CN201625914U - Top push type tile-shaped magnet inner-outer arc surfaces and single line bidirectional automatic chamfering composite grinding machine - Google Patents

Top push type tile-shaped magnet inner-outer arc surfaces and single line bidirectional automatic chamfering composite grinding machine Download PDF

Info

Publication number
CN201625914U
CN201625914U CN2009201285385U CN200920128538U CN201625914U CN 201625914 U CN201625914 U CN 201625914U CN 2009201285385 U CN2009201285385 U CN 2009201285385U CN 200920128538 U CN200920128538 U CN 200920128538U CN 201625914 U CN201625914 U CN 201625914U
Authority
CN
China
Prior art keywords
grinding
chamfering
outer arc
magnetic shoe
tile
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
CN2009201285385U
Other languages
Chinese (zh)
Inventor
廖敌江
Original Assignee
廖敌江
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 廖敌江 filed Critical 廖敌江
Priority to CN2009201285385U priority Critical patent/CN201625914U/en
Application granted granted Critical
Publication of CN201625914U publication Critical patent/CN201625914U/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Abstract

The utility model relates to a top push type tile-shaped magnet inner-outer arc surfaces and single line bidirectional automatic chamfering composite grinding machine, which comprises an electric appliance controlling system, an electric motor and a speed reducing machine of the electric motor. The grinding machine is characterized in that the grinding machine is provided with a magnetic tile feeding top push type advancing mechanism, a grinding head sand wheel component which is used for grinding the outer arc surface of a tile-shaped magnet, and a grinding head sand wheel component which is used for grinding the inner arc surface, the chord width and the arch height of the tile-shaped magnet, wherein a transverse swinging pusher dog is arranged behind the two grinding heads and the sand wheel; and a chamfering moving mechanism is arranged behind the transverse swinging pusher dog, and comprises tooling which can move up and down and a chamfering grinding head sand wheel component. The grinding machine has the positive effects of being capable of automatically grinding the outer arc surface, the inner arc surface, the chord width, the arch height, the outer arc end surface chamfering and the outer arc end of the 'short, wide and flat magnetic tile' with one whole machine for once, saving the labor and the work time, reducing the energy consumption, and improving the labor productivity and the quality qualification rate.

Description

Pushing type tile shape magnet internal and external cambered surface and mongline bidirectional automatic chamfering compound grinding machine
Affiliated technical field
The utility model relates to a kind of pushing type tile shape magnet internal and external cambered surface and mongline bidirectional automatic chamfering compound grinding machine, is applicable to that intrados, extrados, inner arc end face angle and the outer arc end face angle finished tile-shaped magnet process automatically.
Background technology
A finished product tile-shaped magnet has following parameters to guarantee with grinding usually, i.e. inner arc cambered surface radius, outer arc cambered surface radius, and axial length, string are wide, sagitta, inner arc end face chamfering, outer arc end face chamfering.Above-mentioned parameter can be finished with corresponding independent grinding unit, and the existing compound grinding machine of wherein interior outer arc occurs, and can finish the grinding (seeing patent No. 200820062313.X) of inside and outside cambered surface on same grinding machine.Grinding of other parameters adopts corresponding independent grinding unit to finish usually.Particularly inner arc end face chamfering, outer arc end face chamfering, the existing first kind chamfering technology (patent No.: 200820061915.3) can only unit work, need in the operation by handing-over and the loading and unloading manually carried out between the unit, need take more manually, and the handing-over between the unit and loading and unloading will inevitably produce a certain proportion of waste product.The existing second class chamfering technology (number of patent application: 200910058132.9) can't process, and its main cause is that " short wide flat magnetic shoe " magnetic shoe under conventional two-wheel feed mechanism drives is very easily walked tiltedly by " short wide flat magnetic shoe " (the magnetic shoe axial length is less, the wide size of string is big, the sagitta size is less is called " short wide flat magnetic shoe ") that a part is difficult to guide-localization.On the whole, the more artificial and more independent unit of above-mentioned existing first kind chamfering Technology Need causes cost to rise, and quality is difficult to improve; The above-mentioned existing second class chamfering technology can't be processed " short wide flat magnetic shoe " that a part is difficult to guide-localization.
Summary of the invention
The purpose of this utility model provides a kind of pushing type tile shape magnet internal and external cambered surface and mongline bidirectional automatic chamfering compound grinding machine, can overcome " short wide flat magnetic shoe " magnetic shoe under conventional two-wheel feed mechanism drives and very easily walk oblique problem, and can finish the grinding of, sagitta wide, inner arc end face chamfering, outer arc end face chamfering simultaneously, to remedy the deficiency of prior art to inner arc cambered surface, outer arc cambered surface, the string of " short wide flat magnetic shoe ".
The technical scheme of employing of the present utility model is: pushing type tile shape magnet internal and external cambered surface and mongline bidirectional automatic chamfering compound grinding machine, comprise electrical apparatus control system, motor and reductor thereof, and it is characterized in that: be provided with magnetic shoe charging push mode propulsive mechanism; Be provided with the grinding head grinding wheel assembly that is used for grinding tile-shaped magnet outer arc cambered surface; Be provided with and be used for that grinding tile-shaped magnet inner arc cambered surface, string are wide, the grinding head grinding wheel assembly of sagitta; Be provided with the yaw pusher dog at aforementioned two grinding head grinding wheel assemblies; Yaw pusher dog back is provided with the chamfering motion, and the chamfering motion comprises frock and the chamfering grinding that moves up and down.
Described pushing type tile shape magnet internal and external cambered surface and mongline bidirectional automatic chamfering compound grinding machine is characterized in that: the power of outer arc grinding propulsive mechanism, yaw pusher dog and magnetic shoe chamfering motion comes from same motor and same reductor in the push mode magnetic shoe.
Described pushing type tile shape magnet internal and external cambered surface and mongline bidirectional automatic chamfering compound grinding machine is characterized in that: the push mode propulsive mechanism comprises push cam, roller, propulsion arm and weight.
Good effect of the present utility model is, to " short wide flat magnetic shoe " with a complete machine can disposablely finish promptly that extrados, intrados, string are wide, the automatic processing of sagitta, outer arc end face chamfering, inner arc end face chamfering, solved " short wide flat magnetic shoe " preferably and ground oblique problem easily, in addition, power of the present utility model all comes from same motor, so the synchronism of action component is easy to control.Production efficiency and up-to-standard rate have been improved.
Below by embodiment, and in conjunction with the accompanying drawings the utility model is further described:
Description of drawings
Fig. 1 is the front view of the utility model embodiment;
Fig. 2 is the vertical view of Fig. 1;
Fig. 3 is the A-A view of Fig. 1;
Fig. 4 is that the B of Fig. 2 is to view (transmission principle figure);
Fig. 5 is that the chamfering parts are at the impaction state schematic diagram;
Fig. 6 is that the chamfering parts are in the material loading view;
Fig. 7 is a magnetic shoe machined parameters schematic diagram.
Pushing type tile shape magnet internal and external cambered surface and mongline bidirectional automatic chamfering compound grinding machine comprise electrical apparatus control system, motor and reductor thereof, it is characterized in that: be provided with magnetic shoe charging push mode propulsive mechanism; Be provided with the grinding head grinding wheel assembly 8 for grinding tile-shaped magnet outer arc cambered surface; Be provided with grinding head grinding wheel assembly 11 wide for grinding tile-shaped magnet inner arc cambered surface, string, sagitta; Behind aforementioned two grinding head grinding wheel assemblies 8,11, be provided with yaw pusher dog 36; Yaw pusher dog 36 back are provided with the chamfering motion, and the chamfering motion comprises frock 41 and the chamfering grinding 21,26,28,29 that moves up and down, and the push mode propulsive mechanism comprises push cam 61, roller 62, propulsion arm 3 and weight 70. 81 is the outer arc chamfering, and 82 is the inner arc chamfering.
Embodiment:
In the drawings, processed magnetic shoe 1 is put into blanking gathering sill 2 by the operator, magnetic shoe 1 drops on the input guide rail 5 and is doing under the promotion of reciprocating propulsion arm 3 intermittently to left movement (direction of arrow is expressed the magnetic shoe direction of motion among the figure) in the gravity effect, magnetic shoe carries out grinding by the extrados of 8 pairs of magnetic shoes 1 of outer arc emery wheel during by outer arc guide rail 9, magnetic shoe 1 continues motion left through outer arc emery wheel 9 backs, under the support of briquetting 12 by the intrados of 11 pairs of magnetic shoes of combinated grinding wheel, sagitta, the string broad side surface carries out grinding simultaneously, and the magnetic shoe 1 after the grinding continues to move to left on the chamfering input guide rail 15.
Unclamp screw 6 and can regulate the original position of propulsion arm 3, can regulate the extrados processing capacity of magnetic shoe 1, can regulate the intrados processing capacity of magnetic shoe 1 by inner arc briquetting feeding handwheel 13 by outer arc emery wheel feeding handwheel 10.
Magnetic shoe 1 continues to move to left on the chamfering input guide rail 15, at the end of chamfering input guide rail 15 by 36 groups of yaw pusher dogs to the inside, yaw pusher dog 36 is connected with input fork 37, input fork 37 is connected with oscillating deck 38, the every reciprocating swing of oscillating deck once can be imported chamfering 1 magnetic shoe on the guide rail 15 and dial chamfering material loading position 39 to the inside.
Be positioned at the magnetic shoe 1 of material loading position 39, push to frock 41 by material loading push rod 32, briquetting 42 compresses magnetic shoe 1 then, compacted magnetic shoe moves up and down with frock 41, carry out chamfering topmost by outer arc chamfering abrasive wheel 21 and 26 pairs of magnetic shoes of outer arc chamfering abrasive wheel, 1 outer arc end face, carrying out chamfering by inner arc chamfering abrasive wheel 29 and 28 pairs of magnetic shoe inner arcs of inner arc chamfering abrasive wheel end face bottom, adjusting handle 19 and 24 can be regulated the size of inner arc end face chamfering, and adjusting handle 20 and 23 can be regulated the size of outer arc end face chamfering.
Magnetic shoe 1 in the inside after chamfering, when frock 41 comes back to initial material loading position (frock 41 is done of short duration stopping when the material loading position), briquetting 42 can unclamp automatically, when material loading push rod 32 pushes frock 41 with new a slice magnetic shoe 1, also the magnetic shoe 1 that processes is released, the magnetic shoe 1 that is pushed out is by 34 outputs of output guide rail.
Magnetic shoe 1 is when the mill internal and external cambered surface, because magnetic shoe that the utility model is processed is " short wide flat magnetic shoe ", this type magnetic shoe is difficult to guiding when motion, adopt common two-wheel feed mechanism magnetic shoe very easily to walk tiltedly, cause the out of plumb of magnetic shoe internal and external cambered surface and axial end, thereby cause a large amount of waste products.The utility model adopts outer arc grinding propulsive mechanism in the push mode magnetic shoe, as long as guarantee that magnetic shoe 1 axial end is parallel with the end face of propulsion arm 3, the propulsive force that magnetic shoe 1 axial end is subjected to is a propulsive force parallel with the direction of motion forever, under parallel propulsive force effect, magnetic shoe is difficult to away tiltedly, thereby has guaranteed the perpendicularity of magnetic shoe internal and external cambered surface and axial end after the grinding.
The intermittent reciprocating rectilinear motion of push mode magnetic shoe internal and external cambered surface grinding propulsive mechanism is by push cam 61 controls, roller 62 is fitted with the shape face of push cam 61 under the gravity effect of weight 70, roller 62 is connected with connecting rod 63, connecting rod 63 is connected with gusset 64, gusset 64 is connected with planker 67, line slide rail 65 and 71 is fixed on the support 7, linear slider 66 and 72 and planker 67 be connected, line slide rail 65,71 and linear slider 66,72 work to keep planker 67 moving linearlies.Planker 67 is connected with being connected corner bracket 73, connects corner bracket 73 and is connected with pushing tow planker 74, and when cam 61 at the uniform velocity rotated, pushing tow planker 74 was made the intermittent reciprocating rectilinear motion by the drive of above-mentioned connector.Propulsion arm 3 is connected by transition piece and pushing tow planker 74, so propulsion arm 3 also makes the intermittent reciprocating rectilinear motion, thereby magnetic shoe is intermittently pushed ahead, and produces because propulsive force is a weight 70, and the maximum propulsive force of magnetic shoe is less than the gravity of weight 70.
The chamfering motion of magnetic shoe 1 requires magnetic shoe 1 to be in released state at material loading stage briquetting 42 and magnetic shoe 1, so that magnetic shoe 1 smooth material loading, magnetic shoe is when chamfering, briquetting 42 is in impaction state with magnetic shoe 1, frock 41 is connected with frock support 54, frock support 54 is connected by transition piece and frock lifting planker 53, roller 52 is connected with frock lifting planker 53, roller 53 drives 53 liftings of lifting planker under the promotion of lifter cam 55, thereby drive frock 41 liftings, roller 53 is a gravity with the coupling mechanism force of lifter cam 55.Briquetting 42 with compress support 43 and be connected, compress support 43 by transition piece with compress lifting planker 46 and be connected, compress lifting planker 46 and compress push rod 47 and be connected, roller 48 with compress push rod 47 and be connected, roller 48 drives under the promotion that compresses cam 49 and compresses push rod 47 liftings, thereby drive briquetting 42 liftings, roller 48 is a gravity with the coupling mechanism force that compresses cam 49.
The motion of material loading cam 50 control material loading push rods 32.Roller 58 (its projection in Fig. 4 is covered by roller 62) is equipped with in the right part of material loading cam lever 57, roller 58 is fitted with the shape face of material loading cam 50, material loading cam lever 57 is connected with material loading planker 59, material loading planker 59 is made the intermittent reciprocating rectilinear motion under the shape face of cam 50 promotes, the sealed power of shape face of roller 58 and cam 50 is the gravity of weight 60, material loading push rod 32 is connected by transition piece and material loading planker 59, and therefore, material loading push rod 32 is also made the intermittent reciprocating rectilinear motion.
Chamfering motion and the straight-line power of internal and external cambered surface grinding pushing tow intermittent reciprocating by 5 cam controls all come from motor 77, the power shaft direct connection of motor 77 and reductor 78, two sprocket wheels are arranged on the output shaft of reductor 78,1 sprocket wheel passes to power on the distributing shaft 51 by chain 68,4 cams are housed on the distributing shaft 51,1 sprocket wheel passes to power on the input sprocket of swing mechanism 79 by chain 69 in addition, oscillating cam 76 is housed on the output shaft of swing mechanism 79, roller 83 fits with the shape face of oscillating cam 76, roller 83 is connected with corner bracket 84, corner bracket 84 is connected with oscillating deck 38, oscillating deck 38 is made the intermittent reciprocating rectilinear motion under the promotion of oscillating cam 76, roller 83 is the gravity of weight 87 with the coupling mechanism force of oscillating cam 76.

Claims (3)

1. pushing type tile shape magnet internal and external cambered surface and mongline bidirectional automatic chamfering compound grinding machine comprise electrical apparatus control system, motor and reductor thereof, it is characterized in that: be provided with magnetic shoe charging push mode propulsive mechanism; Be provided with the grinding head grinding wheel assembly that is used for grinding tile-shaped magnet outer arc cambered surface; Be provided with and be used for that grinding tile-shaped magnet inner arc cambered surface, string are wide, the grinding head grinding wheel assembly of sagitta; Behind aforementioned two grinding head grinding wheel assemblies, be provided with the yaw pusher dog; Yaw pusher dog back is provided with the chamfering motion, and the chamfering motion comprises frock and the chamfering grinding that moves up and down.
2. pushing type tile shape magnet internal and external cambered surface as claimed in claim 1 and mongline bidirectional automatic chamfering compound grinding machine is characterized in that: the power of outer arc grinding propulsive mechanism, yaw pusher dog and magnetic shoe chamfering motion comes from same motor and same reductor in the push mode magnetic shoe.
3. pushing type tile shape magnet internal and external cambered surface as claimed in claim 1 and mongline bidirectional automatic chamfering compound grinding machine is characterized in that: the push mode propulsive mechanism comprises push cam, roller, propulsion arm and weight.
CN2009201285385U 2009-08-16 2009-08-16 Top push type tile-shaped magnet inner-outer arc surfaces and single line bidirectional automatic chamfering composite grinding machine Expired - Lifetime CN201625914U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN2009201285385U CN201625914U (en) 2009-08-16 2009-08-16 Top push type tile-shaped magnet inner-outer arc surfaces and single line bidirectional automatic chamfering composite grinding machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN2009201285385U CN201625914U (en) 2009-08-16 2009-08-16 Top push type tile-shaped magnet inner-outer arc surfaces and single line bidirectional automatic chamfering composite grinding machine

Publications (1)

Publication Number Publication Date
CN201625914U true CN201625914U (en) 2010-11-10

Family

ID=43057299

Family Applications (1)

Application Number Title Priority Date Filing Date
CN2009201285385U Expired - Lifetime CN201625914U (en) 2009-08-16 2009-08-16 Top push type tile-shaped magnet inner-outer arc surfaces and single line bidirectional automatic chamfering composite grinding machine

Country Status (1)

Country Link
CN (1) CN201625914U (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104741987A (en) * 2015-04-20 2015-07-01 绵阳市弘盛磁材设备有限公司 Inner and outer arc type bi-directional automatic chamfering machine for tegular magnet
CN104842248A (en) * 2015-05-26 2015-08-19 横店集团东磁股份有限公司 Automatic production line for arc chamfering of permanent magnetic ferrites and implementation method of automatic production line

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104741987A (en) * 2015-04-20 2015-07-01 绵阳市弘盛磁材设备有限公司 Inner and outer arc type bi-directional automatic chamfering machine for tegular magnet
CN104741987B (en) * 2015-04-20 2017-06-16 绵阳市弘盛磁材设备有限公司 Outer arc bidirectional automatic chamfering machine in a kind of tile-shaped magnet
CN104842248A (en) * 2015-05-26 2015-08-19 横店集团东磁股份有限公司 Automatic production line for arc chamfering of permanent magnetic ferrites and implementation method of automatic production line
CN104842248B (en) * 2015-05-26 2017-09-19 横店集团东磁股份有限公司 A kind of arcuate permanent magnetic ferrite chamfering automatic production line and its implementation

Similar Documents

Publication Publication Date Title
CN101642890B (en) Pushing type tile shape magnet internal and external cambered surface and mongline bidirectional automatic chamfering compound grinding machine
CN101524822B (en) Tile-shaped magnet internal and external cambers and double-line bidirectional automatic chamfering compound grinding machine
CN104057375B (en) The hexahedro grinding process method of firebrick billet
CN104084857B (en) Adobe four sides grinding attachment
CN202070977U (en) Combined and automatic magnetic tile grinding machine
CN202825465U (en) Tile-shaped magnetic body pushing feeding 4 R angle automatic chamfering grinding machine
CN201625914U (en) Top push type tile-shaped magnet inner-outer arc surfaces and single line bidirectional automatic chamfering composite grinding machine
CN201361809Y (en) Compound grinder for inner and outer arc surface and double-strand double-direction automatic chamfer angle of tile-shaped magnet
CN202825469U (en) Tile-shapedd magnet automatic chamfering grinding machine for high-speed type horizontal pendulum feeding conveyor belt charging
CN201158541Y (en) Brick receiving device with improved structure
CN105692047B (en) Double track feeding structure
CN202668269U (en) Feeding device for roller type centerless grinder
CN102873608B (en) High-speed transverse-swing feeding conveying belt feeding shoe magnet automatic chamfering grinding machine
CN205497197U (en) Automatic burnishing device of timber production
CN201361803Y (en) Compound grinder for shaft length, platform angle and outer arc angle of tile-shaped magnet
CN104057376B (en) Vertical refractory brick grinding system
CN205342408U (en) PU wheel pours into with automatic compound die assembly line of mould
CN104097120A (en) Internal and external circular grinding machine
CN107470454B (en) A kind of material processing unit (plant)
CN203973313U (en) Inside and outside circular mill
CN205929006U (en) A kind of magnetic shoe automated production equipment
CN203207096U (en) Automatic tea classifying and processing production line
CN201702654U (en) Magnetic tile conveying device
CN101916673B (en) Automatic mandrel stripper
CN204058224U (en) Glass furnace automatic charging equipment

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
EE01 Entry into force of recordation of patent licensing contract

Assignee: Yibin Huisi Magnetic Device Co., Ltd.

Assignor: Liao Dijiang

Contract record no.: 2011510000067

Denomination of utility model: Pushing type tile shape magnet internal and external cambered surface and mongline bidirectional automatic chamfering compound grinding machine

Granted publication date: 20101110

License type: Exclusive License

Record date: 20110520

AV01 Patent right actively abandoned

Granted publication date: 20101110

Effective date of abandoning: 20090816