CN212645336U - Metal continuous smelting furnace - Google Patents

Abstract

The utility model provides a metal continuous smelting furnace, which relates to the technical field of metal smelting equipment and solves the technical problems of poor smelting effect and low smelting efficiency of the existing metal smelting furnace in the prior art, the metal continuous smelting furnace comprises a smelting furnace body, and a crucible and a heating device are arranged inside the smelting furnace body; the smelting furnace body is provided with a feeding device and a discharging device; an exhaust interface and an inflation interface are communicated with the smelting furnace body; a vacuumizing interface is communicated with the smelting furnace body; the utility model can effectively reduce the introduction of impurities and rapidly raise the temperature through the mutual matching of the heating device and the crucible; the metal can be smelted in a protective atmosphere state and a vacuum state through the inflation interface, the exhaust interface and the vacuumizing interface, so that oxidation is effectively avoided, and the smelting effect and the environment-friendly effect are ensured; the continuous smelting of metal can be realized through the feeding device and the discharging device, and the smelting efficiency is high.

Description

Metal continuous smelting furnace

Technical Field

The utility model relates to a metal melting equipment technical field, concretely relates to metal continuous smelting stove.

Background

The metal smelting furnace is important equipment for smelting and raising the temperature of metal or metal alloy, when the metal is smelted by the traditional smelting furnace, the metal is heated and smelted by adopting the traditional heating method, the heating efficiency is lower, the smelting efficiency is influenced, in the process of smelting the metal, impurities are easily introduced, the metal smelting purity is influenced, meanwhile, the oxidation is easy, the smelting effect is extremely poor, and the pollution is large; the induction melting furnace that appears in the existing market includes intermediate frequency power, electric capacity cabinet and furnace body etc. at the in-process of smelting metal (especially active metal, like magnesium etc.), adopts the intermediate frequency power heating, though improved smelting efficiency to a certain extent, but introduce impurity easily at the in-process of smelting, easily oxidation, it is relatively poor to smelt effect and environmental protection effect to current metal melting furnace need uncap just can realize treating the feeding and the ejection of compact of smelting metal, and smelting efficiency is still lower.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a metal continuous smelting furnace to solve the technical problems of poor smelting effect and low smelting efficiency of the existing metal smelting furnace in the prior art; the utility model provides a plurality of technical effects that the preferred technical scheme among a plurality of technical schemes can produce (the feed arrangement includes the inlet pipe, be used for the feeding of the metal of waiting to smelt, metal continuous melting stove includes the accommodate device that has protective gas held inside, be provided with the metal ingot mould in the accommodate device, the metal ingot mould is used for the holding and cooling shaping of molten state metal, discharging device includes the discharging pipe, be provided with the valve member on the discharging pipe, the discharging pipe is used for the metal discharging of molten state, the valve member is used for the switch-on and the shutoff of discharging pipe, the valve member includes metal shutoff thing and temperature control coil, metal shutoff thing is the same metal with the metal of waiting to smelt, the temperature control coil cover is established and is passed through the control temperature on the discharging pipe, and then change the state of metal shutoff thing, not only can play, the smelting effect is ensured, and the service life is long; a temperature detection device and a liquid level detection device are arranged on the smelting furnace body and are respectively used for temperature detection and liquid level detection; the metal continuous smelting furnace also comprises a stirring device, and the smelting efficiency is improved through stirring action; the smelting furnace body is provided with a vacuum gauge and a pressure gauge, the vacuum gauge detects the vacuum degree in the smelting furnace body when metal is smelted in a vacuum state, and the pressure gauge detects the pressure of protective gas in the smelting furnace body when metal is smelted in a protective atmosphere state; the heating device comprises an induction heating coil, no impurities are introduced, the smelting purity is ensured, and the heating efficiency is high; the pressure relief device comprises a pressure relief safety valve and a pressure relief explosion-proof device, when the pressure in the furnace body is too high, the pressure can be relieved in time, and the safety coefficient is high; the smelting furnace body comprises a furnace body and a sealing cover, a sealing ring is arranged between the furnace body and the sealing cover to ensure the sealing effect, a cooling device is arranged on the sealing cover corresponding to the sealing ring and used for cooling the sealing ring, the cooling device comprises a cooling ring, a cooling liquid inlet interface and a cooling liquid outlet interface are arranged on the cooling ring, a cooling liquid circulation loop can be formed, continuous cooling is realized, the service life of the sealing ring is long, and the like); see below for details.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides a pair of metal continuous smelting furnace, including the smelting furnace body, wherein: a crucible and a heating device are arranged in the smelting furnace body, a smelting cavity is arranged in the crucible, and the heating device is used for heating the crucible; the smelting furnace body is provided with a feeding device and a discharging device; an exhaust interface and an inflation interface are communicated with the smelting furnace body; and a vacuumizing interface is communicated with the smelting furnace body.

Preferably, the feeding means comprises a feeding pipe, which is communicatively arranged at the top of the furnace body.

Preferably, the continuous metal smelting furnace comprises a holding device with protective gas held inside, and the discharging device comprises a discharging pipe, wherein: a metal ingot mold is arranged in the accommodating device, the feeding end of the discharge pipe is communicated with the bottom of the smelting furnace body, and the discharge end of the discharge pipe is communicated with the metal ingot mold; a valve assembly is arranged on the discharge pipe and used for plugging and conducting the discharge pipe.

Preferably, the valve assembly comprises a metal stopper and a temperature controlled coil, wherein: the metal plugging object and the metal to be smelted are made of the same metal, and the metal plugging object is arranged in the discharge pipe; the temperature control coil is sleeved on the section of the discharge pipe corresponding to the metal plugging object, and the temperature control coil can change the state of the metal plugging object by changing the temperature of the metal plugging object in the discharge pipe so as to plug or conduct the discharge pipe.

Preferably, a temperature detection device and a liquid level detection device are arranged on the smelting furnace body, wherein: the detection end of the temperature detection device is connected with the crucible; the detection end of the liquid level detection device is arranged in the smelting cavity.

Preferably, the metal continuous smelting furnace further comprises a stirring device, the stirring device comprises a stirring driving device, a stirring shaft and a stirring disc, wherein: the stirring driving device is arranged at the top of the smelting furnace body; one end of the stirring shaft is in transmission connection with the stirring driving device, and the other end of the stirring shaft is inserted in the smelting cavity and is connected with the stirring disc.

Preferably, a vacuum gauge is arranged on the smelting furnace body and used for monitoring the vacuum degree in the smelting furnace body; be provided with the manometer on the smelting furnace body, the manometer is used for the monitoring of smelting furnace body internal gas pressure.

Preferably, the heating device comprises an induction heating coil, and the induction heating coil is sleeved outside the crucible; and the two ends of the induction heating coil are both connected with coil interfaces, and the coil interfaces are arranged on the side wall of the smelting furnace body.

Preferably, the top of the smelting furnace body is provided with a pressure relief device, and the pressure relief device comprises a pressure relief safety valve and a pressure relief explosion-proof device.

Preferably, the smelting furnace body comprises a furnace body and a sealing cover, wherein: the furnace body is of a vertically-through tubular structure, the sealing covers are arranged at the top and the bottom of the furnace body, and a sealing ring is arranged between the furnace body and the sealing covers; the position of the sealing cover corresponding to the sealing ring is provided with a cooling device, the cooling device comprises a cooling ring, and a cooling liquid inlet interface and a cooling liquid outlet interface are communicated and arranged on the cooling ring.

The utility model provides a pair of metal continuous smelting furnace has following beneficial effect at least:

the metal continuous smelting furnace comprises a smelting furnace body, wherein the smelting furnace body is used for installing other devices; the smelting furnace body provides a chamber for smelting metal; a crucible and a heating device are arranged in the smelting furnace body, a smelting cavity is arranged in the crucible and used for placing metal to be smelted, and the heating device can heat the metal to be smelted by heating the crucible; the smelting furnace body is provided with a feeding device and a discharging device which are used for feeding and discharging respectively, so that continuous smelting of metal can be realized; the smelting furnace body is communicated with an exhaust interface and an inflation interface, and protective gas can be charged into and discharged from the smelting furnace body through the inflation interface and the exhaust interface, so that the metal to be smelted can be smelted under a protective atmosphere, oxidation is avoided, and the smelting effect and the environmental protection effect are obvious; the smelting furnace body is provided with the evacuation interface in the intercommunication, can carry out the evacuation to the smelting furnace body through taking out true hole interface, makes and treats that the smelting metal can realize the smelting under the vacuum, avoids the oxidation, and smelting effect and environmental protection effect are showing.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the present invention without a discharging device and a containing device;

FIG. 3 is an exploded view of the furnace body, the sealing ring and the sealing cover of the present invention;

fig. 4 is an enlarged view of part a of the present invention.

Reference numerals

1. A smelting furnace body; 101. an inflation interface; 102. an exhaust interface; 103. a liquid level interface; 104. an observation window; 105. vacuumizing the interface; 106. a temperature measuring interface; 107. a lifting support leg; 1071. a leg body; 1072. a sleeve; 1073. a stud; 108. a furnace body; 109. a sealing cover; 110. a seal ring; 2. a crucible; 21. a liquid level detection device; 22. a temperature detection device; 3. a heating device; 31. an induction heating coil; 4. a feeding device; 5. a discharging device; 6. a stirring device; 61. a stirring drive device; 62. a stirring shaft; 63. a stirring plate; 7. a valve assembly; 71. a metal blocking object; 72. a temperature control coil; 8. a containment device; 81. a metal ingot mold; 9. a pressure relief device; 91. a pressure relief explosion-proof device; 92. a pressure relief safety valve; 11. a vacuum gauge; 12. a cooling device; 121. a cooling ring; 122. a coolant inlet port; 123. and a cooling liquid outlet interface.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The utility model provides a metal continuous smelting furnace, as shown in fig. 1-3, metal continuous smelting furnace includes smelting furnace body 1, wherein: a crucible 2 and a heating device 3 are arranged in the smelting furnace body 1, a smelting cavity is arranged in the crucible 2 and used for placing metal to be smelted, the heating device 3 is an induction heating device, and the heating device 3 heats the crucible 2 so as to heat the metal to be smelted; a feeding device 4 and a discharging device 5 are arranged on the smelting furnace body 1, the feeding device 4 is used for feeding metal to be smelted, and the discharging device 5 is used for discharging the metal in a molten state; an exhaust interface 102 and an inflation interface 101 are communicated with the smelting furnace body 1, and valves are arranged on the exhaust interface 102 and the inflation interface 101; the smelting furnace body 1 is provided with a vacuumizing interface 105 in a communicating mode, and the vacuumizing interface 105 is convenient to be connected with a vacuum pump.

Before smelting metal, selecting a protective atmosphere state or a vacuum state to smelt the metal; when metal is smelted in a protective atmosphere state, protective gas is supplemented into the smelting furnace body 1 through the gas charging connector 101; when metal is to be melted in a vacuum state, the evacuation port 105 is connected to a vacuum pump that evacuates the melting furnace body 1.

After the state setting is finished, the metal to be smelted firstly enters the smelting cavity through the feeding device 4, the heating device 3 is opened, the crucible 2 is heated, the smelting of the metal is started, and after the metal smelting is finished, the metal in the molten state is discharged through the discharging device 5.

The utility model can effectively reduce the introduction of impurities and rapidly raise the temperature through the mutual matching of the heating device 3 and the crucible 2; the inflation interface 101 and the exhaust interface 102 are matched with each other, so that metal to be smelted can be smelted under a protective atmosphere, and the vacuumizing interface 105 enables the metal to be smelted under vacuum, so that oxidation is effectively avoided, and the smelting effect and the environment-friendly effect are ensured; through the mutual cooperation of feed arrangement 4 and discharging device 5, can realize the continuous melting of metal, it is efficient to smelt.

As an alternative embodiment, as shown in fig. 1, the feeding means 4 comprises a feeding pipe, which is arranged in communication with the top of the furnace body 1 and on which a feeding valve is arranged.

As an alternative embodiment, as shown in fig. 1, the continuous metal smelting furnace includes a holding device 8 that holds shielding gas inside, the holding device 8 is filled with shielding gas to further ensure smelting effect, and a gas conduit is arranged on the holding device 8 in a communicating manner for introducing and discharging shielding gas; the accommodating device 8 is internally provided with a metal ingot mould 81, and when metal is smelted, the metal ingot mould 81 with a mould cavity with a corresponding shape can be selected according to actual requirements.

The discharging device 5 comprises a discharging pipe, the feeding end of the discharging pipe is communicated with the bottom of the smelting furnace body 1, and the discharging end of the discharging pipe is communicated with the metal ingot mould 81; a valve assembly 7 is arranged on the discharge pipe, and the valve assembly 7 is used for plugging and conducting the discharge pipe.

As an alternative embodiment, as shown in fig. 1, the valve assembly 7 comprises a metal stopper 71 and a temperature controlled coil 72, wherein: the metal plugging object 71 and the metal to be smelted are made of the same metal, and the metal plugging object 71 is arranged in the discharge pipe; the temperature control coil 72 is sleeved on a section of the discharge pipe corresponding to the metal stopper 71, the temperature control coil 72 can change the state of the metal stopper 71 by changing the temperature of the metal stopper 71 in the discharge pipe, the metal stopper 71 is in a solid state in a normal state to block the discharge pipe, and when discharging, the temperature control coil 72 heats the metal stopper 71 to a molten state, and the discharge pipe is conducted.

Adopt metal shutoff thing 71 and accuse temperature coil 72 mutually supporting, not only can realize switch on and the shutoff of discharging pipe, traditional valve is compared moreover, and life cycle is more permanent, can not introduce impurity simultaneously in the ejection of compact process, further guarantees the metal melting effect.

As shown in fig. 1, the discharging pipe comprises a feeding section, a bending section and a discharging section which are connected in sequence, the feeding section and the discharging section are vertically arranged, the feeding section is communicated with the smelting furnace body 1, the discharging section is communicated with the accommodating device 8, and the discharging pipe is conveniently plugged by the bending section.

As an alternative embodiment, as shown in fig. 1, a temperature interface is arranged on the smelting furnace body 1, a temperature detection device 22 is arranged on the temperature interface, and the detection end of the temperature detection device 22 is connected with the crucible 2 for temperature detection.

As shown in fig. 1, a liquid level interface is arranged on a smelting furnace body 1, a liquid level detection device 21 is installed on the liquid level interface, and a detection end of the liquid level detection device 21 is arranged in the smelting cavity and used for detecting the liquid level of molten metal.

As an alternative embodiment, as shown in fig. 1, the continuous metal smelting furnace further includes a stirring device 6, and the stirring device 6 includes a stirring driving device 61, a stirring shaft 62 and a stirring disk 63, wherein: the stirring driving device 61 is arranged at the top of the smelting furnace body 1; one end of the stirring shaft 62 is in transmission connection with the stirring driving device 61, the other end of the stirring shaft 62 is inserted into the smelting cavity and is connected with the stirring disc 63, and in the process of metal smelting, the efficiency of metal smelting can be effectively improved through the stirring action of the stirring device 6.

As an alternative embodiment, as shown in fig. 2, a vacuum gauge 11 is provided on the furnace body 1, the vacuum gauge 11 is installed on the side wall of the furnace body 108, and the vacuum gauge 11 can monitor the degree of vacuum in the furnace body 1 at a proper time when metal is melted under vacuum.

Be provided with the manometer on the smelting furnace body 1, the monitoring of manometer smelting furnace body 1 internal gas pressure, the manometer installation sets up on the lateral wall of furnace body 108, when smelting metal under protective atmosphere, the manometer can monitor the atmospheric pressure in the smelting furnace body 1 in good time.

As an alternative embodiment, as shown in fig. 1 and 2, the heating device 3 includes an induction heating coil 31, the induction heating coil 31 being fitted over the outside of the crucible 2; the two ends of the induction heating coil 31 are connected with coil interfaces, an opening is formed in the side wall of the furnace body 108, an end cover is arranged at the position of the opening in a covering mode, the induction heating coil 31 is installed and arranged on the end cover, and the coil interfaces are connected with heating power supply equipment.

As an alternative embodiment, the top of the smelting furnace body 1 is provided with a pressure relief device 9, and the pressure relief device 9 comprises a pressure relief safety valve 92 and a pressure relief explosion-proof device 91.

When the pressure inside the melting furnace body 1 exceeds a set value, the pressure relief safety valve 92 is automatically opened to perform pressure relief, and when the pressure inside the melting furnace body 1 is lower than the set value, the pressure relief safety valve 92 is automatically closed.

When the pressure inside the smelting furnace body 1 is abnormally and rapidly increased, the pressure relief explosion-proof device 91 is opened to rapidly relieve the pressure, so that the safety of personnel and equipment is effectively ensured.

As an alternative embodiment, as shown in fig. 3, the melting furnace body 1 includes a furnace body 108 and a sealing cover 109, wherein: the furnace body 108 is a cylindrical structure which is through up and down, and the side wall of the furnace body 108 is provided with an observation window 104; the top and the bottom of the furnace body 108 are both provided with sealing covers 109, and the sealing covers 109 are flange sealing covers.

A sealing ring 110 is arranged between the furnace body 108 and the sealing cover 109, an annular mounting groove is arranged on the sealing cover 109, and the sealing ring 110 is arranged in the annular mounting groove;

the position of the sealing cover 109 corresponding to the sealing ring 110 is provided with a cooling device 12, the cooling device 12 comprises a cooling ring 121, the cooling ring 121 is provided with a cooling liquid inlet port 122 and a cooling liquid outlet port 123 in a communicating manner, and the cooling liquid inlet port 122 and the cooling liquid outlet port 123 are both provided with valves.

The cooling liquid adopts cooling water, and in the process of metal melting, the cooling water forms hydrologic cycle through coolant liquid inlet interface 122, cooling ring 121 and coolant liquid outlet interface 123 in proper order, lasts to cool off sealing washer 110, effectively prolongs life cycle.

As an alternative embodiment, as shown in fig. 2, a temperature measuring interface 106 is provided on a sealing cover 109 on the top of the furnace body 108, and an infrared temperature measuring device is installed on the temperature measuring interface 106 for temperature detection in the furnace.

As an alternative embodiment, as shown in fig. 2 and 4, a handle is provided on the sealing cover 109 on the top of the furnace body 108 to facilitate the opening of the sealing cover 109 on the top.

Be provided with lift stabilizer blade 107 on the bottom surface of the sealed lid 109 in furnace body 108 bottom, lift stabilizer blade 107 includes stabilizer blade body 1071, sleeve 1072 and double-screw bolt 1073, and stabilizer blade body 1071 sets up to the round platform shape, and its top is provided with double-screw bolt 1073, and sleeve 1072 sets up on the bottom surface of the sealed lid 109 in furnace body 108 bottom, and sleeve 1072 is provided with the screw hole along the axial, and the top of double-screw bolt 1073 is inserted and is established in the screw hole and with screw hole screw-thread fit can realize smelting furnace body 1's altitude mixture control and horizontal adjustment according to actual site environment's needs.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A metal continuous smelting furnace, characterized by comprising a smelting furnace body (1), wherein:

a crucible (2) and a heating device (3) are arranged in the smelting furnace body (1), a smelting cavity is arranged in the crucible (2), and the heating device (3) is used for heating the crucible (2);

the smelting furnace body (1) is provided with a feeding device (4) and a discharging device (5);

an exhaust interface (102) and an inflation interface (101) are communicated with the smelting furnace body (1);

the smelting furnace body (1) is communicated with a vacuumizing interface (105).

2. The continuous metal smelting furnace according to claim 1, characterized by the feeding means (4) comprising a feeding pipe that is placed in communication at the top of the furnace body (1).

3. The continuous metal smelting furnace according to claim 1, characterized by comprising a holding device (8) with protective gas held inside, and by the discharging device (5) comprising a discharging pipe, wherein:

a metal ingot mould (81) is arranged in the accommodating device (8), the feeding end of the discharging pipe is communicated with the bottom of the smelting furnace body (1), and the discharging end of the discharging pipe is communicated with the metal ingot mould (81);

a valve component (7) is arranged on the discharge pipe, and the valve component (7) is used for plugging and conducting the discharge pipe.

4. The metal continuous smelting furnace according to claim 3, characterized by the valve assembly (7) comprising a metal plug (71) and a temperature controlled coil (72), wherein:

the metal plugging object (71) and the metal to be smelted are made of the same metal, and the metal plugging object (71) is arranged in the discharge pipe;

the temperature control coil (72) is sleeved on the section of the discharge pipe corresponding to the metal plugging object (71), and the temperature control coil (72) can change the state of the metal plugging object (71) through changing the temperature of the metal plugging object (71) in the discharge pipe so as to plug or conduct the discharge pipe.

5. The metal continuous smelting furnace according to claim 4, characterized by a temperature detecting device (22) and a liquid level detecting device (21) are provided on the smelting furnace body (1), wherein:

the detection end of the temperature detection device (22) is connected with the crucible (2);

the detection end of the liquid level detection device (21) is arranged in the smelting cavity.

6. The metal continuous smelting furnace according to claim 1, further comprising stirring means (6), the stirring means (6) comprising a stirring drive (61), a stirring shaft (62) and a stirring disc (63), wherein:

the stirring driving device (61) is arranged at the top of the smelting furnace body (1);

one end of the stirring shaft (62) is in transmission connection with the stirring driving device (61), and the other end of the stirring shaft (62) is inserted into the smelting cavity and is connected with the stirring disc (63).

7. The continuous metal smelting furnace according to claim 1, characterized by a vacuum gauge (11) provided on the furnace body (1), the vacuum gauge (11) being used for monitoring the vacuum in the furnace body (1);

the smelting furnace is characterized in that a pressure gauge is arranged on the smelting furnace body (1), and the pressure gauge is used for monitoring the air pressure in the smelting furnace body (1).

8. The metal continuous smelting furnace according to claim 1, characterized by the heating device (3) comprising an induction heating coil (31), the induction heating coil (31) being fitted outside the crucible (2);

the two ends of the induction heating coil (31) are provided with coil interfaces in a connected mode, and the coil interfaces are arranged on the side wall of the smelting furnace body (1).

9. The continuous metal smelting furnace according to claim 1, characterized by a pressure relief device (9) being provided at the top of the furnace body (1), the pressure relief device (9) comprising a pressure relief safety valve (92) and a pressure relief explosion-proof device (91).

10. The metal continuous smelting furnace according to claim 1, characterized by the furnace body (1) comprising a furnace body (108) and a sealing lid (109), wherein:

the furnace body (108) is of a vertically-through cylindrical structure, the sealing covers (109) are arranged at the top and the bottom of the furnace body (108), and a sealing ring (110) is arranged between the furnace body (108) and the sealing covers (109);

the sealing cover (109) is provided with a cooling device (12) corresponding to the position of the sealing ring (110), the cooling device (12) comprises a cooling ring, and a cooling liquid inlet interface (122) and a cooling liquid outlet interface (123) are communicated and arranged on the cooling ring.

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