阅读说明：本技术 一种增加语音交互装置的产品改造方法 (Product transformation method for adding voice interaction device ) 是由 陈芒 于 2021-08-18 设计创作，主要内容包括：本发明提供了一种增加语音交互装置的产品改造方法,包括：获取麦克风或者喇叭的尺寸数据；根据尺寸数据对麦克风或者喇叭配置固定部件；判断产品壳体是否存在平坦表面,获得判断结果；根据判断结果在平坦表面上按照固定部件的尺寸裁出安装口；将麦克风或者喇叭放入固定部件中并装入安装口位置。本发明提出的一种增加语音交互装置的产品改造方法,无需改变现有产品模具就能在现有产品上增加离线语音别控制功能,并且改造成本低。(The invention provides a product transformation method for adding a voice interaction device, which comprises the following steps: acquiring size data of a microphone or a loudspeaker; configuring a fixing part for the microphone or the loudspeaker according to the size data; judging whether the product shell has a flat surface or not to obtain a judgment result; cutting out a mounting opening on the flat surface according to the size of the fixing part according to the judgment result; the microphone or speaker is placed in the mounting member and into the mounting port location. According to the product transformation method with the voice interaction device, the offline voice recognition control function can be added to the existing product without changing the existing product mold, and the transformation cost is low.)

1. A product modification method for adding a voice interaction device is characterized by comprising the following steps:

acquiring size data of a microphone or a loudspeaker;

configuring a fixing part for the microphone or the loudspeaker according to the size data;

judging whether the product shell has a flat surface or not to obtain a judgment result;

cutting a mounting opening on the flat surface according to the size of the fixing part according to the judgment result;

and placing the microphone or the loudspeaker into the fixing part and placing the microphone or the loudspeaker into the position of the mounting opening.

2. The product converting method according to claim 1, wherein the acquiring of the dimensional data of the microphone or the speaker comprises:

performing image scanning on the microphone or the loudspeaker to obtain a model of the microphone or the loudspeaker, including: respectively emitting light beams to the microphone or the loudspeaker from top to bottom and from bottom to top to obtain a first angle diagram and a second angle diagram; emitting the light beams from the side surface, and simultaneously rotating the microphone or the loudspeaker according to a preset angle to obtain a plurality of third angle graphs; carrying out graph fusion and model construction according to the first angle graph, the second angle graph and the third angle graph to obtain a model of the microphone or the loudspeaker;

measuring the size of the model to obtain the size of the model;

combining the size of the model with a scan-to-scale ratio to obtain dimension data of the microphone or the loudspeaker, wherein the dimension data comprises: the microphone or horn profile data, and the microphone or horn thickness data.

3. The product converting method according to claim 2, wherein the fixing member includes: a fixed tray and a fixed ring; the fixed tray is connected with the fixed ring through an adhesive in an adhesive mode, the fixed ring is fixed in the center of the fixed tray, the size of the fixed tray is larger than that of the fixed ring, and the adhesive is special alloy glue or special plastic glue.

4. The product retrofitting method according to claim 3, wherein the size of the fixing member is adapted to the size of the microphone or the speaker, when the fixing member is configured for the microphone or the speaker based on the size data, the size of the fixing ring is determined according to the size data configuration, a larger data value is determined from the lateral data of the microphone or the speaker and the longitudinal data of the microphone or the speaker, the inner diameter of the fixing ring is determined based on the larger data value, the height of the fixing ring is determined based on the thickness data of the microphone or the speaker, and the size of the fixing ring is obtained from the inner diameter of the fixing ring and the height of the fixing ring.

5. The method of claim 4, wherein the fixing tray has sound pickup holes, and the sound pickup holes are located at corresponding positions of the fixing ring on the fixing tray and are uniformly distributed from the center to the periphery.

6. The product converting method according to claim 1, wherein the judging whether the flat surface exists on the product housing is carried out by detecting, and the detecting includes:

selecting a container with a proper size, and filling a detection substance in the container;

controlling the product to sink the surface of the housing in the container to a predetermined depth into the test substance and monitoring changes in the plane of the test substance within the container;

judging the change of the plane of the detection substance in the container, obtaining judgment reference data according to the shell surface and the preset depth during judgment, wherein when the difference value between the change of the plane of the detection substance in the container and the reference data is within an allowable error range, the judgment result of the shell surface is flat, otherwise, the judgment result of the shell surface is uneven;

and after the judgment result of the shell surface is obtained, the initial state of the container is recovered, and the product is replaced by another shell surface for detection again until all the shell surfaces of the product are detected to obtain the judgment result.

7. A product modification method according to claim 3, wherein when a mounting opening is cut out on the flat surface in accordance with a size of the fixing member based on the determination result, when the product has only one flat surface in the determination result, a mounting opening is cut out on the flat surface; when the product has more than one flat surface in the judgment result, optionally cutting one flat surface into a mounting opening; and when the product does not have a flat surface in the judgment result, acquiring the size of the fixed tray, searching a flat area on the product according to the size of the fixed tray, and cutting an installation opening in the flat area.

8. The method of retrofitting a product according to claim 3, wherein placing said microphone or speaker into said fixture and into said mounting port position comprises:

placing the microphone or the loudspeaker into the fixed part, and carrying out stability test to obtain a test result; when the stability is checked, a check result is obtained by testing whether the microphone or the loudspeaker shakes in the fixed component, when the microphone or the loudspeaker shakes in the fixed component, the check result is unstable, and when the microphone or the loudspeaker does not shake in the fixed component, the check result is stable;

mounting according to the inspection result; when the detection result is unstable, filling a gap between the microphone or the loudspeaker and the fixing part, and then embedding the mounting part into the mounting opening; and when the test result is stable, directly embedding the mounting component into the mounting opening.

9. The method of retrofitting according to claim 8, wherein before inserting said mounting member into said mounting opening, glue is applied to a side of said mounting tray on which said retainer ring is mounted, and after inserting said mounting member into said mounting opening, said mounting tray is brought into full engagement with said flat surface and adhered thereto.

Technical Field

The invention relates to the technical field of product improvement, in particular to a product improvement method with a voice interaction device.

Background

With the maturity of the offline voice recognition control technology, many home appliance manufacturers want to add an offline voice interaction control function to the existing product functions, so as to improve the intelligent degree of the product, and especially improve the user experience of the product. At present, when a voice interaction device is added to a product, a mould needs to be greatly changed, or a set of new mould with a microphone and a loudspeaker structure needs to be re-opened, so that the upgrading and transformation cost of manufacturers is increased, and the normal delivery of traditional products is often influenced. Therefore, the invention provides a product modification method with an additional voice interaction device, which can add an offline voice recognition control function on the existing product without changing the existing product mold, and has low modification cost.

Disclosure of Invention

The present invention is directed to a product modification method with an additional voice interaction device, so as to solve the problems set forth in the above background art.

In order to achieve the purpose, the invention provides the following technical scheme: a product modification method for adding a voice interaction device, comprising:

acquiring size data of a microphone or a loudspeaker;

configuring a fixing part for the microphone or the loudspeaker according to the size data;

judging whether the product shell has a flat surface or not to obtain a judgment result;

cutting a mounting opening on the flat surface according to the size of the fixing part according to the judgment result;

and placing the microphone or the loudspeaker into the fixing part and placing the microphone or the loudspeaker into the position of the mounting opening.

Further, the acquiring size data of the microphone or the loudspeaker comprises:

performing image scanning on the microphone or the loudspeaker to obtain a model of the microphone or the loudspeaker, including: respectively emitting light beams to the microphone or the loudspeaker from top to bottom and from bottom to top to obtain a first angle diagram and a second angle diagram; emitting the light beams from the side surface, and simultaneously rotating the microphone or the loudspeaker according to a preset angle to obtain a plurality of third angle graphs; carrying out graph fusion and model construction according to the first angle graph, the second angle graph and the third angle graph to obtain a model of the microphone or the loudspeaker;

measuring the size of the model to obtain the size of the model;

combining the size of the model with a scan-to-scale ratio to obtain dimension data of the microphone or the loudspeaker, wherein the dimension data comprises: the microphone or horn profile data, and the microphone or horn thickness data.

Further, the fixing member includes: a fixed tray and a fixed ring; the fixed tray is connected with the fixed ring through an adhesive in an adhesive mode, the fixed ring is fixed in the center of the fixed tray, the size of the fixed tray is larger than that of the fixed ring, and the adhesive is special alloy glue or special plastic glue.

Further, the size of the fixing part is matched with the size of the microphone or the loudspeaker, when the fixing part is configured on the microphone or the loudspeaker according to the size data, the size of the fixing ring is determined according to the size data configuration, a larger data value is determined in the transverse data of the microphone or the loudspeaker and the longitudinal data of the microphone or the loudspeaker, the inner diameter of the fixing ring is determined according to the larger data value, the height of the fixing ring is determined according to the thickness data of the microphone or the loudspeaker, and the size of the fixing ring is obtained according to the inner diameter of the fixing ring and the height of the fixing ring.

Furthermore, sound pickup holes are formed in the fixed tray, are located at the corresponding positions of the fixed ring on the fixed tray, and are evenly distributed from the center to the periphery.

Further, the judging whether the flat surface exists on the product shell is carried out by detecting to obtain a judgment result, and the detecting process comprises the following steps:

selecting a container with a proper size, and filling a detection substance in the container;

controlling the product to sink the surface of the housing in the container to a predetermined depth into the test substance and monitoring changes in the plane of the test substance within the container;

judging the change of the plane of the detection substance in the container, obtaining judgment reference data according to the shell surface and the preset depth during judgment, wherein when the difference value between the change of the plane of the detection substance in the container and the reference data is within an allowable error range, the judgment result of the shell surface is flat, otherwise, the judgment result of the shell surface is uneven;

and after the judgment result of the shell surface is obtained, the initial state of the container is recovered, and the product is replaced by another shell surface for detection again until all the shell surfaces of the product are detected to obtain the judgment result.

Further, when a mounting opening is cut out on the flat surface according to the size of the fixing part according to the judgment result, when the product has only one flat surface in the judgment result, the mounting opening is cut out on the flat surface; when the product has more than one flat surface in the judgment result, optionally cutting one flat surface into a mounting opening; and when the product does not have a flat surface in the judgment result, acquiring the size of the fixed tray, searching a flat area on the product according to the size of the fixed tray, and cutting an installation opening in the flat area.

Further, placing the microphone or the speaker into the fixing member and into the mounting port position includes:

placing the microphone or the loudspeaker into the fixed part, and carrying out stability test to obtain a test result; when the stability is checked, a check result is obtained by testing whether the microphone or the loudspeaker shakes in the fixed component, when the microphone or the loudspeaker shakes in the fixed component, the check result is unstable, and when the microphone or the loudspeaker does not shake in the fixed component, the check result is stable;

mounting according to the inspection result; when the detection result is unstable, filling a gap between the microphone or the loudspeaker and the fixing part, and then embedding the mounting part into the mounting opening; and when the test result is stable, directly embedding the mounting component into the mounting opening.

Further, before the installation part is embedded into the installation opening, glue is coated on the side face, where the fixing ring is installed, of the fixing tray, and after the installation part is embedded into the installation opening, the fixing tray is completely attached to the flat surface and is adhered to the flat surface.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic representation of the steps of the product revamping process of the present invention;

FIG. 2 is a schematic diagram of a first step in the product modification method according to the present invention;

FIG. 3 is a schematic view of a fixing member of the product modification method according to the present invention;

fig. 4 is a schematic view of another structure of the fixing member in the product modification method according to the present invention.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

As shown in fig. 1, an embodiment of the present invention provides a product modification method for adding a voice interaction apparatus, including:

step one, acquiring size data of a microphone or a loudspeaker;

secondly, configuring a fixing part for the microphone or the loudspeaker according to the size data;

judging whether the product shell has a flat surface or not to obtain a judgment result;

cutting a mounting opening on the flat surface according to the size of the fixing part according to the judgment result;

and step five, placing the microphone or the loudspeaker into the fixing part and placing the microphone or the loudspeaker into the position of the mounting opening.

When the technical scheme is used for increasing the voice interaction function of the existing product and modifying the product produced by the original mould, firstly, the size data of the microphone or the loudspeaker is obtained to obtain the shell size of the microphone or the loudspeaker, then, a fixing part suitable for the microphone or the loudspeaker is configured according to the size of the shell of the microphone or the loudspeaker, the microphone or the speaker is not oscillated in a fixed position by the fixing member and is also protected, and then, judging the shell of the product, judging whether the shell of the product has a flat surface in all planes, thereby obtaining a judgment result, selecting a flat surface on the product as a mounting surface according to the judgment result, cutting a mounting opening matched with the fixing part on the mounting surface according to the size of the fixing part, and finally, a microphone or a speaker is put into the fixing member and the fixing member is mounted to the mounting port.

Above-mentioned technical scheme only need reform transform the product and just can realize increasing the purpose of voice interaction function, not only simply and realize easily, need not to change the mould greatly moreover, can not influence the normal shipment of traditional product to the cost of reforming transform is still low. In addition, can make microphone or loudspeaker that insert more firm on the product through configuration fixed part, avoid microphone or loudspeaker round trip movement to lead to the pronunciation of collection or the pronunciation sound size and the definition of broadcast unstable, thereby the effect of pronunciation interaction has been improved, and whether the judgement result of judging whether there is flat surface in the product casing is installed not only beautifully on flat surface, but also can avoid fixed part and product linking department to drop, make fixed part and product linking more firm.

As shown in fig. 2, in an embodiment of the present invention, the acquiring size data of the microphone or the speaker includes:

performing image scanning on the microphone or the loudspeaker to obtain a model of the microphone or the loudspeaker, including: respectively emitting light beams to the microphone or the loudspeaker from top to bottom and from bottom to top to obtain a first angle diagram and a second angle diagram; emitting the light beams from the side surface, and simultaneously rotating the microphone or the loudspeaker according to a preset angle to obtain a plurality of third angle graphs; carrying out graph fusion and model construction according to the first angle graph, the second angle graph and the third angle graph to obtain a model of the microphone or the loudspeaker;

measuring the size of the model to obtain the size of the model;

combining the size of the model with a scan-to-scale ratio to obtain dimension data of the microphone or the loudspeaker, wherein the dimension data comprises: the microphone or horn profile data, and the microphone or horn thickness data.

Above-mentioned technical scheme is when obtaining the size data of microphone or loudspeaker, through carrying out image scanning to microphone or loudspeaker, obtains the model of microphone or loudspeaker, at the model in-process that obtains microphone or loudspeaker, realizes image scanning through the emission beam, includes: emitting a light beam to the microphone or the loudspeaker from top to bottom to obtain a first angle chart, and emitting a light beam to the microphone or the loudspeaker from bottom to top to obtain a second angle chart; then, emitting the light beams from the side surface, and simultaneously rotating the microphone or the loudspeaker according to a preset angle to obtain a plurality of third angle graphs; and then, carrying out graph fusion and model construction on the first angle graph, the second angle graph and the third angle graph so as to obtain a model of the microphone or the loudspeaker. After obtaining the model of the microphone or the loudspeaker, obtaining the size of the model in the model through size measurement, and then combining the size of the model with a scanning scaling ratio to obtain the dimension data of the microphone or the loudspeaker, wherein the dimension data comprises: lateral data of the microphone or horn, longitudinal data of the microphone or horn, and thickness data of the microphone or horn.

According to the technical scheme, the microphone or loudspeaker model is obtained through image scanning, and then the size data of the microphone or loudspeaker is obtained, so that the obtained size data of the microphone or loudspeaker is more accurate, troubles and errors caused by manual measurement are reduced, the size data of the microphone or loudspeaker obtained through image scanning and then obtained can also improve the efficiency of obtaining the size data of the microphone or loudspeaker, and the size data of the microphone or loudspeaker can be quickly obtained. In addition, in the process of obtaining the model of the microphone or the loudspeaker through image scanning, the full-automatic omnidirectional information acquisition of the microphone or the loudspeaker can be realized without manually participating in manual operation, so that the efficiency is high, and the accuracy of the model of the microphone or the loudspeaker can be improved.

As shown in fig. 3, in one embodiment of the present invention, the fixing member includes: a fixed tray and a fixed ring; the fixed tray is connected with the fixed ring through an adhesive in an adhesive mode, the fixed ring is fixed in the center of the fixed tray, the size of the fixed tray is larger than that of the fixed ring, and the adhesive is special alloy glue or special plastic glue.

The fixing member in the above technical solution includes: a fixed tray and a fixed ring; the fixing tray is adhered to the fixing ring by an adhesive, the fixing ring is adhered to the central position of the fixing tray by the adhesive, the size of the fixing tray is larger than that of the fixing ring, and in addition, the adhesive is alloy special glue or plastic special glue.

Above-mentioned technical scheme can make fixed tray and retainer plate fixed through the adhesive bonding together with fixed tray and retainer plate bonding, and the adhesive is that special glue of alloy or the special glue of plastic can make fixed tray and retainer plate adhesive more firm, the size through fixed tray is big than the size of retainer plate, and the retainer plate is the central point who glues at fixed tray through the adhesive, can make can be installed the fixed part on the product and produce sufficient area of contact between the product, thereby make the fixed part can stably fix to the product, avoid the fixed part to drop.

In an embodiment of the present invention, the size of the fixing member is adapted to the size of the microphone or the speaker, when the fixing member is configured for the microphone or the speaker according to the size data, the size of the fixing ring is determined according to the size data configuration, a larger data value is determined from the lateral data of the microphone or the speaker and the longitudinal data of the microphone or the speaker, the inner diameter of the fixing ring is determined according to the larger data value, the height of the fixing ring is determined according to the thickness data of the microphone or the speaker, and the size of the fixing ring is obtained from the inner diameter of the fixing ring and the height of the fixing ring.

The fixing part in the technical scheme is matched with the microphone or the loudspeaker, and the fixing ring in the fixing part is slightly larger than the microphone or the loudspeaker. When a fixing part is configured for the microphone or the loudspeaker according to the size data, the size of the fixing ring is determined according to the configuration of the size data of the microphone or the loudspeaker, the data with larger values are determined in the transverse data of the microphone or the loudspeaker and the longitudinal data of the microphone or the loudspeaker, the inner diameter of the fixing ring is determined according to the larger data value in the transverse data of the microphone or the loudspeaker and the longitudinal data of the microphone or the loudspeaker, meanwhile, the height of the fixing ring is determined according to the thickness data of the microphone or the loudspeaker, and the size of the fixing ring is obtained according to the inner diameter of the fixing ring and the height of the fixing ring.

According to the technical scheme, the microphone or the loudspeaker can stably exist in the fixing part through the matching of the fixing part and the microphone or the loudspeaker, the phenomenon that sound collection is unstable or sound playing is discontinuous due to shaking is avoided, the quality of voice interaction is improved, in addition, when the fixing part is configured for the microphone or the loudspeaker according to size data, the height of the fixing ring is determined according to the thickness data of the microphone or the loudspeaker, so that the microphone or the loudspeaker cannot shake up and down in the fixing part, meanwhile, the inner diameter of the fixing ring is determined according to the large data value in the transverse data of the microphone or the loudspeaker and the longitudinal data of the microphone or the loudspeaker, so that the microphone or the loudspeaker cannot shake left and right in the fixing part, the stability of the voice interaction device added to a product is ensured, and in the voice interaction process, the phenomenon of discontinuity or the phenomenon of overlooking cannot occur no matter sound collection or sound playing, the quality of voice interaction is improved.

As shown in fig. 4, in an embodiment of the present invention, sound pickup holes are formed on the fixing tray, and the sound pickup holes are located at corresponding positions of the fixing ring on the fixing tray and are uniformly distributed from the center to the periphery.

According to the technical scheme, the sound pickup holes are formed in the fixed tray, the sound pickup holes are just corresponding to the positions of the fixed rings, and uniform analysis is performed from the center to the periphery.

Above-mentioned technical scheme can make the voice interaction device who increases can gather sound and play sound more clearly more accurately through seting up the sound collecting hole on fixed tray to better realization voice interaction. Moreover, the pickup holes are positioned at the corresponding positions of the fixed rings on the fixed tray, so that interaction with a microphone or a loudspeaker can be more directly carried out, and weakening of voice signals in the interaction process is reduced.

In an embodiment of the present invention, the determining whether the product housing has the flat surface is performed by detecting, and the detecting includes:

selecting a container with a proper size, and filling a detection substance in the container;

controlling the product to sink the surface of the housing in the container to a predetermined depth into the test substance and monitoring changes in the plane of the test substance within the container;

judging the change of the plane of the detection substance in the container, obtaining judgment reference data according to the shell surface and the preset depth during judgment, wherein when the difference value between the change of the plane of the detection substance in the container and the reference data is within an allowable error range, the judgment result of the shell surface is flat, otherwise, the judgment result of the shell surface is uneven;

and after the judgment result of the shell surface is obtained, the initial state of the container is recovered, and the product is replaced by another shell surface for detection again until all the shell surfaces of the product are detected to obtain the judgment result.

According to the technical scheme, when the surface of a product is judged to have a flat shell, a judgment result is obtained by a detection method, and when the product is detected, firstly, a container with a proper size is selected and a detection substance is contained in the container; wherein, the container is selected from a container with regular shape and scale, and the detection substance is fixed or liquid in a proper small particle state; then, putting the product into a container, monitoring the change of the plane height of the detected substance in the container to obtain monitoring data, judging the monitoring data, when judging the monitoring data, firstly obtaining judgment reference data according to the surface of the shell and the preset depth, comparing and judging the reference data with the monitoring data, if the difference value between the change of the plane of the detected substance in the container and the reference data is within an allowable error range, judging the result of the surface of the shell to be flat, and if the difference value between the change of the plane of the detected substance in the container and the reference data is not within the allowable error range, judging the result of the surface of the shell to be uneven; and repeating the process of obtaining the judgment result of the shell surface on the shell surface of the product in sequence until all the shell surfaces obtain the corresponding judgment result of the shell surface, so that the judgment on whether the shell with the flat surface exists in the product can be finished.

According to the method for detecting the surface of the product, whether the judgment result of the surface of the product has the flat shell or not can be obtained, and automatic detection can be realized by automatically controlling the product to switch the surface of the shell, so that the efficiency of the detection process is improved, and whether the judgment result of the surface of the product has the flat shell or not can be quickly obtained. And the detection is carried out by filling the detection substance in the container, so that the detection is convenient, the cost consumption is low, and the monitoring result is easy to monitor to obtain monitoring data.

In one embodiment of the present invention, when the flat surface is cut out with a mounting opening according to the size of the fixing member according to the determination result, when the product has only one flat surface in the determination result, the mounting opening is cut out on the flat surface; when the product has more than one flat surface in the judgment result, optionally cutting one flat surface into a mounting opening; and when the product does not have a flat surface in the judgment result, acquiring the size of the fixed tray, searching a flat area on the product according to the size of the fixed tray, and cutting an installation opening in the flat area.

According to the technical scheme, when the mounting port is cut on the flat surface according to the size of the fixing part according to the judgment result, if the product has only one flat surface in the judgment result, the mounting port is cut on the flat surface; if the product has more than one flat surface in the judgment result, randomly selecting one flat surface to cut out the mounting hole; but when the product does not have a flat surface in the judgment result, the size of the fixed tray is further obtained, then a flat area corresponding to the size of the fixed tray is searched for on the product according to the size of the fixed tray, and a mounting opening is cut in the flat area.

Above-mentioned technical scheme selects a flat surface to reform transform or reform transform on a flat region on the product, not only can make the product after reforming transform increase the voice interaction device, facilitates the use, installs moreover on flat plane or flat region and can make between fixed part and the product more press close to for it is more firm to fix, but also pleasing to the eye.

In one embodiment of the present invention, the placing of the microphone or the speaker into the fixing member and into the mounting hole includes:

placing the microphone or the loudspeaker into the fixed part, and carrying out stability test to obtain a test result; when the stability is checked, a check result is obtained by testing whether the microphone or the loudspeaker shakes in the fixed component, when the microphone or the loudspeaker shakes in the fixed component, the check result is unstable, and when the microphone or the loudspeaker does not shake in the fixed component, the check result is stable;

mounting according to the inspection result; when the detection result is unstable, filling a gap between the microphone or the loudspeaker and the fixing part, and then embedding the mounting part into the mounting opening; and when the test result is stable, directly embedding the mounting component into the mounting opening.

Above-mentioned technical scheme is putting into fixed part with microphone or loudspeaker and when packing into the installing port position, at first, put into fixed part with microphone or loudspeaker, then, carry out stability inspection to fixed part, when carrying out stability inspection, rock fixed part, observe microphone or loudspeaker and can rock along with fixed part together, if microphone or loudspeaker can rock in fixed part, the testing result is unstable, if microphone or loudspeaker can not rock in fixed part, the testing result is stable, install according to the judged result at last, when the testing result is unstable, carry out gap filling back between microphone or loudspeaker and fixed part and imbed the installing port to the installing component, when the testing result is stable, directly imbed the installing port to the installing component.

Above-mentioned technical scheme makes can make microphone or loudspeaker exist stably in the product after fixed part embedding installing port through stability inspection to make the voice signal that can make the collection stable or the pronunciation of output stable when carrying out the pronunciation interaction, thereby improve the interactive quality of pronunciation.

In one embodiment of the present invention, before the installation component is inserted into the installation opening, glue is applied to the side of the fixing tray where the fixing ring is installed, and after the installation component is inserted into the installation opening, the fixing tray is completely attached to the flat surface and is adhered to the flat surface.

According to the technical scheme, before the installation part is embedded into the installation opening, glue is smeared on the side face of the fixed tray installation fixing ring, and the fixed tray is completely attached to the flat surface and is adhered together after the installation part is embedded into the installation opening.

Above-mentioned technical scheme coats glue before installation component embedding installing port and can make directly gluing together when installing the installation component installing port, and not only the installation effectiveness is high, and glue can also make between installation component and the product laminating inseparabler moreover, avoids droing.

It will be understood by those skilled in the art that the first and second embodiments of the present invention are merely directed to different stages of application.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It will be understood that the present disclosure is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.