CN108274215A - Tooling for installing motor shaft - Google Patents

Abstract

The invention discloses a kind of tooling for installing motor shaft, the tooling for installing motor shaft includes：First pedestal and the second pedestal, relatively described second pedestal of first pedestal can be located at up or down on second pedestal；Axis installation part, the axis installation part are movably arranged between rigging position and disengaging configuration on first pedestal；And press-in piece, the press-in piece coordinate with first pedestal, the press-in piece is located at the top of the axis installation part.Tooling according to the ... of the embodiment of the present invention for installing motor shaft has many advantages, such as that installation speed is fast, is installed in place, is easy to operation.

Description

Tooling for installing motor shaft

Technical field

The present invention relates to motor fields, and in particular, to the tooling for installing motor shaft.

Background technology

In the related art, to heat iron core, hot jacket enters will be together with the axis of motor and iron core assembly in a manner of axis.But Since the thermal coefficient of axis is high, after axis touches iron core endoporus, the temperature of iron core can be caused to drastically reduce, it will after 3-5 seconds It can not be pressed into axis because of iron core cooling, therefore the requirement to service speed is very high.It is manually pressed into axis and lacks there are press-in speed is slow It falls into, causes axis indentation not in place.

Invention content

It is of the existing technology the purpose of the invention is to overcome the problems, such as, the tooling for installing motor shaft is provided, it should Motor shaft can be rapidly pressed into the hole of iron core by tooling.

To achieve the goals above, the present invention provides a kind of tooling for installing motor shaft, described for installing motor The tooling of axis includes：First pedestal and the second pedestal, relatively described second pedestal of first pedestal can be located at up or down On second pedestal；Axis installation part, the axis installation part are movably arranged at described between rigging position and disengaging configuration On first pedestal；And press-in piece, the press-in piece coordinate with first pedestal, the press-in piece is located at the axis installation part Top.

Tooling according to the ... of the embodiment of the present invention for installing motor shaft has the advantages that installation speed is fast, is installed in place.

Preferably, first pedestal includes：First pedestal, relatively described second pedestal of first pedestal can on move down It is located at dynamicly on second pedestal, wherein the axis installation part moves between the rigging position and the disengaging configuration Ground is located on the upper surface of first pedestal；And gland, the gland are located on the upper surface of first pedestal, the axis Installation part is between first pedestal and the gland, and the press-in piece coordinates with the gland, it is preferable that described first The horizontal cross-section of pedestal is round, oblong or oblong a part, the horizontal cross-section of the gland be round, oblong or A part for oblong.

Preferably, first pedestal be equipped with the first via for vertically extending or penetrate through along the vertical direction the One notch, the axis installation part are equipped with the second via vertically extended or the second notch penetrated through along the vertical direction, Preferably, first via is circular hole or slotted hole, and first notch is a part for slotted hole, and second via is Circular hole or slotted hole, second notch are a part for slotted hole.

Preferably, the upper surface of first pedestal is equipped with groove, and the axis installation part is in the rigging position and institute It states and is movably arranged in the groove between disengaging configuration, it is preferable that in the bottom wall of the groove and the axis installation part One is equipped with positioning protrusion, another in the bottom wall of the groove and the axis installation part is equipped with guide groove, the positioning Male cooperation is in the guide groove.

Preferably, the gland is equipped with the first holding tank, the upper wall surface of first holding tank be equipped with upper via or The lower wall surface of the upper notch of perforation, first holding tank is equipped with lower via or the lower notch of perforation, the press-in piece include： Pressing plate, the pressing plate are located in first holding tank, and the pressing plate can coordinate with the upper wall surface of first holding tank；With Compression leg, the compression leg are connected with the pressing plate, and a part for the compression leg is upward through the upper via or the upper notch, excellent Selection of land, first holding tank are a part for slotted hole, and the upper via is circular hole or slotted hole, and the upper notch is oval The part in hole, the lower via are circular hole or slotted hole, and the lower notch is a part for slotted hole.

Preferably, the tooling for installing motor shaft further comprises：The lower end of mounting post, the mounting post passes through The gland, the lower end of the mounting post are connected with the pressing plate, and the mounting post is equipped with flange, it is preferable that the flange For annular；With the first elastic component, first elastic component is set in the mounting post, and first elastic component is located at the pressure The top of lid, each cooperation in first elastic component and the gland and the flange, it is preferable that the mounting post is Multiple, first elastic component is multiple, and multiple mounting posts are arranged around the compression leg, and multiple first elastic components are one by one It is accordingly set in multiple mounting posts.

Preferably, second pedestal includes：Second pedestal, second pedestal are equipped with the second holding tank, and described the The open upper end of two holding tanks, relatively described second pedestal of first pedestal can be located at second holding tank up or down It is interior, it is preferable that the horizontal cross-section of second pedestal is round, oblong or oblong a part, second holding tank For a part for slotted hole；And impeller, the impeller are located on second pedestal, the impeller, which has, to be pushed tiltedly Face, it is described that inclined-plane is pushed to extend from the top down towards the direction of the neighbouring disengaging configuration, wherein the promotion inclined-plane and the axis Installation part coordinates the axis installation part being pushed to the disengaging configuration from the rigging position, it is preferable that the promotion Part is two, and two impellers are located at the both sides of first pedestal, the promotion inclined-planes of two impellers respectively with Two ends of the axis installation part coordinate.

Preferably, the wall surface of second holding tank is equipped with one in sliding slot and sliding rail, is set on first pedestal There is another in the sliding slot and the sliding rail, the sliding rail cooperation is in the sliding slot.

Preferably, the tooling for installing motor shaft further comprises the second elastic component, second elastic component with Each cooperation in the axis installation part and first pedestal, wherein when the axis installation part is located at the rigging position, In the raw, when the axis installation part is located at the disengaging configuration, second elastic component is in second elastic component Deformed state.

Preferably, second elastic component is helical spring, and the axis installation part has the first installation raised, described first There is pedestal the second installation protrusion, the first end of second elastic component to be set in the first installation protrusion, and described the The second end of two elastic components is set in the second installation protrusion.

Description of the drawings

Fig. 1 is the structural schematic diagram according to the ... of the embodiment of the present invention for installing the tooling of motor shaft；

Fig. 2 is the explosive view according to the ... of the embodiment of the present invention for installing the tooling of motor shaft；

Fig. 3 is the structural schematic diagram according to the ... of the embodiment of the present invention for installing the first pedestal of the tooling of motor shaft；

Fig. 4 is the structural schematic diagram according to the ... of the embodiment of the present invention for installing the axis installation part of the tooling of motor shaft；

Fig. 5 is the structural schematic diagram according to the ... of the embodiment of the present invention for installing the spring mount of the tooling of motor shaft.

Specific implementation mode

The embodiment of the present invention is described below in detail, examples of the embodiments are shown in the accompanying drawings.Below with reference to The embodiment of attached drawing description is exemplary, it is intended to for explaining the present invention, and is not considered as limiting the invention.

Below with reference to the accompanying drawings tooling 1 according to the ... of the embodiment of the present invention for installing motor shaft 2 is described.Such as Fig. 1-Fig. 5 institutes Show, the tooling 1 according to the ... of the embodiment of the present invention for installing motor shaft 2 includes the first pedestal 10, the second pedestal 20, axis installation part 30 and press-in piece 40.

First pedestal, 10 opposite second pedestal 20 can be located at up or down on the second pedestal 20, and axis installation part 30 is assembling It is movably arranged between position and disengaging configuration on the first pedestal 10.Press-in piece 40 and the first pedestal 10 coordinate, press-in piece 40 Positioned at the top of axis installation part 30.Wherein, upper and lower directions is as shown in the arrow A in Fig. 1.

It is easily described below with reference to Fig. 1-Fig. 5 and motor shaft 2 is installed to iron using tooling 1 according to the ... of the embodiment of the present invention Process on core 3.

Axis installation part 30 is moved to the rigging position so that axis installation part 30 and motor shaft 2 are assembled together, will be added The iron core of heat is placed on the lower section of tooling 1, the two steps do not have sequencing.Then, tooling 1 is pushed, even if tooling 1 is downward Mobile, since motor shaft 2 and axis installation part 30 are assembled together, motor shaft 2 moves downwardly together also with tooling 1.The After two pedestals 20 are contacted with iron core 3, opposite second pedestal 20 of the first pedestal 10 moves down, and a part for motor shaft 2 has been at this time Through being pressed into the hole of iron core 3.Preferably, the lower end of motor shaft 2 can be configured with chamfering, be led to be played to iron core 3 Positive interaction.

Then, the first pedestal 10 continues to move down, and continues by axis installation part 30 motor shaft 2 being pressed into iron core 3 Hole in.Then, axis installation part 30 is moved to the disengaging configuration from the rigging position to make axis installation part 30 be detached from motor Axis 2.Finally, press-in piece 40 is moved down, motor shaft 2 is pressed onto position using press-in piece 40.

Tooling 1 according to the ... of the embodiment of the present invention is by being arranged the first pedestal 10 and for being assembled together with motor shaft 2 Axis installation part 30, so as to complete the preliminary installation of motor shaft 2 using axis installation part 30.Since axis installation part 30 can be at this It moves between rigging position and the disengaging configuration, therefore after completing the preliminary installation of motor shaft 2, axis installation part 30 can be moved The disengaging configuration is moved, to complete the installation of motor shaft 2 using press-in piece 40.

Therefore, the tooling 1 according to the ... of the embodiment of the present invention for installing motor shaft 2 have installation speed is fast, be installed in place, The advantages that easy to operation.

As Figure 1-Figure 5, in some embodiments of the invention, tooling 1 may include the first pedestal 10, the second pedestal 20, axis installation part 30 and press-in piece 40.

First pedestal 10 may include the first pedestal 110 and gland 120, and the first pedestal 110 can be with respect to the second pedestal 20 It can be located at up or down on the second pedestal 20.Axis installation part 30 can be in the rigging position being assembled together with motor shaft 2 It is movably arranged on the upper surface 111 of the first pedestal 110 with being detached between the disengaging configuration of motor shaft 2.

Gland 120 can be located on the upper surface 111 of the first pedestal 110, such as gland 120 can pass through fastener (example Such as screw, bolt) it is removably mounted on the upper surface 111 of the first pedestal 110.Wherein, press-in piece 40 can be with gland 120 Coordinate (this being hereafter described below in greater detail), axis installation part 30 can be located at the first pedestal 110 and gland 120 it Between.In other words, can have the accommodating chamber or holding tank for accommodating axis installation part 30 between the first pedestal 110 and gland 120.

Groove 113 can be equipped on the upper surface 111 of first pedestal 110, axis installation part 30 is de- with this in the rigging position It offs normal and is movably arranged between setting in groove 113.In order to more easily be described to more fully understand the application's Technical solution shows left and right directions using arrow B in Fig. 1, and front-rear direction is shown using arrow C.

As shown in Figure 1-Figure 3, the left end of groove 113 and right end can open wide, the left end so as to axis installation part 30 and the right side End can stretch out groove 113.

Preferably, as shown in Fig. 2, positioning protrusion can be equipped on one in the bottom wall of groove 113 and axis installation part 30 114, guide groove 320 can be equipped on another in the bottom wall and axis installation part 30 of groove 113, positioning protrusion 114 can coordinate In guide groove 320.It is possible thereby to the motion track of (constraint) axis installation part 30 is limited using positioning protrusion 114 and guide groove 320, from And axis installation part 30 can be made more steadily, more accurately to be moved between the rigging position and the disengaging configuration.

As shown in figs 2-4, it can be equipped with positioning protrusion 114 on the bottom wall of groove 113, can be equipped on axis installation part 30 Guide groove 320.Guide groove 320 can be two, and positioning protrusion 114 can be two, and two positioning protrusion 114 can be respectively fitting into In two guide grooves 320.Each guide groove 320 can extend along the longitudinal direction.Preferably, each guide groove 320 can be vertically square To the slotted hole of perforation axis installation part 30, each positioning protrusion 114 can be cylindric.

Wherein, a guide groove 320 and a positioning protrusion 114 can be located at the first via or first of the first pedestal 110 The left side of the second via or the second notch 310 of notch 112 and axis installation part 30, another guide groove 320 and another positioning Protrusion 114 can be located at the first via of the first pedestal 110 or the second via of the first notch 112 and axis installation part 30 or the The right side of two notches 310.

As shown in Figures 2 and 3, the horizontal cross-section of the first pedestal 110 can be one round, oblong or oblong Point.For example, the edge of the horizontal cross-section of the first pedestal 110 may include that (preferably, which can be semicircle to circular arc line Shape), the first straight line being connected with the first end of the circular arc line and the second straight line being connected with the second end of the circular arc line.First The first notch 112 (i.e. for being also provided with the first via vertically extended on pedestal 110 or penetrating through along the vertical direction The top and bottom of one notch 112 can be opened wide), in addition, the front end of the first notch 112 can be opened wide.Pacify using tooling 1 When filling motor shaft 2, a part of of motor shaft 2 can be located in first via or the first notch 112.

The horizontal cross-section of gland 120 can be round, oblong or oblong a part.For example, the level of gland 120 The edge in section may include circular arc line (preferably, which can be semicircle), be connected with the first end of the circular arc line First straight line and the second straight line that is connected with the second end of the circular arc line.

As shown in figure 4, axis installation part 30 can be tabular.On motor shaft 2 can be equipped with card slot, the one of axis installation part 30 Part can coordinate in the card slot.Axis installation part 30 and motor shaft 2 can also be assembled together by other means, example Such as, it can be equipped with card slot on axis installation part 30, flange can be equipped on motor shaft 2, which can coordinate in axis installation part 30 Card slot in.

The second via vertically extended or the second slot penetrated through along the vertical direction can be equipped on axis installation part 30 310 (i.e. the top and bottom of the second notch 310 can be opened wide) of mouth, in addition, the front end of the second notch 310 can be opened wide. When installing motor shaft 2 using tooling 1, a part of of motor shaft 2 can be located in second via or the second notch 310.

Preferably, which can be circular hole or slotted hole, and the first notch 112 can be a part for slotted hole, Second via can be circular hole or slotted hole, and the second notch 310 can be a part for slotted hole.For example, the first notch 112 May include circular arc line (preferably, which can be semicircle) and this with the edge of each in the second notch 310 The second straight line first end of circular arc line connected first straight line and be connected with the second end of the circular arc line.

As shown in Fig. 2, in one embodiment of the invention, tooling 1 may further include the second elastic component 70, second Elastic component 70 can coordinate with each in axis installation part 30 and the first pedestal 10 (for example, first pedestal 110).Wherein, axis When installation part 30 is located at the rigging position, the second elastic component 70 in the raw, when axis installation part 30 is located at the disengaging configuration, Second elastic component 70 is in deformed state.

By the way that the second elastic component 70 with each cooperation in axis installation part 30 and the first pedestal 10 is arranged, so as to Axis installation part 30 is set automatically to be moved to the rigging position from the disengaging configuration, to improve the degree of automation of tooling 1. Moreover, by the way that the second elastic component 70 is arranged, so as to prevent axis installation part 30 to be moved from the rigging position to a certain extent To the disengaging configuration, you can to prevent axis installation part 30 to leave the rigging position to a certain extent, it is possible thereby to which axis is installed Part 30 and motor shaft 2 are more fitted securely within together.

Preferably, as shown in Fig. 2, the second elastic component 70 can be helical spring.As shown in figure 4, axis installation part 30 can be with With the first installation protrusion 330, the first pedestal 10 (such as first pedestal 110) can have the second installation protrusion 130.Wherein, The first end of second elastic component 70 can be set in the first installation protrusion 330, and the second end of the second elastic component 70 can be with It is set in the second installation protrusion 130.It is possible thereby to more be firmly installed the second elastic component 70.

As shown in figure 5, the first pedestal 110 can also include L-shaped spring mount 116, the upper surface of the first pedestal 110 Mounting groove 115 can be equipped on 111.Wherein, the vertical portion 117 of spring mount 116 can coordinate in mounting groove 115, bullet The horizontal part 118 of spring installation part 116 may be constructed the second installation protrusion 130.

As shown in figure 4, axis installation part 30 can also have third holding tank 340, the first end of the second elastic component 70 can To be contained in third holding tank 340.Specifically, third holding tank 340, third can be equipped on the rear end of axis installation part 30 The rear end of holding tank 340 can be opened wide, in addition, the top and bottom of third holding tank 340 can also be opened wide.Wherein, the first peace Dress protrusion 330 can be located on the wall surface (i.e. front face) of third holding tank 340.

As depicted in figs. 1 and 2, in some examples of the present invention, the first holding tank 121 can be equipped on gland 120, the (i.e. above the upper end of notch 122 can open upper notch 122 that can be equipped with upper via or perforation on the upper wall surface of one holding tank 121 Open), lower via can be equipped on the lower wall surface of the first holding tank 121 or the lower notch 123 of perforation (descend the lower end of notch 123 It can open wide).Preferably, the front end and lower end of the first holding tank 121 can be opened wide (as shown in Figure 2).

First holding tank 121 can be a part for slotted hole.For example, the edge of the first holding tank 121 may include circle Camber line (preferably, the circular arc line can be semicircle), the first straight line being connected with the first end of the circular arc line and with the circle The connected second straight line of the second end of camber line.

Via is circular hole or slotted hole on this, and upper notch 122 can be a part for slotted hole, which can be round Hole or slotted hole, lower notch 123 can be a parts for slotted hole.For example, each in upper notch 122 and lower notch 123 Edge may include circular arc line (preferably, the circular arc line can be semicircle), be connected with the first end of the circular arc line the One straight line and the second straight line being connected with the second end of the circular arc line.

As depicted in figs. 1 and 2, press-in piece 40 may include pressing plate 410 and compression leg 420.Pressing plate 410 can be located at first and hold It receives in slot 121, pressing plate 410 can coordinate with the upper wall surface of the first holding tank 121.Specifically, when moving down tooling 1 and axis When installation part 30 is located at the rigging position, pressing plate 410 is contacted with the upper wall surface of the first holding tank 121, i.e., gland 120 can support On pressing plate 410.When axis installation part 30 is located at the disengaging configuration, pressing plate 410 can be detached from the upper wall surface of the first holding tank 121 Motor shaft 2 is press-fit into place to move down.

Preferably, the shape of the horizontal cross-section of pressing plate 410 and the shape of the horizontal cross-section of the first holding tank 121 can fit Match.When installing motor shaft 2 using tooling 1, the part (upper end) of motor shaft 2 can be located in the first holding tank 121 and Positioned at the lower section of pressing plate 410.

Compression leg 420 can be connected with pressing plate 410, and a part of of compression leg 420 can be upward through via or upper notch on this 122.Preferably, the part of compression leg 420 can be connected with press, cylinder or hydraulic cylinder, to utilize press, cylinder or liquid Motor shaft 2 is pressed into the hole of iron core 3 by cylinder pressure, it is possible thereby to further increase the degree of automation of tooling 1.Preferably, it presses Plate 410 can be tabular.

As depicted in figs. 1 and 2, in the example of the present invention, tooling 1 may further include mounting post 510 and the One elastic component 530.The lower end of mounting post 510 can pass through gland 120, and the lower end of mounting post 510 can be connected with pressing plate 410. For example, the lower end of mounting post 510 can be connected by screw thread with pressing plate 410.Flange 520 can be equipped in mounting post 510.First Elastic component 530 can be set in mounting post 510, and the first elastic component 530 can be located at the top of gland 120, the first elastic component 530 can coordinate with each in gland 120 and flange 520.

During motor shaft 2 is installed on iron core 3 using tooling 1, when the first pedestal 110 touches iron core 3, First pedestal 110 and gland 120 will not all move still further below, are then pressed into part 40 and move downward to will be disengaged from axis installation part 30 Motor shaft 2 be pressed into the hole of iron core 3.Since pressing plate 410 moves down, pressing plate 410 drives mounting post 510 to moving down Dynamic, thus flange 520 can compress the first elastic component 530 to make the first elastic component 530 have larger elastic force, the first elasticity The elastic force of part 530 is applied to by gland 120 on the first pedestal 110, to make the first pedestal 110 compress iron core 3.

Since the first pedestal 110 compresses iron core 3, in the motor shaft 2 that will be disengaged from axis installation part 30 using press-in piece 40 During being pressed into the hole of iron core 3, iron core 3 will not be tilted or be moved, it is possible thereby to increase substantially the assembly of motor shaft 2 Precision and assembly qualified rate.

Preferably, flange 520 can be annular, and thus flange 520 can preferably, more steadily compress the first elasticity Part 530.Specifically, the first elastic component 530 can be helical spring.

As depicted in figs. 1 and 2, mounting post 510 can be multiple, and multiple mounting posts 510 can be arranged around compression leg 420, the One elastic component 530 can be multiple, and multiple first elastic components 530 can be correspondingly set in multiple mounting posts 510.By This can not only improve the elastic force being applied on the first pedestal 110, but also elastic force can be made more uniformly to be applied to First On body 110.

In the specific example of the present invention, as depicted in figs. 1 and 2, the second pedestal 20 may include the second pedestal 210 With impeller 220.

The second holding tank 211 can be equipped on second pedestal 210, the upper end of the second holding tank 211 can be opened wide.It is preferred that The lower end on ground, the second holding tank 211 can also be opened wide.First pedestal 110 can up or down be set with respect to the second pedestal 210 In the second holding tank 211.In other words, motor shaft 2 radially, the first pedestal 110 can be located at the second pedestal 210 it is interior Side.When installing motor shaft 2 using tooling 1, a part of of motor shaft 2 can be located in the second holding tank 211.

As shown in Fig. 2, one in sliding slot 610 and sliding rail 620 can be equipped on the wall surface of the second holding tank 211, first Another in sliding slot 610 and sliding rail 620 can be equipped on pedestal 110, sliding rail 620 can coordinate in sliding slot 610.For example, It can be equipped with sliding rail 620 on the wall surface of second holding tank 211, sliding slot 610 can be equipped on the first pedestal 110.Exist in order to prevent Second pedestal 210 is detached from the first pedestal 110 when moving down tooling 1, and the lower end of sliding slot 610 can be closed.In addition, sliding slot 610 upper end can be open to that more easily the first pedestal 110 and the second pedestal 210 are assembled together.

Preferably, the horizontal cross-section of the second pedestal 210 can be round, oblong or oblong a part.For example, the The edge of the horizontal cross-section of two pedestals 210 may include circular arc line (preferably, which can be semicircle) and the circular arc The second straight line first end of line connected first straight line and be connected with the second end of the circular arc line.

Second holding tank 211 can be a part for slotted hole.For example, the edge of the second holding tank 211 may include circle Camber line (preferably, the circular arc line can be semicircle), the first straight line being connected with the first end of the circular arc line and with the circle The connected second straight line of the second end of camber line.It is further preferred that upper end, lower end and the front end of the second holding tank 211 can open It opens, the shape of the horizontal cross-section of the first pedestal 110 can be adapted to the shape of the horizontal cross-section of the second holding tank 211.

Impeller 220 can be located on the second pedestal 210, it is preferable that impeller 220 can be located at the second pedestal 210 On upper surface 212, it is possible thereby to more easily, more steadily be arranged impeller 220.

As depicted in figs. 1 and 2, impeller 220, which can have, pushes inclined-plane 221, pushes inclined-plane 221 can court from the top down The direction of the neighbouring disengaging configuration extends.Wherein, push inclined-plane 221 that can coordinate so as to by axis installation part 30 with axis installation part 30 It is pushed to the disengaging configuration from the rigging position.

For example, pushing the lower edge on inclined-plane 221 can be positioned at the rear for the upper edge for pushing inclined-plane 221.Axis installation part 30 with Push inclined-plane 221 contact after, as axis installation part 30 moves down, push inclined-plane 221 backward impeller-hub installation part 30 so as to axis Installation part 30 moves backward.Thus when installing motor shaft 2 using tooling 1, without manually by axis installation part 30 from the assembly position It sets and is moved to the disengaging configuration, so as to further increase the degree of automation of tooling 1, to further increase tooling 1 The speed of motor shaft 2 is installed.

As depicted in figs. 1 and 2, it is preferable that impeller 220 can be two, and two impellers 220 can be located at First The promotion inclined-plane 221 of the both sides of body 110, two impellers 220 can coordinate with two ends of axis installation part 30 respectively.Thus Can axis installation part 30 be more steadily pushed to the disengaging configuration from the rigging position.For example, impeller 220 can be with Coordinate positioned at the left side of the first pedestal 110 and with the left part of axis installation part 30, another impeller 220 can be located at First The right side of body 110 and with the right part of axis installation part 30 coordinate.

When utilizing tooling 1 to install motor shaft 2, can pre-determined bit pedestal 4 be set in the lower section of the second pedestal 20, and will add The iron core of heat is placed on pre-determined bit pedestal 4.

Depressed fast tooling 1, the second pedestal 210 first touch the upper surface of iron core 3, and the first pedestal 110 continues to moving down Dynamic, a part for motor shaft 2 has been pressed into the hole of iron core 3 at this time.As the first pedestal 110 moves down, axis installation Part 30 is contacted with the promotion inclined-plane 221 of impeller 220, to push inclined-plane 221 to push axis installation part 30 from the rigging position To the disengaging configuration.Finally, press-in piece 40 is moved down, motor shaft 2 is pressed onto position using press-in piece 40.

In the description of the present invention, it is to be understood that, term "center", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside", " up time The orientation or positional relationship of the instructions such as needle ", " counterclockwise ", " axial direction ", " radial direction ", " circumferential direction " be orientation based on ... shown in the drawings or Position relationship is merely for convenience of description of the present invention and simplification of the description, and does not indicate or imply the indicated device or element must There must be specific orientation, with specific azimuth configuration and operation, therefore be not considered as limiting the invention.

In addition, term " first ", " second " are used for description purposes only, it is not understood to indicate or imply relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include at least one this feature.In the description of the present invention, the meaning of " plurality " is at least two, such as two, three It is a etc., unless otherwise specifically defined.

In the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " fixation " etc. Term shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral；Can be that machinery connects It connects, can also be to be electrically connected or can communicate each other；It can be directly connected, can also indirectly connected through an intermediary, it can be with It is the interaction relationship of the connection or two elements inside two elements, unless otherwise restricted clearly.For this field For those of ordinary skill, the specific meanings of the above terms in the present invention can be understood according to specific conditions.

In the present invention unless specifically defined or limited otherwise, fisrt feature can be with "above" or "below" second feature It is that the first and second features are in direct contact or the first and second features pass through intermediary mediate contact.Moreover, fisrt feature exists Second feature " on ", " top " and " above " but fisrt feature be directly above or diagonally above the second feature, or be merely representative of Fisrt feature level height is higher than second feature.Fisrt feature second feature " under ", " lower section " and " below " can be One feature is directly under or diagonally below the second feature, or is merely representative of fisrt feature level height and is less than second feature.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means specific features, structure, material or spy described in conjunction with this embodiment or example Point is included at least one embodiment or example of the invention.In the present specification, schematic expression of the above terms are not It must be directed to identical embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be in office It can be combined in any suitable manner in one or more embodiments or example.In addition, without conflicting with each other, the skill of this field Art personnel can tie the feature of different embodiments or examples described in this specification and different embodiments or examples It closes and combines.

Although the embodiments of the present invention has been shown and described above, it is to be understood that above-described embodiment is example Property, it is not considered as limiting the invention, those skilled in the art within the scope of the invention can be to above-mentioned Embodiment is changed, changes, replacing and modification.

Claims (10)

1. a kind of tooling for installing motor shaft, which is characterized in that including：

First pedestal and the second pedestal, relatively described second pedestal of first pedestal can be located at second base up or down On seat；

Axis installation part, the axis installation part are movably arranged between rigging position and disengaging configuration on first pedestal； With

Press-in piece, the press-in piece coordinate with first pedestal, and the press-in piece is located at the top of the axis installation part.

2. according to claim 1 for installing the tooling of motor shaft, which is characterized in that first pedestal includes：

First pedestal, relatively described second pedestal of first pedestal can be located at up or down on second pedestal, wherein The axis installation part is movably arranged at the upper surface of first pedestal between the rigging position and the disengaging configuration On；With

Gland, the gland are located on the upper surface of first pedestal, and the axis installation part is located at first pedestal and institute Between stating gland, the press-in piece coordinates with the gland,

Preferably, the horizontal cross-section of first pedestal is round, oblong or oblong a part, the level of the gland Section is round, oblong or oblong a part.

3. the tooling according to claim 1 for installing motor shaft, which is characterized in that first pedestal is equipped with edge The first via that upper and lower directions extends or the first notch penetrated through along the vertical direction, the axis installation part are equipped with along the vertical direction The second via extended or the second notch penetrated through along the vertical direction, it is preferable that first via is circular hole or slotted hole, institute The part that the first notch is slotted hole is stated, second via is circular hole or slotted hole, and second notch is slotted hole A part.

4. the tooling according to claim 2 for installing motor shaft, which is characterized in that the upper surface of first pedestal It is equipped with groove, the axis installation part is movably arranged at the groove between the rigging position and the disengaging configuration It is interior, it is preferable that one in the bottom wall of the groove and the axis installation part is equipped with positioning protrusion, the bottom wall of the groove and Another in the axis installation part is equipped with guide groove, and the positioning protrusion cooperation is in the guide groove.

5. the tooling according to claim 2 for installing motor shaft, which is characterized in that the gland, which is equipped with first, to be held Receive slot, the upper wall surface of first holding tank is equipped with upper via or the upper notch of perforation, the lower wall surface of first holding tank It is equipped with lower via or the lower notch of perforation, the press-in piece includes：

Pressing plate, the pressing plate are located in first holding tank, and the pressing plate can match with the upper wall surface of first holding tank It closes；With

Compression leg, the compression leg are connected with the pressing plate, and a part for the compression leg is upward through the upper via or the upper slot Mouthful,

Preferably, first holding tank is a part for slotted hole, and the upper via is circular hole or slotted hole, the upper notch For a part for slotted hole, the lower via is circular hole or slotted hole, and the lower notch is a part for slotted hole.

6. the tooling according to claim 5 for installing motor shaft, which is characterized in that further comprise：

The lower end of mounting post, the mounting post passes through the gland, the lower end of the mounting post to be connected with the pressing plate, the peace It fills column and is equipped with flange, it is preferable that the flange is annular；With

First elastic component, first elastic component are set in the mounting post, and first elastic component is located at the gland Top, first elastic component and each cooperation in the gland and the flange, it is preferable that the mounting post is more A, first elastic component is multiple, and multiple mounting posts are arranged around the compression leg, and multiple first elastic components one are a pair of It is set in answering in multiple mounting posts.

7. according to claim 2 for installing the tooling of motor shaft, which is characterized in that second pedestal includes：

Second pedestal, second pedestal are equipped with the second holding tank, the open upper end of second holding tank, the First Relatively described second pedestal of body can be located at up or down in second holding tank, it is preferable that the level of second pedestal Section is round, oblong or oblong a part, and second holding tank is a part for slotted hole；With

Impeller, the impeller are located on second pedestal, the impeller have push inclined-plane, the promotion inclined-plane from On extend downwardly toward the direction of the neighbouring disengaging configuration, wherein the promotions inclined-plane and axis installation part cooperation are so as to by institute It states axis installation part and is pushed to the disengaging configuration from the rigging position, it is preferable that the impeller is two, is pushed away described in two Moving part is located at the both sides of first pedestal, and the promotion inclined-plane of two impellers is held with two of the axis installation part respectively Portion coordinates.

8. the tooling according to claim 7 for installing motor shaft, which is characterized in that the wall surface of second holding tank One be equipped in sliding slot and sliding rail, first pedestal is equipped with another in the sliding slot and the sliding rail, described Sliding rail coordinates in the sliding slot.

9. the tooling for installing motor shaft according to any one of claim 1-8, which is characterized in that further comprise Second elastic component, second elastic component and each cooperation in the axis installation part and first pedestal, wherein described When axis installation part is located at the rigging position, in the raw, the axis installation part is located at described de- second elastic component It offs normal when setting, second elastic component is in deformed state.

10. the tooling according to claim 9 for installing motor shaft, which is characterized in that second elastic component is spiral shell Spring is revolved, there is the axis installation part the first installation protrusion, first pedestal to have the second installation protrusion, second elasticity The first end of part is set in the first installation protrusion, and the second end of second elastic component is set in second peace In dress protrusion.