CN214735938U - Annealing device for titanium material - Google Patents

Abstract

The utility model relates to a heat treatment technical field provides an annealing device for titanium material very much, include: the heating device comprises a heating cover, a heat preservation cover, a furnace base and an electric cabinet; wherein, two furnace bases are arranged; the heating cover is arranged on one furnace base, and the heat-insulating cover is arranged on the other furnace base; horn-shaped guide rings are respectively arranged on the opposite corners of the opening of the heating cover, and the horn-shaped guide rings are also respectively arranged on the opposite corners of the opening of the heat-insulating cover; guide posts are arranged on the opposite corners of the furnace base and can be matched with the guide rings; the electrical cabinet is respectively connected with the heating cover and the heat preservation cover. The utility model discloses rationally arranged station and furnace mantle, base quantity, whole efficiency improves by a wide margin. The utility model discloses a cellucotton material of light, it is reasonable, continuous to work, it is more energy-conserving.

Description

Annealing device for titanium material

Technical Field

The utility model relates to a heat treatment technical field provides an annealing device for titanium material very much.

Background

Since 2010, the titanium processing material output of China is the first world. With the development of technology, the demand of titanium materials is gradually increasing. According to the current manufacturing level and development condition of military aircraft in China, the annual demand of aviation titanium materials in China is expected to be most conservative to reach 1 ten thousand tons in the thirteen-five period.

Titanium material annealing is a key step in titanium material production. Efficient, low cost production tasks are sought by every plant. The annealing equipment currently used is generally a trolley annealing furnace. But the production period of the trolley furnace is longer, the efficiency is low, the structure is more complex, and the equipment purchase and maintenance cost is higher.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects of the prior equipment, the utility model provides an annealing device which can complete the annealing work of titanium materials with low cost and high efficiency. The annealing furnace has the advantages of simple structure, continuous work and high annealing efficiency.

The utility model discloses technical scheme as follows:

the utility model provides an annealing device for titanium material, include: the heating device comprises a heating cover, a heat preservation cover, a furnace base and an electric cabinet; wherein, two furnace bases are arranged;

the heating cover is arranged on one furnace base, and the heat-insulating cover is arranged on the other furnace base; horn-shaped guide rings are respectively arranged on the opposite corners of the opening of the heating cover, and the horn-shaped guide rings are also respectively arranged on the opposite corners of the opening of the heat-insulating cover; guide posts are arranged on the opposite corners of the furnace base and can be matched with the guide rings; the electrical cabinet is respectively connected with the heating cover and the heat preservation cover. The arrangement of the guide post and the guide ring ensures that the land cover is easily aligned with the furnace base and is not easy to block.

Furthermore, the heating cover is composed of steel pipes and is of a net structure integrally.

Furthermore, the heat preservation cover is composed of steel pipes and is of a net structure integrally. The heat insulation material in the heat insulation cover is cellucotton. The heating cover and the heat preservation cover are similar in structure.

Further, the thickness of the heat preservation cover is smaller than that of the heating cover.

The utility model discloses still provide the furnace mantle storage rack, the furnace mantle storage rack is formed by steel pipe welding for deposit heating furnace cover or heat preservation furnace cover temporarily.

The utility model discloses rationally arranged station and furnace mantle, base quantity, whole efficiency improves by a wide margin. The utility model discloses a cellucotton material of light, it is reasonable, continuous to work, it is more energy-conserving.

Drawings

Fig. 1 is a schematic view of an annealing device according to the present invention.

Fig. 2 is a schematic structural view of the heating cover of the present invention.

Fig. 3 is a schematic structural view of the furnace base of the present invention.

Fig. 4 is a schematic structural view of the furnace cover storage rack of the present invention.

Reference numerals: 1-heating cover; 11-a guide ring; 2-a heat preservation cover; 3-a furnace base; 31-a guide post; 4-an electrical cabinet; 5-furnace cover storage rack.

Detailed Description

Example 1

The utility model provides an annealing device for titanium material, include: the heating device comprises a heating cover 1, a heat preservation cover 2, a furnace base 3 and an electric cabinet 4; wherein, two furnace bases 3 are arranged;

the heating cover 1 is arranged on one furnace base 3, and the heat-insulating cover 2 is arranged on the other furnace base 3; the opposite corners of the opening of the heating cover 1 are respectively provided with a horn-shaped guide ring 11, and the opposite corners of the opening of the heat-insulating cover are also respectively provided with a horn-shaped guide ring 11; guide posts 31 are arranged on the opposite corners of the furnace base, and the guide posts 31 and the guide ring 11 can be matched with each other; the electrical cabinet 4 is respectively connected with the heating cover 1 and the heat preservation cover 2. The arrangement of the guide post 31 and the guide ring 11 ensures that the furnace cover is easily aligned with the furnace bottom 3 seat and is not easy to be blocked

Further, the heating cover 1 is composed of steel pipes and is of a net structure integrally.

Further, the heat preservation cover 2 is composed of steel pipes and is of a net structure integrally. The heat insulation material in the heat insulation cover 2 is cellucotton. The heating cover 1 is similar to the heat preservation cover 2 in structure.

Further, the thickness of the heat-insulating cover 2 is smaller than that of the heating cover 1.

The utility model discloses still provide furnace mantle storage rack 5, furnace mantle storage rack 5 is formed by the steel pipe welding for deposit heating mantle 1 or heat preservation cover 2 temporarily.

When the annealing furnace works, the heating cover 1 works on one furnace base 3; heating the titanium material to be annealed, and simultaneously working the heat-insulating cover 2 on the other furnace base 3 to perform heat-insulating operation on the heated titanium material.

After the titanium material under the heat-insulating cover 2 is cooled, the annealed titanium material is unloaded, the titanium material to be annealed is loaded, after the titanium material under the heating cover 1 is heated, the heating cover 1 and the heat-insulating cover 2 are replaced, and thus, one-time cycle work is completed.

The utility model is not the best known technology.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (4)

1. An annealing device for titanium materials, characterized by comprising: the heating furnace comprises a heating cover (1), a heat preservation cover (2), a furnace base (3) and an electric cabinet (4); wherein, two furnace bases (3) are arranged;

the heating cover (1) is arranged on one furnace base (3), and the heat-insulating cover (2) is arranged on the other furnace base (3); the opposite corners of the opening of the heating cover (1) are respectively provided with a horn-shaped guide ring (11), and the opposite corners of the opening of the heat-insulating cover (2) are also respectively provided with a horn-shaped guide ring (11); guide columns (31) are arranged on the opposite corners of the furnace base (3), and the guide columns (31) and the guide ring (11) can be matched with each other; the electric cabinet (4) is respectively connected with the heating cover (1) and the heat preservation cover (2).

2. The annealing apparatus for titanium material according to claim 1, wherein: the heating cover (1) is composed of steel pipes and is of a net structure as a whole.

3. The annealing apparatus for titanium material according to claim 1, wherein: the heat preservation cover (2) is composed of steel pipes and is of a net structure as a whole.

4. The annealing apparatus for titanium material according to claim 1, wherein: the thickness of the heat preservation cover (2) is smaller than that of the heating cover (1).

Images