CN219169594U - Automatic gold melting machine - Google Patents

Abstract

The utility model relates to an automatic gold melting machine, which solves the problems that the existing gold melting machine occupies a large space and needs to manually clean impurities. The device comprises a machine base, a gold melting furnace arranged on the machine base, a forming groove, a cooling device and an impurity removing device, wherein the gold melting furnace is rotationally arranged on the machine base, the forming groove is rotationally arranged on the machine base, the cooling device comprises a cooling groove and a conveying groove for receiving materials after the forming groove is overturned, and the machine base is further provided with a conveying device for conveying the cooled materials in the conveying groove to the impurity removing device. The metal in the metal melting furnace rotates to be poured into the forming groove after being melted, the metal blocks are poured into the conveying groove below the forming groove after the forming groove is formed, the conveying groove conveys the metal blocks into the cooling groove to be cooled and then conveys the metal blocks onto the conveying device, and the conveying device conveys the metal blocks to the material to the impurity removing device to remove impurities, so that the metal melting furnace has a compact integral structure, realizes automatic production from melting to forming to impurity removing, and has high production efficiency.

Description

Automatic gold melting machine

Technical Field

The utility model relates to an automatic gold melting machine.

Background

The existing gold smelting machine generally comprises the steps of putting materials into a gold smelting furnace for smelting, flowing the molten materials into a die for forming and cooling into blocks, and then cleaning, wherein the whole gold smelting machine is of a pipeline-mounted structure, and the occupied space is large; in addition, when the molding block is molded, a plurality of impurities are arranged on one side surface which is contacted with air, and manual cleaning is required to be carried out independently, so that the working efficiency is low.

Disclosure of Invention

The utility model aims to solve the problems that the existing gold smelting machine occupies a large space and needs to manually clean impurities.

The technical scheme adopted for solving the technical problems is as follows: the automatic gold smelting machine comprises a machine base, a gold smelting furnace, a forming groove, a cooling device and an impurity removing device, wherein the gold smelting furnace is arranged on the machine base in a rotating mode, the forming groove is correspondingly arranged on the machine base in the rotating mode, a gold smelting furnace rotating driving mechanism for driving the gold smelting furnace to rotate to pour molten metal into the forming groove is arranged on the machine base, the cooling device comprises the cooling groove and a conveying groove which is arranged above the cooling groove and is used for receiving materials after the forming groove is overturned, the machine base is provided with a forming groove rotating driving mechanism for driving the forming groove to rotate to pour metal blocks in the forming groove into the conveying groove, the conveying groove is connected with the machine base through a conveying groove mounting seat, the conveying groove is arranged on the conveying groove mounting seat in a sliding mode in a left-right mode, a first driving mechanism for driving the conveying groove to slide in a left-right mode is arranged on the machine base, a second driving mechanism for driving the conveying groove mounting seat to slide in a vertical mode is arranged on the machine base, and the machine base is further provided with a conveying device for conveying materials cooled in the conveying groove to the conveying device.

The technical scheme for further limiting the utility model comprises the following steps:

the conveying device comprises a conveying sucker and a conveying sucker driving mechanism for driving the conveying sucker to move up and down, the conveying sucker is connected with the base through a conveying sucker mounting seat, the conveying sucker is arranged on the conveying sucker mounting seat in a vertical sliding mode, and the conveying sucker mounting seat is arranged on the base in a front-back sliding mode.

The conveying sucker driving mechanism comprises a first cylinder driving mechanism for driving the conveying sucker to slide up and down and a linear motor driving mechanism for driving the conveying sucker mounting seat to slide back and forth.

The impurity removing device comprises a stamping side plate and a stamping head for stamping the material in cooperation with the stamping side plate, wherein a supporting column for supporting the material is arranged on the stamping side plate.

The support column slide and locate on the punching press curb plate, the support column sets up perpendicularly to punching press curb plate, is equipped with the gliding support column actuating mechanism of drive support column on the frame.

A receiving tray is arranged below the corresponding support column, a material guide plate is arranged between the receiving tray and the support column, the material guide plate is rotationally arranged on the machine base, and a material guide driving mechanism for driving the swing end of the material guide plate to swing and leading the received material into the receiving tray is arranged on the machine base.

The guide driving mechanism and the support column driving mechanism are the same driving mechanism and are second cylinder driving mechanisms, a push plate is arranged on a piston rod of each second cylinder driving mechanism, the push plate corresponds to the guide plate, connecting columns are arranged on two sides of the push plate and are slidably arranged on the stamping side plates, the stamping side plates are connected with the support plates through connecting plates, and the connecting plates are located on the outer sides of the stamping side plates.

The rotary shaft of the gold smelting furnace Jin Lutong passing through the furnace is rotationally arranged on the machine base, and the rotary driving mechanism of the gold smelting furnace comprises a first driving motor, a first gear arranged on the rotary shaft of the gold smelting furnace and a first chain connected with the first gear and the first motor.

The forming groove is rotationally arranged on the machine base through a forming groove rotating shaft, and the forming groove rotating driving mechanism comprises a second driving motor, a second gear arranged on the forming groove rotating shaft and a second chain connected with the second gear and the second motor.

The second driving mechanism comprises a belt pulley which is arranged on the machine base up and down, a third motor which drives the belt pulley to rotate, and the conveying groove mounting seat is fixedly connected with the belt pulley; the first driving mechanism comprises a fourth motor, a third gear fixedly connected with a rotating shaft of the fourth motor, a rack matched with the third gear, and a connecting rod connected with the rack and driving the conveying groove to slide left and right, wherein the rack is arranged on the machine base in a sliding manner, the lower end of the connecting rod is rotationally connected with the machine base, and the upper end of the connecting rod is connected with the rack; the conveying groove mounting seat is rotationally connected with the connecting rod through the swing arm.

Through the technical scheme, the utility model has the beneficial effects that: the metal in the metal melting furnace of the automatic metal melting machine is melted and poured into the forming groove in a rotating way, the metal blocks are poured into the conveying groove below the forming groove in a overturning way after the forming of the forming groove is finished, the conveying groove conveys the metal blocks into the cooling groove for cooling and then conveys the metal blocks onto the conveying device, and the conveying device conveys the metal blocks to the material to the impurity removing device for removing impurities, so that the automatic metal melting machine has a compact integral structure, realizes automatic production from melting to forming to impurity removing, and has high production efficiency.

Drawings

FIG. 1 is a schematic perspective view of an automatic gold melting machine according to the present utility model.

FIG. 2 is a schematic diagram of a rotary drive mechanism for a melting furnace and a rotary drive mechanism for a forming tank of an automatic melting machine according to the present utility model.

FIG. 3 is a schematic view showing a structure of a cooling transfer portion of an automatic gold melting machine according to the present utility model.

FIG. 4 is a schematic view showing a structure of a cooling and conveying part of an automatic gold melting machine according to the present utility model.

Fig. 5 is a schematic view of the impurity removing apparatus of the automatic gold melting machine according to the present utility model.

Detailed Description

The structure of the present utility model will be further described with reference to the accompanying drawings.

Referring to fig. 1 to 5, an automatic gold melting machine comprises a machine base 1, a gold melting furnace 2 arranged on the machine base, a forming groove 3, a cooling device 4 and an impurity removing device 5, wherein the gold melting furnace is rotatably arranged on the machine base, the forming groove is rotatably arranged on the machine base corresponding to the gold melting furnace, and a gold melting furnace rotation driving mechanism 6 for driving the gold melting furnace to rotate to pour molten metal into the forming groove is arranged on the machine base. In this embodiment, the gold melting furnace 2 is rotatably disposed on the stand through the gold melting furnace rotating shaft 21, and the gold melting furnace rotation driving mechanism 6 includes a first driving motor 61, a first gear 62 disposed on the gold melting furnace rotating shaft, and a first chain 63 connecting the first gear and the first motor. The first driving motor drives the first gear to rotate through the first chain, so that the gold melting furnace is driven to rotate to perform dumping action. The cooling device 4 comprises a cooling tank 41 and a conveying tank 42 arranged above the cooling tank and used for receiving materials after overturning the forming tank, a forming tank rotation driving mechanism 7 for driving the forming tank to rotate and pouring metal blocks in the forming tank into the conveying tank is arranged on the machine base, in this embodiment, the forming tank 3 is rotationally arranged on the machine base through a forming tank rotating shaft 31, the forming tank rotation driving mechanism 7 comprises a second driving motor 71, a second gear 72 arranged on the forming tank rotating shaft, and a second chain 73 connected with the second gear and the second motor. The second driving motor drives the second gear to rotate through the second chain, so that the forming groove is driven to rotate to perform dumping action. The conveying trough is connected with the machine base through a conveying trough mounting seat 43, the conveying trough is arranged on the conveying trough mounting seat in a sliding mode, a first driving mechanism 44 for driving the conveying trough to slide left and right is arranged on the machine base, the conveying trough mounting seat is arranged on the machine base in a sliding mode up and down, a second driving mechanism 45 for driving the conveying trough mounting seat to slide up and down is arranged on the machine base, and a conveying device 46 for conveying cooled materials in the conveying trough to the impurity removing device is further arranged on the machine base. The metal in the metal melting furnace rotates to be poured into the forming groove after being melted, the metal blocks are poured into the conveying groove below the forming groove after the forming groove is formed, the conveying groove conveys the metal blocks into the cooling groove to be cooled and then conveys the metal blocks onto the conveying device, and the conveying device conveys the metal blocks to the material to the impurity removing device to remove impurities, so that the metal melting furnace has a compact integral structure, realizes automatic production from melting to forming to impurity removing, and has high production efficiency.

In this embodiment, the second driving mechanism 45 includes a belt pulley 451 disposed on the machine base up and down, a third motor 452 driving the belt pulley to rotate, and a mounting seat of the conveying slot fixedly connected with the belt pulley; the first driving mechanism 44 comprises a fourth motor 441, a third gear 442 fixedly connected with a rotating shaft of the fourth motor, a rack 443 matched with the third gear, and a connecting rod 444 connected with the rack and driving the conveying groove to slide left and right, wherein the rack is arranged on the machine base in a sliding manner, the lower end of the connecting rod is rotationally connected with the machine base, and the upper end of the connecting rod is connected with the rack; the transfer slot mount is rotatably coupled to the link via a swing arm 445. The fourth motor drives the rack to slide left and right through the third gear to drive the upper end of the connecting rod to swing left and right to drive the conveying groove mounting seat to move left and right, so that the materials in the conveying groove are driven to move left and right for conveying. The third motor drives the belt pulley to rotate so as to drive the conveying groove mounting seat to move up and down, thereby driving the materials in the conveying groove to move up and down for conveying. At this time, the mounting seat of the conveying groove swings up and down relative to the connecting rod.

In this embodiment, the conveying device 46 includes a conveying suction cup 461 and a conveying suction cup driving mechanism 462 for driving the conveying suction cup to move up and down, the conveying suction cup is connected with the base through a conveying suction cup mounting seat 463, the conveying suction cup is arranged on the conveying suction cup mounting seat in a vertically sliding manner, and the conveying suction cup mounting seat is arranged on the base in a front-back sliding manner. The transfer cup drive mechanism 462 includes a first cylinder drive mechanism 4621 for driving the transfer cup to slide up and down, and a linear motor drive mechanism 4622 for driving the transfer cup mount to slide back and forth.

In this embodiment, the impurity removing device 5 includes a stamping side plate 51 and a stamping head 52 for stamping the material in cooperation with the stamping side plate, and a supporting column 53 for supporting the material is disposed on the stamping side plate. When the material is conveyed to the supporting column, the side facing the air during molding faces downwards, and the stamping head is matched with the stamping side plate to extrude the material to be molded, so that the impurity loosens and falls off.

In this embodiment, the support column is slidably disposed on the stamping side plate, the support column is perpendicular to the stamping side plate, and the stand is provided with a support column driving mechanism 8 for driving the support column to slide. After the impurities are removed, the supporting column driving mechanism drives the supporting column to retract, and the materials fall down. In this embodiment, a receiving tray 9 is disposed below the corresponding support column, a guide plate 91 is disposed between the receiving tray and the support column, the guide plate is rotatably disposed on the stand, and a guide driving mechanism 10 is disposed on the stand for driving the swing end of the guide plate to swing so as to guide the received material into the receiving tray. In this embodiment, the material guiding driving mechanism and the support column driving mechanism are the same driving mechanism and are second cylinder driving mechanisms, a push plate 101 is arranged on a piston rod of each second cylinder driving mechanism, the push plate is arranged corresponding to the material guiding plate, connecting columns 102 are arranged on two sides of the push plate and are slidably arranged on the stamping side plates, the stamping side plates are connected with the support plates through connecting plates 103, and the connecting plates are located on the outer sides of the stamping side plates. When the receiving tray is required to receive impurities, the material guide plate is in a vertical state. When the material is required to be received, the second cylinder driving mechanism drives the supporting column to retract, the material falls down, and meanwhile, the second cylinder driving mechanism drives the material guide plate to swing upwards through the push plate to receive the material and then swing downwards slowly to guide the material into the material receiving tray. Prevent that the material from falling down the sound too loud, prevent simultaneously that the material from falling down from the eminence and bump bad easily.

Although specific embodiments of the utility model have been described in detail with reference to the accompanying drawings, the utility model should not be construed as limited to the scope of protection of the utility model. Various modifications and variations which may be made by those skilled in the art without the creative effort fall within the protection scope of the present utility model within the scope described in the claims.

Claims (10)

1. An automatic gold melting machine which is characterized in that: the gold smelting machine comprises a machine base, a gold smelting furnace, a forming groove, a cooling device and an impurity removing device, wherein the gold smelting furnace is arranged on the machine base, the forming groove is correspondingly arranged on the machine base in a rotating mode, a gold smelting furnace rotating driving mechanism for driving the gold smelting furnace to rotate and pour molten metal into the forming groove is arranged on the machine base, the cooling device comprises the cooling groove and a conveying groove which is arranged above the cooling groove and used for receiving materials after the forming groove is overturned, the machine base is provided with a forming groove rotating driving mechanism for driving the forming groove to rotate and pour metal blocks in the forming groove into the conveying groove, the conveying groove is connected with the machine base through a conveying groove mounting seat, the conveying groove is arranged on the conveying groove mounting seat in a sliding mode, a first driving mechanism for driving the conveying groove to slide left and right is arranged on the machine base in a sliding mode, a second driving mechanism for driving the conveying groove mounting seat to slide up and down is arranged on the machine base, and the machine base is also provided with a conveying device for conveying materials cooled in the conveying groove to the impurity removing device.

2. An automatic gold melting machine according to claim 1, wherein: the conveying device comprises a conveying sucker and a conveying sucker driving mechanism for driving the conveying sucker to move up and down, the conveying sucker is connected with the base through a conveying sucker mounting seat, the conveying sucker is arranged on the conveying sucker mounting seat in a vertical sliding mode, and the conveying sucker mounting seat is arranged on the base in a front-back sliding mode.

3. An automatic gold melting machine according to claim 2, wherein: the conveying sucker driving mechanism comprises a first cylinder driving mechanism for driving the conveying sucker to slide up and down and a linear motor driving mechanism for driving the conveying sucker mounting seat to slide back and forth.

4. An automatic gold melting machine according to claim 1, wherein: the impurity removing device comprises a stamping side plate and a stamping head for stamping the material in cooperation with the stamping side plate, wherein a supporting column for supporting the material is arranged on the stamping side plate.

5. An automatic gold-melting machine as set forth in claim 4, wherein: the support column slide and locate on the punching press curb plate, the support column sets up perpendicularly to punching press curb plate, is equipped with the gliding support column actuating mechanism of drive support column on the frame.

6. An automatic gold-melting machine as set forth in claim 4, wherein: a receiving tray is arranged below the corresponding support column, a material guide plate is arranged between the receiving tray and the support column, the material guide plate is rotationally arranged on the machine base, and a material guide driving mechanism for driving the swing end of the material guide plate to swing and leading the received material into the receiving tray is arranged on the machine base.

7. An automatic gold melting machine according to claim 6, wherein: the guide driving mechanism and the support column driving mechanism are the same driving mechanism and are second cylinder driving mechanisms, a push plate is arranged on a piston rod of each second cylinder driving mechanism, the push plate corresponds to the guide plate, connecting columns are arranged on two sides of the push plate and are slidably arranged on the stamping side plates, the stamping side plates are connected with the support plates through connecting plates, and the connecting plates are located on the outer sides of the stamping side plates.

8. An automatic gold melting machine according to claim 1, wherein: the rotary shaft of the gold smelting furnace Jin Lutong passing through the furnace is rotationally arranged on the machine base, and the rotary driving mechanism of the gold smelting furnace comprises a first driving motor, a first gear arranged on the rotary shaft of the gold smelting furnace and a first chain connected with the first gear and the first motor.

9. An automatic gold melting machine according to claim 1, wherein: the forming groove is rotationally arranged on the machine base through a forming groove rotating shaft, and the forming groove rotating driving mechanism comprises a second driving motor, a second gear arranged on the forming groove rotating shaft and a second chain connected with the second gear and the second motor.

10. An automatic gold melting machine according to claim 1, wherein: the second driving mechanism comprises a belt pulley which is arranged on the machine base up and down, a third motor which drives the belt pulley to rotate, and the conveying groove mounting seat is fixedly connected with the belt pulley; the first driving mechanism comprises a fourth motor, a third gear fixedly connected with a rotating shaft of the fourth motor, a rack matched with the third gear, and a connecting rod connected with the rack and driving the conveying groove to slide left and right, wherein the rack is arranged on the machine base in a sliding manner, the lower end of the connecting rod is rotationally connected with the machine base, and the upper end of the connecting rod is connected with the rack; the conveying groove mounting seat is rotationally connected with the connecting rod through the swing arm.

Images