CN202756153U - Oil atomizer testing device based on micro-electromechanical system (MEMS) technology - Google Patents

Abstract

The utility model discloses an oil atomizer testing device based on micro-electromechanical system (MEMS) technology. The oil atomizer testing device comprises a first laser sensor, a second laser sensor, a data acquisition module, a driver, a memory module and a data processing module. The oil atomizer testing device based on the MEMS technology can comprehensively detect operational data of each component of the driver of an oil atomizer, accurately knows about operation states of the oil atomizer, timely, automatically controls and adjusts the driver of the oil atomizer in real time, and accordingly achieves good using effects.

Description

Emulsion block nozzle testing apparatus based on the MEMS technology

Technical field

The utility model relates to a kind of emulsion block nozzle testing apparatus based on the MEMS technology.

Background technique

With the test method of routine or measure the imagination of service behaviour of emulsion block nozzle with static mode not feasible.The emulsion block nozzle lift is carried out dynamic test, and then require: the testing apparatus that installs additional can not change the working state of former emulsion block nozzle; Can test the lift variation overall process of emulsion block nozzle real-time working, and very high dynamic response will be arranged.

The model utility content

Technical problem to be solved in the utility model provides a kind of operational data that can comprehensively detect each parts of emulsion block nozzle driver, understand exactly the operation conditions of emulsion block nozzle, automatically the emulsion block nozzle driver is carried out regulating and controlling in real time, thereby reach the emulsion block nozzle testing apparatus based on the MEMS technology of the using effect of the best.

The utility model is for to solve the problems of the technologies described above by the following technical solutions: the utility model has designed a kind of emulsion block nozzle testing apparatus based on the MEMS technology, wherein, comprise the first laser sensor, the second laser sensor, data acquisition module, driver, memory module and data processing module, wherein;

The output terminal of described the first laser sensor and the second laser sensor is the input end of connection data acquisition module respectively, described the first laser sensor is for detection of the lateral displacement information of driver, and with described lateral displacement communication to data acquisition module, described the second laser sensor is for detection of the length travel information of driver, and with described length travel communication to data acquisition module;

The output terminal of described data acquisition module connects respectively the input end of memory module and data processing module, and with the lateral displacement information that collects and length travel communication to memory module and data processing module;

The output terminal of described data processing module connects the input end of driver, and described data processing module is processed rear generation control command with lateral displacement information and the length travel information accepted, and transfers to driver.

As a kind of optimizing structure of the present utility model: described data processing module adopts single-chip microcomputer.

The utility model adopts above technological scheme compared with prior art, has following technique effect:

What the utility model was designed can comprehensively detect the operational data of each parts of emulsion block nozzle driver based on the emulsion block nozzle testing apparatus of MEMS technology, understand exactly the operation conditions of emulsion block nozzle, automatically the emulsion block nozzle driver is carried out regulating and controlling in real time, thereby reach best using effect.

Description of drawings

Fig. 1 is structured flowchart of the present utility model.

Embodiment

Below in conjunction with accompanying drawing the technical solution of the utility model is described in further detail:

As shown in Figure 1, the utility model has designed a kind of emulsion block nozzle testing apparatus based on the MEMS technology, wherein: comprise the first laser sensor, the second laser sensor, data acquisition module, driver, memory module and data processing module, wherein;

The output terminal of described the first laser sensor and the second laser sensor is the input end of connection data acquisition module respectively, described the first laser sensor is for detection of the lateral displacement information of driver, and with described lateral displacement communication to data acquisition module, described the second laser sensor is for detection of the length travel information of driver, and with described length travel communication to data acquisition module;

The output terminal of described data acquisition module connects respectively the input end of memory module and data processing module, and with the lateral displacement information that collects and length travel communication to memory module and data processing module;

The output terminal of described data processing module connects the input end of driver, and described data processing module is processed rear generation control command with lateral displacement information and the length travel information accepted, and transfers to driver.

Can comprehensively detect the operational data of each parts of emulsion block nozzle driver, understand exactly the operation conditions of emulsion block nozzle, automatically the emulsion block nozzle driver be carried out regulating and controlling in real time, thereby reach best using effect.

In specific embodiment, as a kind of optimizing structure of the present utility model, described data processing module adopts single-chip microcomputer, and single-chip microcomputer is at the quick data analysis to detecting, and compares with the normal data that prestores, excellent performance, and computing is quick.

In specific embodiment, can also in suitable environment, use industrial computer, can reach better effect, adapt to testing requirement and index under the various requirement.

Claims (2)

1. the emulsion block nozzle testing apparatus based on the MEMS technology is characterized in that, comprises the first laser sensor, the second laser sensor, and data acquisition module, driver, memory module and data processing module, wherein;

The output terminal of described the first laser sensor and the second laser sensor is the input end of connection data acquisition module respectively, described the first laser sensor is for detection of the lateral displacement information of driver, and with described lateral displacement communication to data acquisition module, described the second laser sensor is for detection of the length travel information of driver, and with described length travel communication to data acquisition module;

The output terminal of described data acquisition module connects respectively the input end of memory module and data processing module, and with the lateral displacement information that collects and length travel communication to memory module and data processing module;

The output terminal of described data processing module connects the input end of driver, and described data processing module is processed rear generation control command with lateral displacement information and the length travel information accepted, and transfers to driver.

2. the emulsion block nozzle testing apparatus based on the MEMS technology according to claim 1 is characterized in that: described data processing module employing single-chip microcomputer.

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