JP5663643B2 - Permanent magnet resin sealing method - Google Patents

Description

The present invention relates to a resin sealing method for a permanent magnet (by a magnet mold) in which a permanent magnet is fixed to a laminated iron core with a resin.

Conventionally, as a method of manufacturing a rotor laminated iron core by fixing a permanent magnet to a laminated iron core (a laminated body formed by laminating a plurality of iron core pieces) by resin sealing, for example, the invention described in Patent Document 1 is disclosed. Are known. In the invention described in Patent Document 1, first, an iron core piece in which a plurality of through holes are formed is manufactured by pressing, and the iron core pieces are laminated and integrated by fixing means such as caulking or welding, so that the through holes communicate with each other. The laminated body (laminated iron core) provided with two or more magnet insertion holes formed by is formed. Next, a permanent magnet is inserted into each magnet insertion hole of the laminate, and a liquid resin material is injected into a resin injection portion formed between the magnet insertion hole and the inserted permanent magnet, and cured to insert the magnet. The rotor laminated core is manufactured by fixing a permanent magnet in the hole.

JP 2002-34187 A

However, in the resin sealing method of Patent Document 1, it is premised that the resin injection portion for performing resin injection is a closed space, and is formed in the rotor laminated core 100 as shown in FIG. When the magnet insertion hole 102 for inserting the permanent magnet 101 is not closed and communicates with the outer space via the opening 103, the rotor laminated core 100 is covered from the outside so that the magnet insertion hole 102 becomes a closed space. Therefore, it is necessary to newly install peripheral equipment such as a sealing member (not shown) for closing the opening 103 formed in the magnet insertion hole 102 in the resin injection sealing equipment (not shown). In some cases, there is a problem that the shape of the rotor laminated core 100 must be changed. Further, even if the opening 103 of the magnet insertion hole 102 can be closed with a closing member, the resin 107 is filled up to the outer region of the opening 103 as shown in FIG. This increases the weight of the rotor laminated core 100 and increases the cost.

Even if the resin injection portion is a closed space, as shown in FIG. 12A, the resin injection portion 112 occupies the volume of the magnet insertion hole 111 into which the permanent magnet 110 formed in the rotor laminated core 109 is inserted. When the volume ratio is large, as shown in FIG. 12B, when the gap between the permanent magnet 110 and the magnet insertion hole 111 (resin injection portion 112) is filled with the resin 113, the resin is injected excessively. There arises a problem of an increase in weight and cost of the rotor core.

The present invention has been made in view of such circumstances, and it is possible to fix a permanent magnet to a laminated iron core with resin without extensive modification or introduction of equipment and without injecting resin into an originally unnecessary portion. An object of the present invention is to provide a resin sealing method of a possible permanent magnet.

A resin sealing method for a permanent magnet according to the first invention that meets the above object is formed by laminating a plurality of iron core pieces, a plurality of magnet insertion portions around a central shaft hole, and openings in the magnet insertion portions. A method of resin-sealing a permanent magnet put in the magnet insertion part of the laminated core in which an inner space part communicating with the part is formed,
A first step of disposing a closing member that is provided in a resin sealing device including an upper die and a lower die and closes the opening from the inner space portion side;
The permanent magnet closes the by sandwiching from both axial sides the magnet insertion portions by a pre inserted the said upper mold a laminated core and the lower mold, the magnet insertion portion in which the opening is closed by said closure member And a second step of filling the resin extruded from the resin reservoir provided in either the upper die or the lower die.

The resin sealing method for a permanent magnet according to the second invention in accordance with the above object is formed by laminating a plurality of iron core pieces, a plurality of magnet insertion portions around a central shaft hole, and an opening in the magnet insertion portion. It is a method of resin-sealing a permanent magnet put in the magnet insertion part of a laminated iron core in which an outer space part that is communicated through a part and exposed to the outside is formed,
The laminated iron core in which the permanent magnet is inserted in advance is sandwiched from both sides in the axial direction by an upper mold and a lower mold to close the magnet insertion portion, and is provided in a resin sealing device including the upper mold and the lower mold The magnet insertion portion whose opening is closed by a closing member is filled with resin extruded from a resin reservoir provided in either the upper die or the lower die.

In the resin sealing method for permanent magnets according to the first and second inventions, the closing member is erected on the lower mold, and the tip of the closing member is fitted into a latching portion provided on the upper mold. It is preferable.
In the resin sealing method of the permanent magnet according to the first and second inventions, it is preferable that the closing member is in contact with or close to the opening when the opening is closed by the closing member.

In the resin sealing method of the permanent magnet according to the first aspect of the present invention, since the closing member that closes the opening that passes through the inner space portion and communicates the magnet insertion portion and the inner space portion from the inner space portion side is disposed. In the resin sealing method of the permanent magnet according to the second aspect of the invention, since the closing member that closes the opening that connects each magnet insertion portion and the outer space portion from the outer space portion side is disposed, the magnet insertion portion is a closed space. Thus, it is possible to prevent the resin from being injected into the originally unnecessary portion, and the amount of resin used can be reduced. As a result, the weight of the laminated iron core can be reduced and the manufacturing cost can be reduced.

In the resin sealing method of the permanent magnet according to the first and second inventions, when the closing member is in contact with the opening when the opening is closed by the closing member, the opening is securely closed to prevent resin leakage. The resin injection portion formed outside the permanent magnet can be filled with a necessary amount of resin without causing the occurrence. In addition, when the closing member is close to the opening when the opening is closed by the closing member, it avoids wear damage caused by contact between the closing member and the opening, and does not cause resin leakage. A required amount of resin can be filled in the resin injection portion formed outside the permanent magnet.

It is a top view of the laminated iron core manufactured with the resin sealing method of the permanent magnet which concerns on the 1st Embodiment of this invention. It is the fragmentary perspective view which notched some laminated iron cores manufactured with the resin sealing method of the permanent magnet. It is a sectional side view of the resin sealing apparatus used with the resin sealing method of the permanent magnet. FIG. 4 is a cross-sectional view taken along the line PP in FIG. 3. It is QQ arrow sectional drawing of FIG. It is a fragmentary perspective view of the laminated iron core manufactured with the resin sealing method of the permanent magnet which concerns on the 2nd Embodiment of this invention. It is a partial top view of the laminated iron core manufactured with the resin sealing method of the permanent magnet. It is a sectional side view of the resin sealing apparatus used with the resin sealing method of the permanent magnet. It is RR arrow sectional drawing of FIG. It is SS sectional view taken on the line of FIG. In the rotor laminated core according to the conventional example, (A) is an explanatory view when a permanent magnet is inserted into the magnet insertion hole, and (B) is an explanatory view when the permanent magnet inserted into the magnet insertion hole is resin-sealed. is there. In the rotor laminated core according to the conventional example, (A) is an explanatory view when a permanent magnet is inserted into the magnet insertion hole, and (B) is an explanatory view when the permanent magnet inserted into the magnet insertion hole is resin-sealed. is there.

Next, embodiments of the present invention will be described with reference to the accompanying drawings for understanding of the present invention.
As shown in FIGS. 1 and 2, a rotor laminated core 10, which is an example of a laminated core manufactured by the permanent magnet resin sealing method according to the first embodiment of the present invention, includes a plurality of core pieces 11. A plurality of magnet insertion portions 14 for inserting the permanent magnets 13 around the central shaft hole 12 are formed. One of the magnet insertion portions 14 has an inner space portion 16 through an opening 15. Is formed. The resin 17 used to enclose the permanent magnet 13 in the magnet insertion portion 14 is exposed toward the inner space portion 16 at the position of the opening 15. By forming the inner space portion 16 in the rotor laminated core 10, the weight of the rotor laminated core 10 can be reduced, and the responsiveness of rotation and stop of the rotor laminated core 10 can be improved. The reluctance torque can be increased by improving the pole ratio. In addition, the resin 17 used to enclose the permanent magnet 13 in the magnet insertion portion 14 is exposed toward the inner space portion 16 at the position of the opening 15, thereby preventing the resin 17 from being injected into the inner space portion 16. Therefore, the amount of resin used is reduced, and the weight of the rotor laminated core 10 can be reduced and the manufacturing cost can be reduced.

The permanent magnet resin sealing method according to the first embodiment of the present invention is formed by laminating a plurality of iron core pieces 11 as shown in FIGS. A plurality of magnet insertion portions 14 are formed, and an inner space portion 16 is provided between a pair of magnet insertion portions 14 arranged close to each other, and one side of the magnet insertion portion 14 (the inner space portion 16 side). In the rotor laminated core 10 in which the magnet insertion portion 14 communicates with the inner space portion 16 through the openings 15 provided in each), the permanent magnets 13 placed in the respective magnet insertion portions 14 are resin-sealed. This is a method of resin sealing using the device 18. And the resin sealing method of the permanent magnet which concerns on 1st Embodiment has mounted the rotor lamination | stacking iron core 10 in the lower mold | type 20 attached to the raising / lowering plate 19 provided in the resin sealing apparatus 18, A pin member 21, which is an example of a closing member standing on the lower mold 20, is inserted into the inner space portion 16 of the rotor laminated core 10 so that the opening 15 is closed from the inner space portion 16 side. It has the 1st process which arrange | positions the member 21. FIG.

In addition, the lower mold 20 is fitted into the shaft hole 12 of the rotor laminated core 10 at the center thereof, and positioned with respect to the lower mold 20 of the rotor laminated core 10 placed on the lower mold 20 (the shaft of the lower mold 20). A guide shaft 22 is provided for matching the center position and the axial center position of the rotor laminated core 10 and setting the circumferential angular position of the rotor laminated core 10 around the axis of the lower mold 20. As a result, when the pin member 21 is inserted through the inner space portion 16, the side portion of the pin member 21 is in contact with or close to the opening portion 15, and the opening portion 15 is closed by the pin member 21. (Closed).

Furthermore, the resin sealing method of the permanent magnet according to the first embodiment is as follows. As shown in FIGS. 3 to 5, the permanent magnet is inserted into the magnet insertion portion 14 of the rotor laminated core 10 placed on the lower mold 20. 13 is inserted, and the elevating plate 19 is raised, and the fixing member 23 is fixed to an upper fixing plate (not shown) provided in the resin sealing device 18 so as to face the elevating plate 19 above the elevating plate 19. The upper die 24 and the lower die 20 attached via the upper die 24 and the lower die 20 hold the rotor laminated core 10 from both sides in the axial direction (vertical direction), and the pin member 21 closes the opening 15 and the upper die. The resin 17 filled in the resin reservoir 25 provided in the upper die 24 is pushed out to the magnet insertion portion 14 in a state where the upper and lower portions are respectively closed with the lower die 20 and the lower die 20 using the plunger 25a, and the resin flow path 26 is formed. Via the magnet insertion part 14 (that is, A second step in which a process 3 for filling the resin 17 into the gap) between the permanent magnet 13 and the magnet insertion portion 14.
In addition, the protruding dimension of the pin member 21 erected on the lower mold 20 is formed to be larger than the maximum lamination thickness of the rotor lamination core 10. The tip of the pin member 21 with the opening 15 closed is fitted into a latching portion (through hole) 28 provided through the upper mold 24.

As shown in FIGS. 6 and 7, a rotor laminated core 29, which is an example of a laminated core manufactured by the permanent magnet resin sealing method according to the second embodiment of the present invention, includes a plurality of core pieces 30. A plurality of magnet insertion portions 33 for inserting the permanent magnets 32 are formed around the central shaft hole 31, and a part of the magnet insertion portion 33 is exposed to the outside through the opening 34. It communicates with the outer space part 35. The resin 17 used to enclose the permanent magnet 32 in the magnet insertion portion 33 is exposed toward the outer space portion 35 at the position of the opening 34. By forming the outer space 35 on the outer peripheral side of the rotor laminated core 29, the weight of the rotor laminated core 29 can be reduced, and the response of rotation and stop of the rotor laminated core 29 can be improved. The reluctance torque can be increased by improving the salient pole ratio. Further, the resin 17 used to enclose the permanent magnet 32 in the magnet insertion portion 33 is exposed toward the outer space portion 35 at the position of the opening 34, and the resin 17 is prevented from flowing out to the outer space portion 35. As a result, the amount of resin used is reduced, and the weight of the rotor laminated core 29 can be reduced and the manufacturing cost can be reduced.

As shown in FIGS. 8 to 10, the permanent magnet resin sealing method according to the second embodiment of the present invention is formed by laminating a plurality of core pieces 30 and around a central shaft hole 31. In the rotor laminated core 29 in which a plurality of magnet insertion portions 33 are formed, the permanent magnets 32 placed in the respective magnet insertion portions 33 are resin-sealed using a resin sealing device 36. Here, an opening 34 is provided on one side of each magnet insertion portion 33 (the outer peripheral side of the rotor laminated core 29), and each magnet insertion portion 33 is connected to the rotor laminated core 29 via the opening 34. It communicates with an outer space 35 provided on the outer periphery of the rotor laminated core 29 so as to open to the outer space outside. And the resin sealing method of the permanent magnet which concerns on 2nd Embodiment mounts the rotor lamination | stacking iron core 29 in the lower mold | type 38 attached to the raising / lowering plate 37 provided in the resin sealing apparatus 36, A pin member 39, which is an example of a closing member provided upright with a gap provided outside the outer space portion 35 of the rotor laminated iron core 29, is illustrated inside the guide portion 40 formed of a long hole formed in the lower die 38. The first step is to dispose the pin member 39 so that the opening 34 is closed from the outer space 35 side by being moved through the drive mechanism that is not.

The lower die 38 is inserted into the center hole 31 of the rotor laminated core 29 and positioned relative to the lower die 38 of the rotor laminated core 29 placed on the lower die 38 (the axis of the lower die 38). A guide shaft 41 is provided for matching the center position and the axial center position of the rotor laminated core 29 and setting the circumferential angular position of the rotor laminated core 29 around the axis of the lower mold 38. As a result, when the pin member 39 moves in the guide portion 40, the side portion of the pin member 39 comes into contact with or close to the opening portion 34, and the opening portion 34 is closed by the pin member 39. (Closed).

Furthermore, in the resin sealing method for the permanent magnet according to the second embodiment, as shown in FIGS. 8 to 10, the permanent magnet is inserted into the magnet insertion portion 33 of the rotor laminated core 29 placed on the lower mold 38. The process 1 for inserting 32 and the elevating plate 37 are raised, and the fixing member 42 is fixed to an upper fixing plate (not shown) provided in the resin sealing device 36 so as to face the elevating plate 37 above the elevating plate 37. The upper die 43 and the lower die 38 attached via the upper die 43 and the lower die 38 hold the rotor laminated core 29 from both sides in the axial direction (vertical direction), and the pin member 39 closes the opening 34, and the upper die The resin 17 filled in the resin reservoir portion 44 provided in the upper die 43 is pushed out to the magnet insertion portion 33 in the state where the upper and lower portions are respectively closed by the upper die 43 and the lower die 38 using the plunger 45, and the resin flow path 46 is formed. Through the magnet insertion portion 33 (i.e., In the gap) between the permanent magnet 32 and the magnet insertion portion 33 having a second step in which a process 3 for filling the resin 17.
The protruding dimension of the pin member 39 erected on the lower mold 38 is formed to be larger than the maximum laminated thickness of the rotor laminated iron core 29. Then, the tip of the pin member 39 in a state where the opening 34 is closed is fitted into a latching portion (through hole) 48 provided through the upper mold 43.

As described above, the present invention has been described with reference to the embodiment. However, the present invention is not limited to the configuration described in the above-described embodiment, and the matters described in the scope of claims. Other embodiments and modifications conceivable within the scope are also included.
For example, in the first and second embodiments, the closure member (pin member) is erected on the lower mold, but the closure member may be erected on the upper mold, and is not necessarily upper or lower. It is not necessary to stand directly on the mold, and it may be built in the resin sealing device in advance, and may be movable so that it protrudes only at the time of resin sealing and is erected on the upper mold or the lower mold. Furthermore, a resin reservoir may be provided in the lower mold.
The protruding dimension of the closing member (pin member) may be the same as the maximum laminated thickness of the laminated iron core (rotor laminated iron core).

10: Rotor laminated iron core, 11: Iron core piece, 12: Shaft hole, 13: Permanent magnet, 14: Magnet insertion part, 15: Opening part, 16: Inner space part, 17: Resin, 18: Resin sealing device, 19: lifting plate, 20: lower mold, 21: pin member, 22: guide shaft, 23: fixing member, 24: upper mold, 25: resin reservoir, 25a: plunger, 26: resin flow path, 28: hook Stopping part, 29: Rotor laminated iron core, 30: Iron core piece, 31: Shaft hole, 32: Permanent magnet, 33: Magnet insertion part, 34: Opening part, 35: Outer space part, 36: Resin sealing device, 37 : Lift plate, 38: Lower mold, 39: Pin member, 40: Guide part, 41: Guide shaft, 42: Fixed member, 43: Upper mold, 44: Resin reservoir, 45: Plunger, 46: Resin flow path 48: Hook

Claims (4)

The magnet insertion of a laminated core formed by laminating a plurality of iron core pieces, wherein a plurality of magnet insertion portions are formed around a central shaft hole, and an inner space portion communicating with the magnet insertion portion via an opening is formed. It is a method of resin-sealing the permanent magnet put in the part,
A first step of disposing a closing member that is provided in a resin sealing device including an upper die and a lower die and closes the opening from the inner space portion side;
The permanent magnet closes the by sandwiching from both axial sides the magnet insertion portions by a pre inserted the said upper mold a laminated core and the lower mold, the magnet insertion portion in which the opening is closed by said closure member And a second step of filling a resin extruded from a resin reservoir provided in either the upper die or the lower die. A plurality of core pieces are formed by laminating, and a plurality of magnet insertion portions are formed around a central shaft hole, and an outer space portion is formed which communicates with the magnet insertion portions through an opening and is partially exposed to the outside. A method of resin-sealing a permanent magnet placed in the magnet insertion part of the laminated core,
The laminated iron core in which the permanent magnet is inserted in advance is sandwiched from both sides in the axial direction by an upper mold and a lower mold to close the magnet insertion portion, and is provided in a resin sealing device including the upper mold and the lower mold Resin sealing of a permanent magnet, wherein the magnet insertion portion whose opening is closed by a closing member is filled with a resin extruded from a resin reservoir provided in either the upper die or the lower die Method. 3. The permanent magnet resin sealing method according to claim 1, wherein the closing member is erected on the lower mold, and a tip of the closing member is fitted into a latching portion provided on the upper mold. A resin sealing method for a permanent magnet. The resin sealing method for a permanent magnet according to any one of claims 1 to 3, wherein the closing member is in contact with or close to the opening when the opening is closed by the closing member. And a permanent magnet resin sealing method.

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