TWI540496B - The control interface of the testing machine - Google Patents

Description

Test machine control interface

The invention relates to a control interface, in particular to a control interface of a testing machine.

According to a general test machine for testing the physical properties of the test object, the test machine generally includes a test slot, and a control mixing chamber including a heating element, a humidifying element, and an evaporation element. a vacuum element or a pressurizing component, etc., and the mixed gas is brought into the test tank by air agitation, thereby, when the object to be tested is placed in the test slot, through a control interface The relevant settings are input to the microprocessor connected to the control mixing chamber, and the appropriate temperature, humidity and pressure setting values are selected. At this time, the micro-device is sensed by temperature, humidity and pressure installed in the test slot. Sensing the temperature, humidity and pressure in the test slot, and then converting to the control code required by the server, for the microprocessor to control each server by the control code transmitted, when temperature, humidity and pressure When the sensed value is higher than the set value, the output of the server is reduced. When the temperature, humidity and pressure sensed values are lower than the set value, the output of the server is increased to make the test slot Detecting signal with a set value to control stability.

Please refer to FIG. 1 , which is a schematic diagram of the control interface of the conventional testing machine. The control interface of the conventional testing machine is input to the relevant settings of the microprocessor, and usually uses the instruction table to match the writing interface of the tab format. The settings and parameters are input to Table 1 of the control interface. However, the control interface has the disadvantages of complicated input and is not easy to operate. Therefore, if the control interface is used as an interface between the operator and the testing machine, Bridges often cause operators to be bothered by the lack of humanization and intuitiveness of the control interface. In view of this, the inventor of this case, after observing the above-mentioned deficiencies, is concentrating on research and improvement, At the end of the day, the invention is produced.

The object of the present invention is to provide a control interface of a testing machine, which makes the control interface of the testing machine more humanized and intuitive through image-based touch setting, thereby simplifying the operation of the control interface and allowing the operator to borrow The program is easily set up by the action of the touch point.

To achieve the above objective, the control interface of the testing machine provided by the present invention comprises a touch screen, and the touch screen displays a window, the window includes a program editing field, a first scale field, and a first a second scale field and a third scale field, wherein the third scale field is horizontally disposed adjacent to the program editing field, and the first scale field and the second scale field are longitudinally disposed and Adjacent to the program editing field, the first scale field and the third scale field are defined in the program editing field to define a first control coordinate, the second scale field and the third scale The field is defined in the program editing field to define a second control coordinate, and the first control coordinate and the second control coordinate are overlapped.

In this way, the operator can select the third scale field corresponding to the programming of the first scale field in the first control coordinate, and click the third scale field in the second control coordinate. For the programming of the second scale field, the program setting can be easily performed by the operator's touch point selection action in the program editing field.

[知知]

1‧‧‧Form

[this invention]

10‧‧‧ touch screen

11‧‧‧Window

111‧‧‧Program editing field

112‧‧‧ first scale field

1121‧‧‧temperature scale field

113‧‧‧second scale field

1131‧‧‧ Humidity scale field

114‧‧‧ third scale field

1141‧‧‧Segment scale field

115‧‧‧Function Menu

116‧‧‧ function button

12‧‧‧Detection unit

13‧‧‧First scale zoom module

14‧‧‧Second scale zoom module

20‧‧‧Control unit

21‧‧‧Microprocessor

22‧‧‧Control Module

30‧‧‧Servo unit

31‧‧‧Servo drive

32‧‧‧Server

40‧‧‧ Temperature Sensing Module

50‧‧‧Humidity sensing module

200‧‧‧Testing machine

Figure 1 is a schematic diagram of the control interface of a conventional testing machine.

Figure 2 is a block diagram of the control interface of the present invention.

Figure 3 is a schematic diagram of the temperature program editing of the present invention.

Figure 4 is a schematic illustration of the enlarged temperature scale of the present invention.

Figure 5 is a schematic diagram of the editing of the selected humidity program of the present invention.

Figure 6 is a schematic diagram of the editing of the humidity program of the present invention.

Figure 7 is a schematic diagram of the completion of the temperature and humidity program editing of the present invention.

Figure 8 is a schematic diagram of the editing of the time-sequence program of the present invention.

Figure 9 is a schematic diagram of a program preview of the present invention.

Please refer to FIG. 2 and FIG. 3 , which are block diagrams of the control interface of the present invention and a schematic diagram of temperature program editing. The control interface of the testing machine is disclosed. The control interface of the testing machine includes: A touch screen 10 is displayed with a window 11 including a program editing field 111, a first scale field 112, a second scale field 113, and a third scale column. In the present invention, the first scale field 112 is a temperature scale field 1121, the second scale field 113 is a humidity scale field 1131, and the third scale field 114 is a section. The sub-scale field 1141, but this is only an embodiment, and is not limited to the embodiment of the present invention, the first scale field 112 may also be selected as a humidity scale field or a pressure scale field, and the The second scale field 113 can also be selected as a temperature scale field or a pressure scale field. The stage scale field 1141 is horizontally disposed and adjacent to the program editing field 111, the temperature scale field. 1121 is set vertically and adjacent to the program editing field 111 On the left side, the humidity scale field 1131 is longitudinally disposed and is adjacent to the right side of the program editing field 111 with respect to the temperature scale field 1121, and the temperature scale field 1121 and the step scale field 1141 are The program editing field 111 defines a temperature control coordinate, and the humidity scale field 1131 and the step scale field 1141 define a humidity control coordinate in the program editing field 111, and the temperature control coordinate And the humidity control coordinate system overlaps, and the program editing field 111 is a curved program editing field, and the window 11 further includes a number function menu 115 and a number function button 116, wherein the function menu 115 The system includes a program menu, delete, loop editing, control editing, segment time editing and program preview function selection keys. The function buttons 116 include left shift, right shift, left shift and right shift unit switch and archive key. The touch screen 10 further includes a detecting unit 12, a first scale zooming module 13, and a second scale zooming module 14. In the present invention, the first scale zooming module 13 is a Temperature scale reduction The second scale zoom module 14 is a humidity scale zoom module, wherein the detection unit 12 is configured to detect an operator's touch position and touch operation on the window 11, and the a scale zoom module 13 opposite to the detecting unit 12 Detecting that one of the temperature scale fields 1121 is longitudinally moved to perform scaling of the temperature scale, and the second scale zooming module 14 detects the longitudinal movement of the humidity scale field 1131 relative to the detecting unit 12 to perform scaling of the humidity scale. However, this is only an embodiment, and is not limited to the embodiment of the present invention. The first scale zoom module 13 can be selected as a humidity scale zoom module or a pressure in conjunction with the first scale field 112. The scale zoom module 14 and the second scale zoom module 14 can be selected as a temperature scale zoom module or a pressure scale zoom module in conjunction with the second scale field 113.

A control unit 20, the control unit 20 includes a microprocessor 21 and a control module 22, the microprocessor 21 is connected to the touch screen 10 at one end, and the microprocessor 21 is connected to the control. The modules 22 are connected.

a servo unit 30, the servo unit 30 includes a servo driver 31 and a server 32. One end of the servo driver 31 is connected to the control module 22, and the other end of the servo driver 32 is connected to the server 32. The server 32 is further connected to a testing machine 200.

A temperature sensing module 40 is connected to the microprocessor 21 for performing temperature measurement. In the present invention, the temperature sensing module 40 is disposed in the testing machine 200.

The humidity sensing module 50 is connected to the microprocessor 21 and is configured to perform the measurement of the humidity. In the present invention, the humidity sensing module 50 is disposed in the testing machine 200, but this is only an implementation. For example, rather than limiting the embodiment of the present invention, the humidity sensing module 50 can be selected as a pressure sensing module.

For a further understanding of the structural features of the present invention, the application of the technical means, and the intended effect, the present invention will be described. It is believed that a more in-depth and specific understanding of the invention can be obtained as follows: When operating the control interface of the test machine, first use the function menus on the touch screen window to enter a program menu window to select a program or create a new program, select a program or complete a new program, then enter The program edits the field.

Please continue to refer to Figure 3, when the window 11 displays the program edit bar. When the bit is 111, the operator can select the temperature scale column corresponding to the left side of the program editing field 111 according to the order of the sub-scale field 1141 set horizontally below the program editing field 111. Bit 1121, in other words, is in the temperature control coordinate defined by the temperature scale field 1121 and the segment scale field 1141, and selects the program temperature to be set for each segment of the segment scale field 1141. The program setting can be easily performed by the operator selecting the action of the touch point in the program edit field 111.

Please continue to refer to Figure 4, and please refer to Figure 3, when the operator wants to further enlarge the temperature scale field 1121, to select the desired temperature at a precise location, only need to go along Zooming in on the temperature scale field 1121 from bottom to top, you can zoom in on the temperature scale field 1121 of the interval, so that the operator can easily and accurately select the desired temperature. When the operator completes the setting of the temperature scale field 1121 of the section, and wants to restore the scale of the original temperature scale field 1121, it only needs to move down from the top to the scale of the temperature scale field 1121 of the enlarged scale by more than 1 scale. The scale of the original temperature scale field 1121 can be restored.

Please continue to refer to Figure 5 to Figure 7. When the operator finishes the temperature control program setting and wants to edit the humidity control program settings, just click on the humidity scale field on the right side of the program edit field 111. 1131, the original temperature control coordinate can be directly switched to the humidity control coordinate, so that the operator can directly select the program humidity corresponding to each segment of the segment scale field 1141 directly in the program editing field 111. The program setting can be easily performed by the operator selecting the action of the touch point in the program edit field 111.

It is worth mentioning that when the operator wants to delete the selected program, just click the delete function selection button of the function menu 115, and then click the program to edit the field on the edit field 111. The temperature or humidity program setting can be used to delete the temperature or humidity program settings.

Please continue to refer to Figure 7 and Figure 8. After the operator completes the temperature and humidity program setting, click the time-selection function selection button of the function menu 115, and the time will be edited. At this point, there will be a flash in the upper left corner of the program editing field. Squeeze the signal to indicate the number of times the input is being selected. The operator only needs to click the number key on the edit time window to enter the time, and then click the time to edit the small window. Enter the key to complete the time setting of the paragraph, and directly edit the set time of the next time, complete the last time setting, that is, complete the time setting of each time of the paragraph.

In addition, the program temperature, humidity and time of the program to be set in each section of the program editing field are selected, and the operator can select the control editing function selection button of the function menu 115 to edit the program editing field 111. Each stage of the control, in addition, you can click the loop edit function selection button of the function menu 115 to edit the program edit field 111 to cycle the execution of the set, and the number of cycles.

Please continue to refer to Figure 9. After the operator completes all the program settings, he can click the program preview function selection button of the function menu 115 to preview the program settings of the program edit field 111, including its Temperature setting, humidity setting, time setting, control setting, and cycle setting, etc., allow the operator to confirm all the settings. Then, the archive button of the function button 116 can be clicked to store the program.

Please continue to refer to FIG. 2, after the operator completes the program setting by using the touch screen 10, the set program can be input to the microprocessor 21, and the appropriate temperature change gradient and humidity change gradient are selected. That is, the slope of the temperature change and the slope of the humidity change. At this time, the temperature sensing module 40 and the humidity sensing module 50 sense the temperature and humidity gradient of the environment to be tested of the testing machine 200. When the temperature sensing module 40 detects that the ambient temperature gradient of the testing machine 200 is faster than the predetermined temperature, the microprocessor 21 converts the control module 22 into the servo driver 31. The control code causes the servo driver 31 to control the temperature control device of the testing machine 200 according to the control code transmitted by the microprocessor 21, so that the temperature gradient of the environment to be tested of the testing machine 200 can be changed according to the program setting. When the humidity sensing module 50 measures that the humidity gradient of the environment to be tested of the testing machine 200 changes faster than the predetermined humidity, the microprocessor 21 converts the control module 22 into the control required by the servo driver 31. The code is controlled so that the servo driver 31 controls the humidity control device of the testing machine 200 according to the control code transmitted by the microprocessor 21, so that the humidity gradient of the environment to be tested of the testing machine 200 can be changed according to the program setting.

Further, the features of the present invention and the achievable expected effects thereof are as follows: the control interface of the testing machine of the present invention allows the operator to control the coordinates and the humidity control respectively at the temperature by means of an image touch setting. In the coordinates of the coordinates, the temperature program setting and the humidity program setting of the corresponding sub-scale field are selected, so that the operator can easily set the program through the touch point selection action of the program editing field.

It should be noted that the control interface of the testing machine of the present invention is merely an embodiment, and is not limited to the embodiment of the present invention. In addition to the above control of temperature and humidity, the control interface of the testing machine is also The temperature and pressure can be controlled in conjunction with the test machine, or the humidity and pressure can be controlled.

In summary, the present invention has excellent advancement and practicability in similar products, and at the same time, the technical materials of such structures are frequently investigated at home and abroad, and the same structure is not found in the literature. The invention already has the invention patent requirements, and the application is filed according to law.

However, the above-mentioned ones are merely preferred embodiments of the present invention, and the equivalent structural changes of the present invention and the scope of the claims are intended to be included in the scope of the present invention.

10‧‧‧ touch screen

11‧‧‧Window

111‧‧‧Program editing field

112‧‧‧ first scale field

1121‧‧‧temperature scale field

113‧‧‧second scale field

1131‧‧‧ Humidity scale field

114‧‧‧ third scale field

1141‧‧‧Segment scale field

115‧‧‧Function Menu

116‧‧‧ function button

Claims (10)

A control interface of a testing machine includes: a touch screen, the touch screen displays a window, the window includes a program editing field, a first scale field, a second scale field, and a third scale field, wherein the first scale field and the third scale field are defined in the program edit field to define a first control coordinate, the second scale field and the third scale field In the program editing field, a second control coordinate is defined, and the first control coordinate is overlapped with the second control coordinate; thereby, the operator can select the first control coordinate respectively. The third scale field corresponds to the programming of the first scale field, and the third scale field is selected in the second control coordinate corresponding to the program setting of the second scale field, by the operator The program edits the field's touch point selection action to easily complete the program setting. According to the control interface of the testing machine of claim 1, wherein the touch screen further comprises a detecting unit, a first scale zooming module and a second scale zooming module, the first moment The zoom module detects a vertical movement of the first scale field relative to the detecting unit to perform scaling, and the second scale zoom module detects one of the second scale fields with respect to the detecting unit. Longitudinal movement to scale the scale. The control interface of the testing machine according to the second aspect of the patent application, further comprising a control unit, a first sensing module and a second sensing module, the control unit comprising a microprocessor and a control a module, the microprocessor is connected to the touch screen at one end, the other end of the microprocessor is connected to the control module, and the microprocessor is coupled to the first sensing module and the second sensing The modules are connected. According to the control interface of the test machine of claim 1, further comprising a servo unit, the servo unit includes a server and a servo driver, and the servo driver is connected to the control module at one end. The other end of the servo drive is connected to the server, and the server is further connected to a testing machine. According to the control interface of the testing machine described in claim 1, wherein the program editing field is a curved program editing field. According to the control interface of the testing machine described in claim 1, wherein the window further includes a plurality of function menus, a number function button and a program menu window, wherein the function menu includes a program menu, deletion, loop editing, Control editing, segment time editing and program preview function selection buttons, which include left shift, right shift, left shift and right shift unit switch and archive button. According to the control interface of the testing machine of claim 1, wherein the third scale field is horizontally disposed adjacent to the program editing field, the first scale field and the second scale column The position is set vertically and adjacent to the program edit field. According to the control interface of the testing machine of claim 3, wherein the first scale field is a temperature scale field, and the second scale field is a humidity scale field, the third The scale field is a sub-scale field, and the temperature scale field and the step scale column are located in the program edit field to define a temperature control coordinate, and the humidity scale field is located with the step scale column. The program editing field defines a humidity control coordinate, and the first sensing module is a temperature sensing module, the second sensing module is a humidity sensing module, and the first scaling is performed. The module is a temperature scale zoom module, and the second scale zoom module is a humidity scale zoom module. According to the control interface of the testing machine of claim 3, wherein the first scale field is a temperature scale field, and the second scale field is a pressure scale field, the third The scale field is a sub-scale field, and the temperature scale field and the step scale column are located in the program edit field to define a temperature control coordinate, and the pressure scale field is located in the step scale column. The program editing field defines a pressure control coordinate, and the first sensing module is a temperature sensing module, the second sensing module is a pressure sensing module, and the first scale is zoomed. The module is a temperature scale zoom module, and the second scale zoom module is a pressure scale zoom module. According to the control interface of the testing machine described in claim 3, wherein the first scale field is a humidity scale field, and the second scale field is a pressure scale field. The third scale field is a sub-scale field, and the humidity scale field and the step scale column are located in the program edit field to define a humidity control coordinate, the pressure scale field and the segment The scale bar is located in the program edit field to define a pressure control coordinate, and the first sensor module is a humidity sensing module, and the second sensor module is a pressure sensing module, and the first The scale zoom module is a humidity scale zoom module, and the second scale zoom module is a pressure scale zoom module.