CN218726492U - Conducting polymer hydrogel illumination experimental device - Google Patents

Abstract

The utility model provides a conducting polymer aquogel illumination experimental apparatus, relate to conducting polymer technical field, including the experimental apparatus shell, the test box, a supporting rack, glass steel test container, the support frame has been arranged to experimental apparatus shell inside, glass steel test container, LED lamp area has been arranged to its inner wall, the transformer has been arranged in the test box, current transformer, slide rheostat, a weighing sensor, signal collector, signal standardization treater, the illumination switch, the experimental apparatus top cap has been arranged at experimental apparatus shell top, the test box top cap has been arranged at the test box top, liquid crystal display has been arranged on the test box top cap, glass steel test container includes upper portion glass steel sheet, lower part glass steel sheet, upper portion glass steel sheet, lower part glass steel sheet contact part has been arranged, the test electrode, the filling opening has been arranged on the upper portion glass steel sheet, the sealing plug, novel device is professional conducting polymer aquogel experimental apparatus for, play guiding effect to conducting polymer aquogel's practical application.

Description

Conducting polymer hydrogel illumination experimental device

Technical Field

The utility model relates to a conducting polymer technical field, concretely relates to conducting polymer aquogel illumination experimental apparatus.

Background

With the great demand of people for flexible, wearable and portable devices, many studies based on flexible electronic technology have been developed in the fields of biomedicine, movable photovoltaics, energy devices, biomimetic materials, etc., flexible sensors provide possibilities for realizing real-time monitoring of people, and early studies of flexible wearable sensors have mainly focused on physical sensors for monitoring human motion and vital signs, such as for detecting pressure/stretch, inertial force, heart rate, temperature and stride. In recent years, flexible wearable sensors have shifted from tracking physical signals to tracking chemical signals for health management such as disease diagnosis and monitoring and man-machine intelligent interaction, and most of the existing flexible wearable chemical and biological sensors include the following basic units: a sensor part (chemical sensor component that converts identification signals into useful information), a flexible wearable part consisting of flexible polymer substrates (PDMS, PI, and PET) and wearable materials (bandages, gloves, and glasses), and an electrolyte storage part.

The conductive polymer hydrogel (such as polyaniline, polythiophene, polypyrrole and PEDOT) combines the unique performance of the hydrogel and the good conductivity, excellent electric responsiveness, adjustable chemical properties and excellent processing performance of the conductive polymer, and is a potential electrode material of a flexible wearable sensor.

Conductive polymer aquogel is along with the extension of live time, illumination ageing can appear, can make conductive polymer aquogel's electric conductive property carry out the decline of certain extent, however conductive polymer aquogel's direction of use is more, corresponding ratio mode is also more, there is not certain regularity about conductive polymer aquogel illumination ageing, consequently, illumination ageing tests to different prescription conductive polymer aquogel is especially important, the illumination ageing law of body conductive polymer aquogel can actually be tested, and can play guiding effect to conductive polymer aquogel development, but do not have relevant professional experimental apparatus at present, based on the problem, the utility model provides a conductive polymer aquogel illumination experimental apparatus.

Disclosure of Invention

The utility model provides an illumination experimental apparatus of conducting polymer aquogel, novel device cost is low, convenient to use, operation precision are high, can satisfy the illumination experiment of multiple conducting polymer aquogel, through transformer, the use of slide rheostat, can simulate different voltage, electric current, can more accurate acquire the experimental parameters of the illumination ageing process of conducting polymer aquogel, the utility model discloses the device is experimental apparatus for the conducting polymer aquogel of specialty, plays guiding effect to the practical application of conducting polymer aquogel.

The utility model provides a conducting polymer aquogel illumination experimental apparatus, includes experimental apparatus shell, test box, support frame, glass steel test container, the experimental apparatus shell is connected with the test box, the support frame has been arranged to experimental apparatus shell inside, glass steel test container has been arranged at the support frame top, LED lamp area has been arranged to experimental apparatus shell inner wall, transformer, current transformer, slide rheostat, temperature sensor, signal of telecommunication collector, signal standardization treater, illumination switch have been arranged to the test box in, transformer, slide rheostat, glass steel test container connect into conductive loop through the test cable, the test cable runs through and arranges in current transformer, temperature sensor is connected with the temperature sensing probe, the temperature sensing probe stretches into the experimental apparatus shell inside, the signal of telecommunication collector is connected with current transformer, temperature sensor through the cable.

The experimental device top cap has been arranged at experimental device shell top, experimental device shell and experimental device top cap are through folding paper connection, fixed through the buckle, the test box top cap has been arranged at the test box top, test box and test box top cap are through folding paper connection, fixed through the buckle, liquid crystal display has been arranged on the test box top cap, signal of telecommunication collector, signal standardization treater, liquid crystal display connect gradually through the cable.

Glass steel test container includes upper portion glass steel sheet, lower part glass steel sheet, upper portion glass steel sheet, lower part glass steel sheet pass through sealing bolt fixed connection, test groove, test electrode have been arranged to upper portion glass steel sheet, lower part glass steel sheet contact segment, test electrode is connected with the test cable, the filling opening has been arranged on the glass steel sheet of upper portion, the sealing plug has been arranged on the filling opening, the experimental apparatus shell includes corrosion resistant plate, reflector, the reflector is arranged in the corrosion resistant plate inner wall.

The utility model discloses during the device uses, can carry out circular telegram illumination test/not circular telegram illumination test/intermittent type nature circular telegram illumination test.

Sealing gaskets are arranged at joints of the experimental device shell and the experimental device top cover, reflectors are arranged on the bottom surface of the experimental device top cover, and specifications of the experimental device shell and the experimental device top cover can be adjusted according to actual use requirements.

Sealed pad has been arranged to test box, test box top cap junction, the specification of test box, test box top cap can be adjusted according to the in-service use demand.

The support frame is made of glass fiber reinforced plastics.

And sealing gaskets can be arranged at the joints of the upper glass fiber reinforced plastic plate and the lower glass fiber reinforced plastic plate of the glass fiber reinforced plastic testing container.

The arrangement quantity and the power of the LED lamp belts can be adjusted as required.

The transformer is used for the experiment power supply and for utility model device spare part power supply, and experiment supply voltage can adjust as required.

The utility model discloses during the device uses, the examination inslot is injected the examination electrically conductive polymer aquogel that awaits measuring, transformer, slide rheostat, test electrode, the examination electrically conductive polymer aquogel that awaits measuring connect into the conducting loop through the test cable, current transformer is arranged in measuring the electric current in the return circuit.

The sliding rheostat is used for adjusting the resistance in a loop.

The temperature sensor and the temperature sensing probe are used for acquiring temperature data inside the shell of the experimental device, and when the temperature is too high, the top cover of the experimental device can be opened for heat dissipation.

The electric signal collector is used for collecting current data in the current transformer and the temperature sensor.

The signal standardization processor is used for recording data of the electric signal collector, forming standardized current data and temperature data according to preset rules and sending the standardized current data and the temperature data to the liquid crystal display screen, the liquid crystal display screen is internally provided with the processor, the processor is internally provided with a processing program, the standardized current data and the temperature data are put into the liquid crystal display screen, the processor is internally provided with a processing program which is a conventional control software system and is a conventional known technology and is not within the protection range of the device of the utility model.

The transformer, the illumination switch and the LED lamp strip are connected through a power supply cable.

When the device is used, the conducting polymer hydrogel to be tested can be injected into the test groove through the injection port, and can also be separated from the upper glass steel plate and the lower glass steel plate and then put into the test groove.

The application method of the conducting polymer hydrogel illumination experimental device comprises the following steps:

step 1, determining the specification of each part of the utility model according to the actual test requirement.

And 2, preparing the conductive polymer hydrogel to be tested according to the formula of the conductive polymer hydrogel, and putting the conductive polymer hydrogel into the test groove after the preparation is finished.

And 3, placing the glass fiber reinforced plastic test container on a support frame, and connecting the glass fiber reinforced plastic test container with the conductive loop through a test cable.

And 4, setting the output voltage of the transformer and the resistance value of the slide rheostat.

And 5, starting the illumination switch and the LED lamp strip, electrifying the conductive loop and starting illumination aging test.

And 6, recording temperature data in real time by the temperature sensor, recording current data in real time by the current transformer and putting the data to the liquid crystal display screen.

And 7, when the temperature is too high, opening a top cover of the experimental device for heat dissipation.

And 8, recording the change of the current in different illumination time periods so as to calculate the change of the conductivity of the conductive polymer hydrogel to be tested.

And 9, after the experiment is finished, taking out the conductive polymer hydrogel for observation.

The embodiment of this application provides a conducting polymer aquogel illumination experimental apparatus, novel device cost is low, convenient to use, operation precision are high, can satisfy the illumination experiment of multiple conducting polymer aquogel, through transformer, the use of slide rheostat, can simulate different voltage, electric current, can be more accurate acquire conducting polymer aquogel illumination ageing process's experimental parameters, the utility model discloses the device is the experimental apparatus for the conducting polymer aquogel of specialty, plays guiding effect to the practical application of conducting polymer aquogel.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of the utility model device.

Fig. 2 is an external view of the utility model device.

Fig. 3 is an external view of the utility model device.

FIG. 4 is a schematic view of a glass fiber reinforced plastic test container.

FIG. 5 is a schematic structural diagram of the housing of the experimental apparatus.

Reference numerals: 1. the device comprises an experimental device shell 2, a test box 3, a support frame 4, a glass fiber reinforced plastic test container 5, an LED lamp strip 6, a test cable 7, a transformer 8, a current transformer 9, a slide rheostat 10, a temperature sensor 11, a temperature sensing probe 12, an electric signal collector 13, a signal standardization processor 14, an illumination switch 15, an experimental device top cover 16, a test box top cover 17, a hinge 18, a buckle 19, a liquid crystal display screen 20, an upper glass steel plate 21, a lower glass steel plate 22, a sealing bolt 23, a test slot 24, a test electrode 25, an injection port 26, a sealing plug 27, a stainless steel plate 28 and a reflector.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-5, the conducting polymer hydrogel illumination experimental device comprises an experimental device shell 1, a test box 2, a support frame 3 and a glass fiber reinforced plastic test container 4, wherein the experimental device shell 1 is connected with the test box 2, the support frame 3 is arranged inside the experimental device shell 1, the glass fiber reinforced plastic test container 4 is arranged at the top of the support frame 3, an LED lamp strip 5 is arranged on the inner wall of the experimental device shell 1, a transformer 7, a current transformer 8, a sliding rheostat 9, a temperature sensor 10, an electric signal collector 12, a signal standardization processor 13 and an illumination switch 14 are arranged inside the test box 2, the transformer 7, the sliding rheostat 9 and the glass fiber reinforced plastic test container 4 are connected through a test cable 6 to form a conductive loop, the test cable 6 is arranged in the current transformer 8 in a penetrating manner, the temperature sensor 10 is connected with a temperature sensing probe 11, the temperature sensing probe 11 extends into the experimental device shell 1, and the electric signal collector 12 is connected with the current transformer 8 and the temperature sensor 10 through cables.

Experimental device top cap 15 has been arranged at 1 top of experimental device shell, experimental device shell 1 and experimental device top cap 15 are connected through 17 folding paper, fixed through buckle 18, test box top cap 16 has been arranged at 2 tops of test box, test box 2 and test box top cap 16 are connected through 17 folding paper, fixed through buckle 18, liquid crystal display 19 has been arranged on test box top cap 16, signal of telecommunication collector 12, signal standardization treater 13, liquid crystal display 19 connect gradually through the cable.

The glass fiber reinforced plastic testing container 4 comprises an upper glass fiber reinforced plastic plate 20 and a lower glass fiber reinforced plastic plate 21, wherein the upper glass fiber reinforced plastic plate 20 and the lower glass fiber reinforced plastic plate 21 are fixedly connected through a sealing bolt 22, a testing groove 23 and a testing electrode 24 are arranged on the contact part of the upper glass fiber reinforced plastic plate 20 and the lower glass fiber reinforced plastic plate 21, the testing electrode 24 is connected with a testing cable 6, an injection opening 25 is arranged on the upper glass fiber reinforced plastic plate 20, a sealing plug 26 is arranged on the injection opening 25, the experimental device shell 1 comprises a stainless steel plate 27 and a reflective mirror 28, and the reflective mirror 28 is arranged on the inner wall of the stainless steel plate 27.

The utility model discloses during the device uses, can carry out circular telegram illumination test/not circular telegram illumination test/intermittent type nature circular telegram illumination test.

Sealing gaskets are arranged at the joints of the experimental device shell 1 and the experimental device top cover 15, the reflective mirror 28 is arranged on the bottom surface of the experimental device top cover 15, and the specifications of the experimental device shell 1 and the experimental device top cover 15 can be adjusted according to actual use requirements.

The joint of the test box 2 and the test box top cover 16 is provided with a sealing gasket, and the specifications of the test box 2 and the test box top cover 16 can be adjusted according to actual use requirements.

The support frame 3 is made of glass fiber reinforced plastic.

And sealing gaskets can be arranged at the joints of the upper glass fiber reinforced plastic plate 20 and the lower glass fiber reinforced plastic plate 21 of the glass fiber reinforced plastic testing container 4.

The arrangement quantity and the power of the LED lamp strips 5 can be adjusted as required.

The transformer 7 is used for the experiment power supply and supplies power for the utility model device parts, and the experiment supply voltage can be adjusted as required.

The utility model discloses during the device uses, the conductive polymer aquogel that awaits measuring is injected in testing groove 23, transformer 7, slide rheostat 9, test electrode 24, the conductive polymer aquogel that awaits measuring connect into the conducting loop through test cable 6, current transformer 8 is arranged in measuring the electric current in the return circuit.

The slide rheostat 9 is used for adjusting the resistance in the loop.

The temperature sensor 10 and the temperature sensing probe 11 are used for acquiring temperature data inside the experimental device shell 1, and when the temperature is too high, the experimental device top cover 15 can be opened to dissipate heat.

The electric signal collector 12 is used for collecting current data in the current transformer 8 and the temperature sensor 10.

The signal standardization processor 13 is used for recording data of the electric signal collector 12, forming standardized current data and temperature data according to preset rules and sending the standardized current data and the temperature data to the liquid crystal display 19, the liquid crystal display 19 is internally provided with a processor, the processor is internally provided with a processing program, the standardized current data and the temperature data are put into the liquid crystal display 19, the processor is internally provided with a processing program which is a conventional control software system and is a conventional known technology and is not within the protection range of the device.

The transformer 7, the illumination switch 14 and the LED lamp strip 5 are connected through a power supply cable.

When the utility model discloses the device uses, the examination groove 23 is poured into to the examination of examination electrically conductive polymer aquogel accessible filling opening 25, also can put into after separating upper portion glass steel sheet 20, lower part glass steel sheet 21.

The application method of the conducting polymer hydrogel illumination experimental device comprises the following steps:

step 1, determining the specification of each part of the utility model according to the actual test requirement.

And 2, preparing the conducting polymer hydrogel to be tested according to the formula of the conducting polymer hydrogel, and placing the conducting polymer hydrogel into the test slot 23 after the preparation is finished.

And 3, placing the glass fiber reinforced plastic test container 4 on the support frame 3, and connecting the glass fiber reinforced plastic test container with the conductive loop through the test cable 6.

And 4, setting the output voltage of the transformer 7 and the resistance value of the slide rheostat 9.

And 5, starting the illumination switch 14 and the LED lamp strip 5, electrifying the conductive loop, and starting an illumination aging test.

And 6, recording temperature data in real time by the temperature sensor 10 and recording current data in real time by the current transformer 8, and putting the data to the liquid crystal display screen 19.

And 7, when the temperature is too high, opening the top cover 15 of the experimental device to dissipate heat.

And 8, recording the change of the current in different illumination time periods so as to calculate the change of the conductivity of the conductive polymer hydrogel to be tested.

And 9, after the experiment is finished, taking out the conductive polymer hydrogel for observation.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (4)

1. An illumination experimental device for conductive polymer hydrogel is characterized by comprising an experimental device shell (1), a test box (2), a support frame (3) and a glass fiber reinforced plastic test container (4), the experimental device shell (1) is connected with the test box (2), a support frame (3) is arranged in the experimental device shell (1), a glass fiber reinforced plastic test container (4) is arranged at the top of the support frame (3), the inner wall of the experimental device shell (1) is provided with an LED lamp strip (5), a transformer (7), a current transformer (8), a slide rheostat (9), a temperature sensor (10), an electric signal collector (12), a signal standardization processor (13) and an illumination switch (14) are arranged in the test box (2), the transformer (7), the slide rheostat (9) and the glass fiber reinforced plastic testing container (4) are connected into a conductive loop through a testing cable (6), the test cable (6) is arranged in the current transformer (8) in a penetrating way, the temperature sensor (10) is connected with a temperature sensing probe (11), the temperature sensing probe (11) extends into the shell (1) of the experimental device, the electric signal collector (12) is connected with the current transformer (8) and the temperature sensor (10) through cables;

an experimental device top cover (15) is arranged at the top of the experimental device shell (1), the experimental device shell (1) and the experimental device top cover (15) are connected through a hinge (17) and fixed through a buckle (18), a test box top cover (16) is arranged at the top of the test box (2), the test box (2) and the test box top cover (16) are connected through the hinge (17) and fixed through the buckle (18), a liquid crystal display (19) is arranged on the test box top cover (16), and the electric signal collector (12), the signal standardization processor (13) and the liquid crystal display (19) are sequentially connected through cables;

glass steel test container (4) include upper portion glass steel sheet (20), lower part glass steel sheet (21), upper portion glass steel sheet (20), lower part glass steel sheet (21) are through sealing bolt (22) fixed connection, test groove (23), test electrode (24) have been arranged to upper portion glass steel sheet (20), lower part glass steel sheet (21) contact segment, test electrode (24) are connected with test cable (6), injection opening (25) have been arranged on upper portion glass steel sheet (20), sealing plug (26) have been arranged on injection opening (25), experimental apparatus shell (1) includes corrosion resistant plate (27), reflector (28) are arranged in corrosion resistant plate (27) inner wall.

2. The conducting polymer hydrogel illumination experimental device as claimed in claim 1, wherein a sealing gasket is arranged at the joint of the experimental device housing (1) and the experimental device top cover (15).

3. The illumination experimental device for conducting polymer hydrogel according to claim 1, wherein a sealing gasket is arranged at the joint of the test box (2) and the test box top cover (16).

4. The illumination experimental device for hydrogel of conductive polymer as claimed in claim 1, wherein the material of the supporting frame (3) is glass fiber reinforced plastic.

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