CN212572894U - Energy-saving sound equipment of rectifying - Google Patents

Abstract

The utility model provides an energy-saving sound equipment of rectifying, including pickup port, pipe branch mouth, branch pipe I, branch pipe II, ear muff, the nearly ear port of pipe, earphone, pipe I, branch pipe II homoenergetic can be hollow pipeline, and pipe branch mouth can be one end for hollow pipeline and other end branching be the position of two hollow pipelines. The utility model discloses an it is energy-conserving portable, be arranged in correcting pronunciation details among the language study, utilize the arbitrary language study audio frequency and video sound wave of air conduction user's sound wave and earphone speaker broadcast in the pipeline to let the user contrast the equipment of rectifying the sound to user's inner ear.

Description

Energy-saving sound equipment of rectifying

Technical Field

The utility model relates to an it entangles sound equipment, especially an energy-saving entangles sound equipment.

Background

At present, various sound correction devices are available in the market for people to use in correcting pronunciation. The common sound correcting equipment generally comprises a sound input module, a central processing system module, a display module, a sound output system module, a standard audio database module and the like, is complex in structure, high in cost, inconvenient to carry, high in power consumption due to the complex structure, not very energy-saving, and not very flexible and convenient, and a user can not match any language to learn audio and video at will to use due to the fact that the common sound correcting equipment needs to match a preset standard audio database to use.

Disclosure of Invention

The utility model aims at solving above-mentioned prior art not enough, and provide a portable, energy-conserving, the mode that utilizes the acoustic sound wave of the air conduction user in the pipe to the user inner ear combines together with the audio frequency sound wave of the speaker broadcast in the earphone through the mode of air conduction to user inner ear in the ear muff, let the user can arrange arbitrary language study audio frequency and video and use, and then can let the user carry out the equipment that self-contrast corrected own pronunciation details to the acoustic details of oneself and arbitrary language study audio frequency, pronunciation details in the video.

In order to achieve the above object, the present invention provides the following technical solutions:

the utility model provides an energy-saving sound equipment of rectifying includes pickup port, pipe branch mouth, branch pipe I, branch pipe II, ear muff, the nearly ear port of pipe, earphone, and pipe, branch pipe I, branch pipe II homoenergetic wherein can be hollow pipeline, and pipe branch mouth can be one end for hollow pipeline and the position that other end fork is two hollow pipelines. Compared with other modes of collecting and conducting sound waves of a user by adopting the sound-electricity converter and the converter for converting the electric signals into the sound waves, the sound-electricity converter saves the electric energy consumed by the sound-electricity converter and the converter for converting the electric signals into the sound waves, thereby saving the electric energy consumed by the equipment in the prior art during working and achieving the effect of saving energy.

In some embodiments, the pickup port is in communication with a conduit, the conduit is in communication with one end of a branch port of the conduit, the other end of the branch port of the conduit is bifurcated and is in communication with a branch conduit I and a branch conduit II, respectively, and the branch conduit I and the branch conduit II are in communication with respective near-to-ear ports of the conduit. The sound-frequency-correction device has the advantages that the duct of the device is branched into the branch duct I and the branch duct II through the duct branch port, so that the whole device is convenient and attractive to use, materials are saved, original sound waves emitted by a user are transmitted to the duct ear-near port through the sound pickup port by utilizing air in the duct and then transmitted to the ear canal and the inner ear of the user, the sound waves emitted by audio and video are played by combining the earphone loudspeaker, and the user can compare sound production details emitted by the user with the sound production details of the audio and video played in the earphone and correct pronunciation by the user.

In some embodiments, the ear cup can include a catheter near-ear port, an earphone, and a spacer can be disposed between the catheter near-ear port and the earphone, wherein one end of the spacer is connected with the catheter wall, and the other end of the spacer is longer than the catheter near-ear port and the earphone. The beneficial effects are that the spacer can prevent that the sound that the earphone sent from the pipe near ear end from leading pipe I and II directions of branch pipe of far-end ear end through air conduction and loss, can make the sound that the earphone sent gather more and spread to user's duct direction, practices thrift the electric energy of earphone.

In some embodiments, the outlet of the proximal ear port of the catheter is oriented toward the ear canal of the user. The sound-collecting port has the advantages that the original sound waves of the user collected by the sound-collecting port can be conducted to the auditory canal of the user through the air in the guide tube at the nearest distance, so that the user can more labor-saving pronounce and can more clearly hear the pronunciation details of the user.

In some embodiments, an opening can be formed in the ear cover, and the opening can expose the charging interface and the button on the earphone. Its beneficial effect makes this equipment can arrange the charging wire and charge for the earphone to can use the button to let the earphone pair with taking the player outward, make this part of earphone can normally work, and then make whole equipment can normally work.

In some embodiments, branch conduit I and branch conduit II are the same length. The sound pick-up device has the beneficial effects that the user acoustic wave transmitted by the sound pick-up port can be uniformly and synchronously transmitted to the left ear and the right ear of the user.

In some embodiments, the catheter branch port, the branch catheter I and the branch catheter II can be arranged to be covered by the fixed casing. The pipe fixing device has the beneficial effects that the pipe, the pipe branch port, the branch pipe I and the branch pipe II can be protected and fixed by the fixed shell, and abrasion is prevented.

In some embodiments, the duct walls of the portions of the ducts, the branch ducts I and the branch ducts II close to the ears can be provided with folding type duct walls capable of telescopically adjusting the length of the ducts. The length of the conduit can be adjusted by a user according to the distance between the ear and the top of the head and the distance between the ear and the mouth, so that the whole device is suitable for the personal characteristic difference requirements of the distance between the ear and the top of the head and the distance between the ear and the mouth of the user.

In some embodiments, the casing of the fixed casing, which is wrapped outside the tube wall of the telescopic adjustable tube, may be configured to be disconnected, and the disconnected casing at one end may be stacked outside the disconnected casing at the other end, and the size of the stacking area between the disconnected casing at one end and the disconnected casing at the other end may be changed along with the expansion and contraction of the tube wall of the telescopic adjustable tube. The telescopic pipe has the advantages that the two ends of the disconnected and overlapped fixed shells can adjust the overlapped area along with the expansion of the telescopic pipe wall of the pipe, so that the telescopic pipe wall of the pipe can freely adjust the length without obstruction, and the pipe wall of the telescopic pipe which can adjust the length of the pipe in an expansion mode can be prevented from accumulating dust or being in contact with the outside to be abraded.

To sum up, the beneficial effects of the utility model are that can prevent that people from not using any equipment of rectifying to carry out language study, self-correcting when pronouncing, mouth pronunciation sound wave is at first conducted to the inner ear with the bone conduction mode through self head bone at first in fact and language study predetermines audio and video and pass through the speaker of player and conduct the auditory effect that leads to the inner ear with the air conduction mode in the duct inequality and can't pronounce detail contrast, self-correcting. The utility model discloses a mode of the air conduction user acoustic sound wave in the pipe and arbitrary language study audio frequency and video sound wave that earphone speaker broadcast also combine together and all conduct to user's inner ear through the mode of air conduction in the ear muff in both, reach the acoustic sound wave that the oneself that lets the conduction enter user's inner ear sends and the final conduction mode of the audio frequency and video sound wave that the earphone speaker broadcast that the air conduction enters the inner ear through the ear canal, finally reach user's inner ear by air conduction acoustic wave, the acoustic wave of air conduction makes the user can hear the pronunciation details more clearly, and then make the user can carry out pronunciation details contrast to both clearly, then carry out self-correction to the pronunciation details of oneself; compared with the common sound correction equipment, the sound wave of a user can be converted into an electric signal by adopting electric energy, and then the electric energy is used for converting the electric signal into the sound wave and then transmitting the sound wave into ears of the user, so that the energy-saving effect is achieved.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

In the figure: 1. a pickup port; 2. a conduit; 3. the pipe wall can telescopically adjust the length of the conduit; 4. a catheter branch port; 5-1, a branch conduit I; 5-2, a branch conduit II; 6. ear muffs; 7. a catheter proximal ear port; 8. a spacer; 9. an earphone; 10. an opening; 11. fixing the housing; 12. one end of the shell is disconnected; 13. and the other end of the shell is disconnected.

Detailed Description

The present invention will be further explained with reference to the drawings and examples. The technical solutions in the embodiments of the present invention are clearly and completely described, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1, in the embodiment of the present invention, an energy-saving sound correction device includes a pickup port 1, a conduit 2, a conduit branch port 4, a branch conduit i 5-1, a branch conduit ii 5-2, an earmuff 6, a conduit near-ear port 7, and an earphone 9, wherein the conduit 2, the branch conduit i 5-1, and the branch conduit ii 5-2 can be hollow pipes, and the conduit branch port 4 can be a part with one end being a hollow pipe and the other end being branched into two hollow pipes. The advantage of this kind of design is that pipe 2 and branch pipe I5-1, branch pipe II 5-2, pipe branch mouth 4 all have the cavity pipeline wherein, consequently, this utility model discloses can utilize the original sound wave that air conduction user wherein sent, so can be distinguished from other sound correcting products and utilize electric energy conversion user's sound wave to be the mode of electrical signal conversion electricity signal sound wave again, this utility model discloses equipment can save the electric energy that utilizes electric energy conversion and conduction user's sound wave to consume, reaches energy-conserving purpose.

As shown in fig. 1, the sound pickup port 1 is communicated with the catheter 2, the catheter 2 is communicated with one end of a catheter branch port 4, the other end of the catheter branch port 4 is branched and then respectively communicated with a branch catheter I5-1 and a branch catheter II 5-2, and the branch catheter I5-1 and the branch catheter II 5-2 are respectively communicated with a catheter near-ear port 7 of each catheter. The design is equivalent to that the sound pickup port 1, the conduit 2, the conduit branch port 4, the branch conduit I5-1, the branch conduit II 5-2 and the conduit near ear port 7 are communicated in sequence, the structure is attractive in shape and convenient to use, the materials are fully utilized and saved, and the structure can conduct the original sound wave sent by a user to the conduit near ear port 7 through the sound pickup port 1 and then to the auditory canal and the inner ear of the user, and the user can hear the pronunciation details of the user, so that the user can compare the pronunciation details of the user with the pronunciation details in any language learning audio/video played by the earphone loudspeaker to carry out self-correction.

As shown in fig. 1, the ear muff 6 can include a duct near-ear port 7 and an earphone 9, a spacer 8 can be arranged between the duct near-ear port 7 and the earphone 9, one end of the spacer 8 is connected with the duct wall, and the length of the other end exceeds the duct near-ear port 7 and the earphone 9. The advantage of this design is that the length of the spacer 8 exceeds the near ear port 7 of the guide tube and the earphone 9, so that the sound emitted by the earphone 9 can be prevented from being conducted and lost through air from the near ear end of the guide tube to the far ear end branch guide tube I5-1 and the branch guide tube II 5-2, the sound emitted by the earphone can be more focused to the ear canal of the user to be transmitted, and the electric energy of the earphone can be saved.

As shown in fig. 1, the outlet direction of the proximal ear port 7 of the catheter is directed towards the ear canal of the user. The design has the advantages that the original sound wave of the user collected by the sound pickup port can be conducted to the auditory canal and the inner ear of the user through the air in the guide tube with reduced loss, so that the user can more easily pronounce and can more clearly hear the pronunciation details of the user.

As shown in fig. 1, the ear muff 6 can be provided with an opening 10, and the charging interface and the keys on the earphone 9 can be exposed at the opening 10. The advantage of this kind of design makes this equipment can arrange the charging wire and charge for the earphone to can use the button to let the earphone match with the player of taking outward, make this part of earphone can normally work, and then make whole equipment can normally work.

As shown in FIG. 1, branch duct I5-1 is the same length as branch duct II 5-2. The design can ensure that the acoustic sound wave of the user transmitted from the sound pickup port can be uniformly and synchronously transmitted to the left ear and the right ear of the user at the same time, and the user can hear the sound emitted by the user from the left ear and the right ear at the same time.

As shown in FIG. 1, the catheter 2, the catheter branch port 4, the branch catheter I5-1, and the branch catheter II 5-2 can be configured to be all covered by a fixed outer cover 11. The design can ensure that the guide pipe, the guide pipe branch port, the branch guide pipe I5-1 and the branch guide pipe II 5-2 are protected and fixed by the fixed shell to prevent abrasion.

As shown in fig. 1, the duct walls of the duct 2, the branch duct I5-1 and the branch duct II 5-2 close to the ear can be provided with a folding type telescopic duct wall 3 for adjusting the length of the duct. The advantage of this kind of design lets the user can be according to the length of the distance adjustment pipe of own ear and top of the head, ear and mouth, makes whole equipment be fit for the individual character difference demand of user's ear and top of the head distance, ear and mouth distance, and it is more convenient when using this equipment to let the user.

As shown in fig. 1, the housing of the fixed housing 11 covered outside the tube wall 3 of the length adjustable telescopic tube may be configured to be broken, and the housing 12 provided with one end after being broken may be stacked outside the housing 13 at the other end after being broken, and the stacking area of the housing 12 at one end after being broken and the housing 13 at the other end after being broken may be changed along with the expansion and contraction of the tube wall 3 of the length adjustable telescopic tube. The design enables the two ends of the disconnected and overlapped fixed shell to adjust the size of the overlapping area along with the expansion of the telescopic conduit wall, thereby achieving the purposes that the telescopic conduit wall of the conduit can freely adjust the length without obstruction, and preventing the conduit wall of the telescopic conduit with the length adjustable from accumulating dust or contacting with the outside to be worn.

To sum up, the utility model discloses a theory of operation is: the user finishes charging the equipment through the charging interface at the opening 10 on the ear cover of the energy-saving sound correction equipment, then wears the equipment, holds the fixed shell 11 of the equipment by hand, adjusts the pipe wall 3 of the length of the telescopic adjusting pipe on the pipe, the branch pipe I5-1, the pipe wall 3 of the length of the telescopic adjusting pipe on the branch pipe II 5-2 and the disconnected one end shell 12 and the disconnected other end shell 13 of the fixed shell to proper length according to the distance between the ear and the vertex, then connects the earphone 9 with the playing equipment such as the mobile phone/computer/tablet computer/mp 3 player/mp 4 and the like matched with the outside through the keys at the opening 10 on the ear cover 6 to play audio/video data of any language learning, and then presses down the pause key, then, the user tries to imitate pronunciation by learning audio and video sound waves along with the language played in the earphone 9 and conducted to the auditory canal and the inner ear, at the moment, a spacer 8 between a near ear port 7 of a guide tube and the earphone 9 in the earphone 6 is longer than the near ear port 7 of the guide tube and the earphone, so that the spacer 8 can prevent the audio and video sound waves sent by the earphone 9 from being conducted to the far ear end of the guide tube through the near ear port 7 of the guide tube to consume the electric energy of the earphone 9, at the moment, the sound waves of the user pronounce by himself are conducted to the guide tube 2 through the sound pickup port 1, conducted to a branch port 4 of the guide tube through a tube wall 3 which is above the guide tube 2 and can adjust the length of the guide tube, conducted to a branch tube I5-1 and a branch tube II 5-2 through a branch tube port 4, and then conducted to the near ear sound waves of two guide tubes in the two earphones 6 through the branch tubes I5-1 and the port 7 is then conducted to the ear canal and inner ear of the user, so that the user can hear the details of his own pronunciation, and can perform self-correcting pronunciation by comparing with the pronunciation details of the language learning audio/video played by the earphone 9.

Usually, when a person makes a sound, the sound wave made by the person is transmitted to the inner ear from the vocal cords through the bone of the head of the person in a bone conduction manner, and the sound wave made by the person is transmitted to the inner ear through the speaker and the sound wave of the language learning audio and video and the sound wave is transmitted to the inner ear through the air conduction manner in the ear canal, so that the transmission media are different, and the auditory effect is different, and the pronunciation detail comparison and self-correction cannot be performed in detail. The utility model discloses the mode that makes the acoustic sound wave that the user's mouth sent to user's inner ear through the air conduction in the pipe is consistent with the audio frequency and video sound wave that this equipment earphone speaker broadcast also through the mode that air conduction in user's duct reaches the inner ear, and they are finally conducted to user's inner ear by the air, and the sound wave of air conduction makes the user can hear the details of pronunciation more clearly, so use this energy-saving to correct the sound equipment and can let the user carry out comparison in detail, self-correction to the pronunciation details; compared with the common sound correction equipment, the sound wave generated by a user is converted into an electric signal by adopting electric energy, and then the electric signal is converted into the sound wave by using the electric energy and finally transmitted to the ears of the user, so that the energy-saving effect is achieved.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

In the description of the present invention, it should be understood that the terms "inside", "outside", and the like indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, which are only for the convenience of describing the present invention and for simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may include only a single embodiment, and such description is for clarity only, and those skilled in the art will recognize that the embodiments may be combined and integrated as a whole to form other embodiments as would be understood by those skilled in the art.

Claims (9)

1. The utility model provides an energy-saving sound equipment of rectifying, includes pickup port (1), pipe (2), pipe branch mouth (4), branch pipe I (5-1), branch pipe II (5-2), ear muff (6), pipe near ear port (7), earphone (9), characterized by pipe (2), branch pipe I (5-1), branch pipe II (5-2) homoenergetic are the hollow pipeline, pipe branch mouth (4) can be one end for the position of hollow pipeline and other end bifurcation for two hollow pipelines.

2. The energy-saving sound correction device according to claim 1, characterized in that: the pickup port (1) is communicated with the conduit (2), the conduit (2) is communicated with one end of a conduit branch port (4), the other end of the conduit branch port (4) is branched and then is respectively communicated with a branch conduit I (5-1) and a branch conduit II (5-2), and the branch conduit I (5-1) and the branch conduit II (5-2) are respectively communicated with respective conduit near-ear ports (7).

3. The energy-saving sound correction device according to claim 1, characterized in that: can contain pipe near ear port (7), earphone (9) in ear muff (6), and can set up spacer (8) between pipe near ear port (7) and earphone (9), and spacer (8) one end connection pipe wall, other end length surpasss pipe near ear port (7) and earphone (9).

4. The energy-saving sound correction device according to claim 1, characterized in that: the outlet direction of the near-ear port (7) of the catheter faces the direction of the auditory canal of the user.

5. The energy-saving sound correction device according to claim 1, characterized in that: can set up opening (10) on ear muff (6), and opening (10) department can expose the interface and the button that charge on earphone (9).

6. The energy-saving sound correction device according to claim 1, characterized in that: the branch conduit I (5-1) and the branch conduit II (5-2) are the same in length.

7. The energy-saving sound correction device according to claim 1, characterized in that: the guide pipe (2), the guide pipe branch port (4), the branch guide pipe I (5-1) and the branch guide pipe II (5-2) can be arranged to be coated by a fixed shell (11).

8. The energy-saving sound correction device according to claim 7, characterized in that: the tube wall of the part of the tube (2), the branch tube I (5-1) and the branch tube II (5-2) close to the ear can be set to be a fold type tube wall (3) capable of telescopically adjusting the length of the tube.

9. The energy-saving sound correction device according to claim 8, characterized in that: the shell of the fixed shell (11) coated outside the pipe wall (3) capable of telescopically adjusting the length of the pipe can be disconnected, the disconnected shell (12) at one end can be stacked on the outer side of the disconnected shell (13) at the other end, and the stacking area of the disconnected shell (12) at one end and the disconnected shell (13) at the other end can be changed along with the telescopic movement of the pipe wall (3) capable of telescopically adjusting the length of the pipe.

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