CN111475028A - Screen-free detection method - Google Patents

Abstract

The screenless detection method comprises the steps of redesigning a driving structure of a detection board after a screen is removed, simplifying the transmission flow and the transmission stability, creatively using an air-spaced touch IC in the detector, wherein the air-spaced touch IC is never applied to detection medical equipment, and the air-spaced touch IC can perform simple touch operation without additionally adding the screen and can perform touch control through a thinner material. Thirdly, the mobile phone is creatively introduced into the system, so that the detected data can be read in the mobile phone, the defect that a plug-in storage device is adopted in the prior art is completely overcome, and the data can be imported into the server to form a part of big data after being transmitted to the mobile phone.

Description

Screen-free detection method

Technical Field

The invention relates to a screenless detection method, in particular to a detection method of a screenless colloidal gold screenless detector.

Background

At present, detection instruments of medical instruments are more and more complex to detect, detection personnel can read detection states, user information and the like through a screen. However, first, many users need to protect their privacy as a medical disease detection, and are very reluctant to display their information and detection results on a screen; secondly, most of the detected data are processed without being displayed on a screen, and only the equipment is required to be uploaded to a server or other terminals and displayed on the server or other terminals; again, the cost of the screen in a test meter provided with the screen can often account for 1/4 or more of the overall test meter.

Disclosure of Invention

In view of the above, the present invention provides a non-screen detection system, which, firstly, greatly saves the manufacturing cost, secondly, realizes the non-display storage of the detection result and the password of the protected user, and simultaneously, the storage of the data is beneficial to the subsequent reading and the analysis of the big data, and thirdly, after the screen is saved, the function as the screen is realized by using the cheap spaced touch IC.

The specific technical scheme of the invention is as follows:

a screenless detection method, the method comprising:

the non-screen detection instrument comprises an upper cover, a lower cover, a main board, a detection board and a battery, wherein the upper cover and the lower cover form an internal space, and the main board, the detection board and the battery are arranged in the internal space; the flange, motor and motor mount are configured to: the flange is provided with at least two flange hole sites, the motor base is provided with a motor base hole site corresponding to the at least two flange hole sites, one of the at least two flange rods penetrates through one of the at least two flange hole sites and then is inserted into one of the at least two motor base hole sites, and the other of the at least two flange rods penetrates through the other of the at least two flange hole sites and then is inserted into the other of the at least two motor base hole sites, so that the flange can move close to and away from the motor base along the at least two parallel flange rods under the condition of no rotation; the at least two flange rods are parallel to the output shaft; when the motor drives the output shaft to rotate forwardly, the output shaft drives the flange to translate along the output shaft in the direction away from the motor base until the sleeve is contacted with the other blocking piece; when the motor drives the output shaft to rotate reversely, the output shaft drives the flange to translate along the output shaft towards the direction close to the motor base until the flange is contacted with the blocking piece; four guide rod seats are arranged on the right side of the bottom plate, each two guide rod seats support one guide rod, the four guide rod seats support two guide rods, and each guide rod is parallel to the output shaft; a connecting arm is fixed on the sleeve and connected with a moving strip, the moving strip is provided with two guide rod holes, the two guide rods respectively penetrate through the two guide rod holes, and when the flange moves under the driving of a motor, the moving strip moves along the two guide rods; a detection clamping groove is formed in the bottom plate; a detection light board is arranged on the moving strip; the detection light board can be driven by the motor, so that the detection light board can move above the reagent card inserted into the detection card slot, and thus, the optical head scanning is carried out on the reagent card; the detection plate is arranged on the lower cover, and a heating plate and a battery are also arranged between the detection plate and the lower cover; the mainboard is also provided with an air-spaced touch IC sheet vertical to the mainboard, and the distance between the air-spaced touch IC sheet and one side surface of the upper cover is less than 1-2 mm; the main board is also provided with a Bluetooth chip, and the non-screen detector is connected with a non-screen detector application APP of the smart phone through the Bluetooth chip;

presetting a gesture, wherein the presetting is carried out on an interactive gesture of a user for controlling an air-spaced touch IC through a non-screen detector APP in the smart phone;

the preset at least comprises a first gesture, interactive gesture setting of the APP is started, after a user performs operation of the first gesture on one side face of the upper cover closest to the spaced touch IC, the first gesture is mapped and associated with heating, and in the operation process, once the first gesture is detected, the heating plate heats the detection plate to 25 ℃;

the preset device at least comprises a second gesture, the interactive gesture setting of the APP is started, after a user performs operation of the second gesture on one side face of the upper cover closest to the spaced touch IC, the second gesture is mapped and associated with scanning, and in the operation process, once the second gesture is detected, a motor is started to drive the detection light board to move on the reagent card;

the preset at least comprises a third gesture, interactive gesture setting of the APP is started, and after a user performs operation of the third gesture on one side face of the upper cover closest to the spaced touch IC, the third gesture is mapped and associated with uploading, so that in the operation process, once the third gesture is detected, detected data are automatically uploaded to the smart phone;

the detector is started, and a judgment unit of the detector performs the following judgment:

judging whether the air-spaced touch IC is operated by the first gesture, if so, starting the heating sheet, and when the judging unit judges that the temperature of a detected point of the detection plate reaches 25 ℃, a first L ED lamp on the main board is turned on, and controlling the heating sheet to keep heat output so that the detection plate maintains 25 ℃;

judging whether the spaced touch IC is operated by the second gesture, if so, starting a motor to drive the detection light board, and when the judging unit judges that the scanning of the detection light board is finished, lighting a second L ED lamp on the main board;

judging whether the air-spaced touch IC is operated by the third gesture or not, if so, automatically uploading detected data to the smart phone, and after the judgment unit judges that the data is uploaded to the smart phone, lighting a third L ED lamp on the mainboard;

and when the judging unit judges that no detection card exists in the reagent card slot, L ED lamps on all the main boards are turned off.

Further, the preset device at least comprises a fourth gesture, the interactive gesture setting of the application APP of the non-screen detector is started, and after a user performs the operation of the fourth gesture on one side surface of the upper cover closest to the spaced touch IC, the fourth gesture is mapped and associated with ejection, so that in the operation process, once the fourth gesture is detected, the detection card is ejected.

Further, the first gesture is a triple-click, the second gesture is a left-sliding gesture, and the third gesture is a sliding-down and then sliding-up.

Further, the main board is arranged above the detection board through a support rod.

Further, the mainboard is provided with a switch point, four L ED lamps, an ID bayonet, a power line interface, a power indicator lamp and a network line interface.

Furthermore, the upper cover is provided with a power button, four led lamp holes, an ID card insertion port, a power line socket, a power indication lamp socket and a network line socket at positions corresponding to the switch point, the four L ED lamps, the ID bayonet, the power line interface, the power indication lamp and the network line interface.

Further, an ID card two-dimensional code matching section is provided below the ID card insertion port.

Further, the detection plate is arranged on the lower cover, and a heating plate and a battery are further arranged between the detection plate and the lower cover.

Furthermore, an isolated touch IC sheet perpendicular to the main board is arranged on the main board for measurement.

Further, the space touch IC sheet is arranged on one side with the ID buckle.

Further, the output shaft of the motor is parallel to the bottom plate and is higher than the bottom plate.

Further, the inner hole of the flange is provided with threads.

Through the screen-free detection system, firstly, a driving structure of a detection plate after a screen is removed is redesigned, the transmission flow and the transmission stability are simplified (especially, the transmission of a flange, a sleeve and a plurality of guide rods is adopted, so that the defect of inaccurate detection caused by the transmission of the previous detection optical head is completely eliminated), and secondly, an air-spaced touch IC is creatively used in the detector, the air-spaced touch IC is never applied to detection medical equipment, the air-spaced touch IC can perform simple touch operation under the condition of not additionally adding the screen, and touch can be performed through thin materials (the shell of the screen-free detection system is made of plastic or glass materials, and the air-spaced signals of the air-spaced touch IC cannot be influenced). Thirdly, the mobile phone is creatively introduced into the system, so that the detected data can be read in the mobile phone, the defect that a plug-in storage device (a floppy disk, a U disk or a similar flash memory device is adopted at first) is completely overcome, and after the data is transmitted to the mobile phone, the data can be imported into the server to form a part of big data.

Drawings

Fig. 1 is an overall configuration diagram of the detector of the present invention.

Fig. 2 is a structure diagram of the main board of the present invention.

Fig. 3 is a structural view of a pickup plate (no optical head) of the present invention.

Fig. 4 is a structural view of a pickup plate (pick-up head) of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are a part of the embodiments of the present invention, but not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The terminology used in the embodiments of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in the examples of the present invention and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, and "a" and "an" generally include at least two, but do not exclude at least one, unless the context clearly dictates otherwise.

It should be understood that the term "and/or" as used herein is merely one type of association that describes an associated object, meaning that three relationships may exist, e.g., a and/or B may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship.

As shown in the attached figure 1, the structure of the screenless detector comprises an upper cover, a lower cover, a main board 2, a detection board 3 and a battery. The upper cover 11 and the lower cover 14 form an inner space in which the main board 2, the detection board 3, and the battery are disposed.

As shown in fig. 3 and 4, the detection plate 3 includes a bottom plate 33, a motor base 31 is disposed on the left side of the bottom plate 33, a motor is horizontally mounted on the motor base 31, an output shaft of the motor is parallel to the bottom plate 33 and is higher than the bottom plate 33, the output shaft is a screw rod, a flange 32 with an internal thread is disposed on the output shaft, a sleeve is disposed at one end of the flange 32 far from the motor, the sleeve is fixedly connected with the flange 32, and the sleeve has an internal thread.

The flange, motor and motor mount are configured to:

the flange is provided with at least two flange hole sites, the motor base is provided with a motor base hole site corresponding to the at least two flange hole sites, one of the at least two flange rods penetrates through one of the at least two flange hole sites and then is inserted into one of the at least two motor base hole sites, and the other of the at least two flange rods penetrates through the other of the at least two flange hole sites and then is inserted into the other of the at least two motor base hole sites, so that the flange can move close to and away from the motor base along the at least two parallel flange rods under the condition of no rotation; the at least two flange rods are parallel to the output shaft; when the motor drives the output shaft to rotate forwardly, the output shaft drives the flange to translate along the output shaft in the direction away from the motor base until the sleeve is contacted with the other blocking piece; when the motor drives the output shaft to rotate reversely, the output shaft drives the flange to translate along the output shaft towards the direction close to the motor base until the flange is contacted with the blocking piece.

As shown in fig. 3, two flaps allow two extreme positions of the flange 32.

As shown in fig. 4, a connecting arm is fixed to the sleeve, and the connecting arm also has two limit positions 321 and 322 corresponding to the two limit positions.

Four guide rod seats 36 are arranged on the right side of the bottom plate 33, each two guide rod seats support one guide rod (such as a guide rod 35 and a guide rod 36 in fig. 4), and the four guide rod seats 36 support two guide rods, and each guide rod is parallel to the output shaft.

The connecting arm is connected with a moving strip, two guide rod holes are formed in the moving strip, the two guide rods respectively penetrate through the two guide rod holes, and when the flange moves under the driving of the motor, the moving strip moves along the two guide rods. The moving strip is provided with a detection light board.

A test card slot 37 is provided on the base plate.

The main board 2 is disposed above the detection board 3 through a support bar, as shown in fig. 2, the main board 2 has a switch point 27, four L ED lamps 26, an ID bayonet 22, a power line interface 24, a power indicator lamp 23 and a network line interface 21, a power button 17, four led lamp holes 16, an ID card insertion port 12, a power line insertion port, a power indicator lamp socket and a network line insertion port are respectively disposed on the upper cover 11 corresponding to the switch point 27, the four L ED lamps 26, the ID bayonet 22, the power line interface 24, the power indicator lamp 23 and the network line interface 21, and preferably, an ID card two-dimensional code comparison portion 13 is disposed below the ID card insertion port 12.

The detection plate 3 is arranged on the lower cover 14, and a heating plate and a battery are further arranged between the detection plate 3 and the lower cover 14.

An empty touch IC sheet perpendicular to the main board is arranged on the main board 2, the empty touch IC sheet is arranged on one side with an ID buckle 22, and the distance between the empty touch IC sheet and the side face of the upper cover with the ID card insertion opening 12 is smaller than 1-2 mm; preferably less than 1mm, so that the touch effect is better.

In the aspect of control, a Bluetooth chip is further arranged on the mainboard depending on wireless data transmission, and the non-screen detector can be connected with a non-screen detector application APP of the smart phone through the Bluetooth chip;

presetting a gesture, wherein the presetting is carried out on an interactive gesture of a user for controlling an air-spaced touch IC through a non-screen detector APP in the smart phone;

the preset at least comprises a first gesture, interactive gesture setting of the APP is started, after a user performs operation of the first gesture on one side face of the upper cover closest to the spaced touch IC, the first gesture is mapped and associated with heating, and in the operation process, once the first gesture is detected, the heating plate heats the detection plate to 25 ℃;

the preset device at least comprises a second gesture, the interactive gesture setting of the APP is started, after a user performs operation of the second gesture on one side face of the upper cover closest to the spaced touch IC, the second gesture is mapped and associated with scanning, and in the operation process, once the second gesture is detected, a motor is started to drive the detection light board to move on the reagent card;

the preset at least comprises a third gesture, interactive gesture setting of the APP is started, and after a user performs operation of the third gesture on one side face of the upper cover closest to the spaced touch IC, the third gesture is mapped and associated with uploading, so that in the operation process, once the third gesture is detected, detected data are automatically uploaded to the smart phone;

the detector is started, and a judgment unit of the detector performs the following judgment:

judging whether the air-spaced touch IC is operated by the first gesture, if so, starting the heating sheet, and when the judging unit judges that the temperature of a detected point of the detection plate reaches 25 ℃, a first L ED lamp on the main board is turned on, and controlling the heating sheet to keep heat output so that the detection plate maintains 25 ℃;

judging whether the spaced touch IC is operated by the second gesture, if so, starting a motor to drive the detection light board, and when the judging unit judges that the scanning of the detection light board is finished, lighting a second L ED lamp on the main board;

judging whether the air-spaced touch IC is operated by the third gesture or not, if so, automatically uploading detected data to the smart phone, and after the judgment unit judges that the data is uploaded to the smart phone, lighting a third L ED lamp on the mainboard;

and when the judging unit judges that no detection card exists in the reagent card slot, L ED lamps on all the main boards are turned off.

The gesture may be a single click, a slide up, a slide down, a double click, a triple click, etc., or a combination thereof. Of course, to prevent malfunction, the gesture is generally set to be slightly more complicated.

Through the screen-free detection system, firstly, a driving structure of a detection plate after a screen is removed is redesigned, the transmission flow and the transmission stability are simplified (especially, the transmission of a flange, a sleeve and a plurality of guide rods is adopted, so that the defect of inaccurate detection caused by the transmission of the previous detection optical head is completely eliminated), and secondly, an air-spaced touch IC is creatively used in the detector, the air-spaced touch IC is never applied to detection medical equipment, the air-spaced touch IC can perform simple touch operation under the condition of not additionally adding the screen, and touch can be performed through thin materials (the shell of the screen-free detection system is made of plastic or glass materials, and the air-spaced signals of the air-spaced touch IC cannot be influenced). Thirdly, the mobile phone is creatively introduced into the system, so that the detected data can be read in the mobile phone, the defect that a plug-in storage device (a floppy disk, a U disk or a similar flash memory device is adopted at first) is completely overcome, and after the data is transmitted to the mobile phone, the data can be imported into the server to form a part of big data.

Through foretell no screen detector structure, the position of each part is rationally arranged, and sets up and separate empty touch IC piece and heating plate for can simulate the required temperature of detecting the card and carry out the detection of shaven head to detecting the card.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. A screenless detection method, the method comprising:

the non-screen detection instrument comprises an upper cover, a lower cover, a main board, a detection board and a battery, wherein the upper cover and the lower cover form an internal space, and the main board, the detection board and the battery are arranged in the internal space; the flange, motor and motor mount are configured to: the flange is provided with at least two flange hole sites, the motor base is provided with a motor base hole site corresponding to the at least two flange hole sites, one of the at least two flange rods penetrates through one of the at least two flange hole sites and then is inserted into one of the at least two motor base hole sites, and the other of the at least two flange rods penetrates through the other of the at least two flange hole sites and then is inserted into the other of the at least two motor base hole sites, so that the flange can move close to and away from the motor base along the at least two parallel flange rods under the condition of no rotation; the at least two flange rods are parallel to the output shaft; when the motor drives the output shaft to rotate forwardly, the output shaft drives the flange to translate along the output shaft in the direction away from the motor base until the sleeve is contacted with the other blocking piece; when the motor drives the output shaft to rotate reversely, the output shaft drives the flange to translate along the output shaft towards the direction close to the motor base until the flange is contacted with the blocking piece; four guide rod seats are arranged on the right side of the bottom plate, each two guide rod seats support one guide rod, the four guide rod seats support two guide rods, and each guide rod is parallel to the output shaft; a connecting arm is fixed on the sleeve and connected with a moving strip, the moving strip is provided with two guide rod holes, the two guide rods respectively penetrate through the two guide rod holes, and when the flange moves under the driving of a motor, the moving strip moves along the two guide rods; a detection clamping groove is formed in the bottom plate; a detection light board is arranged on the moving strip; the detection light board can be driven by the motor, so that the detection light board can move above the reagent card inserted into the detection card slot, and thus, the optical head scanning is carried out on the reagent card; the detection plate is arranged on the lower cover, and a heating plate and a battery are also arranged between the detection plate and the lower cover; the mainboard is also provided with an air-spaced touch IC sheet vertical to the mainboard, and the distance between the air-spaced touch IC sheet and one side surface of the upper cover is less than 1-2 mm; the main board is also provided with a Bluetooth chip, and the non-screen detector is connected with a non-screen detector application APP of the smart phone through the Bluetooth chip;

presetting a gesture, wherein the presetting is carried out on an interactive gesture of a user for controlling an air-spaced touch IC through a non-screen detector APP in the smart phone;

the preset at least comprises a first gesture, interactive gesture setting of the APP is started, after a user performs operation of the first gesture on one side face of the upper cover closest to the spaced touch IC, the first gesture is mapped and associated with heating, and in the operation process, once the first gesture is detected, the heating plate heats the detection plate to 25 ℃;

the preset device at least comprises a second gesture, the interactive gesture setting of the APP is started, after a user performs operation of the second gesture on one side face of the upper cover closest to the spaced touch IC, the second gesture is mapped and associated with scanning, and in the operation process, once the second gesture is detected, a motor is started to drive the detection light board to move on the reagent card;

the preset at least comprises a third gesture, interactive gesture setting of the APP is started, and after a user performs operation of the third gesture on one side face of the upper cover closest to the spaced touch IC, the third gesture is mapped and associated with uploading, so that in the operation process, once the third gesture is detected, detected data are automatically uploaded to the smart phone;

the detector is started, and a judgment unit of the detector performs the following judgment:

judging whether the air-spaced touch IC is operated by the first gesture, if so, starting the heating sheet, and when the judging unit judges that the temperature of a detected point of the detection plate reaches 25 ℃, a first L ED lamp on the main board is turned on, and controlling the heating sheet to keep heat output so that the detection plate maintains 25 ℃;

judging whether the spaced touch IC is operated by the second gesture, if so, starting a motor to drive the detection light board, and when the judging unit judges that the scanning of the detection light board is finished, lighting a second L ED lamp on the main board;

judging whether the air-spaced touch IC is operated by the third gesture or not, if so, automatically uploading detected data to the smart phone, and after the judgment unit judges that the data is uploaded to the smart phone, lighting a third L ED lamp on the mainboard;

and when the judging unit judges that no detection card exists in the reagent card slot, L ED lamps on all the main boards are turned off.

2. The method according to claim 1, characterized in that said presets further comprise at least a fourth gesture, starting an interactive gesture setting of said non-screen tester application APP, mapping said fourth gesture with a pop-up after a user has performed an operation of said fourth gesture on one side of said cover closest to said spaced touch IC, so that during operation, upon detection of said fourth gesture, said test card is popped up.

3. The method of claim 1, wherein the first gesture is a triple tap, the second gesture is a left swipe, and the third gesture is a downslide and a backslide.

4. The method of claim 1, wherein the main panel is positioned over the detection panel by a support bar.

5. The method of claim 1, wherein the motherboard has a switch point, four L ED lights, an ID card socket, a power line interface, a power indicator light, and a network line interface.

6. The method as claimed in claim 5, wherein a power button, four led lamp holes, an ID card insertion port, a power line socket, a power indicator socket and a network line socket are respectively provided on the upper cover at positions corresponding to the switch point, the four L ED lamps, the ID card socket, the power line interface, the power indicator lamp and the network line interface.

7. The method according to claim 6, wherein an ID card two-dimensional code collating portion is provided below the ID card insertion port.

8. The method of claim 1, wherein the air-touch IC chip is disposed on a side having an ID snap.

9. The method of claim 1, wherein the output shaft of the motor is parallel to and above the base plate.

10. The method of claim 1, wherein the inner bore of the flange is threaded.

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