CN221100346U - Heating environment adding part for material test equipment - Google Patents

Abstract

The utility model relates to a heating environment adding part for material testing equipment, and belongs to the field of material testing equipment. Comprises a heating device, a temperature measuring device and a heating component shell; heating device includes hot plate and accuse temperature case, temperature measuring device includes temperature probe and digital display device, the heat insulating board is all pasted to heating element shell inner wall, the heating element shell is equipped with hot plate opening and test material opening, the hot plate, test material is placed inside the heating element shell through hot plate opening and test material opening respectively, hot plate opening, test material opening seal through hot plate opening seal plate and test material opening seal plate respectively, temperature probe one end stretches into inside the heating element shell through test material opening, digital display device is connected to the other end, the one end of hot plate passes through the wire and connects accuse temperature case. The utility model has the function of adding a heating environment for material test equipment.

Description

Heating environment adding part for material test equipment

Technical Field

The utility model relates to a heating environment adding part for material testing equipment, and belongs to the field of material testing equipment.

Background

For many applications of materials and before optimization, material tests are required to obtain performance parameters of the materials, so as to judge whether the materials can be used or not, and the material test equipment detects the performance of the materials by stretching or compressing. In particular cases, such as in thermal fields, the performance of the materials is measured, which cannot be achieved by conventional material testing equipment, and this results in that many tests cannot be performed.

The main mode of realizing the material adding heating field environment in the existing equipment is that equipment such as test material fixtures and the like are placed in an oven, the mode has larger requirements on the production cost of the equipment, the joint design and installation of the oven can only be carried out at the beginning of the production of the equipment, the oven is difficult to add and install for the produced material testing equipment without the heating field adding function, and the tensile or compression test carried out in the oven has larger loss on equipment parts, so that the equipment cost is higher and the equipment loss is larger although the parameters of a thermal force field can be controlled more accurately.

Disclosure of Invention

In order to add a heating field function to equipment without modifying the existing material testing equipment and reduce the heating field adding cost and the equipment part loss, the utility model provides a heating environment adding part for the material testing equipment.

The technical scheme adopted by the utility model is as follows: a heating environment addition component for a material testing apparatus, characterized by: comprises a heating device, a temperature measuring device and a heating component shell; heating device includes hot plate 7 and accuse temperature case 1, temperature measuring device includes temperature probe 3 and digital display device 2, heating element shell inner wall all pastes full heat insulating board 11, the heating element shell is equipped with hot plate opening 8 and test material opening 9, hot plate 7, test material 13 is placed inside the heating element shell through hot plate opening 8 and test material opening 9 respectively, hot plate opening 8, test material opening 9 seals board 6 and test material opening sealing board 10 respectively through the hot plate opening, temperature probe 3 one end stretches into inside the heating element shell through test material opening 9, digital display device 2 is connected to the other end, the one end of hot plate 7 passes through the wire and connects accuse temperature case 1.

Preferably, the heating component housing comprises an upper half housing 4 and a lower half housing 5 which are identical in structure and are oppositely arranged, and the upper half housing 4 is in a concave shape with two open sides and no bottom.

Preferably, the inner walls of the heating plate opening sealing plate 6 and the test material opening sealing plate 10 are respectively stuck with a heat insulation plate 11.

Preferably, the test material opening 9 is arranged in the middle of the heating component shell, and one end of the temperature measuring probe 3 extends into the central position inside the heating component shell through the test material opening 9.

Preferably, through holes for the wires to pass through are formed in the heating plate opening sealing plate 6 and the test material opening sealing plate 10.

Preferably, the upper half shell 4 and the lower half shell 5 are connected together by bolts 12.

The beneficial effects of the utility model are as follows: before the test starts, the heating temperature of the electric heating plate is controlled by the temperature control box, the temperature inside the shell of the heating part is observed by the digital display equipment, if the temperature does not meet the test requirement, the temperature displayed by the digital display equipment is controlled and adjusted by the temperature control box until the temperature is the required temperature, the function of adding a heating field for the equipment can be realized under the condition that the existing material test equipment is not modified, and the adding cost of the heating field and the loss of equipment parts are reduced.

Drawings

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a schematic view of the internal assembly of the heating element housing of the present utility model;

FIG. 3 is a part drawing of a heating element housing of the present utility model;

FIG. 4 is a schematic illustration of the use of the utility model in a material testing apparatus.

Reference numerals illustrate: 1. a temperature control box; 2. a digital display device; 3. a temperature measurement probe; 4. an upper half shell; 5. a lower half shell; 6. a heating plate opening sealing plate; 7. a heating plate; 8. a heating plate opening; 9. a test material opening; 10. test material opening sealing plate; 11. a heat insulating plate; 12. a bolt; 13. test material.

Detailed Description

The utility model will be described in further detail with reference to the accompanying drawings and specific examples.

Example 1: as shown in fig. 1-4, a heating environment adding component for a material testing apparatus, characterized by: comprises a heating device, a temperature measuring device and a heating component shell; heating device includes hot plate 7 and accuse temperature case 1, temperature measuring device includes temperature probe 3 and digital display device 2, heating element shell inner wall all pastes full heat insulating board 11, the heating element shell is equipped with hot plate opening 8 and test material opening 9, hot plate 7, test material 13 is placed inside the heating element shell through hot plate opening 8 and test material opening 9 respectively, hot plate opening 8, test material opening 9 seals board 6 and test material opening sealing board 10 respectively through the hot plate opening, temperature probe 3 one end stretches into inside the heating element shell through test material opening 9, digital display device 2 is connected to the other end, the one end of hot plate 7 passes through the wire and connects accuse temperature case 1. The heat insulating plate 11 can ensure the heat insulating performance of the components, maintain the stability of the internal thermal field, and can be detached and replaced regularly.

Further, the heating component shell comprises an upper half shell 4 and a lower half shell 5 which are identical in structure and are oppositely placed, the upper half shell 4 is in a concave shape with two open sides and no bottom, namely, the openings on the two sides of the upper half shell 4 and the openings on the two sides of the lower half shell 5 are oppositely arranged to form a heating plate opening 8, and the heating plate openings 8 are symmetrically arranged at two ends of the heating component shell.

Further, the heat insulation plates 11 are attached to the inner walls of the heating plate opening sealing plate 6 and the test material opening sealing plate 10, so that heat emitted by the components can be reduced, and heat dissipation performance is guaranteed.

Further, the test material opening 9 is arranged in the middle of the heating component shell, and one end of the temperature measuring probe 3 extends into the central position inside the heating component shell through the test material opening 9.

The heating plate openings 8 are symmetrically arranged at two ends of the heating component shell, and the test material openings 9 are arranged in the middle of the heating component shell, so that the test material 13 can be tested in a relatively uniform thermal field inside the heating component shell.

Further, through holes for wires to pass through are formed in the heating plate opening sealing plate 6 and the test material opening sealing plate 10.

Further, the upper half shell 4 and the lower half shell 5 are connected together by bolts 12.

The working principle of the utility model is as follows: before the test, the heat insulation layer, namely the heat insulation plate 11, is paved on the inner walls of the upper half shell 4 and the lower half shell 5, after the paving is finished, the upper half shell 4 and the lower half shell 5 are connected and fixedly connected through bolts 12, so that the heating component shell can be conveniently opened at the back and the heat insulation plate 11 can be conveniently replaced, after the heating component shell is fixedly connected, the heating plate 7 is inserted into the heating plate opening 8 of the heating component shell, the temperature measuring probe 3 is placed in the middle part of the test material opening 9, the heating plate opening sealing plate 6 and the test material opening sealing plate 10 are installed for sealing, and the heat insulation plate 11 is installed on one surface of the heating plate opening sealing plate 6 and the surface of the test material opening sealing plate 10, which faces the inside of the heating component shell, so that the heat insulation performance of the heating component is ensured. Before the test, the heating plate opening sealing plate 6 can be installed, and the test material opening sealing plate 10 is required to be installed after the test material 13 is clamped by the material test equipment and extends into the test material opening 9.

During the test, temperature probe 3 links to each other with digital display device 2 through the circuit, hot plate 7 links to each other with temperature control box 1 through the circuit. An operator can input current into the heating plate 7 through controlling the temperature control box 1, the temperature control box 1 can produce the output current, and the heating plate 7 heats after receiving the current, so that the temperature of the thermal field inside the heating component shell is controlled. The operator can observe the internal temperature of the heating component shell through the digital display device 2 to judge whether the internal temperature meets the requirement, and if the internal temperature does not meet the test requirement, the operator can control and adjust the internal temperature again through adjusting the temperature control box 1 until the temperature displayed by the digital display device 2 is the required temperature.

In summary, the technical content of the present utility model is further described by way of example only, so as to facilitate understanding, but the present utility model is not limited to the above-described embodiments, and those skilled in the art to which the present utility model pertains may make appropriate changes and modifications to the above-described embodiments, and some modifications and changes of the present utility model should also fall within the scope of protection of the claims of the present utility model.

Claims (6)

1. A heating environment addition component for a material testing apparatus, characterized by: comprises a heating device, a temperature measuring device and a heating component shell; heating device includes hot plate (7) and accuse temperature case (1), temperature measuring device includes temperature probe (3) and digital display device (2), heating element shell inner wall all pastes full heat insulating board (11), the heating element shell is equipped with hot plate opening (8) and test material opening (9), hot plate (7), test material (13) are placed inside the heating element shell through hot plate opening (8) and test material opening (9) respectively, hot plate opening (8), test material opening (9) are sealed through hot plate opening sealing plate (6) and test material opening sealing plate (10) respectively, temperature probe (3) one end stretches into inside the heating element shell through test material opening (9), digital display device (2) are connected to the other end, one end of hot plate (7) is through wire connection accuse temperature case (1).

2. A heating environment addition component for a material testing apparatus according to claim 1, wherein: the heating component shell comprises an upper half shell (4) and a lower half shell (5) which are identical in structure and are oppositely arranged, and the upper half shell (4) is in a concave shape with two open sides and no bottom.

3. A heating environment addition component for a material testing apparatus according to claim 1, wherein: the inner walls of the heating plate opening sealing plate (6) and the test material opening sealing plate (10) are respectively stuck with a heat insulation plate (11).

4. A heating environment addition part for a material testing apparatus according to claim 1 or 3, characterized in that: the test material opening (9) is arranged in the middle of the heating component shell, and one end of the temperature measuring probe (3) stretches into the central position inside the heating component shell through the test material opening (9).

5. A heating environment addition part for a material testing apparatus according to claim 1 or 3, characterized in that: and through holes for the wires to pass through are formed in the heating plate opening sealing plate (6) and the test material opening sealing plate (10).

6. A heating environment addition component for a material testing apparatus according to claim 2, wherein: the upper half shell (4) and the lower half shell (5) are connected together through bolts (12).