CN203653630U - Self-opening and closing anti-corrosion operation monitoring three-chamber vacuum furnace - Google Patents

Abstract

The utility model relates to a self-opening and closing anti-corrosion operation monitoring three-chamber vacuum furnace, and belongs to the technical field of a vacuum furnace. The self-opening and closing anti-corrosion operation monitoring three-chamber vacuum furnace comprises a cooling chamber, a heating chamber, a preparing chamber, a vacuum supply mechanism, an operation monitoring system and a self-opening and closing mechanism, wherein two sides of the heating chamber are respectively connected with the preparing chamber and the cooling chamber through a partition wall; an insulated door is arranged on the partition wall; the cooling chamber comprises a gas quenching chamber, an oil quenching chamber, an inflatable rapid cooling mechanism and an oil quenching bath while a gas convective circulation mechanism is arranged on the heating chamber; a thermal insulating layer, a vacuum layer and a stainless steel housing are sequentially arranged inside the heating chamber and the insulated door from the inside of the heating chamber to outside; a dust collector is arranged on an exhaust tube between the vacuum supply mechanism, the cooling chamber and the heating chamber. The self-opening and closing anti-corrosion operation monitoring three-chamber vacuum furnace disclosed by the utility model not only is safe in oil quenching, and even to heat materials, but also is good in thermal barrier effect, and high in product quality, an energy source can be saved, meanwhile, the processing efficiency is high, the furnace door can be automatically opened, and the vacuum supply mechanism can be prevented from being corroded.

Description

A kind of from opening and closing corrosion proof type policer operation three Room vacuum ovens

Technical field

The utility model relates to a kind of from opening and closing corrosion proof type policer operation three Room vacuum ovens, belongs to vacuum oven technical field.

Background technology

At present, existing vacuum oven comprises cooling room and heating chamber, between cooling room and heating chamber, separates by locellus wall; Cooling room inside is provided with gas quench chamber and oil quenching chamber, and the gas chamber of quenching provides source of the gas by inflation quick cooler structure, and oil quenching is carried out by oil quenching oil groove in oil quenching chamber.And heating chamber inside comprises heating chamber platform, material frame, material frame is positioned on heating chamber platform, and heating chamber is inner along being circumferentially evenly provided with one and above heating tube simultaneously, and described heating chamber outer setting has vacuum device.On locellus wall, offer locellus wall and import and export, imported and exported ready-made material in heating chamber is put in cooling room by locellus wall, locellus wall is imported and exported insulated door is installed, and insulated door is by the folding of insulated door hoisting appliance, and this vacuum oven exists following shortcoming:

1. in the time of oil quenching, because processing materials is put into oil quenching oil groove, make the pasta inequality of being heated, and oil is splashed, be therefore prone to accidents.

2. heating chamber is inner by the static heating of heating tube, therefore easily makes the material inequality of being heated, and does not reach good processing effect.

3. the vacuum oven of this design, the furnace wall effect of heat insulation of its heating chamber is bad, and the temperature between while cooling room and heating chamber does not reach heat insulation preferably, and therefore its heat radiation is serious, consumes energy higher.

4. the vacuum oven of this design, in the time that material is added to hot-work, need to open heating chamber, therefore when each materiel machining, all will heating chamber again be vacuumized and be heated, and has wasted a large amount of energy, uneconomical also not environmental protection.

5. in the time carrying out materiel machining, this kind of process furnace can only be used artificial, thereby its cost of labor is high, simultaneously owing to being limited to workman's technology, therefore adding man-hour, between each operation, can not be connected preferably, causes processing rear material defect ware more.

6. existing this vacuum oven is in the time vacuumizing, and due to the heating material in cooling room and heating chamber or when cooling, can produce a large amount of dusts, therefore, in the time that vacuum device vacuumizes, easily corrodes vacuum device.

7. the method for opening body of heater due to the vacuum oven of this design is to open manually, thereby in the time that needs are opened body of heater, because fire door is heavier, can not open easily, thereby very inconvenient.

Utility model content

The utility model is for the deficiency of the problems referred to above, proposes that a kind of oil quenching safety, material are heated evenly and good heat-insulation effect and can automatization process continuously, can automatically open the corrosion proof type of the keying certainly policer operation three Room vacuum ovens of fire door.

The utility model is that the technical scheme that solves the problems of the technologies described above proposition is: a kind of from opening and closing corrosion proof type policer operation three Room vacuum ovens, comprise cooling room, heating chamber and preparation room, described preparation room, heating chamber, cooling room flow to and set gradually by materiel machining, and described preparation room, heating chamber, cooling room are all communicated with respectively vacuum device separately, the both sides of described heating chamber are connected with preparation room, cooling room respectively by locellus wall simultaneously, on described locellus wall, offer locellus wall and import and export, described locellus wall is imported and exported insulated door is installed, and described insulated door is all positioned at a side that deviates from heating chamber on locellus wall, and described insulated door is by the folding of insulated door hoisting appliance simultaneously, described cooling room is disposed with gas quench chamber and oil quenching chamber from top to bottom, the described gas top, chamber of quenching is provided with inflation quick cooler structure, and bottom, oil quenching chamber is provided with oil quenching oil groove, and described oil quenching outdoor is provided with agitator, a described cooling room side relative with heating chamber is provided with cooling room fire door simultaneously, in described preparation room, be provided with preparation room platform, described preparation room material frame is positioned on preparation room platform, and a described preparation room side relative with heating chamber is provided with preparation room fire door, in described heating chamber, be provided with heating chamber platform, described heating chamber material frame is positioned on heating chamber platform, and simultaneously described heating chamber is inner along being circumferentially evenly provided with one and above heating tube, described cooling room, preparation room inside are provided with material frame transfer mechanism, the furnace wall of described heating chamber and insulated door are outwards all disposed with thermofin, vacuum layer and stainless steel casing by heating chamber inside, between described thermofin and stainless steel casing, pass through shore supports, and on described heating chamber, be provided with gaseous exchange cycling mechanism, also comprise first, second from opening and closing mechanism and operation supervise and control system, described first, second is respectively used to cooling room fire door from opening and closing mechanism, opening and closing automatically of preparation room fire door, described first comprises the first triangular connecting plate from opening and closing mechanism, first connecting rod, the first swinging strut and the first linear electric motors, described the first linear electric motors, the first swinging strut is all fixedly installed on a side that is positioned at cooling room fire door on body of heater shell, the two ends of described first connecting rod are rotationally connected by the expansion link of the first rotating shaft and first triangular connecting plate one end and the first linear electric motors respectively, and the other end of described the first triangular connecting plate is fixedly connected on the tail end of cooling room fire door, described cooling room fire door is rotationally connected by the first swinging strut and body of heater shell simultaneously, described second comprises the second triangular connecting plate, second connecting rod, the second swinging strut and the second linear electric motors from opening and closing mechanism, described the second linear electric motors, the second swinging strut are all fixedly installed on a side that is positioned at preparation room fire door on body of heater shell, the two ends of described second connecting rod are rotationally connected by the expansion link of the second rotating shaft and second triangular connecting plate one end and the second linear electric motors respectively, and the other end of described the second triangular connecting plate is fixedly connected on the tail end of preparation room fire door, described preparation room fire door is rotationally connected by the second swinging strut and body of heater shell simultaneously, described operation supervise and control system is connected from opening and closing mechanism with inflation quick cooler structure, vacuum device, heating tube, insulated door hoisting appliance, agitator, gaseous exchange cycling mechanism, material frame transfer mechanism, first, second respectively, on extraction pipe between described vacuum device and cooling room, heating chamber, be provided with suction cleaner, described suction cleaner comprises the suction cleaner intake stack, buffer layer, filtering layer, adsorption layer and the suction cleaner wind pipe that set gradually according to the flow direction of wind, the air outlet of described suction cleaner intake stack is provided with impact-absorbing shell, and the caliber of described suction cleaner intake stack is less than the caliber of suction cleaner wind pipe, and described adsorption layer is gac.

Preferred: described operation supervise and control system comprises input block, monitoring temperature unit, vacuum tightness monitoring unit and operating unit, described input block, monitoring temperature unit, vacuum tightness monitoring unit are connected with operating unit respectively, described monitoring temperature unit comprises the gas chambers temp monitoring unit of quenching, oil quenching oil sump temperature monitoring unit and heating chamber monitoring temperature unit, the described gas chambers temp monitoring unit of quenching, oil quenching oil sump temperature monitoring unit is connected with operating unit respectively with heating chamber monitoring temperature unit, described oil quenching oil sump temperature monitoring unit comprises thermometer, ball float and slide rail, described slide rail is arranged on the sidewall of oil quenching oil groove, on described slide rail, slidably connect slide bar with matching, described thermometer, ball float is arranged on slide bar, wherein: described input block is used for inputting materiel machining information, and this materiel machining information is fed back to operating unit, described monitoring temperature unit is for monitoring the temperature that gas is quenched in chamber, oil quenching oil groove and heating chamber, and by this Temperature Feedback to operating unit, described vacuum tightness monitoring unit is used for monitoring the vacuum tightness in cooling room and heating chamber, and this vacuum tightness is fed back to operating unit, described operating unit operates control to inflation quick cooler structure, vacuum device, heating tube, insulated door hoisting appliance, agitator, gaseous exchange cycling mechanism, material frame transfer mechanism respectively according to the materiel machining information of input block input, described operating unit is according to the temperature control heating tube heating of the heating chamber of monitoring temperature unit feedback, and described operating unit stirs according to the temperature control agitator of the oil quenching oil groove of monitoring temperature unit feedback, described operating unit controls respectively cooling room according to the vacuum tightness of the cooling room of vacuum tightness monitoring unit feedback and heating chamber and the corresponding vacuum device of heating chamber vacuumizes.

Preferred: described material frame transfer mechanism comprises transfer mechanism support, the first pole, vertical motor and horizontal motor, described transfer mechanism support is arranged at respectively indoor accordingly, on described the first pole, be provided with horizontal gear track, on described transfer mechanism support, be provided with the horizontal teeth wheels that match with horizontal gear track, and described horizontal motor is arranged on transfer mechanism support and provide power for horizontal teeth wheels, on described the first pole, be provided with vertical gear unit, on described transfer mechanism support, be provided with the vertical gear track matching with vertical gear unit, and described vertical motor is upper and provide power for vertical gear unit for being arranged at the first pole.

Preferred: described gaseous exchange cycling mechanism comprises ventilating layer, gas supply mechanism and heating chamber blower fan, described ventilating layer is arranged between heating tube and thermofin, described heating chamber air inlet is communicated with gas supply mechanism, described gas supply mechanism is by pipeline and heating chamber internal communication, and heating chamber assembling is on heating chamber furnace wall, the inlet end of described hot cell blower fan is connected with gas supply mechanism, and the outlet side of described hot cell blower fan is connected with ventilating layer, the side that described ventilating layer is relative with heating tube is provided with blowhole, described blowhole and heating tube are along circumferentially interval setting.

Preferred: described pillar along circumferentially all with distribution.

Preferred: described pillar number is four.

Preferred: described inflation quick cooler structure is nitrogen.

Preferred: described agitator is agitator motor, and the impeller of described agitator motor is arranged in cooling room, and is positioned at below pasta.

Preferred: described vacuum device is evacuator.

Preferred: described thermofin is graphite carpet veneer.

Preferred: described insulated door hoisting appliance comprises cylinder, described air cylinder driven axle is connected with insulated door.

One of the present utility model is from opening and closing corrosion proof type policer operation three Room vacuum ovens, compared to existing technology, there is following beneficial effect: 1. owing to being provided with agitator, therefore in the time of oil quenching, by the stirring of agitator, thereby the oil of oil quenching oil groove is heated evenly, thereby it is difficult for splashing, security improves greatly.

2. owing to being provided with gaseous exchange cycling mechanism, while therefore heating heating indoor, by the effect of gaseous exchange cycling mechanism, the wind of heating chamber does circulation and blows, thereby makes being heated evenly of material, reaches good processing effect.

3. because heating chamber, insulated door are outwards all disposed with thermofin, vacuum layer and stainless steel casing by heating chamber inside, therefore pass through the heat insulation of thermofin, its heat-energy losses is well completely cut off, can only be thermal radiation because heat energy conducts in a vacuum again, and thermal radiation is compared with the conduction of hot entity, its energy content is lower, therefore by the effect of vacuum layer, the loss of heat energy is the thermal radiation of part just, thereby can greatly reduce the loss of heat energy.

4. owing to being provided with preparation room, therefore while use, only material need be put in preparation room, preparation room is vacuumized, make its vacuum tightness and heating chamber suitable, then material is moved in heating chamber, therefore the vacuum tightness of heating chamber and preparation room is suitable, and the temperature of heating chamber only can reject heat in preparation room simultaneously, therefore its heat dissipation capacity is reduced, thereby it not only can process continuously, improve working (machining) efficiency, simultaneously its effective save energy.

5. owing to being provided with operation supervise and control system, therefore add man-hour, only need will processing materials each step be input in operation supervise and control system, operation supervise and control system will automatically be controlled whole device and process, therefore its processing adopts automated operation, its state of the art can not be limited to workman's experience, thereby the quality of the product of its raising.

6. owing to being provided with oil quenching oil sump temperature monitoring unit, described oil quenching oil sump temperature monitoring unit comprises thermometer, ball float and slide rail, described slide rail is arranged on the sidewall of oil quenching oil groove, on described slide rail, slidably connect slide bar with matching, described thermometer, ball float are arranged on slide bar, therefore in the time that the oil mass in oil quenching oil groove increases or reduce, thermometer is due to the effect of ball float, swim on pasta always, the temperature of measurement pasta that therefore can be all the time, thus guarantee that its tolerance range of measurement temperature is high.

7. owing to being provided with suction cleaner on the extraction pipe between vacuum device and cooling room, heating chamber, therefore in the time that vacuum device is worked, when cooling room, heating chamber are found time, the dust gas of cooling room, heating chamber is through the filtration of suction cleaner, dust in gas is all adsorbed by suction cleaner, thereby vacuum device can not be corroded.

8. draw together first, second from opening and closing mechanism owing to being provided with, described first, second is respectively used to opening and closing automatically of cooling room fire door, preparation room fire door from opening and closing mechanism, therefore while use, only need open respectively first, second from opening and closing mechanism by operation supervise and control system, just can automatically open cooling room fire door, preparation room fire door; As open first from opening and closing mechanism, the first linear electric motors shrink, and drive successively first connecting rod, a triangular connecting plate, thereby cooling room fire door is rotated along rotating shaft and body of heater shell, thereby by cooling room oven door opening, thereby it can open fire door automatically, easy to use.

In sum: of the present utility model from opening and closing corrosion proof type policer operation three Room vacuum ovens, not only its oil quenching safety, material are heated evenly, and good heat-insulation effect, the quality of product is high, can save energy, can automatically open fire door, while working (machining) efficiency is high, evacuator can be avoided being corroded.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model embodiment;

Fig. 2 is that the A-A of Fig. 1 is to sectional view;

Fig. 3 be in Fig. 1 B-B to sectional view;

Fig. 4 is the structural representation of the present embodiment suction cleaner;

Fig. 5 is the structural representation from opening and closing mechanism of the utility model embodiment;

Fig. 6 is the open mode structural representation from opening and closing mechanism of the utility model embodiment;

Wherein: 1 is body of heater shell, 11 set up for inflating quick cooler, 12 is the first vacuum device, 121 is suction cleaner, 1210 is suction cleaner wind pipe, 1211 is gac, 1212 is filtering layer, 1213 is buffer layer, 1214 is suction cleaner intake stack, 13 is operation supervise and control system, 131 is thermometer, 132 is slide rail, 133 is ball float, 2 is cooling room, 21 is oil quenching oil groove, 22 is agitator, 23 is the first charging basket transfer mechanism support, 231 is the first pole, 232 is the first vertical motor, 233 is the first horizontal motor, 24 is cooling room fire door, 3 is heating chamber, 31 is heating chamber platform, 32 is charging basket, 33 is heating chamber blower fan, 331 is ventilating layer, 332 is blowhole, 34 is heating chamber shell, 341 is stainless steel casing, 342 is vacuum layer, 343 is thermofin, 344 is pillar, 35 is electrothermal tube, 36 is heating chamber fire door, 4 is locellus wall, 41 is insulated door, 42 is insulated door hoisting appliance, 43 is the import and export of locellus wall, 5 is preparation room, 51 is preparation room fire door, 52 is the second vacuum device, 53 is preparation room platform, 531 is preparation room charging basket, 541 is the second pole, 542 is the second charging basket transfer mechanism support, 543 is the first horizontal motor, 544 is the first vertical motor, 6 is from opening and closing mechanism, 61 is the first web plate, 62 is the second web plate, 63 is linear electric motors, 64 is swinging strut.

Embodiment

Accompanying drawing discloses the structural representation of a preferred embodiment of the utility model without limitation, explains the technical solution of the utility model below with reference to accompanying drawing.

Embodiment

The one of the present embodiment is from opening and closing corrosion proof type policer operation three Room vacuum ovens, as shown in Fig. 1-6, comprise cooling room, heating chamber and preparation room, described preparation room, heating chamber, cooling room flow to and set gradually by materiel machining, and described preparation room, heating chamber, cooling room are all communicated with respectively vacuum device separately, the both sides of described heating chamber are connected with preparation room, cooling room respectively by locellus wall simultaneously, on described locellus wall, offer locellus wall and import and export, described locellus wall is imported and exported insulated door is installed, and described insulated door is all positioned at a side that deviates from heating chamber on locellus wall, and described insulated door is by the folding of insulated door hoisting appliance simultaneously, described cooling room is disposed with gas quench chamber and oil quenching chamber from top to bottom, the described gas top, chamber of quenching is provided with inflation quick cooler structure, and bottom, oil quenching chamber is provided with oil quenching oil groove, and described oil quenching outdoor is provided with agitator, a described cooling room side relative with heating chamber is provided with cooling room fire door simultaneously, in described preparation room, be provided with preparation room platform, described preparation room material frame is positioned on preparation room platform, and a described preparation room side relative with heating chamber is provided with preparation room fire door, in described heating chamber, be provided with heating chamber platform, described heating chamber material frame is positioned on heating chamber platform, and simultaneously described heating chamber is inner along being circumferentially evenly provided with one and above heating tube, described cooling room, preparation room inside are provided with material frame transfer mechanism, the furnace wall of described heating chamber and insulated door are outwards all disposed with thermofin, vacuum layer and stainless steel casing by heating chamber inside, between described thermofin and stainless steel casing, pass through shore supports, and on described heating chamber, be provided with gaseous exchange cycling mechanism, also comprise first, second from opening and closing mechanism and operation supervise and control system, described first, second is respectively used to cooling room fire door from opening and closing mechanism, opening and closing automatically of preparation room fire door, described first, second be from opening and closing mechanism identical from opening and closing mechanism, describedly comprise triangular connecting plate from opening and closing mechanism, connecting rod, swinging strut and linear electric motors, concrete: described first comprises the first triangular connecting plate from opening and closing mechanism, first connecting rod, the first swinging strut and the first linear electric motors, described the first linear electric motors, the first swinging strut is all fixedly installed on a side that is positioned at cooling room fire door on body of heater shell, the two ends of described first connecting rod are rotationally connected by the expansion link of the first rotating shaft and first triangular connecting plate one end and the first linear electric motors respectively, and the other end of described the first triangular connecting plate is fixedly connected on the tail end of cooling room fire door, described cooling room fire door is rotationally connected by the first swinging strut and body of heater shell simultaneously, described second comprises the second triangular connecting plate, second connecting rod, the second swinging strut and the second linear electric motors from opening and closing mechanism, described the second linear electric motors, the second swinging strut are all fixedly installed on a side that is positioned at preparation room fire door on body of heater shell, the two ends of described second connecting rod are rotationally connected by the expansion link of the second rotating shaft and second triangular connecting plate one end and the second linear electric motors respectively, and the other end of described the second triangular connecting plate is fixedly connected on the tail end of preparation room fire door, described preparation room fire door is rotationally connected by the second swinging strut and body of heater shell simultaneously, described operation supervise and control system is connected from opening and closing mechanism with inflation quick cooler structure, vacuum device, heating tube, insulated door hoisting appliance, agitator, gaseous exchange cycling mechanism, material frame transfer mechanism, first, second respectively, on extraction pipe between described vacuum device and cooling room, heating chamber, be provided with suction cleaner, described suction cleaner comprises the suction cleaner intake stack, buffer layer, filtering layer, adsorption layer and the suction cleaner wind pipe that set gradually according to the flow direction of wind, the air outlet of described suction cleaner intake stack is provided with impact-absorbing shell, and the caliber of described suction cleaner intake stack is less than the caliber of suction cleaner wind pipe, and described adsorption layer is gac.

Described operation supervise and control system comprises input block, monitoring temperature unit, vacuum tightness monitoring unit and operating unit, and described input block, monitoring temperature unit, vacuum tightness monitoring unit are connected with operating unit respectively, described monitoring temperature unit comprises the gas chambers temp monitoring unit of quenching, oil quenching oil sump temperature monitoring unit and heating chamber monitoring temperature unit, the described gas chambers temp monitoring unit of quenching, oil quenching oil sump temperature monitoring unit is connected with operating unit respectively with heating chamber monitoring temperature unit, described oil quenching oil sump temperature monitoring unit comprises thermometer, ball float and slide rail, described slide rail is arranged on the sidewall of oil quenching oil groove, on described slide rail, slidably connect slide bar with matching, described thermometer, ball float is arranged on slide bar, wherein: described input block is used for inputting materiel machining information, and this materiel machining information is fed back to operating unit, described monitoring temperature unit is for monitoring the temperature that gas is quenched in chamber, oil quenching oil groove and heating chamber, and by this Temperature Feedback to operating unit, described vacuum tightness monitoring unit is used for monitoring the vacuum tightness in cooling room and heating chamber, and this vacuum tightness is fed back to operating unit, described operating unit operates control to inflation quick cooler structure, vacuum device, heating tube, insulated door hoisting appliance, agitator, gaseous exchange cycling mechanism, material frame transfer mechanism respectively according to the materiel machining information of input block input, described operating unit is according to the temperature control heating tube heating of the heating chamber of monitoring temperature unit feedback, and described operating unit stirs according to the temperature control agitator of the oil quenching oil groove of monitoring temperature unit feedback, described operating unit controls respectively cooling room according to the vacuum tightness of the cooling room of vacuum tightness monitoring unit feedback and heating chamber and the corresponding vacuum device of heating chamber vacuumizes.

Described material frame transfer mechanism comprises transfer mechanism support, the first pole, vertical motor and horizontal motor, described transfer mechanism support is arranged at respectively indoor accordingly, on described the first pole, be provided with horizontal gear track, on described transfer mechanism support, be provided with the horizontal teeth wheels that match with horizontal gear track, and described horizontal motor is arranged on transfer mechanism support and provide power for horizontal teeth wheels, on described the first pole, be provided with vertical gear unit, on described transfer mechanism support, be provided with the vertical gear track matching with vertical gear unit, and described vertical motor is upper and provide power for vertical gear unit for being arranged at the first pole.

Described preparation room material frame, heating chamber material frame are the material frame of placing material.

Described cooling room inside is provided with the first material frame transfer mechanism, described the first material frame transfer mechanism comprises the first transfer mechanism support, the first pole, the first vertical motor and the first horizontal motor, described the first transfer mechanism support is arranged in cooling room, on described the first pole, be provided with the first horizontal gear track, on described the first transfer mechanism support, be provided with the first horizontal teeth wheels that match with the first horizontal gear track, and described the first horizontal motor is arranged on the first transfer mechanism support and provide power for the first horizontal teeth wheels, on described the first pole, be provided with the first vertical gear unit, on described the first transfer mechanism support, be provided with the first vertical gear track matching with the first vertical gear unit, and the described first vertical motor is upper and provide power for the first vertical gear unit for being arranged at the first pole, described preparation room inside is provided with the second material frame transfer mechanism, described the second material frame transfer mechanism comprises the second transfer mechanism support, the second pole, the second vertical motor and the second horizontal motor, described the second transfer mechanism support is arranged in preparation room, on described the second pole, be provided with the second horizontal gear track, on described the second transfer mechanism support, be provided with the second horizontal teeth wheels that match with the second horizontal gear track, and described the second horizontal motor is arranged on the second transfer mechanism support and provide power for the second horizontal teeth wheels, on described the second pole, be provided with the second vertical gear unit, on described the second transfer mechanism support, be provided with the second vertical gear track matching with the second vertical gear unit, and the described second vertical motor is upper and provide power for the second vertical gear unit for being arranged at the second pole.

Described gaseous exchange cycling mechanism comprises ventilating layer, gas supply mechanism and heating chamber blower fan, described ventilating layer is arranged between heating tube and thermofin, described heating chamber air inlet is communicated with gas supply mechanism, described gas supply mechanism is by pipeline and heating chamber internal communication, and heating chamber assembling is on heating chamber furnace wall, the inlet end of described hot cell blower fan is connected with gas supply mechanism, and the outlet side of described hot cell blower fan is connected with ventilating layer, the side that described ventilating layer is relative with heating tube is provided with blowhole, described blowhole and heating tube are along circumferentially interval setting.

Described pillar along circumferentially all with distribution.

Described pillar number is four.

Described inflation quick cooler structure is nitrogen.

Described agitator is agitator motor, and the impeller of described agitator motor is arranged in cooling room, and is positioned at below pasta.

Described vacuum device is evacuator.

Described thermofin is graphite carpet veneer.

Described insulated door hoisting appliance comprises cylinder, and described air cylinder driven axle is connected with insulated door.

Above by reference to the accompanying drawings the preferred specific embodiment of described the utility model only for embodiment of the present utility model is described; rather than as the restriction to aforementioned utility model object and claims content and scope; every foundation technical spirit of the present utility model, to any simple modification made for any of the above embodiments, equivalent variations and modification, all still belongs to the utility model technology and rights protection category.

Claims (7)

1. one kind opens and closes corrosion proof type policer operation three Room vacuum ovens certainly, comprise body of heater shell, in described body of heater shell, be provided with cooling room and heating chamber, it is characterized in that: also comprise preparation room, described preparation room, heating chamber, cooling room flow to and set gradually by materiel machining in body of heater shell, and described preparation room, heating chamber, cooling room are all communicated with respectively vacuum device separately, the both sides of described heating chamber are connected with preparation room, cooling room respectively by locellus wall simultaneously, on described locellus wall, offer locellus wall and import and export, described locellus wall is imported and exported insulated door is installed, and described insulated door is all positioned at a side that deviates from heating chamber on locellus wall, and described insulated door is by the folding of insulated door hoisting appliance simultaneously, described cooling room is disposed with gas quench chamber and oil quenching chamber from top to bottom, the described gas top, chamber of quenching is provided with inflation quick cooler structure, and bottom, oil quenching chamber is provided with oil quenching oil groove, and described oil quenching outdoor is provided with agitator, a described cooling room side relative with heating chamber is provided with cooling room fire door simultaneously, in described preparation room, be provided with preparation room platform, described preparation room material frame is positioned on preparation room platform, and a described preparation room side relative with heating chamber is provided with preparation room fire door, in described heating chamber, be provided with heating chamber platform, described heating chamber material frame is positioned on heating chamber platform, and simultaneously described heating chamber is inner along being circumferentially evenly provided with one and above heating tube, described cooling room, preparation room inside are provided with material frame transfer mechanism, the furnace wall of described heating chamber and insulated door are outwards all disposed with thermofin, vacuum layer and stainless steel casing by heating chamber inside, between described thermofin and stainless steel casing, pass through shore supports, and on described heating chamber, be provided with gaseous exchange cycling mechanism, also comprise first, second from opening and closing mechanism and operation supervise and control system, described first, second is respectively used to cooling room fire door from opening and closing mechanism, opening and closing automatically of preparation room fire door, described first comprises the first triangular connecting plate from opening and closing mechanism, first connecting rod, the first swinging strut and the first linear electric motors, described the first linear electric motors, the first swinging strut is all fixedly installed on a side that is positioned at cooling room fire door on body of heater shell, the two ends of described first connecting rod are rotationally connected by the expansion link of the first rotating shaft and first triangular connecting plate one end and the first linear electric motors respectively, and the other end of described the first triangular connecting plate is fixedly connected on the tail end of cooling room fire door, described cooling room fire door is rotationally connected by the first swinging strut and body of heater shell simultaneously, described second comprises the second triangular connecting plate, second connecting rod, the second swinging strut and the second linear electric motors from opening and closing mechanism, described the second linear electric motors, the second swinging strut are all fixedly installed on a side that is positioned at preparation room fire door on body of heater shell, the two ends of described second connecting rod are rotationally connected by the expansion link of the second rotating shaft and second triangular connecting plate one end and the second linear electric motors respectively, and the other end of described the second triangular connecting plate is fixedly connected on the tail end of preparation room fire door, described preparation room fire door is rotationally connected by the second swinging strut and body of heater shell simultaneously, described operation supervise and control system is connected from opening and closing mechanism with inflation quick cooler structure, vacuum device, heating tube, insulated door hoisting appliance, agitator, gaseous exchange cycling mechanism, material frame transfer mechanism, first, second respectively, on extraction pipe between described vacuum device and cooling room, heating chamber, be provided with suction cleaner, described suction cleaner comprises the suction cleaner intake stack, buffer layer, filtering layer, adsorption layer and the suction cleaner wind pipe that set gradually according to the flow direction of wind, the air outlet of described suction cleaner intake stack is provided with impact-absorbing shell, and the caliber of described suction cleaner intake stack is less than the caliber of suction cleaner wind pipe, and described adsorption layer is gac.

2. according to claim 1 from opening and closing corrosion proof type policer operation three Room vacuum ovens, it is characterized in that: described operation supervise and control system comprises input block, monitoring temperature unit, vacuum tightness monitoring unit and operating unit, described input block, monitoring temperature unit, vacuum tightness monitoring unit are connected with operating unit respectively, described monitoring temperature unit comprises the gas chambers temp monitoring unit of quenching, oil quenching oil sump temperature monitoring unit and heating chamber monitoring temperature unit, the described gas chambers temp monitoring unit of quenching, oil quenching oil sump temperature monitoring unit is connected with operating unit respectively with heating chamber monitoring temperature unit, described oil quenching oil sump temperature monitoring unit comprises thermometer, ball float and slide rail, described slide rail is arranged on the sidewall of oil quenching oil groove, on described slide rail, slidably connect slide bar with matching, described thermometer, ball float is arranged on slide bar, wherein: described input block is used for inputting materiel machining information, and this materiel machining information is fed back to operating unit, described monitoring temperature unit is for monitoring the temperature that gas is quenched in chamber, oil quenching oil groove and heating chamber, and by this Temperature Feedback to operating unit, described vacuum tightness monitoring unit is used for monitoring the vacuum tightness in cooling room and heating chamber, and this vacuum tightness is fed back to operating unit, described operating unit operates control to inflation quick cooler structure, vacuum device, heating tube, insulated door hoisting appliance, agitator, gaseous exchange cycling mechanism, material frame transfer mechanism respectively according to the materiel machining information of input block input, described operating unit is according to the temperature control heating tube heating of the heating chamber of monitoring temperature unit feedback, and described operating unit stirs according to the temperature control agitator of the oil quenching oil groove of monitoring temperature unit feedback, described operating unit controls respectively cooling room according to the vacuum tightness of the cooling room of vacuum tightness monitoring unit feedback and heating chamber and the corresponding vacuum device of heating chamber vacuumizes.

3. according to claim 2 from opening and closing corrosion proof type policer operation three Room vacuum ovens, it is characterized in that: described material frame transfer mechanism comprises transfer mechanism support, the first pole, vertical motor and horizontal motor, described transfer mechanism support is arranged at respectively indoor accordingly, on described the first pole, be provided with horizontal gear track, on described transfer mechanism support, be provided with the horizontal teeth wheels that match with horizontal gear track, and described horizontal motor is arranged on transfer mechanism support and provide power for horizontal teeth wheels, on described the first pole, be provided with vertical gear unit, on described transfer mechanism support, be provided with the vertical gear track matching with vertical gear unit, and described vertical motor is upper and provide power for vertical gear unit for being arranged at the first pole.

4. policer operation three Room vacuum ovens according to claim 2, it is characterized in that: described gaseous exchange cycling mechanism comprises ventilating layer, gas supply mechanism and heating chamber blower fan, described ventilating layer is arranged between heating tube and thermofin, described heating chamber air inlet is communicated with gas supply mechanism, described gas supply mechanism is by pipeline and heating chamber internal communication, and heating chamber assembling is on heating chamber furnace wall, the inlet end of described hot cell blower fan is connected with gas supply mechanism, and the outlet side of described hot cell blower fan is connected with ventilating layer, the side that described ventilating layer is relative with heating tube is provided with blowhole, described blowhole and heating tube are along circumferentially interval setting.

5. according to claim 3 from opening and closing corrosion proof type policer operation three Room vacuum ovens, it is characterized in that: described pillar along circumferentially all with distribution.

6. according to claim 4 from opening and closing corrosion proof type policer operation three Room vacuum ovens, it is characterized in that: described pillar number is four.

7. according to claim 5 from opening and closing corrosion proof type policer operation three Room vacuum ovens, it is characterized in that: described inflation quick cooler structure is nitrogen quick cooler structure; Described agitator is agitator motor, and the impeller of described agitator motor is arranged in cooling room, and is positioned at below pasta; Described vacuum device is evacuator; Described thermofin is graphite carpet veneer; Described insulated door hoisting appliance comprises cylinder, and described air cylinder driven axle is connected with insulated door.

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