TWI727324B - Blue bud connection device and method for detecting chloride ion - Google Patents

Abstract

The present invention relates to a blue bud connection device and method for chloride ion detection. The main structure includes a chloride ion detection element. The side of the chloride ion detection element is provided with a wireless transmission element connected to the chloride ion detection element. A mobile electronic device is connected wirelessly, and there is a printing device beside the wireless transmission unit. The printing device is equipped with a wireless connection module, so that the printing device can be wirelessly connected to the mobile electronic device through the wireless connection module. With the above structure, The user can wirelessly connect the wireless transmission unit and the wireless connection module through the mobile electronic device, thereby controlling the chloride ion detection unit through the wireless transmission unit to detect the test object to detect the chloride ion value of the test object, and then the chloride ion The value is transmitted to the printing device through the mobile electronic device and the wireless connection module, so that the printing device prints the chloride ion value, and can be wirelessly connected to enhance the overall efficiency of use.

Description

Blue bud connection device and method for detecting chloride ion

The present invention is to provide a more convenient and efficient bluetooth connection device and method for chloride ion detection.

By the way, the sturdiness of the building is directly related to the safety of the residents or users, especially in the earthquake zone in Taiwan, the sturdiness of the building is especially important, and if the salty sea sand is used Buildings built with ready-mixed concrete, commonly known as "sea sand houses", are prone to spalling of external walls or exposed steel bars and corrosion.

According to the definition of the national standard CNS 3090 of the Republic of China, the so-called sea sand house concrete is sea sand with "concrete chloride ion content exceeding the standard value (0.3kg/m3)", that is to say, if it is a sea sand house, it is only necessary to test the concrete The chloride ion content in it can be regarded as one of the standards of whether it is a sea sand house.

The general chloride ion detector is inserted into the object to be tested through a rod-shaped detection piece, and the chloride ion detector is connected to the host through a wire to control the detection, but this measurement method is more troublesome because it requires a wire as a connection. It is easy to cause damage to the wire, and the measurable distance is also limited by the length of the wire, which will be more troublesome in use.

Therefore, how to solve the above-mentioned conventional problems and deficiencies is the direction that the inventor of the present invention and related manufacturers engaged in this industry urgently want to study and improve.

Therefore, in view of the above-mentioned deficiencies, the inventor of the present invention has collected relevant information, evaluated and considered by multiple parties, and has accumulated years of experience in this industry, through continuous trials and modifications, to design this kind of more convenient and convenient use. He is the inventor of the Bluetooth connection device and method for efficient chloride ion detection.

The main purpose of the present invention is to connect the chloride ion detection element to a mobile electronic device through a wireless connection, and to control the chloride ion detection element through the mobile electronic device, and to print out the chlorine ion value directly through the wireless connection. It can be more convenient and efficient to use.

To achieve the above object, the main structure of the present invention includes: a chloride ion detection element, a wireless transmission element arranged at the side of the chloride ion detection element and connected to the chloride ion detection element, and a row arranged at the side of the wireless transmission element The printing device, a wireless connection module set in the printing device, in which the chloride ion detection component will be wirelessly connected to the mobile electronic device through a wireless transmission component, and the printing device will be wirelessly connected to the mobile electronic device through the wireless connection module .

With the above structure, the user can first turn on the mobile electronic device and wirelessly connect the mobile electronic device with the wireless transmission unit, and wirelessly connect the mobile electronic device with the printing device through the wireless connection module, and then the chloride ion detection unit can be placed in a The test object is controlled by the mobile electronic device to detect the chloride ion value of the test object, and the chloride ion value is transmitted to the mobile electronic device through the wireless transmission device, and the mobile electronic device will then the chloride ion value The value is transmitted to the printing device through the wireless connection module, and the chlorine ion value can be printed out by the printing device. In this way, the chlorine ion detection element can be controlled through the wireless connection without being limited by the length of the wire. , It will not cause the wire to be easily damaged, so the efficiency and convenience of use can be improved, and the chloride ion data can be printed directly into paper, which can once again improve the convenience of use.

With the above-mentioned technology, it is possible to break through the troublesome and limited problems of the conventional chloride ion detector in use, and achieve the practical advancement of the above-mentioned advantages.

1. 1a‧‧‧Chloride ion detection parts

11a‧‧‧Save components

2‧‧‧Wireless transmission

3. 3a‧‧‧Mobile electronic device

31, 31a‧‧‧Control module

4‧‧‧Printing device

41‧‧‧Wireless connection module

5‧‧‧Object to be tested

6a‧‧‧Correction components

The first figure is a perspective view of a preferred embodiment of the present invention.

The second figure is a schematic block diagram of the structure of the preferred embodiment of the present invention.

The third figure is a flowchart of the steps of the preferred embodiment of the present invention.

The fourth figure is a schematic diagram of the wireless connection of the preferred embodiment of the present invention.

The fifth figure is a schematic diagram of the control and detection of the preferred embodiment of the present invention.

The sixth figure is a schematic diagram of printing of the preferred embodiment of the present invention.

The seventh figure is a perspective view of another preferred embodiment of the present invention.

The eighth figure is a flowchart of another preferred embodiment of the present invention.

The ninth figure is a schematic diagram of calibration of another preferred embodiment of the present invention.

In order to achieve the above-mentioned purposes and effects, the technical means and structure adopted by the present invention are illustrated below in detail to illustrate the characteristics and functions of the preferred embodiments of the present invention, so as to fully understand.

Please refer to the first to sixth figures, which are the three-dimensional perspective view to the printed schematic diagram of the preferred embodiment of the present invention. From the figures, it can be clearly seen that the present invention includes: a chloride ion detection element 1, this embodiment For example, the chloride ion detection element 1 is a probe that detects the proportion of chloride ion content by means of electrodes; a wireless transmission element 2 located at the side of the chloride ion detection element 1, and the wireless transmission element 2 will be connected to the chloride ion detection element 1. And the wireless transmission unit 2 is a wireless transmission machine that can be connected wirelessly via Bluetooth connection; a mobile electronic device 3 wirelessly connected to the wireless transmission unit 2 via Bluetooth; a printing device 4 located on the side of the wireless transmission unit 2 ; A wireless connection module 41 provided in the printing device 4, which allows the printing device 4 to wirelessly connect to the mobile electronic device 3 through the wireless connection module 41, and the wireless connection module 41 is a circuit that can provide Bluetooth wireless connection Board; and a control module 31 provided in the mobile electronic device 3. The control module 31 uses an APP as an example in this embodiment, and the chloride ion detector 1 and the printing device 4 can be controlled by the control module 31.

Through the above description, the structure of this technology can be understood, and according to the corresponding cooperation of this structure, the mobile electronic device 3 can be connected to the chloride ion detection element 1 and the printing device 4 through a Bluetooth wireless connection to improve The convenience and convenience of use, and the detailed explanation will be explained below.

With the above-mentioned component structure, it can be clearly seen from the figure that the method of use of the present invention is: (a) connect a chloride ion detection element to a wireless transmission element located on the side of the chloride ion detection element; (b) ) Wirelessly connect the wireless transmission component with a mobile electronic device located on the side of the wireless transmission component; (c) The mobile electronic device is wirelessly connected to a printing device located on the side of the mobile electronic device and with a wireless connection module inside. connection; (d) Use a mobile electronic device to control the chloride ion detection device to detect the chloride ion value of a test object; (e) the wireless transmission device transmits the chloride ion value to the mobile electronic device; and (f) the mobile electronic device will The chloride ion value is transmitted to the printing device via the wireless connection module, so that the printing device prints the chloride ion value.

According to the above steps, the user can connect the mobile electronic device 3 Bluetooth wirelessly to the wireless transmission part 2, thereby controlling the chloride ion detection part 1, and connect to the wireless connection module 41 through the Bluetooth wireless connection. The printing device 4 is controlled by this, but the connection sequence is not limited. It is also possible to connect the printing device 4 first, then connect the chloride ion detection element 1, and then place the chloride ion detection element 1 in a test object 5 , The test object 5 is not limited, it can be concrete, fine aggregate, sea sand, or aqueous solution, and the chloride ion detector 1 is controlled by the mobile electronic device 3 for detection. In this embodiment, touch The "start detection" position in the control module 31 is used to enable the chloride ion detection element 1 to start the detection action, but it is not limited, and other types of APP control can be used.

After the detection of the chloride ion detection unit 1 is completed, the detected chloride ion value will be transmitted to the mobile electronic device 3 through the wireless transmission unit 2, and the user can choose whether to store the chloride ion value in the mobile electronic device 3, and The chloride ion value can be transmitted to the printing device 4 through the wireless connection module 41, so that the printing device 4 can print the chloride ion value into paper. The user can print it manually after the test or directly automatically after the test is completed. It can be connected, you can quickly have written data, which can improve the convenience of use.

And because the mobile electronic device 3 is connected to the chloride ion detector 1 and the printing device 4 through a Bluetooth wireless connection, it will not have problems when connected through the line (such as the line is easily damaged, and the range of use is limited by the length of the wire. ), it can be more convenient to use, and because the Bluetooth wireless connection is used, it also has the advantages of low power consumption, fast transmission rate, short connection time, good stability, and high security.

Please also refer to Figures 7 to 9 together, which are a perspective view to a correction diagram of another preferred embodiment of the present invention. It can be clearly seen from the figure that this embodiment is similar to the above embodiment. , Only the chloride ion detection part 1a is provided with a preservation element 11a. This preservation element 11a is a protective tank with a preservation effect positive liquid inside. The chloride ion detection part 1a can be placed in the preservation element 11a when it is not in use. In order to achieve the effect of protection and preservation, it can increase the service life.

And if the user uses the chloride ion detection element 1a for the first time, and can proceed as follows: (a) connect a chloride ion detection element to a wireless transmission element located on the side of the chloride ion detection element; (b) Wirelessly connect the wireless transmission component with a mobile electronic device located on the side of the wireless transmission component; (c) The mobile electronic device is connected to a printing device located on the side of the mobile electronic device with a wireless connection module inside Perform wireless connection; (c1) Put the chlorine ion detection element into a calibration element located on the side of the chloride ion detection element, and control the mobile electronic device to perform calibration actions; (d) Use the mobile electronic device to control the chloride ion detection element to detect one The chloride ion value of the test object; (e) the wireless transmission device transmits the chloride ion value to the mobile electronic device; and (f) the mobile electronic device transmits the chloride ion value to the printing device via the wireless connection module , So that the printing device will print out the chloride ion value.

The step (c1) is to first place the chloride ion detection element 1a in a calibration element 6a (the calibration element 6a of this embodiment is a cup with a calibration liquid) at the side of the chloride ion detection element 1a, and control the mobile electronics The device 3a performs the calibration action (that is, enter the value of the calibration fluid in the control module 31a, the control module 31a will display "Calibration xx%", and press "Calibrate"), and the chloride ion detector 1a Correction actions to make the subsequent detection and use more accurate.

However, the above description is only the preferred embodiments of the present invention, which does not limit the patent scope of the present invention. Therefore, all simple modifications and equivalent structural changes made by using the description and drawings of the present invention should be the same. It is included in the scope of the patent of the present invention, and is hereby stated.

Therefore, the blue bud connection device and method for chloride ion detection of the present invention can improve the conventional technology. The key lies in:

1. Connect the mobile electronic device 3 to the chloride ion control detection component 1 and the printing device 4 through wireless connection to improve the convenience of use.

2. The Bluetooth wireless connection method achieves the advantages of low power consumption, fast transmission rate, short connection time, good stability, and high security.

3. Enhance the accuracy of detection through the correction element 6a.

In summary, the blue bud connection device and method for chloride ion detection of the present invention can indeed achieve its effects and purposes when used. Therefore, the present invention is truly an invention with excellent practicability and is in line with an application for invention patents. As for the essentials, I filed an application in accordance with the law, and I hope that the review committee will grant the invention as soon as possible to protect the inventor’s hard work. If the review committee has any doubts, please send me instructions. The inventor will do my best to cooperate with you.

1‧‧‧Chloride ion detection parts

2‧‧‧Wireless transmission

3‧‧‧Mobile electronic device

4‧‧‧Printing device

41‧‧‧Wireless connection module

Claims (8)

A bluetooth connection device for chloride ion detection, which mainly comprises: a chloride ion detection component; a wireless transmission component, the wireless transmission component is located at the side of the chloride ion detection component and is connected to the chloride ion detection component for information, the The wireless transmission unit is wirelessly connected to the mobile electronic device through a Bluetooth connection; a printing device, the printing device is located on the side of the wireless transmission unit; and a wireless connection module, the wireless connection module is arranged on the printing device In the device, the printing device is wirelessly connected to the mobile electronic device through the wireless connection module, so as to control the chloride ion detection element and the printing device through the mobile electronic device. As described in item 1 of the scope of patent application, the bluetooth connection device for chloride ion detection, wherein the chloride ion detection part is provided with a preservation element. The bluetooth connection device for chloride ion detection as described in item 1 of the scope of patent application, wherein at least one calibration element is provided on the side of the chloride ion detection element. The bluetooth connection device for chloride ion detection described in the first item of the patent application, wherein the mobile electronic device has a control module, and receives the information of the wireless transmission through the control module, and then transmits the information To the wireless connection module. A method for using a bluetooth connection device for chloride ion detection, the steps comprising: (a) connecting a chloride ion detection element to a wireless transmission element located at the side of the chloride ion detection element; (b) connecting the wireless transmission element to A mobile electronic device located on the side of the wireless transmission unit is connected wirelessly via Bluetooth connection; (c) The mobile electronic device is connected to a printing device located on the side of the mobile electronic device with a wireless connection module inside. Wireless connection; (d) using a mobile electronic device to control the chloride ion detection element to detect the chloride ion value of a test object; (e) the wireless transmission element transmits the chloride ion value to the mobile electronic device; and (f) mobile electronics The device transmits the chloride ion value to the printing device via the wireless connection module, so that the printing device prints the chloride ion value. As described in item 5 of the scope of patent application, the method of using the blue bud connection device for chloride ion detection, wherein the chloride ion detection piece is provided with a preservation element. The method of using the blue bud connection device for chloride ion detection as described in item 5 of the scope of patent application, wherein The mobile electronic device has a control module, and receives the information of the wireless transmission through the control module, and then transmits the information to the wireless connection module. For the method of using the bluetooth connection device for chloride ion detection as described in item 5 of the scope of patent application, step (c1) can be carried out after step (c), and the chloride ion detection element is placed on the side of the chloride ion detection element In the calibration component, and control the mobile electronic device to perform calibration actions.

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