CN204679450U - A kind of Binder Materials type supersonic monitor - Google Patents

Abstract

A kind of Binder Materials type supersonic monitor, comprise square dies, the both sides, front and back of square dies are separately installed with ultrasonic transmitter and ultrasonic reception device, described ultrasonic transmitter and ultrasonic reception device are connected with supersonic wave analyzer, also temperature sensing device is placed with in described square dies internal cavities, described temperature sensing device is connected with temperature test analyser, this device comprehensively adopts ultrasonic tesint method and the condensation process of thermometry to Binder Materials to monitor, make full use of the test advantage of two kinds of measurement mechanisms, the drawback that the solution two kinds of proving installations that combine exist, comprehensive monitoring is carried out to the condensation process of Binder Materials, obtain effectively, to condense accurately data, real-time grasp condensation process, those skilled in the art can utilize acquisition on basis of the present utility model effective, responsive condensation data, thus effectively facilitate those skilled in the art to the interpolation kind of additive and raw material, add quantity etc. to instruct.

Description

A kind of Binder Materials type supersonic monitor

Technical field

The utility model relates to a kind of Binder Materials type supersonic monitor.

Background technology

The coagulation behaviour difference of Binder Materials is very large, and it affects by factors such as jelling agent kind and quality, additive, temperature, pH value, raw material activity.Determination and analysis is carried out to its coagulation behaviour, grasps its rule, effectively can instruct the selection of additive and raw material, the optimization of material prescription and the improvement etc. of construction technology.At present, the research of China in this rests in the mensuration of single index substantially, determining instrument has Vicat apparatus (namely to adopt metal bar constantly to carry out inserting thorn in official hour, to lunge the condition adjudgement condensation degree of rear landing), hydration heat instrument (namely real-time temperature during hydration reaction being monitored, with temperature variation supposition condensation degree) etc.But these testing tools and assay method all cannot react the omnidistance state of hydration reaction comprehensively, the mode inferred is adopted to estimate coagulation behaviour, the numerical value of gained is inaccurate, especially Vicat apparatus method of testing, very easily by the interference of external environment condition, such as, when by chance running into stone, metal bar just cannot lunge, data inaccuracy; Two kinds of method of testings all effectively cannot instruct the selection of additive and raw material, are difficult to satisfied present research needs.

Utility model content

For solving prior art Problems existing, the utility model provides a kind of Binder Materials condensation method of testing, the method comprehensively adopts ultrasonic tesint method and the condensation process of thermometry to Binder Materials to monitor, make full use of two kinds of method testing advantages, and utilize two kinds of method of testings to combine drawback that solution two kinds of method of testings exist, comprehensive monitoring is carried out to the condensation process of Binder Materials, obtains data of condensing effectively, accurately, thus effectively instruct the selection of additive and raw material.

For achieving the above object, the utility model is by the following technical solutions: a kind of Binder Materials type supersonic monitor, comprise square dies, the both sides, front and back of square dies are separately installed with ultrasonic transmitter and ultrasonic reception device, described ultrasonic transmitter and ultrasonic reception device are connected with supersonic wave analyzer, also be placed with temperature sensing device in described square dies internal cavities, described temperature sensing device is connected with temperature test analyser.

Further, described temperature sensing device is armour type thermopair.

Further, described Binder Materials is inorganic gel materials or organic gel materials.

Compared with prior art, the utility model has following beneficial effect: the condensation process of gel rubber material is generally divided into three phases, namely dissolve, crystallize out and crystallization, in the different stages, the characteristic of different method of testing is utilized effectively to monitor condensation process, obtain effective data, and utilize two kinds of method of testings to carry out complementation to the drawback of another method of testing, thus rejecting invalid data, obtain data comprehensively and effectively, as: at crystallize out and crystallization stage, gel rubber material is progressively changed to solid-state, in the process of progressively conversion solid-state, sound velocity of wave propagation can progressively improve, thus condensation process is made positive corresponding, responsive data monitoring is made to condensation process, the change of ultrasonic wave energy to condensation process produces positive reaction, obtain responsive data variation, but this method of testing clearly cannot show the transformation node of dissolution phase to the crystallize out stage, also the transformation node of crystallize out stage to crystallization stage cannot effectively be reflected, for addressing this problem, the utility model provides temperature sensing device, the hydration reaction process temperature of Binder Materials changes clearly, but the stage of reaction before changing, temperature variation is little, as in dissolution phase, temperature is generally normal temperature, when dissolution phase is to crystallize out transition stage, its temperature can rise tens degree within the extremely short time, now, temperature testing method is adopted effectively to monitor transformation node, effective acquisition data transfer.

Binder Materials condensation method of testing provided by the utility model can effectively be monitored condensation process, real-time grasp condensation process, those skilled in the art can obtain effective, responsive condensation data utilizing on basis of the present utility model, thus effectively facilitate those skilled in the art to the interpolation kind of additive and raw material, add quantity etc. and instruct.

Accompanying drawing explanation

A kind of Binder Materials condensation process of Fig. 1 analyzer structural representation.

Embodiment

As shown in Figure 1, a kind of Binder Materials condensation process analyzer, comprise square dies 1, the both sides, front and back of square dies 1 are separately installed with ultrasonic transmitter 2 and ultrasonic reception device 3, described ultrasonic transmitter 2 and ultrasonic reception device 3 are connected with supersonic wave analyzer, also be placed with temperature sensing device 5 in described square dies 1 internal cavities, described temperature sensing device 5 is connected with temperature test analyser.

Further, described temperature sensing device 5 is armour type thermopair.

Further, described Binder Materials 4 is inorganic gel materials or organic gel materials.

For being described further the utility model, existing by reference to the accompanying drawings 1, enumerate the utility model embodiment:

(1) concrete be stirred (Binder Materials) 4 is put into rapidly the plastic material mould that a square dies 1(is of a size of 10cm*10cm*10cm), before and after square dies 1, corresponding surface arranges ultrasonic transmitter 2 ultrasonic reception device 3 respectively, by temperature sensor 5(armour type thermopair) vertically insert in the middle of test block and carry out thermometric; Start ultrasonic transmitter 2 ultrasonic reception device 3(ultrasonic velocity measurement range: 0 ~ 10000m/s simultaneously, precision is not less than 1m/s), temperature test (temperature measurement range: 0 ~ 200 DEG C, precision is not less than 0.1 degree), carry out successional data acquisition (continuous measuring hours: 0.1h ~ 72h), data acquisition initial time will be unified; In actual use, ultrasonic transmitter 2 ultrasonic reception device 3 and temperature test can be connected with smart machine, such as computer, carry out concentrated collection by the data of computer to monitoring, generally carried out a data acquisition every 1-10 minute, a computer can connect multiple tester; (2) data are passed to stored in computer after capture card, and data successively will gather and want two data testing sequences to be temperature, ultrasonic velocity; Generally carried out a data acquisition at interval of 1 ~ 10 minute, the acquisition interval time can adjust in software; (3) moulds are one group, and an equipment can install 4 groups or 8 groups simultaneously, and minimum is 2 groups, contrast while so conveniently carrying out different condition; Same sample main contrast is temperature, ultrasonic velocity two groups of data curve over time in condensation process, in order to analyze; The contrast of various sample is contrasted in one drawing respectively temperature curve, ultrasonic velocity curve, and any sample data curve can be put together contrast by user; Data can derive with spreadsheet format, facilitate user to contrast voluntarily; After DATA REASONING comparison, the result according to measuring comparison carries out selectivity interpolation or replacement to the adjuvant of Binder Materials 4 or raw material.

Obviously, above-described embodiment is only one of them embodiment of the present utility model, any at the utility model provide the simple modifications that the basis of principle is made all to belong to protection domain of the present utility model.

Claims (2)

1. a Binder Materials type supersonic monitor, comprise square dies, the both sides, front and back of square dies are separately installed with ultrasonic transmitter and ultrasonic reception device, described ultrasonic transmitter and ultrasonic reception device are connected with supersonic wave analyzer, also be placed with temperature sensing device in described square dies internal cavities, described temperature sensing device is connected with temperature test analyser.

2. a kind of Binder Materials type supersonic monitor according to claim 1, is characterized in that described temperature sensing device is armour type thermopair.