CN205316969U

CN205316969U - Multistage continuous vacuum furnace of interior hot type

Info

Publication number: CN205316969U
Application number: CN201620054062.5U
Authority: CN
Inventors: 郭金锋
Original assignee: Individual
Current assignee: Guangdong Haoda Intelligent Equipment Technology Co ltd
Priority date: 2016-01-20
Filing date: 2016-01-20
Publication date: 2016-06-15
Anticipated expiration: 2026-01-20

Abstract

The utility model discloses a multistage continuous vacuum furnace of interior hot type, including electrical pillar, crucible, water cooling wall, stove outer covering, the stove outer covering below is connected with vacuum pump exhausting pipe, and the water cooled electrode is installed to vacuum pump exhausting pipe both sides, and stove outer covering one side top is connected with the water inlet, and the opposite side below is connected with the delivery port, and the viewing aperture is installed to the stove outer covering top, the inside cooling jacket that is provided with of stove outer covering, and cooling jacket is inside to be provided with at a distance from heat exchanger, and it has the crucible to separate heat exchanger internally mounted, and crucible internally mounted has electrical pillar, and the crucible bottom is fixed with the container, and the furnace gate is installed to stove outer covering the place ahead port. Beneficial effect lies in: this equipment has adopted the fuzzy PID parameter control ware of adjusting, and through the optimization to vacuum furnace temperature control system, it is regional effectively to have reduced the temperature sudden change, has improved furnace temperature uniformity, guarantees product quality.

Description

A kind of multistage continuous vacuum furnace of internal heat type

Technical field

This utility model belongs to metal melting equipment field, is specifically related to a kind of multistage continuous vacuum furnace of internal heat type.

Background technology

In namely vacuum drying oven utilizes vacuum system (by elements such as vacuum pump, vacuum measuring device, vacuum valves through meticulously assembling) by furnace chamber in this particular space of furnace chamber, moieties is discharged, make in furnace chamber pressure less than a normal atmosphere, stove cavity space is thus realizing vacuum state, here it is vacuum drying oven; The multistage continuous vacuum furnace of internal heat type is widely used in the separation of bianry alloy, but due in burner hearth condensing cover poor temperature uniformity and have impact on product quality, it is cause that vacuum drying oven temperature uniformity is poor that vacuum drying oven temperature controlled water is put down not high, the major reason of restriction vacuum drying oven extensive use and development.

Utility model content

The purpose of this utility model is that provides a kind of multistage continuous vacuum furnace of internal heat type to solve the problems referred to above.

This utility model is achieved through the following technical solutions above-mentioned purpose:

A kind of multistage continuous vacuum furnace of internal heat type, including electricity post, crucible, water cooling wall, furnace shell, furnace shell has been connected below vacuum pump and has taken out pipe, vacuum pump is taken out pipe both sides and is provided with water cooled electrode, furnace shell side is connected above water inlet, opposite side has been connected below outlet, furnace shell is arranged above observation panel, furnace shell is internally provided with cooling dome, cooling dome is internally provided with heat shield, and heat shield is internally installed crucible, and crucible is internally installed electric post, crucible bottom is fixed with container, and furnace shell front port is provided with fire door.

In said structure, after evacuation, the infrared radiant energy of electricity post arrives crucible internal protecting wall directly through rarefied air medium, crucible internal protecting wall absorbs radiant energy and heats up, radiation field is formed between crucible internal protecting wall and calandria, the object put in radiation field is produced radiation temperature, electricity post converts electrical energy into heat energy and melt in crucible is heated, wherein water-cooling system had both made casing temperature keep at relatively low temperatures, freeze profile is made again to become temperature difference, make the metallic molecule on evaporating pan be enriched with on condensate pans, reach to separate the purpose of extracting metals.

In order to improve the work efficiency of vacuum drying oven further, vacuum pump is taken out pipe and is connected by screw with furnace shell, and water cooled electrode and furnace shell are connected by screw.

In order to improve the work efficiency of vacuum drying oven further, water cooled electrode is connected by wire with electricity post, and furnace shell is connected by screw is fixing with observation panel.

In order to improve the work efficiency of vacuum drying oven further, container is connected by screw is fixing with crucible, and crucible and furnace shell are fastenedly connected by screw.

In order to improve the work efficiency of vacuum drying oven further, heat shield is connected by screw is fixing with cooling dome, and graphite powder and cooling dome are by being adhesively fixed.

Have the beneficial effects that: this equipment have employed a kind of fuzzy tuning pid parameter controller, by the optimization to Temperature Controlling System for Vacuum Furnace, effectively reduces temperature jump region, improves temperature uniformity, it is ensured that product quality.

Accompanying drawing explanation

The master that Fig. 1 is the multistage continuous vacuum furnace of internal heat type described in the utility model looks full sectional view;

Fig. 2 is the left view of the multistage continuous vacuum furnace of internal heat type described in the utility model.

1, vacuum pump takes out pipe; 2, water cooled electrode; 3, container; 4, electricity post; 5, crucible; 6, heat shield; 7, cooling dome; 8, water cooling wall; 9, water inlet; 10, graphite powder; 11, observation panel; 12, outlet; 13, fire door; 14, furnace shell.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in further detail:

As Figure 1-Figure 2, a kind of multistage continuous vacuum furnace of internal heat type, including electricity post 4, crucible 5, water cooling wall 8, furnace shell 14, furnace shell 14 has been connected below vacuum pump and has taken out pipe 1, evacuate crucible 5 is internal, vacuum pump is taken out pipe 1 both sides and is provided with water cooled electrode 2, connect power supply to be heated, furnace shell 14 side is connected above water inlet 9, connect water inlet pipe, opposite side has been connected below outlet 12, connect outlet pipe, furnace shell 14 is arranged above observation panel 11, product sees inner case, furnace shell 14 is internally provided with cooling dome 7, cooling dome 7 is internally provided with heat shield 6, reduce heat losses, heat shield 6 is internally installed crucible 5, test specimen is heated, crucible 5 is internally installed electric post 4, container 3 it is fixed with bottom crucible 5, furnace shell 14 front port is provided with fire door 13, furnace shell 14 is closed.

In said structure, after evacuation, the infrared radiant energy of electricity post 4 arrives crucible 5 internal protecting wall directly through rarefied air medium, crucible 5 internal protecting wall absorbs radiant energy and heats up, radiation field is formed between crucible 5 internal protecting wall and calandria, the object put in radiation field is produced radiation temperature, electricity post 4 converts electrical energy into heat energy and melt in crucible 5 is heated, wherein water-cooling system had both made furnace shell 14 temperature keep at relatively low temperatures, freeze profile is made again to become temperature difference, make the metallic molecule on evaporating pan be enriched with on condensate pans, reach to separate the purpose of extracting metals.

In order to improve the work efficiency of vacuum drying oven further, vacuum pump is taken out pipe 1 and is connected by screw with furnace shell 14, water cooled electrode 2 and furnace shell 14 are connected by screw, water cooled electrode 2 is connected by wire with electricity post 4, furnace shell 14 is connected by screw is fixing with observation panel 11, and container 3 is connected by screw is fixing with crucible 5, and crucible 5 and furnace shell 14 are fastenedly connected by screw, heat shield 6 is connected by screw is fixing with cooling dome 7, and graphite powder 10 and cooling dome 7 are by being adhesively fixed.

Of the present utility model ultimate principle, principal character and advantage have more than been shown and described. Skilled person will appreciate that of the industry; this utility model is not restricted to the described embodiments; described in above-described embodiment and description is that principle of the present utility model is described; under the premise without departing from this utility model spirit and scope; this utility model also has various changes and modifications, and these changes and improvements both fall within the scope of claimed this utility model.This utility model claims scope and is defined by appending claims and effect thing thereof.

Claims

1. the multistage continuous vacuum furnace of internal heat type, it is characterized in that: include electricity post, crucible, water cooling wall, furnace shell, furnace shell has been connected below vacuum pump and has taken out pipe, vacuum pump is taken out pipe both sides and is provided with water cooled electrode, furnace shell side is connected above water inlet, opposite side has been connected below outlet, furnace shell is arranged above observation panel, furnace shell is internally provided with cooling dome, cooling dome is internally provided with heat shield, and heat shield is internally installed crucible, and crucible is internally installed electric post, crucible bottom is fixed with container, and furnace shell front port is provided with fire door.

2. a kind of multistage continuous vacuum furnace of internal heat type according to claim 1, it is characterised in that: vacuum pump is taken out pipe and is connected by screw with furnace shell, and water cooled electrode and furnace shell are connected by screw.

3. a kind of multistage continuous vacuum furnace of internal heat type according to claim 1, it is characterised in that: water cooled electrode is connected by wire with electricity post, and furnace shell is connected by screw is fixing with observation panel.

4. a kind of multistage continuous vacuum furnace of internal heat type according to claim 1, it is characterised in that: container is connected by screw is fixing with crucible, and crucible and furnace shell are fastenedly connected by screw.

5. a kind of multistage continuous vacuum furnace of internal heat type according to claim 1, it is characterised in that: heat shield is connected by screw is fixing with cooling dome, and graphite powder and cooling dome are by being adhesively fixed.