CN110165843A - A kind of intelligent kludge of electric machine assembly assembly - Google Patents

Abstract

The present invention relates to a kind of electric machine assemblies to assemble intelligent kludge, including bottom plate, anti-bias mechanism, barrier plate, push sleeve, sliding bar and bush support, anti-bias mechanism is installed on the middle part upper surface of the bottom plate, barrier plate is located at the surface of anti-bias mechanism, on barrier plate is mounted at the top of the outer end of bottom plate, push the top that sleeve is located at barrier plate, the left and right ends for pushing sleeve are provided with a support frame, a sliding bar is mounted on the top of each support frame, the upper end of each sliding bar is connected by way of being slidably matched with the upper end of a bush support, on the lower end of bush support is mounted at the top of the outer end of bottom plate.The present invention can solve the installation that the existing machine shaft for different model needs to carry out it using different sleeves bearing, sleeve with the model of shaft is not corresponding is easy to damage bearing；Machine shaft carries out its lower end infinite place when the installation of bearing, so that shaft is toppled over when bearing is installed.

Description

A kind of intelligent kludge of electric machine assembly assembly

Technical field

The present invention relates to motor production technical field, in particular to a kind of electric machine assembly assembles intelligent kludge.

Background technique

In the maintenance shop of motor, it is often necessary to the disassembly and assembling of different model motor are carried out, to carry out to motor Maintenance, electrical machmary maintenance carry out the installation of bearing firstly the need of the shaft to motor after the completion, and bearing is installed to shaft and generally passes through Artificial mode carries out, and bearing card is placed in shaft first, then is fastened in shaft by sleeve, and the bottom of sleeve is against axis On the inner ring held, the artificial bottom for hammering bearing makes bearing be installed to suitable position in shaft, due to the electricity of different model The diameter of machine shaft also can be different, so that the shaft to different model will use different sleeves when carrying out the installation of bearing.

It is existing manually to machine shaft carry out bearing installation when existing particular problem it is as follows:

1. the machine shaft for different model needs to carry out it using different sleeves the installation of bearing, sleeve with turn The model of axis does not hammer sleeve to when corresponding to, so that the pushing power of sleeve acts on the outer ring of bearing, is easy to cause bearing Damage；

2. manually when the top of hammering sleeve, existing in certain because hammer force skew will cause bearing and be installed in shaft Stress has some impact on the service life of motor；

3. machine shaft carries out its lower end infinite place when the installation of bearing, so that because of hammer force skew shaft when bearing is installed It can topple over, cause certain safety accident.

Summary of the invention

To solve the above-mentioned problems, intelligent kludge is assembled the present invention provides a kind of electric machine assembly, including bottom plate, anti-bias Mechanism, barrier plate push sleeve, sliding bar and bush support, are equipped with anti-bias mechanism on the middle part upper surface of the bottom plate, Barrier plate is located at the surface of anti-bias mechanism, and barrier plate is mounted on the outer end top of bottom plate, and the lower end of barrier plate is flexible knot Structure is provided with circular hole in the middle part of barrier plate, pushes the top that sleeve is located at barrier plate, the left and right ends for pushing sleeve are provided with One support frame, is mounted on a sliding bar on the top of each support frame, the upper end of each sliding bar with a sleeve The upper end of bracket is connected by way of being slidably matched, and the lower end of bush support is mounted on the outer end top of bottom plate, this hair It is bright can be by bearing location and installation on machine shaft, by the way that the lower end of machine shaft to be placed in anti-bias mechanism, by bearing It is mounted on the upper end of machine shaft, is covered on machine shaft by pushing sleeve later, the artificial top that sleeve is pushed by hammering It portion can be by bearing location and installation in the shaft of motor.

The anti-bias mechanism includes anti-bias cylinder, clamping traveller, clamp springs and retaining sleeve, and anti-bias cylinder is open-topped Hollow cylindrical structure, the bottom material of anti-bias cylinder are copper, are distributed with a clamping traveller at left and right sides of the inner end of anti-bias cylinder, The middle part of clamping traveller is connected by way of being slidably matched with the side wall of anti-bias cylinder, is pacified on the inner end of each clamping traveller Equipped with a retaining sleeve, the position of two retaining sleeves is symmetrical, clamps and clamp springs are distributed on the outside of the inner end of traveller, clamps bullet Spring is mounted between the lateral surface of retaining sleeve and the inner wall of anti-bias cylinder, and when specific works, anti-bias mechanism can be by machine shaft Lower end is locked, its lower end is subjected to displacement when preventing shaft from carrying out bearing installation, and clamp springs carry out stretching motion and to press from both sides Holding action can be carried out to the machine shaft of different-diameter by holding set, and the copper material of anti-bias cylinder bottom can prevent progress of the present invention The lower end of shaft is damaged when bearing is installed.

The upper end of the pushing sleeve is cone structure, and the lower end for pushing sleeve is cylindrical structure, pushes sleeve Lower end is provided with T-slot, pushes and is evenly distributed with telescopic in the T-slot of sleeve, and telescopic is hollow cylindrical structure, stretches The section of set is T shape, and the telescopic positioned at outermost end is set in the T-slot for pushing sleeve by way of being slidably matched, and is remained Remaining telescopic is sequentially sleeved in the hollow structure of its outer end telescopic, is slidably matched between two adjacent telescopics, The telescopic card of inner end is placed on the telescopic adjacent with its outer end；

The rear and front end for pushing sleeve is provided with a lock hole, and the rear and front end of telescopic is provided with and pushes The corresponding inserting hole in hole site is locked on sleeve, the inner end of locking level passes through on the lock hole and telescopic pushed on sleeve The outer end of inserting hole, locking level is evenly arranged with circular hole；

The lower end of locking level is provided with fixed plate, and locking level is connected with fixed plate by bolt, and locking level is located at branch The top of support when specific works, pushes sleeve and matches and can be stuck on the inner ring of bearing with telescopic, enables bearing Uniform stress prevents bearing from there is certain internal stress during installation, to influence the service life of motor, push sleeve with Telescopic matches the installation that bearing can be carried out to the machine shaft of different model, is inserted in lock hole by controlling locking level With the depth in inserting hole, the telescopic for pushing sleeve or suitable position can be controlled to bearing progress installation action, pushed Hammer force can be evenly transferred to push the lower end of sleeve by the cone structure of sleeve upper end.

It is described to push the axial line of sleeve, the axial line of telescopic, the axial line of circular hole and anti-bias cylinder on barrier plate Axial line is respectively positioned in same vertical straight line, and above-mentioned setting machine shaft to position to be placed in anti-bias cylinder, is pushed Hammer force when sleeve installs bearing can be applied to the surface of machine shaft, to increase installation of the present invention to bearing Effect.

It is interspersed on the lock hole and telescopic pushed on sleeve as a preferred technical solution of the present invention Hole is T-type hole, and locking level is T-bar, when specific works, lock hole, inserting hole T-type structure can increase and locking level Fiting effect, the locking level of T-type structure is not flexible when the upper end progress hammering action of pressing sleeve cylinder instantly.

As a preferred technical solution of the present invention, described being located at pushes wearing for the telescopic setting of sleeve inner terminal Jack is blind hole, and the inserting hole of remaining telescopic setting is through-hole, when specific works, the blind-hole type of the telescopic setting of inner terminal Inserting hole can prevent locking level to be inserted into the telescopic of inner terminal, cause machine shaft that can not be inserted into telescopic.

As a preferred technical solution of the present invention, the distance between circular hole is stretched with two neighboring on the locking level Contracting set the distance between it is equal, and the quantity of locking level circular hole than telescopic quantity more than one, when the circular hole of locking level outermost end When being locked in fixed plate, locking level can lock all telescopics, when fixed plate and locking level outer end second When circular hole locks, locking level is unlocked the telescopic of inner terminal, and the telescopic of inner terminal is freely transported upwards It is dynamic.

As a preferred technical solution of the present invention, the position of the telescopic lower end successively increases from inside to outside, And the bottom of outermost end telescopic is located at the lower section for pushing sleeve bottom, and copper packing is provided on the bottom of telescopic, pushes sleeve Bottom inner end be provided with copper packing, when specific works, the position of telescopic lower end successively increases enable to this hair from inside to outside The bright position for acting on its inner ring always to the lower pressure of bearing prevents the present invention from generating active force to bearing outer ring and causes bearing Damage.

As a preferred technical solution of the present invention, the pushing sleeve upper support frame section is L shape, support frame Lower end is arcuate structure, is symmetrically installed with arc vertical plate on the top of barrier plate, the medial surface of support frame lower end arcuate structure with The lateral surface of arc vertical plate fits, and the upper end lateral surface of the lower end inside face of support frame and arc vertical plate is provided with tiltedly Slot, when specific works, when contacting at the top of the bottom of support frame and barrier plate, bearing is the suitable position for being installed to shaft, is led to The height for overregulating barrier plate can adjust the position of bearing installation, and the arcuate structure of support frame lower end is matched with arc vertical plate When further bearing can be limited when bearing will be installed in place, prevent push sleeve caused by hammer force degree skew The active force that bearing is subject to has deviation, so that there are certain internal stress for the Bearing inner after installation.

As a preferred technical solution of the present invention, the front end of the barrier plate is provided with antiparallelogram notch, resistance Circular hole on baffle on the side and barrier plate of notch is tangent, and when specific works, the notch on barrier plate can facilitate shaft It places and collects.

As a preferred technical solution of the present invention, the lower end of the retaining sleeve is arcuate structure, retaining sleeve it is upper End is the arcuate structure that expands outwardly, and when specific works, clamping set upper side expands outwardly structure and makes shaft without human assistance It is smoothly inserted into anti-bias cylinder.

As a preferred technical solution of the present invention, described being located on rear side of the bush support of bottom plate left end is provided with one A arc-shaped slot is provided with another arc-shaped slot, and the section ruler of arc-shaped slot on front side of bottom plate right end bush support The very little diameter less than sliding bar, the lower end of sliding bar are provided with circular groove, the section of diameter and arc-shaped slot at sliding bar circular groove Size is corresponding, when specific works, when machine shaft bearing after the installation is completed, artificial lifting upwards pushes sleeve, so that sliding The height of arc-shaped slot of circular groove and bush support of lever is corresponding, rotates clockwise pushing sleeve later, so that lower pressing sleeve Cylinder can be locked on bush support by sliding bar.

As a preferred technical solution of the present invention, one is provided on each bush support for adsorbing The magnet block of sliding bar, magnet block is arcuate structure, and magnet block is located at the outside of arc-shaped slot on bush support, specific works When, magnet block can adsorb sliding bar, push sleeve in the stability of bush support to increase.

The beneficial effects of the present invention are:

One, the present invention can carry out the installation of bearing to various sizes of machine shaft, push sleeve and telescopic can It is combined, to apply lower pressure to the bearing inner race installed in different shafts, so that the bearing on machine shaft installs effect Fruit is good and bearing will not be damaged when installing to bearing；

Two, the present invention can limit bearing when bearing will be installed in place, and prevent from pushing sleeve by hammer force The active force that degree skew causes bearing to be subject to has deviation, so that there are certain internal stress for the Bearing inner after installation；

Three, the present invention can prevent shaft to be subjected to displacement when carrying out bearing installation by the locking to machine shaft bottom The phenomenon that, and the copper material of anti-bias cylinder bottom can prevent the damage that its bottom is caused when the installation of shaft progress bearing.

Detailed description of the invention

Present invention will be further explained below with reference to the attached drawings and examples.

Fig. 1 is first structure diagram of the invention；

Fig. 2 is top view of the invention；

Fig. 3 is the cross-sectional view between present invention pushing sleeve, telescopic, lock hole and inserting hole；

Fig. 4 is the cross-sectional view between present invention pushing sleeve, telescopic, lock hole, inserting hole, locking level and fixed plate；

Fig. 5 is the cross-sectional view between bottom plate of the present invention, anti-bias mechanism and barrier plate；

Fig. 6 is the cross-sectional view that the present invention pushes sleeve, telescopic carries out bearing installation to the shaft of two kinds of different-diameters.

Specific embodiment

In order to be easy to understand the technical means, the creative features, the aims and the efficiencies achieved by the present invention, tie below Conjunction is specifically illustrating, and the present invention is further explained.It should be noted that in the absence of conflict, embodiment in the application and Feature in embodiment can be combined with each other.

As shown in Figures 1 to 6, a kind of electric machine assembly assembles intelligent kludge, including bottom plate 1, anti-bias mechanism 2, barrier plate 3, sleeve 4, sliding bar 5 and bush support 6 are pushed, anti-bias mechanism 2 is installed on the middle part upper surface of the bottom plate 1, is stopped Plate 3 is located at the surface of anti-bias mechanism 2, and barrier plate 3 is mounted on the outer end top of bottom plate 1, and the lower end of barrier plate 3 is flexible knot Structure, the middle part of barrier plate 3 are provided with circular hole, push the top that sleeve 4 is located at barrier plate 3, and the left and right ends for pushing sleeve 4 are all provided with It is equipped with a support frame 41, a sliding bar 5 is mounted on the top of each support frame 41, the upper end of each sliding bar 5 is equal It is connected by way of being slidably matched with the upper end of a bush support 6, the lower end of bush support 6 is mounted on the outer of bottom plate 1 On the top of end, the present invention can be anti-bias by the way that the lower end of machine shaft to be placed on by bearing location and installation on machine shaft In mechanism 2, bearing is mounted on to the upper end of machine shaft, later by pushing 4 sets of sleeve on machine shaft, manually passes through hammer The top for hitting pushing sleeve 4 can be by bearing location and installation in the shaft of motor.

The front end of the barrier plate 3 is provided with antiparallelogram notch, on barrier plate 3 on the side of notch and barrier plate 3 Circular hole it is tangent, when specific works, the notch on barrier plate 3 can facilitate the placement of shaft and collect.

The anti-bias mechanism 2 includes anti-bias cylinder 21, clamping traveller 22, clamp springs 23 and retaining sleeve 24, anti-bias cylinder 21 For open-topped hollow cylindrical structure, the bottom material of anti-bias cylinder 21 is copper, is divided equally at left and right sides of the inner end of anti-bias cylinder 21 It is furnished with a clamping traveller 22, the middle part of clamping traveller 22 is connected by way of being slidably matched with the side wall of anti-bias cylinder 21, It is mounted on a retaining sleeve 24 on the inner end of each clamping traveller 22, the position of two retaining sleeves 24 is symmetrical, clamps traveller Clamp springs 23 are distributed on the outside of 22 inner end, clamp springs 23 are mounted on the lateral surface of retaining sleeve 24 and the inner wall of anti-bias cylinder 21 Between, when specific works, anti-bias mechanism 2 can lock the lower end of machine shaft, when preventing shaft from carrying out bearing installation Its lower end is subjected to displacement, and clamp springs 23 carry out stretching motion and retaining sleeve 24 carries out the machine shaft of different-diameter Holding action damages the lower end of shaft when the copper material of anti-bias 21 bottom of cylinder can prevent the present invention from carrying out bearing installation.

The lower end of the retaining sleeve 24 is arcuate structure, and the upper end of retaining sleeve 24 is the arcuate structure expanded outwardly, folder It holds 24 upper ends of set and expands outwardly structure and shaft is smoothly inserted into anti-bias cylinder 21 without human assistance.

The upper end of the pushing sleeve 4 is cone structure, and the lower end for pushing sleeve 4 is cylindrical structure, pushes sleeve 4 Lower end be provided with T-slot, push and be evenly distributed with telescopic 42 in the T-slot of sleeve 4, telescopic 42 is hollow cylinder knot Structure, the section of telescopic 42 are T shape, are set in by way of being slidably matched positioned at the telescopic 42 of outermost end and push sleeve 4 T-slot in, remaining telescopic 42 is sequentially sleeved in the hollow structure of its outer end telescopic 42, two adjacent telescopics To be slidably matched between 42, the card of telescopic 42 of inner end is placed on the telescopic 42 adjacent with its outer end；

The rear and front end for pushing sleeve 4 is provided with a lock hole 43, the rear and front end of telescopic 42 be provided with The corresponding inserting hole 44 in 43 position of lock hole on sleeve 4 is pushed, the inner end of locking level 45 passes through the lock hole pushed on sleeve 4 43 with telescopic 42 on inserting hole 44, the outer end of locking level 45 is evenly arranged with circular hole；

The lower end of locking level 45 is provided with fixed plate 46, and locking level 45 is connected with fixed plate 46 by bolt, and locks Bar 45 is located at the top of support frame 41, when specific works, pushes sleeve 4 and matches the inner ring that can be stuck in bearing with telescopic 42 On, enable the uniform stress of bearing, prevents bearing from there is certain internal stress during installation, to influence the use of motor Service life pushes sleeve 4 and matches the installation that can carry out bearing to the machine shaft of different model with telescopic 42, passes through control Locking level 45 is inserted in the depth in lock hole 43 and inserting hole 44, can control and push the flexible of sleeve 4 or suitable position It covers 42 pairs of bearings and carries out installation action, hammer force can be evenly transferred to push sleeve 4 by the cone structure for pushing 4 upper end of sleeve Lower end.

It is described push the axial line of sleeve 4, the axial line of telescopic 42, on barrier plate 3 axial line of circular hole with it is anti-bias The axial line of cylinder 21 is respectively positioned in same vertical straight line, and above-mentioned setting machine shaft to position to be placed on anti-bias cylinder 21 Interior, the surface of machine shaft can be applied to by pushing hammer force when sleeve 4 installs bearing, to increase the present invention to axis The installation effect held.

The inserting hole 44 on lock hole 43 and telescopic 42 on the pushing sleeve 4 is T-type hole, and locking level 45 is T-bar, when specific works, lock hole 43, inserting hole 44 T-type structure can increase the fiting effect with locking level 45, instantly The locking level 45 that the upper end of pressing sleeve cylinder 4 carries out T-type structure when hammering action is not flexible.

The inserting hole 44 for being located at the setting of telescopic 42 for pushing 4 inner terminal of sleeve is blind hole, remaining telescopic 42 The inserting hole 44 of setting is through-hole, and when specific works, the blind-hole type inserting hole 44 that the telescopic 42 of inner terminal is arranged can be prevented Locking level 45 is inserted into the telescopic 42 of inner terminal, causes machine shaft that can not be inserted into telescopic 42.

The distance between circular hole is equal with the distance between two neighboring telescopic 42 on the locking level 45, and locks The quantity of 45 circular hole of bar than telescopic 42 quantity more than one, when the circular hole of 45 outermost end of locking level is locked in fixed plate 46, Locking level 45 can lock all telescopics 42, when fixed plate 46 and the circular hole of 45 outer end of locking level second lock When, locking level 45 is unlocked the telescopic 42 of inner terminal, and the telescopic 42 of inner terminal is freely moved upwards.

Under the position of 42 lower end of telescopic successively increases from inside to outside, and the bottom of outermost end telescopic 42 is located at The lower section of 4 bottom of pressing sleeve cylinder is provided with copper packing on the bottom of telescopic 42, and the bottom inner end for pushing sleeve 4 is provided with copper packing, has When body running, the position of 42 lower end of telescopic successively increases from inside to outside enables to the present invention to make the lower pressure of bearing always Used in the position of its inner ring, prevent the present invention from generating the damage that active force causes bearing to bearing outer ring.

4 upper support frame of pushing sleeve, 41 section is L shape, and the lower end of support frame 41 is arcuate structure, barrier plate 3 Arc vertical plate 31, the lateral surface phase of the medial surface and arc vertical plate 31 of 41 lower end arcuate structure of support frame are symmetrically installed on top Fitting, and the upper end lateral surface of the lower end inside face of support frame 41 and arc vertical plate 31 is provided with skewed slot, when specific works, branch When the bottom of support 41 and the top of barrier plate 3 contact, bearing is the suitable position for being installed to shaft, by adjusting barrier plate 3 Height can adjust the position of bearing installation, can be when the arcuate structure of 41 lower end of support frame is matched with arc vertical plate 31 Bearing further limits bearing when will be installed in place, prevent push sleeve 4 by hammer force degree skew cause bearing by To active force have deviation so that installation after Bearing inner there are certain internal stress.

The rear side positioned at 1 left end bush support 6 of bottom plate is provided with an arc-shaped slot, is located at 1 right end set of bottom plate The front side of tube stent 6 is provided with another arc-shaped slot, and the sectional dimension of arc-shaped slot is less than the diameter of sliding bar 5, sliding The lower end of bar 5 is provided with circular groove, and the diameter at 5 circular groove of sliding bar is corresponding with the sectional dimension of arc-shaped slot, when specific works, When machine shaft bearing after the installation is completed, artificial lifting upwards pushes sleeve 4, so that the circular groove of sliding bar 5 and bush support 6 Arc-shaped slot height it is corresponding, rotate clockwise later push sleeve 4, allow push sleeve 4 locked by sliding bar 5 It is scheduled on bush support 6.

One is provided on each bush support 6 for adsorbing the magnet block 61 of sliding bar 5, magnet block 61 is Arcuate structure, and magnet block 61 is located at the outside of arc-shaped slot on bush support 6, when specific works, magnet block 61 can be adsorbed Firmly sliding bar 5 push sleeve 4 in the stability of bush support 6 to increase.

When work, step 1: the machine shaft for carrying out bearing installation will be needed to be placed in the circular hole of barrier plate 3 first, The lower end of motor is placed in anti-bias cylinder 21 again, 24 upper end of retaining sleeve expands outwardly structure and makes shaft suitable without human assistance Smooth is inserted into anti-bias cylinder 21, and clamp springs 23 carry out stretching motion and retaining sleeve 24 turns the motor of different-diameter Axis carries out holding action, and the lower end of shaft is damaged when anti-bias 21 bottom copper material of cylinder can prevent the present invention from carrying out bearing installation；

Step 2: being inserted in the depth in lock hole 43 and inserting hole 44 according to the diameter adjustment locking level 45 of machine shaft Degree, so that fixed plate 46 is locked with the suitable circular hole of locking level 45, so that pushing sleeve 4 or telescopic 42 can be against On the inner ring of bearing, then artificial hammering pushes the cone structure of 4 upper end of sleeve, pushes sleeve 4 and hammer force is applied to motor The surface of shaft, to increase the present invention to the installation effect of bearing, the position of 42 lower end of telescopic successively rises from inside to outside Height enables to the present invention to act on the position of its inner ring always to the lower pressure of bearing, prevents the present invention from generating to bearing outer ring Active force causes the damage of bearing；

Step 3: bearing is the suitable position for being installed to shaft when the bottom of support frame 41 and the top of barrier plate 3 contact It sets, the height by adjusting barrier plate 3 can adjust the position of bearing installation, and the arcuate structure and arc of 41 lower end of support frame are vertical Plate 31 further can limit bearing when bearing will be installed in place when matching, and prevent pushing sleeve 4 from being hammered The active force that dynamics skew causes bearing to be subject to has deviation, so that there are certain internal stress for the Bearing inner after installation；

Step 4: the bearing for working as machine shaft is after the installation is completed, manually lifts upwards and push sleeve 4, so that sliding bar 5 Circular groove is corresponding with the height of the arc-shaped slot of bush support 6, rotates clockwise push sleeve 4 later, so that pushing sleeve 4 can To be locked on bush support 6 by sliding bar 5, the machine shaft for installing bearing is taken out later.

Invention can carry out the installation of bearing to various sizes of machine shaft, push sleeve and telescopic is able to carry out group Close, to apply lower pressure to the bearing inner race installed in different shafts so that the bearing installation effect on machine shaft it is good and Bearing will not be damaged when installing to bearing.

The basic principles, main features and advantages of the invention have been shown and described above.The technical staff of the industry should Understand, the present invention is not limited to the above embodiments, and only illustrating for the description in above embodiments and description is of the invention Principle, without departing from the spirit and scope of the present invention, various changes and improvements may be made to the invention, these change and change Into all fall within the protetion scope of the claimed invention.The claimed scope of the invention is by appended claims and its equivalent It defines.

Claims (10)

1. a kind of electric machine assembly assembles intelligent kludge, including bottom plate (1), anti-bias mechanism (2), barrier plate (3), pushing sleeve (4), sliding bar (5) and bush support (6), it is characterised in that: anti-bias machine is installed on the middle part upper surface of the bottom plate (1) Structure (2), barrier plate (3) are located at the surface of anti-bias mechanism (2), and barrier plate (3) hinders on being mounted at the top of the outer end of bottom plate (1) The lower end of baffle (3) is stretching structure, and circular hole is provided in the middle part of barrier plate (3), pushes sleeve (4) and is located at barrier plate (3) Top, the left and right ends for pushing sleeve (4) are provided with a support frame (41), are respectively mounted on the top of each support frame (41) There is a sliding bar (5), the upper end of each sliding bar (5) passes through the side being slidably matched with the upper end of a bush support (6) Formula is connected, and the lower end of bush support (6) is mounted on the outer end top of bottom plate (1)；Wherein:

The anti-bias mechanism (2) includes anti-bias cylinder (21), clamping traveller (22), clamp springs (23) and retaining sleeve (24), is prevented Inclined cylinder (21) is open-topped hollow cylindrical structure, and the bottom material of anti-bias cylinder (21) is copper, the inner end of anti-bias cylinder (21) The left and right sides is distributed with a clamping traveller (22), clamp the middle part of traveller (22) by way of being slidably matched with anti-bias cylinder (21) side wall is connected, and is mounted on a retaining sleeve (24), two retaining sleeves on the inner end of each clamping traveller (22) (24) position is symmetrical, clamps and is distributed with clamp springs (23) on the outside of the inner end of traveller (22), clamp springs (23) are mounted on Between the lateral surface of retaining sleeve (24) and the inner wall of anti-bias cylinder (21)；

The upper end of the pushing sleeve (4) is cone structure, and the lower end for pushing sleeve (4) is cylindrical structure, pushes sleeve (4) lower end is provided with T-slot, pushes and is evenly distributed with telescopic (42) in the T-slot of sleeve (4), and telescopic (42) is sky The section of heart cylindrical structure, telescopic (42) is T shape, positioned at telescopic (42) set by way of being slidably matched of outermost end It is located in the T-slot for pushing sleeve (4), remaining telescopic (42) is sequentially sleeved at the hollow structure of its outer end telescopic (42) It is interior, it is slidably matched between two adjacent telescopics (42)；

The rear and front end for pushing sleeve (4) is provided with a lock hole (43), and the rear and front end of telescopic (42) is provided with Inserting hole (44) corresponding with lock hole (43) position on sleeve (4) is pushed, the inner end of locking level (45), which passes through, pushes sleeve (4) inserting hole (44) on lock hole (43) and telescopic (42) on, the outer end of locking level (45) is evenly arranged with circular hole；

The lower end of locking level (45) is provided with fixed plate (46), and locking level (45) is connected with fixed plate (46) by bolt, and Locking level (45) is located at the top of support frame (41)；

The axial line of pushing sleeve (4), the axial line of telescopic (42), the axial line of circular hole and anti-on barrier plate (3) The axial line of inclined cylinder (21) is respectively positioned in same vertical straight line.

2. a kind of electric machine assembly according to claim 1 assembles intelligent kludge, it is characterised in that: the pushing sleeve (4) inserting hole (44) on lock hole (43) and telescopic (42) on is T-type hole, and locking level (45) is T-bar.

3. a kind of electric machine assembly according to claim 1 assembles intelligent kludge, it is characterised in that: described being located at pushes The inserting hole (44) of telescopic (42) setting of sleeve (4) inner terminal is blind hole, the inserting hole of remaining telescopic (42) setting It (44) is through-hole.

4. a kind of electric machine assembly according to claim 1 assembles intelligent kludge, it is characterised in that: the locking level (45) the distance between circular hole is equal with the distance between two neighboring telescopic (42) on.

5. a kind of electric machine assembly according to claim 1 assembles intelligent kludge, it is characterised in that: the telescopic (42) position of lower end successively increases from inside to outside, and the bottom of outermost end telescopic (42) is located at pushing sleeve (4) bottom Lower section is provided with copper packing on the bottom of telescopic (42), and the bottom inner end for pushing sleeve (4) is provided with copper packing.

6. a kind of electric machine assembly according to claim 1 assembles intelligent kludge, it is characterised in that: the pushing sleeve (4) upper support frame (41) section is L shape, and the lower end of support frame (41) is arcuate structure, is symmetrically installed on the top of barrier plate (3) Having arc vertical plate (31), the lateral surface of the medial surface and arc vertical plate (31) of support frame (41) lower end arcuate structure fits, and The lower end inside face of support frame (41) and the upper end lateral surface of arc vertical plate (31) are provided with skewed slot.

7. a kind of electric machine assembly according to claim 1 assembles intelligent kludge, it is characterised in that: the barrier plate (3) front end is provided with antiparallelogram notch, and the side of notch and the circular hole on barrier plate (3) are tangent on barrier plate (3).

8. a kind of electric machine assembly according to claim 1 assembles intelligent kludge, it is characterised in that: the retaining sleeve (24) lower end is arcuate structure, and the upper end of retaining sleeve (24) is the arcuate structure expanded outwardly.

9. a kind of electric machine assembly according to claim 1 assembles intelligent kludge, it is characterised in that: described is located at bottom plate (1) it is provided with an arc-shaped slot on rear side of left end bush support (6), is located on front side of bottom plate (1) right end bush support (6) and sets It is equipped with another arc-shaped slot, and the sectional dimension of arc-shaped slot is less than the diameter of sliding bar (5), the lower end of sliding bar (5) is set It is equipped with circular groove, the diameter at sliding bar (5) circular groove is corresponding with the sectional dimension of arc-shaped slot.

10. a kind of electric machine assembly according to claim 9 assembles intelligent kludge, it is characterised in that: each set One is provided on tube stent (6) for adsorbing the magnet block (61) of sliding bar (5), magnet block (61) is arcuate structure, and Magnet block (61) is located at the outside of arc-shaped slot on bush support (6).