CN116885902A - Spare part storage device for overhauling high-voltage motor - Google Patents

Abstract

The application relates to the technical field of high-voltage motor overhaul, in particular to a part containing device for high-voltage motor overhaul, which comprises a supporting part, a supporting plate, a threaded hole, an electric sliding rail and a sliding plate, wherein the supporting part comprises a supporting frame, a mounting plate arranged on the supporting frame, the threaded hole is arranged on the mounting plate, the electric sliding rail is arranged on the supporting frame, and the sliding plate is arranged on the electric sliding rail; the clamping component comprises a gear tooth assembly arranged on the support frame, a transmission assembly arranged on the gear tooth assembly, a propping assembly arranged on the transmission assembly, a first clamping assembly arranged on the propping assembly, a second clamping assembly arranged on the propping assembly and a limiting assembly arranged on the propping assembly; the surface changing component comprises a telescopic component arranged on the mounting plate. The device disclosed by the application can be used for rapidly disassembling parts of the high-voltage motor, and can be used for realizing accurate alignment of the rotor shaft and avoiding collision of the rotor shaft.

Description

Spare part storage device for overhauling high-voltage motor

Technical Field

The application relates to the technical field of high-voltage motor overhaul, in particular to a part containing device for high-voltage motor overhaul.

Background

When the high-voltage motor on the drainage system pump is overhauled, the high-voltage motor is required to be disassembled firstly, then the high-voltage motor is leveled, a dustproof shell screw on the high-voltage motor is rotated, the dustproof shell is disassembled, and then the end cover and the inner rotor shaft are disassembled to overhaule and maintain.

In the use process, when the rotor shaft is dismounted, the rotor shaft is generally heavy, so that the crane is required to slowly lift out of the rotor shaft by adopting a light transmission method, the process is relatively complicated, and when the rotor shaft is mounted, the hole site of high voltage motor still needs to be aimed at slowly for the installation is slower, influences the efficiency of maintenance, and the phenomenon that the axis body bumps high voltage motor housing still appears easily when the crane installs the rotor shaft simultaneously, causes the damage of rotor shaft easily.

Disclosure of Invention

In view of the above or the problems that in the prior art, when the rotor shaft is dismounted or mounted by adopting a light transmission method, the crane is required to move the rotor shaft, the process is relatively complicated, the maintenance efficiency is affected, and the phenomenon that the shaft body collides with the high-voltage motor shell and the rotor shaft is damaged easily occurs when the crane mounts the rotor shaft, the application is provided.

Accordingly, an object of the present application is to provide a component housing device for high-voltage motor maintenance.

In order to solve the technical problems, the application provides the following technical scheme: comprises a supporting part, a supporting frame, a mounting plate arranged on the supporting frame, a threaded hole arranged on the mounting plate, the electric sliding rail is arranged on the supporting frame, and the sliding plate is arranged on the electric sliding rail; the clamping component comprises a gear tooth assembly arranged on the support frame, a transmission assembly arranged on the gear tooth assembly, a propping assembly arranged on the transmission assembly, a first clamping assembly arranged on the propping assembly, a second clamping assembly arranged on the propping assembly and a limiting assembly arranged on the propping assembly; the surface changing component comprises a telescopic component arranged on the mounting plate, a guide component arranged on the telescopic component and a unidirectional component arranged on the gear tooth component.

As a preferable embodiment of the component housing device for high-voltage motor maintenance of the present application, the component housing device comprises: the gear tooth assembly comprises a first rotating shaft arranged on the sliding plate, a first gear arranged on the first rotating shaft, a toothed plate arranged on the supporting frame, a clamping groove arranged on the first rotating shaft, a clamping block arranged on the clamping groove, a transmission shaft arranged on the upper side of the first rotating shaft, a notch arranged on the transmission shaft, a first disc arranged on the transmission shaft, a guide opening arranged on the first disc, a connecting shaft arranged on the guide opening, a first torsion spring arranged on the connecting shaft and a first pawl arranged on the connecting shaft;

wherein, first gear and pinion rack looks adaptation.

As a preferable embodiment of the component housing device for high-voltage motor maintenance of the present application, the component housing device comprises: the transmission assembly comprises a circular ring arranged on the upper side of the sliding plate, a mounting cavity arranged on the circular ring, a gear ring arranged on the mounting cavity, a support shaft arranged on the mounting cavity, a second gear arranged on the support shaft, a cylinder arranged on the gear ring, a bearing frame arranged in the mounting cavity, a second rotating shaft arranged on the bearing frame, a second disc arranged on the second rotating shaft, a mounting groove arranged on the second disc, a mounting box arranged on the second rotating shaft and a second pawl arranged on the mounting box;

wherein, first pawl and second pawl looks adaptation.

As a preferable embodiment of the component housing device for high-voltage motor maintenance of the present application, the component housing device comprises: the offset assembly comprises a first supporting disc arranged on a supporting shaft, two first mounting openings arranged on the first supporting disc, a vertical edge arranged on the first mounting openings, a first transverse edge arranged on the first mounting openings, a first oblique edge arranged on the first transverse edge, a second supporting disc arranged on the supporting shaft, two second mounting openings arranged on the second supporting disc, two second oblique edges arranged on the second mounting openings and a second transverse edge arranged on the two oblique edges.

As a preferable embodiment of the component housing device for high-voltage motor maintenance of the present application, the component housing device comprises: the first clamping assembly comprises a first through hole arranged on the circular ring, a first vertical plate arranged on the first through hole, an arc-shaped plate arranged on the first vertical plate, a baffle arranged on the first vertical plate and a first spring arranged on the baffle.

As a preferable embodiment of the component housing device for high-voltage motor maintenance of the present application, the component housing device comprises: the second clamping assembly comprises a second through hole arranged on the circular ring, a second vertical plate arranged on the second through hole, a clamping frame arranged on the second vertical plate, a second spring arranged on the clamping frame and a limiting groove arranged on the second vertical plate.

As a preferable embodiment of the component housing device for high-voltage motor maintenance of the present application, the component housing device comprises: the limiting assembly comprises a connecting plate arranged on the first mounting port, a limiting block arranged on the connecting plate, a containing groove arranged on the limiting block, a third spring arranged in the containing groove, a top block arranged on the third spring and two cuts arranged on the top block;

wherein, two all with spacing groove looks adaptation is cut.

As a preferable embodiment of the component housing device for high-voltage motor maintenance of the present application, the component housing device comprises: the telescopic assembly comprises a mounting sleeve arranged on the sliding plate, an electric telescopic rod arranged on the mounting sleeve and a lifting disc arranged on the electric telescopic rod;

wherein, lifting disk and ring fixed connection.

As a preferable embodiment of the component housing device for high-voltage motor maintenance of the present application, the component housing device comprises: the guide assembly comprises a first guide groove arranged on the lifting disc, a second guide groove arranged on the first guide groove and a guide column arranged on the first guide groove.

As a preferable embodiment of the component housing device for high-voltage motor maintenance of the present application, the component housing device comprises: the unidirectional component comprises a supporting groove arranged on the second guiding groove, a supporting column arranged on the supporting groove, a second torsion spring arranged on the supporting column and a stop block arranged on the supporting column.

The component containing device for overhauling the high-voltage motor has the beneficial effects that: through setting up the clamping part, can carry out the centre gripping of protecting crust, end cover, rotor shaft automatically in the skateboard motion process, thereby when resetting, carry out the removal of protecting crust automatically, the end cover, the rotor shaft, and accomodate temporarily, and because electronic slide rail is left and right sides upward, the dislocation of high-voltage motor shell and output shaft is difficult to take place, guarantee the installation accuracy, avoid the rotor shaft to bump simultaneously, and because the difference of holder, can realize the translation dismantlement of protecting crust, end cover etc. also can guarantee the accuracy of the mounted position of protecting crust, end cover etc. to when solving and adopting the printing opacity method to dismantle or install the rotor shaft, need the crane to remove the rotor shaft slowly, this process is comparatively loaded down with trivial details, influence the efficiency of maintenance, the phenomenon of shaft body collision high-voltage motor shell still appears easily when the crane installs the rotor shaft simultaneously, cause the problem that the rotor shaft damaged easily, reach high-voltage motor spare part and dismantle fast and install the accurate effect of counterpoint.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings required for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Wherein:

fig. 1 is an overall schematic view of a component housing device for high-voltage motor maintenance.

Fig. 2 is a schematic view of the outer structure of the ring of the component housing device for high-voltage motor maintenance.

Fig. 3 is a schematic cross-sectional view of a ring of the component housing device for high-voltage motor maintenance.

Fig. 4 is an exploded view of the outer structure of the support shaft of the component housing device for high-voltage motor maintenance.

Fig. 5 is a schematic sectional view of a limiting assembly of the component storage device for high-voltage motor maintenance.

Fig. 6 is a schematic view of the inner structure of the ring of the component housing device for high-voltage motor maintenance.

Fig. 7 is an exploded view of the external structure of the gear tooth assembly of the component housing device for high-voltage motor maintenance.

Fig. 8 is an exploded view of the exterior structure of the mounting case of the component housing device for high-voltage motor maintenance.

Fig. 9 is a schematic view showing the external structure of the first pawl of the component housing device for high-voltage motor maintenance.

Fig. 10 is an exploded view of the annular bottom structure of the component housing device for high-voltage motor maintenance.

Fig. 11 is an exploded view showing the internal structure of the mounting sleeve of the component housing device for high-voltage motor maintenance.

Fig. 12 is a front view of a support column of the component housing device for high-voltage motor maintenance.

In the figure: 100. a support member; 101. a support frame; 102. a mounting plate; 103. a threaded hole; 104. an electric slide rail; 105. a slide plate; 200. a clamping member; 201. a gear tooth assembly; 201a, a first rotating shaft; 201b, a first gear; 201c, toothed plate; 201d, a clamping groove; 201e, clamping blocks; 201f, a transmission shaft; 201g, notch; 201h, a first disc; 201i, a guide port; 201j, a connecting shaft; 201k, a first torsion spring; 201l, first pawl; 202. a transmission assembly; 202a, a circular ring; 202b, a mounting cavity; 202c, a gear ring; 202d, a supporting shaft; 202e, a second gear; 202f, a cylinder; 202g, a bearing frame; 202h, a second rotating shaft; 202i, a second disc; 202j, mounting grooves; 202k, mounting a box; 202l, second pawl; 203. a propping component; 203a, a first support plate; 203b, a first mounting port; 203c, vertical edges; 203d, a first transverse edge; 203e, a first oblique side; 203f, a second support plate; 203g, a second mounting port; 203h, a second bevel edge; 203i, a second transverse edge; 204. a first clamping assembly; 204a, a first through opening; 204b, a first riser; 204c, an arcuate plate; 204d, baffles; 204e, a first spring; 205. a second clamping assembly; 205a, a second through opening; 205b, a second riser; 205c, clamping frames; 205d, a second spring; 205e, a limit groove; 206. a limit component; 206a, a connection plate; 206b, a limiting block; 206c, a receiving groove; 206d, a third spring; 206e, a top block; 206f, incision; 300. a face changing assembly; 301. a telescoping assembly; 301a, a mounting sleeve; 301b, electric telescopic rod; 301c, lifting disc; 302. a guide assembly; 302a, a first guide groove; 302b, a second guide groove; 302c, guide posts; 303. a unidirectional component; 303a, support slots; 303b, support columns; 303c, a second torsion spring; 303d, a stop;

Detailed Description

In order that the above-recited objects, features and advantages of the present application will become more readily apparent, a more particular description of the application will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, but the present application may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present application is not limited to the specific embodiments disclosed below.

Further, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic can be included in at least one implementation of the application. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1 to 9, in a first embodiment of the present application, there is provided a component housing device for maintenance of a high voltage motor, which can realize the effect of dispersing and housing components of the high voltage motor, and includes a supporting member 100 including a supporting frame 101, a mounting plate 102 provided on the supporting frame 101, a screw hole 103 provided on the mounting plate 102, an electric slide rail 104 provided on the supporting frame 101, and a slide plate 105 provided on the electric slide rail 104; the clamping component 200 comprises a gear tooth assembly 201 arranged on the support frame 101, a transmission assembly 202 arranged on the gear tooth assembly 201, a propping assembly 203 arranged on the transmission assembly 202, a first clamping assembly 204 arranged on the propping assembly 203, a second clamping assembly 205 arranged on the propping assembly 203 and a limiting assembly 206 arranged on the propping assembly 203; the face changing component comprises a telescopic component 301 arranged on the mounting plate 102, a guiding component 302 arranged on the telescopic component 301 and a unidirectional component 303 arranged on the gear tooth component 201.

Specifically, support frame 101 passes through rag bolt and ground fixed connection, mounting panel 102 and support frame 101 fixed connection, set up a plurality of screw holes 103 on the mounting panel 102, can carry out high voltage motor's spacing, avoid high voltage motor to take place not hard up, here screw hole 103 sets up a plurality of to be suitable for the high voltage motor of equidimension, during the use, compress tightly the mount pad on the high voltage motor casing on mounting panel 102 through bolt and screw hole 103 cooperation, carry out high voltage motor's fixed, electric slide rail 104 sets up the front and back end at support frame 101, mounting panel 102 and electric slide rail 104 sliding connection.

Further, the gear tooth assembly 201 includes a first rotating shaft 201a provided on the slide 105, a first gear 201b provided on the first rotating shaft 201a, a toothed plate 201c provided on the support frame 101, a clamping groove 201d provided on the first rotating shaft 201a, a clamping block 201e provided on the clamping groove 201d, a transmission shaft 201f provided on the upper side of the first rotating shaft 201a, a notch 201g provided on the transmission shaft 201f, a first disc 201h provided on the transmission shaft 201f, a guide opening 201i provided on the first disc 201h, a connecting shaft 201j provided on the guide opening 201i, a first torsion spring 201k provided on the connecting shaft 201j, and a first pawl 201l provided on the connecting shaft 201 j;

wherein the first gear 201b is adapted to the toothed plate 201 c; the transmission assembly 202 comprises a circular ring 202a arranged on the upper side of the sliding plate 105, a mounting cavity 202b arranged on the circular ring 202a, a gear ring 202c arranged on the mounting cavity 202b, a support shaft 202d arranged on the mounting cavity 202b, a second gear 202e arranged on the support shaft 202d, a cylinder 202f arranged on the gear ring 202c, a bearing frame 202g arranged in the mounting cavity 202b, a second rotating shaft 202h arranged on the bearing frame 202g, a second disc 202i arranged on the second rotating shaft 202h, a mounting groove 202j arranged on the second disc 202i, a mounting box 202k arranged on the second rotating shaft 202h and a second pawl 202l arranged on the mounting box 202 k; wherein the first pawl 201l is adapted to the second pawl 202 l.

The first rotating shaft 201a penetrates through the sliding plate 105 and is rotationally connected with the sliding plate 105, the first gear 201b is fixedly connected with the first rotating shaft 201a, the toothed plate 201c is fixedly connected with the supporting frame 101, the clamping blocks 201e are multiple and fixedly connected with the inner wall of the clamping groove 201d, the transmission shaft 201f is provided with a plurality of notches 201g matched with the clamping blocks 201e, the first disc 201h is fixedly connected with the transmission shaft 201f, the connecting shaft 201j is rotationally connected with the guide opening 201i, the first pawl 201l is fixedly connected with the connecting shaft 201j, the first torsion spring 201k is arranged on the connecting shaft 201j, the tooth ring 202c is rotationally connected with the inner wall of the mounting cavity 202b, the supporting shaft 202d is provided with a plurality of rotating shafts and is rotationally connected with the inner wall of the mounting cavity 202b, the second gear 202e is fixedly connected with the supporting shaft 202d, the cylinder 202f is provided with a plurality of rotating shafts and is fixedly connected with the side wall of the tooth ring 202c, the second rotating shaft 202h penetrates through the bearing frame 202g and is rotationally connected with the bearing frame 202g, the second disc 202i is rotationally connected with the second rotating shaft 202h, the second rotating shaft 202k is fixedly connected with the second rotating shaft 202k, and the second rotating shaft 202k is fixedly connected with the lower rotating shaft 202 k.

Preferably, the offset assembly 203 comprises a first supporting plate 203a disposed on a supporting shaft 202d, two first mounting openings 203b disposed on the first supporting plate 203a, a vertical edge 203c disposed on the first mounting opening 203b, a first horizontal edge 203d disposed on the first mounting opening 203b, a first oblique edge 203e disposed on the first horizontal edge 203d, a second supporting plate 203f disposed on the supporting shaft 202d, two second mounting openings 203g disposed on the second supporting plate 203f, two second oblique edges 203h disposed on the second mounting openings 203g, and a second horizontal edge 203i disposed on the two oblique edges; the first clamping assembly 204 includes a first through opening 204a disposed on the circular ring 202a, a first vertical plate 204b disposed on the first through opening 204a, an arc plate 204c disposed on the first vertical plate 204b, a baffle plate 204d disposed on the first vertical plate 204b, and a first spring 204e disposed on the baffle plate 204 d; the second clamping assembly 205 includes a second through hole 205a disposed on the circular ring 202a, a second vertical plate 205b disposed on the second through hole 205a, a clamping frame 205c disposed on the second vertical plate 205b, a second spring 205d disposed on the clamping frame 205c, and a limiting groove 205e disposed on the second vertical plate 205 b.

It should be noted that, the first supporting plate 203a is fixedly connected with the supporting shaft 202d, the first mounting opening 203b is provided with two, the second supporting plate 203f is fixedly connected with the supporting shaft 202d, the second mounting opening 203g is also provided with two, the radian between the two second mounting openings 203g is 180 °, the first vertical plate 204b is slidably connected with the first through opening 204a, the arc plate 204c is fixedly connected with the first vertical plate 204b, the baffle plate 204d is elastically connected with the inner wall of the mounting cavity 202b through the first spring 204e, the second vertical plate 205b is slidably connected with the second through opening 205a, the holding frame is fixedly connected with the second vertical plate 205b, and the holding frame is elastically connected with the side wall of the circular ring 202a through the second spring 205 d.

When in use, firstly, a high-voltage motor is placed on the mounting plate 102 of the supporting frame 101, then a limit hole on the shell of the high-voltage motor is opposite to the threaded hole 103, then a bolt is turned to limit the high-voltage motor, then a screw on an end cover of an output shaft of the high-voltage motor principle is disassembled, then the left-end electric sliding rail 104 is started, the left-end electric sliding rail 104 is started to enable the sliding plate 105 to move rightwards, when the sliding plate 105 moves rightwards, the first gear 201b is meshed with the toothed plate 201c, so as to drive the first gear 201b to move clockwise (from the reverse view of the first gear 201b, the lower part is the same), the first rotating shaft 201a rotates clockwise, a clamping block 201e on the first rotating shaft 201a rotates clockwise around the first rotating shaft 201a, the clamping block 201e is matched with a notch 201g, so that a transmission shaft 201f rotates clockwise, when the transmission shaft 201f rotates clockwise, the first pawl 201l can be driven to rotate clockwise around the transmission shaft 201f, and then drives the second pawl 202l to rotate clockwise around the transmission shaft 201f, so that the second rotation shaft 202h rotates clockwise, the plurality of mounting grooves 202j move, and when the second rotation shaft 202h rotates clockwise, the mounting grooves 202j can be engaged with the plurality of cylinders 202f, and the mounting grooves 202j are obliquely arranged so as not to affect the detachment of the cylinders 202f, and as the second rotation shaft 202h rotates, the cylinders 202f can be pushed to move, so that the gear ring 202c rotates counterclockwise (as viewed from the right end to the gear ring 202c, the gear ring 202c rotates counterclockwise, so that the plurality of support shafts 202d rotate counterclockwise, so that the second gear 202e rotates clockwise, and when the second gear rotates clockwise, the support shafts 202d rotate clockwise, on the one hand, the first vertical plates 204b move from the second vertical sides 203i to the second oblique sides 203h, then, the first vertical plates 204b are propped against the second supporting disc 203f, so that the first vertical plates 204b move towards the center of the circular ring 202a, the baffle 204d moves, the first springs 204e compress, and when the plurality of first vertical plates 204b move, the arc plates 204c can be driven to move towards the middle, so that the clamping of the high-voltage motor central shaft body can be carried out;

meanwhile, when the third rotating shaft rotates, the first supporting disc 203a can be driven to rotate, when the clamping frame 205c is just above the dustproof shell, the second vertical plate 205b moves from the outer edge of the first supporting disc 203a to the vertical edge 203c of the first mounting port 203b, at the moment, under the action of the second spring 205d, the second vertical plate 205b resets, so that the second vertical plate 205b moves the first transverse edge 203d, the second vertical plate 205b resets, a plurality of clamping frames 205c reset and are blocked at the outer side of the dustproof shell, then when the sliding rail 104 moves the sliding plate 105 leftwards, the dustproof shell can be driven to separate from the high-voltage motor to insert, detach and store the dustproof shell of the high-voltage motor, after the clamping frame 205c is arranged outside the dustproof shell, the electric slide rail 104 is started to enable the slide plate 105 to move leftwards, the slide plate 105 worth of the left end moves leftwards, the electric slide rails 104 at the left end and the right end of the supporting frame 101 independently move, when the slide plate 105 moves leftwards, the first rotating shaft 201a can rotate reversely, the transmission shaft 201f rotates reversely, at the moment, the first pawl 201l on the transmission shaft 201f props against the second pawl 202l, and due to the arrangement of the guide opening 201i, the first pawl 201l can be retracted into the guide opening 201i, the connecting shaft 201j rotates, the first torsion spring 201k obtains elasticity, and at the moment, the second rotating shaft 202h cannot be driven to rotate, so that the unidirectional rotation of the second rotating shaft 202h is realized;

here, the clamping frame 205c is also different according to the different shapes of the disassembled parts, when the end cover is disassembled, the vertical side length of the clamping frame 205c is shorter, and one more limiting block 206b is added to limit the end cover, so that the end cover is prevented from falling off, and when the end cover is disassembled and installed, the electric sliding rail 104 is directly arranged in the left-right direction, the dislocation of the high-voltage motor shell and the output shaft is not easy to occur, and the installation precision is ensured.

In general, can rotate down behind shield and the end cover screw, dismantle end cover or shield automatically, need not the workman and transport for the maintenance is more convenient, and because electronic slide rail 104 left and right directions goes straight away, when the installation end cover, can not take place the phenomenon of slope.

Example 2

Referring to fig. 5, in a second embodiment of the present application, unlike the previous embodiment, the present embodiment provides a limiting assembly 206 of a component receiving device for maintenance of a high voltage motor, which solves the problem of how to prevent loosening of a clamping frame during clamping, and includes a connecting plate 206a disposed on a first mounting opening 203b, a limiting block 206b disposed on the connecting plate 206a, a receiving slot 206c disposed on the limiting block 206b, a third spring 206d disposed in the receiving slot 206c, a top block 206e disposed on the third spring 206d, and two cutouts 206f disposed on the top block 206 e; wherein, two cutouts 206f are adapted to the limiting groove 205e, wherein, the connecting plate 206a is fixedly connected with the inner wall of the first mounting opening 203b, the limiting block 206b is fixedly connected with the connecting plate 206a, the top block 206e is slidably connected with the accommodating groove 206c, and the top block 206e is elastically connected with the inner wall of the accommodating groove 206c through the third spring 206 d.

When the anti-dust cover is used, in the process that the second vertical plate 205b moves from the first supporting disc 203a to the first transverse edge 203d of the first mounting opening 203b, the notch 206f is pushed, the top block 206e moves towards the direction of the containing groove 206c, the third spring 206d obtains elasticity, when the second vertical plate 205b abuts against the first transverse edge 203d of the first mounting opening 203b, the top block 206e is opposite to the limiting groove 205e, at the moment, the third spring 206d rebounds, the top block 206e moves outwards and is clamped into the limiting groove 205e, so that the limiting of the second vertical plate 205b is realized, the second vertical plate 205b is prevented from loosening, and the clamping of the anti-dust cover or the end cover is ensured.

In sum, can carry out the spacing of second riser 205b automatically after carrying out the clamp of end cover or dirt proof boot, avoid second riser 205b to take place not hard up to avoid clamping frame 205c to take place not hard up, guarantee the stability to end cover or dirt proof boot centre gripping.

Example 3

Referring to fig. 10 to 12, in a third embodiment of the present application, unlike the previous embodiment, the present embodiment provides a telescopic unit 301 of a component housing device for high-voltage motor maintenance, which solves the problem of how to clamp different components, and includes a mounting sleeve 301a provided on a slide plate 105, an electric telescopic rod 301b provided on the mounting sleeve 301a, and a lifting disk 301c provided on the electric telescopic rod 301 b; wherein, the lifting disk 301c is fixedly connected with the circular ring 202 a; the guide assembly 302 includes a first guide groove 302a provided on the elevating plate 301c, a second guide groove 302b provided on the first guide groove 302a, and a guide post 302c provided on the first guide groove 302 a; the unidirectional assembly 303 includes a support groove 303a provided on the second guide groove 302b, a support post 303b provided on the support groove 303a, a second torsion spring 303c provided on the support post 303b, and a stopper 303d provided on the support post 303 b.

Further, the mounting sleeve 301a is fixedly connected with the slide plate 105, the electric telescopic rod 301b is fixedly connected with the slide plate 105, the lifting disc 301c is fixedly connected with the telescopic end of the electric telescopic rod 301b, the diameter of the lifting disc 301c is smaller than the inner diameter of the mounting sleeve 301a, the first guide groove 302a penetrates through the lifting disc 301c, the tail end of the second guide groove 302b is communicated with the first guide groove 302a, the supporting column 303b is fixedly connected with the inner wall of the mounting sleeve 301a, the supporting column 303b is rotatably connected with the supporting groove 303a, the supporting column 303b is fixedly connected with the baffle 204d, the second torsion spring 303c is arranged on the supporting column 303b, and the left end side wall of the stop block 303d abuts against the inner wall of the supporting groove 303 a.

When the electric telescopic rod is used, the two circular rings 202a at the left end are fixed together, and are symmetrically arranged, after a part is clamped on the clamping frame 205c of one circular ring 202a, the clamping frame 205c of the other circular ring 202a is required to be used, and then the electric telescopic rod 301b is required to be stretched, so that the lifting disc 301c moves upwards, the circular ring 202a moves upwards, the transmission shaft 201f penetrates through the circular ring 202a and is rotationally connected with the circular ring 202a, when the notch 201g on the transmission shaft 201f is separated from the clamping block 201e, the guide column 302c moves from the lower end of the first guide groove 302a to the connecting position of the first guide groove 302a and the second guide groove 302b, the electric telescopic rod 301b is continued to be stretched, the guide column 302c is matched with the second guide groove 302b, the mounting disc rotates 180 degrees, the positions of the two circular rings 202a are changed upwards, the circular ring 202a at the right end moves to the left end, the right end moves to the circular ring 202a, the notch 202a at the left end is abutted against the first guide groove 302a, the first guide groove 302a is stopped against the first guide groove 302b, the first guide groove 302a is stopped from moving to the first guide groove 302b, and the first guide groove 302b is stopped from moving to the first guide groove 303b, and the first guide groove 302b is stopped from moving to the first guide groove 302b, and the first guide groove 302b is stopped from moving to the first groove 302b, and the first groove 302b is stopped from moving to the first groove, and the first groove 302b is stopped, and the first groove is moved to move, and the position is moved to the position, and the position is moved.

In summary, the positions of the two rings 202a can be exchanged, so that different parts can be removed, and only by moving the electric sliding rail 104, the parts can be removed twice, so that more parts are removed or stored, and the removing effect is better.

It is important to note that the construction and arrangement of the application as shown in the various exemplary embodiments is illustrative only. Although only a few embodiments have been described in detail in this disclosure, those skilled in the art who review this disclosure will readily appreciate that many modifications are possible (e.g., variations in sizes, dimensions, structures, shapes and proportions of the various elements, values of parameters (e.g., temperature, pressure, etc.), mounting arrangements, use of materials, colors, orientations, etc.) without materially departing from the novel teachings and advantages of the subject matter described in this application. For example, elements shown as integrally formed may be constructed of multiple parts or elements, the position of elements may be reversed or otherwise varied, and the nature or number of discrete elements or positions may be altered or varied. Accordingly, all such modifications are intended to be included within the scope of present application. The order or sequence of any process or method steps may be varied or re-sequenced according to alternative embodiments. In the claims, any means-plus-function clause is intended to cover the structures described herein as performing the recited function and not only structural equivalents but also equivalent structures. Other substitutions, modifications, changes and omissions may be made in the design, operating conditions and arrangement of the exemplary embodiments without departing from the scope of the present applications. Therefore, the application is not limited to the specific embodiments, but extends to various modifications that nevertheless fall within the scope of the appended claims.

Furthermore, in order to provide a concise description of the exemplary embodiments, all features of an actual implementation may not be described (i.e., those not associated with the best mode presently contemplated for carrying out the application, or those not associated with practicing the application).

It should be appreciated that in the development of any such actual implementation, as in any engineering or design project, numerous implementation-specific decisions may be made. Such a development effort might be complex and time consuming, but would nevertheless be a routine undertaking of design, fabrication, and manufacture for those of ordinary skill having the benefit of this disclosure.

It should be noted that the above embodiments are only for illustrating the technical solution of the present application and not for limiting the same, and although the present application has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present application may be modified or substituted without departing from the spirit and scope of the technical solution of the present application, which is intended to be covered in the scope of the claims of the present application.

Claims (10)

1. The utility model provides a high voltage motor overhauls with spare part storage device which characterized in that: comprising the steps of (a) a step of,

the support component (100) comprises a support frame (101), a mounting plate (102) arranged on the support frame (101), a threaded hole (103) arranged on the mounting plate (102), an electric sliding rail (104) arranged on the support frame (101) and a sliding plate (105) arranged on the electric sliding rail (104);

the clamping component (200) comprises a gear tooth assembly (201) arranged on the supporting frame (101), a transmission assembly (202) arranged on the gear tooth assembly (201), a propping assembly (203) arranged on the transmission assembly (202), a first clamping assembly (204) arranged on the propping assembly (203), a second clamping assembly (205) arranged on the propping assembly (203) and a limiting assembly (206) arranged on the propping assembly (203);

the surface changing component comprises a telescopic component (301) arranged on the mounting plate (102), a guide component (302) arranged on the telescopic component (301) and a unidirectional component (303) arranged on the gear tooth component (201).

2. The component housing device for high-voltage motor maintenance according to claim 1, wherein: the gear tooth assembly (201) comprises a first rotating shaft (201 a) arranged on a sliding plate (105), a first gear (201 b) arranged on the first rotating shaft (201 a), a toothed plate (201 c) arranged on the supporting frame (101), a clamping groove (201 d) arranged on the first rotating shaft (201 a), a clamping block (201 e) arranged on the clamping groove (201 d), a transmission shaft (201 f) arranged on the upper side of the first rotating shaft (201 a), a notch (201 g) arranged on the transmission shaft (201 f), a first disc (201 h) arranged on the transmission shaft (201 f), a guide opening (201 i) arranged on the first disc (201 h), a connecting shaft (201 j) arranged on the guide opening (201 i), a first torsion spring (201 k) arranged on the connecting shaft (201 j) and a first pawl (201 l) arranged on the connecting shaft (201 j);

wherein the first gear (201 b) is adapted to the toothed plate (201 c).

3. The component housing device for high-voltage motor maintenance according to claim 2, wherein: the transmission assembly (202) comprises a circular ring (202 a) arranged on the upper side of the sliding plate (105), a mounting cavity (202 b) arranged on the circular ring (202 a), a gear ring (202 c) arranged on the mounting cavity (202 b), a support shaft (202 d) arranged on the mounting cavity (202 b), a second gear (202 e) arranged on the support shaft (202 d), a cylinder (202 f) arranged on the gear ring (202 c), a bearing frame (202 g) arranged in the mounting cavity (202 b), a second rotating shaft (202 h) arranged on the bearing frame (202 g), a second disc (202 i) arranged on the second rotating shaft (202 h), a mounting groove (202 j) arranged on the second disc (202 i), a mounting box (202 k) arranged on the second rotating shaft (202 h) and a second pawl (202 l) arranged on the mounting box (202 k);

wherein the first pawl (201 l) is adapted to the second pawl (202 l).

4. The component housing device for high-voltage motor maintenance according to claim 3, wherein: the offset assembly (203) comprises a first supporting disc (203 a) arranged on a supporting shaft (202 d), two first mounting ports (203 b) arranged on the first supporting disc (203 a), a vertical edge (203 c) arranged on the first mounting ports (203 b), a first horizontal edge (203 d) arranged on the first mounting ports (203 b), a first oblique edge (203 e) arranged on the first horizontal edge (203 d), a second supporting disc (203 f) arranged on the supporting shaft (202 d), two second mounting ports (203 g) arranged on the second supporting disc (203 f), two second oblique edges (203 h) arranged on the second mounting ports (203 g) and a second horizontal edge (203 i) arranged on the two oblique edges.

5. The component housing device for high-voltage motor maintenance according to claim 3 or 4, wherein: the first clamping assembly (204) comprises a first through hole (204 a) arranged on the circular ring (202 a), a first vertical plate (204 b) arranged on the first through hole (204 a), an arc-shaped plate (204 c) arranged on the first vertical plate (204 b), a baffle plate (204 d) arranged on the first vertical plate (204 b) and a first spring (204 e) arranged on the baffle plate (204 d).

6. The component housing device for high-voltage motor maintenance according to claim 5, wherein: the second clamping assembly (205) comprises a second through hole (205 a) arranged on the circular ring (202 a), a second vertical plate (205 b) arranged on the second through hole (205 a), a clamping frame (205 c) arranged on the second vertical plate (205 b), a second spring (205 d) arranged on the clamping frame (205 c) and a limiting groove (205 e) arranged on the second vertical plate (205 b).

7. The component housing device for high-voltage motor maintenance according to claim 4 or 6, wherein: the limiting assembly (206) comprises a connecting plate (206 a) arranged on a first mounting port (203 b), a limiting block (206 b) arranged on the connecting plate (206 a), a containing groove (206 c) arranged on the limiting block (206 b), a third spring (206 d) arranged in the containing groove (206 c), a top block (206 e) arranged on the third spring (206 d) and two cuts (206 f) arranged on the top block (206 e);

wherein, two said cuts (206 f) are both adapted to the limit groove (205 e).

8. The component housing device for high-voltage motor maintenance according to claim 7, wherein: the telescopic assembly (301) comprises a mounting sleeve (301 a) arranged on the sliding plate (105), an electric telescopic rod (301 b) arranged on the mounting sleeve (301 a), and a lifting disc (301 c) arranged on the electric telescopic rod (301 b);

wherein, lifting disk (301 c) is fixed connection with ring (202 a).

9. The component housing device for high-voltage motor maintenance according to claim 8, wherein: the guide assembly (302) includes a first guide groove (302 a) provided on a lifting disk (301 c), a second guide groove (302 b) provided on the first guide groove (302 a), and a guide post (302 c) provided on the first guide groove (302 a).

10. The component housing device for high-voltage motor maintenance according to claim 9, wherein: the unidirectional assembly (303) comprises a support groove (303 a) arranged on the second guide groove (302 b), a support column (303 b) arranged on the support groove (303 a), a second torsion spring (303 c) arranged on the support column (303 b), and a stop block (303 d) arranged on the support column (303 b).