CN209793151U

CN209793151U - Porous magnet processing mechanism

Info

Publication number: CN209793151U
Application number: CN201920300511.3U
Authority: CN
Inventors: 陈亮
Original assignee: Dongguan Jin Kunxin Materials Ltd By Share Ltd
Current assignee: Dongguan Jin Kunxin Materials Ltd By Share Ltd
Priority date: 2019-03-08
Filing date: 2019-03-08
Publication date: 2019-12-17
Anticipated expiration: 2029-03-08

Abstract

The utility model relates to a magnet processing technology field especially discloses a porous magnet processing agency, including the support body, slide and set up in the tool board of support body, set up in the support body and be used for guiding the gliding locating part of tool board, activity set up in the card of locating part and hold the piece, the tool board is equipped with a plurality of holding holes and a plurality of tooth; when the magnetic conduction piece positioning device is used, the magnetic conduction pieces are placed into the accommodating holes one by one, then the clamping pieces are extended into the space between two adjacent teeth to position the limiting piece on the frame body, and then the drilling device is matched to drill different parts of the magnetic conduction pieces in the accommodating holes respectively; after the magnetic conduction piece in one accommodating hole is drilled, releasing the clamping piece, moving the jig plate together with the magnetic conduction piece for a preset distance, and then drilling the magnetic conduction piece in the next accommodating hole by matching with a drilling device; need not the manual one by one of operation personnel and drills to magnetic conduction spare, promote magnetic conduction spare's drilling efficiency.

Description

Porous magnet processing mechanism

Technical Field

The utility model relates to a magnet processing technology field especially discloses a porous magnet processing agency.

Background

The magnet is one of the common accessories of various devices, and in the manufacturing process of the magnet, a magnetic conducting material is firstly made into a magnetic conducting blank, and then the magnetic conducting blank is magnetized by a magnetizing device to form the magnet. In the use of magnet, need drill hole on magnet sometimes, need the operating personnel to drill hole to magnet one by one among the prior art, the inefficiency of drilling can not satisfy the demand of actual production.

SUMMERY OF THE UTILITY MODEL

In order to overcome the shortcoming and the deficiency that exist among the prior art, the utility model aims to provide a porous magnet processing agency need not the manual one by one of operation personnel and drills to the magnetic conduction piece, promotes the drilling efficiency of magnetic conduction piece.

in order to realize the above-mentioned purpose, the utility model discloses a porous magnet processing agency, comprising a frame body, slide and set up in the tool board of support body, set up in the support body and be used for guiding the gliding locating part of tool board, the activity sets up in the card of locating part and holds the piece, the tool board is equipped with a plurality of holding holes and a plurality of tooth, a plurality of holding hole collineation sets up, a plurality of tooth collineation sets up, line and a plurality of tooth between the holding hole between a plurality of holding holes between the parallel arrangement of line, the holding hole is used for holding and establishes external magnetic conduction spare, the card is held the piece and is used for stretching into between two adjacent tooth in order to fix a position the locating part on the support body, external drilling equipment is held the card and is held the different positions of the downthehole magnetic conduction spare of holding of.

Preferably, the retaining member is rotatably disposed on the limiting member or/and the frame body, the limiting member or/and the frame body is provided with an elastic member, and the elastic member is used for driving the retaining member to protrude into between two adjacent teeth so as to position the limiting member on the frame body.

Preferably, the porous magnet machining mechanism further comprises an electric cylinder or an air cylinder, a cylinder body of the electric cylinder or the air cylinder is rotatably arranged with the frame body, a piston rod of the electric cylinder or the piston rod of the air cylinder is rotatably arranged with the clamping member, and the electric cylinder or the air cylinder is used for driving the clamping member to rotate relative to the limiting member.

Preferably, the support body rotates and is provided with a ball screw, the support body is provided with a stepping motor used for driving the ball screw to rotate, and a screw nut connected with the jig plate is sleeved on the outer side of the ball screw.

Preferably, the frame body is provided with a guide groove, the ball screw and the jig plate are respectively positioned at two sides of the guide groove, the screw nut penetrates through the guide groove and is connected with the jig plate, and the side wall of the guide groove is used for stopping the limiting screw nut.

Preferably, the limiting part is provided with a plurality of round balls, the round balls are arranged in a collinear manner, a connecting line between the round balls and a connecting line between the containing holes are arranged in parallel, the round balls are arranged on the limiting part in a rolling manner, and the round balls protrude out of the limiting part and are used for abutting against the jig plate.

Preferably, the containing hole is elliptical, the long axis of the containing hole is 4-6mm, and the short axis of the containing hole is 2-4 mm.

preferably, the magnetic conducting piece is oval, the magnetic conducting piece is rotated by the drilling device and then magnetized by the external magnetizing device to form the magnet, the magnet is provided with a central hole and two side holes, the central hole is located at the intersection of the long axis and the short axis of the magnetic conducting piece, the two side holes are both located on the long axis of the magnetic conducting piece, and the two side holes are symmetrically arranged around the central hole.

Preferably, the central hole and the side holes are both circular, the aperture of the central hole is 1mm, and the aperture of the side hole is 0.8 mm.

The utility model has the advantages that: when the magnetic conduction piece positioning device is used, the magnetic conduction pieces are placed into the accommodating holes one by one, then the clamping pieces are extended into the space between two adjacent teeth to position the limiting piece on the frame body, and then the drilling device is matched to drill different parts of the magnetic conduction pieces in the accommodating holes respectively; after the magnetic conduction piece in one accommodating hole is drilled, releasing the clamping piece, moving the jig plate together with the magnetic conduction piece for a preset distance, and then drilling the magnetic conduction piece in the next accommodating hole by matching with a drilling device; need not the manual one by one of operation personnel and drills to magnetic conduction spare, promote magnetic conduction spare's drilling efficiency.

Drawings

Fig. 1 is a schematic structural view of the present invention;

Fig. 2 is a schematic structural view of a jig plate of the present invention;

Fig. 3 is a schematic structural view of a first embodiment of the magnet of the present invention;

Fig. 4 is a schematic structural diagram of a second embodiment of the magnet according to the present invention.

the reference numerals include:

1-frame body 2-jig plate 3-locating piece

4-clamping piece 5-containing hole 6-tooth

7-elastic piece 8-electric cylinder, cylinder 9-ball screw

11-stepping motor 12-screw nut 13-ball

14-magnetic conductive member 15-central hole 16-side hole.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and accompanying drawings, which are not intended to limit the present invention.

Referring to fig. 1 to 4, a porous magnet processing mechanism of the present invention includes a frame body 1, a jig plate 2 slidably disposed on the frame body 1, a limiting member 3 disposed on the frame body 1 and used for guiding the jig plate 2 to slide relative to the frame body 1, and a clamping member 4 movably disposed on the limiting member 3, wherein when in actual use, the jig plate 2 is attached to the limiting member 3 to slide, and the limiting member 3 is used for guiding and limiting the sliding direction of the jig plate 2, so as to ensure that the jig plate 2 slides along an accurate direction; the jig plate 2 is provided with a plurality of accommodating holes 5 and a plurality of teeth 6, the accommodating holes 5 are arranged in a collinear manner, the teeth 6 are arranged in a collinear manner, connecting lines among the accommodating holes 5 are arranged in parallel with connecting lines among the teeth 6, the accommodating holes 5 are used for accommodating external magnetic conduction members 14, the clamping members 4 are used for protruding into the space between two adjacent teeth 6 to position the limiting members 3 on the frame body 1, and different parts of the magnetic conduction members 14 in the accommodating holes 5 of the jig plate 2 clamped by the clamping members 4 are respectively drilled by an external drilling device, so that a plurality of concave holes are drilled on the magnetic conduction members 14.

When the device is used, the plurality of magnetic conduction members 14 are placed into the containing hole 5 one by one, then the clamping members 4 are extended into the space between two adjacent teeth 6 to position the limiting member 3 on the frame body 1, and then the drilling device is matched to drill different parts of the magnetic conduction members 14 in the containing hole 5 respectively; after the magnetic conduction member 14 in one accommodating hole 5 completes drilling, the clamping member 4 is released, the jig plate 2 together with the magnetic conduction member 14 moves for a predetermined distance (for example, the distance between two adjacent accommodating holes 5), and then the drilling device is matched to drill the magnetic conduction member 14 in the next accommodating hole 5; the operator is not required to manually drill the magnetic conduction pieces 14 one by one, and the drilling efficiency of the magnetic conduction pieces 14 is improved.

The clamping piece 4 is rotatably arranged on the limiting piece 3 or/and the rack body 1, the limiting piece 3 or/and the rack body 1 is/are provided with an elastic piece 7, and the elastic piece 7 is used for driving the clamping piece 4 to protrude into the space between two adjacent teeth 6 so as to position the limiting piece 3 on the rack body 1. Preferably, the elastic member 7 is a spring. In the using process of the clamping piece 4, after the clamping piece 4 is released, the elastic piece 7 can make the clamping piece 4 protrude into the space between two adjacent teeth 6 under the action of the elastic force, so that the jig plate 2 is ensured to be in a 'normal limiting' state, and the jig plate 2 is prevented from being subjected to position change caused by inadvertent touch.

The porous magnet machining mechanism further comprises an electric cylinder 8 or an air cylinder 8, a cylinder body of the electric cylinder 8 or a cylinder body of the air cylinder 8 is rotatably arranged with the frame body 1, a piston rod of the electric cylinder 8 or a piston rod of the air cylinder 8 is rotatably arranged with the clamping piece 4, and the electric cylinder 8 or the air cylinder 8 is used for driving the clamping piece 4 to rotate relative to the limiting piece 3. After the drilling device completes drilling on the magnetic conduction member 14 in one accommodating hole 5, the electric cylinder 8 or the air cylinder 8 drives the clamping member 4 to rotate relative to the limiting member 3, so that the clamping member 4 is withdrawn from two adjacent teeth 6, then the jig plate 2 with the magnetic conduction member 14 moves forward by the distance between the two accommodating holes 5, and the electric cylinder 8 or the air cylinder 8 (with the elastic restoring force of the elastic member 7) drives the clamping member 4 to protrude into the space between the two teeth 6, so that the jig plate 2 is positioned on the rack body 1 again, and the drilling device is ready for drilling the magnetic conduction member 14 in the next accommodating hole 5.

The support body 1 rotates and is provided with a ball screw 9, the support body 1 is provided with a stepping motor 11 used for driving the ball screw 9 to rotate, and a screw nut 12 connected with the jig plate 2 is sleeved on the outer side of the ball screw 9. When the jig plate 2 is required to move, the stepping motor 11 drives the ball screw 9 to rotate, so that the screw nut 12 moves along the ball screw 9, the jig plate 2 slides along the frame body 1 when the screw nut 12 moves along the ball screw 9, and the stepping motor 11 is utilized to accurately control the moving distance of the jig plate 2.

The frame body 1 is provided with a guide groove, the ball screw 9 and the jig plate 2 are respectively positioned at the upper side and the lower side of the guide groove, the screw nut 12 penetrates through the guide groove and is connected with the jig plate 2, the side wall of the guide groove is used for blocking and limiting the screw nut 12, when the stepping motor 11 drives the ball screw 9 to rotate, the screw nut 12 is blocked by the side wall of the guide groove, and the screw nut 12 is prevented from rotating along with the ball screw 9.

The limiting piece 3 is provided with a plurality of round balls 13, the round balls 13 are arranged in a collinear manner, connecting lines among the round balls 13 and connecting lines among the containing holes 5 are arranged in parallel, the round balls 13 are arranged on the limiting piece 3 in a rolling manner, and the round balls 13 protrude out of the limiting piece 3 and are used for abutting against the jig plate 2. In the sliding process of the jig plate 2, the sliding friction between the jig plate 2 and the limiting part 3 is changed into rolling friction through the arrangement of the spherical balls 13, so that the friction force between the jig plate 2 and the limiting part is reduced, the jig plate 2 can be easily moved, and meanwhile, the abrasion between the jig plate and the limiting part is reduced.

The accommodating hole 5 is elliptical, the long axis of the accommodating hole 5 is 4-6mm, the short axis of the accommodating hole 5 is 2-4mm, and the shape of the magnetic conduction member 14 is matched with the shape of the accommodating hole 5, in this embodiment, the long axis of the magnetic conduction member 14 is 5mm, and the short axis of the magnetic conduction member 14 is 3 mm.

The magnetic conducting piece 14 is in an oval shape, the magnetic conducting piece 14 passes through a drilling device and then is magnetized by an external magnetizing device to form a magnet, the magnet is provided with a central hole 15 and two side holes 16, the central hole 15 is located at the intersection of the long axis and the short axis of the magnetic conducting piece 14, the two side holes 16 are located on the long axis of the magnetic conducting piece 14, and the two side holes 16 are symmetrically arranged around the central hole 15. In the process of drilling the magnetic conduction member 14 by the drilling device, one side hole 16 is drilled first, the other side hole 16 is drilled again, the stress at two ends of the magnetic conduction member 14 is ensured to be approximately the same, and finally the central hole 15 is drilled again, so that the magnetic conduction member 14 is prevented from being cracked due to different stresses at two ends during drilling, and the drilling yield of the magnetic conduction member 14 is improved.

The central hole 15 and the side holes 16 are both circular, the aperture of the central hole 15 is 1mm, and the aperture of the side holes 16 is 0.8 mm.

the above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims

1. A porous magnet processing agency which characterized in that: the fixture comprises a frame body, slide and set up in the tool board of support body, set up in the support body and be used for guiding the gliding locating part of tool board, the activity sets up in the card of locating part and holds the piece, the tool board is equipped with a plurality of holding holes and a plurality of tooth, a plurality of holding hole collineation sets up, a plurality of tooth collineation sets up, line between a plurality of holding holes and the line parallel arrangement between a plurality of tooth, the holding hole is used for holding establishes external magnetic conduction spare, the card is held the piece and is used for the outburst to stretch into between two adjacent tooth in order to fix a position the locating part on the support body, external drilling equipment holds the different positions of the downthehole magnetic conduction spare of holding of the tool board after the piece blocks and do.

2. The porous magnet processing mechanism according to claim 1, wherein: the clamping piece is rotatably arranged on the limiting piece or/and the rack body, the limiting piece or/and the rack body is/are provided with an elastic piece, and the elastic piece is used for driving the clamping piece to protrude into the space between every two adjacent teeth so as to position the limiting piece on the rack body.

3. The porous magnet processing mechanism according to claim 2, wherein: the porous magnet machining mechanism further comprises an electric cylinder or an air cylinder, a cylinder body of the electric cylinder or the air cylinder is rotatably arranged with the frame body, a piston rod of the electric cylinder or a piston rod of the air cylinder is rotatably arranged with the clamping piece, and the electric cylinder or the air cylinder is used for driving the clamping piece to rotate relative to the limiting piece.

4. The porous magnet processing mechanism according to claim 1, wherein: the support body rotates and is provided with ball screw, and the support body is equipped with and is used for driving ball screw pivoted step motor, and the ball screw outside cover is equipped with the screw-nut who is connected with the tool board.

5. The porous magnet processing mechanism according to claim 4, wherein: the frame body is provided with a guide groove, the ball screw and the jig plate are respectively positioned on two sides of the guide groove, the screw nut penetrates through the guide groove and is connected with the jig plate, and the side wall of the guide groove is used for stopping the limiting screw nut.

6. The porous magnet processing mechanism according to claim 1, wherein: the locating part is equipped with a plurality of balls, and a plurality of balls collineation sets up, and the line parallel arrangement between the line between a plurality of balls and a plurality of holding hole, the ball rolls and sets up in the locating part, and the ball stretches out the locating part suddenly and is used for conflicting tool board.

7. The porous magnet processing mechanism according to claim 1, wherein: the containing hole is oval, the long axis of the containing hole is 4-6mm, and the short axis of the containing hole is 2-4 mm.

8. The porous magnet processing mechanism according to claim 7, wherein: the magnetic conduction piece is oval, the magnetic conduction piece is magnetized by an external magnetizing device after being rotated by the drilling device to form a magnet, the magnet is provided with a central hole and two side holes, the central hole is positioned at the intersection of the long axis and the short axis of the magnetic conduction piece, the two side holes are both positioned on the long axis of the magnetic conduction piece, and the two side holes are symmetrically arranged around the central hole.

9. The porous magnet processing mechanism according to claim 8, wherein: the center hole and the side holes are both circular, the aperture of the center hole is 1mm, and the aperture of the side holes is 0.8 mm.