CN202210084U - Temperature control system based on dynamic triaxial equipment - Google Patents

Abstract

The utility model discloses a temperature control system based on dynamic triaxial equipment, which includes a power supply, a water barrel, a temperature controller and a temperature collection and heating device, wherein the temperature collection and heating device is arranged inside the water barrel and connected with the temperature controller, and the temperature controller and the temperature collection and heating device are connected with the power supply respectively. The temperature control system overcomes the deficiency that the conventional dynamic triaxial testing system can not perform triaxial testing under the temperature control (higher than the room temperature).

Description

Temperature control system based on three equipment of power

Technical field

The utility model relates to a kind of measuring equipment, specifically, relates to a kind of temperature control system based on three equipment of power.

Background technology

Heating function in the existing power triaxial test system mainly realizes that through modes such as the built-in helical heating pipes in pressure chamber this mode heats is better, but cost is relatively costly.

Designing a kind of simple in structure, easy to operate heating arrangement how for existing triaxial test system, to be implemented in the triaxial test under the temperature control, is a difficult point of studying now.

The utility model content

The technical matters that the utility model solved provides a kind of temperature control system based on existing three equipment of power, has solved existing power triaxial test system and can not control the deficiency of carrying out triaxial test under (being higher than room temperature) in temperature.

Technical scheme is following:

A kind of temperature control system based on three equipment of power comprises power supply, also comprises water storage cylinder, temperature controller and temperature acquisition and heating arrangement; It is inner that said temperature acquisition and heating arrangement are arranged on said water storage cylinder, and said temperature acquisition is connected with said temperature controller with heating arrangement, and said temperature controller and temperature acquisition are connected with said power supply respectively with heating arrangement.

Further: said water storage cylinder middle part is provided with the testing equipment pressure chamber.

Further: said temperature acquisition and heating arrangement comprise heating rod and temperature sensor.

Further: said heating rod is arranged on said water storage cylinder bottom, and said temperature sensor is arranged on said water storage cylinder top.

Further: said water storage cylinder is made up of two semicircular hollow cylinders, said water storage cylinder base seal and open-top.

Further: said water storage cylinder top is provided with top cover, has the temperature sensor through hole on the said top cover, and said temperature sensor is fixed in the said temperature sensor through hole.

Further: said water storage cylinder bottom is provided with bottom, has the heating rod through hole on the said bottom, and said heating rod is fixed in the said heating rod through hole.

Further: said temperature controller comprises temperature controller and current protective device.

1, the utility model has solved existing power triaxial test system and can not control the deficiency of carrying out triaxial test under (being higher than room temperature) in temperature.

2, the utility model equipment is simple, and is easy to operate, cheap.By means of the utility model, can pressure chamber's water temperature of triaxial test system be controlled through simple external heating and temperature control mode, to realize in the process of the test to temperature controlling.

Description of drawings

Fig. 1 is based on the structural representation of the temperature control system of three equipment of power in the utility model;

Fig. 2 is the structural representation of water storage cylinder in the utility model;

Fig. 3 is the structural representation of top cover in the utility model;

Fig. 4 is the structural representation of bottom in the utility model.

Embodiment

With reference to exemplary preferred embodiments and reference drawings the utility model technical scheme is described in detail below.

As shown in Figure 1, be based on the structural representation of the temperature control system of three equipment of power in the utility model.Temperature control system based on existing three equipment of power mainly is made up of three parts, comprising: water storage cylinder 14, temperature controller 12, power supply 11 and temperature acquisition and heating arrangement.

Water storage cylinder 14 is the hollow organic glass tube of opposite opened ring-type, and water storage cylinder 14 is made up of two semi-circular tubes, semi-circular tube bottom sealing, open-top.Water storage cylinder 14 bottoms are provided with heating rod 16, and water storage cylinder 14 tops are provided with temperature sensor 15, are provided with testing equipment pressure chamber 13 in the middle of the water storage cylinder 14.

Temperature controller 12 is made up of temperature controller and current protective device and is connected with power supply 11, can realize that to temperature controlling control accuracy can reach 0.1 ℃.

Temperature acquisition and heating arrangement comprise heating rod 16 and temperature sensor 15, and heating rod 16 is connected temperature controller 12 and power supply 11 respectively with temperature sensor 15.Temperature sensor 15 and heating rod 16 with after temperature controller 12 is connected, can be realized the control to water temperature in the water storage cylinder 14.

Shown in Fig. 2 to 4, water storage cylinder 14 tops are provided with top cover, on top cover, have temperature sensor through hole 18, and temperature sensor 15 is fixed in the temperature sensor through hole 18.Water storage cylinder 14 bottoms are provided with bottom, have heating rod through hole 19 on the bottom, and heating rod 16 is fixed in the heating rod through hole 19.In this preferred embodiment, be provided with two temperature sensors 15 and heating rod 16.

Operation steps based on the temperature control system that has three equipment of power now is following:

1, heating rod 16 is fixed in the water storage cylinder 14, and heated sealed rod through hole 19 and bottom;

2, the water storage cylinder of splitting 14 is fixed on 13 outsides, testing equipment pressure chamber, is full of water in the water storage cylinder 14;

3, top cover is installed in water storage cylinder 14 tops, and fixed temperature sensor 15;

4, temperature sensor 15 is connected with temperature controller 12 respectively with heating rod 16, and temperature controller 12 energisings are prepared;

5, through the water temperature in the preset water storage cylinder 14 of temperature controller 12, treat water temperature stability after, the water temperature in the experiment with measuring equipment pressure chamber 13 is through the water temperature in the adjustment water storage cylinder 14, so that water temperatures reach testing requirements in the testing equipment pressure chamber 13.

Claims (8)

1. the temperature control system based on three equipment of power comprises power supply, it is characterized in that: also comprise water storage cylinder, temperature controller and temperature acquisition and heating arrangement; It is inner that said temperature acquisition and heating arrangement are arranged on said water storage cylinder, and said temperature acquisition is connected with said temperature controller with heating arrangement, and said temperature controller and temperature acquisition are connected with said power supply respectively with heating arrangement.

2. the temperature control system based on three equipment of power as claimed in claim 1 is characterized in that: said water storage cylinder middle part is provided with the testing equipment pressure chamber.

3. the temperature control system based on three equipment of power as claimed in claim 1 is characterized in that: said temperature acquisition and heating arrangement comprise heating rod and temperature sensor.

4. the temperature control system based on three equipment of power as claimed in claim 1 is characterized in that: said heating rod is arranged on said water storage cylinder bottom, and said temperature sensor is arranged on said water storage cylinder top.

5. the temperature control system based on three equipment of power as claimed in claim 1 is characterized in that: said water storage cylinder is made up of two semicircular hollow cylinders, said water storage cylinder base seal and open-top.

6. like claim 1 or 5 described temperature control systems based on three equipment of power, it is characterized in that: said water storage cylinder top is provided with top cover, has the temperature sensor through hole on the said top cover, and said temperature sensor is fixed in the said temperature sensor through hole.

7. like claim 1 or 5 described temperature control systems based on three equipment of power, it is characterized in that: said water storage cylinder bottom is provided with bottom, has the heating rod through hole on the said bottom, and said heating rod is fixed in the said heating rod through hole.

8. the temperature control system based on three equipment of power as claimed in claim 1 is characterized in that: said temperature controller comprises temperature controller and current protective device.

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