CN111123555A - Smell control system and sight shadow glasses - Google Patents

Abstract

The invention provides a smell control system and a pair of sight glasses, wherein the smell control system comprises a smell absorption component, a smell release component and a smell release control unit, the smell absorption component and the smell release component are respectively in communication connection with the smell release control unit, and the smell release control unit is used for controlling the smell absorption component to absorb and purify external air and controlling the smell release component to generate and release calibrated smell air. According to the invention, the odor absorption assembly is additionally arranged, so that the odor can be timely recovered and replaced, various odors are not interfered with each other when the odor control system plays various odors, a user can accurately feel a certain odor, and the influence of various odors on the film watching experience is avoided.

Description

Smell control system and sight shadow glasses

Technical Field

The invention relates to the technical field of odor control, in particular to an odor control system and film watching glasses.

Background

When people watch movies, people generally perceive and experience the movies through vision and hearing, along with the continuous development of virtual reality technology, the requirements of people on immersive experience are higher and higher, and olfactory perception becomes an indispensable important component in a virtual reality system. When the odor needs to be sensed, the generation, transmission and the like of the odor need to be controlled, the existing odor control system can only release single odor, or odor is easily mixed when various odors are released, the odor purity is affected, and the user shadow watching experience is reduced.

Disclosure of Invention

The invention solves the problems that the existing odor control system has single odor or various odors are mixed, the odor purity is influenced, and the user experience is poor.

In order to solve at least one of the above problems, the present invention provides a scent control system, comprising a scent absorption module, a scent release module, and a scent release control unit, wherein the scent absorption module and the scent release module are respectively connected to the scent release control unit in a communication manner, and the scent release control unit is used for controlling the scent absorption module to absorb and purify external air, and controlling the scent release module to generate and release nominal scent gas.

Preferably, the odor absorption device further comprises a first air duct, a second air duct and an odor output channel, wherein the first air duct and the second air duct are respectively connected with the odor absorption assembly, the first air duct is connected with the inlet of the odor release assembly, the outlet of the odor release assembly is communicated with the second air duct, and the second air duct is communicated with the odor output channel.

Preferably, the odor absorption assembly comprises an impeller, a micro motor, a grid filter screen and a gas containing cavity, the micro motor drives the impeller to rotate, the outside gas enters the gas containing cavity through the grid filter screen, and the gas containing cavity is connected with the odor release assembly.

Preferably, the odor absorption assembly further comprises an odor air duct and a multi-stage filter screen, the odor air duct is communicated with the gas accommodating cavity, the multi-stage filter screen is arranged in the odor air duct, and the multi-stage filter screen is used for filtering the outside gas entering from the odor air duct.

Preferably, the inlet of the scent tunnel is disposed proximate the outlet of the scent release assembly.

Preferably, the smell releasing assembly comprises a plurality of smell cabins, and smell sources with different smells are arranged in the smell cabins.

Preferably, an air inlet pipe and an air outlet pipe are respectively arranged at two ends of the smell cabin, the air inlet pipe is connected with the first air duct, and the air outlet pipe is communicated with the second air duct.

Preferably, the smell cabin further comprises an air inlet valve and a vent valve, the air inlet valve is used for controlling the on-off of the air inlet pipe, the air inlet valve is electrically connected with the smell release control unit, and the vent valve is used for controlling the on-off of the air outlet pipe.

Compared with the prior art, the odor control system provided by the invention has the following beneficial effects:

according to the invention, the odor absorption assembly is additionally arranged, so that the calibrated odor gas can be timely recovered and replaced, various odors are not interfered with each other when the odor control system releases various odors, a user can accurately feel a certain odor, and the influence of various odors on the film watching experience is avoided.

The invention also provides film watching glasses, which comprise a glasses frame and glasses legs, and further comprise the odor control system.

Preferably, the mirror frame comprises a left frame body and a right frame body, a smell suction inlet and a smell output port are arranged on the frame bodies, the smell suction inlet is communicated with a smell air channel of the smell control system, and the smell output port is communicated with a smell output channel of the smell control system.

Preferably, the odor suction port and the odor outlet are both disposed at a lower portion of the frame.

Preferably, the glasses legs comprise a left first leg and a right first leg and a second leg integrally connected between the two first legs, and the first legs are connected with the frame body.

Compared with the prior art, the film watching glasses provided by the invention have the same beneficial effects as the odor control system has in the prior art, and are not described herein again.

Drawings

FIG. 1 is a schematic diagram of a structure of an odor releasing component in an odor control system according to an embodiment of the present invention;

FIG. 2 is a front view of viewing glasses according to an embodiment of the present invention;

FIG. 3 is a rear view of viewing glasses according to an embodiment of the present invention;

FIG. 4 is a side view of viewing glasses according to an embodiment of the present invention;

FIG. 5 is a top view of viewing glasses according to an embodiment of the present invention;

FIG. 6 is an overall structure view of viewing glasses according to an embodiment of the present invention;

FIG. 7 is a partial structural view of viewing glasses according to an embodiment of the present invention.

Description of reference numerals:

1-a spectacle frame; 2-the temple of the glasses; 3-an odour absorbing assembly; 4-a scent-releasing component; 5-a first air duct; 6-a second air duct; 7-a smell output channel;

11-a scent outlet; 12-odor inhalation port; 31-a grid screen; 32-a scent air duct; 33-a first screen; 34-a second screen; 41-smell cabin; 42-pro-odor; 43-an inlet pipe; 44-an air outlet pipe; 45-an intake valve; 46-Vent valve.

Detailed Description

Many short movies exist that attempt to add olfactory elements to the movie, such as a 5D movie theater, to make people feel personally on the scene by adding a scent that matches the scene. However, in 5D movie theaters, only single olfactory elements such as smoke and tobacco are added, and a device for controlling the olfactory elements is similar to a smoke machine, and smoke smell generated by the smoke machine is scattered and cannot be controlled in motion direction, so that the smell is not uniformly distributed, audiences close to the smoke machine feel heavy smell, and audiences far away from the smoke machine feel light smell. In addition, the smell generating device in the existing 5D cinema is only single to output, the area of the conventional 5D cinema is very small, in a closed space, different smells are continuously output when a movie scene is changed, the smells in the space are not changed in time, the purity of the subsequent output smells is greatly influenced, and the shadow watching experience is poor.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In order to solve the problems that the odor generated by the olfactory control system in the existing 5D movie is not easy to control, and the outputted odor is not recycled, which affects the purity of the subsequently outputted odor, thereby reducing the viewing experience, an embodiment of the invention provides an odor control system, as shown in fig. 1 to 7, including an odor absorption component 3, an odor release component 4 and an odor release control unit, wherein the odor absorption component 3 and the odor release component 4 are respectively connected with the odor release control unit in a communication manner, and the odor release control unit is used for controlling the odor absorption component 3 to absorb and purify the external air, and controlling the odor release component 4 to generate and release the calibrated odor.

In the odor control system provided by this embodiment, the odor absorbing assembly 3 is used to purify the outside air, and the purified air is discharged to the outside environment through the odor releasing assembly 4, so as to recycle the air. The odor release control unit is used for realizing the timed and quantitative recovery and release of the calibrated odor gas, and before the latter odor is released, the former calibrated odor gas is recovered, so that a good release space is provided for the latter odor, the interference of the former odor is avoided, and the latter odor sensed by a user has higher purity.

The embodiment can realize timely recovery and replacement of the odor, provide various odors, and ensure that the various odors do not interfere with each other, so that a user can feel various purer odors even in a closed space.

Further, as shown in fig. 3, the odor absorbing assembly 3 includes an impeller (not shown), a micro motor (not shown), a grille screen 13 and a gas accommodating chamber, and the gas accommodating chamber is connected to the odor releasing assembly 4. Micro motor drive impeller rotates, and external gas gets into gaseous chamber of holding through grid filter screen 13, and gaseous chamber of holding is used for saving the purge gas, including prestoring gaseous and the purge gas after the absorption treatment.

Furthermore, as shown in fig. 6 and 7, the odor absorption assembly 3 further includes an odor air duct 32 and a plurality of stages of filter screens disposed in the odor air duct 32, in this embodiment, the plurality of stages of filter screens include a first filter screen 33 and a second filter screen 34, the odor air duct 32 is communicated with the air accommodating chamber, when the micro motor drives the impeller to rotate, the external air can enter the air accommodating chamber through the odor air duct 32, and the first filter screen and the second filter screen are used for filtering the external air. Wherein the air inlet direction of the smell air duct 32 is different from the air inlet direction of the grid filter 13, so that the gas can be absorbed from different directions. Preferably, the inlet of the smell air duct 32 is arranged close to the outlet of the smell releasing component 4, so that the residual calibration smell gas can be recovered and purified more quickly, a good gas environment is provided for the subsequent calibration smell gas release, and a user can smell different smells accurately; meanwhile, the time difference of the release of the front and the back smells is shortened, the asynchronous release of the odor calibration gas and the asynchronous playing of the film are avoided, and the film watching experience of a user is reduced.

As shown in fig. 1, the odor releasing assembly 4 includes a plurality of odor chambers 41, wherein the two ends of the odor chambers 41 are respectively connected with an air inlet pipe 43 and an air outlet pipe 44, solid-state odor sources 42 are disposed in the odor chambers 41, the solid-state odor sources 42 in each odor chamber 41 are different from each other, and the gas contains the odor of the solid-state odor sources 42 when the gas flows through the solid-state odor sources 42. Preferably, the solid-state scent source 42 is disposed near the air inlet pipe 43, so that the gas entering from the air inlet pipe 43 can be in contact with the solid-state scent source 42 earlier, so that the gas contains the scent of the solid-state scent source 42.

Preferably, the odor chamber 41 further comprises an intake valve 45 for controlling the opening and closing of the intake pipe 43 and a ventilation valve 46 for controlling the opening and closing of the outlet pipe 44. Optionally, the air intake valve 45 is an electrically operated valve, which is electrically connected to the scent release control unit, through which the opening or closing of the air intake valve 45 is controlled. The vent valve 46 comprises a baffle plate which is rotatably connected with the inner wall of the air outlet pipe 44, when the plane of the baffle plate is vertical to the axis of the air outlet pipe 44, the baffle plate blocks the air outlet pipe 44, and the vent valve 46 is closed; when the plane of the baffle plate is 0-90 degrees of included angle with the axis of the air outlet pipe 44, the air vent valve 46 is opened. When the air inlet valve 45 is opened, air enters the smell cabin 41 through the air inlet pipe 43, the blocking piece rotates under the action of air flow, an included angle is formed between the blocking piece and the inner wall of the air outlet pipe 44, and at the moment, the air vent valve 46 is opened so that the air flows out of the smell cabin 41. When the inlet valve 45 is closed, no more gas flows into the odor chamber 41, so that the vent valve 46 is automatically closed.

Further, the odor control system further comprises a first air duct 5 and a second air duct 6 connected between the odor absorbing assembly 3 and the odor releasing assembly 4, and an odor output passage 7 communicated with the second air duct 6; the first air duct 5 is connected with the air inlet pipes 43 of the plurality of smell cabins 41 respectively, the tail end of the first air duct 5 is closed, and the second air duct 6 is connected with the air outlet pipes 44 of the plurality of smell cabins 41 respectively. As shown in fig. 1, two or more smell cabins 41 are sequentially and parallelly arranged, a first interface suitable for being connected with an air inlet pipe 43 of the smell cabin 41 is sequentially arranged on the first air duct 5, and a second interface suitable for being connected with an air outlet pipe 44 of the smell cabin 41 is sequentially arranged on the second air duct 6.

When the odor release control unit needs to control the odor release component 4 to output a certain odor, the odor release control unit controls one air inlet valve 45 to be opened, the other air inlet valves 45 are closed, purified gas obtained by processing of the odor absorption component 3 respectively flows through the first air duct 5 and the second air duct 6, the purified gas in the first air duct 5 enters the corresponding odor chamber 41 through the opened air inlet valve 45 to generate a corresponding odor, the vent valve 46 is automatically opened under the action of air flow, the calibrated odor gas enters the second air duct 6 through the air outlet pipe 44, and under the driving action of the purified gas in the second air duct 6, the calibrated odor gas is discharged into the odor output channel 7 through the second air duct 6 and is output by the odor output channel 7.

The operation of the odour control system provided by this embodiment is as follows:

when the odor release control unit selects the odor to be output, the odor release control unit controls to open the air inlet valve 45 corresponding to the odor to be output, the gas pre-stored in the gas accommodating cavity respectively enters the first air duct 5 and the second air duct 6, wherein the air flow in the first air duct 5 enters the odor cabin 41 storing the odor to be output, and enters the second air duct 6 through the air valve 46, enters the odor output channel 7 together with the gas flowing through the second air duct 6, and is discharged to the external environment through the odor output channel 7, so that the odor to be output is discharged, and the olfactory sensation of a user can sense the odor. The odor output time is controlled by the odor release control unit, after the odor output time is finished, the air inlet valve 45 corresponding to the odor is controlled to be closed by the odor release control unit, meanwhile, the odor absorption component 3 is controlled to be opened by the odor release control unit, namely, the micro motor is controlled to be started, the micro motor drives the impeller to rotate, outside air enters the air accommodating cavity after being purified by the grating filter screen 13, the odor air duct 32, the first filter screen and the second filter screen, the recycling and purification of the air are realized, and therefore the content of the odor diffused to the environment is reduced. When the next discharge time of the odor to be output comes, the odor release control unit controls to close the odor absorption assembly 3 and simultaneously opens the odor release assembly 4, namely, controls to open the air inlet valve 45 corresponding to the next odor to be output, closes the odor release assembly 4 after outputting the corresponding odor for a certain time, opens the odor absorption assembly 3, and the process is repeated.

Another embodiment of the present invention further provides a pair of film watching glasses, comprising the above-mentioned smell control system, which improves the immersion of the movie works by adding olfactory elements, so that the viewer can have direct "dialogue" with the movie, thus deepening the understanding of the movie and triggering the psychological reaction of the viewer.

As shown in fig. 2-5, the viewing glasses comprise a frame 1 and a pair of glasses legs 2, the frame 1 comprises a left frame and a right frame, each frame is provided with a smell suction inlet 12 and a smell output outlet 11, the smell suction inlet 12 is communicated with a smell air duct 32 of a smell control system, and the smell output outlet 11 is communicated with a smell output channel 7 of the smell control system. It will be appreciated that each frame 1 is provided with an odour control system.

Preferably, as shown in fig. 4, the smell suction port 12 and the smell delivery port 11 are both provided at the lower portion of the frame. So, cause the interference to user's eyes when avoiding the smell release, influence and watch the shadow, in addition, when the user wore and sees the shadow glasses, framework lower part position was close to user's sense of smell organ (nose) for the user perceives the smell more easily. The reason that the odor suction inlet 12 is also arranged at the lower part of the frame body is that the position is close to the odor output port 11, and because the odor concentration is generally reduced from the odor output port 11 to the outside in sequence when the odor is released, the odor suction inlet 12 is arranged close to the odor output port 11, and the residual odor can be quickly and timely recovered.

Preferably, as shown in fig. 5, the temple 2 is U-shaped as a whole, and both ends of the temple 2 are connected to the glasses frame 1 respectively, so that the glasses frame 1 and the temple 2 form a closed loop, specifically, the U-shaped temple 2 includes two first legs on the left and right and a second leg integrally connected between the two first legs, and the first legs are connected to the two frames. The setting of U-shaped mirror leg 2 increases the stability of seeing when shadow glasses are fixed in the head, prevents that glasses from dropping.

Alternatively, the scent release assembly 4 is disposed inside the first legs on the left and right sides, respectively. In this way, the scent release assembly 4 is positioned close to the scent output port 11 for easier scent output.

Optionally, the micro motor, the impeller and the grille filter of the odor absorbing assembly 3 are all disposed inside the second leg of the temple 2, so as shown in fig. 3, the air intake in the left frame, the right frame and the first leg is purified by the odor absorbing assembly 3, the structure of the glasses is simplified, the weight of the glasses is reduced, and the structure of the glasses is more compact. The smell air ducts of the smell absorbing assembly 3 are arranged inside the mirror frame and the mirror legs.

The film watching glasses provided by the embodiment and the master control system for controlling the film playing are wirelessly transmitted through Bluetooth. The main control system is connected with the smell release control unit. When a movie is produced, besides producing a conventional video channel, a subtitle channel, a sound effect channel and the like, a smell signal channel is additionally arranged, different smell modules are sequentially added into the smell signal channel according to scene requirements, when the movie is played, when a time frame reaches the initial end of a certain smell module of the smell signal channel, a main control system transmits a smell playing signal to a smell release control unit, and the smell release control unit controls to start a smell release component 4, so that the smell reaches the olfactory organ of a user at the fastest speed, and the user can quickly perceive the smell. When the time frame reaches the tail end of a certain smell module of the smell signal channel, the master control system transmits a signal for stopping playing the smell to the smell release control unit, the smell release control unit controls to close the smell release component 4 and simultaneously open the smell absorption component 3, and smell tail gas in front of olfactory organs of a user is quickly cleaned.

Although the present disclosure has been described above, the scope of the present disclosure is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the spirit and scope of the present disclosure, and these changes and modifications are intended to be within the scope of the present disclosure.

Claims (12)

1. A scent control system comprising a scent absorption module (3), a scent release module (4), and a scent release control unit, wherein the scent absorption module (3) and the scent release module (4) are respectively connected to the scent release control unit in communication, and the scent release control unit is used for controlling the scent absorption module (3) to absorb and purify external gas, and controlling the scent release module (4) to generate and release nominal scent gas.

2. The odor control system according to claim 1, further comprising a first air duct (5), a second air duct (6) and an odor output channel (7), wherein the first air duct (5) and the second air duct (6) are respectively connected to the odor absorbing assembly (3), the first air duct (5) is connected to an inlet of the odor releasing assembly (4), the odor output port of the odor releasing assembly (4) is communicated with the second air duct (6), and the second air duct (6) is communicated with the odor output channel (7).

3. The odour control system according to claim 1, wherein the odour absorbing assembly (3) comprises an impeller, a micro-motor in driving connection with the impeller, a grille screen (31) through which the ambient air enters the gas receiving chamber (31), and a gas receiving chamber connected with the odour releasing assembly (4).

4. The odor control system as claimed in claim 3, wherein said odor absorbing assembly (3) further comprises an odor duct (32) and a multi-stage filter, said odor duct (32) communicating with said air receiving chamber, said multi-stage filter being disposed within said odor duct (32), said multi-stage filter being adapted to filter said ambient air entering from said odor duct (32).

5. The scent control system of claim 4 wherein an inlet of the scent tunnel (32) is disposed proximate an outlet of the scent release assembly (4).

6. The scent control system of claim 1 wherein the scent release assembly (4) includes a plurality of scent chambers (41), each scent chamber (41) having a scent source (42) therein that is different from one another.

7. The odor control system according to claim 6, wherein an air inlet pipe (43) and an air outlet pipe (44) are respectively provided at both ends of the odor chamber (41), the air inlet pipe (43) is connected with the first air duct (5), and the air outlet pipe (44) is communicated with the second air duct (6).

8. The scent control system of claim 7 wherein the scent chamber (41) further comprises an air intake valve (45) and a vent valve (46), the air intake valve (45) being electrically connected to the scent release control unit, the air intake valve (45) being configured to control the opening and closing of the air intake tube (43), the vent valve (46) being configured to control the opening and closing of the air outlet tube.

9. Viewing glasses comprising a frame (1) and arms (2), characterized in that it further comprises an odour control system according to any one of claims 1-8.

10. Viewing glasses according to claim 9, characterized in that said frame (1) comprises two frames, a left frame and a right frame, said frames being provided with a smell suction inlet (12) and a smell outlet (11), said smell suction inlet (12) being in communication with a smell duct (32) of said smell control system, said smell outlet (11) being in communication with a smell outlet channel (7) of said smell control system.

11. Viewing glasses according to claim 10, characterized in that said odor suction inlet (12) and said odor outlet (11) are both provided at the lower part of said frame.

12. Viewing glasses according to claim 9, characterized in that said temple (2) comprises two first legs, a left and a right, and a second leg integrally connected between said two first legs, said first legs being connected to said frame.

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