CN201867384U - Solid-liquid phase diagram experimental instrument - Google Patents

Abstract

The utility model relates to a solid-liquid phase diagram experimental instrument which comprises a control box and a heating furnace body fixed at the top part of the control box. An intelligent meter is arranged on the front side of the control box; a temperature sensor interface and a data interface connected with a computer are arranged on the back side of or beside the control box; both the temperature sensor interface and the data interface are connected with the intelligent meter; and a voltmeter is arranged on the front side of the control box. The solid-liquid phase diagram experimental instrument overcomes the defects that a special design of the solid-liquid phase diagram experimental instrument is not provided in the prior art, and a melting point determination furnace and a controller which are designed in a split manner have large volume, high cost and are inconvenient to move. Through the above design, the structure of the solid-liquid phase diagram experimental instrument is greatly simplified; and thermoelectric couples and thermal resistances with different specifications can be provided according to different requirements. The solid-liquid phase diagram experimental instrument has the advantages of compact structure, small volume, light weight, low production cost and strong reliability and is ideal equipment for the solid-liquid phase diagram drawing, thermoelectric couple preparation and calibration and material melting point determination experiment in the physical and chemical field carried out by colleges and universities and research and development institutes.

Description

Solid-liquid phasor experiment instrument

Technical field

The utility model relates to a kind of solid-liquid phasor experiment instrument.

Background technology

The fusing point test stove is a kind of device that is used for specially to solid matter heating, solid-state material can be fused into liquid state by it, thereby reach the mensuration to melting point substance.Present known fusing point test stove and the controller that uses designs as split, its volume is big, Heavy Weight, cost height, move inconvenient, related manipulate pretty troublesome.

Summary of the invention

In order to overcome the special solid-liquid phasor experiment instrument design of shortage in the prior art, the fusing point test stove of split design is big with the volume of controller, cost is high, it is inconvenient to move, problem that maintenance bothers, the utility model provides a kind of solid-liquid phasor experiment instrument, the compact conformation of this solid-liquid phasor experiment instrument, easy to assembly, adjustable power, lower, the good reliability of production cost.

The technical scheme that its technical matters that solves the utility model adopts is: comprise control box and the heating furnace body that is fixed on the control box top, the intelligence table is set in the front of control box, dorsal part on the control box or side are provided with temperature sensor interface and the data-interface that is connected computer, and temperature sensor interface all is connected the intelligence table with data-interface.

Front at control box is provided with voltage table.

Be fixed on the top of control box at the base of heating furnace body, the periphery of heating furnace body is the sample hose tube of pegging graft, and the sample hose tube of pegging graft is threaded on the base, and sample hose is pegged graft and the heating core tube is set, the outer heating that links to each other with power supply that twines of heating core tube in the tube.

Connect locating ring in the top of sample hose grafting tube, heating and sample hose are pegged graft and between the tube insulated thermal insulating layer are set.

The utility model is by above-mentioned specific design, simplified solid-liquid phasor The Design of Experiment Instrument widely, according to different requirements, but the thermopair of adapted different size and thermal resistance, have compact conformation, volume is little, and is in light weight, production cost is lower, the advantage of good reliability, is that " drafting of solid-liquid phasor ", " preparation of thermopair and the demarcation " that colleges and universities and R﹠D institution carry out the physical chemistry field reaches the ideal equipment that " melting point substance mensuration " tests.

Description of drawings

Below in conjunction with drawings and Examples detailed content of the present utility model is described.

Fig. 1 is a structural representation of the present utility model.

Fig. 2 is the rear view of Fig. 1.

Embodiment

As shown in the figure, the utility model comprises control box 1 and is fixed on the heating furnace body 5 at control box 1 top, in the front of control box 1 intelligent table 2 is set, dorsal part on the control box 1 or side are provided with temperature sensor interface 3 and the data-interface 4 that is connected computer, temperature sensor interface 3 can select to be provided with 3, temperature sensor interface 3 all is connected intelligent table 2 with data-interface 4, in the front of control box 1 voltage table 6 is set, the base 7 of heating furnace body 5 is fixed on the top of control box 1, the periphery of heating furnace body 5 is a sample hose grafting tube 8, sample hose grafting tube 8 is threaded on the base 7, in the sample hose grafting tube 8 heating core tube 9 is set, the heating core tube 9 outer heatings 10 that link to each other with power supply that twine connect locating ring 11 in the top of sample hose grafting tube 8, and heating 10 and sample hose are pegged graft and between the tube 8 insulated thermal insulating layer 12 be set.Under user mode, test tube inserts in the heating core tube 9 by locating ring 11, after adopting heating 10 energisings of heating wire, the invisible spectro solid matter of heat fused, the power of power supply can be regulated by power regulating switch, according to different requirements, but the thermopair and the thermal resistance of temperature sensor interface 3 adapted different sizes.Be equipped with software, also computer connects, and can carry out collecting and distributing control simultaneously to many experiment instruments, can draw the real-time axis and the printable real time data of temperature and time automatically.Above-described embodiment only is that the preferred implementation to the utility model solid-liquid phasor experiment instrument is described; be not that design and scope to utility model limits; under the prerequisite that does not break away from the utility model scheme; various external form modification and improvement that those skilled in the art make the technical solution of the utility model all should fall into the protection domain of the utility model solid-liquid phasor experiment instrument.

Claims (4)

1. solid-liquid phasor experiment instrument, comprise control box and the heating furnace body that is fixed on the control box top, it is characterized in that in the front of control box (1) intelligence being set shows (2), dorsal part on the control box (1) or side are provided with temperature sensor interface (3) and the data-interface that is connected computer (4), and temperature sensor interface (3) all is connected intelligence table (2) with data-interface (4).

2. solid-liquid phasor experiment instrument according to claim 1 is characterized in that in the front of control box (1) voltage table (6) being set.

3. solid-liquid phasor experiment instrument according to claim 1 and 2, it is characterized in that being fixed on the top of control box (1) at the base (7) of heating furnace body (5), the periphery of heating furnace body (5) is a sample hose grafting tube (8), sample hose grafting tube (8) is threaded on the base (7), in the sample hose grafting tube (8) heating core tube (9) is set, the outer heating (10) that links to each other with power supply that twines of heating core tube (9).

4. solid-liquid phasor experiment instrument according to claim 3 is characterized in that sample hose is pegged graft to connect locating ring (11) in the top of tube (8) that heating (10) is pegged graft with sample hose and between tin (8) insulated thermal insulating layer (12) is set.

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