CN220921966U - Drum-type magnetic sorting mechanism matched with full-automatic polishing equipment - Google Patents

Abstract

The application provides a roller type magnetic sorting mechanism matched with full-automatic polishing equipment, and belongs to the technical field of grinding equipment. The drum-type magnetic sorting mechanism matched with the full-automatic polishing equipment comprises a liquid receiving disc, and a polishing machine is arranged at the top of the liquid receiving disc. Through all installing feed mechanism in the both sides of finishing machine, make work piece and abrasive material drop into the finishing machine from the feed mechanism of both sides respectively, in order to realize improving the purpose of material loading efficiency, work piece and abrasive material after polishing discharge to buffering fill mechanism in, then carry in vibrating feed mechanism again, realize adsorbing the work piece unanimous with abrasive material size through the magnetic cylinder, abrasive material then flows back in feed mechanism through abrasive material backward flow vibration mechanism, afterwards elevating system lifting magnetic cylinder, after will collecting the box motion to the magnetic cylinder bottom, make the magnetic cylinder demagnetize, and then the work piece drops to collecting in the box, and the great work piece of volume is carried in the vibration wiper mechanism and is washd, in order to promote work piece surface cleanliness factor.

Description

Drum-type magnetic sorting mechanism matched with full-automatic polishing equipment

Technical Field

The application relates to the field of grinding equipment, in particular to a roller type magnetic sorting mechanism matched with full-automatic polishing equipment.

Background

The polishing machine is a machine for polishing and deburring a workpiece and other surface treatments, the workpiece and the abrasive are placed in the polishing machine so as to polish the workpiece, and the polished workpiece and the abrasive are discharged into the vibration separation mechanism together so as to separate the workpiece from the abrasive.

In the separation process, a screen is arranged in the vibration separation mechanism, so that the abrasive can penetrate through the screen, and the workpiece stays on the screen, therefore, in the vibration process, the workpiece is separated from the abrasive, however, the workpiece contains a product with the same size as the abrasive, and therefore, the workpiece can penetrate through the screen, so that the workpiece is not thoroughly separated from the abrasive, the secondary separation is needed, the process is increased, the separation efficiency is further reduced, and the matched roller type magnetic separation mechanism of the full-automatic polishing equipment is provided.

Disclosure of utility model

In order to make up for the defects, the application provides a drum-type magnetic sorting mechanism matched with full-automatic polishing equipment, and aims to solve the problem of sorting products with the same sizes of abrasive materials and workpieces.

The embodiment of the application provides a roller-type magnetic sorting mechanism matched with full-automatic polishing equipment, which comprises a bottom liquid receiving disc, wherein a polishing machine is arranged at the top of the liquid receiving disc, feeding mechanisms are arranged on two sides of the polishing machine, a discharging mechanism and a lifting mechanism are arranged at the top of the liquid receiving disc, a driving mechanism is arranged at the top of the lifting mechanism, an output shaft of the driving mechanism is connected with a magnetic roller for sucking a workpiece, and the magnetic roller is positioned above the discharging mechanism.

In a specific embodiment, a bearing plate which is horizontally arranged is arranged at the top of the output shaft of the lifting mechanism, and the driving mechanism is arranged on the bearing plate.

In a specific embodiment, the driving mechanism comprises a driving motor fixedly mounted on the top of the bearing plate and a transmission box fixedly connected with the side wall of the bearing plate, two end side walls of the transmission box are rotatably penetrated by the same transmission shaft mechanism, and one end of the magnetic roller is connected with the transmission shaft mechanism.

In a specific embodiment, the transmission shaft mechanism comprises a first transmission shaft and a second transmission shaft which respectively rotate to penetrate through the side walls of two ends of the transmission case, one end of the first transmission shaft is connected with the driving shaft of the driving motor, one end of the second transmission shaft is connected with the magnetic roller, and the first transmission shaft is in transmission connection with the second transmission shaft.

In a specific embodiment, the feeding mechanism comprises a bracket fixedly installed at the top of the liquid receiving disc and a feeding hopper placed at the top of the liquid receiving disc, wherein the side wall of the feeding hopper is hinged with the top of the bracket, and the same hydraulic cylinder is hinged between the side wall of the feeding hopper and the top of the liquid receiving disc.

In a specific embodiment, the discharging mechanism comprises a buffer bucket mechanism and a vibration feeding mechanism, wherein the buffer bucket mechanism is arranged at the top of the liquid receiving disc, the buffer bucket mechanism is positioned below an outlet of the finishing machine, an inlet end of the vibration feeding mechanism is positioned below an outlet end of the buffer bucket mechanism, and the magnetic roller is positioned above the vibration feeding mechanism.

The application has the beneficial effects that: through all installing feed mechanism in the both sides of finishing machine, make work piece and abrasive material drop into the finishing machine from the feed mechanism of both sides respectively, in order to realize improving the purpose of material loading efficiency, work piece and abrasive material after polishing discharge to buffering fill mechanism in, then carry in vibrating feed mechanism again, realize adsorbing the work piece unanimous with abrasive material size through the magnetic cylinder, abrasive material then flows back in feed mechanism through abrasive material backward flow vibration mechanism, afterwards elevating system lifting magnetic cylinder, after will collecting the box motion to the magnetic cylinder bottom, make the magnetic cylinder demagnetize, and then the work piece drops to collecting in the box, and the great work piece of volume is carried in the vibration wiper mechanism and is washd, in order to promote work piece surface cleanliness factor.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some examples of the present application and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a main structure of a drum-type magnetic sorting mechanism matched with a full-automatic polishing device according to an embodiment of the application;

Fig. 2 is a schematic structural diagram of a feeding mechanism in a drum-type magnetic sorting mechanism matched with full-automatic polishing equipment according to an embodiment of the application;

FIG. 3 is a schematic structural view of a buffer bucket mechanism, a vibration feeding mechanism and a vibration cleaning mechanism in a drum-type magnetic sorting mechanism matched with full-automatic polishing equipment according to an embodiment of the application;

Fig. 4 is a schematic structural diagram of a vibration feeding mechanism and an abrasive material backflow vibration mechanism in a drum-type magnetic sorting mechanism matched with a full-automatic polishing device according to an embodiment of the present application;

fig. 5 is a partial enlarged view at a in fig. 4.

In the figure: 10-a liquid receiving disc; 110-an abrasive reflux vibration mechanism; 120-lifting mechanism; 130-a vibration cleaning mechanism; 140-three-stage sedimentation circulating tanks; 20-finishing machine; 30-a feeding mechanism; 310-rack; 320-feeding hoppers; 330-hydraulic cylinder; 340-a through-penetration; 40-a buffer bucket mechanism; 50-a vibration feeding mechanism; 60-magnetic roller; 70-bearing plate; 80-a drive mechanism; 810-a drive motor; 820-gear box; 830-a drive shaft mechanism; 831-first drive shaft; 832-a second drive shaft.

Detailed Description

The technical solutions in the embodiments of the present application will be described below with reference to the accompanying drawings in the embodiments of the present application.

Referring to fig. 1-5, the application provides a matched drum-type magnetic sorting mechanism of a full-automatic polishing device, which comprises a liquid receiving disc 10, wherein a polishing machine 20 is arranged at the top of the liquid receiving disc 10, feeding mechanisms 30 are respectively arranged at two sides of the polishing machine 20, two feeding mechanisms 30 respectively convey a workpiece and an abrasive into the polishing machine 20, a discharging mechanism is arranged at the top of the liquid receiving disc 10, the discharging mechanism comprises a buffer bucket mechanism 40 and a vibration feeding mechanism 50 which are arranged at the top of the liquid receiving disc 10, the buffer bucket mechanism 40 is positioned below an outlet of the polishing machine 20, an inlet end of the vibration feeding mechanism 50 is positioned below an outlet end of the buffer bucket mechanism 40, a magnetic drum 60 is positioned on the vibration feeding mechanism 50 and is divided into two feeding mechanisms, specifically, the two feeding mechanisms 30 respectively put into a workpiece to be polished and abrasive, the abrasive and the workpiece are put into the polishing machine 20 from two sides, after polishing, a discharge port of the polishing machine 20 is opened, the workpiece and the abrasive are discharged into the buffer bucket mechanism 40, liquid added in the polishing process is discharged, then the workpiece and the abrasive is discharged into the feeding mechanism 50, the buffer bucket mechanism 50, the inlet end of the buffer bucket mechanism 50 is positioned below the outlet end of the buffer bucket mechanism 40, the inlet end of the buffer bucket mechanism is positioned below the buffer bucket mechanism 40, the magnetic drum 60 is positioned above the output end, and the vibration feeding mechanism is rotated, and the volume of the abrasive is equal to the abrasive in order to realize the large volume, and the vibration feeding mechanism is at the bottom 110, and the vibration roller is at the bottom, and the vibration roller is and the vibration.

Referring to fig. 2, the feeding mechanism 30 includes a bracket 310 fixedly mounted at the top of the liquid receiving tray 10, and a feeding hopper 320 disposed at the top of the liquid receiving tray 10, wherein a side wall of the feeding hopper 320 is hinged to the top of the bracket 310, and a hydraulic cylinder 330 is hinged to the top of the liquid receiving tray 10, and when the feeding mechanism is set, the hydraulic cylinder 330 extends to drive the feeding hopper 320 to turn over, so that the hinged positions of the feeding hopper 320 and the bracket 310 are rotated as a center, and the maximum turning angle 145 degrees of the feeding hopper 320 are used for pouring workpieces and abrasive materials into the finishing machine 20.

Referring to fig. 1, 2 and 4, a through hole 340 is formed in a side wall of one of the feeding hoppers 320, the abrasive material backflow vibration mechanism 110 is mounted on the top of the liquid receiving disc 10, the abrasive material backflow vibration mechanism 110 is located below the vibration feeding mechanism 50, and an outlet end of the abrasive material backflow vibration mechanism passes through the through hole 340, and it should be noted that the abrasive material backflow vibration mechanism 110 is pushed to move by an electric telescopic rod, so that the hopper of the abrasive material backflow vibration mechanism 110 can pass through the through hole 340, and the hopper can be driven out of or driven into one of the feeding hoppers 320.

Referring to fig. 4, a lifting mechanism 120 is fixedly installed at the top of the liquid receiving disc 10, a bearing plate 70 horizontally arranged is installed at the top of an output shaft of the lifting mechanism 120, a driving mechanism 80 is installed on the bearing plate 70, and the magnetic roller 60 is connected with the driving mechanism 80.

Referring to fig. 4 and 5, the driving mechanism 80 includes a driving motor 810 fixedly installed on the top of the carrier plate 70, and a transmission case 820 fixedly connected to the side wall of the carrier plate 70, wherein two end side walls of the transmission case 820 rotate and penetrate through the same transmission shaft mechanism 830, one end of the magnetic roller 60 is connected with the transmission shaft mechanism 830, and in operation, the driving motor 810 drives the transmission shaft mechanism 830 to rotate so as to drive the magnetic roller 60 to rotate, and it is noted that an L-shaped plate is fixedly installed on the side wall of the transmission case 820, and the other end of the magnetic roller 60 is rotationally connected with the side wall of the L-shaped plate so as to improve the stability of the magnetic roller 60.

Referring to fig. 5, the transmission shaft mechanism 830 includes a first transmission shaft 831 and a second transmission shaft 832 which respectively rotate through sidewalls at two ends of the transmission case 820, one end of the first transmission shaft 831 is connected with a driving shaft of the driving motor 810, one end of the second transmission shaft 832 is connected with the magnetic drum 60, the first transmission shaft 831 is in transmission connection with the second transmission shaft 832, it should be noted that a first chain plate and a second chain plate are respectively and fixedly sleeved on the first transmission shaft 831 and the second transmission shaft 832, and the same chain is wound on the first chain plate and the second chain plate so as to achieve the transmission purpose, and in particular, the transmission structure between the first transmission shaft 831 and the second transmission shaft 832 is not limited to chain transmission, but also can be other transmission modes such as belt pulley transmission, etc. capable of enabling the first transmission shaft 831 to drive the second transmission shaft 832 to rotate.

Referring to fig. 1 and 3, the vibration cleaning mechanism 130 is installed at the top of the liquid receiving disc 10, the inlet end of the vibration cleaning mechanism 130 is located below the outlet end of the vibration feeding mechanism 50, the three-stage sedimentation circulation tank 140 is also installed at the top of the liquid receiving disc 10, the three-stage sedimentation circulation tank 140 is located below the water outlet of the vibration cleaning mechanism 130, specifically, after the abrasive filtering is completed, the workpiece is conveyed into the vibration cleaning mechanism 130 to clean the polished workpiece, the surface cleanliness of the workpiece is improved, and meanwhile, the cleaning water flows back into the three-stage sedimentation circulation tank 140 for repeated use.

The matched roller type magnetic sorting mechanism of the full-automatic polishing equipment works: placing the workpiece and the abrasive in the feeding hoppers 320 on two sides respectively, starting the hydraulic cylinder 330, enabling the two feeding hoppers 320 to turn upwards so as to enable the abrasive and the workpiece to be poured into the polishing machine 20 at the same time, resetting the two feeding hoppers 320, enabling the polishing machine 20 to work, enabling the hopper of the abrasive reflux vibration mechanism 110 to penetrate through the through hole 340 and enter the feeding hoppers 320, polishing the surface of the workpiece under the action of the abrasive, opening the discharge hole of the polishing machine 20 after polishing is finished, enabling the abrasive and the workpiece to be discharged into the buffer bucket mechanism 40, opening the discharge hole of the buffer bucket mechanism 40 after the buffer bucket mechanism 40 receives the workpiece and the abrasive, enabling the abrasive and the workpiece to enter the vibration feeding mechanism 50, driving the motor 810 to drive the first transmission shaft 831 to rotate, the second transmission shaft 832 drives the magnetic drum 60 to rotate, at this time, the magnetic drum 60 is electrified, the workpiece which moves in the vibration feeding mechanism 50 and is consistent with the abrasive in size can be adsorbed, the abrasive vibrates in the vibration feeding mechanism 50, so that the abrasive is discharged from the bottom of the workpiece to the abrasive backflow vibrating mechanism 110, the abrasive is further backflow to the upper hopper 320, then the magnetic drum 60 is lifted by the lifting mechanism 120, the existing collecting box is moved to the lower part of the magnetic drum 60, the magnetic drum 60 is demagnetized, the workpiece falls into the collecting box, the workpiece with larger size moves into the vibration cleaning mechanism 130, after cleaning is completed, the workpiece is discharged from the outlet of the vibration cleaning mechanism 130, and the collecting box can be placed at the outlet of the vibration cleaning mechanism 130 for collecting.

It should be noted that, specific model specifications of the abrasive material backflow vibration mechanism 110, the lifting mechanism 120, the vibration cleaning mechanism 130, the polishing machine 20, the buffer bucket mechanism 40, the vibration feeding mechanism 50, the magnetic roller 60 and the driving motor 810 need to be determined according to the actual specifications of the device, and the specific model selection calculation method adopts the prior art, so that detailed description thereof is omitted.

The power supply and the principle of the abrasive return vibration mechanism 110, the lifting mechanism 120, the vibration cleaning mechanism 130, the finisher 20, the buffer bucket mechanism 40, the vibration feeding mechanism 50, the magnet drum 60, and the driving motor 810 will be apparent to those skilled in the art, and will not be described in detail herein.

The above description is only an example of the present application and is not intended to limit the scope of the present application, and various modifications and variations will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the protection scope of the present application. It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

Claims (6)

1. Supporting drum-type magnetic separation mechanism of full-automatic polishing equipment, a serial communication port, connect liquid dish (10) including the bottom, connect liquid dish (10) top to install light decorator (20), feed mechanism (30) have all been placed to the both sides of light decorator (20), connect liquid dish (10) top to install discharge mechanism and elevating system (120), actuating mechanism (80) are installed at elevating system (120) top, actuating mechanism (80) output shaft has magnetic cylinder (60) that are used for absorbing the work piece, magnetic cylinder (60) are located the discharge mechanism top.

2. The drum-type magnetic sorting mechanism matched with the full-automatic polishing equipment according to claim 1, wherein a bearing plate (70) horizontally arranged is arranged at the top of an output shaft of the lifting mechanism (120), and the driving mechanism (80) is arranged on the bearing plate (70).

3. The drum-type magnetic sorting mechanism matched with the full-automatic polishing equipment according to claim 2, wherein the driving mechanism (80) comprises a driving motor (810) fixedly installed on the top of the bearing plate (70), and a transmission box (820) fixedly connected with the side wall of the bearing plate (70), two end side walls of the transmission box (820) are rotatably penetrated by the same transmission shaft mechanism (830), and one end of the magnetic drum (60) is connected with the transmission shaft mechanism (830).

4. A drum-type magnetic sorting mechanism for a full-automatic polishing apparatus according to claim 3, wherein the transmission shaft mechanism (830) comprises a first transmission shaft (831) and a second transmission shaft (832) which respectively rotate to penetrate through two end side walls of the transmission case (820), one end of the first transmission shaft (831) is connected with a driving shaft of the driving motor (810), one end of the second transmission shaft (832) is connected with the magnetic drum (60), and the first transmission shaft (831) is in transmission connection with the second transmission shaft (832).

5. The drum-type magnetic sorting mechanism for a full-automatic polishing apparatus according to any one of claims 1 to 4, wherein the feeding mechanism (30) comprises a bracket (310) fixedly installed at the top of the liquid receiving tray (10), and a feeding hopper (320) placed at the top of the liquid receiving tray (10), wherein the side wall of the feeding hopper (320) is hinged to the top of the bracket (310), and the same hydraulic cylinder (330) is hinged between the feeding hopper and the top of the liquid receiving tray (10).

6. The drum-type magnetic sorting mechanism matched with the full-automatic polishing equipment according to claim 1, wherein the discharging mechanism comprises a buffer bucket mechanism (40) and a vibration feeding mechanism (50) which are arranged at the top of the liquid receiving disc (10), the buffer bucket mechanism (40) is positioned below an outlet of the polishing machine (20), an inlet end of the vibration feeding mechanism (50) is positioned below an outlet end of the buffer bucket mechanism (40), and the magnetic drum (60) is positioned above the vibration feeding mechanism (50).