CN111059897B - Automatic melting system - Google Patents

Abstract

The present invention relates to an automatic melting system, which comprises: a crucible mechanism, which comprises a crucible body, a turning part for driving the crucible body to tilt so as to pour out the melted material; a material dragging mechanism, which is used to receive the melted liquid material, which comprises a material dragging platform and a material dragging displacement part for driving the material dragging platform to move; a heating mechanism, which is used to melt the solid material, which comprises a heating furnace with an opening for the crucible body to enter; and a conveying mechanism. The present invention uses the conveying mechanism to transport the solid material loaded in the crucible mechanism into and out of the heating mechanism, and then the turning mechanism of the crucible mechanism itself causes the crucible body to flip and tilt, and the material dragging mechanism evenly receives the liquid material poured out of the crucible body.

Description

Automatic melting system

Technical Field

The present invention relates to an automatic melt system.

Background

In production, a plurality of solid materials are required to be melted into a liquid state at first to carry out subsequent production and processing, and most of solid materials are melted to generate harmful gas, so that the contact of operators is reduced as much as possible, the harm of the harmful gas to human bodies is reduced, and in order to realize automatic heating and pouring of the solid materials, a fully-automatic heating and pouring device is required to be designed.

Disclosure of Invention

The invention aims to provide an automatic melting system capable of effectively reducing contact between personnel and melted materials.

In order to achieve the above purpose, the invention adopts the following technical scheme: an automatic melt system, comprising:

The crucible mechanism comprises a crucible body and a turnover part used for driving the crucible body to incline so as to pour out melted materials;

The material dragging mechanism is used for receiving the melted liquid material and comprises a material dragging table and a material dragging displacement part used for driving the material dragging table to move;

A heating mechanism for melting the solid material, comprising a heating furnace having an opening into which the crucible body enters;

The conveying mechanism is used for conveying the crucible body into the heating mechanism and comprises a horizontal moving part for driving the crucible mechanism to move in the horizontal direction and a vertical moving part for driving the horizontal moving part and the crucible mechanism to move in the vertical direction.

In another preferred mode, the turnover part comprises a first mounting plate, a turnover rod rotationally connected with the first mounting plate, a second mounting plate fixedly connected with the upper end part of the turnover rod, a lower supporting rod fixedly connected with the upper end part of the first mounting plate, and a turnover driving assembly for driving the second mounting plate to synchronously turn over along with the turnover rod, and the crucible body is arranged at the upper end of the second mounting plate.

In another preferred mode, the turnover driving assembly comprises a lower support fixedly connected with the first mounting plate, a turnover motor arranged on the lower support, an upper support arranged on the lower end face of the second mounting plate, a turnover driven gear rotationally connected to the upper support, a turnover driving gear fixed on a rotating shaft of the turnover motor and meshed with the driven gear, and a tension spring connected between the second mounting plate and the first mounting plate, wherein the tension spring and the lower support rod are positioned on the same side of the lower support and are respectively positioned on two sides of the lower support with the turnover rod.

In another preferred mode, the overturning part comprises a third mounting plate arranged on the second mounting plate and an upper connecting rod connected between the second mounting plate and the third mounting plate, the crucible body is fixed on the third mounting plate, a heat shield used for sealing the opening is arranged on the upper connecting rod, and a buffer spring is arranged at the upper end part of the lower supporting rod.

In another preferred mode, the material dragging table comprises a lower table body and a material dragging plate obliquely arranged on the lower table body, and a plurality of material storage tanks are arranged on the material dragging plate.

In another preferred mode, the material dragging displacement part comprises a material dragging base, rails which are arranged on the material dragging base in parallel, driving racks which are arranged on the material dragging base in parallel with the rails, a material dragging driving motor which is fixed on the lower platform body, a material dragging driving gear which is fixed on the material dragging driving motor and meshed with the driving racks, and a material dragging roller which is rotationally connected to the lower end face of the lower platform body and rolls on the rails.

Another preferred mode, the upper end of heating furnace is equipped with the collection mouth, heating mechanism includes the heating mounting bracket, locates on the heating mounting bracket and with the upper segment waste liquid pipe that the collection mouth intercommunication set up, with the upper segment waste liquid pipe be linked together and along the lower segment waste liquid pipe that the heating furnace lateral wall extends in opposite directions, and connect in the collecting bottle of lower segment waste liquid pipe lower extreme, the upper segment waste liquid pipe with the tip that the heating furnace is connected is the entry tip, the entry tip is the U type tubulose of inversion, the lower segment waste liquid pipe include the interior pipeline section with the cladding in the outer tube section of interior pipeline section, the outer tube section with form cooling space between the interior pipeline section, cooling medium has in the cooling space.

In another preferred mode, the vertical moving part comprises a conveying base, two longitudinal guide rods perpendicular to the upper end face of the conveying base, a longitudinal base connected to the longitudinal guide rods in a sliding mode, and a longitudinal screw rod assembly fixed to the conveying base and located between the two longitudinal guide rods, wherein a longitudinal driving nut of the longitudinal screw rod assembly is fixedly connected with the longitudinal base.

In another preferred mode, the horizontal moving part comprises a transverse guide rod fixedly installed on the longitudinal base in parallel, a plurality of transverse sliding blocks connected to the transverse guide rods in a sliding mode, and a transverse screw rod assembly, and the crucible mechanism is installed on the transverse sliding blocks.

In another preferred mode, the upper cover of the transverse guide rod is provided with two telescopic dust covers, the two dust covers are respectively positioned at two sides of the crucible mechanism, each dust cover comprises a cover body installation block which moves synchronously with the sliding block, a cover body which is arranged between the end part of the longitudinal base and the cover body installation block, and the cover body installation blocks are positioned at two sides of the crucible mechanism.

Due to the application of the technical scheme, compared with the prior art, the invention has the following advantages: the invention utilizes the conveying mechanism to send the solid materials in the crucible mechanism into and out of the heating mechanism, then the crucible mechanism self-turnover mechanism makes the crucible body turnover and incline, and the material dragging mechanism uniformly receives the liquid materials poured out of the crucible body.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic structural view of a crucible mechanism;

FIG. 3 is a front view of the drag mechanism;

FIG. 4 is a left side view of the drag mechanism;

fig. 5 is a schematic structural view of the drag displacement portion.

Detailed Description

The following detailed description of the invention is presented in conjunction with the drawings to provide those skilled in the art with a better understanding of the advantages and features of the invention, and to provide a clearer and more accurate definition of the scope of the invention.

As shown in fig. 1-5, an automated melt system comprising:

A crucible mechanism 1 including a crucible body 11, a turnover part 12 for driving the crucible body 11 to incline so as to pour out melted material; the turnover part 12 comprises a first mounting plate 13, a turnover rod 14 rotationally connected with the first mounting plate 13, a second mounting plate 15 fixedly connected with the upper end part of the turnover rod 14, a lower supporting rod 16 fixedly connected with the upper end part of the first mounting plate 13, and a turnover driving assembly 17 for driving the second mounting plate 15 to synchronously turn along with the turnover rod 14, wherein the crucible body 11 is arranged at the upper end of the second mounting plate 15, the turnover driving assembly 17 comprises a lower bracket 18 fixedly connected with the first mounting plate 13, a turnover motor 19 arranged on the lower bracket 18, an upper bracket 10 arranged on the lower end surface of the second mounting plate 15, a turnover driven gear 110 rotationally connected with the upper bracket 10, a turnover driving gear 111 fixed on a rotating shaft of the turnover motor 19 and meshed with the driven gear, the turnover driving assembly 17 comprises a tension spring 112 connected between the second mounting plate 15 and the first mounting plate 13, the tension spring 112 and the lower supporting rod 16 are positioned on the same side of the lower bracket 18 and respectively positioned on two sides of the lower bracket 18, the turnover part 12 comprises a third mounting plate 113 arranged on the second 15, a connecting rod 114 connected between the second mounting plate 15 and the third mounting plate 113 is provided with a buffer upper supporting rod 114, and a heating screen 114 is arranged on the upper end part of the connecting rod 114 is provided with a buffer support plate 114.

The principle of the crucible mechanism 1 is as follows: the solid material is put into the crucible body, enters the heating furnace along with the conveying mechanism, exits to the initial position after the heating is completed, then the overturning motor 19 drives the overturning driving gear 111 to rotate so as to drive the overturning driven gear 110 to rotate, and the overturning driven gear 110 is rotationally connected to the upper bracket 10 on the lower end face of the second mounting plate 15, so that the rotation of the overturning driven gear 110 can drive the second mounting plate 15 and the overturning rod 14 to synchronously overturn, and finally the inclined dumping of the crucible body 11 is realized.

The material dragging mechanism 2 is used for receiving the melted liquid material and comprises a material dragging platform 21 and a material dragging displacement part 22 used for driving the material dragging platform 21 to move; the material dragging table 21 comprises a lower table body 23 and a material dragging plate 24 obliquely arranged on the lower table body 23, and a plurality of storage tanks 25 are arranged on the material dragging plate 24. The material dragging displacement portion 22 comprises a material dragging base 26, rails 27 which are arranged on the material dragging base 26 in parallel, a driving rack 28 which is arranged on the material dragging base 26 in parallel with the rails 27, a material dragging driving motor 29 which is fixed on the lower table body 23, a material dragging driving gear 20 which is fixed on the material dragging driving motor 29 and meshed with the driving rack 28, and a material dragging roller 210 which is rotatably connected on the lower end face of the lower table body 23 and rolls on the rails 27. The track 27 is a circular tube, and the circumferential surface of the material dragging roller 210 is a concave arc surface. The rails 27 are welded to the mop base 26, and stoppers 216 are disposed on two sides of one of the rails 27 and on the travelling path of the mop roller 210. The material carriage 24 is rotatably connected to the lower platform body 23 through a turnover connecting plate 215 rotatably connected to the lower platform body 23, one side of the material carriage is supported on the lower platform body 23, a supporting component 211 for adjusting the inclination angle of the material carriage is arranged on the other side of the material carriage, the supporting component 211 comprises a material carriage supporting rod 212 rotatably arranged on the lower end face of the material carriage 24, an adjusting block 213 provided with an adjusting hole and an adjusting screw 214 in threaded connection with the adjusting block 213, the material carriage supporting rod 212 is arranged in the adjusting hole in a penetrating mode, and when the material carriage supporting rod is locked, the end portion of the adjusting screw 214 abuts against the material carriage supporting rod 212.

The principle of the material dragging mechanism is as follows: the material carriage is used for receiving liquid materials poured out of the crucible body, and when the material in the storage tank 25 is gradually full, the material carriage driving motor 29 rotates to drive the material carriage driving gear 20 to rotate and move on the driving rack 28, so that the lower table body 23 is driven to move on the material carriage base 26, and the empty storage tank 25 continues to receive the materials after moving.

A heating mechanism 3 for melting the solid material, comprising a heating furnace 31 having an opening into which the crucible body 11 is introduced, a second mounting plate 15 also being provided as a sealing cover plate over the opening, and a heat shield 115 for preventing overheating when the second mounting plate 15 is attached to the heating furnace 31; the upper end of heating furnace 31 is equipped with collects mouth 32, heating mechanism 3 includes heating mounting bracket 33, locate on the heating mounting bracket 33 and with collect mouth 32 intercommunication upper segment waste liquid pipe 34 that sets up, be linked together with upper segment waste liquid pipe 34 and along the lower segment waste liquid pipe 35 that the heating furnace 31 lateral wall extends in opposite directions, and connect in the collecting bottle 36 of lower segment waste liquid pipe 35 lower extreme, the tip that upper segment waste liquid pipe 34 is connected with heating furnace 31 is entry tip 37, entry tip 37 is the U-shaped tubulose of inversion, lower segment waste liquid pipe 35 includes interior pipe section 38 and cladding outside interior pipe section 39, form the cooling space between outer pipe section 39 and the interior pipe section 38, cooling medium has in the cooling space. The upper end portion and the lower end portion on the peripheral surface of the outer tube section 39 are respectively provided with a cooling medium outlet 30 and a cooling medium inlet 310. The upper end portion of the peripheral surface of the outer tube section 39 is provided with a plurality of connection blocks 311 connected to the peripheral surface of the heating furnace 31 for stabilizing the connection of the outer tube section 39 to the heating furnace 31. The collecting bottle 36 is located below the heating furnace side and comprises a bottle body 312 and a supporting cover 313 sleeved on the outer side wall of the lower end of the bottle body 312, a flange 314 extending along the radial direction is arranged at the lower end of the supporting cover 313, and supporting screws 315 with conical supporting bases 316 are uniformly distributed on the flange 314.

The crucible body 11 can enter the heating furnace 31 from the opening on the lower end face of the heating mechanism, and when the crucible body 11 enters the heating furnace 31 and is in place, the heat shield 115 is covered on the opening to prevent heat loss.

And a conveying mechanism 4 for feeding the crucible body 11 into the heating mechanism 3, which includes a horizontal moving portion 42 that drives the crucible mechanism 1 to move in the horizontal direction and a vertical moving portion 41 that drives the horizontal moving portion 42 and the crucible mechanism 1 to move in the horizontal direction.

The vertical moving part 41 comprises a conveying base 43, two longitudinal guide rods 44 mounted on the upper end surface of the vertical conveying base 43, a longitudinal base 45 slidably connected to the longitudinal guide rods 44, and a longitudinal screw rod assembly 46 fixed on the conveying base 43 and positioned between the two longitudinal guide rods 44, wherein a longitudinal driving nut of the longitudinal screw rod assembly 46 is fixedly connected with the longitudinal base 45. The horizontal moving part 42 comprises a horizontal guide rod 47 fixedly installed on the longitudinal base 45 in parallel, a plurality of horizontal sliding blocks 48 slidingly connected to the horizontal guide rods 47, and a horizontal screw rod assembly 49, wherein the horizontal screw rod assembly 49 comprises a horizontal screw rod 40 and a horizontal driving nut 410 screwed on the horizontal screw rod 40, the horizontal driving nut 410 is fixedly connected with the first mounting plate 13, and the first mounting plate 13 of the crucible mechanism 1 is fixedly installed on the horizontal sliding blocks 48. The transverse guide rods 47 are covered with two telescopic dust covers 412, which are respectively positioned at two sides of the crucible mechanism 1, each dust cover 412 comprises a cover body mounting block 413 which moves synchronously with the transverse sliding blocks 48, and a cover body 414 which is arranged between the end part of the longitudinal base 45 and the cover body mounting block, and the cover body mounting blocks are positioned at two sides of the crucible mechanism 1. The crucible mechanism is fed into and discharged from the heating furnace by the horizontal moving part and the vertical moving part.

The above embodiments are only for illustrating the technical concept and features of the present invention, and are intended to enable those skilled in the art to understand the present invention and to implement the same, but are not intended to limit the scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be included in the scope of the present invention.

Claims (5)

1. An automatic melt system, comprising:

The crucible mechanism comprises a crucible body and a turnover part used for driving the crucible body to incline so as to pour out melted materials;

The material dragging mechanism is used for receiving the melted liquid material and comprises a material dragging table and a material dragging displacement part used for driving the material dragging table to move;

A heating mechanism for melting the solid material, comprising a heating furnace having an opening into which the crucible body enters;

The conveying mechanism is used for conveying the crucible body into the heating mechanism and comprises a horizontal moving part for driving the crucible mechanism to move in the horizontal direction and a vertical moving part for driving the horizontal moving part and the crucible mechanism to move in the vertical direction;

The turnover part comprises a first mounting plate, a turnover rod rotationally connected with the first mounting plate, a second mounting plate fixedly connected with the upper end part of the turnover rod, a lower support rod fixedly connected with the upper end part of the first mounting plate, and a turnover driving assembly for driving the second mounting plate to synchronously turn over along with the turnover rod, wherein the crucible body is arranged at the upper end of the second mounting plate;

The turnover driving assembly comprises a lower bracket fixedly connected with the first mounting plate, a turnover motor arranged on the lower bracket, an upper bracket arranged on the lower end surface of the second mounting plate, a turnover driven gear rotationally connected to the upper bracket, a turnover driving gear fixed on a rotating shaft of the turnover motor and meshed with the driven gear, and a tension spring connected between the second mounting plate and the first mounting plate, wherein the tension spring and the lower support rod are positioned on the same side of the lower bracket and are respectively positioned on two sides of the lower bracket with the turnover rod;

The turnover part comprises a third mounting plate arranged on the second mounting plate and an upper connecting rod connected between the second mounting plate and the third mounting plate, the crucible body is fixed on the third mounting plate, a heat shield for sealing the opening is arranged on the upper connecting rod, and a buffer spring is arranged at the upper end part of the lower supporting rod;

The material dragging table comprises a lower table body and a material dragging plate obliquely arranged on the lower table body, and a plurality of material storage tanks are arranged on the material dragging plate;

The material drags displacement portion including the material drag the base, install in the material drag the base on and parallel arrangement's track, install in the material drag the base on and with the drive rack that the track parallel arrangement was said, be fixed in the material on the lower stage body drags driving motor, be fixed in the material drag on the driving motor and with the material that drives rack engaged with drags driving gear, and rotate connect in the lower stage body lower terminal surface on and be in the material of rolling on the track drags the gyro wheel.

2. The automated melt system of claim 1, wherein: the upper end of heating furnace is equipped with the collection mouth, heating mechanism includes the heating mounting bracket, locates on the heating mounting bracket and with the upper segment waste liquid pipe that the collection mouth intercommunication set up, with upper segment waste liquid pipe be linked together and along the lower segment waste liquid pipe that the heating furnace lateral wall extends in opposite directions, and connect in the collecting bottle of lower segment waste liquid pipe lower extreme, upper segment waste liquid pipe with the tip that the heating furnace is connected is the entry tip, the entry tip is the U type tubulose of inversion, lower segment waste liquid pipe include interior pipeline section and cladding in the outer pipeline section of interior pipeline section, outer pipeline section with form cooling space between the interior pipeline section, cooling medium has in the cooling space.

3. The automated melt system of claim 1, wherein: the vertical moving part comprises a conveying base, two longitudinal guide rods perpendicular to the upper end face of the conveying base, a longitudinal base connected to the longitudinal guide rods in a sliding mode, and a longitudinal screw rod assembly fixed to the conveying base and located between the two longitudinal guide rods, wherein a longitudinal driving nut of the longitudinal screw rod assembly is fixedly connected with the longitudinal base.

4. The automated melt system of claim 3, wherein: the horizontal moving part comprises a horizontal guide rod, a plurality of horizontal sliding blocks and a horizontal screw rod assembly, wherein the horizontal guide rod is fixedly installed on the longitudinal base in parallel, the horizontal sliding blocks are connected to the horizontal guide rods in a sliding mode, and the crucible mechanism is installed on the horizontal sliding blocks.

5. The automated melt system of claim 4, wherein: the upper cover of the transverse guide rod is provided with two telescopic dust covers which are respectively positioned at two sides of the crucible mechanism, each dust cover comprises a cover body installation block which moves synchronously with the sliding block, a cover body which is arranged between the end part of the longitudinal base and the cover body installation block, and the cover body installation blocks are positioned at two sides of the crucible mechanism.