CN218487674U - Magnet assembling equipment - Google Patents

Abstract

The utility model relates to the technical field of magnet assembly, in particular to a magnet and magnet assembly equipment, which comprises a magnet body, a feeding device for feeding the magnet body, a material receiving device connected with the feeding device and used for receiving the magnet body fed by the feeding device, a material taking device used for taking materials on the material receiving device and a placing device used for receiving the magnet body grabbed by the material taking device for assembly; receiving device includes the take-up (stock) pan, has seted up on the take-up (stock) pan and has connect the silo, feedway enters into the magnet body feed and connects the silo, the surface of take-up (stock) pan is equipped with the material loading apron, the material loading apron is connected with the material loading cylinder, material loading silo and spacing groove have been seted up to the material loading apron, the material loading cylinder is used for driving the material loading apron to make material loading silo and spacing groove move about in turn in connecing the silo, when material loading silo and connect the silo to correspond, extracting device gets the material on connecing the silo. The utility model is used for magnet automatic feeding, get the material equipment, degree of automation is high.

Description

Magnet assembling equipment

Technical Field

The utility model relates to a magnet equipment technical field especially relates to a magnet and magnet equipment.

Background

The common strong magnet is made of rare earth materials such as neodymium iron boron and has the characteristic of large magnetic force in unit mass. Generally, 600 times of the weight of the magnet can be absorbed, but the magnet is small in strength and fragile. The magnet has wide application field, and is commonly used in the fields of electroacoustic, electronic and electric appliances, motors, mechanical equipment, medical care and the like.

When the magnet is assembled on a product, the product needs to be automatically fed and positioned and then is taken and assembled, the existing assembling equipment has high difficulty in positioning the magnet, generally adopts direct feeding and then grabbing, does not adopt material positioning and limiting, and influences subsequent assembly.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a be used for magnet automatic feed through feedway, the feed carries on spacingly and material loading under the alternative effect of spacing groove and last silo to the take-up pan, and the material loading process is through extracting device with the magnet body place the magnet and the magnet equipment of putting the equipment on putting the device after grabbing the magnet body on connecing the silo.

The utility model adopts the technical proposal that: the utility model provides a magnet, includes the magnet body, the magnet body includes first magnetic pole face and second magnetic pole face, first magnetic pole face is the upper and lower surface of magnet body respectively with second magnetic pole face, magnet body both sides are equipped with first inclined plane and second inclined plane respectively, first inclined plane and second inclined plane are parallel, make the cross-section of magnet body form parallelogram shape.

The further improvement of the scheme is that the peripheral corners of the magnet body are all R corners.

A magnet assembling device comprises a magnet body, a feeding device for feeding the magnet body, a material receiving device connected to the feeding device and used for receiving the magnet body fed by the feeding device, a material taking device used for taking materials from the material receiving device, and a placing device used for receiving and assembling the magnet body grabbed by the material taking device; receiving device includes the take-up (stock) pan, the take-up (stock) pan has been seted up and has been connect the silo, feedway enters into the take-up (stock) pan with the magnet body feed, the surface of take-up (stock) pan is equipped with the material loading apron, the material loading apron is connected with the material loading cylinder, material loading silo and spacing groove have been seted up to the material loading apron, the material loading cylinder is used for driving the material loading apron to make material loading silo and spacing groove move about in turn in connect the silo, when material loading silo and connect the silo to correspond, material taking device gets the material on connecting the silo.

The magnet body comprises a first magnetic pole surface and a second magnetic pole surface, wherein the first magnetic pole surface and the second magnetic pole surface are respectively the upper surface and the lower surface of the magnet body, a first inclined surface and a second inclined surface are respectively arranged on two sides of the magnet body, and the first inclined surface and the second inclined surface are parallel to each other so that the cross section of the magnet body forms a parallelogram shape; the peripheral corner of the magnet body is an R corner.

The feeding device comprises a feeding disc, a feeding rail connected to the feeding disc and a vibrator connected to the feeding rail, the feeding rail is provided with a feeding groove used for feeding the magnet body in a vibrating mode, the feeding disc is a vibrating disc and used for feeding the magnet body to the feeding groove in a vibrating mode, and the vibrator is used for conveying the magnet body on the feeding groove in a vibrating mode through the feeding rail.

The scheme is further improved in that a plurality of feeding grooves are arranged, a plurality of material receiving grooves are arranged, the number of the material receiving grooves is the same as that of the feeding grooves, and the feeding grooves are connected with the material receiving grooves; the feed track both sides are equipped with counterpoint and compress tightly the subassembly, counterpoint and compress tightly the subassembly and be used for compressing tightly the location with feed track near take-up (stock) pan one end.

The scheme is further improved in that sliding limiting blocks are arranged on two sides of the receiving disc, sliding guide grooves and limiting screws are formed in the sliding limiting blocks, and the feeding cover plate can be slidably arranged in the sliding guide grooves; one side of material loading apron is equipped with the connecting block, the connecting block is equipped with the spring, the spring is connected in stop screw.

The technical scheme is further improved that the material taking device comprises a material taking transverse moving module, a material taking lifting module and a material taking adsorption module, wherein the material taking lifting module is installed on the material taking transverse moving module, the material taking adsorption module is installed on the material taking lifting module, the material taking adsorption module comprises a material taking suction plate, a plurality of material taking blocks are arranged on the material taking suction plate, the material taking blocks are provided with negative pressure holes, and the material taking blocks are used for adsorbing and taking the magnet body on the material receiving groove through the negative pressure holes.

The further improvement to above-mentioned scheme does, put the device including placing the support and indulge the subassembly that moves, it is used for placing product or carrier to place the support, indulge and move and install the cylinder that flattens on the subassembly, the cylinder that flattens is used for flattening the magnet body after will assembling on product or carrier.

A magnet assembly process comprises the magnet assembly equipment;

the assembly process comprises the following steps: the magnet body passes through the vibration feed, on the silo that connects on the feed-receiving dish, carry on spacingly through the spacing groove of material loading apron when sending into on the silo that connects, when the magnet body that connects on the silo targets in place or full material, material loading cylinder drive material loading apron moves spacing groove and last silo in turn, and the magnet body exposes in last silo this moment, and then extracting device gets the magnet body from connecing the silo, and the magnet body of later getting is placed and is assembled on putting the device.

The utility model has the advantages that:

compare current magnet, the utility model discloses a parallelogram's magnet structure can be applicable to automatic feed when automatic equipment, and the stability of convenient location and location at the pay-off in-process specifically has set up the magnet body, the magnet body includes first magnetic pole face and second magnetic pole face, first magnetic pole face is the upper and lower surface of magnet body respectively with second magnetic pole face, magnet body both sides are equipped with first inclined plane and second inclined plane respectively, first inclined plane is parallel, makes the cross-section of magnet body form the parallelogram shape with the second inclined plane.

Compare current magnet equipment, the utility model is used for magnet automatic feeding with get and put the equipment after the material, be used for magnet automatic feed through feedway, the feed is to the take-up (stock) pan, carries on spacingly and material loading under the alternative effect of back through spacing groove and last silo, the material loading process is through extracting device with the magnet body place after snatching the magnet body on the take-up (stock) pan put the equipment on putting the device, whole degree of automation is high, the reliable structure. The device comprises a magnet body, a feeding device for feeding the magnet body, a receiving device connected with the feeding device and used for receiving the magnet body supplied by the feeding device, a material taking device used for taking materials from the receiving device, and a placing device used for receiving and assembling the magnet body grabbed by the material taking device; the receiving device comprises a receiving disc, a receiving groove is formed in the receiving disc, the magnet body is fed into the receiving groove by the feeding device, a feeding cover plate is arranged on the surface of the receiving disc and connected with a feeding cylinder, the feeding cover plate is provided with a feeding groove and a limiting groove, the feeding cylinder is used for driving the feeding cover plate to enable the feeding groove and the limiting groove to move alternately in the receiving groove, and when the feeding groove corresponds to the receiving groove, the material is taken by the taking device on the receiving groove. The alternate limiting groove is used for limiting the magnet body on the material receiving groove, the limiting groove and the material feeding groove are alternated by driving the material feeding cover plate through the material feeding cylinder after the magnet body is in place or is full of materials, and the materials are taken through the material taking device after the magnet body is alternated.

The assembly process comprises the following steps: the magnet body passes through the vibration feed, the feed is to connect on the charging tray connect the silo, spacing groove through the material loading apron when sending into on connecting the silo carries on spacingly, when magnet body that connects on the silo targets in place or full material, material loading cylinder drive material loading apron moves spacing groove and last silo in turn, the magnet body exposes in last silo this moment, then extracting device gets the material with the magnet body from connecting the silo, the magnet body of getting will be got afterwards is placed and is assembled on putting the device, whole assembly process is simple, and the manpower is saved, and the equipment is convenient.

Drawings

Fig. 1 is a schematic perspective view of the magnet body of the present invention;

fig. 2 is a schematic perspective view of the magnet assembling apparatus of the present invention;

FIG. 3 is a schematic view of a feeding device of the magnet assembling apparatus of FIG. 2;

FIG. 4 is a schematic view of the feeding device of the magnet assembling apparatus of FIG. 2 from another perspective;

FIG. 5 is a schematic view of another view of the reclaiming apparatus of the magnet assembly apparatus of FIG. 2;

fig. 6 is a schematic structural view of another view angle of the placement device of the magnet assembling apparatus in fig. 2.

Description of reference numerals: the magnetic pole comprises a magnet body 1, a first magnetic pole surface 11, a second magnetic pole surface 12, a first inclined surface 13 and a second inclined surface 14;

the feeding device 2, the feeding disc 21, the feeding rail 22, the feeding groove 221, the alignment pressing assembly 222 and the vibrator 23;

the material receiving device 3, a material receiving disc 31, a material feeding cover plate 311, a material feeding groove 311a, a limiting groove 311b, a connecting block 311c, a spring 311d, a material feeding cylinder 312, a sliding limiting block 313, a sliding guide groove 313a, a limiting screw 313b and a material receiving groove 32;

the material taking device 4, a material taking transverse moving module 41, a material taking lifting module 42, a material taking adsorption module 43, a material taking adsorption plate 431 and a material taking block 432;

the device comprises a placing device 5, a placing support 51, a longitudinal moving assembly 52 and a flattening cylinder 53.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

As shown in fig. 1, a magnet is provided with a magnet body 1, the magnet body 1 includes a first magnetic pole surface 11 and a second magnetic pole surface 12, the first magnetic pole surface 11 and the second magnetic pole surface 12 are the upper and lower surfaces of the magnet body 1 respectively, a first inclined surface 13 and a second inclined surface 14 are respectively arranged on two sides of the magnet body 1, and the first inclined surface 13 and the second inclined surface 14 are parallel to each other, so that the cross section of the magnet body 1 forms a parallelogram shape.

The peripheral corner of magnet body 1 is the R angle, adopts the R angle design at edge, can avoid appearing the phenomenon of card material, guarantees automatic feeding's stability.

The utility model discloses a parallelogram's magnet structure can be applicable to automatic feed when automatic equipment, and the stability of convenient location and location at the pay-off in-process specifically is, has set up magnet body 1, magnet body 1 includes first magnetic pole face 11 and second magnetic pole face 12, first magnetic pole face 11 and second magnetic pole face 12 are magnet body 1's upper and lower surface respectively, magnet body 1 both sides are equipped with first inclined plane 13 and second inclined plane 14 respectively, first inclined plane 13 is parallel, makes magnet body 1's cross-section form parallelogram shape with second inclined plane 14.

As shown in fig. 1 to 6, a magnet assembling apparatus includes a magnet body 1, a feeding device 2 for feeding the magnet body 1, a material receiving device 3 connected to the feeding device 2 for receiving the magnet body 1 fed by the feeding device 2, a material taking device 4 for taking a material from the material receiving device 3, and a placing device 5 for receiving the magnet body 1 gripped by the material taking device 4 for assembling; receiving device 3 includes take-up pan 31, take-up groove 32 has been seted up on take-up pan 31, feedway 2 enters into take-up groove 32 with the feed of magnet body 1, take-up pan 31's surface is equipped with material loading apron 311, material loading apron 311 is connected with material loading cylinder 312, material loading apron 311 has seted up material loading groove 311a and spacing groove 311b, material loading cylinder 312 is used for driving material loading apron 311 and makes material loading groove 311a and spacing groove 311b move about in turn in take-up groove 32, when material loading groove 311a corresponds with take-up groove 32, extracting device 4 takes the material on take-up groove 32.

The magnet body 1 comprises a first magnetic pole surface 11 and a second magnetic pole surface 12, the first magnetic pole surface 11 and the second magnetic pole surface 12 are the upper surface and the lower surface of the magnet body 1 respectively, a first inclined surface 13 and a second inclined surface 14 are arranged on two sides of the magnet body 1 respectively, and the first inclined surface 13 and the second inclined surface 14 are parallel to each other, so that the cross section of the magnet body 1 forms a parallelogram shape; the peripheral corners of the magnet body 1 are all R corners; the magnet structure of parallelogram is adopted, so that the automatic feeding device can be suitable for automatic feeding during automatic assembly, and is convenient for positioning and positioning stability in the feeding process.

Referring to fig. 3 to 4, the feeding device 2 includes a feeding tray 21, a feeding rail 22 connected to the feeding tray 21, and a vibrator 23 connected to the feeding rail 22, the feeding rail 22 has a feeding groove 221 for feeding the magnet body 1 in a vibrating manner, the feeding tray 21 is a vibrating tray and is used for feeding the magnet body 1 to the feeding groove 221 in a vibrating manner, the vibrator 23 is used for conveying the magnet body 1 on the feeding groove 221 by the vibration of the feeding rail 22, and the magnet body 1 is fed by the vibrating tray, so that the magnet body 1 is orderly arranged for automatic feeding and stable feeding.

A plurality of feeding grooves 221 are arranged, a plurality of receiving grooves 32 are arranged, the number of the receiving grooves is the same as that of the feeding grooves 221, and the feeding grooves 221 are connected with the receiving grooves 32; the feed track 22 both sides are equipped with counterpoint and compress tightly subassembly 222, counterpoint and compress tightly subassembly 222 and be used for compressing tightly the location with feed track 22 near take-up (receiving) pan 31 one end, in this embodiment, can adopt a plurality of feed tanks 221 cooperation to connect silo 32 with a plurality of magnet body 1 material loading simultaneously, promote production efficiency.

Sliding limit blocks 313 are arranged on two sides of the take-up pan 31, each sliding limit block 313 is provided with a sliding guide groove 313a and a limit screw 313b, and the feeding cover plate 311 can be slidably arranged in the sliding guide grooves 313 a; one side of the feeding cover plate 311 is provided with a connecting block 311c, the connecting block 311c is provided with a spring 311d, the spring 311d is connected with a limit screw 313b, and is used for matching with the sliding of the feeding cover plate 311 through a sliding guide groove 313a and the limit screw 313b and is connected through the spring 311d, so that the sliding is stable, and the structure is reliable.

As shown in fig. 5, the material taking device 4 comprises a material taking traversing module 41, a material taking lifting module 42 installed on the material taking traversing module 41, and a material taking adsorption module 43 installed on the material taking lifting module 42, wherein the material taking adsorption module 43 comprises a material taking suction plate 431, a plurality of material taking blocks 432 are arranged on the material taking suction plate 431, the material taking blocks 432 are provided with negative pressure holes, and the material taking blocks 432 adsorb and take the magnet body 1 on the material receiving groove 32 through the negative pressure holes.

Referring to fig. 6, putting device 5 including placing support 51 and indulging and moving subassembly 52, place support 51 and be used for placing product or carrier, indulge to move and install cylinder 53 that flattens on the subassembly 52, cylinder 53 that flattens is used for flattening the magnet body 1 after the equipment on product or carrier, and cylinder 53 that flattens is used for flattening the magnet body 1 after the equipment to the setting, and the equipment is convenient.

The utility model is used for put the equipment after the automatic pay-off of magnet with getting the material, be used for magnet automatic feed through feedway 2, the feed is to the take-up (stock) pan 31 on, carry out spacing and material loading under the alternative effect of back through spacing groove 311b and last silo 311a, the material loading process is through extracting device 4 with magnet body 1 place after grabbing magnet body 1 on the take-up (stock) pan 32 on put 5 go on put the equipment, whole degree of automation is high, the structure is reliable. Specifically, the magnet assembly machine is provided with a magnet body 1, a feeding device 2 for feeding the magnet body 1, a material receiving device 3 connected to the feeding device 2 and used for receiving the magnet body 1 fed by the feeding device 2, a material taking device 4 used for taking materials from the material receiving device 3, and a placing device 5 used for receiving and assembling the magnet body 1 grabbed by the material taking device 4; receiving device 3 includes take-up pan 31, take-up groove 32 has been seted up on take-up pan 31, feedway 2 enters into take-up groove 32 with the feed of magnet body 1, take-up pan 31's surface is equipped with material loading apron 311, material loading apron 311 is connected with material loading cylinder 312, material loading apron 311 has seted up material loading groove 311a and spacing groove 311b, material loading cylinder 312 is used for driving material loading apron 311 and makes material loading groove 311a and spacing groove 311b move about in turn in take-up groove 32, when material loading groove 311a corresponds with take-up groove 32, extracting device 4 takes the material on take-up groove 32. Alternate limiting groove 311b is used for limiting magnet body 1 on material receiving groove 32, and when the magnet body is in place or full of material, material loading cylinder 312 drives material loading cover plate 311 to alternate limiting groove 311b and material loading groove 311a, and material is taken through material taking device 4 after the magnet body is alternated.

A magnet assembling process comprises the magnet assembling equipment, and comprises the following steps: magnet body 1 is through the vibration feed, the feed is to connect on the charging tray 31 connect the silo 32, it is spacing to carry out through the spacing groove 311b of material loading apron 311 when sending into on connecing the silo 32, when magnet body 1 that connects on the silo 32 targets in place or full material, material loading cylinder 312 drive material loading apron 311 drives spacing groove 311b and last silo 311a in turn, magnet body 1 exposes in last silo 311a this moment, then extracting device 4 gets material from connecing silo 32 with magnet body 1, later place the magnet body 1 who gets to assemble on putting device 5, whole assembly process is simple, and the manpower is saved, and the equipment is convenient.

The above examples only represent some embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (7)

1. A magnet equipment which characterized in that: the device comprises a magnet body, a feeding device for feeding the magnet body, a receiving device connected with the feeding device and used for receiving the magnet body fed by the feeding device, a taking device used for taking materials from the receiving device, and a placing device used for receiving and assembling the magnet body grabbed by the taking device; receiving device includes the take-up (stock) pan, the take-up (stock) pan has been seted up and has been connect the silo, feedway enters into the take-up (stock) pan with the magnet body feed, the surface of take-up (stock) pan is equipped with the material loading apron, the material loading apron is connected with the material loading cylinder, material loading silo and spacing groove have been seted up to the material loading apron, the material loading cylinder is used for driving the material loading apron to make material loading silo and spacing groove move about in turn in connect the silo, when material loading silo and connect the silo to correspond, material taking device gets the material on connecting the silo.

2. The magnet assembling apparatus according to claim 1, wherein: the magnet body comprises a first magnetic pole surface and a second magnetic pole surface, the first magnetic pole surface and the second magnetic pole surface are respectively the upper surface and the lower surface of the magnet body, a first inclined surface and a second inclined surface are respectively arranged on two sides of the magnet body, and the first inclined surface and the second inclined surface are parallel to each other so that the cross section of the magnet body forms a parallelogram shape; the peripheral corner of the magnet body is an R corner.

3. The magnet assembling apparatus according to claim 1, wherein: the feedway includes the feed dish, connects in the feed track of feed dish, connects in the orbital vibrator of feed, the feed track has the feed tank that is used for the pay-off of magnet body vibration, the feed dish is the vibration dish, is used for feeding the feed tank with the magnet body vibration on, the vibrator is used for the vibration of feed track to make the magnet body carry on the feed tank.

4. A magnet assembling apparatus according to claim 3, wherein: the feeding grooves are provided with a plurality of receiving grooves, the number of the receiving grooves is the same as that of the feeding grooves, and the feeding grooves are connected with the receiving grooves; the feed track both sides are equipped with counterpoint and compress tightly the subassembly, counterpoint and compress tightly the subassembly and be used for compressing tightly the location with feed track near take-up (stock) pan one end.

5. The magnet assembling apparatus according to claim 4, wherein: the two sides of the take-up pan are provided with sliding limiting blocks, the sliding limiting blocks are provided with sliding guide grooves and limiting screws, and the feeding cover plate can be slidably arranged in the sliding guide grooves; one side of material loading apron is equipped with the connecting block, the connecting block is equipped with the spring, the spring is connected in stop screw.

6. The magnet assembling apparatus according to claim 1, wherein: the material taking device comprises a material taking transverse moving module, a material taking lifting module and a material taking adsorption module, wherein the material taking lifting module is installed on the material taking transverse moving module, the material taking adsorption module is installed on the material taking lifting module, the material taking adsorption module comprises a material taking suction plate, a plurality of material taking blocks are arranged on the material taking suction plate, the material taking blocks are provided with negative pressure holes, and the material taking blocks adsorb and take materials from a magnet body on a material receiving groove through the negative pressure holes.

7. The magnet assembling apparatus according to claim 6, wherein: put the device including placing the support and indulge the subassembly that moves, it is used for placing product or carrier to place the support, indulge and move and install the cylinder that flattens on the subassembly, the cylinder that flattens is used for flattening the magnet body after assembling on product or carrier.

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