CN115540954B - Quality detection method, device and system for smart watch production - Google Patents

Abstract

The invention relates to a quality detection method, a device and a system for smart watch production, which belong to the technical field of electric digital data processing. Through the cooperation between second stretching device, gap detection device, vibration detection device, the second timing device, the gap between detectable watchband and the dial plate is after long-term stretching, unusual circumstances such as gap grow to guarantee user experience. That is, whether the quality of the band is abnormal or not and whether the quality of the connection portion between the band and the dial plate is abnormal or not can be efficiently detected and judged.

Description

Quality detection method, device and system for smart watch production

Technical Field

The invention belongs to the technical field of electric digital data processing, and particularly relates to a quality detection method, device and system for smart watch production.

Background

The most common intelligent wearable equipment in the existing market is an intelligent bracelet and an intelligent watch, and the wearable equipment is worn on the wrist from the aspect of wearing.

However, when a user uses the intelligent wearable device, the watchband cannot recover after being stretched for a long time, so that the watchband is increased, and the user experience is poor; moreover, the gap between the watchband and the dial plate is also expanded, and even the watchband and the dial plate are directly pulled and separated in the using process; in the production process of the smart watch, the relevance quality detection of the phenomena is deficient.

Therefore, in the present stage, a method, a device and a system for quality detection in smart watch production need to be designed to solve the above problems.

Disclosure of Invention

The invention aims to provide a quality detection method, a quality detection device and a quality detection system for smart watch production, which are used for solving the technical problems in the prior art.

In order to achieve the purpose, the technical scheme of the invention is as follows:

a quality detection device for intelligent watch production comprises a first stretching device, a length detection device, a first timing device, a second stretching device, a gap detection device, a vibration detection device, a second timing device and a main control device; the main control device is respectively connected with the first stretching device, the length detection device, the first timing device, the second stretching device, the gap detection device, the vibration detection device and the second timing device;

the first stretching device is used for performing a stretching test on the watch band after the watch band is processed;

the length detection device is used for detecting the length of the stretched watchband, recording the length as a real-time length, and comparing the real-time length with an early warning length threshold value to judge whether the length is abnormal or not;

the first timing device is used for timing in the watchband tensile test process and is marked as first timing;

the second stretching device is used for performing a stretching test on the connecting part of the watchband and the dial plate after the watchband and the dial plate are fixed and processed;

the gap detection device is used for detecting the width of a gap between the watchband and the dial plate after the tensile test of the connecting part is finished, recording the width of the gap as a real-time gap width, and comparing the real-time gap width with an early warning gap width threshold value to judge whether the gap is abnormal or not;

the vibration detection device is used for detecting whether the watchband and the dial plate vibrate abnormally or not in the tensile test process of the connecting part;

the second timing device is used for timing the tensile test process of the connecting part and is marked as second timing.

Further, the length detection device comprises a length measurement sensor, a first data processor and a first data memory, wherein the first data processor is respectively connected with the length measurement sensor, the first data memory and the main control device;

the length measuring sensor is used for detecting the length of the stretched watchband and recording the length as the real-time length;

the first data memory is used for storing an early warning length threshold value of the watchband, and the early warning length threshold value is set according to a qualified standard of the watchband;

and the first data processor is used for comparing the real-time length with an early warning length threshold value and judging whether the real-time length is abnormal or not.

Further, the vibration detection device comprises a vibration sensor, a second data processor and a second data memory, wherein the second data processor is respectively connected with the vibration sensor, the second data memory and the main control device;

the vibration sensor is used for detecting vibration data generated by the watchband and the dial plate in the tensile test process of the connecting part and recording the vibration data as real-time vibration data;

the second data memory is used for storing an early warning vibration threshold value of the watchband and the dial plate in the tensile test process of the connecting part, and the early warning vibration threshold value is set according to the qualified standard of the quality of the connecting part;

and the second data processor is used for comparing the real-time vibration data with an early warning vibration threshold value and judging whether the real-time vibration data is abnormal or not.

Further, the gap detection device comprises an infrared distance meter, a third data processor and a third data memory, wherein the third data processor is respectively connected with the infrared distance meter, the third data memory and the main control device;

the infrared distance meter is used for detecting the width of a gap between the watch band and the dial plate after the tensile test of the connecting part is finished, and recording the width as the width of the real-time gap;

the third data memory is used for storing an early warning gap width threshold value, and the early warning gap width threshold value is set according to the qualified standard of the quality of the connecting part;

and the third data processor is used for comparing the real-time gap width with an early warning gap width threshold value and judging whether the real-time gap width is abnormal or not.

A quality detection system for intelligent watch production comprises the quality detection device for intelligent watch production and a monitoring terminal, wherein the monitoring terminal is in wireless communication with a main control device.

A quality detection method for intelligent watch production adopts the quality detection device for intelligent watch production to detect the quality of the intelligent watch production, and comprises the following steps:

the main control device controls the first stretching device and the first timing device to be started, and controls the length detection device, the second stretching device, the gap detection device, the vibration detection device and the second timing device;

if the first timing reaches the preset time length of the watchband tensile test, the main control device controls the length detection device to be started;

if the length detection device compares the real-time length with an early warning length threshold value to judge that the real-time length is abnormal, the main control device judges that the quality of the watchband is abnormal;

if the length detection device compares the real-time length with an early warning length threshold value to judge that no abnormity exists, the main control device controls the second stretching device, the vibration detection device and the second timing device to be started;

if the second timing does not reach the preset time of the connection part tensile test, and the vibration detection device detects that the watchband and the dial plate vibrate abnormally; the main control device judges that the quality of a connecting part of the watchband and the dial plate is abnormal;

if the second timing reaches the preset time of the tensile test of the connecting part, and the vibration detection device detects that the watchband and the dial plate do not vibrate abnormally; the main control device controls the gap detection device to be started;

if the gap detection device compares the real-time gap width with the early warning gap width threshold value to judge that the real-time gap width is abnormal, the main control device judges that the quality of the connecting part of the watchband and the dial plate is abnormal, otherwise, the main control device judges that the quality of the connecting part of the watchband and the dial plate is not abnormal.

Compared with the prior art, the invention has the beneficial effects that:

one of them beneficial effect of this scheme lies in, through the cooperation between first stretching device, length detection device, the first timing device, the detectable watchband is unable after being stretched for a long time and recovers, leads to the abnormal conditions that the watchband increases to can carry out the quality management and control when production, arouse behind the product input market in later stage that the user is bad to experience, thereby loss customer etc.. Through the cooperation between second stretching device, gap detection device, vibration detection device, the second timing device, the gap between detectable watchband and the dial plate is after long-term stretching, unusual circumstances such as gap grow to guarantee user experience. The main control device sequentially starts the first stretching device, the length detection device, the first timing device, the second stretching device, the gap detection device, the vibration detection device and the second timing device, so that whether the quality of the watchband is abnormal or not and whether the quality of a connecting part of the watchband and the dial plate is abnormal or not can be efficiently detected and judged; in addition, vibration detection is set in a gap detection link of the watchband and the dial plate, whether the connection part of the watchband and the dial plate is loosened or falls off in the stretching process or not can be effectively detected, and the quality detection of the connection part is further detailed. Meanwhile, the watchband quality detection link and the connecting part quality detection link move back and forth in sequence, so that part of the detection devices can be prevented from being in an invalid movement link for a long time, and the detection efficiency is guaranteed.

Drawings

FIG. 1 is a schematic structural diagram of an apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of the working principle of the device according to the embodiment of the present invention;

fig. 3 is a schematic system structure diagram according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, a quality detection device for smart watch production is provided, which includes a first stretching device, a length detection device, a first timing device, a second stretching device, a gap detection device, a vibration detection device, a second timing device, and a main control device; the main control device is respectively connected with the first stretching device, the length detection device, the first timing device, the second stretching device, the gap detection device, the vibration detection device and the second timing device;

the first stretching device is used for performing a stretching test on the watch band after the watch band is processed;

the length detection device is used for detecting the length of the stretched watchband, recording the length as a real-time length, and comparing the real-time length with an early warning length threshold value to judge whether the length is abnormal or not;

the first timing device is used for timing in the watchband tensile test process and is marked as first timing;

the second stretching device is used for performing a stretching test on a connecting part of the watchband and the dial plate after the watchband and the dial plate are fixed and processed;

the gap detection device is used for detecting the width of a gap between the watchband and the dial plate after the tensile test of the connecting part is finished, recording the width of the gap as a real-time gap width, and comparing the real-time gap width with an early warning gap width threshold value to judge whether the gap is abnormal or not;

the vibration detection device is used for detecting whether the watchband and the dial plate vibrate abnormally or not in the tensile test process of the connecting part;

the second timing device is used for timing in the process of the tensile test of the connecting part and is recorded as second timing.

In the above-mentioned scheme, through the cooperation between first stretching device, length-detecting device, the first timing device, detectable watchband is unable recovery after being stretched for a long time, leads to the watchband increase abnormal conditions to can carry out the quality management and control when putting into production, avoid arousing behind the later stage product input market that the user is bad to experience, thereby loss customer etc.. Through the cooperation between second stretching device, gap detection device, vibration detection device, the second timing device, the gap between detectable watchband and the dial plate is after long-term stretching, unusual circumstances such as gap grow to guarantee user experience.

Further, the length detection device comprises a length measurement sensor, a first data processor and a first data memory, wherein the first data processor is respectively connected with the length measurement sensor, the first data memory and the main control device;

the length measuring sensor is used for detecting the length of the stretched watchband and recording the length as the real-time length;

the first data memory is used for storing an early warning length threshold value of the watchband, and the early warning length threshold value is set according to a qualified standard of the watchband;

and the first data processor is used for comparing the real-time length with an early warning length threshold value and judging whether the real-time length is abnormal or not.

Further, the vibration detection device comprises a vibration sensor, a second data processor and a second data memory, wherein the second data processor is respectively connected with the vibration sensor, the second data memory and the main control device;

the vibration sensor is used for detecting vibration data generated by the watchband and the dial plate in the tensile test process of the connecting part and recording the vibration data as real-time vibration data;

the second data memory is used for storing an early warning vibration threshold value of the watchband and the dial plate in the tensile test process of the connecting part, and the early warning vibration threshold value is set according to the qualified standard of the quality of the connecting part;

and the second data processor is used for comparing the real-time vibration data with an early warning vibration threshold value and judging whether the real-time vibration data is abnormal or not.

Further, the gap detection device comprises an infrared distance meter, a third data processor and a third data memory, wherein the third data processor is respectively connected with the infrared distance meter, the third data memory and the main control device;

the infrared distance meter is used for detecting the width of a gap between the watch band and the dial plate after the tensile test of the connecting part is finished, and recording the width as the width of the real-time gap;

the third data memory is used for storing an early warning gap width threshold value, and the early warning gap width threshold value is set according to the qualified standard of the quality of the connecting part;

and the third data processor is used for comparing the real-time gap width with an early warning gap width threshold value and judging whether the real-time gap width is abnormal or not.

As shown in fig. 3, a quality detection system for smart watch production is provided, which includes the quality detection device for smart watch production as described above, and further includes a monitoring terminal, where the monitoring terminal is in wireless communication with the main control device, so as to implement remote data interaction of the quality detection device.

The quality detection method for the production of the intelligent watch is provided, and the quality detection device for the production of the intelligent watch is adopted to detect the quality of the production of the intelligent watch.

As shown in fig. 2, further, the main control device controls the first stretching device and the first timing device to start, and controls the length detection device, the second stretching device, the gap detection device, the vibration detection device and the second timing device;

if the first timing reaches the preset time length of the watchband tensile test, the main control device controls the length detection device to be started;

if the length detection device compares the real-time length with an early warning length threshold value to judge that the real-time length is abnormal, the main control device judges that the quality of the watchband is abnormal;

if the length detection device compares the real-time length with an early warning length threshold value to judge that no abnormity exists, the main control device controls the second stretching device, the vibration detection device and the second timing device to be started;

if the second timing does not reach the preset time of the connection part tensile test, and the vibration detection device detects that the watchband and the dial plate vibrate abnormally; the main control device judges that the quality of the connecting part of the watchband and the dial plate is abnormal;

if the second timing reaches the preset time of the tensile test of the connecting part, and the vibration detection device detects that the watchband and the dial plate do not vibrate abnormally; the main control device controls the gap detection device to be started;

if the gap detection device compares the real-time gap width with the early warning gap width threshold value to judge that the real-time gap width is abnormal, the main control device judges that the quality of the connecting part of the watchband and the dial plate is abnormal, otherwise, the main control device judges that the quality of the connecting part of the watchband and the dial plate is not abnormal.

In the scheme, the main control device sequentially starts the first stretching device, the length detection device, the first timing device, the second stretching device, the gap detection device, the vibration detection device and the second timing device, so that whether the quality of the watchband is abnormal or not and whether the quality of a connecting part of the watchband and the dial plate is abnormal or not can be efficiently detected and judged; in addition, vibration detection is set in a gap detection link of the watchband and the dial plate, whether the connection part of the watchband and the dial plate is loosened or falls off in the stretching process or not can be effectively detected, and the quality detection of the connection part is further detailed. Meanwhile, the watchband quality detection link and the connecting part quality detection link move back and forth in sequence, so that part of the detection devices can be prevented from being in an invalid movement link for a long time, and the detection efficiency is guaranteed; because only under the qualified circumstances of watchband quality, it is accurate to the data that the connecting portion detected, if there is the abnormality in the watchband quality, then, the unusual vibration or the gap grow of connecting portion detection link, all probably because watchband quality arouses.

The above are preferred embodiments of the present invention, and all changes made according to the technical scheme of the present invention that produce functional effects do not exceed the scope of the technical scheme of the present invention belong to the protection scope of the present invention.

Claims (3)

1. A quality detection device for intelligent watch production is characterized by comprising a first stretching device, a length detection device, a first timing device, a second stretching device, a gap detection device, a vibration detection device, a second timing device and a main control device; the main control device is respectively connected with the first stretching device, the length detection device, the first timing device, the second stretching device, the gap detection device, the vibration detection device and the second timing device;

the first stretching device is used for performing a stretching test on the watchband after the watchband is processed;

the length detection device is used for detecting the length of the stretched watchband, recording the length as a real-time length, and comparing the real-time length with an early warning length threshold value to judge whether the length is abnormal or not;

the first timing device is used for timing in the watchband tensile test process and is marked as first timing;

the second stretching device is used for performing a stretching test on a connecting part of the watchband and the dial plate after the watchband and the dial plate are fixed and processed;

the gap detection device is used for detecting the width of a gap between the watchband and the dial plate after the tensile test of the connecting part is finished, recording the width of the gap as a real-time gap width, and comparing the real-time gap width with an early warning gap width threshold value to judge whether the gap is abnormal or not;

the vibration detection device is used for detecting whether the watchband and the dial plate vibrate abnormally or not in the tensile test process of the connecting part;

the second timing device is used for timing the tensile test process of the connecting part and is marked as second timing;

the length detection device comprises a length measurement sensor, a first data processor and a first data memory, wherein the first data processor is respectively connected with the length measurement sensor, the first data memory and the main control device;

the length measuring sensor is used for detecting the length of the stretched watchband and recording the length as the real-time length;

the first data memory is used for storing an early warning length threshold value of the watchband, and the early warning length threshold value is set according to a qualified standard of the watchband;

the first data processor is used for comparing the real-time length with an early warning length threshold value and judging whether the real-time length is abnormal or not;

the vibration detection device comprises a vibration sensor, a second data processor and a second data memory, wherein the second data processor is respectively connected with the vibration sensor, the second data memory and the main control device;

the vibration sensor is used for detecting vibration data generated by the watchband and the dial plate in the tensile test process of the connecting part and recording the vibration data as real-time vibration data;

the second data memory is used for storing an early warning vibration threshold value of the watchband and the dial plate in the tensile test process of the connecting part, and the early warning vibration threshold value is set according to the qualified standard of the quality of the connecting part;

the second data processor is used for comparing the real-time vibration data with an early warning vibration threshold value and judging whether the real-time vibration data is abnormal or not;

the gap detection device comprises an infrared distance meter, a third data processor and a third data memory, wherein the third data processor is respectively connected with the infrared distance meter, the third data memory and the main control device;

the infrared distance meter is used for detecting the width of a gap between the watch band and the dial plate after the tensile test of the connecting part is finished, and recording the width as the width of the real-time gap;

the third data memory is used for storing an early warning gap width threshold value, and the early warning gap width threshold value is set according to the qualified standard of the quality of the connecting part;

and the third data processor is used for comparing the real-time gap width with an early warning gap width threshold value and judging whether the real-time gap width is abnormal or not.

2. A quality detection system for intelligent watch production, comprising the quality detection device for intelligent watch production according to claim 1, and further comprising a monitoring terminal, wherein the monitoring terminal is in wireless communication with the main control device.

3. A quality detection method for smart watch production, characterized in that the quality detection device for smart watch production according to claim 1 is used for quality detection of smart watch production, comprising the following steps:

the main control device controls the first stretching device and the first timing device to be started, and controls the length detection device, the second stretching device, the gap detection device, the vibration detection device and the second timing device;

if the first timing reaches the preset time length of the watchband tensile test, the main control device controls the length detection device to be started;

if the length detection device compares the real-time length with an early warning length threshold value to judge that the real-time length is abnormal, the main control device judges that the quality of the watchband is abnormal;

if the length detection device compares the real-time length with an early warning length threshold value to judge that no abnormity exists, the main control device controls the second stretching device, the vibration detection device and the second timing device to be started;

if the second timing does not reach the preset time length of the tensile test of the connecting part, the vibration detection device detects that the watchband and the dial plate vibrate abnormally; the main control device judges that the quality of the connecting part of the watchband and the dial plate is abnormal;

if the second timing reaches the preset time of the tensile test of the connecting part, and the vibration detection device detects that the watchband and the dial plate do not vibrate abnormally; the main control device controls the gap detection device to be started;

if the gap detection device compares the real-time gap width with the early warning gap width threshold value to judge that the quality is abnormal, the main control device judges that the quality of the connecting part of the watchband and the dial plate is abnormal, otherwise, the main control device judges that the quality of the connecting part of the watchband and the dial plate is not abnormal.

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