CN205408201U - Electromagnetic induction heating's fritting furnace - Google Patents

Abstract

The utility model discloses an electromagnetic induction heating's fritting furnace, including the furnace body, carry out the solenoid that heats to the furnace body, the furnace body be equipped with furnace chamber, bell, drop -bottom, the drop -bottom is equipped with the gyro wheel, the lateral wall of furnace body is equipped with the heat insulation layer, and the bottom of furnace chamber is equipped with the support, and the support supports a sintering section of thick bamboo, for the cooling layer, is equipped with the water inlet on the bell between the lateral wall of a sintering section of thick bamboo and furnace body, is equipped with the cooling delivery port on the drop -bottom, and the outside of furnace body is equipped with solenoid, and the furnace body is equipped with the shell. This technical scheme's gyro wheel can make things convenient for the removal of this device, the heat insulation layer can improve electromagnetic heating's heat utilization efficiency, prevents heat radiation's loss, the support supports a sintering section of thick bamboo, can cool off the bottom of a sintering section of thick bamboo when the cooling, and cooling efficiency is high, cool off through setting up the cooling layer sintering section of thick bamboo that can utilize water -cooled mode to accomplish to the sintering, the furnace body is equipped with the shell, can prevent that the solenoid in the furnace body outside from being touched or haring, improves the life -span and the security of solenoid work.

Description

A kind of sintering furnace of electromagnetic induction heating

Technical field

This utility model relates to a kind of sintering furnace, is exactly the sintering furnace of a kind of electromagnetic induction heating.

Background technology

Adopt electromagnetic induction heating system to control sintering furnace heating diffusion pumps, greatly reduce scattering and disappearing of heat, and improve the thermal efficiency, and reduce the temperature of surrounding enviroment.

Original mode of heating used is Resistant heating, mainly through thermal contact conductance mode, heat is passed on vacuum pump cylinder, and owing to the temperature of resistance wire is higher, substantial amounts of heat can pass through the loss radiated the temperature rise causing working environment.Power consumption is big, and maintenance rate is high, it is difficult to stable.

Utility model content

The technical problems to be solved in the utility model is to provide the sintering furnace of a kind of electromagnetic induction heating, this sintering furnace simple in construction, energy-efficient, use, easy to maintenance.

For solving above-mentioned technical problem, this utility model adopts following technological means:

The sintering furnace of a kind of electromagnetic induction heating, including body of heater, the solenoid that body of heater is heated, described body of heater is provided with furnace chamber, bell, drop-bottom, and drop-bottom is provided with roller；The sidewall of body of heater is provided with heat insulation layer, and the bottom of furnace chamber is provided with support, and support supports sintering cylinder, being cooling layer between sintering cylinder and the sidewall of body of heater, bell is provided with water inlet, and drop-bottom is provided with cooling water outlet mouth, the outside of body of heater is provided with solenoid, and body of heater is provided with shell.

The technical program, by body of heater is set to furnace chamber, bell, three parts of drop-bottom, is provided with roller at drop-bottom and can facilitate the movement of this device；The sidewall of body of heater is provided with heat insulation layer, it is possible to improve the heat utilization efficiency of Electromagnetic Heating, it is prevented that the loss of heat radiation；The bottom of furnace chamber is provided with support, and support supports sintering cylinder, can the bottom of sintering cylinder be cooled down when cooling, and cooling effectiveness is high；By arranging cooling layer, water inlet and cooling water outlet mouth, it is possible to use the sintering cylinder sintered is cooled down by the mode of water-cooled；Body of heater is provided with shell, it is possible to prevent the solenoid outside body of heater from being touched or damaging, and improves life-span and the safety of solenoid work.

Further optimal technical scheme is as follows:

Described heat insulation layer includes the vacuum layer being arranged on inner side and is arranged on the heat-insulation layer in outside.Arrange by being layered, it is possible to improve the insulation effect of heat insulation layer further.

Described bell and drop-bottom are bed device and arrange, and are equipped with vacuum layer, heat-insulation layer.The layering of bell and drop-bottom is arranged, it is possible to improve heat utilization efficiency further, it is prevented that in heating process, and heat is scattered and disappeared by bell and drop-bottom.

The medial wall of the sintering cylinder in described body of heater is provided with sintering temperature probe.The temperature of sintering can be convenient for measuring by sintering temperature probe, sintering process is carried out immediately monitoring.

The water inlet of described body of heater is provided with into water temperature probe；The bottom of the cooling layer of body of heater is provided with water outlet temperature probe；Water inlet and cooling water outlet mouth are respectively equipped with entering water electromagnetic valve, drain solenoid valve.By above-mentioned setting, it is possible to by measuring the temperature of inflow temperature and water outlet, monitor cooling procedure and cooling situation, it is achieved automatically controlling of cooling.

Described water inlet connects evacuated tube, cooling column respectively by threeway, and evacuated tube is provided with emptying solenoid valve, and cooling column connects, by connecting tube, the tower that catchments, and connecting tube is provided with water pump, and cooling water outlet mouth is connected with the tower that catchments.By arranging evacuated tube, before heating, first pass through evacuated tube, the water in cooling layer is discharged in cooling water outlet mouth collaborative work, reduces the loss of heat energy further.

Described cooling column is arranged on above the tower that catchments.The stacking setting of cooling column and the tower that catchments, it is possible to reduce this device taking space further.

The technical program, electromagnetic controller in switch board is by 220V, the AC rectification of 50/60HZ becomes unidirectional current, unidirectional current is converted to the high frequency electric that frequency is 20-40KHZ again, the high frequency electric of change flows through the alternating magnetic field that coil can produce to change at a high speed at a high speed, can make to produce on vacuum pump cylinder substantial amounts of eddy current when the magnetic line of force in magnetic field is by magnetic conductive metal material, makes metal material heating at a high speed voluntarily itself, thermal efficiency is far above generally adding hot product, and reduces ambient temperature.

1 is energy-efficient: the thermal efficiency, up to more than 95%, economizes on electricity more than 60% than resistance-type mode of heating, and preheating time shortens more than half.

2 is reliable: many closed loops intelligence control system and perfect protection system, it is ensured that the operation that equipment is safe and reliable.

3 reduce production cost: heating part adopts the special line of induction prevailing, and heat induced line self will not produce too many heat, long service life.Avoid resistance-type heating and need often to safeguard and regularly replace the trouble of heater.

4 intelligent many warm areas control: Electromagnetic Heating energy-saving appliance adopts real time temperature and temperature range freely to set, built-in chip can Based Intelligent Control firing rate and output, can according to the flexible automatic adjustment of practical condition.

Accompanying drawing explanation

Fig. 1 is the structural representation of sintering furnace of the present utility model.

Fig. 2 is the another kind of structural representation of sintering furnace of the present utility model.

Description of reference numerals: 1-switch board；2-bell；3-water inlet；4-is intake temperature probe；5-cooling layer；6-vacuum layer；7-heat-insulation layer；8-sinters temperature probe；9-solenoid；10-shell；11-support；12-roller；13-cooling water outlet mouth；14-drop-bottom；15-water outlet temperature probe；16-emptying solenoid valve；17-evacuated tube；18-entering water electromagnetic valve；19-cooling column；20-connecting tube；21-catchments tower；22-drain solenoid valve；23-water pump.

Detailed description of the invention

Below in conjunction with embodiment, further illustrate this utility model.

Referring to Fig. 1, Fig. 2 it can be seen that the sintering furnace of a kind of electromagnetic induction heating of the present utility model, by body of heater, the solenoid 9 that body of heater is heated forms, and body of heater is provided with furnace chamber, bell 2, drop-bottom 14, and drop-bottom 14 is provided with roller 12；The sidewall of body of heater is provided with heat insulation layer, and the bottom of furnace chamber is provided with support 11, and support 11 supports sintering cylinder, being cooling layer 5 between sintering cylinder and the sidewall of body of heater, bell 2 is provided with water inlet 3, and drop-bottom 14 is provided with cooling water outlet mouth 13, the outside of body of heater is provided with solenoid 9, and body of heater is provided with shell 10.

Described heat insulation layer includes the vacuum layer 6 being arranged on inner side and is arranged on the heat-insulation layer 7 in outside.Arrange by being layered, it is possible to improve the insulation effect of heat insulation layer further.

Described bell 2 and drop-bottom 14 are bed device and arrange, and are equipped with vacuum layer 6, heat-insulation layer 7.The layering of bell 2 and drop-bottom 14 is arranged, it is possible to improve heat utilization efficiency further, it is prevented that in heating process, and heat is scattered and disappeared by bell 2 and drop-bottom 14.

The medial wall of the sintering cylinder in described body of heater is provided with sintering temperature probe 8.The temperature of sintering can be convenient for measuring by sintering temperature probe 8, sintering process is carried out immediately monitoring.

Water inlet 3 place of described body of heater is provided with into water temperature probe 4；The bottom of the cooling layer 5 of body of heater is provided with water outlet temperature probe 15；Water inlet 3 and cooling water outlet mouth 13 are respectively equipped with entering water electromagnetic valve 18, drain solenoid valve 22.By above-mentioned setting, it is possible to by measuring the temperature of inflow temperature and water outlet, monitor cooling procedure and cooling situation, it is achieved automatically controlling of cooling.

Described water inlet 3 connects evacuated tube 17, cooling column 19 respectively by threeway, and evacuated tube 17 is provided with emptying solenoid valve 16, and cooling column 19 connects, by connecting tube 20, the tower 21 that catchments, and connecting tube 20 is provided with water pump 23, and cooling water outlet mouth 13 is connected with the tower 21 that catchments.By arranging evacuated tube 17, before heating, first pass through evacuated tube 17, the water in cooling layer 5 is discharged in cooling water outlet mouth 13 collaborative work, reduces the loss of heat energy further.

Described cooling column 19 is arranged on above the tower 21 that catchments.The stacking setting of cooling column 19 and the tower 21 that catchments, it is possible to reduce this device taking space further.

Switch board 1 connects control water inlet temperature probe 4, sintering temperature probe 8, water outlet temperature probe 15, emptying solenoid valve 16, entering water electromagnetic valve 18, drain solenoid valve 22, water pump 23.

Above-described embodiment, by body of heater is set to furnace chamber, bell 2,14 3 parts of drop-bottom, is provided with roller 12 at drop-bottom 14 and can facilitate the movement of this device；The sidewall of body of heater is provided with heat insulation layer, it is possible to improve the heat utilization efficiency of Electromagnetic Heating, it is prevented that the loss of heat radiation；The bottom of furnace chamber is provided with support 11, and support 11 supports sintering cylinder, can the bottom of sintering cylinder be cooled down when cooling, and cooling effectiveness is high；By arranging cooling layer 5, water inlet 3 and cooling water outlet mouth 13, it is possible to use the sintering cylinder sintered is cooled down by the mode of water-cooled；Body of heater is provided with shell 10, it is possible to prevent the solenoid 9 outside body of heater from being touched or damaging, and improves life-span and the safety of solenoid 9 work.

Owing to the foregoing is only detailed description of the invention of the present utility model; but protection of the present utility model is not limited to this; any those skilled in the art it is contemplated that the equivalent change of the technical program technical characteristic or replacement, be all encompassed within protection domain of the present utility model.

Claims (7)

1. a sintering furnace for electromagnetic induction heating, including body of heater, the solenoid that body of heater is heated, it is characterised in that: described body of heater is provided with furnace chamber, bell, drop-bottom, and drop-bottom is provided with roller；The sidewall of body of heater is provided with heat insulation layer, and the bottom of furnace chamber is provided with support, and support supports sintering cylinder, being cooling layer between sintering cylinder and the sidewall of body of heater, bell is provided with water inlet, and drop-bottom is provided with cooling water outlet mouth, the outside of body of heater is provided with solenoid, and body of heater is provided with shell.

2. the sintering furnace of electromagnetic induction heating according to claim 1, it is characterised in that: described heat insulation layer includes the vacuum layer being arranged on inner side and is arranged on the heat-insulation layer in outside.

3. the sintering furnace of electromagnetic induction heating according to claim 1, it is characterised in that: described bell and drop-bottom are bed device and arrange, and are equipped with vacuum layer, heat-insulation layer.

4. the sintering furnace of electromagnetic induction heating according to claim 1, it is characterised in that: the medial wall of the sintering cylinder in described body of heater is provided with sintering temperature probe.

5. the sintering furnace of electromagnetic induction heating according to claim 1, it is characterised in that: the water inlet of described body of heater is provided with into water temperature probe；The bottom of the cooling layer of body of heater is provided with water outlet temperature probe；Water inlet and cooling water outlet mouth are respectively equipped with entering water electromagnetic valve, drain solenoid valve.

6. the sintering furnace of electromagnetic induction heating according to claim 1, it is characterized in that: described water inlet connects evacuated tube, cooling column respectively by threeway, evacuated tube is provided with emptying solenoid valve, cooling column connects, by connecting tube, the tower that catchments, connecting tube is provided with water pump, and cooling water outlet mouth is connected with the tower that catchments.

7. the sintering furnace of electromagnetic induction heating according to claim 6, it is characterised in that: described cooling column is arranged on above the tower that catchments.