CN218836666U - Magnet inserting equipment for assembling magnetic steel - Google Patents

Abstract

The utility model relates to a magnet steel equipment of going into with, including installing the pan feeding conveyer belt on going into magnetism workstation, the head end of pan feeding conveyer belt stretches out go into magnetism workstation and upside are equipped with the storage frame, stack the material carrying board in the storage frame, the upper surface of material carrying board is equipped with two rows of material carrying holes, the bottom in material carrying hole still is equipped with the stripping ejection hole that runs through the material carrying board downwards, the center of material carrying board is equipped with two iron sheet and leads positive locating hole; the feeding conveyor belt is also provided with a guide piece feeding module positioned at the rear side of the magnetic steel distribution module, the guide piece feeding module comprises a guide piece storage rack, a guide piece conveyor belt and a guide piece feeding manipulator, a guide hole is formed in the guide piece, and a positioning vertical hole is formed in the center of the guide piece; this application leads the positive piece through add on year flitch, leads and sets up the leading positive hole that each year material hole on carrying the flitch corresponds on the positive piece, and the iron sheet accessible of treating the equipment is led the positive hole and is fallen into and carries the flitch, leads the positive piece through setting up and can prevent the unexpected removal of bonding in-process iron sheet.

Description

Magnet inserting equipment for assembling magnetic steel

Technical Field

The utility model relates to a magnet assembly technique, especially a magnet steel equipment is with going into magnetism equipment.

Background

The magnetic steel is an AlNiCo alloy (AlNiCo is an abbreviation of AlNiCo in english) which is synthesized by several hard strong metals such as iron, aluminum, nickel, cobalt and the like and is used for manufacturing the super-hardness permanent magnet alloy; in recent years, neodymium iron boron magnetic steel has been widely used in the fields of information technology, automobiles, nuclear magnetic resonance, wind power generation, motors and the like as an energy-saving and environment-friendly sunward industry.

According to the 'PET magnetic steel automatic assembly equipment' disclosed in the Chinese patent document with publication number CN114083286A, a feeding hole is formed in the front side of a cabinet body, a turntable mechanism is arranged in the cabinet body, an assembly jig is placed on a turntable of the turntable mechanism, more than two Mylar film accommodating grooves are formed in the upper surface of the assembly jig, a magnetic steel distribution module, a feeding manipulator, a pressure maintaining mechanism, a blanking manipulator, a discharging conveyor belt and a rolling mechanism are further arranged in the cabinet body, and distribution and feeding efficiency of magnetic particles in a magnetic steel assembly process can be remarkably improved; by arranging the pressure maintaining mechanism and the rolling mechanism, the magnet is reliably attached to the mylar sheet.

According to the application scene and the design requirement of the magnetic steel, the shape and the specification of the magnetic steel are different, some magnetic steels comprise a magnet and an iron sheet, the iron sheet is adhered and fixed on the surface of the magnet, in the assembling process, the magnet is required to be firstly placed on a material carrying plate for assembling, then the glue is dispensed on the surface of the magnet, and then the iron sheet is placed on the magnet for adhering and fixing; in the existing magnetic steel assembling equipment, an iron sheet is easy to accidentally move in the process of assembling and bonding the iron sheet and a magnet.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a magnet steel equipment is with going into magnetism equipment for solve the problem that the iron sheet accident removed in current iron sheet and the magnet equipment bonding process.

In order to solve the problems, the utility model provides a magnet feeding device for assembling magnet steel, which comprises a feeding conveyor belt arranged on a magnet feeding workbench, wherein the head end of the feeding conveyor belt extends out of the magnet feeding workbench, a storage rack is arranged at the upper side of the magnet feeding workbench, a material loading plate is stacked in the storage rack, a feeding manipulator is further arranged at the upper side of the feeding conveyor belt, a magnet steel material distributing module corresponding to the feeding manipulator is arranged at one side of the feeding conveyor belt, two rows of material loading holes are formed in the upper surface of the material loading plate, a material unloading ejection hole which downwards penetrates through the material loading plate is further formed in the bottom of the material loading hole, and two iron sheet guiding positioning holes are formed in the center of the material loading plate; the magnetic steel distribution module is characterized in that a guide sheet feeding module is further arranged on the feeding conveyor belt and located on the rear side of the magnetic steel distribution module, the guide sheet feeding module comprises a guide sheet storage frame, a guide sheet conveyor belt and a guide sheet feeding manipulator, guide holes corresponding to the loading holes in the loading plate are formed in the guide sheet, and positioning vertical holes corresponding to the iron sheet guide positioning holes are further formed in the center of the guide sheet.

The utility model provides a magnet steel equipment is with going into magnetism equipment still has following technical characteristic:

further, still be equipped with in the pan feeding conveyer belt with lead the jacking subassembly that positive piece pay-off machinery hand corresponds, the jacking subassembly is including being located jacking cylinder and jacking board, the jacking cylinder is installed go into on the magnetic worktable, the telescopic link of jacking cylinder upwards stretches out and the top is equipped with the jacking board, still be equipped with on the jacking board with the locating pin that positive locating hole corresponds is led to the iron sheet.

Furthermore, the upside of pan feeding conveyer belt still be equipped with the grip block that the liftout plate corresponds, the interior edge of grip block inwards extends to the inboard of pan feeding conveyer belt, the liftout plate will carry the flitch to jack up and break away from when the pan feeding conveyer belt the upper surface of year flitch is supported the downside of grip block.

Furthermore, still be equipped with in the pan feeding conveyer belt and be located the first positioning cylinder of jacking cylinder rear side, the telescopic link of first positioning cylinder upwards stretches out and is equipped with first locating plate, first locating plate along with the telescopic link of first positioning cylinder can prevent when upwards stretching out the material carrying plate along with the pan feeding conveyer belt removes backward.

Further, the width of the guide sheet is smaller than that of the material carrying plate.

Further, the distance between the inner edges of the two clamping plates is larger than the width of the correcting sheet.

Furthermore, a positioning side hole is further formed in the side edge of the material carrying plate.

The utility model discloses following beneficial effect has: this application leads the positive piece through add on year flitch, leads and sets up the leading positive hole that each year material hole on carrying the flitch corresponds on the positive piece, and the iron sheet accessible of treating the equipment is led the positive hole and is fallen into and carries the flitch, leads the positive piece through setting up and can prevent the unexpected removal of bonding in-process iron sheet.

Drawings

FIG. 1 is a schematic structural diagram of a magnetic steel to be assembled;

fig. 2 is a schematic structural view of a material loading plate in an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a magnetic inserting device for assembling magnetic steel according to an embodiment of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3 at A;

FIG. 5 is an enlarged view of a portion of FIG. 4 at C;

fig. 6 is a partial enlarged view at B in fig. 3.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments. It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

The magnetic steel shown in fig. 1 comprises a magnetic block 101 and an iron sheet 102, wherein the iron sheet 102 is fixedly bonded on the surface of the magnetic block 101, and the magnetic steel assembling magnetic loading equipment is used for placing the magnetic block 101 in a material loading hole in a material loading plate.

As shown in fig. 2, two rows of material loading holes 31 are formed in the upper surface of the material loading plate 30, a material unloading ejection hole 32 penetrating the material loading plate 30 downward is further formed in the bottom of the material loading hole 31, two iron sheet guiding positioning holes 33 are formed in the center of the material loading plate 30, and one magnetic block 101 can be placed in each material loading hole 31, so that subsequent dispensing and pasting operations are facilitated.

In the embodiment of the magnetic steel assembling magnetic device of the present invention as shown in fig. 3 to fig. 6, the magnetic steel assembling magnetic device includes a feeding conveyor 20 installed on the feeding magnetic table 10, the head end of the feeding conveyor 20 extends into the feeding magnetic table 10 and the upper side of the feeding conveyor is provided with a storage rack 21, a material loading plate 30 is stacked in the storage rack 21, the upper side of the feeding conveyor 20 is further provided with a feeding manipulator 40, one side of the feeding conveyor 20 is provided with a magnetic steel distribution module 50 corresponding to the feeding manipulator 40, the upper surface of the material loading plate 30 is provided with two rows of material loading holes 31, the bottom of the material loading holes 31 is further provided with a material unloading ejection hole 32 penetrating the material loading plate 30 downwards, and the center of the material loading plate 30 is provided with two iron sheet guiding positioning holes 33; the feeding conveyor belt 20 is also provided with a guide sheet feeding module 60 positioned at the rear side of the magnetic steel distribution module 50, the guide sheet feeding module 60 comprises a guide sheet storage rack 61, a guide sheet conveyor belt 62 and a guide sheet feeding manipulator 63, a guide sheet 64 is provided with guide holes 65 corresponding to the loading holes 31 on the loading plate 30, and the center of the guide sheet 64 is also provided with a positioning vertical hole 66 corresponding to the iron sheet guide positioning hole 33; this application leads just piece through add on year flitch, leads and sets up on just piece and lead just hole 65 that each year material hole 31 on carrying flitch 30 corresponds, and the iron sheet accessible that treats the equipment leads just the hole and falls into and carries the flitch, leads just the piece through setting up and can prevent the unexpected removal of bonding in-process iron sheet.

In an embodiment of the present application, preferably, a jacking assembly corresponding to the guide sheet feeding manipulator 63 is further disposed in the feeding conveyor belt 20, the jacking assembly includes a jacking cylinder and a jacking plate, the jacking cylinder is mounted on the magnetic feeding worktable, a telescopic rod of the jacking cylinder extends upwards, the top end of the telescopic rod of the jacking cylinder is provided with the jacking plate, and the jacking plate is further provided with a positioning pin 71 corresponding to the iron sheet guide positioning hole 33; when the material carrying hole 31 moves above the jacking plate along with the feeding conveyor belt 20, the telescopic rod of the jacking cylinder extends upwards to drive the jacking plate to move upwards, the positioning pin 71 on the jacking plate is inserted into the iron sheet guiding positioning hole 33 on the material carrying plate 30, and the jacking plate moves upwards to lift the material carrying plate upwards from the bottom to separate the material carrying plate from the feeding conveyor belt.

In an embodiment of the present application, preferably, the upper side of the feeding conveyor belt 20 is further provided with a clamping plate 72 corresponding to the lifting plate, the inner edge of the clamping plate 72 inwardly extends to the inner side of the feeding conveyor belt 20, and the lifting plate pushes up the material carrying plate 30 upwards to be separated from the feeding conveyor belt 20, so that the upper surface of the material carrying plate 30 abuts against the lower side of the clamping plate 72, and the material carrying plate is reliably positioned in the vertical direction.

In an embodiment of the present application, preferably, a first positioning cylinder 73 located at the rear side of the jacking cylinder is further disposed in the feeding conveyor belt 20, an expansion rod of the first positioning cylinder 73 extends upwards, and a first positioning plate 74 is disposed at the top end of the expansion rod, and when the first positioning plate 74 extends upwards along with the expansion rod of the first positioning cylinder 73, the first positioning plate 74 can prevent the material carrying plate 30 from moving backwards along with the feeding conveyor belt 20, so that the material carrying plate can be accurately parked above the jacking plate.

In one embodiment of the present application, it is preferable that the width of the pilot piece 64 is smaller than the width of the carrier plate 30; preferably, the distance between the inner edges of the two clamping plates 72 is greater than the width of the witness plate 64, thereby allowing the loading plate to be conveniently capped over the loading plate after it is lifted into position. Preferably, positioning side holes 34 are further provided on the side edges of the carrier plate 30 to facilitate positioning of the carrier plate.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (7)

1. A magnetic feeding device for magnetic steel assembly comprises a magnetic feeding conveyor belt installed on a magnetic feeding workbench, wherein the head end of the magnetic feeding conveyor belt extends out of the magnetic feeding workbench, a storage rack is arranged on the upper side of the magnetic feeding workbench, a material loading plate is stacked in the storage rack, a material feeding mechanical arm is further arranged on the upper side of the magnetic feeding conveyor belt, a magnetic steel distribution module corresponding to the material feeding mechanical arm is arranged on one side of the magnetic feeding conveyor belt, the magnetic steel distribution device is characterized in that two rows of material loading holes are formed in the upper surface of the material loading plate, a material unloading ejection hole penetrating through the material loading plate downwards is further formed in the bottom of the material loading hole, and two iron sheet guiding positioning holes are formed in the center of the material loading plate; the magnetic steel distribution module is characterized in that a guide sheet feeding module is further arranged on the feeding conveyor belt and located on the rear side of the magnetic steel distribution module, the guide sheet feeding module comprises a guide sheet storage frame, a guide sheet conveyor belt and a guide sheet feeding manipulator, guide holes corresponding to the loading holes in the loading plate are formed in the guide sheet, and positioning vertical holes corresponding to the iron sheet guide positioning holes are further formed in the center of the guide sheet.

2. The magnetic steel assembling magnet-inserting device according to claim 1, wherein: the pan feeding conveyer belt still be equipped with lead the jacking subassembly that positive piece pay-off manipulator corresponds, the jacking subassembly is including being located jacking cylinder and jacking board, the jacking cylinder is installed go into on the magnetic worktable, the telescopic link of jacking cylinder upwards stretches out and the top is equipped with the jacking board, still be equipped with on the jacking board with the locating pin that the locating hole corresponds is led to the iron sheet.

3. The magnetic steel assembling magnet-inserting device according to claim 2, wherein: the upside of pan feeding conveyer belt still be equipped with the grip block that the liftout plate corresponds, the interior edge of grip block inwards extends to the inboard of pan feeding conveyer belt, the liftout plate will carry the flitch to jack up upwards and break away from when the pan feeding conveyer belt the upper surface of year flitch is contradicted the downside of grip block.

4. The magnet installation device for assembling magnetic steel according to claim 3, wherein: still be equipped with in the pan feeding conveyer belt and be located the first positioning cylinder of jacking cylinder rear side, the telescopic link of first positioning cylinder upwards stretches out and is equipped with first locating plate, first locating plate along with the telescopic link of first positioning cylinder can prevent when upwards stretching out the material carrying plate along with the pan feeding conveyer belt removes backward.

5. The magnet installation device for assembling magnetic steel according to claim 4, wherein: the width of the guide sheet is smaller than that of the material carrying plate.

6. The magnet installation device for assembling magnetic steel according to claim 5, wherein: the distance between the inner edges of the two clamping plates is larger than the width of the correcting sheet.

7. The magnet installation equipment for assembling magnetic steel according to claim 1, wherein: and a positioning side hole is also formed in the side edge of the material carrying plate.

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