close

Вход

Забыли?

вход по аккаунту

?

DESCRIPTION JP2010145952

код для вставкиСкачать
Patent Translate
Powered by EPO and Google
Notice
This translation is machine-generated. It cannot be guaranteed that it is intelligible, accurate,
complete, reliable or fit for specific purposes. Critical decisions, such as commercially relevant or
financial decisions, should not be based on machine-translation output.
DESCRIPTION JP2010145952
PROBLEM TO BE SOLVED: To supercharge oxygen according to a singer's breath. Kind Code: A1
A microphone, a playing means, a storage means for storing karaoke data for each musical piece
including a valve opening code corresponding to a breathing point in a singing melody, a
container containing high oxygen concentration air, and a microphone A jet port capable of
injecting high oxygen concentration air to the proboscis of a person who is disposed and sings
toward the microphone, an air passage for leading the high oxygen concentration air in the
container to the jet port, and control of control means disposed in the air passage
Accompaniment when the accompaniment music is output by the performance means based on
the karaoke data of the requested song, and the oxygen supercharging means provided with a
valve for spouting the high oxygen concentration air of the container from the spout port when
the valve is opened. The karaoke apparatus opens the valve of the oxygen supercharger at the
appearance timing of the valve opening code in the karaoke data in the music output period.
[Selected figure] Figure 2
A karaoke device that supercharges oxygen from the microphone to the singer
[0001]
The present invention relates to a karaoke apparatus having a function of injecting high oxygen
concentration air from the microphone toward the proboscis of a person who holds the
microphone and sings karaoke, and in particular, the timing of breath based on the music
actually singing It is related with what injects high oxygen concentration air intermittently
according to.
[0002]
18-04-2019
1
In the fields of medicine, sports, relaxation and the like, acts of human being inhaling air whose
oxygen concentration is intentionally higher than the atmosphere are implemented in various
manners.
For each purpose, various devices have been developed for the human to inhale high oxygen
concentration air. For example, JP-A-8-189211 discloses a bathroom provided with an oxygen
supply mechanism. Japanese Utility Model Registration No. 3124903 discloses a fitness
apparatus having an oxygen inhalation function. Recently, shops known as oxygen bars have
appeared in urban streets. A person is lying in the capsule, and while listening to quiet music, it
absorbs the high oxygen concentration air supplied in the capsule and provides a place to rest for
a while. Japanese Patent Application Laid-Open No. 8-188211 Utility model registration No.
3124903
[0003]
Singing karaoke is an act that relieves stress, brings about a relaxed mood or brings up an active
uplifting mood, and people are looking forward to it. The inventor thought that the physiological
effect of sucking high oxygen concentration air would be added to the fun of this karaoke.
[0004]
The karaoke apparatus according to the present invention has a configuration specified by the
following items (1) to (9). (1) Being a karaoke apparatus provided with storage means, oxygen
supercharging means, control means, microphone, and playing means (2) The storage means
stores karaoke data for each music piece (3) Karaoke The data should include the valve opening
code corresponding to the breathing point in the singing melody (4) The oxygen supercharging
means should be provided with the container, the air passage, the injection port and the valve (5)
the container is high oxygen Containing concentration air (6) The air passage leads the high
oxygen concentration air in the container to the spout port (7) The spout port is disposed in the
microphone and the high oxygen content in the snout of the person singing toward the
microphone Condensable air can be injected (8) The valve is disposed in the air passage, and
when the valve is opened under the control of the control means, the high oxygen concentration
air of the container is ejected from the ejection port (9) control means Is the request When
outputting the musical accompaniment by playing means based on the karaoke data, in
18-04-2019
2
appearance timing of opening codes in the karaoke data in an output period of the musical
accompaniment thereby open the valve of the oxygen supercharging means.
[0005]
=== Effects of the Invention === The karaoke apparatus of the present invention does not simply
make high oxygen concentration air flow down toward the singer. When singing along with
karaoke accompaniment music, the timing for the singer to breathe is fixed. As well known, the
timing information of breath is added to the score of each music. Similarly, it is well known to
add the timing of breath and the like to karaoke data of each song. By applying this technology,
in the present invention, the high oxygen concentration air is intermittently ejected from the
microphone held by the singer in front of the proboscis in accordance with the timing of breath
based on the music actually singing. Thus, high oxygen concentration air can be efficiently
sucked by the singer.
[0006]
=== Configuration of Device === FIG. 1 is a cross-sectional view schematically showing an
internal structure of the microphone 18 according to the present embodiment. FIG. 2 exemplarily
illustrates the device configuration of the oxygen supercharging means according to the first
embodiment of the present invention.
[0007]
The microphone 18 includes a microphone unit 181 for converting collected sound waves into
an electric signal, a microphone case (microphone grip) 182 supporting the microphone unit
181, and a wire mesh covering the microphone case 182 to protect the microphone unit 181.
And a wind cover 183 of the
[0008]
A tube-like air passage 193 is led out from the microphone case 182 and connected to a
container 191 filled with high oxygen concentration air via a solenoid valve 194.
18-04-2019
3
The other end of the air passage 193 penetrates the microphone case 182, and the tip (the
injection port 192) of the air passage 193 is disposed inside the window cover 183.
[0009]
The container 191 is configured to be removable from the air passage 193. The container 191
having a capacity of about several liters has the same structure as a well-known oxygen cylinder,
in which air having a high oxygen concentration is compressed and stored in the atmosphere
having an oxygen concentration of about 40% or more. It is held at atmospheric pressure. If high
oxygen concentration air is released from the container 191 and its internal pressure decreases
below a predetermined level, the valve is closed and the container 191 is removed from the air
passage 193 in the same manner as the oxygen cylinder is replaced. The container 191 filled
with high oxygen concentration air is attached to the air passage 193 and the valve is opened.
The container 191 illustrated in FIG. 3 is connected to the air passage 193 via a connection unit
(valve) incorporating a solenoid valve 194.
[0010]
The solenoid valve 194 opens and closes the air passage 193. When the solenoid valve 194 is
opened, the air passage 193 is opened, and the high oxygen concentration air in the container
191 is ejected from the ejection port 192 via the air passage 193, and the microphone 18 via the
mesh window cover 183. Be supercharged to the proboscis of the singer using the. Similarly,
when the solenoid valve 194 is closed, the air passage 193 is closed, and the ejection of high
oxygen concentration air is stopped.
[0011]
=== Basic Configuration of Karaoke Device === The karaoke device of this embodiment is a
performance terminal 10 of a well-known communication karaoke system, and is an application
device of a general-purpose personal computer. The block configuration is illustrated in FIG. A
central control unit 11 including a CPU, a RAM, and a ROM controls peripheral components to
control the performance terminal 10. The hard disk drive 12 stores, besides the program of the
main computer, a music database in which karaoke data as a source of accompaniment music
and lyric images are collected in association with music IDs.
18-04-2019
4
[0012]
Further, in the present embodiment, the central control unit 11 is configured to be able to drive
the solenoid valve 194 by controlling the driver 19. The solenoid valve 194 is composed of an
iron piece (valve body) for opening or closing the air passage 193 and an electromagnet, and the
electric current is supplied to the electromagnet under the control of the central control unit 11
to make the iron piece (valve body) Move to open the valve. Conversely, the iron piece is
returned to its original position and closed by stopping the current flowing to the electromagnet
under the control of the central control unit 11 and setting the magnetic force to zero.
[0013]
The solenoid valve 194 is also provided with a valve opening button 195 which can open and
close the valve body by manual operation. While the button 195 is pressed, the valve is opened,
and when the button 195 is released, the valve is closed.
[0014]
=== Configuration of Karaoke Data === Karaoke data for each song is accompaniment music data
mainly composed of MIDI data, lyric depiction data as a generation origin of lyric subtitles, and a
script defining a processing sequence of background image It is a data set that includes data and
associates them with music IDs.
[0015]
The karaoke data can specify a point (time point) or a period on the reproduction time axis by
adding an appropriate timing code to accompaniment music data or the like.
And many karaoke apparatuses which perform a specific operation are disclosed in the specified
section.
[0016]
18-04-2019
5
For example, the karaoke apparatus described in Japanese Patent No. 4056631 starts displaying
the singing score result from the time point of the timing code added to the predetermined
position of the karaoke part of the rendition part. The karaoke apparatus described in Japanese
Patent No. 3772072 allocates and plays a spot program based on non-singing section
information added to karaoke data. The karaoke apparatus disclosed in Japanese Patent No.
3729773 detects the singing tempo and makes the performance tempo follow in the singing
section added to the karaoke data and identified, and performs the standard tempo in the
interplay section. The karaoke apparatus described in Japanese Patent No. 3547396 outputs a
synthesizer sound based on the singer's scat input to the ensemble available section added to the
karaoke data.
[0017]
In the same manner as the disclosed technique, in the present embodiment, a valve opening code
indicating the time point at which the solenoid valve 194 should be opened and the valve closing
state are closed corresponding to the points to be breathed at the time of singing in the singing
melody. A valve closing code indicating the time point of powering is added. In other words, the
valve opening code indicates the time point at which the solenoid valve 194 is opened and the
ejection of high oxygen concentration air is started from the injection port 192, and the valve
closing code is closing the solenoid valve 194 so as to Indicates when to stop the
[0018]
More specifically, the valve is opened at a timing earlier by a predetermined time than the
breathing start point, taking into consideration the time for the high oxygen concentration air to
reach the outlet 192 from the container 191 via the air passage 193 after opening. As such, the
valve opening code is added.
[0019]
The addition of the valve closing code is not necessarily required.
If it is decided in advance to close the valve after a predetermined time from the valve opening,
the valve closing code is not necessary. In general, it is sufficient to predetermine a
predetermined opening time as a time sufficient for one breath. For example, the valve opening
18-04-2019
6
time is 2 seconds, and the valve is closed 2 seconds after the valve opening.
[0020]
As described above, the valve opening time may be a constant value, but several patterns of valve
opening times may be determined. For example, three valve opening times of "long", "middle" and
"short" are defined (three types of valve opening codes corresponding to the respective patterns
are determined), and which pattern is matched to the breathing part It is added to karaoke data
whether it is considered as the opening time of For example, a “long” valve opening code is
added to a breathing point where a large amount of breath is inhaled slowly, just before
crescendo (increasing the noise gradually) from now on, in order to lengthen the valve opening
time. In addition, a "short" valve opening code is added to a place where a breath is quickly made
in a short time, such as immediately before the pitch changes in small steps at an early tempo. In
this case, the high oxygen concentration air can be inhaled, and the high oxygen concentration
air can be prevented from being wasted in vain while the air is being sucked, and supercharging
can be performed more efficiently.
[0021]
=== Oxygen Supercharge Control at the Time of Karaoke Performance === The performance
terminal 10 has a function to perform oxygen supercharge control by opening and closing the
solenoid valve 194 based on the karaoke data at the time of karaoke performance. That is, at the
time of karaoke performance, the central control unit 11 of the performance terminal 10
performs oxygen supercharging control by opening and closing the valve 194 based on the valve
opening code and the valve closing code added to the karaoke data. At the position where the
valve opening code is added during the karaoke data reproduction process, the central control
unit 11 opens the solenoid valve 194. Further, when the valve closing code is added, the solenoid
valve 194 is closed.
[0022]
In this manner, the karaoke apparatus of the present embodiment controls the opening and
closing of the solenoid valve 194 based on the valve opening code and the valve closing code of
the karaoke data, and from the injection port 192 of the microphone 18 via the air passage 193.
By injecting or stopping high oxygen concentration air, it is possible to efficiently supercharge
oxygen to the proboscis of a singer using the microphone 18 in accordance with the timing of
breath.
18-04-2019
7
[0023]
=== Other Embodiments === <Second Example> In the second example, as illustrated in FIG. 5,
the tip of the air passage 193 on the side of the microphone 18 has a torus, and the circle
thereof A plurality of spouts 192 are disposed at appropriate intervals on the outer periphery of
the ring.
The tip of the annular air passage 193 is configured to be engageable with the outer peripheral
portion of the window cover 183. The other configuration is the same as that of the abovedescribed embodiment (first embodiment).
[0024]
As described above, by appropriately dispersing and arranging the plurality of injection ports
192 on the outer peripheral portion of the window cover 183, any direction through which the
singer holds the microphone 18, any one of the injection ports It is easy for 192 to face the
singer's proboscis. In addition, since the air passage 193 and the blowout port 192 can be
attached to and detached from the microphone 18, the user can decide on the posture to sing
and then wear it, and can use it more comfortably. In addition, the present invention can be
easily applied to the existing microphone 18. In particular, since it can be applied to the wireless
type microphone 18, the available scene is expanded.
[0025]
Third Embodiment The air passage 193 of the third embodiment has an annular tip as in the
second embodiment, and a plurality of injection ports 192 are suitably provided on the outer
periphery of the annular ring. It is arranged at intervals. The only difference from the second
embodiment is that this air passage 193 is built in the microphone case 182 and the annular tip
end portion thereof is integrated with the window cover 183 (see FIG. 6). . The ring at the end of
the air passage 193 is housed in the space in the window cover 183 so that the entire air
passage 193 is built in the microphone case 182 as in the first embodiment, and the ring extends
around the microphone unit 181. You may arrange so that it may surround.
18-04-2019
8
[0026]
By arranging a plurality of spouting ports 192 appropriately dispersed, it is easy for any spouting
port 192 to face the singer's proboscis, regardless of the direction the singer holds the
microphone 18, Certainly, high oxygen concentration air can be supercharged.
[0027]
Fourth Embodiment In the fourth embodiment, only the point that the valve 194 is disposed at
the outlet 192 of the microphone 18 and the valve 194 is configured to directly open and close
the outlet 192 is the above-mentioned. It differs from the first embodiment.
As the valve 194 approaches the spouting port 192, the time lag between the valve opening and
the start of supercharging with high concentration oxygen air to the singer can be made smaller,
so an error is less likely to occur in the design of the apparatus, which is preferable. In this case,
since the switch for manually operating the opening and closing of the valve 194 is provided on
the microphone 18, it is easy and convenient for the singer to manually operate.
[0028]
Fifth Embodiment The container 191 is a buffer container (temporary storage container) for
temporarily storing generated and supplied oxygen as a part of an oxygen generator, an oxygen
supply device, etc. This differs from the first embodiment. In this case, the container 191 does
not need to be detached from the air passage 193. When the high oxygen concentration air flows
out of the container 191 into the air passage 193, the same volume of generated oxygen flows
into the container 191 through the compressor. Therefore, since the container 191 always
contains a substantially constant volume of high oxygen concentration air, it is convenient
because the high oxygen concentration air can be supercharged at any time without running
short.
[0029]
<Others> In addition to the method of arranging the button 195 for directly opening and closing
the valve as illustrated in FIG. 3 about opening and closing by manual operation of the valve 194,
18-04-2019
9
an instruction is given by a user interface for valve opening instruction provided appropriately
This can be realized even if the central control unit 11 is configured to be able to drive the driver
19. With either method, by allowing the valve to be opened and closed manually, the singer can
inhale the high oxygen concentration air when he / she feels that it is necessary even if it is not
on the score, so more oxygen excess The efficiency of pay increases.
[0030]
The solenoid valve 194 may be disposed in the middle of the air passage 193. As the valve 194
approaches the spout port 192, the time lag between the valve opening and the start of
supercharging with high concentration oxygen air to the singer can be made smaller.
[0031]
Further, the number of the containers 191 is not limited to one per one performance terminal 10,
and a form in which the plurality of performance terminals 10 share the container 191 is also
included in the present invention. For example, with respect to the performance terminal 10
provided one by one in each of a plurality of guest rooms of a karaoke collective store, each store
is extended from a buffer container (container 191) of one to several oxygen supply devices in
the store The form of supplying high oxygen concentration air via piping (air passage 193) is
also included in the present invention. Also in this case, at least one solenoid valve 194 is
provided for each performance terminal 10, and the piping that has reached the inside of each
cabin is opened / closed by the solenoid valve 194 controlled by the performance terminal 10 in
the same room.
[0032]
It is sectional drawing which shows typically the internal structure of the microphone which
concerns on a present Example. The apparatus structure of the oxygen supercharging means
which concerns on a present Example is illustrated typically. It is a structural example of the
container which concerns on a present Example. The block configuration of the karaoke
apparatus which concerns on a present Example is illustrated. It is the figure which illustrated
the air passage and the injection port concerning a 2nd example. It is the figure which illustrated
the air passage and the injection port concerning a 3rd example.
18-04-2019
10
Explanation of sign
[0033]
11 central control 19 driver 191 container 192 spout 193 air passage 194 (electromagnetic)
valve
18-04-2019
11
Документ
Категория
Без категории
Просмотров
0
Размер файла
21 Кб
Теги
description, jp2010145952
1/--страниц
Пожаловаться на содержимое документа