CN218594671U - Magnetic core bagging device - Google Patents

Abstract

The utility model provides a magnetic core sack filling device, is including taking driven horizontal belt feeder, has "splayed" discharge gate at the terminal middle part fixed mounting of horizontal belt feeder, has the frid through track slidable mounting in discharging channel's discharge port side, the frid is connected on sharp drive arrangement, the frid on the spaced apart a plurality of U-shaped grooves that are equipped with, opposite side fixed mounting at the frid has the frid, the frid on seted up a plurality of spouts, the frid is kept away from to the spout tail end department fixed mounting has the magnet locating plate, the fixed convex bottom surface that is provided with supports between the tail end of spout and the magnetism locating plate, the one end that supports in the bottom surface has the bagging-off pipe along length direction fixed mounting, supports the other end at the bottom surface of bagging-off pipe opposite side and installs the bagging-off cylinder, fixedly connected with pushing head has blevile of push on the jar pole of bagging-off cylinder at the side of frid. This sack filling device can raise the efficiency.

Description

Magnetic core bagging device

Technical Field

The utility model relates to a magnetic core production facility, in particular to magnetic core sack filling device in magnetic core production belongs to electromechanical device technical field.

Background

In the production of amorphous magnetic cores, the magnetic cores need to be installed in required quantity for packaging and bagging, most commonly 30 magnetic cores in each bag are produced in an industrial scale production mode, the gross profit rate of a single magnetic core is very low, and normal economic benefits can be obtained only by means of scale production.

Disclosure of Invention

An object of the utility model is to overcome the above-mentioned problem that exists in the bagging-off of present amorphous magnetic core, provide a magnetic core sack filling device.

In order to realize the purpose of the utility model, the following technical proposal is adopted: a magnetic core bagging device comprises a horizontal belt conveyor with a drive, wherein a splayed discharge port is fixedly arranged in the middle of the tail end of the horizontal belt conveyor, the narrowest part of the splayed discharge port can only pass through one magnetic core once, the splayed discharge port is connected with a vertical channel through an arc channel, a downward inclined discharge channel is connected behind the vertical channel, the cylindrical surface of the magnetic core rolls outwards from the port of the discharge channel and flows out, a groove plate is slidably arranged on the side surface of the discharge port of the discharge channel through a rail and is connected on a linear drive device, a plurality of U-shaped grooves are arranged on the groove plate at intervals, a sliding groove plate is fixedly arranged on the other side of the groove plate, a plurality of sliding grooves are arranged on the sliding groove plate, the number of the sliding grooves is approximately equal to that of the U-shaped grooves, and the bottom surfaces of the sliding grooves at the head end of the sliding groove plate are higher than the bottom surfaces of the U-shaped grooves, the tail end of the chute far away from the chute plate is fixedly provided with a magnet positioning plate, the head end of the chute plate is high, the tail end of the chute plate is low, the distance between the magnetic positioning plate and the tail end of the chute is larger than or equal to the diameter of a magnetic core, a circular arc-shaped bottom surface support is fixedly arranged between the tail end of the chute and the magnetic positioning plate, one end of the bottom surface support is fixedly provided with a bagging pipe along the length direction, the lower part of the bagging pipe coincides with the circular arc-shaped bottom surface support, the other end of the bottom surface support at the opposite side of the bagging pipe is provided with a bagging cylinder, a cylinder rod of the bagging cylinder is concentric with the bagging pipe, a material pushing head is fixedly connected onto the cylinder rod of the bagging cylinder, a material pushing device is arranged on the side face of the chute plate and comprises a material pushing cylinder, a comb-shaped material pushing plate is fixedly arranged on the cylinder rod of the material pushing cylinder, and the linear driving device is connected to the controller.

Further, the method comprises the following steps of; the thickness of the partition board between two adjacent U-shaped grooves is less than or equal to 2mm.

The utility model discloses an actively beneficial technological effect lies in: this sack filling device can replace the manual work to realize semi-automatic bagging-off, only need the manual work to the bagging-off pipe on sheathe in the wrapping bag can, can effectual raise the efficiency, reduce the cost of labor.

Drawings

Fig. 1 is an overall schematic view of the present invention.

Fig. 2 is one of the partial enlarged views of the present invention.

Fig. 3 is a second partial enlarged view of the present invention.

Fig. 4 is a schematic view of the bottom support of the rear end of the present chute.

Detailed Description

In order to explain the utility model more fully, the utility model provides an implementation example. These examples are merely illustrative of the present invention and do not limit the scope of the present invention.

The invention is explained in further detail with reference to the drawings, in which the reference symbols are: 1: a horizontal belt conveyor; 2: a discharge port shaped like Chinese character 'ba'; 3: an arc-shaped channel; 4: a discharge channel; 5: a frame; 6: a groove plate; 601: a U-shaped groove; 7: a feeding cylinder; 8: a chute plate; 801: a chute; 9: a material pushing plate; 10: a material pushing cylinder; 11: bagging the pipe; 12: a bagging cylinder; 13: a magnetic positioning plate; 14: a bottom support; 15: a vertical channel.

As shown in the attached drawing, the magnetic core bagging device comprises a rack 5 and a horizontal belt conveyor 1 with a drive, wherein a splayed discharge port 2 is fixedly installed in the middle of the tail end of the horizontal belt conveyor, the narrowest part of the splayed discharge port can only pass through one magnetic core once, the splayed discharge port is connected with a vertical channel 15 through an arc-shaped channel 3, a downward inclined discharge channel 4 is connected behind the vertical channel, a cylindrical surface of the magnetic core outwards rolls and flows out from a port of the discharge channel, a groove plate 6 is installed on the side surface of the discharge port of the discharge channel through a rail in a sliding mode, the side surface of the discharge port of the discharge channel is straight to the flowing side of the magnetic core after coming out from the discharge port, the groove plate 5 is connected in a charging cylinder mode, a plurality of U-shaped grooves are formed in the groove plate at intervals, the thickness of a partition plate between two adjacent U-shaped grooves is smaller than or equal to 2mm, and therefore, the phenomenon that the side turning over occurs when the distance between the magnetic cores is too large to affect bagging can be prevented. There is chute board 8 at the opposite side fixed mounting of frid, the chute board on seted up a plurality of spouts 801, the quantity of spout approximately equals the quantity of U-shaped groove, the spout bottom surface of chute board head end is higher than the bottom surface of U-shaped groove, the magnetic core can not get into the spout automatically at the in-process that the frid was marchd along the track like this, the spout is kept away from the tail end department fixed mounting of frid and is had magnet locating plate 13, the effect of magnetism locating plate prevents that the magnetic core from getting into the bottom surface and supporting the back and toppling over, because there is certain suction force between magnetism locating plate and the magnetic core, make the magnetic core can not topple over, this kind of suction force need not be too big, the magnetism locating plate is very good to the lighter magnetic core location effect of weight, it is difficult to topple over itself for the magnetic core that weight is big.

The magnetic packaging bag comprises a chute plate, a magnetic positioning plate 13, a bagging pipe 11, a pushing device and a linear driving device, wherein the head end of the chute plate is high, the tail end of the chute plate is at the bottom, the distance between the magnetic positioning plate 13 and the tail end of the chute 801 is larger than or equal to the diameter of a magnetic core, a circular arc-shaped bottom surface support 14 is fixedly arranged between the tail end of the chute plate and the magnetic positioning plate, the length direction of one end of the bottom surface support is fixedly provided with the bagging pipe 11, the lower part of the bagging pipe is overlapped with the circular arc-shaped bottom surface support, the other end of the bottom surface support at the opposite side of the bagging pipe is provided with a bagging cylinder 12, the cylinder rod of the bagging cylinder is concentric with the bagging pipe, the cylinder rod of the bagging cylinder is fixedly connected with a pushing head, the side surface of the chute plate is provided with the pushing device, the pushing device comprises a pushing cylinder 10, the comb-shaped pushing plate 9 is fixedly arranged on the cylinder rod of the pushing cylinder 10, the U-shaped groove of the chute plate corresponds to the chute, and the comb-shaped pushing plate corresponds to the U-shaped groove, and the linear driving device is connected to the controller.

The working process of the equipment is as follows: firstly, manually sleeving a packaging bag on a bagging pipe, putting magnetic cores on a horizontal conveying belt in batches, flatly paving the magnetic cores on the horizontal conveying belt in the conveying process, sequentially arranging the magnetic cores through an outlet after the magnetic cores pass through a splayed discharge port to enter an arc-shaped channel, a vertical channel and a discharge channel, driving a groove plate to move by a feeding cylinder, blocking the magnetic cores by the groove plate when the magnetic cores do not correspond to a U-shaped groove, sequentially corresponding the magnetic cores to the corresponding U-shaped groove in the moving process, flowing into the U-shaped groove under the action of gravity, retaining the magnetic cores in the U-shaped groove because the bottom surface of a sliding groove at the head end of the sliding groove is higher than the bottom surface of the U-shaped groove, loading the magnetic cores in the U-shaped groove and corresponding to the sliding groove one by one after the air cylinders drive the groove plate to the stroke end, pushing the material cylinders act, pushing the comb-shaped pushing plate pushes the magnetic cores to enter the sliding grooves, each magnetic core to roll to the tail end of the sliding groove plate under the action of gravity, and arrange the magnetic cores in a row along the movement of the feeding cylinder, pushing material cylinder to push the magnetic cores to move towards the bagging pipe, and enter the packaging bag after the bagging pipe, and the packaging bag, and the bag, wherein the magnetic cores are not reset part of the positioning plate, and the positioning plate can not affect the situation that the magnetic cores can be reset of the positioning plate.

After the embodiments of the present invention have been described in detail, those skilled in the art can clearly understand that various changes and modifications can be made without departing from the scope and spirit of the above claims, and any simple modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention all fall within the scope of the technical solution of the present invention, and the present invention is not limited to the embodiments of the examples given in the specification.

Claims (2)

1. The utility model provides a magnetic core sack filling device, includes the driven horizontal belt feeder of area, its characterized in that: the device comprises a horizontal belt conveyor, a splayed discharge port is fixedly installed in the middle of the tail end of the horizontal belt conveyor, the narrowest part of the splayed discharge port can only pass through one magnetic core once, the splayed discharge port is connected with a vertical channel through an arc-shaped channel, a downward oblique discharge channel is connected behind the vertical channel, the cylindrical surface of the magnetic core rolls outwards from the port of the discharge channel, a groove plate is installed on the side surface of the discharge port of the discharge channel through a rail in a sliding manner, the groove plate is connected to a linear driving device, a plurality of U-shaped grooves are formed in the groove plate at intervals, a sliding groove plate is fixedly installed on the other side of the groove plate, a plurality of sliding grooves are formed in the sliding groove plate, the number of the sliding grooves is approximately equal to the number of the U-shaped grooves, the bottom surface of the sliding groove at the head end of the sliding groove plate is higher than the bottom surface of the U-shaped grooves, a magnet positioning plate is fixedly installed at the tail end of the sliding groove plate, the head end of the sliding groove plate is high and the tail end of the magnetic groove plate, a circular arc-shaped bottom surface support is fixedly provided with a circular-shaped bottom surface support, a comb-shaped cylinder-shaped push cylinder control rod is installed on the side surface of a push cylinder, and a cylinder control cylinder for bagging device is connected to the side surface of the cylinder for bagging.

2. A magnetic core bagging apparatus according to claim 1, wherein: the thickness of the partition board between two adjacent U-shaped grooves is less than or equal to 2mm.

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