CN217348441U

CN217348441U - Magnet equipment for packing

Info

Publication number: CN217348441U
Application number: CN202123292147.7U
Authority: CN
Inventors: 黄臻杰
Original assignee: Ningbo Yongshengcheng Magnetic Industry Technology Co ltd
Current assignee: Ningbo Yongshengcheng Magnetic Industry Technology Co ltd
Priority date: 2021-12-25
Filing date: 2021-12-25
Publication date: 2022-09-02
Anticipated expiration: 2031-12-25

Abstract

The utility model relates to a magnet packaging device, including moving the chassis and locating on moving the chassis and mutually supporting loading assembly and pay-off subassembly, the pay-off subassembly includes transmission device and locates the pushing mechanism on the transmission device, transmission device includes two horizontal curb girders of locating above moving the chassis and front and back symmetric distribution, a plurality of vertical first stand fixed between two curb girders and moving the chassis, two rotatable transmission rollers fixed between two curb girders, fix the first motor outside one of them curb girder, the cover is established on two transmission rollers and between the conveyer belt of two curb girders, and two support plates fixed in proper order outside the upper portion of conveyer belt; the utility model discloses can once only pack into the packing carton with replacing artifical manually operation with a plurality of magnet post automation to effectively reduce intensity of labour and improved work efficiency, also reduced the human cost simultaneously.

Description

Magnet equipment for packing

Technical Field

The utility model relates to a magnet equipment for packing.

Background

The existence of the magnet can be found anytime and anywhere in daily life of people, and the magnet is widely applied to various fields, so that the magnet is rarely used due to the fact that the total amount of natural magnets is small and the processing is difficult; the prior magnets are almost all artificial magnets, and the artificial magnets not only have more raw material sources and easy processing, but also can be cut into blocks, sheets, columns and the like according to requirements; in order to enable the processed magnet to be properly stored and transported, the magnet needs to be packaged, the conventional magnet needs to be manually operated during packaging, the labor intensity is high, the working efficiency is low, the labor cost is high, and further improvement is needed.

SUMMERY OF THE UTILITY MODEL

To the current situation of above-mentioned prior art, the utility model aims to solve the technical problem that a magnet equipment for packing who has effectively reduced intensity of labour and improved work efficiency, also reduced the human cost simultaneously is provided.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: a magnet packaging device is characterized by comprising a movable bottom frame, a loading component and a feeding component which are arranged on the movable bottom frame and are matched with each other, the feeding assembly comprises a transmission mechanism and a pushing mechanism arranged on the transmission mechanism, the transmission mechanism comprises two side beams which are transversely arranged above the movable underframe and are symmetrically distributed in the front and back direction, a plurality of first upright posts which are vertically fixed between the two side beams and the movable underframe, two transmission rollers which are rotatably fixed between the two side beams, a first motor fixed outside one of the side beams, a conveyor belt which is sleeved on the two transmission rollers and is arranged between the two side beams, and two carrier plates which are sequentially fixed outside the upper part of the conveyor belt, a rotating shaft of the first motor penetrates through one corresponding side beam and is concentrically fixed at one end of one of the transmission rollers, and the top of each carrier plate is provided with a plurality of limiting grooves which are sequentially distributed from left to right; the pushing mechanism comprises a bracket, an air cylinder, a connecting strip and a pushing strip, the air cylinder is fixed on the front sides of the two side beams through the bracket, the telescopic end of the air cylinder is transversely arranged backwards, and the pushing strip is transversely fixed on the telescopic end of the air cylinder through the connecting strip and is positioned on the front sides of the two carrier plates; the bottom of the push strip is higher than the top of the carrier plate; the loading assembly comprises two second stand columns vertically fixed at the top of the movable underframe, a short beam fixed between the end parts of the two second stand columns, two guide rails vertically fixed on the front sides of the two second stand columns respectively, a back plate vertically arranged on the front sides of the two guide rails, an internal thread block fixed on the back side of the back plate, a lead screw vertically threaded in the internal thread block and between the two guide rails, a second motor fixed between the roots of the two second stand columns, and a plurality of detachable packaging boxes fixed on the front sides of the back plate and vertically overlapped; a plurality of the packing carton all is located two curb girder rear and all mutually supports, every with pushing mechanism's position still all overlap on the guide rail and be equipped with a plurality of slider, every the rear side at the backplate is all fixed to the slider, the equal rotatable fixing in two second stands in both ends of lead screw, the lower extreme at the lead screw is fixed to the vertical upwards setting of axis of rotation of second motor, every a plurality of from the last accent unit that down distributes in proper order, every is seted up all to the front side of packing carton accent hole unit includes a plurality of accent holes that turn right from a left side and distribute in proper order, in every accent hole unit the quantity in accent hole is the same with the quantity of spacing groove on every support plate.

Preferably, a circumferential chamfer edge is formed at the edge of the opening at the front end of each cavity hole.

Preferably, an end plate is fixed on each of the upper and lower sides of the back plate, and the two end plates are respectively pressed on the top of the uppermost packing box and the bottom of the lowermost packing box.

Preferably, the end portions of the two end plates are fixed with a baffle plate, and the rear sides of the end portions of the two baffle plates are respectively attached to the upper edge of the front side of the uppermost packing box and the lower edge of the front side of the lowermost packing box.

Preferably, two guide plates are further arranged between the two side beams, the two guide plates are fixed on the inner side of the upper portion of the conveyor belt and are respectively arranged below the two carrier plates, and the outer walls of the front side and the outer walls of the rear side of each guide plate are respectively attached to the inner walls of the two side beams.

Preferably, the front side of backplate still is equipped with a plurality of stop gear that down distribute in proper order from last, stop gear includes the stopper and a plurality of spliced pole of fixing at the stopper rear side, every the front side at the backplate is all fixed to the tip of spliced pole, every the rear side at a corresponding packing carton is all laminated to the front side of stopper.

Compared with the prior art, the utility model has the advantages of: the utility model discloses can once only pack into the packing carton with replacing artifical manually operation with a plurality of magnet post automation to effectively reduce intensity of labour and improved work efficiency, also reduced the human cost simultaneously.

Drawings

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

fig. 2 is a left rear structure view of the present invention.

Detailed Description

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by those of ordinary skill in the art to which the invention belongs. The use of "first," "second," and the like in the description of the invention does not denote any order, quantity, or importance, but rather the terms "first," "second," and the like are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item preceding the word comprises the element or item listed after the word and its equivalent, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

To maintain the following description of the embodiments of the present invention clear and concise, detailed descriptions of well-known functions and components may be omitted.

As shown in fig. 1-2, a magnet packaging device comprises a movable chassis 1, and a loading assembly 2 and a feeding assembly 3 which are arranged on the movable chassis 1 and are matched with each other, wherein the feeding assembly 3 comprises a transmission mechanism and a pushing mechanism arranged on the transmission mechanism, the transmission mechanism comprises two side beams 31 which are transversely arranged above the movable chassis 1 and are symmetrically distributed in front and back, a plurality of first upright posts 32 which are vertically fixed between the two side beams 31 and the movable chassis 1, two transmission rollers 34 which are rotatably fixed between the two side beams 31, a first motor 33 which is fixed outside one of the side beams 31, a conveyor belt 35 which is sleeved on the two transmission rollers 34 and is arranged between the two side beams 31, and two carrier plates 36 which are sequentially fixed on the outer sides of the upper parts of the conveyor belts 35, the rotating shaft of the first motor 33 penetrates through the corresponding one side beam 3 and is concentrically fixed at one end of one of the transmission rollers 34, the top of each carrier plate 36 is provided with a plurality of limiting grooves 361 which are distributed from left to right in sequence; the pushing mechanism comprises a bracket 37, a cylinder 38, a connecting strip 39 and a pushing strip 310, wherein the cylinder 38 is fixed on the front sides of the two side beams 31 through the bracket 37, the telescopic end of the cylinder 38 is transversely arranged backwards, and the pushing strip 310 is transversely fixed on the telescopic end of the cylinder 38 through the connecting strip 39 and is positioned on the front sides of the two carrier plates 36; the bottom of the push bar 310 is higher than the top of the carrier plate 36; the loading assembly 2 comprises two second upright posts 21 vertically fixed at the top of the movable underframe 1, a short beam 22 fixed between the end parts of the two second upright posts 21, two guide rails 24 respectively vertically fixed at the front sides of the two second upright posts 21, a back plate 26 vertically arranged at the front sides of the two guide rails 24, an internal thread block 29 fixed at the rear side of the back plate 26, a screw rod 28 vertically threaded in the internal thread block 29 and between the two guide rails 24, a second motor 23 fixed between the roots of the two second upright posts 21, and a plurality of packing boxes 212 detachably fixed at the front side of the back plate 26 and vertically overlapped; a plurality of packing carton 212 all is located two curb girder 31 backs and all mutually supports with pushing mechanism's position, still all overlap on every guide rail 24 and be equipped with a plurality of slider 25, every slider 25 all fixes the rear side at backplate 26, the equal rotatable fixing in two second stands 21 in both ends of lead screw 28, the lower extreme at lead screw 28 is upwards set up and fixed in the vertical axis of rotation of second motor 23, a plurality of from last hole unit that down distributes in proper order has all been seted up to the front side of every packing carton 212, every hole unit includes a plurality of from a left side to the right hole 2121 that distributes in proper order, the quantity of the hole 2121 in every hole unit is the same with the quantity of spacing groove 361 on every carrier plate 36.

An annular chamfered edge 2122 is formed at an edge of the opening at the front end of each cavity 2121.

An end plate 210 is fixed on both upper and lower sides of the back plate 26, and the two end plates 210 are respectively pressed against the top of the uppermost packing box 212 and the bottom of the lowermost packing box 212.

A baffle 211 is fixed to each end of the two end plates 210, and rear sides of the ends of the two baffle 211 are respectively attached to an upper front edge of an uppermost packing box 212 and a lower front edge of a lowermost packing box 212.

Two guide plates 311 are further arranged between the two side beams 31, the two guide plates 311 are both fixed on the inner side of the upper part of the conveyor belt 35 and are respectively arranged below the two carrier plates 36, and the outer walls of the front side and the rear side of each guide plate 311 are respectively attached to the inner walls of the two side beams 31.

The front side of backplate 26 still is equipped with a plurality of stop gear that down distribute in proper order from last, and stop gear includes stopper 214 and a plurality of spliced pole 215 of fixing at stopper 214 rear side, and the front side at backplate 26 is all fixed to the tip of every spliced pole 215, and the front side of every stopper 214 all laminates the rear side at a packing carton 212 that corresponds.

A diagonal bracing tube 213 is also fixed between the two second uprights 21 and the moving chassis 1.

The working principle is as follows:

the first motor 33 is activated to rotate its rotation shaft, and the other transfer roller 34 is rotated by one of the transfer rollers 34 and the transfer belt 35 to perform the leftward movement of the transfer belt 35, when the left one of the carrier plates 36 is moved to the left of the plurality of packing boxes 212, the first motor 33 is deactivated, then one of the magnet columns 4 is laterally inserted into each of the retaining grooves 361 of the left one of the carrier plates 36 and the first motor 33 is driven to rotate in reverse to move the plurality of magnet columns 4 of the left one of the carrier plates 36 rightward in a similar manner, until the left one of the carrier plates 36 is moved to the front of one of the packing boxes 212 and the rear ends of the plurality of magnet columns 4 are aligned with the front openings of the plurality of cavity holes 2121 in one of the cavity hole units, and then the telescopic end of the driving cylinder 38 is extended outward to move the push bar 310 rearward by the connecting bar 39, since the top of each of the magnet columns 4 is a distance higher than the top of the carrier plate 36, therefore, when the push bar 310 moves backward, the push bar pushes the front ends of the magnet columns 4 to move backward so that the rear ends of the magnet columns 4 are respectively inserted into the cavity holes 2121 until each magnet column 4 is completely inserted into a corresponding cavity hole 2121, and the annular chamfered edge 2122 is provided to facilitate the insertion of the rear end of the magnet column 4, and the telescopic end of the driving cylinder 38 contracts inward to drive the push bar 310 to reset after the insertion.

In the process of pushing the plurality of magnet columns 4, the right-side carrier plate 36 is moved to the right side of the plurality of packing boxes 212, and then one magnet column 4 can be horizontally placed in each limiting groove 361 on the right-side carrier plate 36 for fully utilizing the time, after the plurality of magnet columns 4 on the left-side carrier plate 36 are inserted into the plurality of cavities 2121, the first motor 33 is driven to rotate forward to drive the two carrier plates 36 to move leftward in the same manner until the plurality of magnet columns 4 on the right-side carrier plate 36 move to the front side of the same packing box 212, in this process, the second motor 23 needs to be started to rotate the rotating shaft thereof, so as to drive the screw 28 to rotate in the internal thread block 29, so as to drive the back plate 26 to move upward for a certain distance according to the principle of threaded connection, further raise a cavity unit below for a certain distance, so as to respectively move the plurality of magnet columns 2121 in the cavity unit to the rear of the plurality of magnet columns 4, the telescopic end of the re-driving cylinder 38 extends outwards to insert the magnet posts 4 on the right one of the carrier plates 36 into the cavity holes 2121 in the same way; in the above process, the carrier plate 36 on the left side moves to the left side of the plurality of packing boxes 212 again, and then a magnet column 4 is continuously placed in each of the limiting grooves 361 on the carrier plate 36 on the left side, thereby forming a cycle.

When the back plate 26 moves, each sliding block 25 slides along a corresponding guide rail 24 to ensure the smoothness of the movement of the back plate 26; after each of the packing boxes 212 is filled with the magnet column 4, the front side of the packing box 212 is covered with a matching cover plate to prevent the magnet column 4 from falling off, then a plurality of packing boxes 212 are pushed to the left or right to move synchronously until the two end plates 210 are separated, and an empty and corresponding number of packing boxes 212 are fixed again between the two end plates 210 to continue to accommodate the magnet column 4 according to the same; the two shutters 211 prevent the plurality of packing boxes 212 from moving forward, and the plurality of stopper mechanisms prevent the plurality of packing boxes 212 from moving backward.

The utility model discloses can once only pack into packing carton 212 with a plurality of magnet posts 4 automation in order to replace artifical manually operation to effectively reduce intensity of labour and improved work efficiency, also reduced the human cost simultaneously.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that various changes in the embodiments and modifications thereof may be made, and equivalents may be substituted for elements thereof; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims

1. A magnet packaging device is characterized by comprising a movable bottom frame, a loading component and a feeding component which are arranged on the movable bottom frame and are matched with each other, the feeding assembly comprises a transmission mechanism and a pushing mechanism arranged on the transmission mechanism, the transmission mechanism comprises two side beams which are transversely arranged above the movable underframe and are symmetrically distributed in the front and back direction, a plurality of first upright posts which are vertically fixed between the two side beams and the movable underframe, two transmission rollers which are rotatably fixed between the two side beams, a first motor fixed outside one of the side beams, a conveyor belt sleeved on the two transmission rollers and between the two side beams, and two carrier plates which are sequentially fixed outside the upper part of the conveyor belt, a rotating shaft of the first motor penetrates through one corresponding side beam and is concentrically fixed at one end of one of the transmission rollers, and the top of each carrier plate is provided with a plurality of limiting grooves which are sequentially distributed from left to right; the pushing mechanism comprises a bracket, an air cylinder, a connecting strip and a pushing strip, the air cylinder is fixed on the front sides of the two side beams through the bracket, the telescopic end of the air cylinder is transversely arranged backwards, and the pushing strip is transversely fixed on the telescopic end of the air cylinder through the connecting strip and is positioned on the front sides of the two carrier plates; the bottom of the push strip is higher than the top of the carrier plate; the loading assembly comprises two second stand columns vertically fixed at the top of the movable underframe, a short beam fixed between the end parts of the two second stand columns, two guide rails vertically fixed on the front sides of the two second stand columns respectively, a back plate vertically arranged on the front sides of the two guide rails, an internal thread block fixed on the back side of the back plate, a lead screw vertically threaded in the internal thread block and between the two guide rails, a second motor fixed between the roots of the two second stand columns, and a plurality of detachable packaging boxes fixed on the front sides of the back plate and vertically overlapped; a plurality of the packing carton all is located two curb girder rear and all mutually supports, every with pushing mechanism's position still all the cover is equipped with a plurality of slider on the guide rail, every the rear side at the backplate is all fixed to the slider, the equal rotatable fixing in two second stands in both ends of lead screw, the lower extreme at the lead screw is fixed to the vertical upwards setting of axis of rotation of second motor, every a plurality of from the cavity hole unit that down distributes in proper order, every from last cavity hole unit that down distributes in proper order is all seted up to the front side of packing carton the cavity hole unit includes a plurality of from a left side to the right cavity hole that distributes in proper order, in every cavity hole unit the quantity of cavity hole is the same with the quantity of spacing groove on every support plate.

2. A magnet packing apparatus as claimed in claim 1, wherein a circumferential chamfered edge is formed at an edge of the opening at the front end of each bore.

3. A magnet packing apparatus as claimed in claim 1, wherein an end plate is fixed to each of upper and lower sides of the back plate, and the two end plates are respectively pressed against the top of the uppermost packing box and the bottom of the lowermost packing box.

4. A magnet packing apparatus as claimed in claim 3, wherein a blocking plate is fixed to each of the end portions of the two end plates, and rear sides of the end portions of the two blocking plates are respectively fitted to an upper front side edge of an uppermost packing box and a lower front side edge of a lowermost packing box.

5. A magnet packing apparatus as claimed in claim 1, wherein two guide plates are provided between the two side beams, both of the guide plates are fixed to the inner side of the upper part of the conveyor belt and are respectively provided below the two carrier plates, and the outer walls of the front and rear sides of each guide plate are respectively attached to the inner walls of the two side beams.

6. A magnet packaging device according to claim 1, wherein the front side of the back plate is further provided with a plurality of limiting mechanisms which are sequentially distributed from top to bottom, each limiting mechanism comprises a limiting block and a plurality of connecting columns fixed to the rear side of the limiting block, the end portion of each connecting column is fixed to the front side of the back plate, and the front side of each limiting block is attached to the rear side of a corresponding packaging box.