CN203648055U - Wind direction simulator for leap simulation in air - Google Patents
Wind direction simulator for leap simulation in air Download PDFInfo
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- CN203648055U CN203648055U CN201320725015.5U CN201320725015U CN203648055U CN 203648055 U CN203648055 U CN 203648055U CN 201320725015 U CN201320725015 U CN 201320725015U CN 203648055 U CN203648055 U CN 203648055U
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- air
- supply passage
- wind direction
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- wind
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Abstract
The utility model relates to a wind direction simulator for leap simulation in the air. The simulator comprises a main conveying passage, wherein the lower part of the left end of the main conveying passage is connected with a front wind supply passage 1, the upper part of the left end of the main conveying passage is connected with an upper wind supply passage, and the upper part of the right end of the main conveying passage is connected with an exhaust fan; the lower end of the front wind supply passage 1 is connected with a front wind supply machine 1, the upper end of the front wind supply passage 1 is connected with a projector, a wind direction reversing hook 1 is arranged on the left side of the upper end of the front wind supply passage 1, and a wind shielding hook 1 is arranged on the right side of the upper end of the front wind supply passage 1; the upper end of the projector is connected with a front wind supply passage 2; the upper end of the upper wind supply passage is connected with an upper wind supply machine; the front wind supply passage 2 is located on the left side of the upper wind supply passage, and the upper end of the front wind supply passage 2 is connected with a front wind supply machine 2. The simulator has the advantages of rationality in structural design, convenience in operation and control, high automation degree and the like; the simulator can be used for simulating air current when leapping in the air is simulated indoors, and the simulating validity is high.
Description
Technical field
The utility model relates to amusement field of mechanical technique, specifically a kind of aerial leap simulation wind direction analogue means.
Background technology
At present, modern young man hankers after the recreation of stimulation, thrill more, and this is also the adjustment of the duty to daily high pressure, high load capacity, thereby can guarantee work time, has actively optimistic work phychology.In more existing large-scale public places of entertainment; there is the entertainment selection of many stimulations, thrill; as outdoor projects such as roller-coasters; utilizing actual visual impact and body-feeling to reach stimulates thrilling object; because these projects are arranged in outdoor and move comparatively violent; though have a lot of roads safety guard, but still exist potential safety hazard.
For this reason, people start to focus on research and development and the investment to indoor entertainment selection, the new projects such as 3D movie theatre, indoor adventure are there are, utilize machinery equipment to simulate actual environment and working condition, allow visitor have sensation on the spot in person, but because existing lab simulation is subject to the restriction of technology and equipment, cannot further improve the validity of simulation; For the lab simulation entertainment selection of flight class, only adopt visual simulation, and the air motion situation in flight course is not simulated out, validity is lower.
Summary of the invention
Technical problem to be solved in the utility model be to provide a kind of reasonable in design, manipulation easily, automaticity is high, simulation and the high device of simulates real solidity of air-flow can be used for lab simulation and leap in the air time, i.e. a kind of aerial leap simulation wind direction analogue means.
Technical problem to be solved in the utility model realizes by the following technical solutions:
A kind of aerial leap simulation wind direction analogue means, comprise main transfer passage, air-supply passage before the left end bottom of described main transfer passage is connected with No. one, the left end top of main transfer passage is connected with air-supply passage, and the right-hand member top of main transfer passage is connected with exhaust blower, pressure fan before the lower end of air-supply passage is connected with No. one before described No. one, before No. one, the upper end of air-supply passage is connected with projector, before No. one, left side, the upper end of air-supply passage is provided with wind direction commutation crotch No. one, before No. one, the right side, upper end of air-supply passage is provided with the crotch that keeps out the wind No. one, wind direction commutation crotch is in order to change before No. one the flow direction of air in air-supply passage, be about to the wind direction that script wind direction straight up makes level into, and reduce the sectional area that air passes through, improve the flow velocity of air, crotch keep out the wind for No. one in order in air-supply passage before preventing from carrying the air getting off to impact to blow into No. behind the bottom of main transfer passage by upper air-supply passage, avoid scattering and disappearing of air-flow, realize making full use of air-flow, improve the utilization rate of energy, air-supply passage before the upper end of described projector is connected with No. two, the upper end of described upper air-supply passage is connected with pressure fan, before described No. two, air-supply passage is positioned at the left side of air-supply passage, pressure fan before the upper end of air-supply passage is connected with No. two before No. two.Utilize the simulation of the air-flow while realizing aerial leap of cooperatively interacting between pressure fan before pressure fan before No., No. two, upper pressure fan and exhaust blower, thereby improved the validity of simulation.
Before described No. two, the lower end of air-supply passage left side is provided with wind directions commutation crotch No. two, and the right side, lower end of air-supply passage is provided with wind directions commutation crotch No. three before No. two, and the commutate flexibility of crotch of the flexibility of described No. two wind directions commutation crotch and wind direction is identical.No. two wind directions commutation crotch and No. three wind direction commutation crotches in order to change before No. two the air-flow in air-supply passage to, the change of the wind being about to originally straight down becomes the wind direction of level, and reduces the sectional area that air passes through, and improves the flow velocity of air.
The lower end left side of described upper air-supply passage is provided with the crotch that keeps out the wind No. two, and keep out the wind for No. two crotch and No. three wind directions crotches that commutate fit.The crotch that keeps out the wind for No. two is dispersed in order to prevent the air in upper air-supply passage, thereby guarantees directly vertical blowing on swing type safety seat of the air of flowing through, and the simulation of wind direction, has improved the validity of simulation when reaching vertical lifting.
Before described No. one, pressure fan is identical with the power of pressure fan before No. two, can guarantee real work like this time, can not make because of the difference of power the flow direction generation deviation of the air-flow producing, if the power of one party is higher, can make the air-flow at high power place be injected in the passage of air-flow at low-power place, actual simulate effect is exerted an influence.
The beneficial effects of the utility model are: the utlity model has the convenient and automaticity advantages of higher of reasonable in design, manipulation, can be used for lab simulation and leap in the air time, simulation and the simulates real solidity of air-flow are high, and simulate effect is good.
Accompanying drawing explanation
Below in conjunction with drawings and Examples, the utility model is further illustrated.
Fig. 1 is main TV structure schematic diagram of the present utility model.
The specific embodiment
For technological means, creation characteristic that the utility model is realized, reach object and effect is easy to understand, below the utility model is further set forth.
As shown in Figure 1, wind direction analogue means is used in a kind of aerial leap simulation, comprises main transfer passage 1, air-supply passage 2 before the left end bottom of described main transfer passage 1 is connected with No., the left end top of main transfer passage 1 is connected with air-supply passage 8, and the right-hand member top of main transfer passage 1 is connected with exhaust blower 9, pressure fan 3 before the lower end of air-supply passage 2 is connected with No. one before described No. one, before No. one, the upper end of air-supply passage 2 is connected with projector 4, before No. one, left side, the upper end of air-supply passage 2 is provided with wind direction commutation crotch 201 No. one, before No. one, the right side, upper end of air-supply passage 2 is provided with the crotch 202 that keeps out the wind for No., a wind direction commutation crotch 201 is in order to change the flow direction of air-supply passage 2 interior air before No., be about to the wind direction that script wind direction straight up makes level into, and reduce the sectional area that air passes through, improve the flow velocity of air, keep out the wind for No. one crotch 202 in order to prevent the air of carrying by upper air-supply passage 8 impact behind the bottom of main transfer passage 1, blow into No. one before in air-supply passage 2, avoid scattering and disappearing of air-flow, realize making full use of air-flow, improve the utilization rate of energy, air-supply passage 5 before the upper end of described projector 4 is connected with No. two, the upper end of described upper air-supply passage 8 is connected with pressure fan 7, before described No. two, air-supply passage 5 is positioned at the left side of air-supply passage 8, pressure fan 6 before the upper end of air-supply passage 5 is connected with No. two before No. two.Utilize the simulation of the air-flow while realizing aerial leap of cooperatively interacting between pressure fan 6 before pressure fan before No. one 3, No. two, upper pressure fan 7 and exhaust blower 9, thereby improved the validity of simulation.
Before described No. two, left side, the lower end of air-supply passage 5 is provided with wind direction commutation crotch 501 No. two, before No. two, the right side, lower end of air-supply passage 5 is provided with wind direction commutation crotch 502 No. three, and the flexibility of described No. two wind directions commutation crotch 501 is identical with the flexibility of a wind direction commutation crotch 201.No. two wind directions commutation crotch 501 and No. three wind direction commutation crotches 502 in order to change before No. two the air-flow in air-supply passage 5 to, the change of the wind being about to originally straight down becomes the wind direction of level, and reduces the sectional area that air passes through, and improves the flow velocity of air.
The lower end left side of described upper air-supply passage 8 is provided with the crotch 801 that keeps out the wind for No. two, and keep out the wind for No. two crotch 801 and No. three wind directions crotches 502 that commutate fit.The crotch 801 that keeps out the wind for No. two is dispersed in order to prevent the air in upper air-supply passage 8, thereby guarantees directly vertical blowing on swing type safety seat of the air of flowing through, and the simulation of wind direction, has improved the validity of simulation when reaching vertical lifting.
Before described No. one, pressure fan 3 is identical with the power of pressure fan 6 before No. two, can guarantee real work like this time, can not make because of the difference of power the flow direction generation deviation of the air-flow producing, if the power of one party is higher, can make the air-flow at high power place be injected in the passage of air-flow at low-power place, actual simulate effect is exerted an influence.
Utilize projector to play corresponding leap film, when carrying out the simulation of air-flow in lifting process, now go up pressure fan, exhaust blower is started working, in utilization, pressure fan injects air, and in upper air-supply passage, form air-flow straight down, directly blow directly over visitor, thereby simulated the motion of air-flow in lifting process, improved the validity of simulation, when occurring forward flight rapidly in film, dive plot time, now pressure fan before No., pressure fan before No. two, exhaust blower is started working, utilize air-supply passage before pressure fan before No. one and No. that air-flow straight up is originally changed over to level air-flow to the right, utilize air-supply passage before pressure fan before No. two and No. two that air-flow straight down is originally changed over to level air-flow to the right, and blow the dead ahead visitor together with after the air-flow forming in air-supply passage before No. one stream, thereby simulate flight rapidly forward, the motion conditions of air-flow when underriding, simulates real solidity is higher.
More than show and described basic principle of the present utility model, principal character and advantage of the present utility model.The technical staff of the industry should understand; the utility model is not restricted to the described embodiments; what in above-described embodiment and description, describe is principle of the present utility model; do not departing under the prerequisite of the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall within the scope of claimed the utility model.The claimed scope of the utility model is defined by appending claims and equivalent thereof.
Claims (4)
1. an aerial leap simulation wind direction analogue means, comprise main transfer passage, it is characterized in that: air-supply passage before the left end bottom of described main transfer passage is connected with No., the left end top of main transfer passage is connected with air-supply passage, and the right-hand member top of main transfer passage is connected with exhaust blower; Pressure fan before the lower end of air-supply passage is connected with No. one before described No. one, before No. one, the upper end of air-supply passage is connected with projector, before No. one, the upper end of air-supply passage left side is provided with wind direction commutation crotch No. one, and the right side, upper end of air-supply passage is provided with the crotch that keeps out the wind No. one before No. one; Air-supply passage before the upper end of described projector is connected with No. two; The upper end of described upper air-supply passage is connected with pressure fan; Before described No. two, air-supply passage is positioned at the left side of air-supply passage, pressure fan before the upper end of air-supply passage is connected with No. two before No. two.
2. one according to claim 1 leaps simulation wind direction analogue means in the air, it is characterized in that: before described No. two, left side, the lower end of air-supply passage is provided with wind direction commutation crotch No. two, before No. two, the right side, lower end of air-supply passage is provided with wind direction commutation crotch No. three, and the flexibility of described No. two wind directions commutation crotch is identical with the flexibility of a wind direction commutation crotch.
3. one according to claim 2 leaps simulation in the air and use wind direction analogue means, it is characterized in that: left side, the lower end of described upper air-supply passage is provided with the crotch that keeps out the wind No. two, and keep out the wind for No. two crotch and No. three wind directions crotches that commutate fit.
4. one according to claim 1 leaps simulation in the air and uses wind direction analogue means, it is characterized in that: before described No. one, pressure fan is identical with the power of pressure fan before No. two.
Priority Applications (1)
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CN201320725015.5U CN203648055U (en) | 2013-11-13 | 2013-11-13 | Wind direction simulator for leap simulation in air |
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CN201320725015.5U CN203648055U (en) | 2013-11-13 | 2013-11-13 | Wind direction simulator for leap simulation in air |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103623579A (en) * | 2013-11-13 | 2014-03-12 | 芜湖华强文化科技产业有限公司 | Wind direction simulation device for aerial leap simulation |
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2013
- 2013-11-13 CN CN201320725015.5U patent/CN203648055U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103623579A (en) * | 2013-11-13 | 2014-03-12 | 芜湖华强文化科技产业有限公司 | Wind direction simulation device for aerial leap simulation |
CN103623579B (en) * | 2013-11-13 | 2015-01-21 | 芜湖华强文化科技产业有限公司 | Wind direction simulation device for aerial leap simulation |
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Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20140618 Effective date of abandoning: 20150121 |
|
RGAV | Abandon patent right to avoid regrant |