• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a multimedia seat arrangement (1) for a viewer area (2) of a entertainment device (3), in particular for a 4D cinema, comprising at least one effect seat (5), and at least two effect arm rests (6), which are respectively left and right of the Effect seat (5) are arranged. In each of the effect armrests (6) is an effect module (7) comprising a flow housing (8) through which flow housing (8) in a main flow channel from the effect armrest (6) out an air flow in the face of a user (4) can be guided.
    公开号:AT515890A2
    申请号:T50409/2014
    申请日:2014-06-12
    公开日:2015-12-15
    发明作者:
    申请人:Kraftwerk Living Technologies Gmbh;
    IPC主号:
    专利说明:

    The invention relates to a multimedia seat arrangement, for a spectator area of a entertainment device, in particular for a 4D cinema, as specified in claim 1.
    From CN203253180U a multimedia seat arrangement is known which comprises an effect seat. In the effect seat a seat surface vibration unit is arranged, through which the seat of the effect seat is vibratable. Furthermore, the effect seat comprises an elastic air hose, which is arranged in the foot region of the seat and is designed to strike against the calves of a user. In the right armrest of the effect seat, an effect head is installed, which includes a water nozzle and an air nozzle. In addition, a stun gun is installed in the right armrest to deliver an electrical shock. The left-hand armrest incorporates a special effects control unit equipped with an LCD touch monitor that allows user input. In addition, a handle in the form of a standing pipe section is arranged on both the left and on the right armrest.
    The design of a multimedia seat described in CN203253180U has the disadvantage that the special effects on the user lead to inadequate entertainment pleasure.
    The present invention has for its object to provide an improved multimedia seating arrangement to offer the user a better and more intense entertainment pleasure can.
    This object of the invention is achieved by the measures according to claim 1.
    According to the invention, a multimedia seat arrangement is designed for a spectator area of a entertainment device, in particular for a 4D cinema. The multimedia seat assembly comprises at least one effect seat, and at least two effect armrests, which are respectively arranged on the left and right of the effect seat. In each of the effect armrests, an effect module is arranged with a flow housing, through which in a main flow channel from the effect armrest out an air flow in the face of a user is feasible.
    The construction according to the invention has the advantage that the air flows, which are led out of the left and right of the user arranged armrests, can act symmetrically on the face of a user. Thus, the user can be given a much improved and more intense entertainment pleasure, since the simulated by the bilateral air flow currents are much more realistic than would be possible with a single-sided air flow.
    Furthermore, it may be expedient that in the flow housing of the effect modules at least one secondary flow channel is formed, which is provided for the transport of a fragrance. An advantage of this design is that a perfume can be delivered by the effect module in addition to an air flow through the bypass duct. In particular, both the airflow and the fragrance can be transported from an effect armrest of an effect seat in a 4D cinema to the user. This leads to a completely new entertainment experience, which is unknown to a user in this way. Especially when the fragrance flows out of an effect module integrated into the effect armrest, the fragrance can be transported to the user quickly and in sync with a entertainment demonstration such as a movie.
    Furthermore, it can be provided that the at least one secondary flow channel opens into the main flow channel so that a perfume transported in the secondary flow channel can be mixed with the air guided through the main flow channel and transported to the user by the air flow. The advantage here is that the perfume can be transported by the air flow in the main flow channel. Thus it can be achieved that the perfume can be directed specifically to the user. In addition, can be achieved by this measure that the perfume very well, timed with the entertainment program, can arrive at the olfactory organ of the user and, if necessary, can be blown away from this again by means of the air flow.
    In addition, it can be provided that in the effect module at least one compressed air channel is designed to deliver a blast of compressed air. By such a blast of compressed air, the entire entertainment experience of the user can be significantly increased. In particular, a blast of compressed air in conjunction with a uniform laminar flow directed through the main flow channel can lead to a totally unexpected experience.
    Also advantageous is an expression according to which at least one water nozzle for dispensing a jet of water can be arranged in the effect module. The advantage here is that the entire entertainment experience of the user can be significantly increased or intensified by such a water jet. In particular, a jet of water in conjunction with a uniform, laminar flow directed through the main flow channel can lead to a totally unexpected experience. Furthermore, in the case of atomization of the water jet, the air flow can be used as a means of transport for the individual drops of water, whereby new effects, such as misting can be simulated.
    According to a development, it is possible that the effect module is formed symmetrically with respect to a plane of symmetry which is arranged normal to a visible surface of the effect module, so that the effects that can be generated in an effect module act on two effect seats arranged next to each other. The advantage here is that thereby the effects of the effect module can act both on a left side and on a right side of the effect module sitting user. Thus, using as few of the effect modules as possible, the largest possible number of users can benefit from the effects. Furthermore, the effect modules can be performed uniformly, whereby the production of the effect modules can be made advantageous. A particularly good entertainment experience can be achieved when the user has two effect modules, with one of the effect modules on the left side and one of the effect modules on the right side of the user integrated in the effect armrest. If several effect seats are arranged next to one another, a minimal number of modules can be used here in the case of a symmetrical design of the effect modules.
    Furthermore, it may be expedient if, depending on the effect armrest, a fan is arranged, through which the air flow guided through the main flow channel of the flow housing can be generated. The advantage here is that it can be achieved by connecting to a fan, that the guided through the main flow channel volume flow is continuously variable. In addition, by means of a fan, which is arranged in the effect armrest, the required air flow can be generated directly at the place where it is needed. Thus, the flow losses can be kept low, whereby an energy-efficient operation of the multimedia seat assembly can be achieved.
    In addition, it can be provided that per multimedia seat arrangement, a fragrance generator is arranged, which comprises at least one fragrance storage, each fragrance memory is stored a fragrance, which fragrance is, if necessary, transportable to the effect module and deliverable to this. The advantage here is that the fragrance does not have to be moved through a pipe system in the cinema, but that it can be generated directly on the multimedia seat arrangement and retrieved. Thus, the fragrance can be generated directly in the place where it is needed. As a result, it can be achieved that the fragrance can be transported to the user promptly and synchronously with a entertainment presentation. In addition, the fragrance does not lose its intensity due to the short transport routes.
    Furthermore, it can be provided that the effect module comprises a light-emitting component. The advantage here is that the entire entertainment experience of the user can be significantly increased by the additionally generated light effect. For example, can be simulated by the light-emitting component, the optical sensation of an explosion, which additionally by the air flow, or by the blast of compressed air, the pressure wave can be simulated. Thus, a unique entertainment experience can be created especially in combination with the effects generated by the main flow channel and / or by the compressed air channel and / or by the water jets. The light-emitting component can preferably be equipped with LEDs, which are preferably designed for emitting a white flash light and also colored lights.
    According to a particular embodiment, it is possible that in the effect armrest a control board for controlling the effects is arranged. The advantage here is that a control board can individually control the effects, such as the intensity and the strength of the air flow individually for each effect armrest individually. Thus, by means of appropriate sensors, the current state, as occupied or free, of each effect seat can be detected and, taking into account the current state of the effect seat, the individual effects can be controlled individually for each effect seat.
    According to an advantageous development can be provided that the control board is disposed on a bottom of the effect armrest, wherein on the control board at least one LED is arranged, which serves to illuminate the floor. The advantage here is that the control board can simultaneously serve as a light-emitting component for effect lighting or security lighting, which illuminates the floor.
    In particular, it can be advantageous that a seat occupancy sensor, in particular an infrared sensor, is integrated in the effect armrest, on the basis of which information the individual effects, in particular the air flow guided through the main flow channel, can be controlled. As a result, those seats that are not occupied, can be detected and therefore need not be acted upon by the effects, such as the air flow. Thus, this feature can minimize the energy needed to operate the entertainment device, or use it efficiently.
    Furthermore, it can be provided that in the effect seat, in particular in the backrest in the neck region of the user, a further compressed air duct is designed for dispensing a further burst of compressed air into the neck of the user. The advantage here is that this effect leads to a completely new entertainment experience, especially in combination with the guided through the main flow channel air flow.
    In addition, it can be provided that the effect module is integrated into the effect armrest and only one viewing area of the effect module is visible to the outside, wherein the visible surface, which is arranged in the field of view of the effect module projects a maximum of 5mm with respect to a receiving surface of the effect armrest, in which the Effect module is integrated. The advantage here is that the user can not abuse the effect module as a handle to hold on to it. Thus, the risk of damage to the effect module by the user can be minimized.
    Also advantageous is an expression according to which a latching system can be formed on the effect module, which interacts with the receptacle in the effect armrest, whereby it can be removed from the effect armrest and inserted into it as needed. The advantage here is that the effect module can thus be easily installed in the effect armrest and, if necessary, can be removed from this again. As a result, possibly necessary cleaning work on the effect module can be carried out easily, which reduces, for example, the risk of the deposition of a mold.
    According to a further development, it is possible for a retaining knob to be arranged in a hand rest area of the effect arm rests. The advantage here is that the user can hold on to the retaining knob in order to stabilize about his sitting position during the movement of the multimedia seat assembly can.
    Furthermore, it may be expedient that a central control unit is embodied per multimedia seat arrangement, to which a signal from a computer unit reproducing a film can be transmitted by means of an interface, such as a network cable, whereby a pneumatic switching station can be actuated by the control unit. The advantage here is that thereby the installation effort in the installation of such a multimedia seat assembly is minimized, since only a network cable must be routed as a supply line for a multimedia seat arrangement.
    Furthermore, it may be appropriate that the control unit and the control board are connected to each other by another network cable, so that control information between the control unit and the control board and vice versa are transferable. The advantage here is that thereby the control unit can be made smaller, since the computing power can be taken over centrally by the control board. As a result, the whole system is modular, with the appropriate programming of the control unit at any time another control board can be used, or the number of effect armrests or control boards can be varied.
    In addition, it can be provided that in each case a loudspeaker is arranged on an effect seat, in particular on the left and on the right of the backrest. The advantage here is that individually for each effect seat a sound experience can be generated, which is tailored to the remaining effects. In particular, for example, in synchronism with the air flow guided through the main flow channel, the corresponding wind noise can be reproduced by the loudspeakers.
    Furthermore, it can be provided that in the back of an effect seat, an actuator, in particular a pneumatic cylinder is arranged, by means of which a backrest surface of the backrest is selectively deformable. The advantage here is that the entertainment experience of the user can be intensified in conjunction with the remaining effects, in particular the guided through the main flow channel air flow. For example, in the simulation of an explosion in addition to the air flow into the user's face also flying parts can be simulated, which are thrown into the back of the user.
    According to a particular embodiment, it is possible that a vibration drive is arranged in the backrest. The advantage here is that the entertainment experience of the user can be intensified in conjunction with the remaining effects, in particular the guided through the main flow channel air flow.
    According to an advantageous development it can be provided that a vibration drive is arranged in a seat surface of the effect seat. The advantage here is that the entertainment experience of the user can be intensified in conjunction with the remaining effects, in particular the guided through the main flow channel air flow.
    In particular, it may be advantageous that in an area of the foot of the effect seat, an elastic, pressurized air, pneumatic hose is arranged, which is closed on one side, and which is arranged freely suspended on the effect seat. The advantage here is that the entertainment experience of the user can be intensified in conjunction with the remaining effects, in particular the guided through the main flow channel air flow.
    Finally, it can be provided that a movement device is formed, by means of which the Mulimediasitzanordnung is movable. The advantage here is that the entertainment experience of the user can be intensified in conjunction with the remaining effects, in particular the guided through the main flow channel air flow.
    For a better understanding of the invention, this will be explained in more detail with reference to the following figures.
    In each case, in a highly simplified, schematic representation:
    Fig. 1 is a perspective view of a multimedia seat assembly;
    Fig. 2 is a perspective view of a flow housing;
    3 shows a further perspective view of a flow housing;
    4 is a plan view of the flow housing.
    5 shows a side view of the flow housing with dashed inner workings;
    Fig. 6 is an aligned view normal to the installation surface of the installation area;
    7 is a perspective view of a sectional view of the flow housing, in particular according to the section line VII - VII in Fig. 4.
    8 is a perspective view of a sectional view of the flow housing, in particular according to the section line VIII - VIII in Fig. 5.
    9 shows a further sectional view of the flow housing, in particular according to the section line IX-IX in FIG. 5;
    10 shows a further sectional view of the flow housing, in particular according to the section line X - X in FIG. 5;
    11 shows a further sectional illustration of the flow housing, in particular according to the section line XI-XI in FIG. 5;
    12 is a sectional view of the flow housing, as has already been shown in perspective form in FIG. 8, in particular according to the section line VIII-VIII in FIG. 5;
    13 is a further sectional view of the flow housing, in particular according to the section line XIII - XIII in Fig. 5;
    Fig. 14 is a perspective view of the effect module which is assembled with a fan;
    Fig. 15 is a perspective view of an effect armrest;
    FIG. 16 shows a further perspective view of the effect armrest without covering elements; FIG.
    Fig. 17 perspective view of an effect seat without cover;
    Fig. 18 is a side view of the multimedia seat assembly;
    19 is a front view of the multimedia seat assembly.
    By way of introduction, it should be noted that in the differently described embodiments, the same parts are provided with the same reference numerals or the same component names, wherein the disclosures contained in the entire description can be mutatis mutandis to the same parts with the same reference numerals or component names. Also, the location information chosen in the description, such as top, bottom, side, etc. related to the immediately described and illustrated figure and these position information in a change in position mutatis mutandis to transfer to the new location.
    1 shows a perspective view of a multimedia seat arrangement 1 for a viewer area 2 of a entertainment device 3. Such an entertainment device 3 can be, for example, a 4D cinema in which a motion picture film is played and a special effect acts on a user 4 through the multimedia seat arrangement 1. Alternatively, it is also conceivable that such a multimedia seat arrangement 1 is used approximately in a theater or in any other entertainment device 3, such as a ghost train or another ride.
    As can be seen in FIG. 1, provision can be made for the multimedia seat arrangement 1 to comprise a plurality of effect seats 5, which are arranged next to one another. In other words, the multimedia seat arrangement 1 is a unit of several side-by-side effect seats 5. The number of side-by-side effect seats 5 can vary depending on the field of application of the multimedia seat arrangement 1. As shown in Fig. 1, it is possible, for example, that three effect seats 5 are arranged side by side. In other applications, it is also conceivable that about 10 or 15 effect seats 5 are arranged side by side and thus form a multimedia seat arrangement 1. Furthermore, it is also conceivable that the multimedia seat arrangement 1 comprises only one effect seat 5.
    Furthermore, it is provided that in each case left and right of the effect seat 5, an effect armrest 6 is arranged. The effect armrest 6 can in this case be integrated into the effect seat 5, but it is also possible for the effect armrest 6 to be arranged as an independently designed component on the multimedia seat arrangement 1.
    Preferably, the number of effect armrests 6 in a multimedia seat arrangement 1 is always one higher than the number of effect seats 5. Furthermore, it can be provided that in the multimedia seat arrangement 1 all effect armrests 6 are identical, so that here a standard element can be used. An effect armrest 6 arranged between two effect seats 5 is in each case available to the users 4, who sit on the effect seat 5 on the left of the effect armrest 6 or on the effect seat 5 on the right of the effect armrest 6.
    It is further provided that in an effect armrest 6 at least one effect module 7 is arranged, through which one or more special effects can contribute to the realistic entertainment of the user 4.
    The effect module 7 comprises a flow housing 8, which is integrated into the effect armrest 6.
    When flow housing 8 can be provided that this is a component which has a complex structure. To describe this complex component, a preferred embodiment of the flow housing 8 in Figures 2 to 13 is shown in several different views and sectional views. For a clear explanation of the features of the flow housing 8 and the effects achieved with it, a synopsis of several of these figures is used in the figure description of Figures 2 to 13. Here, the same reference numerals or component names are used as in the other figures 2 to 13 respectively for the same parts. In order to avoid unnecessary repetition, not all reference signs are entered in each of the figures, but reference is made to the detailed descriptions of the respective other FIGS. 2 to 13. It should also be mentioned that the chronology of the description does not pay attention to the sequence of the figures, but that individual coherent effects are described consistently and orderly. As a result, it can occur that in the course of the description of the figures the figures are referred to in a seemingly arbitrary order.
    2 shows a perspective view of a flow housing 8. In particular, the plan view of a viewing area 9 is shown here, which is visible in the installed state of the flow housing 8 in the effect armrest 6 from the outside, that is the user 4. The surface of the viewing area 9 is formed here by a visible surface 10.
    FIG. 3 shows a further perspective view of the flow housing 8, an installation area 11 with an installation area 12 delimiting the installation area 11 being shown in this view.
    FIG. 4 shows a plan view of the flow housing 8, the view being oriented normally on the installation surface 12.
    Fig. 5 shows a side view of the flow housing 8, wherein the inner life of the flow housing 8 is shown in dashed lines for clarity.
    FIG. 6 shows an aligned view normal to the installation surface 12 of the installation area 11.
    7 shows a perspective view of a sectional view of the flow housing 8, in particular according to the section line VII-VII in FIG. 4.
    8 shows a perspective view of a sectional view of the flow housing 8, in particular according to the section line VIII - VIII in FIG. 5.
    9 shows a further sectional illustration of the flow housing 8, in particular according to the section line IX-IX in FIG. 5.
    FIG. 10 shows a further sectional view of the flow housing 8, in particular according to the section line X - X in FIG. 5.
    11 shows a further sectional representation of the flow housing 8, in particular according to the section line XI-XI in FIG. 5.
    12 is a sectional view of the flow housing 8, as already shown in perspective form in FIG. 8, in particular according to the section line VIII-VIII in FIG. 5.
    FIG. 13 shows a further sectional illustration of the flow housing 8, in particular according to the section line XIII-XIII in FIG. 5.
    The flow housing 8 is preferably formed from a thermoplastic material. It can be provided that the flow housing 8 is produced by means of a rapid prototyping method. Alternatively, it is also conceivable that the flow housing 8 is produced in an injection molding process.
    As can be seen particularly well in Fig. 12, in the flow housing 8, a main flow channel 13 is formed, in which an air flow 14 is passed from an air inlet opening 15 via a channel section 16 to an air outlet opening 17. As can be seen in FIGS. 2 to 13, the air outlet opening 17 is arranged in the viewing area 9, in particular the visible surface 10. The air inlet opening 15 is arranged in the installation area 11, in particular on the installation surface 12. By this arrangement, the air flow 14 is guided out of the effect armrest 6 out into the face of a user 4.
    In Fig. 12, a receiving surface 18 of the effect armrest 6 is further schematically indicated, in which the effect module, in particular the flow housing 8 is added. As can be seen from FIG. 12, a large part of the flow housing 8 is designed as an installation region 11, which is located below the receiving surface 18 of the effect armrest 6 and thus is not visible to the user 4.
    The viewing area 9, which protrudes with respect to the receiving surface 18, preferably has only a very small extent. In particular, it can be provided that the viewing area 9 has only a very small height 19 between 2 mm and 5 mm. This can bring several benefits. On the one hand, an effect module 7 integrated in the effect armrest 6 is only slightly visible from the outside, whereby the visual appearance of the multimedia seat arrangement 1 is improved. In addition, it can be avoided that a user 4 tears the effect module 7 out of the effect armrest 6 unintentionally or even in a vandal-resistant manner.
    Furthermore, it can be provided that in the region of the air inlet opening 15, a dome portion 20 is formed, through which the flow housing 8 can be connected to a fan 21 shown schematically. Such a fan 21 for generating the air flow 14 may be embodied for example in the form of a centrifugal fan, which is infinitely variable.
    Furthermore, it can be provided that the fan 21 is inserted into the dome portion 20. In this case, it may additionally be provided that between the flow housing 8 and fan 21, a sealing ring is arranged, which is received in the annular exception of the dome portion 20, and through which the dome portion 20 is sealed.
    Furthermore, it can be provided that, as shown in FIG. 12, a perfume 22 in a perfume supply line 23 is transported into a mixing chamber 24. The mixing chamber 24 is preferably designed in the form of a cavity 25, which is arranged at least in a partial region 26 around the main flow channel 13. In particular, it may be provided that, as shown particularly clearly in FIG. 10, the mixing chamber 24, which winds like a torus around the main flow channel 13, is spatially separated by a boundary wall 27 to the main flow channel 13.
    The mixing chamber 24 serves, in particular, to be able to mix a homogeneous fragrance composition from a plurality of different fragrances 22. For this purpose, it can be provided that a plurality of perfume supply lines 23 are formed, which open into the mixing chamber 24. In the illustrated embodiment, there are about 4 Duftstoffzuleitungen 23, which open into the mixing chamber 24, and are arranged annularly around the main flow channel 13. As a result, for example, up to four different fragrances 22 can be mixed together to form a fragrance composition.
    Furthermore, it can be provided that the boundary wall 27 has openings, which form a secondary flow channel 28, through which an individual perfume 22 or the mixed fragrance composition can be introduced into the main flow channel 13 via an outlet opening 29. In particular, as can be seen in FIG. 12, it can be provided that a plurality of secondary flow channels 28 are formed, which open out radially all around the main flow channel 13.
    As can be seen from a comparison of FIGS. 7, 8, 10, 11 and 12, it can be provided that flow-guiding elements 30 are formed in the main flow channel 13, which can be designed, for example, in the form of a partition wall 31. By the partition wall 31 can be provided that the main flow channel 13 is divided into a plurality of flow sections 32. By dividing the main flow channel 13 into a plurality of flow sections 32, it can be achieved that the air flow 14, starting from the air outlet opening 17, is directed in a certain direction. In particular, the air flow 14 can be divided thereby. This may be particularly advantageous if only one effect module 7 is installed in an effect armrest 6 between two effect seats 5, by which two users 4 seated on the effect seats 5 next to the effect armrest 6 are flown by the air flow 14.
    As can also be seen from the cited figures, it can be provided that the flow housing 8 is formed symmetrically with respect to a plane of symmetry 33. The plane of symmetry 33 may in this case extend between the visible surface 10 and the installation surface 12, it being possible in particular for the symmetry plane 33 to be aligned normally with the visible surface 10.
    As can be clearly seen in FIG. 12, it can be provided that the main flow channel 13 is divided by a centrally arranged center dividing wall 34 into two main flow sections 35, which are respectively directed onto an effect seat 5. The desired directional deflection of the air flow 14 can be achieved or adjusted by a V-like design of the center partition 34.
    As can be seen from FIG. 11, provision can be made for the air flow 14 to leave the main flow channel 13, in particular a main flow section 35, at an angle 36 to the visible surface 10.
    This can be achieved by arranging the main flow channel 13, in particular the main flow section 35, in an upper subregion 37 at precisely this angle 36 to the visible surface 10.
    In this case, the upper part region 37 of the main flow section 35 is approximately% of the longitudinal extent 38 of the main flow channel 13. In a lower part region 39, the main flow channel 13, in particular a main flow section 35, is oriented at right angles to the installation surface 12. This may be advantageous in order not to swirl the air flow 14, which is generated in the fan 21 and is introduced through the air inlet opening 15 into the main flow channel 13.
    The lower portion 39 may also be in about% of the longitudinal extent 38 of the main flow channel 13. Furthermore, a transition section 40 may be provided, in which the main flow section 35 is transferred from the vertical orientation of the lower portion 39 in the arranged at an angle 36 orientation of the upper portion 37. In this case, it makes sense if no angular or abrupt transitions are present along the entire main flow section 35, but rather if the channel guidance is uniformly transferred.
    Furthermore, as can be seen in particular in FIGS. 7 and 11, it can be provided that small intermediate partition walls 41 are arranged within the main flow section 35, by means of which it is subdivided into further flow sections 32. This can be particularly advantageous in order to achieve a targeted steering of the air flow 14 and thereby to obtain a laminar air flow.
    On the outside, the main flow channel 13, as already mentioned, is limited by its boundary wall 27. In particular, a delimiting wall surface 42 serves to delimit or guide the flow. The delimiting wall surface 42 may preferably have a smooth surface in order to be able to produce a turbulence-free and laminar air flow 14 which is as laminar as possible.
    As can be seen particularly clearly from FIG. 2, provision may be made for the flow housing 8 to have a longitudinal extent 43 between 50 mm and 80 mm, in particular between 60 mm and 70 mm, preferably approximately 65 mm, at its viewing region 9. A transverse extension 44 of the flow housing 8 may have at the viewing area 9 between 50 mm and 70 mm, in particular in about 60 mm.
    Furthermore, it can be provided that the main flow channel 13 at the air outlet opening 17 on the visible surface 10 has a longitudinal extent 45 between 25 mm and 40 mm, in particular between 30 mm and 35 mm. Preferably, it can be provided that the main flow channel 13 has a transverse extent 46 between 35 mm and 50 mm, in particular between 40 mm and 45 mm.
    Furthermore, it can be provided that the main flow channel 13 at the air inlet opening 15, which is placed on the installation surface 12, has a diameter between 25 mm and 40 mm, in particular between 30 mm and 35 mm.
    The longitudinal extent 38 of the main flow channel 13 may preferably be approximately between 20 mm and 35 mm, in particular between 20 mm and 30 mm.
    Furthermore, it can be provided that a compressed air channel 48 is formed, through which a blast of compressed air 49 in the face of the user 4 can be issued. The compressed air channel 48 has in the installation area 11, in particular on the installation onsfläche 12, a compressed air inlet opening 50. On the visible surface 10, a compressed air outlet opening 51 of the compressed air channel 48 is arranged.
    Furthermore, it can be provided that in the flow housing 8 two compressed air channels 48 are formed, which are arranged symmetrically with respect to the plane of symmetry 33. Similar to the main flow channel 13 can be provided that the compressed air channel 48, in particular in an upper portion 37, is arranged at an angle 52 to the visible surface 10. Furthermore, it can be provided that the compressed air channel at the compressed air inlet opening 50 has a first connection recess 53, which serves for receiving a compressed air hose 54, in particular a hose coupling 55.
    Furthermore, it can be provided that the compressed air channel 48 seen from the first connection recess 53 in the direction of compressed air outlet opening 51, first a strongly narrowing cross section 56 and on the remaining length of the compressed air channel 48 has a slightly widening cross section 56.
    The compressed air provided in the compressed air hose 54 may preferably have a pressure between 1 bar and 3 bar, in particular approximately 2 bar.
    Furthermore, as clearly shown in FIG. 4, it can be provided that the compressed air outlet opening 51 has a longitudinal extent 57 between 1.5 mm and 4 mm, in particular between 2 mm and 3 mm, preferably about 2.5 mm. A transverse extent 58 of the compressed air outlet opening 51 can have between 2 mm and 10 mm, in particular between 4 mm and 6 mm, preferably about 4.5 mm.
    Furthermore, as shown in FIG. 12, it may be provided that a second connection recess 59 is formed in the perfume supply line 23, which is designed to receive a perfume transport tube 60, in particular for receiving a hose coupling 61, by means of which the perfume transport tube 60 in the second connection recess 59 is fixed.
    Furthermore, as can be seen in FIG. 2, it can be provided that a nozzle receptacle 62 is formed in the flow housing 8, which serves to receive a water nozzle 63.
    As can be seen in FIG. 13, provision may be made for the nozzle receptacle 62 to be formed by a cavity which has its greatest extension at the installation surface 12.
    As can be seen in FIG. 2, it can be provided that the nozzle receptacle 62 on the visible surface 10 has a longitudinal extent 64 between 10 mm and 25 mm, in particular between 15 mm and 20 mm. Furthermore, it can be provided that a transverse extent 65 of the nozzle receptacle 62 is between 40 mm and 60 mm, in particular between 45 mm and 55 mm, preferably approximately 50 mm.
    Furthermore, it may be provided that in the nozzle receptacle 62, a latching element 66 is formed, by means of which the water nozzle 63 is fixable in the nozzle holder 62.
    Furthermore, it can be provided that a receptacle 67 for a light-emitting component 68 is formed in the flow housing 8. In particular, it can be provided that the light-emitting component 68 is integrated in a cover 69, which is provided to be inserted in the nozzle receptacle 62, in particular on the visible surface 10. It can be provided that in the receptacle 67 for the light-emitting component 68 respectively for the cover 69, a recess 70 is formed, in which the cover 69 can engage. In addition, it can be provided that an opening 71 is integrated in the cover 69, through which a water jet 72 generated by the water nozzle 63 can emerge from the effect module 7.
    Furthermore, as can be seen in FIG. 2, it can be provided that a latching system 73 is formed, by means of which the effect module 7 can be inserted into the effect armrest 6.
    As can be seen from FIG. 5, it can be provided that the visible surface 10 is arranged at an angle 74 to the installation surface 12. This may be necessary in order to be able to guide the air flow 14 away from the visible surface 10 at an angle 75 with respect to the longitudinal orientation of the flow housing 8. Since, as shown in FIG. 5, a partition wall 31 is preferably aligned at right angles to the installation surface 12, the angle 75 is equal to the angle 74.
    As can be seen from FIGS. 2 and 3, the basic geometric shape of the flow housing 8 is approximately formed by a cuboid.
    FIG. 14 shows a perspective view of the effect module 7 which is joined to a fan 21. The flow housing 8 is in this case represented in a section through the nozzle receptacle 62, so that the water nozzle 63, which is received in the nozzle receptacle 62, is visible. The water nozzle 63 is here shown cut. As can be seen from FIG. 14, it is possible to provide a first nozzle head 76 and a second nozzle head 77. In each of these nozzle heads 76, 77 a water nozzle outlet opening 78 is integrated, through which the water jet 72 can be discharged. In particular, can be achieved by the illustrated arrangement of the nozzle heads 76, 77, that the water jet 72 can be discharged at an angle 79 to the visible surface 10. Preferably, the two nozzle heads 76, 77 are positioned to each other so that the angle 79 is equal to the angle 36 of the main flow channel 13 and the angle 52 of the compressed air channel 48th
    The water nozzle outlet opening 78 is chosen so small that the water jet 72 is very fine or is partially atomized. Within the water nozzle 63, there is preferably a water pressure of about 40 to 50 bar.
    As further shown in FIG. 14, the cover 69, into which the light-emitting component 68 may be integrated, is preferably positioned in the receptacle 67 such that the apertures 71 are positioned just above the water nozzle exit opening 78. Furthermore, it can be provided that a sealing ring 80 is mounted between the cover 69 and in each case one nozzle head 76 and 77, by means of which it can be achieved that a water leaked out of the water nozzle outlet opening 78 can not enter the interior of the nozzle holder 62. Furthermore, as can be seen from FIG. 14, it can be provided that in the lower end of the water nozzle 63 a high-pressure hose 81 for supplying the water nozzle 63 is connected to it.
    In a preferred embodiment, it can be provided that the cover 69 is designed wholly or at least partially as a transparent or translucent component. Thus, it can be achieved that the light which is emitted by the light-emitting component 68 positioned under the cover 69 is perceived by the user 4.
    FIG. 15 shows a perspective view of an effect armrest 6. The viewing angle used here is approximately the perspective of a user 4 who sits in the effect seat 5 positioned to the right of the effect armrest 6.
    In Fig. 15 can be clearly seen how the effect module 7 is integrated into the effect armrest 6. In particular, it can be seen in Fig. 15 that the receiving surface 18 in which the effect module 7 is embedded, may be arranged at an angle to the horizontal, so that the individual effects, such as the air flow 14, the compressed air blast 49 and the water jet 72 preferably are directed into the face of an average sized user 4.
    As can be further seen in FIG. 15, the effect module 7 can be designed such that both the user 4 sitting to the right of the effect armrest 6 and the user 4 sitting to the left of the effect armrest 6 are aware of the effects of the effect module 7 is taken. This has the advantage that in the multimedia seat assembly 1 as little effect modules 7 must be installed, and that both the effects of the effect module 7 in the left effect armrest 6 and the effects of the effect module 7 in the right effect armrest 6 act on the user 4. This leads to a particularly realistic entertainment experience, since the effects can act symmetrically on the face of the user 4.
    In the case of an effect armrest 6, which is installed at the edge of the multimedia seat arrangement 1, it can be provided that an effect module 7 is integrated, in which one or more effects are emitted only halfway towards the effect seat 5, so that, for example, a gear located next to a multimedia seat arrangement 1 does not splashed by the water jet 72.
    As shown in FIG. 15, it can be provided that in the effect armrest 6, a hand rest area 82 is formed, on which the user 4 can rest his forearm and thus support it. In addition, it may be provided that in addition to the hand rest area 82, a handle 83 is formed, where he user 4 can hold and which between hand rest area 82 and receiving surface 18. This has the advantage that during a movement of the multimedia seat assembly 1 of the user 4 holds enough to hold on well. 15, it can be provided that both the hand rest area 82 and the handle 83 are designed so that both the left and the right of the effect armrest 6 seated user 4 can use them.
    Furthermore, it can be provided that in a side wall 84 of the effect armrest 6, a ventilation housing 85 is introduced, which has ventilation slots 86. Through the ventilation housing 85 can be sucked by the fan 21 fresh air, which is supplied to the effect module 7.
    Furthermore, it can be provided that a seat occupancy sensor 87 is integrated in the side wall 84, by means of which it can be detected in each case which effect seat 5 of the multimedia seat arrangement 1 is occupied. This information can be used for an evaluation or to control the individual effects in order to save energy. The seat occupancy sensor 87 is preferably implemented in the form of an infrared sensor. In an alternative variant, it can also be provided that the seat occupancy sensor 87 is embodied, for example, as a weight-detecting sensor and is integrated in the effect seat 5.
    Fig. 16 shows another perspective view of the effect armrest 6, wherein in this view, the effect armrest 6 is shown approximately from a point of view of the foot of the user 4. In addition, in this perspective view, the cladding elements of the effect armrest 6 are hidden, so that the interior of the effect armrest 6 is visible. Here, the installation state of the effect module 7 and the fan 21 connected thereto and the installation of the individual Zuförderschläuche 54, 60, 81 is clearly visible.
    Furthermore, it can be provided that in the effect armrest 6, a control board 88 is installed, which serves to control individual effects or for information transmission.
    Furthermore, it can be provided that an LED 89 is arranged on the control board 88, which serves to illuminate the foot area or the floor in front of the effect seat 5. By such an LED 89 or by an equivalent illuminant, for example, an escape route lighting or an effect lighting can be realized.
    17 shows a perspective view of an effect seat 5 in which a cover is hidden, so that the interior of the effect seat 5 is visible. As can be seen from FIG. 17, provision can be made for a fragrance generator 90 to be installed in at least one effect seat 5 of a multimedia seat arrangement 1, by means of which effect module 7 the fragrance emitted to the user 4 can be generated.
    For this purpose, the fragrance generator 90 has at least one fragrance accumulator 91. A fragrance 22 is preferably stored in a carrier medium in the fragrance storage 91 so that it can be dispensed at any time. The carrier medium may in this case be a sponge-like or porous material in which the fragrance 22 can be stored. The fragrance generator 90 is supplied with compressed air by means of a compressed air supply 92, wherein in each case a compressed air outlet leads into one of the fragrance accumulators 91. Each of the scent memory 91 is further associated with a solenoid valve 93, by means of which an inflow of compressed air in the scent memory 91 is controllable. By supplying the compressed air, the fragrance 22 bound in the fragrance storage 91 can be released and conveyed via the fragrance transport hose 60 to the effect module 7. It can be provided that per effect arm rest 6 of a multimedia seat arrangement 1 a perfume transport hose 60 leads away from a scent memory 91. The individual perfume transport hoses 60 are preferably of equal length, so that the generated fragrance arrives simultaneously at all effect armrests 6.
    The scent accumulators 91 are preferably interchangeable received in the fragrance generator 90, so that they can be replaced at a lower intensity of the fragrance 22.
    Furthermore, it can be provided that in an area of the foot 94 of the effect seat 5, an elastic pressurizable pneumatic hose 95 is arranged. The pneumatic hose 95 may be freely suspended on the effect seat 5 and be designed so that it can beat when exposed to compressed air against the fibula of a seated on the effect seat 5 user 4. This can be realized, for example, in that the pneumatic hose 95 is closed airtight on one side. Now, if a pressure within the kinked hanging hanging pneumatic hose 95 applied through the open side, it tends to deform in its extended state, causing it to hit the calf of the user 4.
    18 and 19 show a side view and a front view of the multimedia seat assembly 1. As can be seen from Fig. 18, it can be provided that in a backrest 96 in the neck region of the user 4, a further compressed air hose 97 for delivering a further burst of compressed air 98 is formed in the neck of the user 4.
    Furthermore, it can be provided that in the backrest 96, an actuator 99, in particular a pneumatic cylinder is arranged, by means of which a backrest surface 100 is deformed so that it is thickened selectively forward, and the user 4 thereby feels a pressure in his back.
    Through this actuator 99, the entertainment experience of the user 4 can be increased. Furthermore, it can be provided that in the backrest 96, a vibration drive 101 is integrated, by means of which the backrest 96 can be put into vibration. The vibration drive 101 may be performed, for example in the form of egg nes electric motor with a driven imbalance weight. In addition, it can be provided that a vibration drive 103 is also integrated in a seat surface 102 of the effect seat 5.
    Furthermore, it can be provided that a movement device 104 is formed, by means of which the multimedia seat arrangement 1 is movable. The movement device 104 can be moved in the horizontal direction transversely to the seat surface 102 by means of three movement cylinders 105, 106, 107 in the vertical direction and with a lateral movement cylinder 108 in the horizontal direction. In the movement cylinders 105, 106, 107 for vertically moving the multimedia seat assembly 1, it may be provided that, for example, the first movement cylinder 105 and the second movement cylinder 106 are disposed on the outside and the rear of the multimedia seat assembly 1, and that the third movement cylinder 107 is centered and front side of the multimedia seat assembly 1 is arranged. As a result, tilting movements of the multimedia seat arrangement 1 in all directions can be realized.
    Furthermore, it can be provided that a central control unit 109 is formed, on which by means of a network cable 110 a signal from a film reproducing a computer unit is transferable. It can be provided that the central control unit 109 is connected to a pneumatic switching station 111, which is designed to selectively switch the individual effects requiring a compressed air supply. In addition, it can be provided that each control board 88 integrated in an effect armrest 6 is connected to the central control unit 109 by means of a respective network cable 112. As a result, information can be transmitted between the central control unit 109 and the control board 88.
    In addition, it can be provided that two speakers 113 are integrated into the effect seat 5 on the left and right of the neck support, which lies in the head area of the user, by means of which the user 4 can be sonicated. In these speakers 113, 4 individual sound experiences can be generated for each user.
    In particular, the interaction of all the effects described above can lead to an enhanced and improved entertainment experience.
    The embodiments show possible embodiments of the multimedia seat assembly 1, wherein it should be noted at this point that the invention is not limited to the specifically illustrated embodiments thereof, but also various combinations of the individual embodiments are possible with each other and this possibility of variation due to the teaching of technical action representational invention in the skill of those skilled in this technical field.
    Furthermore, individual features or combinations of features from the different exemplary embodiments shown and described can also represent independent, inventive or inventive solutions.
    The task underlying the independent inventive solutions can be taken from the description. All statements of value ranges in the present description should be understood to include any and all sub-ranges thereof, e.g. is the statement 1 to 10 to be understood that all sub-areas, starting from the lower limit 1 and the upper limit 10 are included, ie. all sub-areas begin with a lower limit of 1 or greater and end at an upper limit of 10 or less, e.g. 1 to 1.7, or 3.2 to 8.1, or 5.5 to 10.
    For the sake of order, it should finally be pointed out that for a better understanding of the structure of the multimedia seat arrangement 1 or of the effect module 7, these or their components have been shown partially unevenly and / or enlarged and / or reduced in size.
    LIST OF REFERENCE NUMERALS 1 multimedia seat arrangement 31 partition wall 2 spectator area 32 flow section 3 entertainment device 33 symmetry plane 4 user 34 center partition wall 5 effect seat 35 main flow section 6 effect armrest 36 angle main flow channel 7 effect module 37 upper section 8 flow housing 38 longitudinal extension main flow 9 sighting channel 10 visible surface 39 lower section 11 installation section 40 transition section 12 Installation surface 41 Intermediate partition 13 Main flow channel 42 Limiting wall surface 14 Air flow 43 Longitudinal extension Strö 15 Air inlet opening mungsgehäuse 16 Duct section 44 Extent of flow Flow 17 Air outlet housing 18 Receiving surface 45 Longitudinal flow Main flow 19 Height Visible channel 20 Dome section 46 Transverse section Main flow 21 Fan mungskana 22 Perfume 47 Diameter Main flow 23 perfume supply channel 24 mixing chamber 48 compressed air channel 25 cavity 49 Compressed air burst 26 Section 50 Compressed air inlet opening 27 Limiting wall 51 Compressed air outlet 29 Secondary connection channel 52 Angle Compressed air channel 29 Outlet opening 53 First connection recess 30 Flow guide 54 Compressed air hose 55 Hose coupling 80 Sealing ring 56 Cross section compressed air channel 81 High pressure hose 57 Longitudinal extension Compressed air 82 Hand rest area Outlet opening 83 Handle 58 Transverse section Compressed air 84 Sidewall Outlet 85 Ventilation housing 59 Second connection recess 86 Ventilation slot 60 Perfume transport tube 87 Seat occupancy sensor 61 Hose coupling 88 Control board
    62 Nozzle holder 89 LED 63 Water nozzle 90 Fragrance generator 64 Longitudinal extension Nozzle opening 91 Air reservoir 92 Compressed air supply 65 Transverse extension Nozzle opening 93 Solenoid valve 94 Foot area 66 Detent element 95 Pneumatic hose 67 Receptacle for light emitting device 96 Backrest of component 97 Additional compressed air hose 68 Light emitting component 98 Additional compressed air surge 69 Cover 99 Actuator 70 Recess 100 Backrest surface 71 Breakthrough 101 Vibration drive 72 Water jet 102 Seating surface 73 Raising system 103 Further vibration drive 74 Angle Visible surface - installation 104 Movement device on surface 105 first movement cylinder 75 Angle air flow - sight 106 second movement cylinder surface 107 third movement cylinder 76 1. Nozzle head 108 laterally Movement cylinder 77 2. Nozzle head 109 Central control unit 78 Water jet outlet 110 Network cable 79 Angle 111 Pneumatic switching station 112 Additional network cable 113 Loudspeaker
    权利要求:
    Claims (24)
    [1]
    Claims 1. A multimedia seat arrangement (1) for a spectator area (2) of an entertainment device (3), in particular for a 4D cinema, comprising at least one effect seat (5), and at least two effect arm rests (6), which are respectively left and right of the effect seat (5) are arranged, characterized in that in each of the effect armrests (6) an effect module (7) comprising a flow housing (8) is arranged through which flow housing (8) in a main flow channel (13) from the effect armrest (6) out an air flow (14) in the face of a user (4) is feasible.
    [2]
    2. multimedia seat arrangement according to claim 1, characterized in that in the flow housing (8) of the effect module (7) at least one secondary flow channel (28) is formed, which is provided for transporting a fragrance (22).
    [3]
    3. multimedia seat arrangement according to claim 1 or 2, characterized in that the at least one secondary flow channel (28) into the main flow channel (13) opens, so that in the secondary flow channel (28) transported perfume (22) with the through the main flow channel (13) guided air flow (14) miscible and by the air flow (14) to the user (4) is transportable.
    [4]
    4. multimedia seat arrangement according to one of the preceding claims, characterized in that in the effect module (7) at least one compressed air channel (48) for discharging a blast of compressed air (49) in the face of the user (4) is formed.
    [5]
    5. multimedia seat arrangement according to one of the preceding claims, characterized in that in the effect module (7) at least one water nozzle (63) for discharging a water jet (72) is arranged.
    [6]
    6. multimedia seat arrangement according to one of the preceding claims, characterized in that the effect module (7) is symmetrical with respect to a plane of symmetry (33) which is arranged normal to a visible surface (10) of the effect module (7), so that in an effect module ( 7) generatable effects each act on two juxtaposed effect seats (5).
    [7]
    7. multimedia seat arrangement according to one of the preceding claims, characterized in that each effect armrest (6) a fan (21) is arranged, through which the through the main flow channel (13) of the flow housing (8) guided air flow can be generated.
    [8]
    8. multimedia seat arrangement according to one of claims 1 to 7, characterized in that per multimedia seat arrangement (1) a fragrance generator (90) is arranged, which comprises at least one scent memory (91), wherein each scent memory (91) a fragrance (22) is stored , which perfume (22), if necessary, can be transported to the effect module (7) and delivered thereto.
    [9]
    9. multimedia seat arrangement according to one of the preceding claims, characterized in that the effect module (7) comprises a light-emitting component (68).
    [10]
    10. multimedia seat arrangement according to one of the preceding claims, characterized in that in the effect armrest (6) a control board (88) is arranged to control the effects.
    [11]
    11. Multimedia seat arrangement according to claim 10, characterized in that the control board (88) on an underside of the effect armrest (6) is arranged, wherein on the control board (88) at least one LED (89) is arranged, which serves to illuminate the floor.
    [12]
    12. multimedia seat arrangement according to one of the preceding claims, characterized in that in the effect armrest (6) a seat occupancy sensor (87), in particular an infrared sensor is integrated based on the information the individual effects, in particular through the main flow channel (13) guided air flow ( 14) is controllable.
    [13]
    13. multimedia seat arrangement according to one of the preceding claims, characterized in that in the effect seat (5), in particular in the backrest (96) in the neck region of the user (4) another compressed air hose (97) for delivering a further compressed air blast (98) in the neck the user (4) is formed.
    [14]
    14. multimedia seat arrangement according to one of the preceding claims, characterized in that the effect module (7) in the effect armrest (6) is integrated and only a viewing area (9) of the effect module (7) is visible to the outside, wherein the visible surface (10) , which is arranged in the viewing area (9) of the effect module (7), protrudes a maximum of 5 mm with respect to a receiving surface (18) of the effect armrest (6) into which the effect module (7) is integrated.
    [15]
    15. Multimedia seat arrangement according to one of the preceding claims, characterized in that on the effect module (7) a locking system (73) is formed, which cooperates with the recording in the effect armrest (6), whereby the effect module (7) as needed from the effect armrest (6 ) is removable and can be used again in this.
    [16]
    16. multimedia seat arrangement according to one of the preceding claims, characterized in that in a hand rest area (82) of the effect armrest (6), a handle (83) is arranged.
    [17]
    17. The multimedia seat arrangement according to claim 1, characterized in that one central control unit (109) is formed per multimedia seat arrangement (1), to which a signal from a computer unit reproducing a film can be transmitted by means of an interface, such as a network cable (110) , wherein by the control unit (109) a pneumatic switching station (111) is controllable.
    [18]
    18. Multimedia seat arrangement according to claim 17, characterized in that the control unit (109) and the control board (88) are interconnected by another network cable (112) so that control information between the control unit (109) and control board (88) and vice versa are transferable.
    [19]
    19. Multimedia seat arrangement according to one of the preceding claims, characterized in that a respective speaker (113) is arranged on an effect seat (5), in particular on the left and on the right of the backrest (96).
    [20]
    20. multimedia seat arrangement according to one of the preceding claims, characterized in that in the backrest (96) of an effect seat (5) an actuator (99), in particular a pneumatic cylinder is arranged, by means of which a backrest surface (100) of the backrest (96) punctiform deformable is.
    [21]
    21. Multimedia seat arrangement according to one of the preceding claims, characterized in that in the backrest (96) a vibration drive (101) is arranged.
    [22]
    22. multimedia seat arrangement according to one of the preceding claims, characterized in that in a seat surface (102) of the effect seat (5), a vibration drive (103) is arranged.
    [23]
    23. Multimedia seat arrangement according to one of the preceding claims, characterized in that in a foot region (94) of the effect seat (5) an elastic, pressurizable air, pneumatic hose (95) is arranged.
    [24]
    24. multimedia seat arrangement according to one of the preceding claims, characterized in that a movement device (104) is formed, by means of which the Mulimediasitzanordnung (1) is movable.
    类似技术:
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    同族专利:
    公开号 | 公开日
    AT515890A3|2018-06-15|
    WO2015188211A1|2015-12-17|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DE4135796A1|1991-10-30|1993-05-06|Goetz-Ulrich London Gb Wittek|Cinema or theatre aroma distribution equipment - uses coded signals determined by performance to operate portable unit controlling mixture, duration, direction and intensity of aromas|
    DE4314886C2|1993-05-05|1996-02-22|Wittek|Method and device for the synchronous presentation of fragrances for visual and / or acoustic stimuli|
    US20130264396A1|2012-04-06|2013-10-10|Bryan Roe|Multidimensional effects apparatus and methods|
    CN203253180U|2012-06-25|2013-10-30|福建省电力有限公司培训中心|4d dynamic seat|US10076712B2|2014-09-11|2018-09-18|Mediamation, Inc.|Systems and methods for fluid delivery in seat systems|
    CN105749567B|2016-04-29|2017-12-29|江苏三厘米网络科技有限公司|A kind of intelligent 3D viewings equipment|
    FR3062066A1|2017-01-23|2018-07-27|The Lab In The Bag|IMMERSIVE DEVICE COMPRISING A SCREEN AND AT LEAST TWO MULTI-SENSORY HOUSINGS|
    CN112657215A|2020-12-15|2021-04-16|上海赛因斯文化科技有限公司|Sensory simulation device for dynamic platform|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    ATA50409/2014A|AT515890A3|2014-06-12|2014-06-12|Multimedia seat assembly|ATA50409/2014A| AT515890A3|2014-06-12|2014-06-12|Multimedia seat assembly|
    PCT/AT2015/050137| WO2015188211A1|2014-06-12|2015-05-28|Multimedia seat assembly|
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