CN206332582U - The manufacture device of the insulating element of rotor core - Google Patents

Abstract

The utility model proposes a kind of manufacture device of the insulating element of rotor core.It is used for the manufacture device of the insulating element of forming rotor iron core in the prior art, it is impossible to adjust according to the thickness of the first iron core and the second iron core.The utility model proposes a kind of manufacture device of the insulating element of rotor core, including：Fixing mould；First moveable die；Second moveable die；And mould is injected, the manufacture device is characterised by：First moveable die one to the other end be configured with the first elastomeric element, in one elastic deformation can occur upwards for first elastomeric element, second moveable die one to the other end be configured with the second elastomeric element, in one elastic deformation can occur upwards for second elastomeric element.The utility model is simple in construction, reasonable in design, is suitable for the thickness of the first rotor iron core and the second rotor core, and adjust according to the first rotor iron core and the second rotor core thickness.

Description

The manufacture device of the insulating element of rotor core

Technical field

The utility model is related to a kind of manufacture device of the insulating element of rotor core, it is adaptable to the insulation on stator core The shaping of part.

Background technology

Rotor core is formed by being laminated the linear thin plate got off is punched from steel plate.Rotor core is by first Iron core and the second iron core both iron cores composition, the first iron core is integrally formed by resin with the second iron core, and is linked as one Body, the first iron core has axis hole, in order to not make resin enter axis hole, and is abutted by mould with axis hole.Second iron core, to make The outer peripheral face of two iron cores is not covered by resin, and is abutted near the periphery surface side of the second iron core by mould.

It is used for the manufacture device of the insulating element of forming rotor iron core in the prior art, including：Fixing mould, it has energy Accommodate the space of the first iron core and the second iron core；First moveable die, its one end, which has, to be connected to the first of the first iron core and supports Junction；Second moveable die, it has the second bearing surface for being connected to the second iron core；And injection mould, itself and fixing mould Space connection, and infuse resin into the space of the fixing mould.

Because there is deviation unavoidably in the first iron core and the thickness of the second iron core that are laminated, and the first bearing surface and second The stroke of bearing surface is fixed, it is impossible to adjusted according to the thickness of the first iron core and the second iron core.When the first iron core or When the thickness of second iron core is thick, bearing surface can make the first iron core and the second iron core cause scar, when the first iron core and the second iron core Thickness of thin when, resin enters between bearing surface and iron core, and causes defective products.

Utility model content

The purpose of this utility model is to overcome above shortcomings in the prior art, and provides a kind of structure design and close Reason, is suitable for the thickness of the first rotor iron core and the second rotor core, and thick according to the first rotor iron core and the second rotor core Spend the manufacture device of the insulating element of the rotor core adjusted.

The purpose of this utility model is to overcome above shortcomings in the prior art, and provides a kind of rotor core The manufacture device of insulating element, the rotor core includes the first rotor iron core and the second rotor core, described rotor core The manufacture device of insulating element include：Fixing mould, it, which has, can accommodate the radially inner side that is configured at the fixing mould The space of second rotor core of the first rotor iron core and the radial outside for being configured at the fixing mould；First Moveable die, it extends along a direction, one to one end have and be connected to the first of the first rotor iron core and support Junction；Second moveable die, its along one to extension, one to one end have and be connected to second rotor Second bearing surface of iron core；And injection mould, it is connected with the space of the fixing mould, and is infused resin into described In the space of fixing mould, the manufacture device is characterised by：First moveable die one to it is another One end is configured with the first elastomeric element, and in one elastic deformation, described second can occur upwards for first elastomeric element Moveable die one to the other end be configured with the second elastomeric element, second elastomeric element is upward in one Can occur elastic deformation.

In the utility model, by setting the first elastomeric element on the first moveable die, pass through the first elastomeric element Elastic deformation can move the first moveable die, the first bearing surface of the first moveable die is abutted with the first rotor iron core When, it can be adjusted, therefore, even if the thickness of the first rotor iron core has error, also can according to the thickness of the first rotor iron core Enough the first moveable die is set to be connected to the first rotor iron core very close to each otherly by appropriate power, as a result, when first turn When the thickness of sub- iron core is thick, the first rotor iron core will not produce scar because of the first bearing surface, when the first rotor iron core is thin, tree Fat will not also enter between the first rotor iron core and the first bearing surface；Similarly by setting the second elasticity on the second moveable die Part, can move the second moveable die by the elastic deformation of the second elastomeric element, make the second of the second moveable die to abut Face can be adjusted, therefore, even if the second rotor when being abutted with the second rotor core according to the thickness of the second rotor core There is error in the thickness of iron core, the second moveable die is connected to the second rotor very close to each otherly by appropriate power Iron core, as a result, when the thickness of the second rotor core is thick, the second rotor core will not produce wound because of the second bearing surface Trace, when the second rotor core is thin, resin will not also enter between the second rotor core and the second bearing surface.

First bearing surface described in the utility model is located under the space of the fixing mould upwards in one Side.

Second bearing surface described in the utility model is located under the space of the fixing mould upwards in one Side.

First elastomeric element described in the utility model is spring members.The main body of spring members is spring, and spring is in external force Deformed upon under effect, remove and restored to the original state again after external force, the utility model is by the elastic deformation of spring, so that first is movable First bearing surface of mould is connected on the first rotor iron core with appropriate power all the time.

Second elastomeric element described in the utility model is spring members.Its effect is ibid.

First moveable die described in the utility model has multiple.Multiple the first rotor iron cores thus can be abutted simultaneously, be The insulating element for being molded multigroup rotor core simultaneously provides condition.

Second moveable die described in the utility model has multiple.Multiple second rotor cores thus can be abutted simultaneously, be The insulating element for being molded multigroup rotor core simultaneously provides condition.

The utility model also has determining for the axial location for positioning the first rotor iron core and second rotor core Position platform, the positioning table is located at the upside in the space of the upward fixing mould of one.Positioning table, which is connected to, to be turned The upside of sub- iron core, its effect is abutted with the first rotor iron core and the second rotor core of rotor core, is not covered at its abutting Lid resin.

The utility model compared with prior art, with advantages below and effect：It is simple in construction, it is reasonable in design；By setting The first elastomeric element and the second elastomeric element are put, the first bearing surface of the first moveable die is abutted with the first rotor iron core, Second bearing surface of the second moveable die is suitable for the first rotor iron core and the second rotor iron when being abutted with the second rotor core The thickness of core, and adjusted according to the first rotor iron core and the second rotor core thickness.

Brief description of the drawings

, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art Or the accompanying drawing to be used needed for description of the prior art is briefly described, it should be apparent that, drawings in the following description are only It is some embodiments of the present utility model, for those of ordinary skill in the art, before creative labor is not paid Put, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is the main structure diagram of the manufacture device of the insulating element of rotor core of the present utility model.

Fig. 2 is the structural representation of rotor core.

Embodiment

Below in conjunction with the accompanying drawings and the utility model is described in further detail by embodiment, following examples are pair It is of the present utility model explanation and the utility model is not limited to following examples.

Embodiment 1.

Referring to Fig. 2, the rotor core 7 in the present embodiment includes the rotor core 72 of the first rotor iron core 71 and second.

Referring to Fig. 1, the manufacture device of the insulating element of the rotor core 7 of the present embodiment includes：Fixing mould 1, first can Moving mold 2, the second moveable die 3, injection mould 4, the first elastomeric element 5, the second elastomeric element 6.

Fixing mould 1 in the present embodiment, it, which has, can accommodate the first rotor for the radially inner side for being configured at fixing mould 1 Iron core 71 and be configured at fixing mould 1 radial outside the second rotor core 72 space 11；First moveable die 2, its Extend along a direction, there is the first bearing surface 21 for being connected to the first rotor iron core 71 in the one end in a direction；Second is movable Mould 3, it extends along a direction, has the second bearing surface 31 for being connected to the second rotor core 72 in the one end in a direction； Mould 4 is injected, it is connected with the space 11 of fixing mould 1, and is infused resin into the space 11 of fixing mould 1, so as to be formed The insulating element of rotor core.

First moveable die 2 of the present embodiment 2 is fed through the axial center of the second moveable die 3 upwards, so that with the One rotor core 71 is abutted.

The other end of first moveable die 2 in a direction in the present embodiment is configured with the first elastomeric element 5, the first elasticity In one elastic deformation can occur upwards for part 5, and the other end of second moveable die 3 in a direction is configured with the second elasticity Elastic deformation can occur in one direction for part 6, the second elastomeric element 6.

In the present embodiment, by setting the first elastomeric element 5 on the first moveable die 2, pass through the first elastomeric element 5 Elastic deformation can move the first moveable die 2, make the first bearing surface 21 of the first moveable die 2 with the first rotor iron core 71 During abutting, it can be adjusted according to the thickness of the first rotor iron core 71, therefore, even if the thickness of the first rotor iron core 71 is present Error, can also make the first moveable die 2 be connected to the first rotor iron core 71 very close to each otherly, its result by appropriate power It is that, when the thickness of the first rotor iron core 71 is thick, the first rotor iron core 71 will not produce scar because of the first bearing surface 21, when the When one rotor core 71 is thin, resin will not also enter between the bearing surface 21 of the first rotor iron core 71 and first；Similarly by Second elastomeric element 6 is set on two moveable dies 3, can move the second moveable die 3 by the elastic deformation of the second elastomeric element 6 It is dynamic, make the second bearing surface 31 of the second moveable die 3 when being abutted with the second rotor core 72, can be according to the second rotor core 72 Thickness, be adjusted, therefore, even if the thickness of the second rotor core 72 has error, can also be made by appropriate power Second moveable die 3 is connected to the second rotor core 72 very close to each otherly, as a result, when the thickness of the second rotor core 72 is thick When, the second rotor core 72 will not produce scar because of the second bearing surface 31, and when the second rotor core 72 is thin, resin also will not Into between the second rotor core 72 and the second bearing surface 31.

The first bearing surface 21 in the present embodiment is in one direction positioned at the downside in the space 11 of fixing mould 1.

The second bearing surface 31 in the present embodiment is in one direction positioned at the downside in the space 11 of fixing mould 1.

The first elastomeric element 5 in the present embodiment is spring members.The main body of spring members is spring, and spring is in outer masterpiece Deformed upon under, remove and restored to the original state again after external force, the utility model is by the elastic deformation of spring, so that the first But moving die First bearing surface 21 of tool 2 is connected on the first rotor iron core 71 with appropriate power all the time.Spring in the present embodiment is vertically Direction is set, and the bottom of spring is butted in manufacture device, and top is against on the first moveable die 2.

The second elastomeric element 6 in the present embodiment is spring members.Its effect is ibid.

The first moveable die 2 in the present embodiment has multiple.Multiple the first rotor iron cores 71 thus can be abutted simultaneously, be The insulating element for being molded multigroup rotor core 7 simultaneously provides condition.

The second moveable die 3 in the present embodiment has multiple.Multiple second rotor cores 72 thus can be abutted simultaneously, be The insulating element for being molded multigroup rotor core 7 simultaneously provides condition.

Also there is the axial position for positioning the first rotor iron core 71 and second rotor core 72 in the present embodiment The positioning table 12 put, positioning table 12 is located at the upside in the space 11 of the fixing mould 1 on a direction.Positioning table 12 is connected to rotor The upside of iron core 7, its effect is abutted with the rotor core 72 of the first rotor iron core 71 and second of rotor core 7, at its abutting Not covering resin.

A signified direction refers to the direction in accompanying drawing 1 vertically in the present embodiment.

Above content described in this specification is only to the utility model example explanation.The utility model Person of ordinary skill in the field can make various modifications or supplement to described specific embodiment or use class As mode substitute, content without departing from the utility model specification or surmount model defined in the claims Enclose, protection domain of the present utility model all should be belonged to.

Claims (8)

1. a kind of manufacture device of the insulating element of rotor core, the rotor core includes the first rotor iron core and the second rotor Iron core, the manufacture device includes：

Fixing mould, it has the first rotor iron core that can accommodate the radially inner side for being configured at the fixing mould and matched somebody with somebody It is placed in the space of second rotor core of the radial outside of the fixing mould；

First moveable die, it extends along a direction, one to one end have be connected to the first rotor iron core The first bearing surface；

Second moveable die, its along one to extension, one to one end have and be connected to second rotor Second bearing surface of iron core；And

Mould is injected, it is connected with the space of the fixing mould, and infuses resin into the sky of the fixing mould In,

The manufacture device of the insulating element of described rotor core is characterised by：

First moveable die one to the other end be configured with the first elastomeric element, first elastomeric element exists Elastic deformation can occur upwards for one,

Second moveable die one to the other end be configured with the second elastomeric element, second elastomeric element exists Elastic deformation can occur upwards for one.

2. the manufacture device of the insulating element of rotor core according to claim 1, it is characterised in that：Described first abuts Face is in one upwards positioned at the downside in the space of the fixing mould.

3. the manufacture device of the insulating element of rotor core according to claim 1, it is characterised in that：Described second abuts Face is in one upwards positioned at the downside in the space of the fixing mould.

4. the manufacture device of the insulating element of rotor core according to claim 1 or 2, it is characterised in that：Described first Elastomeric element is spring members.

5. the manufacture device of the insulating element of the rotor core according to claim 1 or 3, it is characterised in that：Described second Elastomeric element is spring members.

6. the manufacture device of the insulating element of rotor core according to claim 1 or 2, it is characterised in that：Described first Moveable die has multiple.

7. the manufacture device of the insulating element of the rotor core according to claim 1 or 3, it is characterised in that：Described second Moveable die has multiple.

8. the manufacture device of the insulating element of the rotor core according to Claims 2 or 3, it is characterised in that：It is fixed also to have The positioning table of the axial location of the position the first rotor iron core and second rotor core, the positioning table is located at one The upside in the space of the upward fixing mould.