CN204269733U

CN204269733U - Metallic resistance rate change proving installation within the scope of a kind of continuous temperature

Info

Publication number: CN204269733U
Application number: CN201420713029.XU
Authority: CN
Inventors: 张进峰
Original assignee: Suzhou Vocational University
Current assignee: Suzhou Vocational University
Priority date: 2014-11-25
Filing date: 2014-11-25
Publication date: 2015-04-15
Anticipated expiration: 2024-11-25

Abstract

The utility model discloses metallic resistance rate change proving installation within the scope of a kind of continuous temperature, comprising: detent mechanism, heating system and measuring system; Described heating system comprises heating furnace and is connected to the temperature control box on heating furnace; The signal control enclosure that described measuring system comprises computing machine and is connected with described computing machine; Described computing machine is connected with described temperature control box by order wire; Be provided with vacuum tube in described heating furnace, described detent mechanism is arranged in vacuum tube; Described vacuum tube two ends are provided with sealed valve body, and the sealed valve body of described vacuum tube one end is connected with vacuum pump, and the sealed valve body of the vacuum tube other end is connected with described signal control enclosure; Temperature sensor, current signal input fixture and signals collecting fixture is provided with in described vacuum tube; Current signal input fixture is connected with described signal control enclosure by wire with signals collecting fixture.By the way, the utility model can realize the precision measurement of metallic resistance rate change under different heating rates.

Description

Metallic resistance rate change proving installation within the scope of a kind of continuous temperature

Technical field

The utility model relates to material analysis, electronic test equipment field, particularly relates to metallic resistance rate change proving installation within the scope of a kind of continuous temperature.

Background technology

The method of testing of resistivity measurement routine is four point probe or four-wire method, is all generally test at normal temperatures, is mainly used in the test of semiconductor resistor rate.Also have and four point probe or four-wire method are applied in the test of metallic resistance rate, but often need larger electric current could produce electromotive force between probe, and big current often brings heating effect, brings impact to the test of resistivity.Traditional resistivity measurement or single single-chip microcomputer test mode, data can not inventory analysis, and function singleness can not meet the test request of modern develop rapidly, or needs the function of multiple instrument to realize thermometrically, and cost is higher.Therefore be badly in need of a kind of high precision, low cost, the proving installation that vacuum multistage temperature control heating and intelligent storage analyze can be realized.

Utility model content

The technical matters that the utility model mainly solves is to provide metallic resistance rate change proving installation within the scope of a kind of continuous temperature, the precision measurement of metallic resistance rate change can be realized under different heating rates, adopt high-precision constant current source, by compunication control realization continuously adjustabe, reduce the impact that heating effect produces test.

For solving the problems of the technologies described above, the technical scheme that the utility model adopts is: provide metallic resistance rate change proving installation within the scope of a kind of continuous temperature, comprising: detent mechanism, heating system and measuring system; Described heating system comprises heating furnace and is connected to the temperature control box on heating furnace; The signal control enclosure that described measuring system comprises computing machine and is connected with described computing machine; Described computing machine is connected with described temperature control box by order wire; Be provided with vacuum tube in described heating furnace, described detent mechanism is arranged in vacuum tube; Described vacuum tube two ends are provided with sealed valve body, and the sealed valve body of described vacuum tube one end is connected with vacuum pump, and the sealed valve body of the vacuum tube other end is connected with described signal control enclosure; Temperature sensor, current signal input fixture and signals collecting fixture is provided with in described vacuum tube; Described current signal input fixture and signals collecting fixture are fixed on described detent mechanism, and current signal input fixture is connected with described signal control enclosure by wire with signals collecting fixture.

Preferably, described temperature control box is provided with RS485 communication port, and temperature control box is connected with described computing machine by RS485 communication port.

Preferably, described signal control enclosure is provided with AD acquisition module; Described signal control enclosure generation current is also delivered to described current signal input fixture, and described AD acquisition module is from described signals collecting fixture Received signal strength and be transferred to described computing machine; Described computing machine is from signal control enclosure read test data and record.

Preferably, described detent mechanism is ceramic junction board, and ceramic junction board is provided with pilot hole; Described current signal input fixture and signals collecting fixture are fixed in pilot hole.

Preferably, described computing machine is connected with printer.

Preferably, described vacuum tube is silica valve.

Preferably, described heating furnace is infrared heating furnace.

The beneficial effects of the utility model are: the utility model can realize the precision measurement of metallic resistance rate change under different heating rates.

Accompanying drawing explanation

Fig. 1 is the framework principle schematic of metallic resistance rate change proving installation within the scope of a kind of continuous temperature of the utility model;

Fig. 2 is the perspective view of metallic resistance rate change proving installation within the scope of shown a kind of continuous temperature;

Fig. 3 is the amagnified partial perspective structural representation of the detent mechanism of metallic resistance rate change proving installation within the scope of shown a kind of continuous temperature;

In accompanying drawing, the mark of each parts is as follows: 1, infrared heating furnace; 2, temperature control box; 3, signal control enclosure; 4, silica valve; 5, sealed valve body; 11, ceramic junction board; 12, current signal input fixture; 13, signals collecting fixture.

Embodiment

Below in conjunction with accompanying drawing, preferred embodiment of the present utility model is described in detail, to make advantage of the present utility model and feature can be easier to be readily appreciated by one skilled in the art, thus more explicit defining is made to protection domain of the present utility model.

Refer to Fig. 1 to Fig. 3, the utility model embodiment comprises:

Within the scope of a kind of continuous temperature, metallic resistance rate change proving installation, comprising: ceramic junction board 11, heating system and measuring system; The temperature control box 2 that described heating system comprises infrared heating furnace 1 and is connected on infrared heating furnace 1; The signal control enclosure 3 that described measuring system comprises computing machine and is connected with described computing machine; Described temperature control box 2 is provided with RS485 communication port, and temperature control box is connected with described computing machine by RS485 communication port; The heating curves of described computer settings temperature control box 2 and heating parameters, temperature measurement information is transmitted in real time, and the rate of heat addition being controlled infrared heating furnace 1 by power device ensures that heating process meets heating curves requirement; Temperature control box has the functions such as high-power heating, heating current instruction, operating voltage instruction, start button, stop button, overtemperature warning, protective switch of the short circuit; Be provided with silica valve 4 in described infrared heating furnace 1, described ceramic junction board 11 is arranged in silica valve 4; Described silica valve 4 two ends are provided with sealed valve body 5, the sealed valve body 5 of described silica valve 4 one end is connected with vacuum pump, silica valve 4 in heating furnace is extracted into vacuum state through sealed valve body 5 by described vacuum pump, and when preventing from heating, sample is oxidized; The sealed valve body 5 of silica valve 4 other end is connected with described signal control enclosure 3; Temperature sensor, current signal input fixture 12 and signals collecting fixture 13 is provided with in described silica valve 4; Pottery junction board 11 is provided with pilot hole; Described temperature sensor, current signal input fixture 12 and signals collecting fixture 13 are fixed in pilot hole, and current signal input fixture 12 is connected with described signal control enclosure 3 by wire with signals collecting fixture 13, sealed valve body is provided with electric elements, and electric elements are used as the intermediate carrier that current signal input fixture 12 is connected with signal control enclosure with the wire of signals collecting fixture 13.Temperature sensor is K type thermopair; Described signal control enclosure 3 is provided with AD acquisition module; Described signal control enclosure 3 can produce high-precision constant current source 0.1mA ~ 10mA, by compunication control realization continuously adjustabe, deliver to described current signal input fixture 12, described AD acquisition module is from described signals collecting fixture 13 Received signal strength and be transferred to described computing machine; Described computing machine, from signal control enclosure 3 read test data, calculates resistivity, and in conjunction with temperature value display resistivity-temperature curve, the information of On-board test process and the data of test process, complete the basic management of database, query function simultaneously; Computing machine is connected with printer, and printer prints the data result that Computer Analysis completes.Described computing machine has test parameter setting, test, and inquiry prints, the functions such as information prompting; Test parameter set-up function: set basic detecting information, operator, title material, length of material, width, thickness, electric current input point length, voltage test points length, ratio, integration, the setting of differential parameter, the temperature bound alarm parameters etc. of heating; Test function: displays temperature-resistivity curve data, temperature-time curve, and be stored in corresponding database; Inquiry printing function: according to the information of test material, the test duration, tester waits the relevant information in information inquiry database, and is presented on interface, can generate EXCEL tables of data, complete the operations such as the printing in EXCEL; Information prompting function: the various detecting information promptings in test system and test process.

Within the scope of a kind of continuous temperature of the utility model, metallic resistance rate change proving installation has following beneficial effect:

1, this device adopts the high-precision constant current source based on electron device, by compunication control realization continuously adjustabe, reduces the impact that heating effect produces test; Adopt the high-precision voltage sample based on electron device, complete low voltage signal collection; Break through the current source of traditional costliness, the mode of voltage source instrument combination, adopt the method for integrated circuit to build high-precision test macro, cost performance is high, practical flexibly.

2, this device can realize the precision measurement of metallic resistance rate change under different heating rates, and simultaneous computer can store data, completes the analysis to metal interior structures change, varies with temperature the specificity analysis of resistance and institutional framework in heat treatment process.

The foregoing is only embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model instructions and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims

1. a metallic resistance rate change proving installation within the scope of continuous temperature, is characterized in that, comprising: detent mechanism, heating system and measuring system; Described heating system comprises heating furnace and is connected to the temperature control box on heating furnace; The signal control enclosure that described measuring system comprises computing machine and is connected with described computing machine; Described computing machine is connected with described temperature control box by order wire; Be provided with vacuum tube in described heating furnace, described detent mechanism is arranged in vacuum tube; Described vacuum tube two ends are provided with sealed valve body, and the sealed valve body of described vacuum tube one end is connected with vacuum pump, and the sealed valve body of the vacuum tube other end is connected with described signal control enclosure; Temperature sensor, current signal input fixture and signals collecting fixture is provided with in described vacuum tube; Described current signal input fixture and signals collecting fixture are fixed on described detent mechanism, and current signal input fixture is connected with described signal control enclosure by wire with signals collecting fixture.

2. metallic resistance rate change proving installation within the scope of a kind of continuous temperature according to claim 1, it is characterized in that: described temperature control box is provided with RS485 communication port, temperature control box is connected with described computing machine by RS485 communication port.

3. metallic resistance rate change proving installation within the scope of a kind of continuous temperature according to claim 1, is characterized in that: described signal control enclosure is provided with AD acquisition module; Described signal control enclosure generation current is also delivered to described current signal input fixture, and described AD acquisition module is from described signals collecting fixture Received signal strength and be transferred to described computing machine; Described computing machine is from signal control enclosure read test data.

4. metallic resistance rate change proving installation within the scope of a kind of continuous temperature according to claim 1, is characterized in that: described detent mechanism is ceramic junction board, and ceramic junction board is provided with pilot hole; Described current signal input fixture and signals collecting fixture are fixed in pilot hole.

5. metallic resistance rate change proving installation within the scope of a kind of continuous temperature according to claim 3, is characterized in that: described computing machine is connected with printer.

6. metallic resistance rate change proving installation within the scope of a kind of continuous temperature according to claim 1, is characterized in that: described vacuum tube is silica valve.

7. metallic resistance rate change proving installation within the scope of a kind of continuous temperature according to claim 1, is characterized in that: described heating furnace is infrared heating furnace.