CN218412143U - Glass steel floating plate thermogravimetric analyzer - Google Patents

Abstract

The utility model provides a glass steel floating plate thermogravimetric analyzer, relates to oil gas warehousing and transportation test technical field, including the analysis appearance shell, the electric plate, the slide adjusting pole, the platform is placed to the sample, the support frame, the digital display balance, the analysis appearance shell is cavity cuboid structure, the electric plate has been arranged to the wall in the analysis appearance shell, the slide adjusting hole has been arranged to the bottom, the slide adjusting pole runs through the slide adjusting hole and arranges, the platform has been arranged to the sample at slide adjusting pole top, the digital display balance has been arranged to the bottom, the support frame has been arranged to analysis appearance shell bottom, analysis appearance sliding door, the time-recorder, a temperature sensor, the converter, the viewing aperture has been arranged on analysis appearance shell surface, the utility model discloses simple structure, convenient to use, test sample change convenience, the utility model discloses reduced the experiment energy consumption, improved the experiment flexibility ratio, prolonged the experiment duration, solved the visual poor problem of experiment, improved thermogravimetric analysis's efficiency.

Description

Glass steel floating plate thermogravimetric analyzer

Technical Field

The utility model relates to an oil gas warehousing and transportation test technical field especially relates to a glass steel floating plate thermogravimetric analyzer with visual function.

Background

A thermogravimetric Analyzer (TGA) is an instrument for detecting the temperature-mass change relationship of a substance by thermogravimetry. Thermogravimetry is the measurement of the mass of a substance as a function of temperature (or time) at a programmed temperature.

Along with the maximization of oil storage tank and oil depot scale, the requirement to floating roof oil storage tank floating plate is higher and higher, and a lot of novel floating plates have appeared in the floating roof oil tank of china at present, including connect liquid concatenation floating plate, connect liquid welding floating plate, glass steel floating plate etc. entirely, wherein, glass steel floating plate has received more and more user favor owing to in-tank construction, and the fire is less, seamless construction, sealed reasons such as effectual.

The main material of glass steel floating plate is glass steel fiberboard, honeycomb board, glass felt, fire prevention resin, glass fiber surfacing mat, graphite resin antistatic layer etc. because different user demands during the design, its corresponding material ratio also can be adjusted, in the use, glass steel floating plate is in long-term strong light irradiation, high temperature environment, because environmental factor influences, glass steel floating plate surface, inside can take place multiple chemical reaction, can seriously produce the crackle, warp, the spalling, seriously influence the use of glass steel floating plate, therefore, the high temperature resistance of glass steel floating plate, fire prevention safety needs a large amount of experimental tests, with the formulation of continuous optimization glass steel floating plate, can provide theoretical basis for the selection of glass steel floating plate material, site operation, daily maintenance.

Indoor experimental study is present comparatively feasible method, and is with low costs, efficiency of software testing is high, and current thermogravimetric analyzer ubiquitous energy consumption is high, the flexibility ratio is low, duration of service time is short, visuality is poor etc. drawback at present, but present glass steel floating plate still belongs to emerging technique, and its corresponding supporting auxiliary device is still not perfect, does not have corresponding thermogravimetric analysis test experimental apparatus at present, based on above-mentioned problem, the utility model provides a glass steel floating plate thermogravimetric analyzer.

Disclosure of Invention

An object of the utility model is to provide a glass steel floating plate thermogravimetric analyzer, the utility model discloses simple structure, convenient to use, test sample change convenience, through the cooperation use of slide adjusting pole, sample placing platform, can be more nimble arrange the position of test sample in the analyzer, through the use of electric plate, improved thermogravimetric analyzer's continuous use time, can make long reaching 10-30d of single test experiment, long when can fill the experiment of glass steel floating plate test, reduced thermogravimetric analyzer's energy consumption, improved temperature control's flexibility ratio, the utility model discloses reduced the experiment energy consumption, improved the experiment flexibility ratio, prolonged the experiment duration, solved the visual poor problem of experiment, improved thermogravimetric analysis's efficiency.

The embodiment of the utility model provides a glass steel floating plate thermogravimetric analyzer, place platform, support frame, digital display balance including analysis appearance shell, electric plate, slide adjusting rod, sample, the analysis appearance shell is cavity cuboid structure, the electric plate has been arranged to the wall in the analysis appearance shell, the slide adjusting hole has been arranged to analysis appearance shell bottom, the slide adjusting rod runs through the slide adjusting hole and arranges, the slide adjusting rod top is arranged the sample and is placed the platform, the digital display balance has been arranged to the bottom, the support frame has been arranged to analysis appearance shell bottom, analysis appearance shell surface has been arranged analysis appearance sliding door, time-recorder, temperature sensor, converter, viewing aperture, temperature sensor's probe stretches into inside the analysis appearance shell, the converter is connected with the electric plate through supply cable, the analysis appearance shell includes corrosion resistant plate, heat preservation, the heat preservation is arranged in the corrosion resistant plate outside.

When the device is used, the simulation glass fiber reinforced plastic floating plate is placed on the sample placing table.

The analyzer housing can be adjusted to its specification according to actual experimental requirements.

An electric heating film is arranged in the electric heating plate.

Four sliding adjusting rods and four sliding adjusting holes are arranged on the sliding adjusting rods, and the length of each sliding adjusting rod can be adjusted according to needs.

The sample placing table can be adjusted in specification and shape according to actual experiment requirements, the material of the sample placing table comprises glass fiber, asbestos and rock wool, and the material of the sample placing table can be adjusted according to the temperature required by an actual test sample.

And high-temperature-resistant glass is arranged in the observation port.

The heat-insulating layer is made of asbestos.

The frequency converter is used for adjusting the use power of the electric heating plate.

The temperature sensor is used for recording the internal temperature data of the testing device in real time.

The utility model discloses the device can be according to the in-service use demand, adjusts the parameter of each part.

The use method of the glass fiber reinforced plastic floating plate thermogravimetric analyzer comprises the following steps:

step 1, according to the in-service use demand, adjust the parameter of each part of the utility model.

And 2, manufacturing a simulated glass fiber reinforced plastic floating plate according to the selection of the testing material of the glass fiber reinforced plastic floating plate.

And 3, selecting a proper sliding adjusting rod to meet the height required by the test, placing the sliding adjusting rod on the top of the digital display balance, and placing the sample placing table on the top of the sliding adjusting rod.

And 4, placing the simulated glass fiber reinforced plastic floating plate on the top of the sample placing table, and closing the sliding door of the analyzer.

And 5, adjusting the heating power of the electric heating plate, and adjusting the temperature inside the shell of the analyzer to the required temperature of the experiment.

And 6, acquiring temperature data of the experimental process in real time through a temperature sensor.

And 7, setting the experiment time through a timer.

And 8, after the experiment is finished, closing the electric heating plate, and opening the sliding door of the analyzer for heat dissipation.

And 9, taking out the simulated glass fiber reinforced plastic floating plate for observation.

The utility model discloses glass steel floating plate thermogravimetric analyzer beneficial effect is: the utility model discloses simple structure, convenient to use, test sample change conveniently, place the cooperative use of platform through slip regulation pole, sample, can be more nimble arrange the position of experimental sample in the analysis appearance, through the use of electric plate, improved thermogravimetric analysis appearance's duration, can make long 10-30d of reaching of single test experiment, it is long when can fill the experiment of glass steel floating plate test, reduced the energy consumption of thermogravimetric analysis appearance, improved temperature control's activity ratio, the utility model discloses reduced the experiment energy consumption, improved the experiment flexibility ratio, prolonged the experiment duration, solved the visual poor problem of experiment, improved thermogravimetric analysis's efficiency.

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.

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

Fig. 3 is a schematic structural diagram of the analyzer housing.

Fig. 4 is a schematic view of the bottom arrangement of the analyzer housing.

Reference numerals: 1. the device comprises an analyzer shell 2, an electric hot plate 3, a sliding adjusting rod 4, a sample placing table 5, a supporting frame 6, a digital display balance 7, an analyzer sliding door 8, a timer 9, a temperature sensor 10, a frequency converter 11, an observation port 12, a stainless steel plate 13, a heat insulation layer 14, a sliding adjusting hole 15 and a simulated glass fiber reinforced plastic floating plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying 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. 1-4, the embodiment of the utility model provides a glass steel floats set thermogravimetric analyzer, place platform 4, support frame 5, digital display balance 6 including analysis appearance shell 1, electric plate 2, slide adjusting rod 3, sample, analysis appearance shell 1 is the cavity cuboid structure, electric plate 2 has been arranged to analysis appearance shell 1 inner wall, slide adjusting hole 14 has been arranged to analysis appearance shell 1 bottom, slide adjusting rod 3 runs through slide adjusting hole 14 and arranges, slide adjusting rod 3 top has been arranged the sample and has been placed platform 4, digital display balance 6 has been arranged to the bottom, support frame 5 has been arranged to analysis appearance shell 1 bottom, analysis appearance shell 1 surface arrangement has analysis appearance sliding door 7, time-recorder 8, temperature sensor 9, converter 10, viewing aperture 11, temperature sensor 9's probe stretches into inside analysis appearance shell 1, converter 10 is connected with electric plate 2 through supply cable, analysis appearance shell 1 includes corrosion resistant plate 12, heat preservation 13, the corrosion resistant plate 12 is outside in heat preservation 13.

When the device is used, the simulation glass fiber reinforced plastic floating plate 15 is placed on the sample placing table 4.

The analyzer housing 1 can be adjusted in its specification according to actual experimental requirements.

An electric heating film is arranged inside the electric heating plate 2.

Four sliding adjusting rods 3 and four sliding adjusting holes 14 are arranged, and the length of each sliding adjusting rod 3 can be adjusted as required.

The sample placing table 4 can adjust the specification and the shape thereof according to the actual experiment requirements, the material of the sample placing table comprises glass fiber, asbestos and rock wool, and the material of the sample placing table can be adjusted according to the temperature required by the actual experiment samples.

High-temperature-resistant glass is arranged in the observation port 11.

The insulating layer 13 is made of asbestos.

The frequency converter 10 is used for adjusting the power of the electric heating plate 2.

The temperature sensor 9 is used for recording the internal temperature data of the testing device in real time.

The utility model discloses the device can be according to the in-service use demand, adjusts the parameter of each part.

The use method of the glass fiber reinforced plastic floating plate thermogravimetric analyzer comprises the following steps:

step 1, according to the in-service use demand, adjust the parameter of each part of the utility model.

And 2, manufacturing a simulated glass fiber reinforced plastic floating plate 15 according to the selection of the testing material of the glass fiber reinforced plastic floating plate.

And 3, selecting a proper sliding adjusting rod 3 to meet the height required by the test, placing the sliding adjusting rod 3 on the top of the digital display balance 6, and placing the sample placing table 4 on the top of the sliding adjusting rod 3.

And 4, placing the simulated glass fiber reinforced plastic floating plate 15 on the top of the sample placing table 4, and closing the sliding door 7 of the analyzer.

And 5, adjusting the heating power of the electric heating plate 2, and adjusting the internal temperature of the analyzer shell 1 to the required temperature of the experiment.

And 6, acquiring temperature data of the experimental process in real time through a temperature sensor 9.

And 7, setting the experiment time through a timer 8.

And step 8, after the experiment is finished, closing the electric heating plate 2, and opening the sliding door 7 of the analyzer for heat dissipation.

And 9, taking out the simulated glass fiber reinforced plastic floating plate 15 for observation.

In one embodiment, the simulated fiberglass flotage 15 parameters are as follows: the total thickness is 70mm, the thickness of the honeycomb board is 60mm, the thickness of the upper glass fiber reinforced plastic layer and the lower glass fiber reinforced plastic layer is 5mm, the top layer is two layers of 450g/m ² Glass felt and a layer of fire-retardant resin, the bottom layer is two layers of 600g/m ² Glass mat, one layer 60g/m ² The testing temperature is 90 ℃, the testing time is 10 days, the weight is 2800 grams before testing, and the weight is 2760 grams after testing.

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 (3)

1. The utility model provides a glass steel floating plate thermogravimetric analyzer, its characterized in that places platform (4), support frame (5), digital display balance (6) including analysis appearance shell (1), electric plate (2), slide adjusting rod (3), sample, analysis appearance shell (1) is cavity cuboid structure, electric plate (2) have been arranged to analysis appearance shell (1) inner wall, slide adjusting hole (14) have been arranged to analysis appearance shell (1) bottom, slide adjusting rod (3) run through slide adjusting hole (14) and arrange, slide adjusting rod (3) top is arranged the sample and is placed platform (4), digital display balance (6) have been arranged to the bottom, support frame (5) have been arranged to analysis appearance shell (1) bottom, analysis appearance shell (1) surface arrangement has analysis appearance sliding door (7), time-recorder (8), temperature sensor (9), converter (10), viewing aperture (11), the probe of temperature sensor (9) stretches into inside analysis appearance shell (1), converter (10) are connected with electric plate (2) through the power supply cable, analysis appearance shell (1) includes stainless steel sheet (12), the heat preservation (13) is arranged in outside.

2. The thermogravimetric analyzer of a glass fiber reinforced plastic float plate as claimed in claim 1, wherein said sample placement table (4) is made of one of glass fiber, asbestos and rock wool.

3. The thermogravimetric analyzer of a glass fiber reinforced plastic float plate as claimed in claim 1, wherein the insulating layer (13) is made of asbestos.

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