CN117809445A - Bluetooth voice testing device - Google Patents

Abstract

The invention discloses a Bluetooth voice testing device, which relates to the technical field of testing devices and comprises a device body, a first linear motion piece, a box cover and a detection assembly, and further comprises: the bearing groove is formed on the device body; the pressurizing mechanism is arranged on the device body and comprises a cylinder body, a rotary pipe, a mounting plate and a spray head; the damping mechanism is arranged on the device body and comprises a piston plate, a limiting chute, a spray nozzle, a second valve and a third valve; the electric heating resistance wire is arranged on the inner side of the box cover and used for adjusting the temperature in the first cavity; the positioning assembly is arranged on the device body and comprises a pressing column and a push plate; the pressing mechanism is arranged on the device body and comprises a plate body, a second linear motion piece and a pressing plate; the regulation and control system is used for regulating and controlling the test environment of the Bluetooth voice device; the invention can detect the working capacity of the voice key of the blue voice device in a complex environment.

Description

Bluetooth voice testing device

Technical Field

The invention belongs to the technical field of testing devices, and particularly relates to a Bluetooth voice testing device.

Background

At present, facilities in many fields are equipped with Bluetooth voice remote controllers, and control can be formed on corresponding terminals only by speaking commands to the Bluetooth voice remote controllers.

When the Bluetooth voice device leaves the factory, the Bluetooth voice device needs to be subjected to voice key testing, a first code value is formed by pressing a voice key, the Bluetooth receiving terminal receives the first code value and sends a playing voice signal to the control device, the control device sends a control signal to control the loudspeaker to send a voice signal through the filter, the Bluetooth voice remote controller sends the received voice signal to the Bluetooth receiving terminal through Bluetooth, the Bluetooth receiving terminal sends the received voice signal to the control device for comparison, the voice signals are identical, and the keys are correct, so that the Bluetooth voice automatic testing device is provided by Chinese patent with publication number CN 208873282U.

Because the humidity and the temperature of the working environment of the Bluetooth voice device and the air pressure of the environment can also influence the functions of the Bluetooth voice keys, the mode can test the functions of the Bluetooth voice keys, but lacks the simulation of the corresponding environment.

A Bluetooth voice testing device capable of performing analog detection on a Bluetooth voice device in a complex environment is provided.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a Bluetooth voice testing device, which solves the problems.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a bluetooth voice test device, includes device body, first linear motion spare, lid and detection component, lid fixed connection is at first linear motion spare output, first linear motion spare other end fixed connection is on the device body, the device body link up with external environment through installing above that fourth valve member, the lid closes and can surround with the device body on the device body and form first cavity, still includes:

the bearing groove is formed on the device body;

the pressure applying mechanism is arranged on the device body and comprises a cylinder body, a rotary pipe, a mounting plate and a spray head;

the damping mechanism is arranged on the device body and comprises a piston plate, a limiting chute, a spray nozzle, a second valve and a third valve;

the electric heating resistance wire is arranged on the inner side of the box cover;

the positioning assembly is arranged on the device body and comprises a pressing column and a push plate;

the pressing mechanism is arranged on the device body and comprises a plate body, a second linear motion piece and a pressing plate;

the regulation and control system is used for carrying out regulation and control processing on the test environment of the Bluetooth voice device, and the regulation and control system comprises:

the monitoring module is used for monitoring and acquiring the information of the pressure, the humidity and the temperature in the first cavity;

the storage module is used for storing the data information acquired by the monitoring module and establishing a data set;

the processing module is used for retrieving the pressure information, the temperature information and the humidity information in the first cavity at the current moment in the storage module and forming judgment information;

the control module is used for receiving the judgment information and controlling the pressurizing mechanism, the damping mechanism, the electric heating wire and the fourth valve element according to the judgment information;

the alarm module is used for carrying out alarm processing according to the judgment information formed by the processing module;

wherein the processing module comprises:

the threshold unit is used for retrieving temperature information, pressure information and humidity information in the first cavity at the current moment in the storage module, correspondingly comparing the temperature information, the pressure information and the humidity information with preset humidity threshold values, pressure threshold values and temperature threshold values, and forming judgment information if at least one of the temperature information, the pressure information and the humidity information exceeds the corresponding threshold values; and

and the analysis unit is used for retrieving the temperature information, the pressure information and the humidity information in the first cavity at the current moment in the storage module to form a temperature predicted value, a pressure predicted value and a humidity predicted value, correspondingly comparing the formed three predicted values with a preset humidity threshold value, a preset pressure threshold value and a preset temperature threshold value, forming judgment information if at least one of the three predicted values exceeds the corresponding threshold value, correlating the temperature predicted value, the pressure predicted value and the humidity predicted value to form a correlation value, comparing the formed correlation value with a preset correlation value threshold value, and forming judgment information if the correlation value exceeds the correlation value threshold value.

Based on the technical scheme, the invention also provides the following optional technical schemes:

the technical scheme is as follows: the specific processing mode of the analysis unit is as follows:

s1, acquiring temperature information at the current moment, pressure information at the current moment and humidity information at the current moment in a data set in a storage module, and recording asT ₁ 、T ₂ 、...、T _i-1 ，P ₁ 、P ₂ 、...、P _i-1 ，R ₁ 、R ₂ 、...、R _i-1 ；

S2, predicting temperature information at the next moment, pressure information at the next moment and humidity information at the next moment in a linear regression mode, and obtaining corresponding predicted valuesT _i ，P _i ，R _i And willT _i ，P _i ，R _i Corresponding comparison is carried out between the temperature threshold value, the pressure threshold value and the humidity threshold value, and if at least one of the temperature threshold value, the pressure threshold value and the humidity threshold value exceeds the corresponding threshold value, judgment information is formed;

s3, based on the predicted value, estimating thattThe time, that is, the temperature at the next time, the pressure at the next time, and the associated value of the humidity at the next time are calculated as follows:

；

wherein,the item is the number of items, < >>To at the same timetTime, i.e. the temperature at the next time, < ->To at the same timetMoment, i.e. the pressure at the next moment, < ->To at the same timetThe time, namely the humidity of the next time;

s4, comparing the obtained association value with a preset association value threshold value, and forming judgment information if the predicted value is larger than the preset threshold value;

s5, transmitting the formed judgment information to a control module for control of a related module.

The technical scheme is as follows: the pressure applying mechanism comprises a cylinder body, two rotating pipes, mounting plates and spray heads, wherein the cylinder body is symmetrically and fixedly connected to the device body, the mounting plates are symmetrically and threadedly connected to the device body, the rotating pipes which are symmetrically arranged are rotationally connected with the device body, the ends of the rotating pipes are correspondingly and rotationally connected to the two mounting plates, and the spray heads are embedded and mounted in one end, close to the mounting plates, of the mounting plates, and first valve members are mounted in the mounting plates, close to the ends of the mounting plates.

The technical scheme is as follows: the monitoring module includes:

the pressure monitoring unit is arranged in the device body and used for monitoring and acquiring pressure information in the first cavity and is a gas pressure sensor;

the humidity monitoring unit is arranged in the device body and used for monitoring and acquiring humidity information in the first cavity and is a humidity sensor;

and the temperature monitoring unit is arranged in the device body and used for monitoring and acquiring temperature information in the first cavity and is a temperature sensor.

The technical scheme is as follows: the two barrel symmetry fixed connection is on the device body, two mounting panel symmetry threaded connection is on the device body, and the commentaries on classics pipe that two symmetries set up is all rotated with the device body and is connected, two the commentaries on classics pipe tip corresponds to rotate and connects on two mounting panels, the shower nozzle embedding is installed in the one end that is close to the mounting panel and is close to the mounting panel of this tip in install first valve member.

The technical scheme is as follows: the piston plate and the limit sliding chute arranged on the cylinder body slide in a limiting mode, a pushing column which is in sliding fit with the spiral groove arranged on the rotary tube is fixedly connected to the piston plate, the space inside the piston plate is divided into a second cavity and a third cavity by the piston plate, the rotary tube is communicated with the second cavity through a second valve element arranged on the rotary tube, the third cavity is communicated with the first cavity through a third valve element arranged on the mounting plate, liquid is filled in the third cavity, the spray nozzle is embedded and arranged on the mounting plate, and a plurality of spray nozzles are distributed on the mounting plate in an annular uniform distribution mode and surround the rotary tube.

The technical scheme is as follows: the pressing column is fixedly connected to the pushing plate, the pressing column and the pushing plate are in sliding fit with the device body, and the pushing plate is in transmission connection with the rotary tube through the transmission assembly.

The technical scheme is as follows: the transmission assembly comprises a screw rod, a rotary table, a rubber cylinder and a transmission pair, wherein the screw rod is rotationally connected to the device body, the rubber cylinder is sleeved and fixedly connected to the rotary table, the rubber cylinder is rotationally connected to the push plate in a damping manner, the rotary table is in threaded connection with the screw rod, and the screw rod is in transmission connection with the rotary pipe through the transmission pair.

The technical scheme is as follows: the plate body is arranged in the first cavity, the axis of the plate body is overlapped with the central axis of the bearing groove in the horizontal direction, the second linear motion piece is fixedly connected to the plate body, and the pressing plate is positioned right above the voice key of the Bluetooth voice device and fixedly connected with the output end of the second linear motion piece.

The technical scheme is as follows: the detection assembly comprises a Bluetooth receiving terminal, a controller, a loudspeaker and a filter, wherein the Bluetooth receiving terminal, the loudspeaker and the filter which are positioned in the first cavity are all arranged on the device body and close to one side of the fourth valve element, and the controller is arranged on the outer side of the device body.

The invention provides a Bluetooth voice testing device, which has the following beneficial effects compared with the prior art:

1. in the invention, a related technician places a Bluetooth voice device in a bearing groove, at the moment, covers a box cover on a device body to enable the box cover and the device body to form a first cavity, at the moment, pre-heated high-pressure gas is injected into the first cavity through a rotary pipe, at the moment, a part of the pre-heated high-pressure gas enters a second cavity through a second valve element, the other part of the pre-heated high-pressure gas is sprayed into the first cavity through a spray head arranged at the end part of the rotary pipe, at the moment, the high-pressure gas continuously entering the second cavity pushes a piston plate to linearly move along the length direction of the rotary pipe, the piston plate extrudes liquid in a third cavity and sprays the liquid into the first cavity through a spray head, at the moment, two high-pressure gases sprayed out of the spray head carry mist sprayed from the spray head collide in the first cavity to form turbulence, so as to enable the gas and the liquid to be fully mixed and be rapidly distributed in the first cavity, at the same time, the electric thermal resistance wire is used for rapidly heating the gas and treating the gas and liquid mixture through a common principle, the internal environment of the first cavity is regulated, and at the same time, the pressing mechanism is used for pressing a voice key of the Bluetooth voice device to perform linear motion along the length direction of the rotary pipe, and the voice key of the Bluetooth device, so that the voice key detection device can be matched with the voice key detection function under the working condition;

2. according to the invention, the pushing column fixedly connected to the piston plate slides along the spiral groove formed on the rotary tube, namely the pushing column is caused to extrude the inner wall of the spiral groove, so that the rotary tube rotates horizontally, the rotary tube drives the screw rod to synchronously rotate horizontally through the transmission auxiliary, at the moment, the screw rod drives the push plate to synchronously linearly move horizontally through the rotary disc which is in threaded connection with the screw rod and fixedly connected with the rubber cylinder, at the moment, the push plate pushes the pressing column to synchronously linearly move, the two pressing columns move in opposite directions in the horizontal direction, the Bluetooth voice device is pressed and positioned, and when the pressing force of the pressing column to the Bluetooth voice device is greater than or equal to the friction force between the rubber cylinder and the push plate, the screw rod drives the rotary disc to rotate horizontally relative to the push plate, namely the pressing column does not linearly move horizontally any more, and the Bluetooth voice device is positioned;

3. the monitoring module monitors and acquires the pressure, humidity and temperature information in the first cavity, transmits the pressure, humidity and temperature information to the storage module for storage and establishes a data set, the threshold unit invokes the temperature information, the pressure information and the humidity information in the first cavity at the current moment in the storage module, correspondingly compares the three with a preset humidity threshold, a preset pressure threshold and a preset temperature threshold, forms judgment information if at least one of the three exceeds the corresponding threshold, the analysis unit invokes the temperature information, the pressure information and the humidity information in the first cavity at the current moment in the storage module to form a temperature predicted value, a pressure predicted value and a humidity predicted value, correspondingly compares the formed three predicted values with the preset humidity threshold, the preset pressure threshold and the preset temperature threshold, if at least one of the values exceeds the corresponding threshold value, judging information is formed, the temperature predicted value, the pressure predicted value and the humidity predicted value are correlated to form a correlated value, the formed correlated value is compared with a preset correlated value threshold value, if the correlated value exceeds the correlated value threshold value, judging information is formed, the control module receives the judging information and controls the first valve element, the second valve element, the electric heating wire and the fourth valve element according to the judging information, so that the temperature, the pressure and the humidity in the first cavity are regulated and controlled, and the humidity, the temperature and the gas pressure in the first cavity are enabled to reach preset ranges rapidly, so that Bluetooth voice equipment is detected.

Drawings

FIG. 1 is a schematic three-dimensional structure of the present invention.

Fig. 2 is a schematic diagram of the overall structure of the present invention.

FIG. 3 is an enlarged schematic view of the structure of the portion A in FIG. 2 according to the present invention.

Fig. 4 is an enlarged schematic view of the B-section structure of fig. 2 according to the present invention.

Fig. 5 is a schematic structural view of a positioning assembly and a transmission assembly according to the present invention.

FIG. 6 is a schematic diagram of a detecting component according to the present invention.

FIG. 7 is a schematic diagram of a control system according to the present invention.

Reference numerals annotate: 1. a device body; 2. a carrying groove; 3. a first linear motion member; 4. a box cover; 5. a pressing mechanism; 501. a cylinder; 502. a rotary pipe; 503. a mounting plate; 504. a first valve member; 6. a damping mechanism; 601. a piston plate; 602. limiting sliding grooves; 603. a spray nozzle; 604. a second valve member; 605. a third valve member; 7. a pressing mechanism; 701. a plate body; 702. a second linear motion member; 703. pressing the plate; 8. a positioning assembly; 801. a pressing column; 802. a push plate; 9. a fourth valve member; 10. an electric thermal resistance wire; 11. a detection assembly; 1101. a Bluetooth receiving terminal; 1102. a controller; 1103. a speaker; 1104. a filter; 12. a regulation system; 1201. a monitoring module; 12011. a pressure monitoring unit; 12012. a humidity monitoring unit; 12013. a temperature monitoring unit; 1202. a storage module; 1203. a processing module; 12031. a threshold unit; 12032. an analysis unit; 1204. a control module; 1205. a warning module; 13. a transmission assembly; 1301. a screw rod; 1302. a turntable; 1303. a rubber cylinder; 1304. and a transmission pair.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

Referring to fig. 1 to 7, for a bluetooth voice testing device according to an embodiment of the present invention, the bluetooth voice testing device includes a device body 1, a first linear motion member 3, a box cover 4, and a detection assembly 11, wherein the box cover 4 is fixedly connected to an output end of the first linear motion member 3, the other end of the first linear motion member 3 is fixedly connected to the device body 1, the device body 1 is communicated with an external environment through a fourth valve member 9 installed thereon, and the box cover 4 is covered on the device body 1 and can form a first cavity with the device body 1 in a surrounding manner, and the bluetooth voice testing device further includes:

the bearing groove 2 is formed in the device body 1 and is used for placing devices;

a pressing mechanism 5 mounted on the apparatus body 1 for changing the pressure in a first chamber (not shown);

a humidity control mechanism 6 mounted on the apparatus body 1 for changing the humidity in the first chamber;

the electric heating resistance wire 10 is arranged on the inner side of the box cover 4 and used for adjusting the temperature in the first cavity;

the positioning component 8 is arranged on the device body 1 and is used for positioning the Bluetooth voice device;

the pressing mechanism 7 is arranged on the device body 1 and is used for pressing a voice key of the Bluetooth voice device; and

the regulation and control system 12 is used for carrying out regulation and control treatment on the test environment of the Bluetooth voice device;

referring to fig. 1 to 3, the pressurizing mechanism 5 includes a cylinder 501, a rotating pipe 502, a mounting plate 503 and a nozzle (not shown), wherein the two cylinders 501 are symmetrically and fixedly connected to the device body 1, the two mounting plates 503 are symmetrically and threadedly connected to the device body 1, the two symmetrically arranged rotating pipes 502 are rotatably connected to the device body 1, the ends of the two rotating pipes 502 are correspondingly rotatably connected to the two mounting plates 503, and the nozzle is embedded in one end of the mounting plate 503 and is provided with a first valve member 504 in the mounting plate 503 near the end;

referring to fig. 1 to 3, the damping mechanism 6 includes a piston plate 601, a limit chute 602, a spray nozzle 603, a second valve 604, and a third valve 605, where the piston plate 601 slides with the limit chute 602 formed on the cylinder 501 in a limit manner, a pushing column (not shown) slidably engaged with a spiral groove (not shown) formed on the rotary tube 502 is fixedly connected to the piston plate 601, the space inside the piston plate 601 is divided into a second cavity (not shown) and a third cavity (not shown) by the piston plate 601, the rotary tube 502 is communicated with the second cavity through a second valve 604 mounted on the rotary tube 502, the third cavity is communicated with the first cavity through a third valve 605 mounted on the mounting plate 503, the third cavity is filled with liquid, the spray nozzle 603 is mounted on the mounting plate 503, and a plurality of mounting plates 503 are uniformly distributed on the mounting plate 503 in a ring shape and surround the rotary tube 502;

referring to fig. 2 and 6, the detecting assembly 11 includes a bluetooth receiving terminal 1101, a controller 1102, a speaker 1103 and a filter 1104, wherein the bluetooth receiving terminal 1101, the speaker 1103 and the filter 1104 in the first cavity are all mounted on the device body 1 and close to the fourth valve member 9, and the controller 1102 is mounted on the outside of the device body 1;

referring to fig. 1, 2, 3 and 5, the positioning assembly 8 includes a pressing column 801 and a pushing plate 802, the pressing column 801 is fixedly connected to the pushing plate 802, the pressing column 801 and the pushing plate 802 are slidably matched with the device body 1, the pushing plate 802 is in transmission connection with the rotating tube 502 through a transmission assembly 13, the transmission assembly 13 includes a screw 1301, a turntable 1302, a rubber cylinder 1303 and a transmission pair 1304, the screw 1301 is rotatably connected to the device body 1, the rubber cylinder 1303 is sleeved and fixedly connected to the turntable 1302, the rubber cylinder 1303 is in damping rotation connection to the pushing plate 802, the turntable 1302 is in threaded connection with the screw 1301, and the screw 1301 is in transmission connection with the rotating tube 502 through the transmission pair 1304. The rotating tube 502 rotating in the horizontal direction drives the screw rod 1301 to synchronously rotate in the horizontal direction through the transmission pair 1304, at this moment, the screw rod 1301 drives the push plate 802 to linearly move in the horizontal direction through the rotary disc 1302 which is in threaded connection with the screw rod 1301 and fixedly connected with the rubber tube 1303, at this moment, the push plate 802 pushes the pressing columns 801 to synchronously linearly move, the two pressing columns 801 move in opposite directions in the horizontal direction to perform pressing positioning on the Bluetooth voice device, and when the pressing force of the pressing columns 801 on the Bluetooth voice device is greater than or equal to the friction force between the rubber tube 1303 and the push plate 802, the screw rod 1301 drives the rotary disc 1302 to rotate in the horizontal direction relative to the push plate 802, namely, the pressing columns 801 do not linearly move in the horizontal direction any more, and the technical effect of positioning processing on the Bluetooth voice device is achieved.

In the embodiment of the invention, a related technician places a Bluetooth voice device in the bearing groove 2, at the moment, the box cover 4 covers the device body 1 to enable the box cover 4 and the device body 1 to form a first cavity, at the moment, preheated high-pressure gas is injected into the first cavity through the rotary pipe 502, at the moment, a part of the preheated high-pressure gas enters the second cavity through the second valve 604, and the other part of the preheated high-pressure gas is injected into the first cavity through the spray nozzle arranged at the end part of the rotary pipe 502, at the moment, the high-pressure gas continuously entering the second cavity pushes the piston plate 601 to linearly move along the length direction of the rotary pipe 502, the piston plate 601 presses liquid in the third cavity and sprays the liquid into the first cavity through the spray nozzle 603, at the moment, the two high-pressure gases sprayed out of the spray nozzle in opposite directions collide with each other in the first cavity to form turbulence, the gas and liquid are fully mixed and rapidly distributed in the first cavity, meanwhile, the electric heating wires 10 rapidly heat the gas-liquid mixture through the principle of common thermal mass, meanwhile, a pushing column fixedly connected to the piston plate 601 slides along a spiral groove formed on the rotary tube 502, namely, the pushing column is pushed to extrude the inner wall of the spiral groove, so that the rotary tube 502 performs rotary motion in the horizontal direction, at the moment, the rotary tube 502 drives the positioning assembly 8 to perform positioning treatment on the voice Bluetooth device through the transmission assembly 13 arranged on the device body 1, at the moment, the pressing assembly is started to press a voice key of the Bluetooth voice device, the voice key sends out a first code value, the Bluetooth receiving terminal 1101 receives the first code value and sends a start-to-play voice signal to the controller 1102, the controller 1102 sends out a control signal to control the loudspeaker 1103 to send a voice signal through the filter 1104, the Bluetooth voice device receives the voice signal, and send to bluetooth receiving terminal 1101 through bluetooth, send the speech signal who receives to the controller 1102 by bluetooth receiving terminal 1101 and compare, speech signal is the same, then bluetooth voice device's pronunciation button is correct and can work normally under this kind of condition.

Referring to fig. 1, 2 and 4, as an embodiment of the invention, the pressing mechanism 7 includes a plate 701, a second linear moving member 702 and a pressing plate 703, wherein the plate 701 is disposed in the first cavity, and the axis of the plate is coincident with the central axis of the carrying groove 2 in the horizontal direction, the second linear moving member 702 is fixedly connected to the plate 701, and the pressing plate 703 is located directly above the voice key of the bluetooth voice device and is fixedly connected to the output end of the second linear moving member 702.

In the embodiment of the present invention, the second linear motion member 702 achieves the technical effect of pressing the voice key of the bluetooth voice device by pushing the pressing plate 703 to perform linear motion in the vertical direction.

Referring to fig. 1, 2, 4 and 7, as an embodiment of the present invention, the regulation system 12 includes:

the monitoring module 1201 is configured to monitor and acquire information of pressure, humidity and temperature in the first cavity;

a storage module 1202, configured to store the data information acquired by the monitoring module 1201 and establish a data set;

the processing module 1203 is configured to retrieve pressure information, temperature information, and humidity information in the first cavity at the current time in the storage module 1202, and form judgment information;

the control module 1204 is configured to receive the judgment information and control the pressurizing mechanism 5, the damping mechanism 6, the electrothermal wire 10 and the fourth valve 9 according to the judgment information;

the alarm module is used for carrying out alarm processing according to the judgment information formed by the processing module 1203;

wherein, the monitoring module 1201 includes:

the pressure monitoring unit is arranged in the device body 1 and is used for monitoring and acquiring pressure information in the first cavity and is a gas pressure sensor;

the humidity monitoring unit 12012 is installed in the device body 1, and is used for monitoring and acquiring humidity information in the first cavity, and is a humidity sensor;

a temperature monitoring unit 12013, installed in the device body 1, for monitoring and acquiring temperature information in the first cavity, and being a temperature sensor;

wherein, the processing module 1203 includes:

a threshold unit 12031, configured to retrieve temperature information, pressure information, and humidity information in the first cavity at the current time in the storage module 1202, and correspondingly compare the three with a preset humidity threshold, pressure threshold, and temperature threshold, and if at least one of the three exceeds the corresponding threshold, form judgment information; and

the analysis unit 12032 is configured to retrieve temperature information, pressure information, and humidity information in the first cavity at the current time in the storage module 1202 to form a temperature predicted value, a pressure predicted value, and a humidity predicted value, correspondingly compare the formed three predicted values with a preset humidity threshold, a preset pressure threshold, and a preset temperature threshold, and if at least one of the three predicted values exceeds the corresponding threshold, form judgment information, correlate the temperature predicted value, the pressure predicted value, and the humidity predicted value to form a correlation value, and compare the formed correlation value with a preset correlation value threshold, and if the correlation value exceeds the correlation value threshold, form judgment information;

the specific processing manner of the analysis unit 12032 is:

s1, acquiring temperature information at the current moment, pressure information at the current moment and humidity information at the current moment in a data set in the storage module 1202, and recording asT ₁ 、T ₂ 、...、T _i-1 ，P ₁ 、P ₂ 、...、P _i-1 ，R ₁ 、R ₂ 、...、R _i-1 ；

S2, predicting temperature information at the next moment, pressure information at the next moment and humidity information at the next moment in a linear regression mode, and obtaining corresponding predicted valuesT _i ，P _i ，R _i And willT _i ，P _i ，R _i Corresponding comparison is carried out between the temperature threshold value, the pressure threshold value and the humidity threshold value, and if at least one of the temperature threshold value, the pressure threshold value and the humidity threshold value exceeds the corresponding threshold value, judgment information is formed;

s3, based on the predicted value, estimating thattThe time, that is, the temperature at the next time, the pressure at the next time, and the associated value of the humidity at the next time are calculated as follows:

；

wherein,the item is the number of items, < >>To at the same timetTime, i.e. the temperature at the next time, < ->To at the same timetMoment, i.e. the pressure at the next moment, < ->To at the same timetThe time, namely the humidity of the next time;

s4, comparing the obtained association value with a preset association value threshold value, and forming judgment information if the predicted value is larger than the preset threshold value;

and S5, transmitting the formed judgment information to the control module 1204 for control of the related modules.

In the embodiment of the present invention, the monitoring module 1201 monitors and acquires the pressure, humidity and temperature information in the first cavity, and transmits the pressure, humidity and temperature information to the storage module 1202 for storage and data set establishment, the threshold unit 12031 invokes the temperature information, pressure information and humidity information in the first cavity at the current time in the storage module 1202, compares the three with a preset humidity threshold, pressure threshold and temperature threshold, forms judgment information if at least one of the three exceeds the corresponding threshold, and the analysis unit 12032 invokes the temperature information, pressure information and humidity information in the first cavity at the current time in the storage module 1202 to form a temperature predicted value, a pressure predicted value and a humidity predicted value, and correspondingly comparing the formed three predicted values with a preset humidity threshold value, a preset pressure threshold value and a preset temperature threshold value, if at least one of the three predicted values exceeds the corresponding threshold value, forming judgment information, correlating the temperature predicted value, the preset pressure predicted value and the preset humidity predicted value to form correlation values, comparing the formed correlation values with the preset correlation value threshold value, and if the correlation values exceed the correlation value threshold value, forming judgment information, receiving the judgment information by the control module 1204 and controlling the first valve member 504, the second valve member 604, the electrothermal wire 10 and the fourth valve member 9 according to the judgment information, so as to realize regulation and control of the temperature, the pressure and the humidity in the first cavity, and promote the humidity, the temperature and the gas pressure in the first cavity to quickly reach a preset range, so as to detect Bluetooth voice equipment.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a bluetooth voice test device, includes device body (1), first linear motion spare (3), lid (4) and detection component (11), lid (4) fixed connection is in first linear motion spare (3) output, first linear motion spare (3) other end fixed connection is on device body (1), device body (1) link up with external environment through fourth valve member (9) of installing above that, a serial communication port, lid (4) lid can form first cavity with device body (1) surrounding on device body (1), still includes:

the bearing groove (2) is arranged on the device body (1);

a pressing mechanism (5) mounted on the device body (1), wherein the pressing mechanism (5) comprises a cylinder (501), a rotary pipe (502), a mounting plate (503) and a spray head;

the damping mechanism (6) is arranged on the device body (1) and comprises a piston plate (601), a limiting chute (602), a spray nozzle (603), a second valve element (604) and a third valve element (605);

an electric heating resistance wire (10) which is arranged at the inner side of the box cover (4);

the positioning assembly (8) is arranged on the device body (1) and comprises a pressing column (801) and a push plate (802);

a pressing mechanism (7) mounted on the device body (1) and including a plate body (701), a second linear motion member (702), and a pressing plate (703);

a regulation and control system (12) for performing regulation and control processing on a test environment of a bluetooth voice device, the regulation and control system comprising:

the monitoring module (1201) is used for monitoring and acquiring the information of the pressure, the humidity and the temperature in the first cavity;

a storage module (1202) for storing the data information acquired by the monitoring module (1201) and establishing a data set;

the processing module (1203) is used for retrieving the pressure information, the temperature information and the humidity information in the first cavity at the current moment in the storage module (1202) and forming judgment information;

the control module (1204) is used for receiving the judgment information and controlling the pressurizing mechanism (5), the damping mechanism (6), the electric heating resistance wire (10) and the fourth valve (9) according to the judgment information;

the alarm module is used for carrying out alarm processing according to the judgment information formed by the processing module (1203);

wherein the processing module (1203) comprises:

the threshold unit (12031) is used for retrieving temperature information, pressure information and humidity information in the first cavity at the current moment in the storage module (1202), correspondingly comparing the temperature information, the pressure information and the humidity information with preset humidity threshold values, pressure threshold values and temperature threshold values, and forming judgment information if at least one of the temperature information, the pressure information and the humidity information exceeds the corresponding threshold values; and

and the analysis unit (12032) is used for retrieving the temperature information, the pressure information and the humidity information in the first cavity at the current moment in the storage module (1202) to form a temperature predicted value, a pressure predicted value and a humidity predicted value, correspondingly comparing the formed three predicted values with a preset humidity threshold value, a preset pressure threshold value and a preset temperature threshold value, forming judging information if at least one of the three predicted values exceeds the corresponding threshold value, correlating the temperature predicted value, the pressure predicted value and the humidity predicted value to form a correlation value, comparing the formed correlation value with a preset correlation value threshold value, and forming judging information if the correlation value exceeds the correlation value threshold value.

2. The bluetooth voice testing device according to claim 1, wherein the specific processing manner of the analysis unit (12032) is:

s1, acquiring temperature information at the current moment, pressure information at the current moment and humidity information at the current moment in a data set in a storage module (1202), and recording asT ₁ 、T ₂ 、...、T _i-1 ，P ₁ 、P ₂ 、...、P _i-1 ，R ₁ 、R ₂ 、...、R _i-1 ；

S2, predicting temperature information at the next moment, pressure information at the next moment and humidity information at the next moment in a linear regression mode, and obtaining corresponding predicted valuesT _i ，P _i ，R _i And willT _i ，P _i ，R _i Corresponding comparison is carried out between the temperature threshold value, the pressure threshold value and the humidity threshold value, and if at least one of the temperature threshold value, the pressure threshold value and the humidity threshold value exceeds the corresponding threshold value, judgment information is formed;

s3, based on the predicted value, estimating thattThe time, that is, the temperature at the next time, the pressure at the next time, and the associated value of the humidity at the next time are calculated as follows:

；

wherein,the item is the number of items, < >>To at the same timetTime, i.e. the temperature at the next time, < ->To at the same timetMoment, i.e. the pressure at the next moment, < ->To at the same timetThe time, namely the humidity of the next time;

s4, comparing the obtained association value with a preset association value threshold value, and forming judgment information if the predicted value is larger than the preset threshold value;

s5, transmitting the formed judgment information to a control module (1204) for control of a related module.

3. The bluetooth voice test device according to claim 2, wherein the monitoring module (1201) comprises:

the pressure monitoring unit is arranged in the device body (1) and is used for monitoring and acquiring pressure information in the first cavity and is a gas pressure sensor;

the humidity monitoring unit (12012) is arranged in the device body (1) and is used for monitoring and acquiring humidity information in the first cavity and is a humidity sensor;

and the temperature monitoring unit (12013) is arranged in the device body (1) and is used for monitoring and acquiring temperature information in the first cavity and is a temperature sensor.

4. A bluetooth voice testing device according to claim 3, characterized in that two cylinders (501) are symmetrically and fixedly connected to the device body (1), two mounting plates (503) are symmetrically and threadedly connected to the device body (1), two symmetrically arranged rotating pipes (502) are rotatably connected to the device body (1), the ends of the two rotating pipes (502) are correspondingly rotatably connected to the two mounting plates (503), and the spray head is embedded in one end of the mounting plate (503) close to the end, and a first valve member (504) is mounted in the mounting plate (503) close to the end.

5. The bluetooth voice testing device according to claim 4, wherein the piston plate (601) is in limited sliding with a limiting chute (602) formed in the cylinder body (501), a pushing column in sliding fit with a spiral groove formed in the rotary pipe (502) is fixedly connected to the piston plate (601), the space inside the piston plate (601) is divided into a second cavity and a third cavity by the piston plate (601), the rotary pipe (502) is communicated with the second cavity through a second valve member (604) mounted on the rotary pipe (502), the third cavity is communicated with the first cavity through a third valve member (605) mounted on the mounting plate (503), liquid is filled in the third cavity, the spray nozzles (603) are embedded and mounted on the mounting plate (503), and a plurality of mounting plates (503) are uniformly distributed on the mounting plate (503) in a ring shape and distributed around the rotary pipe (502).

6. The bluetooth voice testing device according to claim 5, wherein the pressing column (801) is fixedly connected to the pushing plate (802), the pressing column (801) and the pushing plate (802) are both in sliding fit with the device body (1), and the pushing plate (802) is in transmission connection with the rotary tube (502) through the transmission assembly (13).

7. The bluetooth voice testing device according to claim 6, wherein the transmission assembly (13) comprises a screw rod (1301), a rotary table (1302), a rubber cylinder (1303) and a transmission pair (1304), the screw rod (1301) is rotationally connected to the device body (1), the rubber cylinder (1303) is sleeved and fixedly connected to the rotary table (1302), the rubber cylinder (1303) is rotationally connected to the push plate (802) in a damping manner, the rotary table (1302) is in threaded connection with the screw rod (1301), and the screw rod (1301) is in transmission connection with the rotary tube (502) through the transmission pair (1304).

8. The bluetooth voice testing device according to claim 1, wherein the plate body (701) is disposed in the first cavity, wherein the axis of the plate body coincides with the central axis of the carrying groove (2) in the horizontal direction, the second linear motion member (702) is fixedly connected to the plate body (701), and the pressing plate (703) is located right above the voice key of the bluetooth voice device and is fixedly connected to the output end of the second linear motion member (702).

9. The bluetooth voice testing device according to claim 1, wherein the detection assembly (11) comprises a bluetooth receiving terminal (1101), a controller (1102), a speaker (1103) and a filter (1104), wherein the bluetooth receiving terminal (1101), the speaker (1103) and the filter (1104) are all mounted on the device body (1) and near one side of the fourth valve member (9), and the controller (1102) is mounted outside the device body (1).