenient to flowing. Therefore can according to demand, by regulating the quantity of this flowing platform of quantity regulating of this flow unit. When large to badminton place demand, by increasing the mode of this flow unit, flowing platform can be increased, to satisfy the demands. When demand reduces, the quantity of this flow unit can be reduced, thus reduce flowing platform. And this flow unit being reduced is flowed to the area large to badminton place demand, thus improve the utilization rate of this flow unit. Two unitary spaces that are connected this flow unit can be communicated with, and with expansion service space, improve better service. Further, this flowing Badminton Stadium can customize on demand, and this flow unit that is provided with power supply device as selected forms this flowing platform with this flow unit that is provided with this water treatment facilities. This flow unit that is provided with multiple exhibiting devices is and for example selected to form this flowing platform. Thus provide many services. The utility model comprises a flowing shop body further, and this flowing shop body is arranged at this flowing platform, to reduce weather to carrying out the impact of badminton. And each installation component of this flowing shop body can be placed on the unitary space of this flow unit, with this flow unit flowing. That is, the unitary space of this flow unit can supply containing objects when flowing. Outside a little, somewhere is because holding the shuttlecock race of the large-scale sparetime that the number of participant is unprecedented, and existing shuttlecock place, this place quantity is far less than the quantity needed for this shuttlecock race, thus, so large-scale race cannot be undertaken. And we can apply flowing Badminton Stadium, neighbouring flowing Badminton Stadium is flow to this undertaking ground, the quantity of the Badminton Stadium on this ground that just can increase sharply at short notice temporarily. And, after this race terminates, in time that can be very short, the flowing Badminton Stadium to this ground can be assembled temporarily, turn back to it easily and carry out local use.

To achieve these goals, the utility model provides a flowing venue, comprising:

One shop body, described shop body has an activity space for carrying out activity, wherein

This shop body comprises at least two wall devices further, two these wall devices are arranged at respectively the both sides of this activity space to form this activity space between two these wall devices, wherein, described wall device comprises at least one layer assembly further, this layer assembly has a sheaf space, and this sheaf space is arranged at the side of this activity space.

Wherein, this layer assembly comprises at least one wall unit further, this wall unit comprises a flow module further, this flow module has a unitary space, wherein, this sheaf space is divided at least one this unitary space, and this flow module and this corresponding unitary space are arranged at the side of this activity space.

Wherein, when this wall device comprises at least two these layer assemblies, regulated described wall device by adjusting the annexation of described layer assembly, wherein, regulated the height of this wall device by the mode of stacking this layer assembly, regulated the width of this pedestal sidewall by the mode of this layer assembly of connection arranged side by side.

Wherein, adjusted the length of this wall device by adjusting the mode of the length of this layer assembly, wherein, increase this wall unit, and this wall unit is connected with the wall unit that described layer assembly comprises, to increase the length of this wall device, dismantle one of them wall unit of this layer assembly to reduce the length of this layer assembly.

The utility model also provides a flowing venue, it is characterized in that, comprising:

One shop body, this shop body has an activity space; Wherein

This shop body comprises at least one wall device further, this wall device is arranged at the bottom of this activity space, wherein, this wall device comprises at least one layer assembly further, and this layer assembly is formed this wall device by the mode of connection arranged side by side, wherein, this layer assembly comprises at least one wall elements further, and two adjacent wall elements are connected to each other and form this layer assembly, and this wall elements comprises a flow module further, this flow module has a unitary space, and this unitary space is arranged at the below of this activity space.

Wherein, one of them this layer assembly comprises a flowing supply unit further, and this flowing supply unit is arranged at the below of this activity space.

Wherein, one of them this layer assembly comprises a flowing unit for treating water further, and this unit for treating water is arranged at the below of this activity space.

Wherein, this flow module comprises a component framework and one group of wall elements further, and this wall elements is fixed in this component framework, to form this unitary space.

The utility model also provides a kind of method of setting up flowing venue, comprises the following steps:

Step 1: determine this required flow unit of setting up a flowing venue;

Step 2: respectively this flow unit that participates in this flowing venue of assembling is flowed to the destination of setting up an embassy; With

Step 3: assembling respectively this flow unit to set up this flowing venue.

This step 1 is further comprising the steps:

Step 11: the type of determining this flowing venue;

Step 12: that determines this flowing venue sets up mode; With

Step 13: determine required this flow unit type and quantity of setting up this flowing venue.

This step 3 is further comprising the steps:

Step 31: determine that the number of plies according to this flowing venue is assembled or installed taking pedestal sidewall as unit, the number of plies according to this flowing venue is assembled if determine, performs step 32, installs, then perform step 33 if determine taking pedestal sidewall as unit;

Step 32: assemble to form this flowing venue according to the number of plies of this flowing venue; With

Step 33: assemble to form this flowing venue as unit taking pedestal sidewall.

The utility model also provides a kind of method of assembling flowing venue, it is characterized in that, comprises the following steps:

Steps A: the type of determining a flowing venue;

Step B: each described flow unit is divided into groups according to the type of determined described flowing venue; With

Step C: assemble each described flow unit to form first-class moving base.

Wherein, step D after step C, is comprised further:

Step D: assembling one top cover, is arranged at described flowing pedestal by described top cover, to make described top cover be supported by described flowing pedestal.

Wherein, step e after step D, is comprised further:

Step e: assemble described flowing platform.

Described step B is further comprising the steps:

Step B1: the pedestal sidewall number of packet of determining division according to the quantity of the included described pedestal sidewall of the first-class moving base of determined described flowing venue;

Step B2: the each described flow unit of the same described base side of assembling is divided into same pedestal sidewall grouping;

Step B3: the number of plies of determining respectively each described pedestal sidewall; With

Step B4: in same pedestal sidewall grouping, the each described flow unit that belongs to same described layer assembly is divided into a layer group.

Described step C is further comprising the steps:

Step C1: selected wherein one group of this pedestal sidewall group selectes the each described flow unit that belongs to same described layer group in selected described pedestal sidewall group;

Step C2: each described flow unit selected same described layer group is arranged to corresponding predeterminated position;

Step C3: the each described flow unit that assembling is selected forms described layer assembly;

Step C4: judge and whether have independent described flow unit in each described pedestal sidewall group, if exist, then performs step C1, if there is not independent described flow unit in each described pedestal sidewall group, then described flowing pedestal assembling is complete.

A steps A is also comprised before described steps A ': multiple described flow units are flowed to respectively to destination.

Described steps A ' take a step forward comprise steps A ": be multiple described flow units by described flowing venue shop dismounting.

Institute's steps A " further comprising the steps:

Steps A 1 ": separated described top cover and described flowing pedestal, to make described flowing pedestal no longer support described top cover; With

Steps A 2 ": dismantle described flowing pedestal.

Described steps A 2 " further comprising the steps:

Steps A 21 ": judge whether described flowing pedestal exists the described pedestal sidewall of at least two-layer described layer assembly; if the described pedestal sidewall that has at least two-layer described layer assembly; then perform step A22 ", if the each described pedestal sidewall of described flowing pedestal only has layer assembly described in one deck, then perform step A24 "; if there is not this pedestal sidewall, then perform step A26 ";

Steps A 22 ": selected described layer assembly dismounting is flow unit described at least one by the described layer assembly of selecting the top of the described pedestal sidewall that is positioned at least two-layer this layer assembly;

Steps A 23 ": return to steps A 21 ";

Steps A 24 ": select described layer assembly dismounting is flow unit described at least one by the described layer assembly of the described flowing pedestal of a selected described layer assembly that only has layer assembly described in one deck;

Steps A 25 ": return to steps A 21 ";

Steps A 26 ": dismantling described flowing platform, is multiple platform elements by described flowing platform dismounting; With

Steps A 27 ": this platform element is arranged to described flow unit.

Described steps A 1 " further comprising the steps:

Steps A 11 ": be a upper frame and at least one covering by described top cover dismounting; With

Steps A 12 ": described upper frame is split as to one group of submounts further, so that be accommodated in the described unitary space of described flow module of described flow unit.

Steps A ' further comprising the steps:

Steps A 1 ': the described unitary space that described covering and each described submounts is arranged at the described flow module of described flow unit; With

Steps A 2 ': each described flow unit is moved to respectively to destination.

Accompanying drawing explanation

Fig. 1 is the structured flowchart of a flow unit of a preferred embodiment of the utility model flowing venue.

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

Fig. 2 B is the flow perspective view of a flow unit of a preferred embodiment of venue of the present invention, describes a power supply device and is arranged at this flow unit.

Fig. 2 C is the flow perspective view of a flow unit of a preferred embodiment of venue of the present invention, describes a water treatment facilities and is arranged at this flow unit.

Fig. 2 D is the flow perspective view of a flow unit of a preferred embodiment of venue of the present invention, describes an exhibiting device and is arranged at this flow unit.

Fig. 2 E is the flow perspective view of a flow unit of a preferred embodiment of venue of the present invention, describes a rest assembly and is arranged at this flow unit.

Fig. 3 is the explosive view of a flow unit of another preferred embodiment of the utility model flowing venue

Fig. 4 A is the schematic diagram of a preferred embodiment of the utility model flowing venue.

Fig. 4 B is the schematic diagram of a preferred embodiment of the utility model flowing venue, depicts this flow unit and launches this platform element and form this flowing platform.

Fig. 4 C is the schematic diagram of a preferred embodiment of the utility model flowing venue, depicts this flow unit and launches to form this flowing flowing platform.

Fig. 4 D is the schematic diagram of a preferred embodiment of the utility model flowing venue, depicts two these flow units and launches this platform element formation two these flowing platforms.

Fig. 5 is the schematic diagram of another preferred embodiment of the utility model flowing venue.

Fig. 6 is the schematic diagram of another preferred embodiment of the utility model flowing venue.

Fig. 7 is the schematic diagram of another preferred embodiment of the utility model flowing venue.

Fig. 8 is the structural representation of this connection support member of another preferred embodiment of the utility model flowing venue.

Fig. 9 is the schematic diagram of another preferred embodiment of the utility model flowing venue.

Figure 10 is the schematic diagram of another preferred embodiment of the utility model flowing venue.

Figure 11 is the schematic diagram of another preferred embodiment of the utility model flowing venue.

Figure 12 is the schematic diagram of another preferred embodiment of the utility model flowing venue.

Figure 13 is the schematic diagram of another preferred embodiment of the utility model flowing venue.

Figure 14 is the schematic diagram of another preferred embodiment of the utility model flowing venue.

Figure 15 is the schematic diagram of another preferred embodiment of the utility model flowing venue.

Figure 16 is the schematic diagram of another preferred embodiment of the utility model flowing venue, illustrates that this flowing venue is for flowing Badminton Stadium.

Figure 17 is the schematic diagram of another preferred embodiment of the utility model flowing venue, illustrates that this flowing venue is for flowing Badminton Stadium.

Figure 18 is the schematic diagram of another preferred embodiment of the utility model flowing venue, illustrates that this flowing venue is for flowing natatorium.

Figure 19 is the schematic diagram of another preferred embodiment of the utility model flowing venue, illustrate that this flowing venue is for flowing natatorium, and this flowing natatorium is separated into two regions.

Figure 20 is the schematic diagram of another preferred embodiment of the utility model flowing venue, illustrate that this flowing venue is for flowing natatorium, and this flowing natatorium is separated into two regions.

Figure 21 is the schematic diagram of another preferred embodiment of the utility model flowing venue, describes and re-assemblies the rear outdoor pool that forms by flowing natatorium.

Figure 22 is the schematic diagram of another preferred embodiment of the utility model flowing venue, describes and re-assemblies the rear outdoor pool that forms by flowing natatorium.

Figure 23 is the schematic diagram of another preferred embodiment of the utility model flowing venue, describes a kind of embodiment of this flowing venue top cover.

Figure 24 is the block diagram of another preferred embodiment of the utility model flowing venue, depicts the structure of this serviced component.

Figure 25 is the block diagram of another preferred embodiment of the utility model flowing venue, depicts the structure of this flow unit.

Figure 26 is the schematic diagram of another preferred embodiment of the utility model flowing venue, describes this flowing venue for flowing performance venue.

Figure 27 is the schematic diagram of another preferred embodiment of the utility model flowing venue, describes this flowing venue for flowing performance venue.

Figure 28 is the schematic diagram of another preferred embodiments of the utility model flowing venue, and describing this flowing venue is the venue with ladder auditorium of opening.

Figure 29 is the flow chart that the utility model is set up flowing venue method.

Figure 30 is the schematic diagram of another preferred embodiment of the utility model flowing venue, describes this flowing venue indoor football motion is provided.

Figure 31 is the schematic diagram of another preferred embodiment of the utility model flowing venue, describes this flowing venue indoor football motion is provided.

Figure 32 A is a preferred embodiment schematic diagram of a layer assembly of the utility model flowing venue.

Figure 32 B is another preferred embodiment of this layer assembly of the utility model flowing venue.

Figure 33 is the structured flowchart of another preferred embodiment of this flow unit of the utility model flowing venue.

Figure 34 is the block diagram of another preferred embodiment of the utility model flowing venue, depicts the structured flowchart of another alternative of this serviced component.

Figure 35 is another preferred embodiment of the utility model flowing venue, describes this flowing venue and is used as swimming pool.

Figure 36 is another preferred embodiment of the utility model flowing venue, depicts by a partition wall and is divided this shop body space of this flowing venue into two functional areas.

Figure 37 is the flow chart of the assemble method of the utility model flowing venue.

Figure 38 A is another preferred embodiment of the utility model flowing venue, and the wall that depicts this pedestal sidewall and fixed buildings forms this shop body space.

Figure 38 B is another preferred embodiment of the utility model flowing venue, and the wall that depicts this pedestal sidewall and fixed buildings forms this shop body space.

Figure 39 is another preferred embodiment of the utility model flowing venue, depicts this flowing venue as flowing football pitch.

Figure 40 is the top view of another preferred embodiment of the utility model flowing venue.

Figure 41 is the schematic diagram of this platform element of another preferred embodiment of the utility model flowing venue.

Figure 42 is the schematic diagram of another preferred embodiment of the utility model flowing venue, depicts this platform element and be arranged at the top of this flow unit.

Figure 43 is the schematic diagram of another preferred embodiment of the utility model flowing venue.

Figure 44 is the schematic diagram of another preferred embodiment of the utility model flowing venue.

Figure 45 is the schematic diagram of a unit fixture of another preferred embodiment of the utility model flowing venue.

Figure 46 is the schematic diagram of another preferred embodiments of the utility model flowing venue, and the embodiment of this list fixture is described.

Detailed description of the invention

According to the content disclosed in claim of the present utility model and description, described in the technical solution of the utility model literary composition specific as follows.

Shown in Fig. 3 is a preferred embodiment of the utility model flowing venue. In the present embodiment, this flowing venue is flowing feather shop. This flowing venue comprises at least one flow unit 10. This flow unit 10 being connected to each other is defined as first-class moving base 90. By regulating the quantity of this flow unit 10, this flowing pedestal 90 is regulated, so that the demand of the service that provides to be provided. Preferably, at least two flow units 10 are connected to each other to form this flowing pedestal 90. That is, this flowing pedestal 90 comprises at least two these flow units 10. This flow unit 10 comprises at least one platform element 911, by connecting two these flow units 10, to make this platform element 911 of each this flow unit 10 be interconnected, for forming first-class moving platform 91, thus carries out badminton at this flowing platform 91.

As shown in figure 1 and 2 a, this flow unit 10 comprises a flow module 30. This flow module 30 is convenient to be arranged at conveying arrangement, moves to destination with conveying arrangement. This flow module 30 has a unitary space 34, with in the process of this flow module 30 with conveying arrangement flowing, provides spatial accommodation. This flow unit 10 can stop Preset Time in default destination, is provided shuttlecock place for carrying out badminton by being connected to form this flowing platform 91 with other flow unit 10. This unitary space 34 of each this flow module 30 is as service clearance, to provide service. This flow module 30 comprises a component framework 35 and one group of wall elements 31 further, and respectively this wall elements 31 is removably installed in this component framework 35, with around form this unitary space 34. This component framework 35 comprises a group angle connector 351 and one group of wall connector 352 further. The both ends of this wall connector 352 two angle connectors 352 that are permanently connected respectively. Preferably, this group wall assembly 31 is installed on this component framework 35 around this unitary space 34 that forms a right prism. Preferably, four angle connectors 351 and four wall connectors 352 are connected to form an installation frame 353, so that this wall elements 31 is installed. Be worth one to obtain, this platform element 911 is removably installed in this component framework 35. Specifically, this platform element 911 is removably installed in this installation frame 353. That is, this platform element 911 is removably installed in this installation frame 353 as this wall elements 31. That is, this platform element 911 with respectively at this angle connector 351 be connected with this wall 352 connection. Preferably, at least one platform element 911 is removably installed in this component framework 35, so that formed this flowing platform 91 by this flow unit 10 of connection. That is, this flow module 30 comprises at least one platform element 911, so that form this flowing platform 91. It is worth mentioning that, this platform element 911 can be fixed in this wall elements 11. When two these flow units 10 are connected to each other, be connected to each other this component framework 35 of this flow module 30 of each this flow unit 10, firmly to connect two these flow units 10. This angle connector 351 has a spacing hole 3511 so that the position that each this flow unit 10 is set, thus is convenient to be connected to form this flowing platform 91 for carrying out badminton.

This flow unit 10 comprises a supporting and regulating device 20 further, and this supporting and regulating device 20 removably supports this flow module 30, to maintain the stable of this flow module 30. At this flow unit 10, in flow process, this supporting and regulating device 20 is incorporated in this unitary space 34 that this flow module 30 has, so that this flow unit 10 flows. This supporting and regulating device 20 comprises one group further and supports regulating part 21, and this group supports regulating part 21 and is installed on removably respectively this flow module 30, supports this flow module 30 with adjustable ground, thus this flow module 30 maintaining is stable. It is worth mentioning that, according to state of ground, regulate respectively each this support regulating part 21, keep level to maintain this flow module 30, thus be convenient to be moved by connecting this flowing platform 91 that this flow unit 10 forms. Respectively this support regulating part 21 removably connects respectively one of them this wall elements 31 of this flow module 30. Preferably, each this wall elements 31 of this support regulating part 21 and the bottom that is arranged at this flow module 30. This supporting and regulating device 20 comprises a movable support regulating part 22 further, this movable support regulating part 22 removably supports this flow module 30, so that mobile this flow module 30, thus this flow module 30 of being convenient to be permanently connected respectively is to form this flowing pedestal 30. As shown in Figure 5.

According to Fig. 2 B to Fig. 2 C, this flow module 30 comprises a serviced component 32 further, and this serviced component 32 is placed in this unitary space 34 that this flow module 30 has, thus this service is provided. This serviced component 32 comprises a power supply device 321 further, and this power supply device 321 is fixedly arranged on this unitary space 34, so that energy supply service to be provided. This power supply device 321 comprises a power interface 3211 further, and this power interface 3211 is electrically connected external power source, thus utilizes the external power source to be this flowing Badminton Stadium supply electric energy. This power supply device 321 comprises an energy storage device 3212 further, and this energy storage device 3212 is connected with this power interface 3211, for depositing all external power sources. This power supply device comprises one group of solar panels 3213 further, and 3213 points of these group solar panels add with this energy storage device 3212 and are electrically connected, and to convert solar energy into electrical energy, are then stored in this energy storage device 3212. This power supply device 321 comprises a generator 3214 further, and this generator 3214 can provide electric energy and meet the needs in this flow motion shop. This generator 3214 is electrically connected with this energy storage device 3212, with electrical power storage that this generator 3214 is produced in this energy storage device 3212. When unexpected power failure, this energy storage device 3212 can be this flowing Badminton Stadium supply electric energy immediately, normally works thus maintain this flowing Badminton Stadium. This flow unit 10 that is provided with this power supply device 321 is defined as flowing supply unit 19. This serviced component 32 comprises a water treatment facilities 322 further, and this water treatment facilities 322 is arranged at this flowing space 34, so that water services is carried to this flowing Badminton Stadium, as supplied drinking water and sewage disposal being provided. This water treatment facilities 322 comprises a water supply installation 3221 further, and this water supply installation 3221 can connect external water source, to supply drinking water to this flowing Badminton Stadium. This water treatment facilities 322 comprises a sewage-treatment plant 3222 further, the sewage disposal system that this sewage-treatment plant connection is outside, so that outside sewage disposal system is processed and imported to the sewage of generation, thus avoids contaminated environment. The flow unit that this water treatment facilities 322 is set is defined as circulating water processing unit 18. This serviced component 32 comprises one group of exhibiting device 323 further, and this exhibiting device 323 is arranged at this unitary space 34 and shows service to provide. This flow unit 10 that this exhibiting device 323 is set is defined as Mobile display unit 17. This wall elements 31 that this flow unit 10 of this exhibiting device is set has an opening 311, so that show. This serviced component 32 comprises one group of rest assembly 324 further, for providing service in this unitary space 34. This flow unit 10 that this rest assembly 324 is set is defined as flowing rest unit 16. It is worth mentioning that, this flowing space 34 that this flow unit 10 has can customize this serviced component 32 as required, to utilize this flowing space 34 that service is provided. In the process of flowing, this serviced component 32 is incorporated in this flow unit 10, so that flowing.

As shown in Figure 1, during this flow unit, one step comprises a detection control apparatus 40, this detection control apparatus 40, and this detection control apparatus 40 connects this supporting and regulating device 20 communicatedly, and to control this supporting and regulating device 20, to maintain this flow module 30 stable. This detection control apparatus 40 comprises one group of monitoring element 41 and a control device 42 further. Respectively this monitoring element 41 connects respectively each support regulating part 21 communicatedly, to make respectively this support regulating part at least be connected communicatedly with this monitoring element 41, thus is convenient to obtain the respectively state of this support regulating part 41, is then sent to this control device 42. Analyzed the state of each support regulating part 21 by this control device 42, then each this support regulating part 21 is regulated, to maintain the stable of this flow module 30. This detection control apparatus 40 comprises a positioner further. This positioner 43 obtains the position of this flow unit 10. Preferably, this positioner 43 obtains the real time position of this flow unit 10. The real time position of this flow unit 10 is sent to this control device 42 by this positioner 43, so that manage this flow unit 10. This detection control apparatus 40 comprises a communicator 44 further, this communicator 44 connect this control device 42 communicatedly so that with other this flow unit 10 exchange information, thus collaborative work. That is, multiple these flow units 10 pass through respectively this communicator 44 exchange information, so that collaborative work. This flow unit 10 is received a presupposed solution by this communicator 44, is then sent to this control module 42. This control device 42 is analyzed this presupposed solution, and is obtained the position of this flow unit by this positioner, arrives the E.T.A of default destination to obtain this flow unit 10. Then the information of this flow unit 10 and the default time of advent are coordinated with the flow unit that other receives this presupposed solution by this communicator 44, arrive behind this destination to obtain, the default stop place of this flow unit and with the default connected mode of other flow unit. In other words, this communicator 44 can be analyzed this presupposed solution, obtain default destination, estimate the time of staying in default destination, the position stopping in default destination, and default this holds the state of space 34. It is worth mentioning that, the communication mode that this communicator 44 adopts includes but not limited to, Wi-Fi, Li-Fi, satellite network, communication network and internet.

This flow unit 10 comprises a power supplying apparatus 50 further, and this power supplying apparatus 50 can be this flow unit 10 power is provided, to make this flow unit 10 flow voluntarily. This power supplying apparatus 50 is connected with this detection control apparatus 40. This detection control apparatus 40 controls this power supplying apparatus 50 provides power. Specifically, this control device 42 of this detection control apparatus 40 controls this motion generator 50 provides motion. Preferably, if this flow unit arranges this power supply device 321, this power supply device 321 this power supplying apparatus 50 of connection of side, thinks that this power supplying apparatus 50 provides the energy, to make this power supplying apparatus 50 produce motion. Preferably, this energy storage device 3212 of this power supply device 321 provides the energy to this power supplying apparatus 50. This power supplying apparatus 50 connects described movable support regulating part 22, to provide power to described movable support regulating part 22. This flow unit 10 comprises a guider 60 further, and this guider 50 is connected communicatedly with this detection control apparatus 40, to guide this moving cell 10 to flow to destination. That is, by this power supplying apparatus 50 and this guider 60, this flow unit 10 can flow to destination certainly.

As shown in Figure 3, at this preferred embodiment, two these flow units 10 are connected to form this flowing pedestal 90, and this flowing pedestal 90 provides this flowing platform 91 for carrying out shuttlecock activity. That is, this flowing platform 91 comprises two platform elements 911, is arranged at respectively two these flow units 10. Preferably, this platform element 911 is installed in this installation frame 35 of this flow module 30 of this flow unit 10. Be permanently connected to make two these platform elements 911 to be connected to form this flowing platform 90 for carrying out badminton this two stream unit 10. It is worth mentioning that, two these platform elements 911 are respectively defined as one first platform element 9111 and one second platform element 9112 further. That is, at this preferred embodiment, this flowing platform 10 comprises one first platform element 9111 and one second platform element 9112, and this first platform element 9111 and this second platform element 9112 are connected to form this flowing platform 91 for carrying out badminton.

As shown in Figure 4 A, at this preferred embodiment, this flow unit 10 comprises two these platform elements 911, and one of them this platform element 911 is installed in this component framework 35 of this flow module 30, and another this platform element 911 is removably fixed on the outside of this component framework 35. Preferably, this platform element 911 is installed in the top of this component framework 35, and another this platform element 911 is arranged at the top outer of this component framework 35 overlappingly with this platform element 911. As shown in Figure 4 B, another this platform element 911 can be moved apart this flow unit 10, is then supported by each support regulating part 21, thus is connected with this platform element 911 and is in same level, thus forms this flowing platform 91 for carrying out badminton. Another this platform element 911 that two these flow units 10 are connected another this flow unit 10 of this platform element 911 and another that makes this flow unit 10 is connected to form this flowing platform 91 for carrying out badminton. In addition, when this another this platform element 911 of this flow unit 10 moves apart this flow unit 10, then supported to make another this platform element 911 of this flow unit 10 to be connected to form this flowing platform 91 for carrying out badminton with this platform element 911 of this flow unit 10 by each this support regulating part 21. It is worth mentioning that, by regulating respectively this support regulating part 21, the surface of the surface of another this platform element 911 of this flow unit 10 and this platform element 911 of this flow unit 10 is in same level, so that carry out badminton. And another this platform element 911 of another this flow unit 10 moves apart this flow unit 10, this platform element 911 that is then supported by each this support regulating part 21 another this flow unit 10 of this platform element 911 and another that makes another this flow unit 10 is connected to form this flowing platform 91 for carrying out badminton. Specifically, this flow unit 10 one of wherein, this first platform element 9111 is installed in this component framework 35 of this flow module 30. This second platform element 9112 be installed in this flow module 30 this component framework 35 outside and with this first platform element 9111 overlap. Preferably, this first platform element 9111 is installed in the top of this component framework 35 of this flow module 30. At another this flow unit 10, this second platform element 9112 is installed in this component framework 35 of this flow module 30. This first platform element 9111 be installed in this flow module 30 this component framework 35 outside and with this first platform element 9111 overlap. Preferably, this second platform element 9112 is installed in the top of this component framework 35 of this flow module 30. As shown in Figure 5, connected by connecting two these flow units 10, to make this second platform element 9112 of one of them this flow unit 10 and this first platform 9111 of another this flow unit 10 be connected to form this flowing platform 90 for carrying out badminton. When this flowing platform 90 can not satisfy the demands, by this, this second platform element 9112 of one of them this flow unit 10 moves apart this flow unit 10, then supported by each this support regulating part 22, to make this second platform element 11 be connected to form this flowing platform 91 with this first platform element 9111 of this flow unit 10. This first platform element 9111 of another this flow unit 10 is moved apart to this flow unit 10, then supported to make this first platform element 9111 to be connected to form another this flowing platform 91 with this second platform element 9112 of another this flow unit 10 by each this support regulating part 22, for carrying out badminton. It is worth mentioning that, made this first platform element 9111 be in same level with this second platform element 9112 by each this support regulating part, so that carry out badminton. It is worth mentioning that, another platform element 911 of this flow unit 10 also can be placed in the bottom of this flow module 10 of this flow unit 10. That is, supported another this platform element 911 by this supporting and regulating device 21, another this platform element 911 supports this flow module 30.

As shown in Figure 5, another preferred embodiment of the utility model flowing venue. In the preferred embodiment, this flowing venue is as Badminton Stadium. In order to make this flowing platform be convenient to transport, this flowing platform is divided into at least two platform elements. In the present embodiment, this flowing platform is divided into four platforms element 911. This four platforms element is defined as respectively the 3rd platform element 9113,4th platform element 9114,5th platform element 9115 and the 6th platform element 9116. are in the preferred embodiment, four these flow units 10 are connected to form this flowing pedestal 90, and wherein respectively this flow unit 10 specifically has at least one this platform element 911. Determining the destination of setting up the utility model flowing Badminton Stadium to set up, and quantity that need to this flow unit 10. In the present embodiment, need four these flow units 10 to be connected to form this flowing pedestal 90, and respectively this flow unit 10 comprise at least one this platform element 91. This platform element 91 of four these flow units 10 is connected to form this flowing platform 90 for carrying out badminton. According to the needs of setting up the utility model flowing Badminton Stadium, select four these flow units 10. The utility model flowing Badminton Stadium need to provide electric energy and water, then selects to be provided with this flow unit 10 and this flow unit 10 that is provided with water treatment facilities 322 of this power supply device 321. That is, select this flowing supply unit 19 and this circulating water processing unit 18 so that energy supply service and water treatment service to be provided. Select two these flow units 10 again. It should be noted that respectively this platform element 911 of four selected these flow units 10 can be connected to form this flowing platform 91 for carrying out shuttlecock activity. It is worth mentioning that, the initial position of four these flow units 10 can be positioned at different places. One of them this flow unit 10 is received flowing Badminton Stadium information by this communicator 44 of this detection control apparatus 40, is then sent to this control module 42. This control module 42 is analyzed obtained flowing Badminton Stadium information, obtains destination information. Then this control module 42 is obtained the real time position of this flow unit 10 by this positioner 43. Destination information and real time position are sent to this guider 60 by this control module 42, obtain the route or the E.T.A that arrive this destination. One of them this flow unit 10 is by the current location of one of them this flow unit 10, and route and E.T.A are sent to other three these flow units 10 by this communicator 44, to coordinate a connection scheme. That is, four these flow units 10 are in flow process, according to the position of destination, respectively this flow unit 10 current location and respectively this flow unit estimate to arrive the time of destination, coordinate in stop place, destination, thus make to park to predeterminated position when this flow unit 10 arriving the earliest has been destination. And park to predeterminated position when last this flow unit 10 that arrives destination, four these flow units 10 are connected to form this flowing pedestal 90. Four these flow units 10 comprise respectively this platform element 911, are connected to form this flowing pedestal after 90s at four these flow units 10, and respectively this platform element 911 is connected to form this flowing platform 91 for carrying out shuttlecock activity. Shown in Fig. 6 is the process that four these flow units form this flowing platform. It is worth mentioning that, four these flow units 10 comprise this flowing supply unit 19 and this circulating water processing unit 18.

This flowing platform 91 for a flowing shop body 80 is set, as shown in Figure 7. That is, this flowing platform 91 is as the diapire of this flowing shop body 80. This flowing shop body 80 comprises a shop wall 82 and a top cover 83 further. This shop wall 82 is arranged at this flowing platform 91, for supporting this top cover 83. Preferably, this shop wall 82 is arranged at the edge part of this flowing platform 91, and the height of this shop wall 82 meets the requirement of carrying out badminton, and this flowing shop body 80 provides space and is convenient to carry out shuttlecock activity. This shop wall 82 comprises one group of connection support member 821 and one group of shop wall elements 822 further. The both ends of this shop wall elements 822 are connected respectively support member 821 and removably connect with two, this connection support member 821 removably connects two these shop walls 822. Form this shop wall 82 by this way. Respectively this connection support member 821 is removably fixedly arranged at respectively the edge part of this flowing platform 91. Preferably, respectively this connection support member 821 is fixedly set in the corner portion 912 of this flowing platform 91. Further, the connecting portion 913 at two these platform elements 911 arranges this connection support member 81, so that be fixedly connected with this shop wall elements 821. This top cover 83 comprises a bracing frame 831 and at least one covering 832 further, and this covering 832 is covered in this bracing frame 831, to form this top cover 83. This bracing frame 831 comprises one group of supporting base end portion 8311 further. This group supporting base end portion 8311 respectively correspondence is arranged at respectively this connection bracing or strutting arrangement 821, to be supported by each this connection bracing or strutting arrangement 821. It is worth mentioning that, this connection support member 821 has a filling channel 8211. One aerating device 8212 is set in the bottom of this connection bracing or strutting arrangement 821 to this filling channel inflation. As shown in Figure 8. This bracing frame 831 can be formed by inflation. It is worth mentioning that, shop wall 82 and this top cover 83 of whole flowing shop body 80 can be formed by inflation, as shown in Figure 9. It is worth mentioning that, whole flowing shop body 80 can be formed by filling, as Figure 13, shown in Figure 14.

Figure 10 is another preferred embodiment of the utility model flowing venue. In the preferred embodiment, described flowing venue is as flowing Badminton Stadium. One group of flow unit 10 is flowed to respectively destination. In this flow process, respectively this flow unit 10 is respectively by this communication device switches information of this detection control apparatus 40 of each flow unit 10, to coordinate to form the scheme of flowing Badminton Stadium. Respectively this flow unit 10 is according to the scheme that forms flowing Badminton Stadium, arranges respectively this flow unit 10 in the position of destination, to form this flowing pedestal 90A. In the present embodiment, this flowing pedestal 90A has a shop body space 92A, for holding this flowing platform 91A thus badminton is provided. Specifically, this flowing pedestal 90A comprises at least two pedestal sidewall 93A, between two this pedestal sidewall 93A, has a shop body space 92A for carrying out shuttlecock activity. This pedestal sidewall 93A comprises at least one this flow unit 10 further. In this is preferably implemented, this pedestal sidewall 93A comprises two these these flow units 10 of flow unit 10, two and is connected to each other. It is worth mentioning that, this wall elements 31 of the side that connects of dismounting two these flow units 10 is communicated with this unitary space 34 that makes two these flow units 10 and have respectively respectively, thus is convenient to provide service. Preferably, respectively this moving cell 10 is dismantled this platform element 911A of respectively this flow unit 10, and each this platform element 911A is arranged to this shop body space 92A. Respectively this platform element 911A is connected to each other at this shop body space 92A and forms this flowing platform 91A, so that carry out badminton. Preferably, respectively this platform element 911A is supported by each this supporting and regulating device 20. Coordinated by each this communicator 44 of this detection control apparatus 40 of this flow unit 10, respectively this control device 42 of this detection control apparatus 40 of this flow unit 10 regulates respectively this supporting and regulating device 20 of this flow unit 10, to make the surface of respectively this platform element 911A be in same level, thus be convenient to carry out badminton. It is worth mentioning that, this flowing platform 91 is for a flowing shop body 80A is set. This flowing shop body 80A comprises a shop wall 82A and a top cover 83A further. This shop wall 82A is connected with this flowing platform 91A, and this top cover 83A is supported by this shop wall 82A, meets to provide a shop body space 92A around this flowing platform 91A the requirement of carrying out shuttlecock activity. This shop wall 82A comprises one group of connection support member 821A and one group of shop wall elements 822A further. Towards this side of this flowing platform 91A, connection side 931A will be defined as in this pedestal sidewall 93A. This group connection support member 821A is respectively set at the top of two these pedestal sidewalls. Specifically, this group connects the top of the connection side 931A that support member 821A is spaced apart and arranged in this pedestal sidewall 93A. This shop wall elements 822A is removably arranged between two this connection support member 821A, thus the each shop wall elements 822A and this connection side 931A that make to be arranged on this pedestal sidewall 93A form the sidewall of this flowing shop body 821. This top cover 83A comprises a bracing frame 831A and at least one covering 832A further, and this covering 832A is covered in this bracing frame 831A, to form this top cover 83A. This bracing frame 831A comprises one group of supporting base end portion 8311A further. This group supporting base end portion 8311 respectively correspondence is arranged at respectively this connection support member 821A, to be supported by each this connection support member 821A. It is worth mentioning that, this connection support member 821A has a filling channel 8211A. One aerating device 8212A is set in the bottom of this connection support member 821A to this filling channel inflation. This bracing frame 831A can be formed by inflation. It is worth mentioning that, two this shop wall elements 822A are coupling removably respectively in this wall connector 352 of this flow module 30 of two these flow units 10, to form a wherein end wall of this flowing shop body 80A. As shown in Figure 10.

It is worth mentioning that, if the service that this flowing pedestal 90A provides can not satisfy the demands, quantity that can by increasing this flow unit 10 is to make this flowing pedestal 90A satisfy the demands. This communicator 44 of this detection control apparatus 40 of one of them this flow unit 10 by this flowing pedestal 90A sends and increases unit requests. It is worth mentioning that, in this increase unit requests, comprise, destination locations, the quantity that this flow unit need to be increased and this flow unit 10 need the type of this serviced component 32 of installing, as power supply device 321 or water treatment facilities 322 etc. When another this flow unit 10 this communicator 44 by this detection control apparatus 40 receives increase unit requests after, this another analyzed this increase unit requests of this increase by this control device 42 of this detection control apparatus 40. If another this flow unit 10 meets this increase unit requests, then another this flow unit 10 sends a response request. This response request comprises the type of the serviced component 32 that another this flow unit 10 comprises, the current location of another this flow unit 10, arrives the scheduled time of destination etc. After sending this flow unit 10 of this increase unit requests and receiving this response request, this control device 42 of this detection control apparatus 40 of this flow unit 10 is analyzed this response request to judge whether another this flow unit 10 satisfies the demands. If meet, send receive information to make another this flow unit 10 to receive the position flowing of backward this flow unit 10 of receiving information to another this flow unit 10. If another this flow unit 10 does not meet demand, then send exclude information to refuse the request of another this flow unit 10 to another this flow unit 10. Whether the quantity that this control device 44 of this detection control apparatus 40 of this flow unit 10 judges this flow unit 10 needing further reaches. If reached the quantity that this flow unit 10 need to be increased, then this flow unit 10 is stopped increasing unit requests by this communicator 40 transmission of this detection control apparatus 40, to stop receiving the response request that other this flow unit 10 sends. Stop increasing unit requests when other this flow unit 10 receives, then other this flow unit 10 stops sending response request to this flow unit 10. It is worth mentioning that, after this flow unit 10 receives the response request of multiple these other flow units, arrive on the estimation and preferably select to estimate to arrive this short flow unit 10 of destination time object time. As shown in figure 11, in the preferred embodiment, this flowing pedestal 90A need to increase by two these flow units 10. It is worth mentioning that, two these flow units 10 are coordinated the stand of two these flow units 10 in the process that flows to this destination. After two these newly-increased flow units 10 arrive destination, park by coordinated stand, to make two these flow units 10 be fixedly connected with wherein two these flow units 10 of this flowing pedestal 90A. Two these newly-increased flow units 10 comprise respectively this platform element 911. This platform element 911 that wherein two these flow units 10 of two these platform elements 911 and this flowing pedestal 90A comprise respectively is connected, and to form another this flowing platform 91A, thus provides shuttlecock service. It is worth mentioning that, two these newly-increased flow units 10 regulate respectively by this supporting and regulating device 20 separately, to make the surface of the each platform element 911 that is connected to form another this flowing platform 91A be in same level, thus be convenient to carry out badminton.

If the utilization rate of this another this flowing platform 91A declines, after not needing to provide service, two these flow units 10 that newly increase send free message respectively by this communicator 44 of this detection control apparatus 40 separately, so that receive request. When two these flow units 10 that newly increase receive receive information after, this supporting and regulating device 20 is separately received to this unitary space 34 separately respectively by two these flow units 10 that newly increase so that flowing. Then two these flow units 10 that newly increase are flowed to another destination. It is worth mentioning that, the destination that two these flow units 10 that newly increase are flowed to can be not identical.

Figure 12 is another preferred embodiment of the utility model flowing Badminton Stadium. One group of this flow unit 10 is flowed to default destination. In flow process, coordinate this respectively position of this flowing moving cell 10 of flowing Badminton Stadium scheme arrangement of formation drawing according to this group flow unit 10, form this flowing pedestal 90B. This flowing pedestal 90B has a shop body space 92B, for holding this flowing platform 90B thus badminton is provided. According to the needs that carry out badminton, this shop body space 90B provides and holds at least one this flowing platform 91B and carry out badminton. In the present embodiment, this shop body space 92B provides and holds two this flowing platform 91B for carrying out badminton. This flowing pedestal 90B comprises four pedestal sidewall 93B, and the both ends of four this pedestal sidewall 93B connect successively, with around form this shop body space 92B. This pedestal sidewall 93B comprises at least two layer assembly 931B further, and one of them this layer assembly 931B is fixedly installed on another this layer assembly 931B overlappingly, to be supported by another this layer assembly 931B. This layer assembly 931B comprises at least two these these flow units 10 of flow unit 10, two further and is connected to each other. This wall elements 31 of the vicinity of dismounting two these flow units 10, is communicated with this unitary space 34 that makes two these flow units 10 have respectively respectively. It is worth mentioning that, dismantle respectively two these wall elements 31 of two these flow units 10 of two adjacent layer assembly 931B of two adjacent this pedestal sidewall 93B, this unitary space 34 having respectively with two these flow units 10 that are communicated with two adjacent layer assembly 931B, thus form one deck passage 931B to connect the two-layer group of adjacent assembly 931B of two adjacent this pedestal sidewall 93B. It is worth mentioning that, this serviced component 12 comprises a Stair element 125 further, for this unitary space 34 that is arranged at this flow unit 10, thus is communicated with adjacent layer assembly 931B.

In the preferred embodiment, this shop body space 92B of providing of this flowing pedestal 90B holds two this flowing platform 91B carry out shuttlecock activity for providing. That is, this shop body space 92B can carry out two badmintons simultaneously. Each platform element 911, from respectively this flow unit dismounting, is then moved to this shop body space 92B by this platform element 911 that is arranged on respectively this flow unit 10. Then connection respectively this platform element 911 to form this flowing platform 91B. Be worth mentioning, respectively this platform element 911 can be set up this adjusting supporting device 20, to regulate respectively respectively this adjusting supporting device 20 of this platform element 911 of support, thus make the surface of respectively this platform element 911 be in same level, be beneficial to carry out badminton. Can for this flowing shop body 80B is set at two this flowing platform 91B. Respectively this pedestal sidewall 93B is as the shop wall 82A of this flowing shop body 80B. This flowing shop body 80B comprises a top cover 83B further. This top cover 83B is supported by this pedestal sidewall 93B. This top cover 83B comprises a bracing frame 831B and a covering 832B further, and this covering 832B covers this bracing frame 831B. This bracing frame 831B is supported by each this pedestal sidewall 93B. It is worth mentioning that, this wall elements 31 that is detachably positioned at this flow module 30 of this flow unit 10 of this layer assembly 93B of the bottom of this pedestal sidewall 93B supplies this flowing platform of turnover 91B to form a passage 932B.

Shown in Figure 13 is another preferred embodiment of the utility model flowing Badminton Stadium. In the preferred embodiment, two these flow units 10 are connected to form this flowing pedestal 90C. Two these flow units 10 receive a predetermined flow Badminton Stadium scheme, and respectively this flow unit 10 is analyzed this predetermined flow Badminton Stadium scheme respectively by this control device 44 of this detection control apparatus 40 separately, obtains and estimates destination information. Then respectively this flow unit 10 exchanges respectively by this communicator 44 separately, according to the real time position of two these flow units 10, determines the assembling scheme in destination. Then each flow unit 10 is flowed to destination. After arriving destination after wherein this flow unit 10 arrives destination, according to assembling scheme, be directed to the default place that stops. Then from this unitary space 34, take out one group of this support member 221 and be installed on respectively this adjusting device 21, for firmly supporting this flow module 30. After another this flow unit 10 is flowed to this default object, be directed to default stop local so that be connected with this flow unit 10. Then from this unitary space 34 of another this flow unit 10, take out this group support member 221, be arranged at this adjusting device 21, to keep another this flow unit 10 stable. Then the side of this selected wall assembly 31 of the selected side of this wall assembly 31 of this flow module 30 of another this flow unit 10 and this flow module 30 of this stream unit 10 is moved, to make two these flow units 10 connect. Then this selected wall assembly 31 of this flow module 30 of this flow unit 10 and this selected wall assembly 31 of this flow module 30 of another this flow unit 10 is dismantled, thus this unitary space 34 that another this flow unit 10 is had is communicated with this unitary space 34 of this flow unit 10, forms a service clearance 34A. It is worth mentioning that, this control device 42 of this detection control apparatus 40 of this flow unit 10 is carried out collaborative work by this communicator 44 with another this flow unit 10. By regulating respectively each adjusting support member 221 of this flow unit 10 and each support regulating part 221 of another this flow unit 10, to make this wall assembly 31 of the bottom that is positioned at this flow module 30 of this flow unit 10 be in same level with this wall assembly 31 of the bottom that is positioned at this flow module 30 of another this flow unit 10, so that move. Two these flow units 10 are by detection control apparatus 20 collaborative work separately, and two walls that are positioned at bottom to maintain two these flow module 30 are in same level without part 31. It is worth mentioning that, one of them wall elements 31 can be dismantled in addition, to form an opening 314 for entering this activity space 34C. This activity space 34C forming after this two stream unit 10 combination can for movable. Two these flow units 10 are connected to form this flowing pedestal 90C.

It is worth mentioning that, if the space that this flowing pedestal 90C provides can not satisfy the demands, by this communicator 44 of this detection control apparatus 40 of one of them this flow unit 10, this flow unit 10 of increase can be sent and ask, to increase space. A kind of mode that increases flow unit 10 on the basis of Fig. 2 A in the utility model one preferred embodiment shown in Figure 13. Flowing pedestal 90C increases flowing shop body 80C. This communicator 44 request by this detection control apparatus 40 of this flow unit 10 wherein increases by two these flow units 10. After two these flow units 10 that increase receive request, exchanged by communication module separately 44, so that collaborative work. According to the position of two these flow units 10 that increase, determine newly-increased assembling scheme. After wherein a flow unit 10 increasing flows to this destination, according to fixed assembling scheme, this flowing platform 91 that this flow module 30 of this flow unit 10 is arranged. Then, two default these wall elements 31 of two flow module 30 of two flow units 10 of the default connection of dismounting respectively, thus this unitary space 34 that this flow unit 10 increasing newly is had is connected to form newly-increased activity space 34C with this unitary space 34 of another this newly-increased flow unit 10. Two newly-increased these flow units 10 are connected to form this flowing shop body 80C. The two selected wall elements 31 of two these flow units 10 that dismounting increases newly are respectively communicated with this unitary space 34 that two flow units 10 that make to increase newly have respectively, to satisfy the demand. It is worth mentioning that, can before this flow unit 10 be arranged on to this flowing pedestal 90, dismantle this default wall elements 31 of this flow module 30 of this flow unit 10, and dismantle this default wall elements 31 of this flow module 30 of another this flow unit 10, thus two these flow units 10 that make to increase newly are arranged on this flowing pedestal 90 and by after presupposed solution connection, this unitary space 34 that this unitary space 34 and another flow unit 10 that this flow unit 10 has has is communicated with, to satisfy the demand. Two these detection control apparatus 40 of two newly-increased these flow units 10 control respectively corresponding wall elements 31 and regulate, and with the corresponding wall elements 31 that raises, thus make the height of newly-increased activity space 34C meet the requirement of carrying out shuttlecock activity. In addition, a fixture (in figure do not show) can be increased between each flow unit 10, to make two flow units 10 be fixedly connected with.

Shown in Figure 14 and Figure 15 is that the wall elements that is arranged at side and/or top 31 of this flow unit 10 can be aerating device. In other words, this aerating device forms the side that is arranged at side and top of this flow module 30 of this flow unit 10

Shown in Figure 16 is another preferred embodiment of the utility model flowing venue. This flowing venue comprises first-class moving base 90D, and this flowing pedestal 90D has a shop body space 92D for carrying out badminton. This flowing Badminton Stadium comprises a top cover 83D further, and this top cover 83D is supported by this flowing pedestal 90D, to cover this shop body space 92D, thus makes to reduce other factors outside this Badminton Stadium on carrying out the impact of badminton, as weather conditions. This flowing pedestal 90D comprises at least two pedestal sidewall 93D further, forms this shop body space 92D for carrying out activity, preferably carry out shuttlecock activity between two this pedestal sidewall 93D. This top cover 83D is supported respectively by two this pedestal sidewall 93D. Preferably, this flowing pedestal 90D comprises four this pedestal sidewall 93D, and this top cover 83D is supported by four this pedestal sidewall 93D. Four these pedestal sidewalls 93 are around arranging to form this shop body space 92D for carrying out activity. This pedestal sidewall 93D comprises at least one layer assembly 931D further. If pedestal sidewall 93D comprises two layer assembly 931D. Respectively this layer assembly 931D forms this pedestal sidewall 93D in the mode of stack. That is, one of them layer assembly 931D supports another this layer assembly 931D to form this pedestal sidewall 931D. It is worth mentioning that, made the firmly connection of each layer assembly 931D by jockey. Preferably, this pedestal sidewall 93D comprises three this layer assembly 931D. That is, three this layer assembly 931D form this pedestal sidewall 93D in the mode of stack. For the ease of flowing, this layer assembly 931D comprises at least one flow unit 10D further. In the preferred embodiment, a wherein end of two this flow unit 10D connects mutually to form this layer assembly 931D. This flow unit 10D is convenient to flowing, and that is, this flow unit 10D is convenient to dismounting, assembling and transport. That is, this flowing venue can be disassembled into one group of flow unit 10D. This flowing venue is flowed to default destination by the mode with this group flow unit 10D that flows, and then this group flow unit 10D is assembled into this flowing venue. It is worth mentioning that, by one group of serviced component 32D, this flowing Badminton Stadium can provide the service corresponding with this group serviced component 32D. Preferably, this serviced component 32D is arranged at this flow unit 10D, so that integrally dismantle, assemble with this flow unit 10D and transport. It is worth mentioning that, if this flowing venue can not meet the requirement of service, by increasing this flow unit 10D that is provided with this serviced component 32D, the demand to service can be met. If in this flowing venue, this flow unit of some of them 10D utilization rate is low, this flow unit 10D can be removed from this flowing venue. Then the flowing venue place that this flow unit 10D need to be increased is flowed to, to improve the utilization rate of this flow unit 10D.

As shown in figure 25, this flow unit 10D comprises this flow module 30D. This flow module 30D comprises a component framework 35D and one group of wall elements 31D further, and described wall elements 31D removably connects described component framework 35D, to form a unitary space 34D. It is worth mentioning that this flow unit 10D of two connections, by dismantling respectively the two adjacent wall elements 31D of two this flow unit 10D, be communicated with the two unitary space 34D that make two this flow unit 10D have respectively. By being communicated with the two adjacent unitary space 34D of two adjacent flow module 30D, to make two adjacent layer assembly 931D be communicated with, be convenient to provide service. By being communicated with the two adjacent unitary space 34D of two adjacent flow module 30D, more spatial placements this serviced component 32D also can being made, thus better service is provided. Preferably, this serviced component 32D is arranged on single this flow module 30D, so that dismantle, install and transport together with this flow unit 10D, thus provides the flow efficiency of this flowing Badminton Stadium. It is worth mentioning that, one of them is arranged at two this wall elements 31D that this flow unit 10D of this flowing venue bottom is relative and will be disassembled, and to form a unit channel 341D, is entered venue by this unit channel.

As shown in figure 24, that is, this flow module 30D comprises at least one serviced component 32D further, and this serviced component 32D is arranged at this unitary space 34D that this flow module 30D has, to make this flow unit 34D that the service of this serviced component 32D is provided. This serviced component 32D comprises a power supply device 321D further, and this power supply device 321D can be fixedly arranged on this unitary space 34D, to make this flow unit 10D that is provided with this power supply device 321D that energy supply service is provided. Described energy supply service refers to that this flowing Badminton Stadium for being formed by this group unitary space 34D assembling provides electric energy. This power supply device 321D comprises a power interface 3211D further for connection external power source, thus utilizes external power source to this flowing Badminton Stadium supply electric energy. This power supply device 321D comprises an energy storage device 3212D further, and this energy storage device 3212D is electrically connected this power interface 3211D, with store electrical energy. This energy storage device 3212D can be used as stand-by power supply, and when external power source stops powering to this flowing Badminton Stadium, this energy storage device 3212D powers to this flowing Badminton Stadium. This power supply device 321D comprises one group of solar-energy collector 3213D further, and this group solar-energy collector 3213D is electrically connected this energy storage device 3212D. This group solar-energy collector 3213D obtains solar energy, then converts solar energy into electrical energy and is stored in this energy storage device 3212D. Preferably, this group solar-energy collector 3213D is arranged at the outside of this wall elements 31D, so that collect solar energy. This power supply device 321D comprises a generator 3214D further, this energy storage device of this generator 3214D electrical links 3212D, with by generation electrical power storage in this energy storage device 3212D. This generator 3214D can directly to this flowing Badminton Stadium for electric energy. When external power source stops powering to this flowing Badminton Stadium, this generator 3214D powers to this flowing Badminton Stadium. When external power source recovers to power to this flowing Badminton Stadium, this generator 3214D stops powering to this flowing Badminton Stadium. When external power source and this generator 3214D stop powering to this flowing Badminton Stadium simultaneously, this energy storage device 3212D powers to this flowing Badminton Stadium. This serviced component 32D comprises a water treatment facilities 322D further, this water treatment facilities 322 is arranged at this unitary space 34D of this flow module 30D, to provide water treatment service to this flowing Badminton Stadium, as supplied drinking water, purified treatment is carried out so that recycle to water, sewage is processed. This water treatment facilities 322D device can connect external water source, to provide water source to this flowing Badminton Stadium. This water treatment facilities 322D can connect outside sewage disposal system, so that the sewage in this flowing Badminton Stadium processing is processed, is then disposed to outside sewage disposal system, thus avoids environment to pollute. This water treatment facilities 322D comprises a water supply installation 3221D further, and this water supply installation 3221D connects this external water source, to this flowing Badminton Stadium supply domestic water. Further, this water supply installation 3221D processes external water source, to supply drinking water. This water treatment facilities 322D comprises sewage-treatment plant 3222D further, the sewage disposal system that this sewage-treatment plant 3222D connection is outside, so that outside sewage disposal system is processed and imported to the sewage of generation, thus avoids contaminated environment. This water treatment facilities 322D comprises a water purification installation 3223D further, and this water purification installation 3223D can supply purified water source, so that Recycling. This water purification installation 3223D comprises at least two and is fixedly connected with the 32231D of portion. Wherein one this be fixedly connected with the 32231D of portion guide water enter this water purification installation 3223D to carry out Water warfare. Another this be fixedly connected with the 32231D of portion and guide the water having purified to discharge this water purification installation 3223D. This serviced component 32D comprises one group of exhibiting device 323D further, and this exhibiting device 323D is arranged at this unitary space 34D that this flow module 30D has and shows service to provide. This wall elements 31D that is provided with this flow unit 10D of this exhibiting device 34D has an opening 311D, so that show. This serviced component 32D comprises one group of rest assembly 324D further, for providing service in this unitary space 34. This serviced component 32D comprises a temperature-controlled package 325D further to regulate the temperature of this flowing venue. This temperature-controlled package 325D is arranged in this unitary space 34D of this flow module 32D, with the temperature regulating in this flowing venue. It is worth mentioning that, this temperature-controlled package 325D can, for the quality that regulates air, have ozone to maintain in this venue. It is worth mentioning that, this unitary space 34D that this flow unit 10D has can customize this serviced component 32D as required, to utilize this unitary space 34D that service is provided. The service of changing one's clothes as needs provide, then the customization one serviced component 326D that changes one's clothes, the serviced component 326D that then this changed one's clothes is arranged at this unitary space 34D of this flow module 30D of this flow unit 10D, to make this flow unit 10D that the service of changing one's clothes is provided. That is, by this serviced component 326D that changes one's clothes, at this flowing space 34D, dressing cubicle service can be provided. As needs provide toilet, then customization one sanitary parts 327D, is then arranged at this unitary space 34D of this flow module 30D, so that Health Services to be provided by this Health Services assembly 326D. As needs provide culinary art service, then a customizable culinary art assembly 328D, is then arranged at unitary space so that culinary art service to be provided by this culinary art assembly 328D. It is worth mentioning that, in this unitary space 34D of this flow module 32D of this flow unit 10D, can at least one serviced component 32D is set. That is, can multiple serviced component 32D be set in this unitary space 34D that this flow module 32D has as required. Preferably, this serviced component 34D is separately set in the unitary space 34D of this flow module 32D of this flow unit 10D. This flow unit 10D that is provided with this power supply device 321D is defined as flowing supply unit 19D. This flow unit 10D that is provided with this unit for treating water 322D is defined as circulating water processing unit 18D. This flow unit 10D that is provided with this exhibiting device 323D is defined as Mobile display unit 17D. This flow unit 10D that is provided with this rest assembly 324D is defined as flowing rest unit 16D. This flow unit that is provided with this temperature-controlled package 325D is defined as flowing temperature regulon 15D. This flow unit 10D that is provided with this dressing cubicle assembly 326D is defined as flowing dressing cubicle unit 14D. This flow unit 10D that is provided with this toilet components 327D is defined as Portable toilet unit 13D. It is worth mentioning that, at least one serviced component 32D can be arranged at this flow unit 10D, to make this flow unit 10D provide service as this flowing Badminton Stadium. Preferably, this flowing venue at least comprises a flowing supply unit 19D, and that is, this flowing venue at least comprises a flow unit 10D this power supply device 321D is set. This flowing venue at least comprises a flowing unit for treating water 322D, and namely this flowing venue comprises a flow unit 10D further and is provided with described water treatment facilities 322D.

This top cover 83D comprises a bracing frame 831D and a covering 832D further, and this covering 832D covers this bracing frame 831D, and this bracing frame 831D is supported by each pedestal sidewall 93D. Preferably, this covering 832D is that soft waterproof material is made, so that be contained this unitary space 34D to this flow module 30D. It is worth mentioning that, this bracing frame 831D also can be contained this unitary space 34D to this flow module 30D, is moved into destination with this flow unit 10D. It is worth mentioning that,

Shown in Figure 23 is another alternate embodiments of this top cover. This top cover 83E comprises at least one bracing or strutting arrangement 831E and at least one covering 832E further, and this group bracing or strutting arrangement 831E compartment of terrain is arranged at described shop body space 92D, and preferably, this bracing or strutting arrangement 831E is arranged on the gap in two shuttlecock places. This group covering 832E is fixed in respectively between two this bracing or strutting arrangement 831E, for covering this shop body space 92D. This bracing or strutting arrangement 831E comprises a main support member 8311E further, at least two sub-support member 8312E and at least two connector 8313E, two these sub-support member 8312E are located at respectively the outside of two this pedestal sidewall 93D, and this main support member 8311E is arranged in the body space of described shop. Preferably, the gap in two shuttlecock places is arranged at. This connector 8313E connects main support member 8311E and sub-support member 8312E. Described covering 832E be fixedly connected with two this connector 8313E respectively, to be fixed between two this bracing or strutting arrangement 831E. It is worth mentioning that this flow unit 10D of a customizable type, to make the length of this flow unit 10D be greater than the distance between two relative this wall assembly 93D, to be supported respectively by two these wall assemblies by this, thus form this top cover. It is worth mentioning that, this top cover can adopt jacking membrane structure, or other structure.

This flowing Badminton Stadium comprises first-class moving platform 91D further, and this flowing platform 91D is arranged at the bottom of this shop body space 92D, for carrying out badminton. It is worth mentioning that, this flowing platform 91D is provided with at least one shuttlecock place. In the preferred embodiment, this flowing platform 91D has been provided with three shuttlecock places. This flowing platform 91D comprises a group platform element 911D further. Each this platform element 911D is respectively equipped with wherein a part of shuttlecock place. This platform element 911D can be arranged at respectively on this flow unit 10D, flows to destination with this flow unit 10D. As, this platform element 911D is placed on this unitary space 34D of this flow module 30D of this flow unit 10D. It is worth mentioning that, this platform element 911D can be used as this wall elements 31D and is removably arranged on and is arranged on this component framework 35D, thus improves flow efficiency.

This flow unit 10D comprises a supporting and regulating device 20D further, this supporting and regulating device 20D removably supports this flow module 30D, to maintain the stable of this flow module 30D, this supporting and regulating device 20D can be incorporated in this unitary space 34D of this flow module 30D. This supporting and regulating device 20D comprises one group further and supports regulating part 21D, and this group supports regulating part 21D and is installed on removably respectively this flow module 30D, supports this flow module 30D with adjustable ground, thus maintains the stable of this flow module 30D. It is worth mentioning that, this support regulating part 21D can be arranged on respectively this platform element 911D, stably to support respectively this platform element 911D. It is worth mentioning that adjustable respectively this support regulating part 21D to make respectively this platform element 911D be in same level, thus makes this flowing platform 91D of respectively this platform element formation that 911D assembles be convenient to carry out badminton.

It is worth mentioning that, in order to make in flowing, this flow unit 10D can be customized to plurality of specifications. In the preferred embodiment, this flow unit 10D comprises two kinds of specifications, first-class moving cell 101D and second moving cell 102D. Preferably, the type of this first-class moving cell 101D is the specification of 20 chi containers, and the type of this second moving cell 102D is the specification of 40 chi containers. It is the specification of the first container by the type of first-class moving cell 101D, the type of this second moving cell 102D is that the advantage of specification of the second container is, after next destination is determined, determine the service that the service that this flowing Badminton Stadium provides in this destination provides further. Then this flowing Badminton Stadium is dismantled. This flowing Badminton Stadium is dismantled and arranged is one group of flow unit 10D, so that flowing. This group flow unit 10D is flowed to next destination, then in this destination, this group flow unit 10D assembling is formed to this flowing Badminton Stadium. It is worth mentioning that, after this flowing Badminton Stadium is disassembled arrangement and is one group of flow unit 10D, according to the service providing required for this flowing Badminton Stadium of next destination, this group flow unit 10D that is provided with respective service assembly 32D is flowed to this destination. Meanwhile, prepare one group of container in advance in this destination, be shaped as another this flowing Badminton Stadium with this group flow unit 10D coordinated groups that is provided with respective service assembly 32D. That is, this flowing Badminton Stadium dismounting, this group flow unit 10D after arrangement can be flowed to respectively different destinations according to demand. This group flow unit 10D can form this flowing Badminton Stadium with the collaborative assembling of container. It is worth mentioning that, according to the quantity of this flow module 10D, formation can be assembled have this flowing Badminton Stadium in multiple shuttlecocks place. Preferably, the first specifications of container is 20 chi containers. The second specifications of container is 40 chi containers. It is worth mentioning that, this serviced component 32D can for being installed on container.

This flow unit 10D comprises a detection control apparatus 40D further, and this detection control apparatus 40D connects this supporting and regulating device 20D communicatedly, remains stable to control this supporting and regulating device 20D. This detection control apparatus 40D comprises one group of monitoring element 41D and a control device 42D further. Respectively this monitoring element 41D connects respectively each support regulating part 21D communicatedly, to make respectively this support regulating part 21D at least be connected communicatedly with this monitoring element 41D, thus be convenient to obtain the respectively state of this support regulating part 21D, be then sent to this control device 42D. Analyzed the state of each support regulating part 21D by this control device 42D, then each this support regulating part 21D is regulated, to maintain the stable of this flow module 30D or this platform element 911D. This detection control apparatus 40D comprises a positioner 43D further. This positioner 43D obtains the position of this flow unit 10D. Preferably, this positioner 43D obtains the real time position of this flow unit 10D. The real time position of this flow unit 10D is sent to this control device 42D by this positioner 43D, so that manage this flow unit 10D. This detection control apparatus 40D comprises a communicator 44D further, and this communicator 44D connects this control device 42D communicatedly so that exchange information with other this flow unit 10D, thus collaborative work. That is, multiple this flow unit 10D are exchanged information by each this communicator 44D, so that collaborative work. This flow unit 10D is received a presupposed solution by this communicator 44D, is then sent to this control module 42D. This control device 42D analyzes this presupposed solution, and is obtained the position of this flow unit 10D by this positioner 43D, arrives the E.T.A of default destination to obtain this flow unit 10D. Then the information of this flow unit 10D and the default time of advent are coordinated by the flow unit that this communicator 44D and other receive this presupposed solution, arrive behind this destination to obtain, the default stop place of this flow unit and with the default assembling mode of other flow unit 10D. In other words, this communicator 44D can analyze this presupposed solution, obtains default destination, estimates the time of staying in default destination, the position stopping in default destination, and the state of this spatial accommodation of default destination. It is worth mentioning that, the communication mode that this communicator 44D adopts includes but not limited to, Wi-Fi, Li-Fi, satellite network, communication network and internet.

This flow unit of this group 10D is flowed to default destination. In flow process, this group flow unit 10D tunable draws the scheme that forms this flowing Badminton Stadium. When this group flow unit 10D arrives this destination, assemble according to coordinated scheme. For example, assembling this flowing Badminton Stadium as shown in figure 18, first respectively this layer assembly 931D of assembling bottom. In the preferred embodiment, this layer assembly 931D comprises two this flow unit 10D. Respectively this flow unit 10D that needs is carried out respectively this layer assembly 931D assembling of bottom guides to predetermined assembling region. Two this flow unit 10D are to form this layer assembly 931D in connection. After respectively this layer assembly 931D assembling that completes bottom, respectively this layer assembly 931D at assembling middle part. Respectively this flow unit 10D at assembling middle part is located at respectively on respectively this layer assembly 931D of bottom, to be supported by respectively this layer assembly 931D of bottom. Connection two this flow unit 10D forms this layer assembly 931D that is arranged at middle part. Finally complete the assembling of respectively this layer assembly 931D at top. Each this flow unit 10 is placed on this layer assembly 931D at this middle part, is supported by this layer assembly 931D at middle part. Then connection two these flow units 10 form this layer assembly 931D at top. In the preferred embodiment, this layer assembly 931D assembling at this layer assembly 931D of bottom and this layer assembly 931D at middle part and top forms this wall assembly 93D. This bracing frame 831D of this top cover 83D is placed in each layer assembly 931D at top to make this bracing frame 831D of this top cover 83D be supported by each layer assembly 931D at each top. Then this covering 832D is covered this bracing frame 831D to form this top cover 83D. It is worth mentioning that, this serviced component 32D can be arranged on respectively this flow unit 10D before assembly, and each flow unit 10D also can be arranged on after assembling.

Shown in Figure 18 is another preferred embodiment of the utility model flowing venue. In the preferred embodiment, this flowing venue is as flowing natatorium, and this flowing natatorium has at least one swimming pool 70D. It is worth mentioning that, in the preferred embodiment shown in Figure 16, only need to increase by a water-tight device 71D, the utility model flowing venue then can be made to change flowing natatorium into by the Badminton Stadium that flows. This water-tight device 71D is arranged on the bottom of this shop body space 92D, and is installed in the respectively bottom inside of this pedestal sidewall 93D, to form a swimming pool 70D in the bottom of this shop body space 92D. This water-tight device 71D is provided with at least two flow-guiding mouth 711D further, for drainage current. Preferably, this of this flow-guiding mouth 711D and this water purification installation 3223D is fixedly connected with the 32231D of portion (not representing in the drawings) and is connected, to be fixedly connected with the 32231D of portion (not representing in the drawings) to fix by this. Be arranged on water in this water-tight device 71D to enter one of them through one of them this flow-guiding mouth 711D this is fixedly connected with the 32231D of portion, then enter water purification installation 3223D and carry out purified treatment. Then the water after purifying is fixedly connected with the 32231D of portion (not representing in the drawings) by another this and this flow-guiding mouth 711D is returned in this water-tight device 71D by drainage, thus ensures the quality of water. This water-tight device 71D can be set as required, to form the swimming pool 70D that meets demand. Preferably, each this water-tight device 71D correspondence arranges each this swimming pool 70D. The degree of depth of this swimming pool can be determined according to the height that this water-tight device 70D is arranged on this pedestal sidewall 93D. In the preferred embodiment, preferably, the height of this water-tight device 70D reaches this layer assembly 931D at middle part. Preferably, this water-tight device 70D is soft waterproof material, so that be incorporated in this unitary space 34D, thus is convenient to flowing. It is worth mentioning that, the wherein part in the bottom of formed swimming pool arranges at least one this flow unit 10D to form different depth of water regions in this swimming pool.

As illustrated in figures 19 and 20, it is worth mentioning that, multiple this flow unit 10D can be set, swimming pool is divided into at least two regions, so that different service to be provided in different regions. First, the border of zoning is determined at swimming pool. Then some this flow unit 10D are set in a stacked fashion along border, with by the moisture of boundaries on either side every, form at least two regions. Preferably, some this flow unit 10D are stacked to the depth of water of this swimming pool 70D. By being set, respectively the water in two regions is processed this flow unit 10D with water treatment facilities 322D, so that different service to be provided. As provided respectively warm pond and water cooling pond by water treatment facilities 322D. As shown in figure 19. Preferably, the both sides of the partition wall 72D that respectively this flow unit 10D of separated region forms are set up respectively this water-tight device 71D, to stop the water in two regions by this partition wall 72D. Preferably, can multiple unit for treating water 322D be set multiple this flow unit 10D in the bottom of this flowing natatorium, when swimming pool occurs unexpected, as when drowned, two of purifier 3223D can be fixedly connected with the 32231D of portion (not indicating in the drawings) is all set to guide water to flow to this purifier 3223D, this purifier 3223D stops purifying waste water, but water is excluded to swimming pool, to save the people who is drown. Due to multiple purifier 3223D are set, drainage efficiency improves, and improves with the efficiency that makes people be rescued. It is worth mentioning that, from flowing Badminton Stadium be set to flowing natatorium process, the service that this flowing Badminton Stadium is provided by serviced component, as power supply, water treatment, dressing cubicle, toilet, the services such as lobby are all retained, and provide service thus continue as this flowing natatorium.

It is worth mentioning that, if this swimming pool 70D of this flowing natatorium can not satisfy the demands, this flowing natatorium can be dismantled, then re-assembly, form outdoor pool, thus increase the area of swimming pool and satisfy the demand. The swimming pool in a region can be formed, as shown in figure 21. Or form the swimming pool in multiple regions, as shown in figure 22. If this flowing natatorium need to flow to another destination, then the same with this shop, flowing feather shop, this flowing natatorium is dismantled and then arranged as each flow unit 10D. Flow taking flow unit 10D as unit. After flowing to another destination, assemble again.

Shown in Figure 26 and Figure 27 is another preferred embodiment of the utility model flowing venue. This flowing venue is flowing performance shop. Shop body space 92D at flowing Badminton Stadium arranges a performance platform 73D. This performance platform 73D comprises at least one this flow unit 10D. That is, by this flow unit 10 being set to form this performance platform 73D in this shop body space 92D assembling. Preferably, some these flow units 10 are connected side by side in the bottom of this shop body space 92D to form this performance platform 73D. It is worth mentioning that, in this performance platform 73D, this unitary space 34D connection that two adjacent this wall elements 31D that dismantle respectively two these flow module 30D of two this flow unit 10D of connection have to make respectively this flow unit 10D, thus form space, a backstage 731D. According to the needs of performance, the position-adjustable of this performance platform 731. As being arranged on one end of this shop body space 92D bottom, or the middle part of this shop body space 92D bottom. It is worth mentioning that, by this performance platform 73D arrange the middle part of this shop body space 92D bottom, can be used as the match platform of combat sports. As boxing, tae kwon do etc.

It is worth mentioning that, this flowing venue comprise one group of flow unit 10D, can arrange to adapt to different purposes to this group flow unit 10D as required, as increased this flow unit 10, or re-assembly flow unit 10 etc. Thus make, flowing Badminton Stadium is converted to flowing natatorium or flowing performance shop. Flowing natatorium also can be changed mutually with flowing performance shop.

It is worth mentioning that, this group flow unit 10D of same this flowing venue, can be flowed to respectively different destinations, coordinates other flow unit 10D to form different flowing venues. For example, this flowing venue is as this flowing Badminton Stadium. This flowing venue receives the request of two destinations, and the request of one of them destination is for setting up flowing natatorium, and the request of another destination is for setting up flowing performance shop. This flowing venue cannot meet the request of these two destinations simultaneously. If but the specification of each flow unit 10D of this flowing venue and the specification of container are consistent, then respectively this flow unit 10 of this flowing venue can be worked in coordination with assembling with container, forms flowing venue. Preferably, this flow unit 10D is container. Therefore, can, according to the demand of destination, this flowing venue be dismantled, arrange and become this group flow unit 10D. Then this group flow unit 10D is divided into two parts, in base, a part is flowed to the destination of the natatorium of need to flowing, and another part is flowed to the destination that needs this flowing to perform venue. It is noted that due to one of them destination when this group flow unit 10D is divided to different piece it is desirable that the natatorium of flowing, therefore can overabsorption circulating water processing unit 18D to this grouping. The venue size of simultaneously setting up as required is distributed the quantity of supply unit 19D. The quantity that service distribution is provided with service unit is provided required for basis again. Respectively by means of transport, each this flow unit 10D is transported to destination separately. After each flow unit 10D arrives destination, start and the collaborative assembling of container.

As shown in figure 28, this flowing venue comprises first-class moving base 90E, and this flowing pedestal 90E has a shop body space 92E. Preferably, this shop body space 92E provides and carries out shuttlecock activity. This flowing pedestal 90E comprises at least two pedestal sidewall 93E further, forms this shop body space 92E for carrying out activity, preferentially carry out shuttlecock activity between two this pedestal sidewall 93E. Preferably, this flowing pedestal 90E comprises four this pedestal sidewall 93E, and four this pedestal sidewall 93E are around arranging to form this shop body space 92D for carrying out activity. This pedestal sidewall comprises at least one layer assembly 931E further. In the preferred embodiment, this pedestal sidewall 93E comprises three this layer assembly 931E, and the layer assembly 931E that is arranged at middle part is connected respectively with the layer assembly 931E that is arranged at inside and the layer assembly 931E that is arranged at outside respectively. That is, three this layer assembly 931E connect to form one side by side and watch the 9311E of portion. Preferably, three this layer assembly 931E are respectively three highly different this flow unit 10D. This pedestal sidewall 93E has another alternative. This pedestal sidewall 93E has two layer assembly 931E, and wherein a layer assembly 931E arranges inside, and another layer assembly arranges outside this layer assembly 931E that is arranged at inside with this and is connected. It is worth mentioning that, the quantity of outside included this flow unit of this layer assembly 931E 10D is greater than the quantity of included this flow unit of interior layer assembly 931E 10D. Preferably, the quantity of outside included this flow unit of this layer assembly 931E 10D is the twice of quantity of included this flow unit of interior layer assembly 931E 10D. Outside this layer assembly 931E has sandwich construction, and in other words, this flow unit 10D forms this in the mode superposeing and is arranged at outside this layer assembly 931D. Form this pedestal sidewall 93E of hierarchic structure thus.

That is, this flow unit 10D of prefabricated at least two types, wherein the height of one type of this flow unit 10D is greater than this flow unit 10D of another kind of type. That is, this flow unit 10D of two types has difference in height. This flow unit 10D of same type is assembled to form this layer assembly 931E. That is, this flow unit 10 of two types is assembled the layer assembly 931E that forms two types. Then two types of described layer assembly 931E are connected side by side. Further, all types of described layer assembly 931E are to the distance of described shop body space from far near according to the height descending of all types of described layer assembly 931E.

As shown in figure 29, set up this flowing venue to comprise the following steps:

Step 1001: determine required this flow unit 10D that sets up this flowing venue.

Step 1002: respectively this flow unit 10D that participates in this flowing venue of assembling is flowed to the destination of setting up an embassy.

Step 1003: assembling respectively this flow unit 10D to set up this flowing venue.

Step 1001 is further comprising the steps:

Step 10011: the type of determining this flowing venue. As, determine that the flowing venue of foundation is flowing Badminton Stadium or flowing natatorium. Further, the type that also needs to determine this flowing venue is the need of transformation. As this flowing Badminton Stadium changes this flowing natatorium into.

Step 10012: that determines this flowing venue sets up mode. Determine that this flowing venue is the mode that all adopts flow unit 10D assembling or adopt flow unit 10D and container Hybrid assembling.

Step 10013: determine required this flow unit 10D that sets up this flowing venue. First, determine set up this flow unit 10D need arrange this serviced component 32D type. As this flowing supply unit 19D of this power supply device 321D of this serviced component 32D is set at this flow unit 10D, or this circulating water processing unit 18D of this water treatment facilities 322D of this serviced component 32D is set at this flow unit 10D, or this Mobile display unit 17D etc. Then, the quantity required for all types of this flow unit 10D is determined further. Then, determine that the original position of this flow unit 10D of this flowing venue is set up in participation, and determine the original position of respectively this flow unit 10D that is provided with this serviced component 32D. It is worth mentioning that, in determined this flow unit 10D, comprise at least one this flowing supply unit 19D to provide electric energy to this flowing venue. Determined this flow unit 10D comprises at least one this circulating water processing unit 18D further to provide water treatment service to this flowing venue. It is worth mentioning that, respectively this flow unit 10D that participates in this flowing venue of establishment need not start flowing in same original position. That is, this flow unit 10D of this flowing venue also can be used to assemble another this flowing venue.

It is worth mentioning that, a step before step 1002, also can be comprised: dismantle this flow unit 10D from another this flowing venue. Then this flow unit 10D is assembled into the state of being convenient to transport.

Step 1003 is further comprising the steps:

Step 10031: the assembling mode of determining the dynamic venue of this flowing. Assembling mode comprises at least two kinds: a kind of is that the number of plies according to this flowing venue is assembled, and that is, the bottom of this flowing venue is installed to top layer, and one deck of this flowing venue comprises at least two layer assembly 931D. Another kind is assembled taking this pedestal sidewall 93D as assembly unit. That is, first assembled this pedestal sidewall 93D, then assembled another this pedestal sidewall 93D, until assembled. Determine the respectively assembling mode of this layer assembly 931D further. This layer assembly 931D comprises at least this flow unit 10D. That is, determine that this layer assembly 931D comprises the quantity of this flow unit 10D, respectively whether this flow unit 10D arranges this serviced component 32D, respectively this flow unit 10D arranges the type of service unit 32D. It is worth mentioning that, in this flowing venue, at least one layer assembly 931D comprises this flow unit 10D that is provided with this energy supply and arranges 321D. That is, in this flowing venue, at least one layer assembly 321D comprises this flowing supply unit 19D. In this flowing venue, at least one layer assembly 931D comprises this flow unit 10D that is provided with this water treatment facilities 321D. That is, in this flowing venue, at least one layer assembly 321D comprises this circulating water processing unit 18D.

Step 10032: form this flowing venue. Corresponding respectively this flow unit 10D is selected to assemble to form this layer assembly 931D according to the determined assembling mode of step 10031. It is worth mentioning that, if be that the number of plies according to this flowing venue is organized number in step 10031, then first form respectively this layer assembly 931D of this flowing venue bottom, then assembling respectively this layer assembly 931D form this flowing venue bottom. Then respectively this layer assembly 931D in assembling intermediate layer, then the intermediate layer of assembling each this layer assembly 931D to form this flowing venue. Finally assemble respectively this layer assembly 931D of the top layer of this flowing venue. Again each layer assembly 931D is formed the top layer of this flowing venue 931D. This top cover 83D is finally installed. First this bracing frame 831D is installed, and then covering 832D is covered in this 831D, form this top cover 83D. If select in this step 10031 with the assembling mode of pedestal sidewall 93D. First the respectively assembling sequence of this pedestal sidewall 93D is determined. Then wherein this pedestal sidewall 93D is selected to assemble. The first, form this layer assembly 931D of the bottom of this pedestal sidewall 93D. The second, form this layer assembly 931D in the middle level of this pedestal sidewall 93D. Again this mid-tier component 931D is arranged on this layer assembly 931D to this bottom, supported by the layer assembly 931D assembly of this bottom. 3rd, form this layer assembly 931D of this top layer of this pedestal sidewall 93D. Again this layer assembly 931D of this top layer is arranged on this layer assembly 931D in this intermediate layer, is supported by the layer assembly in this middle level. Assembled the completing of this pedestal sidewall 93D. Then all the other pedestal sidewall 93D are assembled according to the mode of this pedestal sidewall of assembling 93D. After respectively this pedestal sidewall 93D has assembled, assemble this top cover 83D. First, this bracing frame 831D is arranged to the respectively top layer of this pedestal sidewall 93D, to be supported by the top layer of each pedestal sidewall. Then covering 832D is arranged at this bracing frame 831D to support. Thus form this flow motion shop.

Step 1004 is comprised further: the purposes that changes this flowing venue after step 1003. Change the purposes of visiting flowing venue and comprise two kinds of modes, wherein a kind of method is for increasing device. As being changed into this flowing natatorium, this flowing Badminton Stadium only need to increase by a water-tight device 71D. This water-tight device is arranged at the bottom of this flowing Badminton Stadium, to make this flowing Badminton Stadium shape be transformed into this flowing natatorium. Another kind method is the structure that changes this flowing venue. For example, flowing natatorium as shown in figure 17, is multiple this flow unit 10D by this flowing natatorium dismounting, then assembles multiple this flow unit 10D to form 3 swimming pools. In affiliated three swimming pools, the area of each swimming pool is consistent with the area of the swimming pool of former flowing natatorium. Or multiple this flow unit 10D assemblings are formed to a swimming pool.

Shown in Figure 30 and Figure 31 is another preferred embodiment of the utility model flowing venue. This flowing venue comprises a shop body 90F, and this shop body 90F has an activity space 92F, for carrying out activity. This shop body 90F comprises at least two wall device 93F further, and two this wall device 93F are arranged at respectively the both sides of this shop body 90F, to form this activity space 92F between two this wall device 93F, thus makes this activity space 92F can supply to carry out activity. This flowing venue comprises a top cover 94F further, and this top cover 94F is supported by this shop body 90F. Specifically, this top cover 94F is supported by two this wall device 93F. Preferably, this flowing pedestal comprises four this wall device 93F further, and four this wall device 93F are configured to around this activity space 92F. That is, four this wall device 93F are around forming this activity space 92F. It is worth mentioning that, this activity space 92F can be crossed by more four this wall device 93F around and form. This top cover 94F is supported by four this wall device 93F. Preferably, this activity space 92F is for carrying out indoor football.

This wall device 93F comprises at least one layer assembly 931F further. Regulated the height of this wall device 93F by the mode of stacking this layer assembly 931F. As shown in fig. 32 a. Regulated the width of this wall device 93F by the mode of this layer assembly of connection arranged side by side 931F. As shown in fig. 32b. That is, can be regulated this wall device 93F by regulating the position relationship of this layer assembly 931F. Preferably, the annexation between described layer assembly is removably connection. Preferably, respectively this wall device 93F connects successively. Specifically, an end of an end and another this wall device 93F of one of them this wall device 93F is connected. This layer assembly 931F of this wall device 93F and corresponding this layer assembly 931F connection of another this wall device 93F. That is, corresponding respectively this layer assembly 931F that is positioned at the same layer of respectively this wall device 93F connects successively. This layer assembly 931F has a sheaf space 9311F. Preferably, respectively this sheaf space 9311F that corresponding respectively this layer assembly 931F that is positioned at the same layer of respectively this wall device 93F has is communicated with successively. It is worth mentioning that, this sheaf space 9311F can for holding at least one serviced component 32F, for providing service at this sheaf space. Preferably, this layer assembly 931F arranges with default standard, to make this wall device 93F be convenient to dismounting and assembling. Because this layer assembly 931F arranges by standard, therefore this layer assembly 931F is convenient in the position of this wall device 93F regulate. For example, be positioned at this wall device 93F bottom this layer assembly 931F can with another this layer assembly 931F transposition that is positioned at this wall device 93F top. That is, respectively this layer assembly 931F of this wall device 93F can for regulating. It is worth mentioning that, this layer assembly 931F can pass through transporting apparatus transports. That is, the utility model flowing venue can be flowed by this layer assembly 931F that flows.

The utility model flowing venue is being flowed, first, by the utility model flow venue respectively this wall device 93F dismounting be at least one this layer assembly 931F. Then, by telecontrol equipment, multiple this layer assembly 931F are flowed to respectively to destination. Then, in destination, multiple this layer assembly 931F are assembled into respectively to respectively this wall device 93F, to form the utility model flowing venue. It is worth mentioning that, respectively before this wall device 93F, first this top cover 94F is dismantled in dismounting. Specifically, this top cover 94F is taken off from the flow top of venue of the utility model, and then to this top cover 94F dismounting, the sheaf space 9311F having to make this top cover 94F be incorporated in this layer assembly 931F, to transport together along with this layer assembly 931F. Behind arrival destination, assemble this top cover 94F, then assemble. Finally this top cover 94F is installed on respectively this wall device 93F, to make this top cover 94F be supported by this wall device 93F. The utility model flowing venue completes flowing. That is, the utility model flowing venue is disassembled, and is then transported to destination, finally assembled formation the utility model flowing venue again.

This layer assembly 931F comprises at least one wall unit 10F further. Preferably, this layer assembly 931F comprises 931G and comprises at least one this wall unit 10F. That is, this layer assembly 931F can be split as at least one wall unit 10F. Preferably, this layer assembly 931F is split as at least two wall unit 10F. Two this wall unit 10F connect successively. That is, one end of this wall unit 10F connects one end of another wall unit, as shown in fig. 32 a. It is worth mentioning that, this layer assembly 931F is by default this wall unit of standard configuration 10F, so that respectively this wall unit 10F can freely assemble this layer assembly of formation 931F, with the demand of satisfying personalized this layer assembly 931F. It is worth mentioning that, this wall unit 10F can customize by preset standard. This wall unit 10F can prefabricated polytype. Be convenient to form personalized the utility model flowing venue according to this wall unit of preset standard customization. Preferably, this wall unit is container.

This wall unit 10F has a unitary space 34F. Specifically, this wall unit 10F comprises a flow module 30F, and this flow module 30F has this unitary space 34F. This sheaf space 9311F can be divided at least one this unitary space 34F. This unitary space 34F is arranged at the side of described activity space 92F. Preferably, this unitary space 34F is arranged at the outside of described activity space 92F. This serviced component 32 can for being arranged at this unitary space 34F, for providing service at this unitary space 34F. This serviced component 32F comprises at least one power supply device 321F further, and this power supply device 321F is arranged at this unitary space 11F, to provide electric energy to the utility model flowing venue. This wall unit 10F that is provided with this power supply device 931F is defined as flowing supply unit 101F. According to the quantity of the adjustable power supply device 321F of the power consumption of venue, to meet the demand of the utility model flowing venue. That is, according to the quantity of adjustable this flowing supply unit of the power consumption of venue 101F. This serviced component 32F comprises at least one water treatment facilities 322F further, to provide water service to this utility model flowing venue. This water treatment facilities can be arranged at this unitary space 34F of this wall unit 10F. This water treatment facilities 322F comprises at least one water generator 3221F further, to provide domestic water to the utility model flowing venue. This water treatment facilities 322F comprises a sewage-treatment plant 3222F further, so that sewage disposal service to be provided. The sewage disposal system that this sewage-treatment plant 3222F connection is outside, processes and imports outside sewage disposal system with the sewage that system is produced, thus avoid contaminated environment. This water treatment facilities 322F comprises a water purification installation 3223F further, so that purified water source service to be provided. This wall unit 10F that is provided with this water treatment facilities 332F is defined as circulating water processing unit 102F.

This serviced component 32F comprises at least one exhibiting device 323F further, for providing show service at this sheaf space. This exhibiting device 323F can be arranged at this unitary space 34F of this wall unit 10F. This wall unit 10F that is provided with this exhibiting device 323F is defined as Mobile display unit 103F. This serviced component 32F comprises one group of rest assembly 324F further, thinks that this flowing venue provides the service of rest. This group rest assembly 324F can be arranged at this unitary space 34F of this wall unit 10F. This wall unit 10F that is provided with this group rest assembly 324F is defined as flowing rest unit 104F. This serviced component 32F comprises at least one deck connector 325F further, so that this layer assembly of connection at least two 931F to be provided, thus makes user that this sheaf space 9311F of another this layer assembly 931 can be entered by this layer of connector 325F. This layer of connector 325F is for this unitary space 34F that is arranged at this wall unit 10F. This wall unit 10F that is provided with this layer of connector 325F is defined as flow connections 105F. This serviced component 32F comprises at least one conditioner 326F further, for the air themperature and/or the humidity that regulate in the utility model flowing venue. This conditioner 326F can for this unitary space 34F that is arranged at this wall unit 10F. This wall unit 10F that is provided with this conditioner 326F is defined as moving air regulon 106F. Preferably, the utility model flowing venue is provided with at least one flowing supply unit 101F. According to the quantity of adjustable this flowing supply unit of needs 101F of the utility model flowing venue.

This top cover 94F comprises a bracing frame 941F and at least one covering 942F further, and this covering 942F covers this bracing frame 941F with this top cover of shape 94F. This bracing frame 941F comprises one group of sub-bracing frame 9411F further, and the sub-bracing frame 9411F of this group can assemble and form this bracing frame 941F. It is worth mentioning that this sub-bracing frame 941F is scalable or collapsible, to be incorporated in this unitary space 34F that this wall unit 10F has, thus this sub-bracing frame 9411F is flowed together with this wall unit 10F. Two these sub-bracing frame 9411F also can be connected to each other, to form this bracing frame 941F. That is, this sub-bracing frame 9411F is suitable for being incorporated in this unitary space 34F that this wall unit 10F has. Preferably, this covering 942F is flexible material, is covered in this sub-bracing frame 9411F. This covering 942F can be incorporated in this wall unit 10F this unitary space 34F having, so that flowing.

It is worth mentioning that, this flowing supply unit 101F also can power to fixed buildings, to meet the needs of fixed buildings to electric power. This circulating water processing unit 102F can supply water to fixed buildings and/or carry out sewage disposal. This Mobile display unit 103F can be arranged at fixed buildings, thinks that this fixed buildings provides and shows service. This flowing rest unit 104F can be arranged at fixed buildings, thinks that this fixed buildings provides service. This moving air regulon 106F can provide air conditioning service to fixed buildings.

This shop body 90F comprises first-class moving platform 95F further, and this flowing platform 95F is arranged at the bottom of this activity space 92F, so that carry out activity on this flowing platform 95F, as shuttlecock, football, basketball, tennis and squash etc. It is worth mentioning that, on this flowing platform 95F, predeterminable needs carry out movable place, as court, and indoor football field, basketball court, tennis and squash etc. In the present embodiment, preferably, indoor football activity is carried out at this flowing platform 95F. This flowing platform 95F comprises a group platform element 951F further. Connection respectively this platform element 951F to form this flowing platform 95F. Preferably, this group platform element 951F arranges with the form of array, and two adjacent this platform element 951F are connected to each other. It is worth mentioning that, this platform element 951F can be arranged at this wall unit 10F, to be flowed together with this wall unit 10F. Preferably, this platform element 951F can be arranged at the wherein side of this flow module 30F of this wall unit 10F, as a wall elements 31F of this flow module 30F of this wall unit 10F, thus this platform element 951F is flowed together with this wall unit 10F. As shown in fig. 32 a. This platform element 951F also can be fixed in the top of this wall unit 10F to be flowed together with this wall unit 10F.

It is worth mentioning that, this flowing platform 95F is for default at least one Site characteristic 952F, so that carry out activity. Described Site characteristic is arranged at this flowing platform surface. This Site characteristic 952F comprises one group of place subcharacter 9521F further. This place subcharacter 9521F can for being arranged at this platform element 951F, with after making to combine this platform element 951F and forming this flowing platform 95F, forms this Site characteristic 952F. In the preferred embodiment, preferably, this Site characteristic 952F is the Site characteristic of indoor football field.

It is worth mentioning that, this flowing platform 95F comprises at least one additional Site characteristic 953F further, and this additional Site characteristic is removably layed in this flowing platform 95F, to make this flowing venue carry out other activity. For example, be that shuttlecock place feature is layed in this flowing platform 95F by this additional Site characteristic 953F, to make this flowing venue be suitable for carrying out shuttlecock activity. It is worth mentioning that, this additional Site characteristic 953F can directly be layed in ground. This additional Site characteristic 953F comprises one group of additional Site characteristic 9531F of son further, and two adjacent these additional Site characteristic 9531F are connected to each other. The additional Site characteristic 9531F of this son is easy to be incorporated in this unitary space 34F of this wall unit 10F. By this additional Site characteristic 953F is set, this flowing venue is carried out other activity. For example, this additional Site characteristic 953F provides and carries out shuttlecock activity. After being provided with this additional Site characteristic 953F, the utility model flowing venue is by providing indoor football active transition for shuttlecock activity is provided. And by laying the mode of additional Site characteristic, the efficiency of laying is high. That is, made the utility model flow venue as flowing football shop by laying additional Site characteristic 953F, change into as flowing Badminton Stadium. And change that the transformation efficiency of COS is provided is high.

It is worth mentioning that, the utility model flowing venue comprises at least one water-tight device 71F further, and this water-tight device 71F can be arranged at the bottom of the utility model flowing venue for forming a swimming pool 70F in the bottom of the utility model flowing venue. As shown in figure 35. Specifically, this water-tight device 71F is arranged on the bottom of this shop body 90F, and is installed in the respectively bottom inside of this wall device 93F, to form this swimming pool 70F in this activity space 92F bottom. This water-tight device 71F is provided with at least two flow-guiding mouth 711F further, for drainage current. Preferably, two this flow-guiding mouth 711F are connected with this water treatment facilities 322F respectively, to purify the water of this swimming pool 70F, thus maintain the quality of water of swimming pool the inside. It is worth mentioning that, the wherein part in the bottom of this swimming pool 70F arranges at least one this wall unit 10F, to form different depth of water regions at this swimming pool. It is worth mentioning that, by at this swimming pool 70F, one group of wall unit 10F is set, this swimming pool 70F to form at least one partition wall 72F, thus is divided at least two functional area 74F by the mode by stacking this wall unit 10F, to realize different functions, provide different services. As shown in figure 35, a functional area 74F adopts cold water wherein, and another functional area 74F adopts warm water. Preferably, this water-tight device 71F is waterproof material, and waterproof material is close to the respectively bottom inside of this wall device 93F, to prevent water from oozing dew.

It is worth mentioning that, by one group of this wall unit 10F being set to form this partition wall 72F in the utility model flows this activity space 92F of venue, so that this activity space 92F is divided into at least two sub-functional area 921F. The bottom of this sub-shop body space 921F arranges this water-tight device 71F wherein, thus makes a sub-shop body space 921F wherein form this swimming pool 70F. And another this sub-shop body space 921F is set up this additional Site characteristic 953F in bottom, thus make to form a court at another this sub-shop body space 921F. As shown in figure 36. That is, in the present embodiment, the utility model flowing venue as indoor football shop, as required, is changed into natatorium and Badminton Stadium. Realize different functions.

A preferred embodiment of this wall unit 10F shown in Figure 32 A. This wall unit 10F comprises this flow module 30F, and this flow module 30F has this unitary space 34F. This flow module 30F comprises a component framework 35F and one group of wall elements 31F further. This wall elements 31F is fixed in this component framework 35F. Preferably, this wall elements 31F is removably fixed on this component framework 35F. Respectively this wall elements 31F is fixed in removably respectively this component framework 35F, to form this unitary space 34F. It is worth mentioning that, this platform element 951F is removably fixed in this component framework 35F, as one of them this wall elements 31F of this flow module 30F. It is worth mentioning that, be interconnected two these flow module 30F, by dismantling respectively the two adjacent wall elements 31F of two these flow module 30F, to make two adjacent flow module 30F be communicated with. That is, when splitting this layer assembly 931F, by being installed, this wall elements 31F this sheaf space 9311F of this layer assembly 931F can be split as at least two this unitary space 34F.

This wall unit 10F comprises a supporting and regulating device 20F further, and this supporting and regulating device 20F removably supports this flow module 30F, stable to maintain this flow module 30F. It is worth mentioning that, can by this supporting and regulating device 20F to this flow module 30F to make this flow module that different terrain environment can be adapted to. This supporting and regulating device 20F can for being arranged at this platform element 951. This supporting and regulating device 20F, comprises one group further and supports regulating part 21F. This group supports this flow module 21F, and this group supports regulating part 21F and is installed on removably respectively this flow module 30F. By regulating respectively this group to support regulating part 21, to maintain this flow module 30F stable, to make this flow module 30F be suitable for using at different terrain environments.

As shown in figure 33, this wall unit 10F comprises a detection control apparatus 40F further, and this detection control apparatus 40F connects this supporting and regulating device 20F communicatedly, remains stable to control this supporting and regulating device 20F. This detection control apparatus 40F is arranged at this wall unit 10F. Preferably, this detection control apparatus 40F is arranged at this flow module 30F. This detection control apparatus 40F comprises one group of monitoring unit 41F and a control device 42F further. Respectively this monitoring element 41F connects respectively respectively this support regulating part 21F communicatedly, to make respectively this support regulating part 21F at least be connected communicatedly with this monitoring element 41F, thus be convenient to obtain the respectively state of this support regulating part 21F, be then sent to this control device 42F. This monitoring element can be arranged at each wall elements 31F to obtain respectively the state of each wall elements. Analyzed the state of each support regulating part 21F by this control device 42F, then each this support regulating part 21F is regulated, to maintain the stable of this flow module 30F or this platform element 951F. This detection control apparatus 40F comprises a positioner 43F further. This positioner 43F obtains the position of this wall unit 10F. Preferably, this positioner 43F obtains the real time position of this wall unit 10F. The real time position of this wall unit 10F is sent to this control device 42F by this positioner 43F, so that manage this wall unit 10F. It is worth mentioning that, this positioner 43F can obtain this wall unit 10F in the position of this wall device 93F, so that this wall unit 10F is set respectively in the position of this wall device. This detection control apparatus 40F comprises a communicator 44F further, and this communicator 44F connects this control device 42F communicatedly so that exchange information with other this wall unit 10F, thus collaborative work. That is, multiple this wall unit 10F are exchanged information by each this communicator 44F, so that collaborative work. It is worth mentioning that, respectively this wall elements 31F of this flow module 30F can be set up respectively this monitoring element 41F, to make this control device 42F obtain the respectively state of this wall elements 31F. Respectively this platform element 951F of this flowing platform 95F can be set individually this monitoring element 41F, to make this control device 42F that the state of each platform element 951F can be obtained.

The utility model flowing venue comprises an administrative unit 4F further, and this administrative unit 4F is respectively this detection control apparatus 40F connection of this wall unit 10F of connection respectively communicatedly respectively, with the state obtaining with wall unit 10F. Specifically, this administrative unit 4F connects respectively this control device 42F of this detection control apparatus 40F of each wall unit 10F communicatedly. This administrative unit 4F basis respectively state of this wall unit 10F manages. For example, when this flowing venue of the utility model is dismantled, as arranged the respectively disassembly sequence of this wall unit 10F, this platform element 951F is arranged to be arranged at corresponding this wall unit 10F. When respectively this wall unit 10F transports, coordinate respectively this wall unit 10F transportation route, obtain the respectively real time position of this wall unit 10F. When this flowing venue of the utility model is assembled, arrange the respectively assembling sequence of this wall unit 10F. Preferably, this administrative unit 4F, can preset assembling plan.

It is worth mentioning that, one performance platform 73F is set at this activity space 92F, this performance platform 73F comprises at least one this wall unit 10F, and two adjacent this wall unit 10F are connected to each other and form described performance platform 73F. Specifically, first this activity space 92F arranges at least one this wall unit 10F, then group device respectively this wall unit 10F to form this performance platform 73F, preferably, connect multiple this wall unit 10F side by side in the bottom of this activity space 92F to form this performance platform 73F. It is worth mentioning that, in this performance platform, dismounting connects this unitary space 34F connection that two adjacent this wall elements 31F of two this wall unit 10F have to make respectively this wall unit 10F respectively, thus forms space, a backstage 731F. According to the needs of performance, the position-adjustable of this performance platform 731F. The one end of bottom as activity space 92F as described in being arranged at or as described in the middle part of bottom of activity space 92F. This performance platform also can be used as combat sports platform, as boxing, and tae kwon do etc.

Shown in Figure 37 is the flow chart of assemble method of the utility model flowing venue. The assemble method of the utility model flowing venue comprises the following steps:

Step 2001: the utility model is flowed to venue dismounting for multiple this wall unit 10F.

Step 2002: multiple this wall unit 10F are transported to respectively to destination. It is worth mentioning that, this destination can preset.

Step 2003: assemble multiple this wall unit 10F to form the utility model flowing venue.

Wherein, step 2001 is further comprising the steps:

Step 20011: separated this top cover 94F and this shop body 90F, to make this shop body 90F no longer support this top cover 94F. Can by separated this top cover 94F of the mode of dismounting and this shop body 90F. This top cover 94F is disassembled further as this upper frame 941F and this covering 942F. This upper frame 941F is split as this group submounts 9411F further, so that be accommodated in this unitary space 34F of this flow module 30F of this wall unit 10F.

Step 20012: dismantle this shop body 90F. Step 20012 is further comprising the steps:

Step 200121: judge whether this shop body 90F exists this wall device 93F of at least two-layer this layer assembly 931F. If this wall device 93F that has at least two-layer this layer assembly 931F, then performs step 200122. If respectively this wall device 93F of this shop body 90F only has this layer assembly of one deck 931F, then perform step 200124. If there is not this wall device 93F, then perform step 200126.

Selected this layer assembly 931F dismounting is at least one this wall unit 10F by step 200122: this layer assembly 931F that selectes the top of this wall device 93F that is positioned at least two-layer this layer assembly 931F. Specifically, if selected this layer assembly 931F is this wall unit 10F, then this 10FCong Gai shop, wall unit body 90F is unloaded. If selected this layer assembly 931F is divided at least two wall unit 10F, then by each this shop body 90F unloading from this shop body 90F respectively. It is worth mentioning that, by this wall elements 31F being installed in this component framework 35F of this flow module 30F of this wall unit of correspondence 10F, this sheaf space 9311F that selected this layer assembly 931F is had is divided at least two this unitary space 34F, is able to selected this layer assembly 931F to be divided at least two this wall unit 10F.

Step 200123: return to step 200121.

Selected this layer assembly 931F dismounting is at least one this wall unit 10F by step 200124: this layer assembly 931F that selectes this shop body 90F that is only had this layer assembly of one deck 931F. Specifically, if selected this layer assembly 931F is this wall unit 10F, then this 10FCong Gai shop, wall unit body 90F is unloaded. If selected this layer assembly 931F is divided at least two wall unit 10F, then by each this shop body 90F unloading from this shop body 90F respectively. It is worth mentioning that, by this wall elements 31F being installed in this component framework 35F of this flow module 30F of this wall unit of correspondence 10F, this sheaf space 9311F that selected this layer assembly 931F is had is divided at least two this unitary space 34F, is able to selected this layer assembly 931F to be divided at least two this wall unit 10F.

Step 200125: return to step 200121.

Step 200126: dismantle this flowing platform 95F. Be multiple platform element 951F by this flowing platform 95F dismounting.

Step 200127: this platform element 951F is arranged to this wall unit 10F. Specifically, this platform element 951F can for being accommodated in this unitary space 34F of this wall unit 10F. Preferably, this platform element 951F is arranged at this component framework 35F of this flow module 30F of corresponding this wall unit 10F, as this wall elements 31F of this flow module 30F, thus make this unitary space 34F by multiple this wall elements 31F around and be convenient to containing objects.

Step 2002 is further comprising the steps:

Step 20021: by this covering 942F and respectively this submounts 9411F be arranged at this unitary space 34F of this flow module 30F of this wall unit 10F so that transport this covering 942F and each this submounts 9411F.

Step 20022: each this wall unit 10F is moved to respectively to destination. Preferably, destination is transported to respectively by telecontrol equipment.

Step 2003 is further comprising the steps:

Step 20031: determine the type by assembling this flowing venue that respectively this wall unit 10F forms. For example, indoor football shop is formed, indoor Badminton Stadium or natatorium etc. by assembling respectively this wall unit 10F.

Step 20032: each this wall unit 10F is divided into groups according to the type of determined this flowing venue. First, the quantity of this divided wall device group is determined according to the quantity of included this wall device 93F of this shop body 90F of this flowing venue of determined assembling. Then, according to same this wall device 93F of assembling, a wall device group is divided into each this wall unit 10F. Then, the number of plies of this wall device 93F is determined. Then, according to the number of plies of determined this wall device 93F, to dividing into groups at respectively this wall unit 10F belonging in same wall device group. Respectively this wall unit 10F that belongs to same this layer assembly 931F is divided into a layer group.

Step 20033: assembling respectively this wall unit 10F to form this shop body 90F. Step 20033 is further comprising the steps:

Step 200331: selected wherein one group of this wall device group is selected respectively this wall unit 10F that belongs to same this layer of group in this selected wall device group.

Step 200332: selected respectively this wall unit 10F of same this layer of group is arranged to corresponding predeterminated position. Specifically, if this wall device 93F corresponding to respectively this wall unit 10F that same this layer of group selected also does not have assembled, respectively this wall unit 10F that then same this layer of group selected is arranged in this destination for assembling the predeterminated position of corresponding this wall device 93F. This layer assembly 931F that same this layer organized respectively this wall unit formation that 10F assembles of being selected then is used as this layer assembly 931F of the bottom that is positioned at corresponding this wall device 93F. If this layer assembly 931F that same this layer organized this wall device 93F corresponding to respectively this wall unit 10F being selected has been set up, respectively this wall unit 10F that then same this layer of group selected is stacked on respectively the top of corresponding this wall device 93F assembling. That is, corresponding this wall device 93F that respectively this wall unit 10F that same this layer of group selected has been assembled supports.

Step 200333: respectively this wall unit 10F that assembling is selected forms this layer assembly 931F.

Step 200334: judge respectively whether there is independent this wall unit 10F in this wall device group, if there is independent this wall unit 10F in each wall device group, then perform step 200331; If there is not independent this wall unit 10F in each wall device group, then this shop body 90F is assembled complete. Preferably, after this shop body 90F has assembled, this shop body 90F has this activity space 92F. It is worth mentioning that, between step 200331 and step 200332, also comprise a step: unload and be accommodated in the respectively article of this unitary space 34F of this flow module 30F of this wall unit 10F.

Step 20035: assemble this top cover 94F, is arranged at this shop body 90F to make this top cover 94F be supported by this shop body 90F by this top cover 94F. First, each submounts 941F assembling is formed to this upper frame 941F. Then this covering 942F is covered this upper frame 941F to form this top cover 94F.

Step 20036: assemble this flowing platform 95F. Will respectively platform element assembling described in this form described flowing platform.

It is worth mentioning that, in flow process, at least one this wall unit 10F is provided with this power supply device 321F. That is, at least one this flowing supply unit 101F participates in flow process. Preferably, at least one this supply unit 101F and at least one unit for treating water 102F participation flow process. That is, preferably, this flowing venue of the utility model comprises at least one this supply unit.

It is worth mentioning that, the current method of the utility model flowing venue can be performed by this administrative unit 4F. This administrative unit 4F, by being connected with respectively this detection control apparatus 40F of each wall unit 10F, obtains the respectively state of this wall unit 10F, thus controls the execution of current method. That is, this administrative unit 4F is learnt by respectively this detection control apparatus 40F of this wall unit 10F whether this wall unit 10F forms this layer assembly 931F with other this wall unit 10F assembling, this wall unit 10F is positioned at the position of the utility model flowing venue, and in transportation the position etc. of this flow unit.

It is worth mentioning that, the wall of fixed buildings can be used as this wall device 93F of this shop body 90F of the utility model flowing venue. According to Figure 38 A and Figure 38 B. That is, the utility model flowing venue in an assembling process, can be assembled according to this flowing venue before flowing, also can assemble in conjunction with fixing venue. For example, assembling this flowing venue as shown in fig. 38 a. First, the predeterminated position of two this wall device 93F is set in advance. Two these predeterminated positions are connected with one of them wall W of fixed buildings respectively, and to make to assemble after two these base side keep away 93F, one of them wall W of two this wall device 93F and fixed buildings surrounds this activity space 92F. Then, respectively assembling respectively this wall unit 10F to form two this wall device 93F. Then, assemble this top cover 94F, and this top cover 94F is placed in the top of two this wall device 93F, to be supported by two this wall device 93F. Then, this flowing platform 95F is assembled, so that move on this flowing platform 95F. It is worth mentioning that, this flowing platform 95F arranges default Site characteristic 951F. Preferably, respectively this wall unit 10F that assembles this flowing venue comprises at least one this flowing supply unit 101F. This flowing supply unit 101F can to this fixed buildings supply electric energy.

It is worth mentioning that, multiple walls unit 10F can work in coordination with assembling and form first-class action spot court, as shown in figure 39.

Shown in Figure 39 is another preferred embodiment of the utility model flowing venue. The utility model flowing venue is as this flowing football pitch. The utility model flowing venue comprises a shop body 90G, and this shop body 90G has an activity space 92G, and for carrying out activity, preferably, this activity space 92G is positioned at the top of this shop body 90G. This shop body 90G comprises at least one wall device 93G further, and this activity space 92G is positioned at the top of this wall device 93G. Preferably, this shop body 90G comprises two this wall device 93G, and two this wall device 93G are connected to each other and form this shop body 90G, and have this activity space 92G on this body 90G top, shop. This wall device 93G comprises at least one layer assembly 931G further, and what this layer assembly 931G was arranged side by side is connected to form this wall device 93G. This layer assembly 931G comprises at least one wall unit 10F further, and two adjacent this wall unit 10F are connected to each other and form this layer assembly 931F. That is, by multiple this wall unit 10F assemblings are formed to this shop body 90G. Preferably, this shop body 90G comprises a wall unit 10F array, and that is, this wall unit 10F array is rectangular array. As shown in figure 40. This shop body 90G comprises first-class moving platform 95G further, and this flowing platform 95G is arranged between this shop body 90G and this activity space 92G, to be supported by this shop body 90G. This flowing platform 95G comprises a group platform element 951G further, and two adjacent this platform element 951G are connected to each other and form this flowing platform 95G. This group platform element 951G is supported by this flow unit 10G respectively. It is worth mentioning that, this platform element 951G can customize in advance.

As shown in figure 41, this platform element 951G comprises at least two elements support portion 9511G and an element body 9512G further, and two these element support 9511G are arranged on respectively the both sides of this element body 9512G, to support this element body 9511G. Preferably, this element body 9512G has one group of through hole 95121G. It is worth mentioning that, the surface of supporting the object of these two these element support 9511 is defined supporting surface, by two these element support 9511G, a cushion space 9513G is formed between this element body 9512G and supporting surface, reduced the impact of supporting surface surface environment on this element body 9512G by described cushion space 9513G, thus reduce the impact of supporting surface environment on the motion of carrying out on platform element 951G. As shown in figure 42. It is worth mentioning that, this platform element 951G also can be applied to other preferred embodiment of the utility model flowing venue. Preferably, can by regulating the length of two these element support 9511G to adjust described cushion space 9513G.

This flowing platform 95G comprises an additional Site characteristic 953G further, and this additional Site characteristic 953G is layed in the top of this flowing platform 95G. That is, respectively this platform element 951G supports this additional Site characteristic 953G. This additional Site characteristic 953G comprises one group of additional Site characteristic 9531G of son further, and two adjacent these additional Site characteristic 9531G are connected to each other. The additional Site characteristic 9531G of this son is easy to be incorporated in this unitary space 34G of this flow unit 10G. Preferably, this additional Site characteristic 9531G is artificial turf. It is worth mentioning that, when rainy, rainwater infiltrates into this platform element 951G through artificial turf. This platform element of this group through hole 95121G diversion 951G that this main platform body 9512G by this platform element 951G has, thus be reduced in rainy day rain water mitigation when carrying out football activity. Further, two these element support 9511G support this element body 9512G, and this element support 9511G is supported by the top of this flow unit 10G. That is, this cushion space 9513G is formed between this main platform body 9512G and the machine portion of this flow unit 10G, so that water flows at this diversion space 9513, reduce the impact on this main platform body 9512G, thus reduce the impact on this additional Site characteristic 9531G. Preferably, this platform element 951G is prefabricated component, as required default settings. It is worth mentioning that, this flowing platform 95G can directly be layed in ground. Respectively this element support 9511G supports respectively this element body 9512G, to form and to lead flowing space 9513G between ground and this element body 9512G, thus reduces the impact of ground environment on element body 9512G. Figure 43 is the schematic diagram of another preferred embodiment of the utility model flowing venue. The utility model flowing venue comprises a shop body 90H, and this shop body 90H has an activity space 92H. This shop body 90H comprises at least two wall device 93H further, and respectively this wall device 93H is arranged at respectively the side of this activity space 92H, to form this activity space 92F between two this wall device 93F, thus makes this activity space 92F can supply to carry out activity. This flowing venue comprises a top cover 94H further, and this top cover 94H is supported by this shop body 90H. This top cover 94H is supported by each this wall device 93H. This top cover 94H covers this activity space 92H. Preferably, this top cover 94H covers respectively this wall device 93H and this activity space 92H. During this wall device 93H, one step comprises at least one layer assembly 931H, is regulated the height of this wall device 93F by the mode of stacking this layer assembly 931H. This layer assembly 931H comprises at least one wall unit 10F further, and this wall unit 10F has a unitary space 34F. Specifically, this wall unit 10F comprises a flow module 30F, and this flow module 30F has this unitary space 34F.

This top cover 94H comprises a bracing frame 941H and at least one covering 942H further as shown in figure 44, and this covering 942H covers this bracing frame 941H with this top cover of shape 94H. This bracing frame 941H comprises one group of sub-support member 9411H further, and the sub-support member 9411H of this group can assemble and form this bracing frame 941H.

By a fixture, two this wall unit 10F can be fixed between two these wall unit. Preferably, this fixture is bridge lock or twistlock. According to Figure 45 and Figure 46, the utility model flowing venue comprises a wall unit fixture 99H further, and this wall unit fixture 99H is arranged at the joint portion of four these wall unit fixtures. This wall unit fixture 99H comprises a fixed head 991H and four clamping element 992H further, and respectively this clamping element 922H is fixed in respectively four corners portion of this fixed head 991, to form a holding tank 993H between two this clamping element 992H. When two this wall unit 10F are superimposed, the connecting portion of two this component framework 35F embeds this holding tank 993H, for fixing. That is, during stacking four this wall unit 10F, at the connecting portion of four this wall unit 10F, the connecting portion of two this component framework 35F of two adjacent this wall unit 10F embeds corresponding this holding tank 993H, thus fixes four this wall unit 10F. This fixed head 991H, to one group of fixing hole 9911H should be had holding tank 993H further, for by other fixture, as rivet, waits fixing further.

Foregoing is exemplifying of specific embodiment of the utility model, for equipment and the structure of wherein not detailed description, should be understood to take the existing common apparatus in this area and universal method to be implemented.

The utility model above-described embodiment is only the use that technical solutions of the utility model are described simultaneously, is only enumerating of technical solutions of the utility model, is not limited to the technical solution of the utility model and protection domain thereof. Equivalent technologies means, equivalent apparatus etc. are adopted the improvement of the technical scheme disclosed in the utility model claims and description to be considered to be to the scope not exceeding disclosed in the utility model claims and description.

Claims (11)

1. a flowing venue, is characterized in that, comprising:

First-class moving base, described flowing pedestal has a shop body space; Wherein

Described flowing pedestal comprises at least two pedestal sidewalls further, pedestal sidewall described in two is arranged at body space both sides, described shop, wherein, described pedestal sidewall comprises at least one layer assembly further, described layer assembly is arranged at the side of described shop body space, wherein, the height of described pedestal sidewall is adjusted by stacking described layer assembly.

2. flowing venue as claimed in claim 1, it is characterized in that, wherein, described layer assembly comprises at least one flow unit further, and described flow unit is arranged at the side of described shop body space, wherein, described flow unit comprises a flow module further, and described flow module comprises a component framework and one group of wall elements further, and described wall elements is arranged at described component framework, form a unitary space, described unitary space is set up the side of described shop body space.

3. flowing venue as claimed in claim 2, it is characterized in that, wherein, layer assembly described in one of them comprises a flowing supply unit further, and described flowing supply unit is arranged at the side of institute's shop body space, to supply electric energy.

4. flowing venue as claimed in claim 3, it is characterized in that, wherein, layer assembly described in one of them comprises a flowing unit for treating water further, and described circulating water processing unit is arranged at the side of described shop body space so that water treatment service to be provided.

5. flowing venue as claimed in claim 2, it is characterized in that, wherein, described flow unit comprises a serviced component further, and described serviced component is arranged at described unitary space.

6. flowing venue as claimed in claim 5, it is characterized in that, wherein, described serviced component is selected from power supply device, water treatment facilities, exhibiting device and rest assembly.

7. flowing venue as claimed in claim 2, it is characterized in that, comprise a top cover further, described top cover is supported by each pedestal sidewall, to cover described shop body space.

8. flowing venue as claimed in claim 7, it is characterized in that, described top cover comprises a bracing frame and at least one covering further, and support frame as described above supports each described covering.

9. the flowing venue according to claim 2,5 or 7, is characterized in that, comprise first-class moving platform further, described flowing platform is placed in the bottom of described shop body space.

10. flowing venue as claimed in claim 9, it is characterized in that, described flowing platform comprises a group platform element further, connects each described platform element and forms described flowing platform.

11. flowing venues as claimed in claim 9, it is characterized in that, described flow unit is container.