CN202885526U - Medium frequency coreless induction drain valve. - Google Patents
Medium frequency coreless induction drain valve. Download PDFInfo
- Publication number
- CN202885526U CN202885526U CN 201220574176 CN201220574176U CN202885526U CN 202885526 U CN202885526 U CN 202885526U CN 201220574176 CN201220574176 CN 201220574176 CN 201220574176 U CN201220574176 U CN 201220574176U CN 202885526 U CN202885526 U CN 202885526U
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- cooling water
- induction coil
- water jacket
- discharge nozzle
- cooling jacket
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Abstract
A medium frequency coreless induction drain valve is composed of a control box, an induction coil, a smelter cover, a cooling water jacket, water pipe connectors, a warm-keeping protective sleeve, a smelter body, a holding furnace body, a holding furnace cover, a discharge pipe, an automatic exhaust valve, and a medium frequency power source. The induction coil is a spiral cylinder body, and a leading-out terminal is connected with the medium frequency power source and the control box. The discharge pipe is made of graphite materials. The cooling water jacket opens vertically, the end face of the cooling water jacket is C-shaped, and the cooling water jacket is made of non-magnetic-conductive heat-resistant metal materials, the water pipe connector below the cooling water jacket is connected with a water inlet pipe, and the water pipe connector above the cooling water jacket is connected with the water outlet pipe and the automatic exhaust valve. The discharge pipe penetrates through the cooling water jacket and the induction coil to be connected with a discharge port of the smelter body in a reliable mode, and the warm-keeping protective sleeve is arranged at the end of the discharge port. The fact that the induction coil resists the invasion of heat of the discharge pipe is realized by relying on the cooling water jacket and the gap reserved by the cooling water jacket. The medium frequency induction drain valve is applicable to smelters which are used for smelting high-melting-point metal and high-purity-requirement metal like nonferrous metal and alloy, and capable of solving the problems like high temperature leakage, environment pollution and safety of a traditional smelter during discharging.
Description
Technical field
The utility model relates to a kind of intermediate frequency coreless induction drain valve.
Background technology
The discharging opening of present small-sized smelting furnace mostly is the taper plugging structure, often carries out shutoff with graphite plug lining stone cotton pad, and discharging opening arranged outside one is opened wide aqueduct, fills a long handle on the plug for artificial shutoff or unlatching discharging opening.Pull out plug, the molten metal of melt in furnace enters holding furnace from discharging opening through aqueduct, this traditional mode of operation, personnel must emit the danger that suffers liquation to splash and scald, working under and the adverse circumstances with a large amount of unwanted volatiles higher in temperature, all is a kind of test to the safety and health of the person.
Summary of the invention
The utility model provides a kind of intermediate frequency coreless induction drain valve, it does not have spool and the mechanism for opening/closing of conventional valves, it is the fusing point according to different metal material, adopts electromagnetic induction heating and circulating water technology, and the fusion temperature by the control respective material and setting temperature realize.The utility model solidifies in pipeline or melts by metal material, reaches to cut safely to block up, and safety dumping, the purposes such as environment purification, and realize discharging automation for small-sized smelting furnace and created condition.It mainly is that it possesses the valve general character of stream of damming out that the utility model is called valve, uses but the electromagnetic induction heating mode that adopts is only applicable to the smelting furnace of molten metal material.
The utility model is achieved in that it is comprised of control cabinet, induction coil, smelting furnace lid, cooling jacket, water pipe head, heat insulation sheath, smelting furnace body, thermal insulation furnace body, heat insulation furnace cover, discharge nozzle, automatic exhaust steam valve, intermediate frequency power supply.Induction coil is the spirality cylindrical shell that the copper bar coiling forms, and exit is connected with intermediate frequency power supply, control cabinet.Discharge nozzle adopts the graphite material manufacturing, an end of discharge nozzle establish one jiao curved, allow the discharging pipe port pass heat insulation furnace cover, stretch in the thermal insulation furnace body.Because graphite material has high temperature resistantly, thermal coefficient of expansion is little, and the intensity temperature improves and strengthens, and electric conductivity is higher 100 times than general nonmetallic ore, and thermal conductivity surpasses the metal materials such as steel, iron, lead; Thermal conductivity factor raises with temperature and reduces, under high temperature, and graphite even become heat guard; Graphite has good thermal shock resistance in addition, is able to take the acute variation of temperature when using at normal temperatures and unlikely destruction, and during temperature jump, the Volume Changes of graphite is little, can not crack.Therefore the wider range that the utility model is applicable can be for refractory metal material and the higher smelting furnaces of purity requirement such as melting nonferrous metal and alloys.Cooling jacket is interlayer round buss shape thin-walled parts, longitudinal opening, end face is c-shaped, purpose be stop the part induced-current along barrel around, adopt the manufacturing of non-magnetic heating resisting metal material, thereby can reduce the heat that cooling jacket produces under the electromagnetic induction effect; Cooling jacket is installed with positive C word bit, above and below be provided with the water pipe head of Cooling Water turnover, the water pipe head below usually connects water inlet pipe, top water pipe head connects outlet pipe and automatic exhaust steam valve.The other end of discharge nozzle is connected with smelting furnace body discharging opening positiver sealing after penetrating cooling jacket and induction coil, thermal loss situation when cooling jacket to the distance of discharge outlet of furnace can be flowed through discharge nozzle from smelting furnace according to discharge nozzle latus rectum and liquation is decided, in order to reduce thermal loss, at this section discharge nozzle heat insulation sheath is set.Leave the space of satisfying the thermal expansion needs between discharge nozzle and cooling jacket, leave the insulated room distance between cooling jacket and the induction coil, be beneficial to insulation, heat insulation and convenient the installation.The invasion and attack that induction coil is resisted the discharge nozzle heat are to depend on cooling jacket and the spacing of staying realizes, utilize the cooling jacket can shield portions heat radiation energy, and insulated room is apart from the conduction that can intercept the part heat.Also can adopt rectangle copper pipe coiling induction coil according to actual conditions, and set up the water circulation system of induction coil cooling.Be respectively equipped with smelting furnace lid and heat insulation furnace cover at smelting furnace and holding furnace.
Operation principle: use heating in medium frequency technology and circulating water technology the smelting furnace discharge nozzle is carried out local heat or cooling, make it to produce condensation and dam or melt and open stream, reach the effect identical with valve.Intermediate frequency coreless induction drain valve is a kind of application of air core transformer type, because induction coil does not have the object of magnetic conduction to exist, so the magnetic line of force must pass through air and closure, the magnetic resistance of air is very large, can reduce effective magnetic flux, in order to obtain necessary induced potential, will increase the cutting speed of the magnetic line of force, and increase the frequency by the induction coil electric current.Induction coil is equivalent to the armature winding of transformer, the metal charge of discharge nozzle solidified inside then is equivalent to the secondary windings of transformer, when passing through electric current of intermediate frequency in the elementary winding, under the effect of electromagnetic field, produce the magnetic force line cutting secondary windings, cause metal charge to produce induced potential, and cause induced-current on the top layer perpendicular to the induction coil axis, make the fusing of metal charge self-heating.Operating process: ON cycle water cooling system, smelting furnace is reinforced to heat up, after melting gradually, metal charge flowed out by discharging opening, the cooling jacket place condensation plugging of flowing through treats that the metal charge fusing is fully opened intermediate frequency power supply after furnace temperature is up to standard in the smelting furnace, allow induction coil get electric generation alternating magnetic field, make the metal charge fusing that is set in the discharge nozzle under the effect in magnetic field, discharge nozzle is out stream mode, and the molten metal furnace charge flows into holding furnace through discharge nozzle in the stove.Cut off intermediate frequency power supply after the discharging process finishes, system enters next circulation.
Description of drawings
The utility model is described in further detail below in conjunction with accompanying drawing.
Fig. 1 is the utility model structure principle chart.
Fig. 2 is the utility model cooling jacket axonometric drawing.
Among the figure 1, control cabinet; 2, induction coil; 3, smelting furnace lid; 4, cooling jacket; 5, water pipe head; 6, heat insulation sheath; 7, smelting furnace body; 8, thermal insulation furnace body; 9, heat insulation furnace cover; 10, discharge nozzle; 11, automatic exhaust steam valve; 12, intermediate frequency power supply.
The specific embodiment
The spirality cylindrical shell that induction coil (2) forms for the copper bar coiling, exit is connected with intermediate frequency power supply (12), control cabinet (1).Discharge nozzle (10) adopts the graphite material manufacturing, an end of discharge nozzle (10) establish one jiao curved, allow discharge nozzle (10) port pass heat insulation furnace cover (9), stretch in the thermal insulation furnace body (8).Cooling jacket (4) is interlayer round buss shape thin-walled parts, longitudinal opening, and end face is c-shaped, adopts the manufacturing of non-magnetic heating resisting metal material; Cooling jacket (4) is installed with positive C word bit, above and below be provided with the water pipe head (5) of Cooling Water turnover, usually the water pipe head (5) below connects water inlet pipe, and top water pipe head (5) connects outlet pipe and automatic exhaust steam valve (11).The other end of discharge nozzle (10) is connected with smelting furnace body (7) discharging opening positiver sealing after penetrating cooling jacket (4) and induction coil (2), thermal loss situation when cooling jacket (4) to the distance of discharge outlet of furnace can be flowed through discharge nozzle (10) from smelting furnace according to discharge nozzle (10) latus rectum and liquation is decided, in order to reduce thermal loss, at this section discharge nozzle (10) heat insulation sheath (6) is set.Leave the space that thermal expansion needs between discharge nozzle (10) and cooling jacket (4), leave the insulated room distance between cooling jacket (4) and the induction coil (2), be beneficial to insulation, heat insulation and convenient the installation.The invasion and attack that induction coil (2) is resisted discharge nozzle (10) heat are to depend on cooling jacket (4) and the spacing of staying realizes, utilize the cooling jacket (4) can shield portions heat radiation energy, insulated room be apart from the conduction that can intercept the part heat.Also can adopt rectangle copper pipe coiling induction coil (2) according to actual conditions, and set up the water circulation system of induction coil (2) cooling.Be respectively equipped with smelting furnace lid (3) and heat insulation furnace cover (9) at smelting furnace and holding furnace.The ON cycle water cooling system, smelting furnace is reinforced to heat up, after melting gradually, metal charge flowed out by discharging opening, the cooling jacket (4) of flowing through is located the condensation plugging, treats that the furnace charge fusing is fully opened intermediate frequency power supply after furnace temperature is up to standard in the smelting furnace, allow induction coil (2) get electric generation alternating magnetic field, the metal charge that is set in the discharge nozzle (10) is melted, and discharge nozzle (10) is out stream mode, and the molten metal in the stove flows into holding furnace through discharge nozzle (10).
In sum, the utility model is used the heating in medium frequency technology and the circulating water technology is carried out local heat or cooling to the smelting furnace discharge nozzle, makes it to produce condensation and dams or melt and open stream, reaches the effect identical with valve.The wider range that the utility model is applicable can be for refractory metal material and the higher smelting furnaces of purity requirement such as melting nonferrous metal and alloys.The utility model has solved the problems such as conventional furnaces liquation when discharging high temperature leaks, environmental pollution, potential safety hazard, has simplified simultaneously operation sequence, has reduced labour intensity; If in conjunction with using modern control technology, can realize smelting furnace automatic-discharging molten metal.
Claims (3)
1. an intermediate frequency coreless induction drain valve is comprised of control cabinet, induction coil, smelting furnace lid, cooling jacket, water pipe head, heat insulation sheath, smelting furnace body, thermal insulation furnace body, heat insulation furnace cover, discharge nozzle, automatic exhaust steam valve, intermediate frequency power supply; Induction coil is the spirality cylindrical shell that the copper bar coiling forms, and exit is connected with intermediate frequency power supply, control cabinet; One end of discharge nozzle establish one jiao curved, allow the discharging pipe port pass heat insulation furnace cover, stretch in the thermal insulation furnace body; Cooling jacket is installed with positive C word bit, and following water pipe head connects water inlet pipe, and top water pipe head connects outlet pipe and automatic exhaust steam valve; The other end of discharge nozzle is connected with smelting furnace body discharging opening positiver sealing after penetrating cooling jacket and induction coil, cooling jacket arranges heat insulation sheath to the discharge nozzle of discharge outlet of furnace, leave the space of satisfying the thermal expansion needs between discharge nozzle and cooling jacket, leave the insulated room distance between cooling jacket and the induction coil; Be respectively equipped with smelting furnace lid and heat insulation furnace cover at smelting furnace and holding furnace.
2. a kind of intermediate frequency coreless induction drain valve according to claim 1, it is characterized in that cooling jacket is interlayer round buss shape thin-walled parts, longitudinal opening, end face is c-shaped, above and below be provided with the water pipe head of Cooling Water turnover, adopt the manufacturing of non-magnetic heating resisting metal material.
3. a kind of intermediate frequency coreless induction drain valve according to claim 1 is characterized in that discharge nozzle adopts the graphite material manufacturing.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201220574176 CN202885526U (en) | 2012-11-05 | 2012-11-05 | Medium frequency coreless induction drain valve. |
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CN 201220574176 CN202885526U (en) | 2012-11-05 | 2012-11-05 | Medium frequency coreless induction drain valve. |
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CN202885526U true CN202885526U (en) | 2013-04-17 |
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CN 201220574176 Expired - Fee Related CN202885526U (en) | 2012-11-05 | 2012-11-05 | Medium frequency coreless induction drain valve. |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102901353A (en) * | 2012-11-05 | 2013-01-30 | 黄幼华 | Intermediate-frequency coreless inductive discharge valve |
CN104289680A (en) * | 2014-10-30 | 2015-01-21 | 济南鑫杰机械制造有限公司 | Forming box for small-sized molding |
-
2012
- 2012-11-05 CN CN 201220574176 patent/CN202885526U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102901353A (en) * | 2012-11-05 | 2013-01-30 | 黄幼华 | Intermediate-frequency coreless inductive discharge valve |
CN104289680A (en) * | 2014-10-30 | 2015-01-21 | 济南鑫杰机械制造有限公司 | Forming box for small-sized molding |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20130417 Termination date: 20141105 |
|
EXPY | Termination of patent right or utility model |