CN213179405U - Coil lifting type induction melting furnace - Google Patents

Abstract

The utility model discloses a coil over-and-under type induction melting furnace, including setting up elevating system, the alignment rod on the base and being used for erectting the stake body of crucible, wherein connect mobilizable induction heater on the elevating system to from the outside outstanding coil wire of induction heater, and the even unanimous induction coil of diameter about the coil wire molding back forms. The lifting mechanism can adjust the position of the induction coil, so that the induction coil is positioned at the position of the calibration rod, or the crucible positioned at the top of the calibration rod is lifted, the adjustment of the induction coil can be beneficial to the placement and the taking of the crucible, and the reciprocating lifting action is beneficial to the adjustment of the heating effect; the crucible in the utility model is arranged through the bracket body, which is convenient for stabilizing the position and moving the crucible in a high temperature state; the operation is convenient to carry out, and the safety risk is also reduced.

Description

Coil lifting type induction melting furnace

Technical Field

The utility model belongs to the technical field of the response smelting pot, a coil over-and-under type response is melted is related to.

Background

After the melting of the induction melting furnace is finished, molten substances need to be poured out, and the induction melting furnace which is common in the market is fixedly connected with the magnetic induction coil, so that the pouring and the taking are not facilitated; and in the process of melting materials in the induction melting furnace, the final melting state is required to be different, so that the thermal power needs to be adjusted, and the fixed coil has limitation on the adjustment of the thermal power.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a coil over-and-under type response smelting pot to conveniently get material and thermal regulation.

The utility model adopts the technical scheme as follows:

a coil lifting type induction melting furnace comprises a lifting mechanism, a calibration rod and a support body, wherein the lifting mechanism is arranged on a base, the support body is used for erecting a crucible, the lifting mechanism is connected with a movable induction heater, a coil conducting wire protrudes outwards from the induction heater, and the coil conducting wire is shaped to form an induction coil with uniform upper and lower diameters.

Specifically, the lifting mechanism is provided with a movable moving frame which is driven by a screw rod, and the moving frame is fixedly connected with the induction heater so as to realize that the moving frame drives the induction heater to perform synchronous lifting motion.

Further, the induction coil is sleeved on the calibration rod, the calibration rod is used for arranging the crucible, the diameter of the calibration rod is the same as that of the crucible, and the inner diameter of the induction coil is larger than that of the calibration rod and that of the crucible.

Specifically, the support body comprises a transverse support rod, a locking nut and a vertical support rod, wherein two ends of the transverse support rod are respectively of a circle structure, one end of the transverse support rod is provided with a small circle for being sleeved on the vertical support rod and can be locked and positioned through the locking nut, and the other end of the transverse support rod is provided with a large circle for being erected at the upper edge of the crucible.

Further, the length of the transverse supporting rod is equal to the distance from the vertical supporting rod to the calibration rod.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

(1) the lifting mechanism can adjust the position of the induction coil, so that the induction coil is positioned at the position of the calibration rod, or the crucible positioned at the top of the calibration rod is lifted, the adjustment of the induction coil can be beneficial to the placement and the taking of the crucible, and the reciprocating lifting action is beneficial to the adjustment of the heating effect;

(2) the crucible in the utility model is arranged through the bracket body, which is convenient for stabilizing the position and moving the crucible in a high temperature state; the operation is convenient to carry out, and the safety risk is also reduced.

Drawings

FIG. 1 is a front view of the overall structure of the present invention;

fig. 2 is a schematic view of the lifting mechanism of the present invention;

FIG. 3 is a schematic top view of the overall structure of the present invention;

the labels in the figure are: 1-base, 2-bottom connecting base, 3-moving rack, 4-smooth guide rail, 5-top connecting base, 6-lead screw motor, 7-induction heater, 8-induction coil, 9-calibration rod, 10-crucible, 11-transverse strut, 12-locking nut, 13-vertical strut, 14-coil conducting wire.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments.

As shown in fig. 1, a coil elevating type induction melting furnace includes an elevating mechanism provided on a base 1, a leveling rod 9, and a supporter body for mounting a crucible 10, wherein the elevating mechanism is connected with a movable induction heater 7, and a coil wire 14 protrudes outward from the induction heater 7, and the coil wire 14 is shaped to form an induction coil 8 having a uniform upper and lower diameter.

Preferably, the lifting mechanism adopts a lead screw lifting principle, and is controlled by a controller in the prior art to move, as shown in fig. 2, the lifting mechanism comprises two upright smooth guide rails 4 arranged between a bottom connecting seat 2 and a top connecting seat 5, and a lead screw motor 6 arranged on the top connecting seat 5, and a lead screw part of the lead screw motor 6 is arranged upright between the two smooth guide rails 4, and the whole lifting mechanism is fixed on the base 1 through the bottom connecting seat 2.

The lifting mechanism further comprises a movable moving frame 3, the moving frame 3 is provided with three through holes, a matched threaded sleeve is arranged in the middle hole and is used for being transmitted with a screw rod motor 6, and the other two holes are penetrated by corresponding smooth guide rails 4 so as to facilitate limiting, so that the moving frame 3 can perform lifting motion along the two smooth guide rails; the moving frame 3 is fixedly connected with the induction heater 7 and drives the induction heater 7 to perform synchronous lifting motion.

The induction heater 7 is in the prior art and is used for electrifying the induction coil 8, and a controller of the screw rod motor can be installed in the induction heater 7 to form an integrated control mechanism for controlling heating and lifting so as to facilitate management.

As shown in fig. 1, the induction coil 8 is sleeved on the calibration rod 9, the calibration rod 9 is used for arranging the crucible 10, the calibration rod 9 and the crucible 10 have the same diameter, and the inner diameter of the induction coil 8 is larger than the diameter of the calibration rod 9 and the crucible 10, so that the induction coil 8 can contain the crucible 10 when the induction heater 7 is lifted.

The crucible 10 is erected through the support body, the support body comprises a transverse support rod 11, a locking nut 12 and a vertical support rod 13, as shown in fig. 3, two ends of the transverse support rod 11 are respectively of a circle structure, a small circle is arranged at one end of the transverse support rod and used for being sleeved on the vertical support rod 13, locking and positioning can be achieved through the locking nut 12, a large circle is arranged at the other end of the transverse support rod 11 and used for being erected at the upper edge of the crucible, and the crucible 10 is erected.

When the crucible heating device is used, a substance to be heated is placed in the crucible 10, then the crucible is erected on the transverse supporting rod 11, and the height and the direction of the transverse supporting rod 11 are adjusted, so that the lower part of the crucible 10 is right opposite to the calibrating rod 9 and can fall on the calibrating rod 9 to stabilize the position, the crucible 10 can be accurately placed, and the length of the transverse supporting rod 11 is required to be equal to the distance from the vertical supporting rod 13 to the calibrating rod 9; then, starting a screw motor to adjust the position of the induction heater 7, so that the induction coil 8 is lifted to the crucible 10 from the calibration rod, then, starting the induction heater 7, and electrifying the induction coil 8 for heating until the substances in the crucible are melted; then, the lead screw motor is started to lower the position of the induction coil, the induction coil returns to the position of the calibration rod 9, the transverse supporting rod 11 is further conveniently rotated, the crucible 10 is enabled to be separated from the calibration rod 9, and then the substances in the crucible are taken out for use.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (5)

1. The coil lifting type induction melting furnace is characterized by comprising a lifting mechanism arranged on a base (1), a calibration rod (9) and a support body for erecting a crucible (10), wherein the lifting mechanism is connected with a movable induction heater (7), a coil lead (14) protrudes outwards from the induction heater (7), and the coil lead (14) is shaped to form an induction coil (8) with uniform upper and lower diameters.

2. Coil lifting induction furnace according to claim 1, characterized in that the lifting mechanism has a movable carriage (3) driven by a screw, and the carriage (3) is fixedly connected to the induction heater (7) to realize synchronous lifting movement of the carriage (3) with the induction heater (7).

3. A coil-lifting induction furnace according to claim 1, characterized in that the induction coil (8) is fitted over a calibrating rod (9), and the calibrating rod (9) is used for placing a crucible (10), and the calibrating rod (9) and the crucible (10) have the same diameter, and the induction coil (8) has an inner diameter larger than the diameter of the calibrating rod (9) and the crucible (10).

4. The coil lifting type induction melting furnace as claimed in claim 1, wherein the support body comprises a transverse support rod (11), a locking nut (12) and a vertical support rod (13), wherein the two ends of the transverse support rod (11) are respectively in a circle structure, one end of the transverse support rod (11) is provided with a small circle for being sleeved on the vertical support rod (13) and can be locked and positioned through the locking nut (12), and the other end of the transverse support rod (11) is provided with a large circle for being erected at the upper edge of the crucible (10).

5. Coil lifting induction furnace according to claim 4, characterized in that the length of the transverse struts (11) is equal to the distance of the vertical struts (13) from the calibrating rods (9).

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