阅读说明：本技术 薄型泵的补强方法 (Reinforcement method for thin pump ) 是由 莫皓然 陈世昌 廖家淯 廖鸿信 高中伟 黄启峰 韩永隆 郭俊毅 林宗义 于 2020-05-14 设计创作，主要内容包括：一种用于薄型泵的补强方法,包含：S1：驱动该薄型泵,取得一气流信息；S2：比对该气流信息是否低于一预设气流值；以及S3：若该气流信息低于该预设气流值,对该薄型泵下压一补强距离。(A method of reinforcing a thin pump comprising: s1: driving the thin pump to obtain airflow information; s2: comparing whether the airflow information is lower than a preset airflow value; and S3: and if the air flow information is lower than the preset air flow value, pressing down the thin pump for a reinforcement distance.)

1. A method of reinforcing a thin pump comprising:

s1: driving the thin pump to obtain airflow information;

s2: comparing whether the airflow information is lower than a preset airflow value; and

s3: and if the air flow information is lower than the preset air flow value, pressing down the thin pump for a reinforcement distance.

2. The method of reinforcing a thin pump as claimed in claim 1, wherein steps S1 to S3 are all performed on a lower platen.

3. The method of claim 2, wherein the reinforcement difference is adjusted according to the comparison between the air flow information and the predetermined air flow value.

4. The method of claim 3, wherein the difference between the air flow information and the predetermined air flow value is proportional to the reinforcement distance.

5. The reinforcement method for thin pump as claimed in claim 4, wherein the steps S1 to S3 are re-executed after the step S3 is completed.

6. The method of reinforcing a thin pump as defined in claim 1, wherein step S3 is performed on a lower platen.

7. The method as claimed in claim 6, wherein the reinforcement difference is adjusted according to the comparison between the air flow information and the predetermined air flow value.

8. The method of claim 7, wherein the difference between the air flow information and the predetermined air flow value is proportional to the reinforcement distance.

9. The reinforcing method of a thin pump as claimed in claim 8, wherein the steps S1 to S3 are re-executed after the step S3 is completed.

10. The method of reinforcing a thin pump as claimed in any one of claims 1 to 9, wherein the reinforcement distance is 0.01mm to 0.5 mm.

Technical Field

The present invention relates to a method for reinforcing a thin pump, and more particularly, to a method for reinforcing a thin pump having poor performance due to tolerance in manufacturing process.

Background

As electronic products are developed in a direction of being light and thin, thin pumps applicable to various electronic products are produced according to their requirements, and as shown in fig. 1, a conventional thin pump 100 is formed by stacking an air intake plate 101, a resonator plate 102, an actuator 103, a first insulating frame 104, a conductive frame 105, a second insulating frame 106, and an air collecting plate 107, because the thin pump 100 has an extremely thin thickness and is combined by pressing and stacking, deviations or distances between the resonator plate 102 and the actuator 103 are sometimes caused by deviations, tolerances, and the like during the pressing process, resulting in performance degradation of the thin pump 100.

Accordingly, how to improve the performance degradation of the thin pump 100 during the manufacturing process is a problem to be solved.

Disclosure of Invention

The main objective of the present invention is to provide a method for reinforcing a thin pump, which is used to improve the performance degradation of the thin pump during the manufacturing process and further reduce the defect rate of the thin pump.

One broad aspect of the present disclosure is a method for reinforcing a thin pump, comprising:

s1: driving the thin pump to obtain airflow information;

s2: comparing whether the airflow information is lower than a preset airflow value;

s3: and if the air flow information is lower than the preset air flow value, pressing down the thin pump for a reinforcement distance.

Drawings

FIG. 1 is a schematic view of a prior art low profile pump.

FIG. 2 is a flow chart of a method for reinforcing the thin pump.

Fig. 3 is a perspective view of the pressing platform of the present disclosure.

Description of the reference numerals

S1-S3: step of Reinforcement

100. 200: thin pump

101: air inlet plate

102: resonance sheet

103: actuator

104: first insulating frame

105: conductive frame

106: insulating frame

107: air collecting plate

300: pressing platform

301: pressing tool

302: platform base

Detailed Description

Exemplary embodiments that embody features and advantages of this disclosure are described in detail below in the detailed description. It will be understood that the present disclosure is capable of various modifications without departing from the scope of the disclosure, and that the description and drawings are to be regarded as illustrative in nature, and not as restrictive.

Referring to fig. 2, the present disclosure provides a method for reinforcing a thin pump 200, including: s1: driving the thin pump 200 to obtain airflow information; s2: comparing whether the airflow information is lower than a preset airflow value; and S3: if the airflow information is lower than the predetermined airflow value, the thin pump 200 is pressed down by a reinforcement distance.

The reinforcement methods S1 to S3 of the thin pump 200 of the present application can be performed on a lower platen 300, as shown in fig. 3, the lower platen 300 includes a platen base 302 and a lower pressing tool 301, the platen base 302 can be provided with a driving power source and a pressure sensor (not shown), the thin pump 200 is placed on the platen base 302, and then the steps S1 are performed: the thin pump 200 is driven by the driving power source during a detection time, and the air flow information of the thin pump 200 during the detection time is detected by the air pressure sensor, wherein the air flow information includes the air pressure and the air flow rate.

Then, step S2 is executed to compare the airflow information detected by the air pressure sensor with the preset airflow value, and determine whether the air pressure and the air flow of the thin pump 200 during the detection time are lower than the preset airflow value, if the air flow information is lower than the preset airflow value, step S3 is executed, and step S3 is not needed to be executed to reinforce the thin pump 200 whose air pressure and air flow in the air flow information both reach the preset airflow value standard.

Finally, step S3 is executed, if the air flow information of the thin pump 200 within the detection time is lower than the preset air flow value, the pressing tool 301 of the pressing platform 300 is started to abut against the surface of the thin pump 200, and then a force is applied to the thin pump 200 to press down the reinforcement distance; it should be noted that, in step S2, the airflow information is compared with the preset airflow value, and the comparison result is correlated with the reinforcement distance of pressing, the larger the difference between the airflow information and the preset airflow value, the larger the reinforcement distance of pressing, otherwise, the smaller the difference between the airflow information and the preset airflow value, the smaller the reinforcement distance of pressing, that is, the difference between the airflow information and the preset airflow value is proportional to the reinforcement distance.

After the step S3 is completed, the process returns to the step S1 again, the thin type pump 200 is driven, the airflow information of the thin type pump 200 with the reinforcement distance is obtained, whether the airflow information is lower than the preset airflow value or not is compared, when the airflow information reaches the preset airflow value, the process is completed, if the airflow information is still lower than the preset airflow value, the thin type pump 200 is pressed down again for the reinforcement distance, the compensation distance of the pressing down is still in direct proportion to the difference value between the airflow information and the preset airflow value, and after the process is completed, the process returns to the steps S1 to S3 again until the airflow information reaches the preset airflow value.

In addition, the air flow information and the pressing reinforcement distance can be obtained separately, in another embodiment, a testing platform (not shown) is provided, the testing platform is provided with a driving power supply and an air pressure sensor, and the steps S1 and S2 are performed on the testing platform; the thin pump 200 is driven and the air flow information is obtained, the relationship between the air flow information and the preset air flow value is compared, if the air flow information is lower than the preset air flow value, the thin pump 200 is moved to the platform base 302 of the pressing platform 300, the reinforcement distance is confirmed according to the relationship between the air flow information and the preset air flow value, and the reinforcement distance is pressed down after the pressing tool 301 of the pressing platform 300 is abutted against the thin pump 200.

After step S3 is completed, step S1 is also performed, the thin pump 200 is installed on the testing platform to obtain the airflow information, and the relationship between the current airflow information and the preset airflow value is compared, and when the airflow information reaches the standard of the preset airflow value, the operation is completed, otherwise, if the airflow information is still lower than the preset airflow value, the thin pump 200 is moved to the pressing platform 300 to press down the reinforcement distance again until the airflow information reaches the preset airflow value.

It is noted that the reinforcement distance is determined after comparing the predetermined airflow value according to the airflow information, and the reinforcement distance ranges from 0.01mm to 0.5 mm.

In summary, after the thin pump is completed, the airflow information of the thin pump is detected, the airflow information is compared with the default airflow value, and the reinforcement distance of the pressing platform to the thin pump is adjusted according to the comparison result, so as to improve the yield of the thin pump and improve the problem of performance reduction of the thin pump caused by tolerance generated by stacking, and the thin pump has great industrial applicability and advancement.