Somatosensory simulation device
阅读说明:本技术 体感模拟装置 (Somatosensory simulation device ) 是由 吴哲彦 于 2019-06-21 设计创作,主要内容包括:一种体感模拟装置,包含乘载单元、平台单元及动力单元。所述乘载单元包括舱体及舱门。所述平台单元包括至少一个展示空间,所述展示空间适用于在与所述舱门对应且所述舱门开启时,显示于用户前。所述动力单元包括致动模块。在用户进入所述舱体且所述舱门完全关闭后,所述致动模块可驱动所述乘载单元沿上下方向移动,利用速度及作动使所述舱体内的用户产生电梯上下升降的体感,故可以较低的实际垂直位移量模拟在数个楼层间来回移动的感觉,并达到观看所述展示空间的目的,如此可大幅减少所需的垂直设置空间,并降低设置难度。(type body feeling simulation device comprises a carrying unit, a platform unit and a power unit, wherein the carrying unit comprises a cabin body and a cabin , the platform unit comprises at least display spaces, the display spaces are suitable for being displayed in front of a user when corresponding to the cabin and the cabin is opened, the power unit comprises an actuating module, after the user enters the cabin body and the cabin is completely closed, the actuating module can drive the carrying unit to move along the up-and-down direction, the user in the cabin body generates the body feeling of up-and-down lifting of an elevator by using speed and actuation, so that the feeling of moving back and forth among a plurality of floors can be simulated by using lower actual vertical displacement, the aim of watching the display spaces is achieved, the required vertical arrangement space can be greatly reduced, and the arrangement difficulty is reduced.)
The body feeling simulation device is characterized by comprising a carrying unit, a platform unit and a power unit, wherein the platform unit and the power unit are arranged beside the carrying unit, the carrying unit comprises a cabin body suitable for carrying at least users, and a cabin which is arranged on the cabin body and can be controlled to open and close, the platform unit comprises at least display spaces, the display spaces are suitable for being displayed in front of at least users when corresponding to the cabin and the cabin is opened, the power unit comprises an actuating module arranged on the carrying unit, and the actuating module is used for driving the carrying unit to move in the up-and-down direction in a period from the time when the cabin is completely closed to the time when the cabin is opened again.
2. The somatosensory simulation device according to claim 1, wherein the actuating module of the power unit is capable of driving the carriage unit to reciprocate up and down at least times.
3. The somatosensory simulation device according to claim 1, wherein the platform unit further comprises an access space, the power unit further comprises a driving module disposed on the loading unit, and the driving module can drive the loading unit to change positions relative to the platform unit so that the cabin faces at least display spaces and of the access spaces.
4. The somatosensory simulation device according to claim 3, wherein the at least display spaces and the access space are arranged around the loading unit, and the driving module of the power unit drives the cabin body to rotate in a rotating manner, so that the cabin faces of the at least display spaces and the access space.
5. The somatosensory simulation device according to claim 3, wherein the at least display spaces and the access space are arranged along an arrangement path, and the driving module of the power unit can drive the cabin body to move along the arrangement path, so that the cabin faces of the at least display spaces and the access space.
6. The somatosensory simulation device according to claim 3, wherein the at least display spaces and the access space are arranged along an arrangement path, and the driving module of the power unit can drive the cabin body to rotate and move along the arrangement path, so that the cabin faces of the at least display spaces and the access space.
7. The somatosensory simulation device according to claim 1, wherein the platform unit comprises a platform provided beside the loading unit and provided with the at least display spaces, the platform further comprises an access space, the power unit further comprises a driving module provided on the platform unit and used for driving the platform, and the driving module can drive the platform to change the position relative to the loading unit, so that at least display spaces on the platform and of the access spaces face the cabin .
8. The somatosensory simulation device according to claim 7, wherein the platform unit has a platform arranged around the carriage unit, and the power unit has a driving module for driving the platform to rotate in a rotating manner so as to drive of the at least display spaces and the access space to face the chamber .
9. The somatosensory simulation device according to claim 7, wherein the carrier and the loading unit are spaced apart from each other and extend along an installation path, and the driving module of the power unit can drive the carrier to move along the installation path, so that of the at least display spaces and the access space face the cabin .
10. The somatosensory simulation device according to claim 7, wherein the carrier is spaced from the loading unit and extends along an installation path, and the driving module of the power unit can drive the carrier to rotate and move along the installation path, so that of the at least display spaces and the access space face the cabin .
11. The somatosensory simulation device according to , wherein the platform unit further comprises at least entertainment devices disposed correspondingly within the at least display spaces, the entertainment devices being a display screen, an interactive scene, or a combination thereof.
The somatosensory simulation device is characterized by comprising a carrying unit, a platform unit and a power unit, wherein the carrying unit comprises a cabin body suitable for carrying at least users and two cabins which are arranged on the cabin body at intervals and can be opened and closed respectively under control, the platform unit comprises at least display spaces and access spaces which can correspond to the cabins 2, the at least display spaces and the access spaces are suitable for being displayed in front of at least users when facing each other with the corresponding cabins and the cabins are opened, and the power unit comprises an actuating module arranged on the carrying unit and used for driving the carrying unit to move in the up-and-down direction in the period from the time when the cabins are completely closed to the time when any cabins are opened again.
13. The somatosensory simulation device according to claim 12, wherein the actuating module of the power unit is capable of driving the carriage unit to reciprocate up and down at least times.
14. The somatosensory simulation device according to claim 12, wherein the platform unit comprises a plurality of display spaces, the power unit further comprises a driving module disposed on the loading unit, and the driving module can drive the loading unit to change positions relative to the platform unit so that the compartment faces two of the display spaces and the access spaces, respectively.
The somatosensory simulation device is characterized by comprising a carrying unit, a platform unit and a power unit, wherein the platform unit and the power unit are arranged beside the carrying unit, the carrying unit comprises a plurality of cabin bodies suitable for carrying users, and a plurality of cabins which are respectively arranged on the cabin bodies and can be controlled to open and close, the platform unit comprises a plurality of display spaces, each display spaces are suitable for being displayed in front of the users in the corresponding cabin bodies when corresponding to cabins and the cabins are opened, the power unit comprises an actuating module arranged on the carrying unit, and the actuating module is used for driving the carrying unit to move in the up-and-down direction in the period from the time when the cabin is completely closed to the time when the cabin is opened again.
16. The somatosensory simulation device according to claim 15, wherein the actuating module of the power unit is capable of driving the carriage unit to reciprocate up and down at least times.
17. The somatosensory simulation device according to claim 15, wherein the platform unit further comprises an access space, the power unit further comprises a driving module disposed on the carriage unit, and the driving module is capable of driving the carriage unit to change position relative to the platform unit so that the compartment faces the display space and the access space, respectively.
Technical Field
The invention relates to simulation devices, in particular to simulation devices capable of simulating elevator lifting body feeling.
Background
The elevator can be used for people to take a ride, the elevator drives passengers to ascend and descend through pulling of a steel cable and is often used as a transfer tool between floors, the outside situation cannot be known after the elevator is closed, and the outside situation can be suddenly reflected in the eyes of the passengers after the elevator is opened again, referring to fig. 1, by utilizing the characteristic that the passengers cannot expect the outside situation when taking the elevator, at present,
Disclosure of Invention
The invention aims to provide body sensing simulators which are low in requirement on places and easy to arrange.
The somatosensory simulation device comprises a carrying unit, a platform unit and a power unit, wherein the platform unit and the power unit are arranged beside the carrying unit, the carrying unit comprises a cabin body suitable for carrying at least users, and a cabin which is arranged on the cabin body and can be opened and closed under control, the platform unit comprises at least display spaces, the display spaces are suitable for being displayed in front of at least users when corresponding to the cabin and the cabin is opened, the power unit comprises an actuating module arranged on the carrying unit, and the actuating module is used for driving the carrying unit to move in the vertical direction in the period from the time when the cabin is completely closed to the time when the cabin is opened again.
Preferably, the motion sensing simulation device, wherein the actuating module of the power unit can drive the carrying unit to reciprocate up and down for at least times.
Preferably, the motion sensing simulation device further includes an access space, and the power unit further includes a driving module disposed on the carrying unit, and the driving module can drive the carrying unit to change positions relative to the platform unit, so that the cabin faces at least display spaces and of the access spaces.
Preferably, in the somatosensory simulation device, the at least display spaces and the access space are arranged around the carrying unit, and the driving module of the power unit drives the cabin body to rotate in a rotating manner, so that the cabin faces of the at least display spaces and the access space.
Preferably, in the somatosensory simulation device, the at least display spaces and the access space are arranged along an arrangement path, and the driving module of the power unit can drive the cabin body to move along the arrangement path, so that the cabin faces of the at least display spaces and the access space.
Preferably, in the somatosensory simulation device, the at least display spaces and the access space are arranged along an arrangement path, and the driving module of the power unit can drive the cabin body to rotate and move along the arrangement path, so that the cabin faces of the at least display spaces and the access space.
Preferably, the motion sensing simulation device includes a platform unit disposed beside the carrying unit and provided with at least display spaces, the platform further has an access space, the power unit further includes a driving module disposed on the platform unit and used for driving the platform, and the driving module can drive the platform to change positions relative to the carrying unit, so that at least display spaces on the platform and of the access spaces face the cabin .
Preferably, in the somatosensory simulation device, the platform of the platform unit is arranged around the carrying unit, and the driving module of the power unit drives the platform to rotate in a rotating manner, so that of the at least display spaces and the access space face the cabin .
Preferably, in the somatosensory simulation device, the carrier and the carrying unit are spaced apart from each other and extend along an installation path, and the driving module of the power unit can drive the carrier to move along the installation path, so that of the at least display spaces and the access space face the cabin .
Preferably, in the somatosensory simulation device, the carrier and the carrying unit are spaced apart from each other and extend along an installation path, and the driving module of the power unit can drive the carrier to rotate and move along the installation path, so that of the at least display spaces and the access space face the cabin .
Preferably, the motion sensing simulation apparatus further includes at least pieces of entertainment equipment correspondingly disposed in the at least display spaces, where the entertainment equipment is a display screen, an interactive scene, or a combination thereof.
Another objects of the present invention are to provide another kinds of motion sensing simulation devices which are easy to arrange and have low requirements for a field.
The somatosensory simulation device comprises a carrying unit, a platform unit and a power unit, wherein the carrying unit comprises a cabin body suitable for carrying at least users and two cabins which are arranged on the cabin body at intervals and can be opened and closed respectively under control, the platform unit comprises at least showing spaces and access spaces which can correspond to the cabins , the at least showing spaces and the access spaces are suitable for being displayed in front of at least 5 users when the corresponding cabins face each other and the cabins are opened, the power unit comprises an actuating module arranged on the carrying unit, and the actuating module is used for driving the carrying unit to move in the up-and-down direction in the period from after the cabins are completely closed to before any cabins are opened again.
Preferably, the motion sensing simulation device, wherein the actuating module of the power unit can drive the carrying unit to reciprocate up and down for at least times.
Preferably, the motion sensing simulator includes a platform unit having a plurality of display spaces, and the power unit further includes a driving module disposed on the carrying unit, and the driving module can drive the carrying unit to change positions relative to the platform unit, so that the cabin faces two of the display spaces and the access spaces respectively.
Another objects of the present invention are to provide somatosensory simulation devices which are easy to arrange and have low requirements for a field.
The somatosensory simulation device comprises a carrying unit, a platform unit and a power unit, wherein the platform unit is arranged beside the carrying unit, the carrying unit comprises a plurality of cabin bodies suitable for carrying users, and a plurality of cabins which are respectively arranged on the cabin bodies and can be controlled to be opened and closed, the platform unit comprises a plurality of display spaces, each display spaces are suitable for being displayed in front of the users in the corresponding cabin bodies when the cabins correspond to cabin and the cabins are opened, the power unit comprises an actuating module arranged on the carrying unit, and the actuating module is used for driving the carrying unit to move in the up-and-down direction in the period from the time when the cabins are completely closed to the time before the cabins are opened again.
Preferably, the motion sensing simulation device, wherein the actuating module of the power unit can drive the carrying unit to reciprocate up and down for at least times.
Preferably, the motion sensing simulator further includes an access space, and the power unit further includes a driving module disposed on the carrying unit, and the driving module can drive the carrying unit to change positions relative to the platform unit, so that the cabin faces the display space and the access space respectively.
The invention has the advantages that after a user enters the cabin body and the cabin is completely closed, the actuating module can drive the carrying unit to move along the up-down direction, the cabin is opened for the user to watch the display space, and the user in the cabin body generates the body feeling of the up-down lifting of the elevator by using the speed, the mechanical actuation and the balance reaction of the human body to the dynamic inertia, so that the lower actual vertical displacement can simulate the moving feeling among a plurality of floors, and the aim of watching the display space by the user is achieved, thereby greatly reducing the required vertical arrangement space and reducing the arrangement difficulty.
Drawings
FIG. 1 is a schematic diagram illustrating an -like experience facility;
FIG. 2 is a schematic front view illustrating an th embodiment of the somatosensory simulation device of the invention;
FIG. 3 is a schematic top view to help illustrate the top view of FIG. 2;
FIG. 4 is a schematic top view illustrating aspects of the embodiment having multiple compartments and multiple compartments ;
FIG. 5 is a schematic top view illustrating a combination of a plurality of th embodiments;
FIG. 6 is a schematic top view illustrating a linear movement manner of the carriage unit according to the embodiment;
FIG. 7 is a top view schematically illustrating the alternative arrangement of the carriage unit of the embodiment for both linear movement and rotation;
FIG. 8 is a schematic top view illustrating a second embodiment of the motion sensing simulation apparatus of the present invention;
FIG. 9 is a schematic front view illustrating a front aspect of the second embodiment;
FIG. 10 is a schematic top view illustrating the modification of FIG. 7 to a linear motion;
fig. 11 is a schematic top view illustrating a third embodiment of the motion sensing simulation apparatus of the present invention;
FIG. 12 is a top view schematically illustrating a rotation operation of the third embodiment including a plurality of display spaces;
FIG. 13 is a schematic top view illustrating an aspect of the third embodiment that includes multiple display spaces and instead moves in a linear manner; and
fig. 14 is a schematic top view illustrating a mode in which a plurality of the third embodiments are used in combination.
Detailed Description
The present invention will be described in detail below with reference to the accompanying drawings and examples.
Referring to fig. 2 and 3, embodiments of the motion sensing simulation apparatus of the present invention include 0 carrying
The
The
The working process of this embodiment is such that when not activated the pod of the
The
Referring to fig. 5, the present embodiment may have other implementation manners, such as using two or more somatosensory simulation devices in combination, and communicating the
Referring to fig. 8 and 9, a second embodiment of the motion sensing simulation apparatus of the present invention is substantially the same as the embodiment, except that the
Referring to fig. 11, there are third embodiments of the motion sensing simulation apparatus of the present invention, which are substantially the same as the embodiment except that the
Referring to fig. 12, of course, in this third embodiment, as shown in the embodiment , a plurality of
Referring to fig. 14, the third embodiment may also use two or more motion sensing simulation devices in combination as in the embodiment , and make the
In summary, the present invention occupies a small vertical space, so that the installation conditions are reduced, and there are various configuration patterns for selection, so that the user can experience the feeling of ascending and descending in the
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