CN218646795U

CN218646795U - Full-automatic hot shock water-cooling testing arrangement

Info

Publication number: CN218646795U
Application number: CN202222868224.7U
Authority: CN
Inventors: 程鹏; 范伟; 赵思豪; 肖英
Original assignee: Hunan Jiangye Coating Technology Co ltd
Current assignee: Hunan Jiangye Coating Technology Co ltd
Priority date: 2022-10-31
Filing date: 2022-10-31
Publication date: 2023-03-17
Anticipated expiration: 2032-10-31

Abstract

The utility model provides a full-automatic thermal shock water cooling testing device, which comprises a high-temperature heating box, a moving module and a cooling water tank; the high-temperature heating box is arranged on the foundation through supporting legs, and an opening is formed in the bottom of the high-temperature heating box; the bottom door is arranged at the top of the lifting device, and the lifting device is fixed on the foundation; the bottom door can seal the opening; the moving module comprises a linear module I and a linear module II; the linear module I is horizontally arranged, the linear module II is arranged on the linear module I, and the linear module II is vertically arranged; the linear module I can drive the linear module II to move horizontally; one end of the supporting plate is arranged on the linear module II; a furnace platform is arranged on the top surface of the bottom door, and a vessel is arranged on the furnace platform and is used for Cheng Shijian; the cooling water tank is arranged between the movable module and the furnace platform. The utility model discloses simple structure, it is with low costs, reliable and stable, can realize the test of full process automation thermal shock water-cooling, forced air cooling and water-cooling forced air cooling coupling, improve detection efficiency, reduce the detection cost.

Description

Full-automatic hot shock water-cooling testing arrangement

Technical Field

The utility model relates to a thermal shock testing arrangement technical field, concretely relates to full-automatic hot shock water-cooling testing arrangement.

Background

The high-temperature thermal shock testing device converts electric energy into heat to heat a sample, is used for performing thermal cycle and thermal shock tests on high-temperature alloy materials and high-temperature protective coatings in a high-temperature environment, and is mainly applied to the industries of aerospace, nuclear energy, special ceramics, new energy and the like. The thermal shock furnace is convenient and flexible, and is ideal detection equipment. Thermal shock furnaces on the current market generally adopt manual lofting and manual water extraction, and have the disadvantages of complex process and high labor cost.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a simple structure, convenient operation can realize thermal shock test full automation, can effectively assess, study, examine under the cold and hot circumstances in turn by the measurand, the full-automatic hot shock water cooling test device of the ability of the anti cold and hot impact of surface coating and base member and protective coating.

The utility model adopts the technical proposal that: a full-automatic thermal shock water-cooling testing device comprises a high-temperature heating box, a moving module and a cooling water tank;

the high-temperature heating box is arranged on the foundation through supporting legs, and the bottom of the high-temperature heating box is provided with an opening and a bottom door; the bottom door is arranged at the top of the lifting device, and the lifting device is fixed on the foundation and is positioned right below the opening; the bottom door can seal the opening;

the moving module comprises a linear module I and a linear module II; the linear module I is horizontally arranged, the linear module II is arranged on the linear module I, and the linear module II is vertically arranged; the linear module I can drive the linear module II to move horizontally; one end of the supporting plate is arranged on the linear module II, and the linear module II can drive the supporting plate to move up and down;

a furnace platform is arranged on the top surface of the bottom door, and a vessel is arranged on the furnace platform and is used for Cheng Shijian; and the cooling water tank is arranged between the movable module and the furnace platform.

Furthermore, the lifting device adopts an electric push rod or a hydraulic cylinder, the vessel is made of 310S materials, the vessel is in a hollow fence form, and a ceramic coating is sprayed on the surface of the vessel; a flange is arranged on the upper portion of the outer wall of the utensil, a U-shaped groove is formed in the other end of the supporting plate, and the utensil can be supported in the U-shaped groove through the flange.

Further, the cooling device is arranged close to the cooling water tank and fixed above the cooling water tank.

The side door is arranged on a support leg of the high-temperature heating box through a moving mechanism, and the moving mechanism adopts a hydraulic cylinder or an electric push rod; the side door can seal the opening.

Furthermore, a water inlet and a water outlet are arranged on the cooling water tank, and the water inlet is lower than the water outlet; the water inlet is connected with the water outlet of the water cooler through a pipeline, and the water outlet is connected with the water inlet of the water cooler through a pipeline to form a cooling circulation loop.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model has simple structure, convenient operation, low cost, stability and reliability, can realize the full-process automatic thermal shock water cooling, air cooling and water cooling and air cooling coupling test, and can effectively evaluate, research and assess the bonding capability of the surface coating and the base body and the cold and hot impact resistance capability of the protective coating under the condition of cold and hot alternation of the tested object; the detection efficiency is improved, and the labor intensity and the detection cost of workers are reduced.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1, the utility model comprises a high temperature heating box 1, a movable module, a cooling water tank 15, a side door 3, a furnace platform 4, a bottom door 5, an air cooling device 16 and a utensil 14.

High temperature heating case 1 passes through the landing leg to be fixed on the basis, and 1 bottoms of high temperature heating case are equipped with the opening, and the opening supplies the test piece to get into. The side door 3 is arranged on a support leg of the high-temperature heating box through a moving mechanism, and the moving mechanism 2 adopts a hydraulic cylinder or an electric push rod; the side door 3 can seal the opening.

The furnace platform 4 is fixedly arranged on the top surface of the bottom door 5, and the bottom of the bottom door is fixedly arranged on the top of the lifting device 6. The lifting device 6 is fixed on the foundation. The lifting device 6 can drive the bottom door 5 to rise to seal the opening, so that the heat in the furnace chamber is preserved. The lifting device 6 is arranged on the foundation and is positioned right below the opening. The lifting device 6 adopts an electric push rod or a hydraulic cylinder. The vessel 17 is arranged on the furnace platform 4, and the vessel is used for Cheng Shijian. The vessel 17 is made of 310S, the vessel is in a hollow fence form, and a ceramic coating is sprayed on the surface of the vessel. The upper part of the outer wall of the vessel 17 is provided with a flange.

The moving module comprises a linear module I7 and a linear module II 9; linear module I7 level sets up, installs on mounting bracket 11, and mounting bracket 11 is installed on the landing leg of high temperature heating case. The linear module II 9 is installed on the linear module I7, and the linear module II 9 is vertically arranged; the linear module I7 can drive the linear module II 9 to move horizontally; one end of the supporting plate 12 is installed on the linear module II 9, and the linear module II 9 can drive the supporting plate 12 to move up and down. The section of the supporting plate 8 is Z-shaped, the other end of the supporting plate 12 is provided with a U-shaped groove, and the vessel 17 can be supported in the U-shaped groove through a flange.

The cooling water tank 15 is arranged between the movable module and the furnace platform. The cooling water tank 15 is provided with a water inlet and a water outlet, and the water inlet is lower than the water outlet. The water inlet is connected with the water outlet of the water cooling machine 18 through a pipeline 14, and the water outlet of the cooling water tank is connected with the water inlet of the water cooling machine 18 through a pipeline 13 to form a cooling circulation loop. The air cooling device 16 is arranged close to the cooling water tank 15, and the air cooling device 16 is fixed above the cooling water tank 15.

The utility model discloses during the use, water tank 15 pass through pipeline 14 and water-cooling machine 18 and connect, the cold water that produces among the water-cooling machine 18 gets into cooling water tank 15, flows back to water-cooling machine 18 from pipeline 13, forms the circulating water return circuit. The household utensils 17 in hold the test piece to place on stove top 4 together, stove top 4 rises under elevating gear 6 effect and moves to 1 heating intracavity heating position of high temperature heating box, simultaneously the bottom door 5 of stove top lower part just in time pastes tight furnace chamber bottom, seals the furnace chamber, after heating box 1 heats the target temperature, stove top 4 descends under elevating gear 6's drive, falls out the furnace chamber of high temperature heating box 1, then furnace gate 3 removes and closes the heating chamber under the drive of moving mechanism 2. At the moment, the moving module starts to act, the linear module I7 in the moving module drives the linear module II 9 to move towards the direction of the furnace platform under the driving of the motor I8 of the moving module, the linear module II 9 controls the supporting plate 12 to move up and down under the driving of the motor II 10 of the linear module II, the supporting plate 12 enters from the bottom of the vessel 17 to lift the vessel 17, the vessel 17 is moved into the water cooling box 15 through the moving control of the moving module, and after the vessel 17 is cooled for a certain time, the vessel 17 is further lifted to the air port of the air cooling device 16 through the moving module to be air-cooled and dry residual moisture. After all the actions are finished, the moving module sends the vessel 17 back to the furnace platform 4 through the supporting plate 12, the supporting plate 12 is separated from the vessel 17 and leaves the furnace platform 4 after descending through the moving module, and the single circulation is finished. And are cycled for a plurality of times in turn.

Claims

1. A full-automatic thermal shock water-cooling testing device comprises a high-temperature heating box, a moving module and a cooling water tank; the method is characterized in that: the high-temperature heating box is arranged on the foundation through supporting legs, and an opening is formed in the bottom of the high-temperature heating box; the bottom door is arranged at the top of the lifting device, and the lifting device is fixed on the foundation and is positioned right below the opening; the bottom door can seal the opening;

a furnace platform is arranged on the top surface of the bottom door, and a vessel is arranged on the furnace platform and is used for Cheng Shijian; the cooling water tank is arranged between the movable module and the furnace platform.

2. The full-automatic thermal shock water-cooling test device of claim 1, wherein: the lifting device adopts an electric push rod or a hydraulic cylinder, the vessel is made of 310S materials, the vessel is in a hollow fence form, and a ceramic coating is sprayed on the surface of the vessel; a flange is arranged on the upper portion of the outer wall of the utensil, a U-shaped groove is formed in the other end of the supporting plate, and the utensil can be supported in the U-shaped groove through the flange.

3. The full-automatic thermal shock water-cooling test device of claim 1, wherein: the cooling water tank is characterized by further comprising an air cooling device, the air cooling device is arranged close to the cooling water tank, and the air cooling device is fixed above the cooling water tank.

4. The full-automatic thermal shock water-cooling testing device of claim 1, characterized in that: the side door is arranged on a support leg of the high-temperature heating box through a moving mechanism, and the moving mechanism adopts a hydraulic cylinder or an electric push rod; the side door can seal the opening.

5. The full-automatic thermal shock water-cooling test device of claim 1, wherein: the cooling water tank is provided with a water inlet and a water outlet, and the water inlet is lower than the water outlet; the water inlet is connected with the water outlet of the water cooler through a pipeline, and the water outlet is connected with the water inlet of the water cooler through a pipeline to form a cooling circulation loop.