CN105383897A

CN105383897A - Magnetic blank feeding machine

Info

Publication number: CN105383897A
Application number: CN201510986177.8A
Authority: CN
Inventors: 茅柳强; 沈小燕
Original assignee: TONGXIANG YAORUN ELECTRIC CO Ltd
Current assignee: TONGXIANG YAORUN ELECTRIC CO Ltd
Priority date: 2015-12-25
Filing date: 2015-12-25
Publication date: 2016-03-09

Abstract

The invention relates to a magnetic blank feeding machine and solves the problem that at present, no magnetic blank feeding machine which is high in work efficiency and wide in application range exists. The magnetic blank feeding machine comprises a rack and is characterized by further comprising a lifting mechanism, a material pushing mechanism, a prestoring mechanism, a material poking mechanism and a magnetic blank conveying mechanism, wherein the material pushing mechanism is fixed to the rack, and the prestoring mechanism is fixed to the rack. The material poking mechanism comprises a horizontal supporting frame, a beam, a left guide rod, a right guide rod, a left guide block, a right guide block, a lead screw nut, a lead screw, a lead screw motor, a material poking head and a lifting air cylinder. The horizontal supporting frame is fixed to the rack, the lead screw is rotatably connected to the horizontal supporting frame, the left guide block and the right guide block are arranged on the left guide rod and the right guide rod in a sleeving mode, the two ends of the beam are fixed to the left guide block and the right guide block respectively, the lead screw nut is fixed to the beam, the length of the material poking head is the same as the width of a prestoring platform, and the top of the material poking head is fixed to the bottom of the lifting air cylinder. The magnetic blank feeding machine is high in work efficiency and wide in application range.

Description

A kind of magnetic embryo feeder

Technical field

The present invention relates to a kind of magnetic embryo feeder, magnetic embryo belongs to the half-blank of magnetic core, and magnetic embryo has just made magnetic core again after processing, and magnetic core can be used in voltage transformer, and the magnetic embryo feeder in the present invention is for being transported to follow-up machining production line by magnetic embryo.

Background technology

Magnetic embryo belongs to the half-blank of magnetic core, magnetic embryo has just made magnetic core through follow-up processing again, as again through grinding machine machine, the processing of cutting machine, magnetic core can be used in voltage transformer, usually the mode that employing is artificial is at present directly free-hand to be placed into magnetic embryo on follow-up machining production line to complete the feed operation of magnetic embryo, because the volume of magnetic embryo is usually less, and quantity is very large, the efficiency of direct employing hand feed is low, work capacity is large, magnetic embryo misaligned, the direct processing affected on following process manufacturing line, such as can affect follow-up gas cutting, the operations such as mill air gap, thus reduce quality and the quality of magnetic core product.

Also there is now the technology adopting machine material loading, if publication date is on 09 23rd, 2015, publication number is in the Chinese patent of CN204660758U, disclose a kind of toroidal core automatic charging machine, this toroidal core automatic charging machine comprises the frame for supporting, described frame is provided with storing belt, drive the first engine installation of storing belt, reason material belt, drive the second engine installation of reason material belt, 3rd engine installation of outfeed belt and driving outfeed belt, described storing belt, reason material belt is connected successively with outfeed belt, described storing belt is higher than described reason material belt, described reason material belt is higher than described outfeed belt, the top of described reason material belt is provided with several reason material tiltedly gear, reason material described in several is the gear both sides being arranged in described reason material belt straggly tiltedly.Although relative to the mode generally adopting artificial loading at present, cost is low, efficiency is high, manpower requirement is low, and this toroidal core automatic charging machine is only applicable to the material loading carrying out toroidal core, and be not suitable for the magnetic core material loading of other shapes, applicable surface is very narrow.

In sum, also do not have a kind of work efficiency high, widely applicable at present, the magnetic embryo feeder entering subsequent production line that magnetic embryo is neat can be guaranteed.

Summary of the invention

The object of the invention is to overcome above shortcomings in prior art, and provide a kind of reasonable in design, work efficiency is high, widely applicable, can guarantee the magnetic embryo feeder entering subsequent production line that magnetic embryo is neat.

The present invention's adopted technical scheme that solves the problem is: this magnetic embryo feeder comprises frame, the bottom of described frame is provided with at least four universal rolling wheels, at least four legs, and the activity orientation block that quantity is identical with leg, the bottom of each leg is all detachable is connected with an activity orientation block, its constructional feature is: also comprise lifting mechanism, pusher, Yu Chu mechanism, material toggling mechanism and magnetic embryo conveying mechanism, described pusher is fixed in frame, described Yu Chu mechanism is fixed in frame, this Yu Chu mechanism comprises and stores up platform in advance, the top of described pre-storage platform is a horizontal flat board, described lifting mechanism comprises flitch frame, for placing the flitch of magnetic embryo, lifting guidepost, lifting guide cylinder, chain and lifting motor, the two ends up and down of described lifting guidepost are all fixed in frame, this lifting guidepost is vertical shape structure, outer wall and the flitch frame of described lifting guide cylinder are fixed, this lifting guide cylinder is sleeved on lifting guidepost, described lifting motor is fixed in frame, this lifting motor is connected with chain, described chain and flitch frame are fixed, described flitch frame is in the horizontal direction between pusher and Yu Chu mechanism, in described flitch frame, in the vertical direction is provided with 5-30 layer uniformly for placing the dividing plate of flitch, every layer of all horizontal structure of dividing plate, the left and right sides of every layer of dividing plate is all fixed on the inwall of flitch frame, a passage is formed between neighbouring two-layer dividing plate, the magnetic embryo be placed on flitch is shifted onto the flat board of pre-storage platform by this passage from flitch for pusher, be placed on the horizontal structure of end face of the flitch on dividing plate, described material toggling mechanism comprises horizontal support frame, crossbeam, left pilot bar, right pilot bar, left orienting lug, right orienting lug, feed screw nut, screw mandrel, lead screw motor, material toggling head and lift cylinder, described horizontal support frame is fixed in frame, this horizontal support frame is positioned at directly over the pre-storage platform of Yu Chu mechanism, described screw mandrel is rotating to be connected on horizontal support frame, the horizontal structure of this screw mandrel, described lead screw motor is connected with one end of screw mandrel, described left pilot bar and right pilot bar are all fixed on horizontal support frame, this left pilot bar and right pilot bar lay respectively at the both sides of screw mandrel, described left pilot bar, right pilot bar and screw mandrel parallel, described left orienting lug and right orienting lug are set on left pilot bar and right pilot bar, the two ends of described crossbeam are separately fixed on left orienting lug and right orienting lug, this crossbeam is vertical with screw mandrel, described feed screw nut is fixed on crossbeam, this feed screw nut to be sleeved on screw mandrel and and screw mandrel coordinate, described lift cylinder is fixed on crossbeam, this lift cylinder is vertical shape structure, described material toggling head is string configuration, the length of this material toggling head is equal with the width of pre-storage platform, the top of described material toggling head is fixed on the bottom of lift cylinder, the front end face of this material toggling head is the planar structure for material toggling, described magnetic embryo conveying mechanism is fixed in frame, pre-storage platform in this magnetic embryo conveying mechanism and Yu Chu mechanism coordinates, described magnetic embryo conveying mechanism comprises bracing frame, load-transfer device, roller bearing and drive motor, support frame as described above is fixed in frame, described load-transfer device is connected on bracing frame by roller bearing is rotating, the flat board of the conveyor surface of this load-transfer device and the pre-storage platform end face of Yu Chu mechanism flushes in the horizontal direction, spacing between described load-transfer device and pre-storage platform is 0.5-3mm, described drive motor is connected with roller bearing.

As preferably, frame of the present invention is stainless steel.

As preferably, when lifting mechanism of the present invention is on working position, described lifting motor drives flitch frame to carry out step wise rising or decline, when described flitch frame often carries out a stepping-in amount, have and only have the end face of the end face of one piece of flitch and pre-storage platform to flush in the horizontal direction, and the spacing between this block flitch and pre-storage platform is 0.5-2mm, the size of the stepping-in amount of described lifting motor equals the distance between the end face of neighbouring two pieces of flitch.

As preferably, when material toggling mechanism of the present invention is on working position, the magnetic embryo be placed on flitch has been shifted onto on the flat board of pre-storage platform from flitch by pusher, described lift cylinder drives material toggling head to rise, make the height bottom material toggling head higher than the height at the top of the magnetic embryo be positioned on the flat board of pre-storage platform, first crossbeam is moved backward to the one end near flitch frame by the rotation of screw mandrel, lift cylinder drives material toggling head to decline, make to contact with the flat board of pre-storage platform bottom material toggling head, then moved forward by the step-type drive crossbeam of the rotation of screw mandrel, the magnetic embryo that the step-type promotion of the front end face of material toggling head is positioned on the flat board of pre-storage platform moves to magnetic embryo conveying mechanism, the stepping-in amount that crossbeam moves forward equals length along magnetic embryo on moving direction or width.

As preferably, the height of the passage between the neighbouring two-layer dividing plate in lifting mechanism of the present invention is 3-30cm.

As preferably, lifting mechanism of the present invention also comprises synchronizing shaft and two gears, the quantity of the chain in described lifting mechanism is two, described lifting motor is connected with synchronizing shaft, the horizontal structure of described synchronizing shaft, and described two gears are all fixed on synchronizing shaft, these two gears parallel, article two, chain respectively with two gears meshing, two chains are all fixed with flitch frame, and two chains lay respectively at the both sides of flitch frame.

As preferably, the quantity of the lifting guidepost in lifting mechanism of the present invention is two, and two lifting guideposts lay respectively at the both sides of flitch frame.

As preferably, the bottom of frame of the present invention is rectangle structure, and the quantity of described universal rolling wheel is six, six universal rolling wheels are arranged in two rows, often row is three, and the quantity of described leg is four, and four legs lay respectively on four angles of the bottom of the rectangle structure of frame.

The present invention compared with prior art, has the following advantages and effect: reasonable in design, and easy to use, work efficiency is high, goes for the magnetic embryo of various shape, widely applicable, can guarantee magnetic embryo neat enter subsequent production line.What magnetic embryo to be processed was neat is placed on flitch, flitch is placed in flitch frame 21, control flitch frame 21 by lifting mechanism 2 and carry out step-type oscilaltion, the neat flitch being loaded with magnetic embryo is made to carry out synchronization lifting with flitch frame 21, by pusher 3, neat for the magnetic embryo on the flitch be on working position is shifted onto on the pre-storage platform of Yu Chu mechanism 4, shift onto on magnetic embryo conveying mechanism 6 by material toggling mechanism 5 by neat by rows for the neat magnetic embryo be positioned on pre-storage platform, be transported in next pipeline production line by the magnetic embryo of magnetic embryo conveying mechanism 6 by marshalling.

Accompanying drawing explanation

Fig. 1 is the main TV structure schematic diagram of magnetic embryo feeder in the embodiment of the present invention.

Fig. 2 is the left TV structure schematic diagram after removing pusher in Fig. 1.

Fig. 3 is the right TV structure schematic diagram after removing pusher in Fig. 1.

Fig. 4 is the plan structure schematic diagram after removing pusher in Fig. 1.

Fig. 5 looks up structural representation after removing pusher in Fig. 1.

Fig. 6 is the main TV structure schematic diagram of pusher in the embodiment of the present invention.

Fig. 7 be Fig. 6 look up structural representation.

Fig. 8 is the structural representation in Fig. 1 after the amplification of A place.

Fig. 9 is the structure for amplifying schematic diagram of material toggling mechanism in the embodiment of the present invention.

Figure 10 is the structure for amplifying schematic diagram of lifting mechanism in the embodiment of the present invention.

Detailed description of the invention

Below in conjunction with accompanying drawing, also by embodiment, the present invention is described in further detail, and following examples are explanation of the invention and the present invention is not limited to following examples.

Embodiment.

See Fig. 1 to Figure 10, the magnetic embryo feeder in the present embodiment comprises frame 1, lifting mechanism 2, pusher 3, Yu Chu mechanism 4, material toggling mechanism 5 and magnetic embryo conveying mechanism 6, and wherein, frame 1 is stainless steel.

The bottom of the frame 1 in the present embodiment is provided with at least four universal rolling wheels 11, at least four legs 12 and the quantity activity orientation block 13 identical with leg 12, the bottom of each leg 12 is all detachable is connected with an activity orientation block 13, the bottom 1-3cm higher than the bottom of movable locating piece 13 of universal rolling wheel 11, the bottom 0.5-1.5cm higher than the bottom of universal rolling wheel 11 of leg 12.When needs mobile magnetic embryo feeder, disassembled by activity orientation block 13, universal rolling wheel 11 is landed from leg 12, then promotion magnetic embryo feeder can realize the movement to magnetic embryo feeder; After magnetic embryo feeder moves into place, activity orientation block 13 is installed to the bottom of leg 12, activity orientation block 13 is landed, and universal rolling wheel 11 soars, and realizes the positioning function to magnetic embryo feeder.

Pusher 3 in the present embodiment is fixed in frame 1, this pusher 3 comprises pusher support body 31, take over a business left cylinder 32, take over a business right cylinder 33, pushing head 34, pusher cylinder 35, pusher pilot bar 36 and pusher pilot hole 37, the front end of pushing head 34 is the planar structure of vertical shape, pusher support body 31 is fixed in frame 1, pusher pilot hole 37 is fixed on pusher support body 31, pusher pilot bar 36 cross-under is in pusher pilot hole 37, one end of this pusher pilot bar 36 and the front end of pusher cylinder 35 are all fixed on the rear end of pushing head 34, pusher pilot bar 36 is parallel with the piston rod in pusher cylinder 35, in pusher cylinder 35, the moving direction of piston rod is vertical with the planar structure of pushing head 34 front end, taking over a business left cylinder 32 and taking over a business right cylinder 33 is all fixed on pusher support body 31, this is taken over a business left cylinder 32 and takes over a business the both sides that right cylinder 33 lays respectively at pusher cylinder 35, take over a business left cylinder 32 and to take over a business right cylinder 33 all parallel with pusher cylinder 35.

Yu Chu mechanism 4 in the present embodiment is fixed in frame 1, and this Yu Chu mechanism 4 comprises and stores up platform in advance, and the top of pre-storage platform is a horizontal flat board.

Lifting mechanism 2 in the present embodiment comprises flitch frame 21, for placing the flitch of magnetic embryo, lifting guidepost 22, lifting guide cylinder 23, chain and lifting motor, the two ends up and down of lifting guidepost 22 are all fixed in frame 1, this lifting guidepost 22 is in vertical shape structure, outer wall and the flitch frame 21 of lifting guide cylinder 23 are fixed, this lifting guide cylinder 23 is sleeved on lifting guidepost 22, lifting motor is fixed in frame 1, this lifting motor is connected with chain, chain and flitch frame 21 are fixed, flitch frame 21 is in the horizontal direction between pusher 3 and Yu Chu mechanism 4, in flitch frame 21, in the vertical direction is provided with 5-30 layer uniformly for placing the dividing plate 25 of flitch, every layer of all horizontal structure of dividing plate 25, the left and right sides of every layer of dividing plate 25 is all fixed on the inwall of flitch frame 21, a passage 24 is formed between neighbouring two-layer dividing plate, the magnetic embryo be placed on flitch is shifted onto the flat board of pre-storage platform by this passage 24 from flitch for pusher 3, be placed on the horizontal structure of end face of the flitch on dividing plate 25.

Material toggling mechanism 5 in the present embodiment comprises horizontal support frame 51, crossbeam 52, left pilot bar 53, right pilot bar 54, left orienting lug 55, right orienting lug 56, feed screw nut 57, screw mandrel 58, lead screw motor, material toggling head and lift cylinder 59, horizontal support frame 51 is fixed in frame 1, this horizontal support frame 51 is positioned at directly over the pre-storage platform of Yu Chu mechanism 4, screw mandrel 58 is rotating to be connected on horizontal support frame 51, the horizontal structure of this screw mandrel 58, lead screw motor is connected with one end of screw mandrel 58, left pilot bar 53 and right pilot bar 54 are all fixed on horizontal support frame 51, this left pilot bar 53 and right pilot bar 54 lay respectively at the both sides of screw mandrel 58, left pilot bar 53, right pilot bar 54 and screw mandrel 58 parallel, left orienting lug 55 and right orienting lug 56 are set on left pilot bar 53 and right pilot bar 54, the two ends of crossbeam 52 are separately fixed on left orienting lug 55 and right orienting lug 56, this crossbeam 52 is vertical with screw mandrel 58, feed screw nut 57 is fixed on crossbeam 52, this feed screw nut 57 to be sleeved on screw mandrel 58 and and screw mandrel 58 coordinate, lift cylinder 59 is fixed on crossbeam 52, this lift cylinder 59 is in vertical shape structure, material toggling head is string configuration, the length of this material toggling head is equal with the width of pre-storage platform, the top of material toggling head is fixed on the bottom of lift cylinder 59, the front end face of this material toggling head is the planar structure for material toggling.

Magnetic embryo conveying mechanism 6 in the present embodiment is fixed in frame 1, pre-storage platform in this magnetic embryo conveying mechanism 6 and Yu Chu mechanism 4 coordinates, magnetic embryo conveying mechanism 6 comprises bracing frame, load-transfer device, roller bearing and drive motor, bracing frame is fixed in frame 1, load-transfer device is connected on bracing frame by roller bearing is rotating, the flat board of the conveyor surface of this load-transfer device and the pre-storage platform end face of Yu Chu mechanism 4 flushes in the horizontal direction, spacing between load-transfer device and pre-storage platform is 0.5-3mm, drive motor is connected with roller bearing, the width of load-transfer device is 2-10cm, the horizontal structure of conveyor surface of this load-transfer device.

The height of the passage 24 between the neighbouring two-layer dividing plate in the lifting mechanism 2 in the present embodiment can be 3-30cm.Lifting mechanism 2 can also comprise synchronizing shaft and two gears, the quantity of the chain in lifting mechanism 2 can be two, lifting motor is connected with synchronizing shaft, the horizontal structure of synchronizing shaft, two gears are all fixed on synchronizing shaft, and these two gears parallel, two chains respectively with two gears meshing, article two, chain is all fixed with flitch frame 21, and two chains lay respectively at the both sides of flitch frame 21.The quantity of the lifting guidepost 22 in lifting mechanism 2 can be two, and two lifting guideposts 22 lay respectively at the both sides of flitch frame 21.The bottom of frame 1 is rectangle structure, and the quantity of universal rolling wheel 11 is six, and six universal rolling wheels 11 are arranged in two rows, and often row is three, and the quantity of leg 12 is four, and four legs 12 lay respectively on four angles of the bottom of the rectangle structure of frame 1.

When lifting mechanism 2 in the present embodiment is on working position, lifting motor drives flitch frame 21 to carry out step wise rising or decline, when flitch frame 21 often carries out a stepping-in amount, have and only have the end face of the end face of one piece of flitch and pre-storage platform to flush in the horizontal direction, and the spacing between this block flitch and pre-storage platform is 0.5-2mm, the size of the stepping-in amount of lifting motor equals the distance between the end face of neighbouring two pieces of flitch.

When material toggling mechanism 5 in the present embodiment is on working position, the magnetic embryo be placed on flitch has been shifted onto on the flat board of pre-storage platform from flitch by pusher 3, lift cylinder 59 drives material toggling head to rise, make the height bottom material toggling head higher than the height at the top of the magnetic embryo be positioned on the flat board of pre-storage platform, first crossbeam 52 is moved backward to the one end near flitch frame 21 by the rotation of screw mandrel 58, lift cylinder 59 drives material toggling head to decline, make to contact with the flat board of pre-storage platform bottom material toggling head, then moved forward by the step-type drive crossbeam 52 of the rotation of screw mandrel 58, the magnetic embryo that the step-type promotion of the front end face of material toggling head is positioned on the flat board of pre-storage platform moves to magnetic embryo conveying mechanism 6, the stepping-in amount that crossbeam 52 moves forward equals length along magnetic embryo on moving direction or width.

When pusher 3 in the present embodiment is on working position, the end face of the flitch in lifting mechanism 2 and the end face of pre-storage platform flush in the horizontal direction, the height of the height of the bottom of pushing head 34 and the end face of flitch is equal, under the effect of pusher cylinder 35, pushing head 34 moves to the magnetic embryo be placed on flitch, being that the planar structure of vertical shape is disposable by the front end of pushing head 34 shifts onto on the flat board of pre-storage platform by the magnetic embryo be placed on flitch from flitch, then pushing head 34 resets, and shifts out the passage 24 in flitch frame 21.When pusher 3 carries out pusher operation, take over a business left cylinder 32 and take over a business right cylinder 33 for withstanding flitch, flitch limit is made to withstand on a limit of pre-storage platform, flitch is positioned, after the pusher of pusher 3 has operated, take over a business left cylinder 32 and taken over a business right cylinder 33 and removed positioning work to this block flitch.

In addition, it should be noted that, the specific embodiment described in this specification sheets, the shape, institute's title of being named etc. of its parts and components can be different, and the above content described in this specification sheets is only to structure example of the present invention explanation.The equivalence change that structure, feature and the principle of all foundations described in inventional idea of the present invention are done or simple change, be included in the protection domain of patent of the present invention.Those skilled in the art can make various amendment or supplement or adopt similar mode to substitute to described specific embodiment; only otherwise depart from structure of the present invention or surmount this scope as defined in the claims, protection scope of the present invention all should be belonged to.

Claims

1. a magnetic embryo feeder, comprise frame, the bottom of described frame is provided with at least four universal rolling wheels, at least four legs, and the activity orientation block that quantity is identical with leg, the bottom of each leg is all detachable is connected with an activity orientation block, it is characterized in that: also comprise lifting mechanism, pusher, Yu Chu mechanism, material toggling mechanism and magnetic embryo conveying mechanism, described pusher is fixed in frame, described Yu Chu mechanism is fixed in frame, this Yu Chu mechanism comprises and stores up platform in advance, the top of described pre-storage platform is a horizontal flat board, described lifting mechanism comprises flitch frame, for placing the flitch of magnetic embryo, lifting guidepost, lifting guide cylinder, chain and lifting motor, the two ends up and down of described lifting guidepost are all fixed in frame, this lifting guidepost is vertical shape structure, outer wall and the flitch frame of described lifting guide cylinder are fixed, this lifting guide cylinder is sleeved on lifting guidepost, described lifting motor is fixed in frame, this lifting motor is connected with chain, described chain and flitch frame are fixed, described flitch frame is in the horizontal direction between pusher and Yu Chu mechanism, in described flitch frame, in the vertical direction is provided with 5-30 layer uniformly for placing the dividing plate of flitch, every layer of all horizontal structure of dividing plate, the left and right sides of every layer of dividing plate is all fixed on the inwall of flitch frame, a passage is formed between neighbouring two-layer dividing plate, the magnetic embryo be placed on flitch is shifted onto the flat board of pre-storage platform by this passage from flitch for pusher, be placed on the horizontal structure of end face of the flitch on dividing plate, described material toggling mechanism comprises horizontal support frame, crossbeam, left pilot bar, right pilot bar, left orienting lug, right orienting lug, feed screw nut, screw mandrel, lead screw motor, material toggling head and lift cylinder, described horizontal support frame is fixed in frame, this horizontal support frame is positioned at directly over the pre-storage platform of Yu Chu mechanism, described screw mandrel is rotating to be connected on horizontal support frame, the horizontal structure of this screw mandrel, described lead screw motor is connected with one end of screw mandrel, described left pilot bar and right pilot bar are all fixed on horizontal support frame, this left pilot bar and right pilot bar lay respectively at the both sides of screw mandrel, described left pilot bar, right pilot bar and screw mandrel parallel, described left orienting lug and right orienting lug are set on left pilot bar and right pilot bar, the two ends of described crossbeam are separately fixed on left orienting lug and right orienting lug, this crossbeam is vertical with screw mandrel, described feed screw nut is fixed on crossbeam, this feed screw nut to be sleeved on screw mandrel and and screw mandrel coordinate, described lift cylinder is fixed on crossbeam, this lift cylinder is vertical shape structure, described material toggling head is string configuration, the length of this material toggling head is equal with the width of pre-storage platform, the top of described material toggling head is fixed on the bottom of lift cylinder, the front end face of this material toggling head is the planar structure for material toggling, described magnetic embryo conveying mechanism is fixed in frame, pre-storage platform in this magnetic embryo conveying mechanism and Yu Chu mechanism coordinates, described magnetic embryo conveying mechanism comprises bracing frame, load-transfer device, roller bearing and drive motor, support frame as described above is fixed in frame, described load-transfer device is connected on bracing frame by roller bearing is rotating, the flat board of the conveyor surface of this load-transfer device and the pre-storage platform end face of Yu Chu mechanism flushes in the horizontal direction, spacing between described load-transfer device and pre-storage platform is 0.5-3mm, described drive motor is connected with roller bearing.

2. magnetic embryo feeder according to claim 1, is characterized in that: described frame is stainless steel.

3. magnetic embryo feeder according to claim 1, it is characterized in that: when described lifting mechanism is on working position, described lifting motor drives flitch frame to carry out step wise rising or decline, when described flitch frame often carries out a stepping-in amount, have and only have the end face of the end face of one piece of flitch and pre-storage platform to flush in the horizontal direction, and the spacing between this block flitch and pre-storage platform is 0.5-2mm, the size of the stepping-in amount of described lifting motor equals the distance between the end face of neighbouring two pieces of flitch.

4. magnetic embryo feeder according to claim 1, it is characterized in that: when described material toggling mechanism is on working position, the magnetic embryo be placed on flitch has been shifted onto on the flat board of pre-storage platform from flitch by pusher, described lift cylinder drives material toggling head to rise, make the height bottom material toggling head higher than the height at the top of the magnetic embryo be positioned on the flat board of pre-storage platform, first crossbeam is moved backward to the one end near flitch frame by the rotation of screw mandrel, lift cylinder drives material toggling head to decline, make to contact with the flat board of pre-storage platform bottom material toggling head, then moved forward by the step-type drive crossbeam of the rotation of screw mandrel, the magnetic embryo that the step-type promotion of the front end face of material toggling head is positioned on the flat board of pre-storage platform moves to magnetic embryo conveying mechanism, the stepping-in amount that crossbeam moves forward equals length along magnetic embryo on moving direction or width.

5. magnetic embryo feeder according to claim 1, is characterized in that: the height of the passage between the neighbouring two-layer dividing plate in described lifting mechanism is 3-30cm.

6. magnetic embryo feeder according to claim 1, it is characterized in that: described lifting mechanism also comprises synchronizing shaft and two gears, the quantity of the chain in described lifting mechanism is two, described lifting motor is connected with synchronizing shaft, the horizontal structure of described synchronizing shaft, and described two gears are all fixed on synchronizing shaft, these two gears parallel, article two, chain respectively with two gears meshing, two chains are all fixed with flitch frame, and two chains lay respectively at the both sides of flitch frame.

7. magnetic embryo feeder according to claim 1, is characterized in that: the quantity of the lifting guidepost in described lifting mechanism is two, and two lifting guideposts lay respectively at the both sides of flitch frame.

8. magnetic embryo feeder according to claim 1, it is characterized in that: the bottom of described frame is rectangle structure, the quantity of described universal rolling wheel is six, six universal rolling wheels are arranged in two rows, often row is three, the quantity of described leg is four, and four legs lay respectively on four angles of the bottom of the rectangle structure of frame.