CN103854573A - Method of assembly of a video display system - Google Patents

Abstract

A method for assembling a video display system includes positioning and selectively engaging a plurality of modules together to form a first tier, lifting the first tier, positioning and selectively engaging a plurality of modules together to form a second tier, and attaching the second tier to the first tier.

Description

The assembly method of video display system

Technical field

The present invention relates to video display system, exemplarily, the present invention relates to a kind of method of assembling and decomposition of video display system.

Background technology

In performance industry, video display and multimedia system cooperation are applied to production.The size of video display can limit according to the complexity of its arrangement.

As a part for pipeline system performance, video display often need to be reinforced and be stored, in order to transport.Existing system need to arrange to spend a large amount of time (as reinforced, dismantle and assembling) for this reason.Can there is the difference of technical merit in video display separately assembling.The installation of these video displays may need complicated chart, may need a lot of instruments, and may be difficult to maintenance and change.

Therefore, need to provide a kind of method that can assemble simply or dismantle video display, it only needs one minute, even if need instrument, also can repair or replace video display simply.

Summary of the invention

One aspect of the present invention relates to a kind of method of assembling display system, and described method comprises configuration and accesses multiple modules selectively and jointly form ground floor.Described method further comprises the described ground floor of lifting.Described method also further comprises configuration and accesses multiple modules selectively and jointly form the second layer.Described method also further comprises the described second layer is connected with described ground floor.

An advantage of the present invention is, the assembly method of described video display can, by little or without by any special tools and techniques, just can realize simple assembling.

Another advantage of the present invention is that described system and video supporting construction are possessing better adaptive faculty aspect stability, maintenanceability and movability.

Another advantage of the present invention is, when described video display system be raised or its during in levitation position on the ground, can change video display component.

Be that above-mentioned generality is described or detailed description is below all exemplary with indicative, be intended to provide further protection scope of the present invention.Accompanying drawing is used to provide to be understood further to the present invention, and shows the feature of the preferred embodiments of the present invention and explanation.Described accompanying drawing and exemplary embodiment one are used from explains principle of the present invention, and appending claims has defined protection scope of the present invention.

technology contents

Fig. 1 shows video display module 100, and it comprises Optical Transmit Unit 102 and video supporting construction 104.In one embodiment, video display module 100 comprises the panel that contains Optical Transmit Unit 102.Described panel can be attached on the whole of described video display module 100 or its part.Described panel can be translucent, half transmitting, transparent, transmission, half heat conduction, heat conduction, or arbitrary combination of above-mentioned situation.In one embodiment, described panel can support to contain number of colors, support clearly closely high-resolution picture, serial picture and/or the video of pixel.In one embodiment, video display module 100 can comprise one or more Optical Transmit Units 102 of expansion in one direction, such as in a complete horizontal direction,, described direction is parallel in fact or in fact perpendicular to one end of video display module 100, described end can coincide with the part periphery of video supporting construction 104.In one embodiment, the end of video display module 100 can be different from the periphery of video supporting construction 104 or inconsistent with it.In one embodiment, the end of at least one video display module 100 and the direction of Optical Transmit Unit can be different from the part periphery of video supporting construction 104.In another embodiment, video display module 100 can comprise one or more Optical Transmit Units 102, and described Optical Transmit Unit 102 extends with multi-direction or multi-angle and with different size and/or difformity.In another embodiment, single Optical Transmit Unit 102 can fully extend to the peripheral or identical with the size of video supporting construction 104 of video supporting construction 104, and in another embodiment, Optical Transmit Unit 102 can be less than the outer peripheral areas of video supporting construction 104 significantly.It is reported, be in 13/543,000 U.S. Patent application about the additional detail of video component and other assemblies is included in application number, all included in the mode of quoting at this.

In an example embodiment, Optical Transmit Unit can be many light emitting diodes (LED).In addition, LED can be connected by the connector of electric wire and/or control line or other with or without additional structural supports.In one embodiment, comprise a large amount of intensive LED, such produced effect is that LED has high resolving power.In another embodiment, Optical Transmit Unit can comprise other light sources, for example Organic Light Emitting Diode (OLED), incandescent lamp, fluorescent light, condensate light emitting diode, electroluminescent light source, other suitable light emitting sources, and/or the combination of Optical Transmit Unit.Optical Transmit Unit 102 can be independent elongation unit, or can be to replace geometric unit, and the latter can provide more preferably vision or video effect.Optical Transmit Unit 102 can individually video supporting construction 104 protect by multiple clips 106 or other suitable protective devices.As mentioned above, clip 106 can separate or be integrated with video supporting construction 104.In one embodiment, Optical Transmit Unit 102(or other light sources) can protect by bonding agent.In another embodiment, Optical Transmit Unit 102(or other light sources) can protect by multiple fasteners.

In one embodiment, Optical Transmit Unit 102 can provide the energy by the independent battery being arranged in LED or other light sources.In another embodiment, one or more LED can have battery power, and simultaneously one or more other LED can utilize battery as energy source by wired Energy Transfer from other LED.

Another embodiment, as LED, comprises OLED.OLED can reduce energy demand and in the time of identical load, allow the operation of longer time.OLED can allow Optical Transmit Unit 102 under same load, to move the longer time, for example, then cuts off the power supply of supply OLED to OLED power supply, then opens display system.

Fig. 2 to 4 shows the video supporting construction 104 that comprises supporting member 108, beam member 10 and pillar 112.Can comprise two supporting members 108, four beam members 110 and six pillars 112.Each web member is all arranged between described supporting member, and beam member 110 and pillar 112 can comprise at least one pin connection structure (as shown in Figure 3 and Figure 4).

Supporting member 108 has limited two peripheries of video supporting construction 104.In other embodiment, can comprise two above or two following supporting members 108.Each supporting member 108 can be mounted with being set to and be connected with three pillars 112 with four beam members 110.Each web member between supporting member 108 and each beam member 110 or pillar 112 comprises a joint 215 can pin connecting.Used herein " can pin connect joint " word, its meaning is pin or the similar device being included in each coupling part through opening 501.In other embodiments, supporting member 108 can be mounted and be set to be connected with more or less beam member 110 and/or pillar 112.

And in another embodiment, as further shown in Figure 6, a large amount of video display modules 100 interconnects near support place of video supporting construction 104 or its.Referring to figs. 2 and 6, video supporting construction 104 can comprise door bolt 211 and suspension hook 213.Door bolt 211 and suspension hook 213 can be fastened along beam member 110, and door bolt can be connected and guarantee adjacent video supporting construction 104 selectively like this.In addition or alternatively, door bolt 211 and suspension hook 213 can be contained in supporting member 108, with from top or the mode of bottom be connected with video display module 100.That is to say, even when video display system 602(as shown in figure 13) comprise a row and be raised or be suspended into video display module 100 in midair, as in performance is prepared, by splitting selectively the mode of door bolt 211 and suspension hook 213 of one or more video display modules 100, can move as required and/or change one or more video display modules 100.Protected/fractionation that the video display module 100 that in one embodiment, need to move or change also can pass through lifting device (as shown in figure 10) selectively.As shown in Figure 6, multiple video display modules 100 can production video display system 602.In one embodiment, video display system 602 comprises video display module 100.Video display system 602 can support by the web member of 100 of video display modules, or can be shared the weight of video display system 602 and be provided stability and/or other devices of support support by cable or other.Video display system 602 can be for Theatrical performance, concert and/or other suitable performance.The combination weight of the video display system 602 being made up of video display module 100 in one embodiment, is less than the combination weight by the video display being welded to form.In another embodiment, video display module 100 Hes, therefore, the material that video display system 602 can not need or be not suitable for welding forms.

Referring again to Fig. 2 to Fig. 4, supporting member 108 can be set as interlocking with another supporting member 108 or a corresponding (not shown) that supports.Supporting member 108 can be made up of any applicable material.Applicable material can comprise metal, as aluminium, or other machinable or plastic materials.Described material should be enough firm, to offer Optical Transmit Unit 102(and/or another light source) enough supports, but can not be too heavy.In addition, the material of manufacture should be able to flexibly stretch, adaptive temperature changes, and the condition that conforms.In another embodiment, the material of supporting member can include, but are not limited to following different material, steel, and complex or pottery, as stainless steel or carbon complex.

In one embodiment, beam member 110 can be mounted and be set to receive two supporting members 108 and four pillars 112.In another embodiment, member can be mounted and be set to receive more or less supporting member and/or pillar.Pillar 112 can be mounted and be set to receive a supporting member 108 and two beam members 110.On the whole, pillar 112 should reduce the movement between supporting member 108 and beam member 110.The application of pillar 112 has stoped the structure that may cause video supporting construction 104 to lose its rectangular profile to move or distortion, for example, needed rectangular geometries is become to diamond structure.Movement may cause Optical Transmit Unit 102(and/or other light sources by this way) and supporting member 108 and beam member 110 between centrifugal force.Beam member 110 and pillar 112 can be made up of any applicable material, include, but are not limited to the material identical with the material of making supporting member 108.Suitable material includes, but are not limited to, aluminium, and steel, meets or material that other can machining.

The arrangement of supporting member 108, beam member 110 and pillar 112 can comprise with independent supporting member 108 and join and merge the joint 215 can pin connecting, beam member 110 and/or the pillar 112 that are connected and arrive latched position.The joint 215 can pin connecting can comprise the device of pin 502 or other similar pins that are applicable to, described device can suitably compress, or gos deep on the contrary and be held in the opening 501 of other parts of supporting member 108, beam member 110, pillar 112 and/or video display module 100.In an example embodiment, the joint 215 can pin connecting can and be bonded between supporting member 108, beam member 110 and/or pillar 112 connector locking.In another example embodiment, the joint 215 can pin connecting can form the close tolerance to assembling video display module 100.As shown in Figure 2, in one embodiment, a large amount of pin 502(are as shown in Figure 5) in the joint 215 that can be used to can pin connect.Pin 502 can be right cylinder or other applicable geometrical bodies.Pin 502 can insert in opening 501, and described opening is arranged in supporting member 108, and is arranged on the position that is positioned at or approaches supporting member 108 and arrive beam member 110 parts.Pin 502 can enter opening corresponding in beam member 110 501 through supporting member 108.In an example embodiment, pin 502 can suitably be compressed, or contrary, is advanced to opening 501, and pin is fixed in place like this.In another example embodiment, the position of this part can arrive supporting member 108 places for pillar 112.In this embodiment, pin 502 can be inserted through the opening 501 of each supporting member 108, beam member 110 and pillar 112.

Pin 502 can insert through supporting member 108 and beam member 110 and approach the position that Optical Transmit Unit 102 and supporting member 108 and beam member 110 fit.In one embodiment, the insertion position of pin 502 can approach Optical Transmit Unit 102(and/or other light sources) locate, in case shotpin nail 502 protrudes from supporting member 108.The outstanding on-plane surface that may cause arriving at Optical Transmit Unit (and/or other light sources) like this.The diameter of pin 502 can be greater than the diameter of corresponding opening 501 slightly.Described slightly large diameter can make pin 502 hammer into and insert through supporting member 108 and beam member 110, or supporting member 108, beam member 110 and pillar 112.Under the prerequisite being tufted into, pin 502 can be protected.In one embodiment, the insertion of pin can impact to realize by rubber mallet (not marking in figure) or other similar means.In other embodiments, the diameter of pin 502 can be less than the diameter of opening 501.

Be inserted through supporting member 108 and beam member 110 or only insert under the prerequisite through support element 108 at pin 502, beam member 110, pillar 112 and pin 502 can be protected by the end of dowel with expanding sleeve 502.In one embodiment, pin 502 can be protected by the similar device that utilizes opening sales.In another embodiment, pin 502 can comprise the angled parts of tool that can make its rotation and obtain protection.In another embodiment, pin 502 can be protected by bonding agent.In another embodiment, the register pin 502 in pin connection may need mobile or replace pin 502 and keep in repair and change.Under the prerequisite of mobile pin 502, as the assembly of supporting member 108, beam member 110 and pillar 112, can repair or replace, can also form a new joint 215 can pin connecting simultaneously.

With reference to figure 3 and Fig. 4, corresponding to the geometrical body of supporting member 108, beam member 110 and pillar 112, it makes pin 502 can protect video supporting construction 104.Supporting member 108 can comprise and is configured to arrive the outstanding opening of beam member 110 202.Opening 202 can be protected by the pin 502 on the joint 215 can pin being connected with outstanding 204.Conventionally the opening 202 of, protecting can be by a right angle of form formation of two joints 215 that can pin be connected with outstanding 204.But, for example, in the time of temperature variation, may produce some relative motions slack so that metal is fluffed, make it have elasticity, and make cold draw.

The geometrical body of supporting member 108, beam member 110 and the pillar 112 of video supporting construction 104 inside can similarly be set to provide corresponding fully coplanar surface.With reference to figure 3 and Fig. 4, the joint 215 can pin connecting makes pin 502 protect video supporting construction 104.The supporting member 108 of video supporting construction 104 inside and the corresponding geometrical body of beam member 110 can provide nonplanar surface.In other embodiment, the supporting member 108 of video supporting construction 104 inside and the corresponding geometrical body of beam member 110 can provide and engage Optical Transmit Unit 102(and/or other light sources) the surface of abundant plane.The geometrical body of supporting member 108 and beam member 110 can be further corresponding to the geometrical body of pillar 112.The geometrical body of supporting member 108 can comprise the opening 304 corresponding to the expansion of pillar 112.The geometrical body of beam member 110 can comprise recess 206, and described recess 206 can be protected by the pin 502 on the joint 215 can pin being connected of supporting member 108 and beam member 110 pillar 112.

Fig. 7 to Figure 14 shows assembling or the building method of video display system 602 jointly.In order clearly to describe embodiments of the invention, Fig. 7 to Figure 14 shows the back side of video display module, that is to say, contrary one side conventionally can time be seen by spectators in performance (, towards Optical Transmit Unit 102(as Fig. 1)), jointly show video storage unit 700 with reference to figure 7 and Fig. 8, for example, the mobile car that carries, can be arranged to and receive and/or store video display module 100.In one embodiment, one or more video display modules 100 can form video display system 602.As further shown in Figure 7, video storage unit 700, in Transportation Model, has protection side frame 702 with protection video storage unit 700.Video storage unit 700 has that any applicable geometrical body can receive and/or the store video display module 100 of video display system 602.For example, show storage unit 700 can be with or without the cube structure of enclosure wall, and there is size and can arrive bottom or the basis 704 of video display module 100.As shown in Figure 8, show that storage unit 700 is positioned at compute mode, for setting (output and/or reception) video display module 100 to move or to dismantle protection side frame 702 from demonstration storage unit 700.Show that storage unit 700 protections are arranged in the video display module 100 of layer or row 800; as be expressed as ground floor 800 '; the second layer 800 ' '; the 3rd layer 800 ' ' '; the 4th layer 800 ' ' ' ', and layer 5 800 ' ' ' ' ' (Fig. 8 shows the layer that shows protection/storage in storage unit 700).Figure 14 shows row and is suspended in demonstration storage unit 700, is progressively assembled into large-scale video display system 602 thereby realize.In one embodiment, video display system 602 can have a layer 800(as ground floor 800 '), meanwhile, in another embodiment, video display system 602 can have five above layers 800.In one embodiment, multiple demonstration storage unit 700 are for providing the quantity of the required layer 800 of video display system 602.Same, as further shown in Figure 8, show that storage unit 700 ensures that the arrangement of video display module 100 is arranged in row 900, as first row 900 ' and secondary series 900 ' ', thus realize the progressively assembling of large-scale video display system 602.In one embodiment, as shown in Figure 8, first row 900 ' and secondary series 900 ' ' opposite end can interconnect along intercommunicating region 717, and corresponding video display module 100 protected/be stored in video storage unit 700.In one embodiment, show that storage unit 700 can receive and/or store at least one row 900, although in another embodiment, show that storage unit 700 can receive and/or store three or three above row 900.

As shown in Figure 9, in the time showing that storage unit 700 is set as compute mode (as shown in Figure 8), show that storage unit 700 is placed in respectively in predetermined arrangement, to prepare to construct video display system 602.In one embodiment, the respective ends or the limit that show storage unit 700 comprise as the fastening feature 720 of machanical fastener, magnetic part or other suitable technology or matable assembly arrangement, to ensure showing that storage unit 700 is relatively in a fixing default position each other.In one embodiment, respective ends or the limit of demonstration storage unit 700 can interconnect.In one embodiment, in predefined arrangement mutually the demonstration storage unit 700 of configuration can comprise the respective ends that shows storage unit 700 towards with enter place close to each other, but between demonstration storage unit, do not connect.As further shown in Figure 9, show that storage unit 700 comprises row 900(first row 900 ', secondary series 900 ' jointly ', the 3rd row 900 ' ' ', the 4th row 900 ' ' ' ', the 5th row 900 ' ' ' ' ', and the 6th row 900 ' ' ' ' ' '), layer 800 (ground floor 800 ' also jointly comprised, the second layer 800 ' ', the 3rd layer 800 ' ' ', the 4th layer 800 ' ' ' ', and layer 5 800 ' ' ' ' ').Except ensureing to show that storage unit 700 is in fixing each other position, other respective ends of video display module 100 its points by as door bolt 211 and suspension hook 213 (as shown in Figure 6) the order collective of arranging engage to settle location, thereby Assurance component is selectively arranged to form row and column and is formed video display system 602.

As shown in Figure 10, the ground floor 800 ' of video display module 100 ensures by lifting device 710, as by utilizing cable 712 or similarly by the device (as shown in figure 14) of configuration capstan winch 716.In one embodiment, due to the selectable arrangement between contiguous row 900, as first row 900 ' and secondary series 900 ' ' opposite end between, can promote an at least part of row 900, as unsecured ground secondary series 900 ' ', for example, secondary series 900 ' ' towards lifting device 710.In another embodiment, all ends towards lifting device 710 of ground floor 800 ' all ensure towards lifting device 710.Result, as shown in figure 11, by upgrading valve gear 710 in the direction at a vertical in fact direction and maintenance lifting device 710, as being parallel in fact ground, ground floor 800 ', comprises simultaneously similar the lifting in fact in showing storage unit 700 of respective column 900 of video display module 100.

As shown in figure 11, when the ground floor 800 ' of video display module 100 promotes in fact in showing storage unit 700, as shown in Figure 12, show storage unit 700 integrated moving in moving direction 714.Such movement makes the low side of ground floor 800 ' with respect to lifting device 710 homeotropic alignment in fact, corresponding, video display module 100 its second layers 800 ' ' high-end placement or be stored in show in storage unit 700.When the respective ends of row parts is arranged, and as the fastening feature of door bolt 211 and suspension hook 213 (as shown in Figure 6) extend mutually along being connected to each other region 718 in fact, the respective ends 800 ', 800 ' of the first and second layer segments ' mutually protect.In addition, be arranged in selectively the row 900(first row 900 ', the secondary series 900 ' that close on ', the 3rd row 900 ' ' ', the 4th row 900 ' ' ' ', the 5th row 900 ' ' ' ' ' and the 6th row 900 ' ' ' ' ' ') between the door bolt 211 and the suspension hook 213 that extend.

In one embodiment, as shown in Figure 13, the method of an assembling video display system 602 comprises places and selectively arranges together with a large amount of video display modules 100 with formation ground floor 800 ', promote ground floor 800 ', place together with selectively a large amount of video display modules 100 to form the second layer 800 ' ', and the second layer 800 ' ' be attached on first row.In another embodiment, do not have lifting device 710 can realize described method yet.

As shown in Figure 13, when ground floor 800 ' is promoted by lifting device 710, ' ensure mutually along internal links region 718, the first and second layer 800 ', 800 ' ' promotes (as shown in figure 14) jointly by capstan winch 716 and to place or be stored in the second layer 800 ' showing in storage unit 700.In this, foregoing Figure 12 and Figure 13 in conjunction with shown in step repeat to promote all row (as the 3rd layer 800 ' ' ', the 4th layer 800 ' ' ' ' and layer 5 800 ' ' ' ' '), as shown in Figure 14, therefore the selection of layer 800 comprises row 900, forms a large-scale video display system 602 and can be arranged in the preparation of production.

Under the prerequisite completing in production, entirety row as shown in Figure 14 (as ground floor 800 ', the second layer 800 ' ', the 3rd layer 800 ' ' ', the 4th layer 800 ' ' ' ', and layer 5 800 ' ' ' ' ') will be landed until layer 5 800 ' ' ' ' ' ' be landed to and show in storage unit 700.Between ' ' ' and the 4th layer 800 ' when layer 5 800 ' ' ' ' ' be landed to show storage unit 700, layer 5 800 ' ' ' ' ' part to interconnect region separated.In addition, contiguous row (as first row 900 ', secondary series 900 ' ', the 3rd row 900 ' ' ', the 4th row 900 ' ' ' ', the 5th row 900 ' ' ' ' ', with the 6th row 900 ' ' ' ' ' ') selectively mutually split as required, when having assembled, show that storage unit 700 can relatively move mutually like this.Many steps can desirable the completing with different orders.For example, separate layer 5 800 ' ' ' ' ' and the 4th layer 800 ' ' ' ' between interconnect accordingly region step can prior to, simultaneously or after selectively fractionation mutually between contiguous row 900.In a replaceable embodiment, more than one video display module 100, represents contiguous row, can after dropping in demonstration storage unit 700, keep interconnecting the quantity splitting to reduce video display system 602.

Those skilled in the art like foregoing installation step to repeat (although many steps can complete in assembling simultaneously with complete inverted order, or with described before reversed in order, if wanted, also can split with different order) until contiguous row and column mutually between and between lifting device, and and show between storage unit and be separated.When the row of video display module 100 splits and selectively departs from each other and with showing storage unit, show that storage unit can move with respect to they predetermined arrangements, and be placed in Transportation Model, as be that in the preparation of next time producing, transport shows storage unit.

When the present invention is described as relevant preferred embodiment, it will be understood by the technician in described field, can produce multiple variation, and wherein the key element of equivalence can be substituted, and does not depart from the scope of this technology.In addition, can take some to revise to adapt to special situation or material, also not depart from the instruction of its essential scope.Therefore, it is intended that the present invention and is not limited to as realizing the disclosed preferred embodiment of anticipated optimal set pattern of the present invention, but the present invention will comprise all embodiment that drop within the scope of dependent claims.

Brief description of the drawings

Fig. 1 shows the skeleton view of an example embodiment of video display system.

Fig. 2 shows the skeleton view of an example embodiment of video supporting construction.

Fig. 3 shows the partial enlarged drawing of the skeleton view of the video supporting construction shown in Fig. 2.

Fig. 4 shows the another partial enlarged drawing of the skeleton view of the video supporting construction shown in Fig. 2.

Fig. 5 shows the skeleton view of an example embodiment pin.

Fig. 6 shows the skeleton view of another example embodiment of video display system.

Fig. 7 shows the skeleton view of an example embodiment that shows storage unit.

Fig. 8 shows partial disassembly's skeleton view of the demonstration storage unit shown in Fig. 7.

Fig. 9 shows the skeleton view of an example embodiment that shows memory cell arrangement.

Figure 10 shows the skeleton view that does not promote ground floor of an example embodiment of video display system.

Figure 11 shows the skeleton view that promotes ground floor of the video display system shown in Figure 10.

Figure 12 shows the skeleton view that does not promote the second layer of the video display system shown in Figure 11.

Figure 13 shows the skeleton view that promotes ground floor and the second layer of the video display shown in Figure 12.

Figure 14 shows the skeleton view of all layers of follow-up lifting of the video display shown in Figure 13.

Claims (10)

1. the method for assembling display system components, described method comprises:

Arrange and selectively arrange multiple assemblies to form together a ground floor;

Promote ground floor;

Arrange and selectively arrange multiple assemblies to form together a second layer; And

This second layer is attached to ground floor.

2. the method for claim 1, is characterized in that, the described second layer is attached to described ground floor to form multiple row modules.

3. the method for claim 1, is characterized in that, described assembly has at least one and extends to Optical Transmit Unit wherein.

4. method as claimed in claim 3, is characterized in that, a part for described at least one Optical Transmit Unit is in fact laterally along at least one extension in described multiple assemblies.

5. the method for claim 1, is characterized in that, described assembly is arranged on to carry on car and arrange and comprises the described car that carries of aligning.

6. method as claimed in claim 5, is characterized in that, described setting comprises described the interconnecting of car of carrying.

7. method as claimed in claim 5, it is characterized in that, arrange and selectively arrange multiple assemblies to form together described ground floor, include the assembly of guaranteeing described ground floor of selection in lifting device, wherein promote described ground floor and comprise that lifting device promotes described ground floor from described year car, wherein arranging and selectively arrange to form together with multiple assemblies the described second layer comprises and described year car is set in fact vertically to arrange the described second layer and described ground floor, and comprise by lifting device and promote described ground floor and the described second layer from described year car.

8. method as claimed in claim 7, described method comprises:

Land the described second layer to described year car;

Split the described second layer from described ground floor;

Arrange and selectively split the assembly that forms the described second layer;

Land described ground floor to carrying on car;

Separate described ground floor from lifting device; And

Arrange and selectively split the assembly that forms described ground floor.

9. method as claimed in claim 8, wherein arranges with the assembly that selectively splits the described ground floor of formation and comprises from the arrangement of described year car and being moved.

10. method as claimed in claim 7, described method comprises

By selectively separating and/or split assembly from least one contiguous assembly with described lifting device, from the assembly of at least one ground floor and first row, separate and/or split assembly.

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