CN210001426U - tool for welding and hoisting keel type motor iron core - Google Patents

Abstract

The utility model discloses a frock that is used for keel formula motor core welding and hoist, including base subassembly, guide arm, pressure equipment subassembly, roof subassembly and hoist mechanism, end and base subassembly fixed connection of guide arm, end and roof subassembly fixed connection in addition of guide arm, the pressure equipment subassembly passes through linear bearing cover on the guide arm, screw nut on the pressure equipment subassembly is connected with the lead screw cooperation on the roof subassembly, rotate through the lead screw and reciprocate along the guide arm with adjustment pressure equipment subassembly, hoist mechanism installs on automatic truss mechanism, up-and-down motion through automatic truss so that the frock lifts by crane and falls down, horizontal motion through automatic truss so that the frock transport.

Description

tool for welding and hoisting keel type motor iron core

Technical Field

The utility model relates to a fossil fragments formula motor core auxiliary processing device, especially are used for fossil fragments formula motor core welding and hoist and mount's frock belongs to motor core processing technology field.

Background

The keel type motor iron core is composed of multiple sections of keels ( is six sections of keels), as shown in fig. 1 and 2, TIG welding or laser welding is adopted for assembling of the keels, the current process is that keels are assembled and clamped on a welding platform directly by manpower, then welding is carried out, and the keel type motor iron core is lifted away from a welding area by the manpower after the welding is finished.

, is not good for the health of operators and has large operation risk coefficient;

secondly, the automation level of the welding process is not high, and the efficiency of the welding and assembling operation is low.

SUMMERY OF THE UTILITY MODEL

Problem to prior art exists, the utility model provides an kinds of frock that is used for fossil fragments formula motor core welding and hoist and mount, use this frock after, structural stability is better, it is more convenient to compress tightly the location, liberation personnel's both hands, be convenient for assemble and the welding, realize assembling and compressing tightly of fossil fragments formula motor core of not unidimensional, the product of compatible same series different specifications (interior external diameter is the same, highly variable), compatibility is stronger, the hoist pole cooperates or breaks away from with the seat that lifts by crane of roof subassembly, it lifts by crane and moves more to make things convenient for the frock, the automation degree is high, the efficiency of operation is improved, the security improves greatly.

In order to solve the technical problem, the utility model discloses a technical scheme is:

types of tools for welding and hoisting keel type motor iron cores are provided, wherein each tool comprises a base assembly, a guide rod, a press-fitting assembly, a top plate assembly and a hoisting tool mechanism;

the base assembly is used for assembling and positioning the keel type motor iron core;

the press-mounting assembly is used for pressing and positioning the upper part of the keel type motor iron core;

the top plate assembly is used for connecting the lifting appliance mechanism and driving the press mounting assembly to ascend and descend;

the lifting appliance mechanism is used for connecting the automatic truss mechanism and the tool body and lifting the tool through the automatic truss mechanism;

the end of the guide rod is fixedly connected with the base assembly, the other end of the guide rod is fixedly connected with the top plate assembly, the press-fitting assembly is sleeved on the guide rod through a linear bearing, a lead screw nut on the press-fitting assembly is matched and connected with a lead screw on the top plate assembly, and the press-fitting assembly is adjusted to move up and down along the guide rod through the rotation of the lead screw;

the lifting appliance mechanism is arranged on the automatic truss mechanism, the tool is lifted and falls down through the up-and-down movement of the automatic truss, and the tool is conveyed through the horizontal movement of the automatic truss.

The utility model discloses a solve its technical problem, the adopted step technical scheme that advances is:

, the base assembly includes a positioning seat ring, a cushion block, a second cushion block, a 0 th positioning pin, a stop pin, a cushion block, a second cushion block and a guide sleeve, wherein the cushion block and the second cushion block are arranged at equal angular intervals and circumferentially arranged on the positioning seat ring, the positioning pin and the second cushion block are vertically and circumferentially arranged on the second cushion block, the stop pin is arranged on the second cushion block, the cushion block is circumferentially arranged on the cushion block and the second cushion block, the stop pin, the cushion block and the second cushion block form a circular ring with equal height and flush with the upper end face of , the circular ring is used as a supporting base for supporting the keel type motor core, and the tip of the positioning pin is arranged upward and inserted into a lower positioning hole of the keel type motor core for assembling and positioning the keel type motor core.

Furthermore, , the th cushion block and the second cushion block are provided in plural, the stop pin is provided on the th cushion block and the th cushion block, two th positioning pins are provided on the th cushion block, the th cushion ring is provided between the adjacent th positioning pin and the stop pin, and the second cushion ring is provided between the two th positioning pins.

step, the guide pin bushing sets up 3, every the guide pin bushing all is conical guide pin bushing, conical guide pin bushing opening up and set up with 120 evenly distributed on the circumference for frock and welded platform's toper locating piece cooperation location.

step by step, the pressure equipment subassembly includes slide subassembly, base plate, slide rail, linear bearing, goes up dust ring, center pin, link mechanism, bearing and second bearing, equidistance circumference is seted up a plurality of dead eyes and a plurality of guide slot on the base plate, the dead eye with the guide slot interval is arranged, linear bearing inserts the dead eye, the base plate passes through linear bearing cover in on the guide arm, the guide slot with the guide arm matches the slip.

, 6 slide rail assemblies are arranged in the equal-angle circumferential direction of the slide seat assemblies, 6 slide rails are respectively arranged on the 6 slide seat assemblies, 6 slide blocks are arranged in the equal-angle circumferential direction of the lower surface of the substrate, the slide rails are matched with the slide blocks for use, and each slide seat assembly is provided with 2 second positioning pins with downward pointed parts for being inserted into upper positioning holes of the keel type motor iron core, so that the upper part of the keel type motor iron core is compressed and positioned.

, the link mechanism includes a rotation shaft, a second rotation shaft, a third bearing, a fourth bearing and a link, wherein the rotation shaft is vertically disposed at the lower end of the central shaft, the third bearing is sleeved on the rotation shaft, the second rotation shaft is vertically disposed at the lower surface of the slider assembly, the fourth bearing is sleeved on the second rotation shaft, the end of the link is connected with the outer side surface of the third bearing, and the other end of the link is connected with the outer side surface of the fourth bearing.

, a th through hole is formed in the center of the base plate, the th bearing and the second bearing are arranged on the inner periphery of the th through hole, the central shaft is sequentially inserted into the th bearing and the second bearing, the upper dust ring is arranged between the central shaft and the th through hole, and the central shaft is rotated to drive the sliding seat assembly to synchronously move along the sliding rail so as to open and close the press-fitting assembly.

, the top plate assembly comprises a top plate, a pressure rod seat, a third gasket, a mounting seat, a lifting seat, a locking screw seat, a screw rod, a limiting rod assembly, a rotating rod assembly, a cover plate, a fifth bearing and a sixth bearing, wherein the screw rod, the cover plate, the locking screw seat, the third gasket, a pressure plate rotating shaft, the rotating rod assembly and the pressure rod seat are sequentially arranged in the center of the top plate along the length direction of the screw rod;

the pressing rod seat is provided with a pressing plate rotating shaft, the pressing plate rotating shaft is fixedly connected with a central shaft bolt of the pressing assembly, the rotating rod assembly is fixedly connected with the pressing plate rotating shaft, the rotating rod assembly is manually rotated, and a central shaft of the pressing assembly synchronously rotates to enable the sliding seat assembly to be opened and closed.

, the screw nut is disposed on the inner circumference of the upper end of the central shaft and is fixedly connected with the central shaft through a bolt, the screw is longitudinally inserted into the central shaft, the screw nut is used in cooperation with the screw, and the screw is rotated by a wrench to enable the press-fitting assembly to ascend and descend.

, the mounting seat, the limit rod assembly and the lifting seat are all provided with 3 and are all arranged on the circumference in an evenly distributed manner of 120 degrees, the lifting seat is provided with an inner cavity which is a truncated cone-shaped inner cavity with a small upper part and a big lower part, and the truncated cone-shaped inner cavity is used for screwing in and lifting the lifting rod of the lifting appliance mechanism into the tool.

, the hanger mechanism includes a hanger rod, a hanger seat, a hanger adjusting seat, a hanger connecting seat, a cylinder assembly, a second connecting rod, a seventh bearing, an eighth bearing and a central hanger rod, the hanger seat is provided with 3 apex angles at equal angles, the upper end of the hanger rod is fixedly connected with the apex angle of the hanger seat, the lower end of the hanger rod is provided with a circular platform block with a small upper part and a large lower part, the circular platform block of the hanger rod is matched with the inner cavity of the lifting seat, the center of the hanger seat is provided with a second through hole, the seventh bearing and the eighth bearing are both arranged on the inner periphery of the second through hole, the central hanger rod is sequentially inserted into the seventh bearing and the eighth bearing, the cylinder assembly is horizontally fixed on the hanger seat, the cylinder assembly is provided with a piston rod, the end of the second connecting rod is connected with the piston rod, the other end of the second connecting rod is connected with the central hanger rod, the hanger adjusting seat and the hanger connecting seat are fixedly connected with the upper end of the central truss mechanism, and the hanger connecting seat is connected with the.

The utility model has the advantages that:

, the utility model discloses a base subassembly has the second cushion, be equipped with a plurality of to point portion locating pins upwards on the second cushion, the pressure equipment subassembly has the slide subassembly, the lower surface of slide subassembly is equipped with a plurality of to point portion second locating pins down, the locating pin aims at the lower locating hole of fossil fragments formula motor core, the second locating pin aims at the last locating hole of fossil fragments formula motor core, fossil fragments formula motor core is located between base subassembly and the pressure equipment subassembly, screw nut sets up in the upper end inner periphery of center pin and through bolt and center pin fixed connection, the lead screw vertically inserts in the center pin, external force rotates the lead screw, make screw nut and lead screw cooperation use, realize that the pressure equipment subassembly descends and compresses tightly the location fossil fragments formula motor core along the direction of guide arm or rises and releases fossil fragments formula motor core along the direction of guide arm, structural stability is good, it is convenient to compress tightly the location, release personnel's both hands;

second, the utility model discloses a base plate lower surface of pressure equipment subassembly is equipped with the slider, the slide rail sets up on the slide subassembly, the slide rail uses with the slider cooperation, the below of center pin has link mechanism, link mechanism includes pivot, the second pivot, the third bearing, fourth bearing and connecting rod, 0 pivot is set up perpendicularly in the lower tip of center pin, the third bearing overlaps in 1 pivot, the second pivot sets up perpendicularly in the lower surface of slide subassembly, the fourth bearing overlaps in the second pivot, 3 end of 2 connecting rod is connected with the lateral surface of third bearing, the other end of connecting rod is connected with the lateral surface of fourth bearing, through-hole is seted up to the center of base plate, bearing, the second bearing sets up the interior week in through-hole, the center pin inserts bearing in proper order, the second bearing, go up the safety ring and set up between center pin and through-hole, stir or rotate the bull stick subassembly and drive the center pin rotation, and under link mechanism's effect, the slider along synchronous motion, be used for realizing the compatibility of different sizes of different pressure equipment subassemblies and different sizes, can press from the compatibility, the compatibility of different sizes, the iron core is higher and the compatibility of different sizes, the press equipment series, the iron core is more;

three, the utility model discloses a mount pad, the gag lever post subassembly, it all sets up 3 and all sets up with 120 evenly distributed on the circumference to lift by crane the seat, it has the inner chamber to lift by crane the seat, the inner chamber is big end down's round platform shape inner chamber, hoist mechanism includes the hoist pole, the hoist seat, the hoist adjustment seat, the hoist connecting seat, the cylinder subassembly, the second connecting rod, the seventh bearing, eighth bearing and central jib, angle such as hoist seat is provided with 3 apex angles, the upper end of hoist pole and the apex angle fixed connection of hoist seat, the lower extreme of hoist pole is equipped with big end down's round platform piece, the round platform piece of hoist pole matches with the inner chamber that lifts by crane the seat, for hoist pole screw in and the hoist frock of hoist mechanism, second through-hole is seted up at the center of hoist seat, the seventh bearing, the eighth bearing all sets up in the interior week of second through-hole, the center jib inserts the seventh bearing in proper order, the eighth bearing, the cylinder subassembly level is fixed in the hoist seat, the cylinder subassembly has the piston rod, end of second connecting rod is connected with the piston rod and the jib, the hoist seat, the hoist center is connected with the hoist pole, the hoist assembly, the hoist rod, the hoist assembly, the hoist seat is connected with the hoist and the hoist automatic hoist assembly, the hoist rod is connected with.

The above description is only an overview of the technical solution of the present invention, and in order to make the technical means of the present invention clearer and can be implemented according to the content of the description, the following detailed description is made with reference to the preferred embodiments of the present invention and accompanying drawings.

Drawings

Fig. 1 is a structural schematic view of a prior art keel type motor core;

fig. 2 is a second schematic structural view of a prior art keel type motor core;

FIG. 3 is (before hoisting) showing the structure of the present invention;

fig. 4 is a second schematic structural diagram (during hoisting) of the present invention;

fig. 5 is a schematic structural view of the base assembly of the present invention;

fig. 6 is a structural schematic view of the press-fitting assembly of the present invention;

fig. 7 is a second schematic structural view of the press-fitting assembly of the present invention;

fig. 8 is a schematic cross-sectional view of the press-fitting assembly of the present invention;

fig. 9 is a structural schematic view (in a closed state) of the carriage assembly of the present invention;

fig. 10 is a second schematic structural view (open state view) of the carriage assembly of the present invention;

fig. 11 is a schematic structural view of the top plate assembly of the present invention;

fig. 12 is a schematic cross-sectional view of a top plate assembly of the present invention;

fig. 13 is a schematic structural view of a spreader mechanism of the present invention;

fig. 14 is a schematic cross-sectional view of a spreader mechanism of the present invention;

the parts in the drawings are marked as follows:

the base assembly 100, the positioning seat ring 101, the th pad 102, the 103 th pad, the th positioning pin 104, the stop pin 105, the th pad 106, the 107 th pad, the guide bush 108, the guide rod 200, the press-fitting assembly 300, the slider assembly 301, the base plate 302, the slide rail 303, the linear bearing 304, the upper dust ring 305, the center shaft 306, the th bearing 307, the second bearing 308, the th rotating shaft 309, the second rotating shaft 310, the third bearing 311, the fourth bearing 312, the th connecting rod 313, the lead screw nut 314, the second positioning pin 315, the bearing hole 316, the guide groove 317, the slider 318, the top plate assembly 400, the top plate 401, the strut seat 402, the third pad, the mounting seat 404, the lifting seat 405, the screw locking seat 406, the lead screw 407, the limit lever assembly 403, the rotating lever assembly 409, the cover plate 410, the fifth bearing 411, the sixth bearing 412, the rotating shaft 413, the inner cavity 414, the spreader mechanism 500, the spreader lever 501, the spreader seat 502, the spreader 504, the spreader adjustment seat 505, the seventh connecting rod assembly 505, the seventh connecting rod 506, the eighth bearing 509, the cylindrical bearing 508.

Detailed Description

The following description is provided for illustrative embodiments of the present invention, and the advantages and effects of the present invention will be readily apparent to those skilled in the art from the disclosure of the present invention. The present invention can also be implemented in other different ways, i.e. different modifications and changes can be made without departing from the scope of the present invention.

Examples

A tool for welding and hoisting keel type motor iron core, as shown in fig. 3 and 4, the tool comprises a base assembly 100, a guide rod 200, a press fitting assembly 300, a top plate assembly 400 and a lifting appliance mechanism 500;

the base assembly is used for assembling and positioning the keel type motor iron core 600;

the press-mounting assembly is used for pressing and positioning the upper part of the keel type motor iron core;

the top plate assembly is used for connecting the lifting appliance mechanism and driving the press mounting assembly to ascend and descend;

the lifting appliance mechanism is used for connecting the automatic truss mechanism and the tool body and lifting the tool through the automatic truss mechanism;

the end of the guide rod is fixedly connected with the base assembly, the other end of the guide rod is fixedly connected with the top plate assembly, the press-fitting assembly is sleeved on the guide rod through a linear bearing 304, a lead screw nut 314 on the press-fitting assembly is matched and connected with a lead screw 407 on the top plate assembly, and the press-fitting assembly is adjusted to move up and down along the guide rod through the rotation of the lead screw;

the lifting appliance mechanism is arranged on the automatic truss mechanism, the tool is lifted and falls down through the up-and-down movement of the automatic truss, and the tool is conveyed through the horizontal movement of the automatic truss.

As shown in fig. 5, the base assembly includes a positioning seat ring 101, an th pad 102, a second pad 103, a th positioning pin 104, a stopper pin 105, a th pad 106, a second pad 107 and a guide sleeve 108, the th pad and the second pad are circumferentially arranged on the positioning seat ring at equal angular intervals, the th positioning pin and the second pad are both vertically and circumferentially arranged on the second pad, the stopper pin is arranged on the second pad, the th pad is circumferentially arranged on the th pad and the second pad, the stopper pin, the th pad and the second pad form a upper end face equal-height flush ring, the ring serves as a support base to support the keel type motor core, and a tip of the th positioning pin is arranged upward and inserted into a lower positioning hole of the keel type motor core to assemble and position the keel type motor core.

The cushion block and the second cushion block are provided with a plurality of blocks, each cushion block is provided with a stop pin, each cushion block is provided with two positioning pins, the gasket is arranged between the adjacent positioning pins and stop pins, and the second gasket is arranged between the two positioning pins.

The guide pin bushing sets up 3, every the guide pin bushing all is conical guide pin bushing, conical guide pin bushing opening up and set up with 120 evenly distributed on the circumference for frock and welded platform's toper locating piece cooperation location.

As shown in fig. 6 to 8, the press-fitting assembly includes a slide carriage assembly 301, a base plate 302, a slide rail 303, a linear bearing 304, an upper dust ring 305, a central shaft 306, a link mechanism, an -th bearing 307 and a second bearing 308, wherein the base plate is provided with a plurality of bearing holes 316 and a plurality of guide grooves 317 in an equiangular circumferential direction, the bearing holes and the guide grooves are arranged at intervals, the linear bearing is inserted into the bearing holes, the base plate is sleeved on the guide rod through the linear bearing, and the guide grooves are matched with the guide rod to slide.

Every the lower surface of slide subassembly all is equipped with second locating pin 315, the second locating pin sets up 2 and point portion down and is used for inserting the last locating hole of fossil fragments formula motor core, realizes that the upper portion of fossil fragments formula motor core compresses tightly and fixes a position 6, 6 slide rail set up respectively on 6 slide subassemblies in the equal angle circumference, the lower surface of base plate equal angle circumference sets up 6 sliders 318, the slide rail uses with the slider cooperation, every the lower surface of slide subassembly all is equipped with second locating pin 315, the second locating pin sets up 2 and the point portion is down to be used for inserting the upper locating hole.

The link mechanism comprises a th rotating shaft 309, a second rotating shaft 310, a third bearing 311, a fourth bearing 312 and a th connecting rod 313, the th rotating shaft is vertically arranged at the lower end part of the central shaft, the third bearing is sleeved on the th rotating shaft, the second rotating shaft is vertically arranged at the lower surface of the sliding seat component, the fourth bearing is sleeved on the second rotating shaft, the end of the th connecting rod is connected with the outer side surface of the third bearing, and the end of the th connecting rod is connected with the outer side surface of the fourth bearing.

th through hole is formed in the center of the base plate, the th bearing and the second bearing are arranged on the inner periphery of the th through hole, the central shaft is sequentially inserted into the th bearing and the second bearing, the upper dust ring is arranged between the central shaft and the th through hole, the central shaft is rotated to drive the sliding seat assembly to synchronously move along the sliding rail, the pressing assembly is used for being opened and closed, the closing state of the pressing assembly is shown in fig. 9, and the opening state of the pressing assembly is shown in fig. 10;

as shown in fig. 11 and 12, the top plate assembly includes a top plate 401, a pressure rod seat 402, a third washer 403, a mounting seat 404, a lifting seat 405, a locking screw seat 406, a lead screw 407, a limiting rod assembly 408, a rotating rod assembly 409, a cover plate 410, a fifth bearing 411 and a sixth bearing 412, along the length direction of the lead screw, the cover plate, the locking screw seat, the third washer, a pressure plate rotating shaft, the rotating rod assembly and the pressure rod seat are sequentially disposed on the center of the top plate, the lifting seat is disposed on the mounting seat and riveted with the mounting seat, the mounting seat and the limiting rod assembly are both fixed on the top plate, and the fifth bearing and the sixth bearing are both disposed on the inner periphery of the locking screw seat and are sleeved with the lead screw;

the pressing rod seat is provided with a pressing plate rotating shaft 413, the pressing plate rotating shaft is fixedly connected with a central shaft bolt of the pressing assembly, the rotating rod assembly is fixedly connected with the pressing plate rotating shaft, the rotating rod assembly is manually rotated, and a central shaft of the pressing assembly synchronously rotates to enable the sliding seat assembly to be opened and closed.

The screw nut is arranged on the inner periphery of the upper end of the central shaft and is fixedly connected with the central shaft through a bolt, the screw is longitudinally inserted into the central shaft, the screw nut is matched with the screw for use, and the screw is rotated by a wrench to enable the press-fitting assembly to ascend and descend.

The mounting seat, the limiting rod assembly and the lifting seat are all provided with 3 lifting seats and are all arranged on the circumference in an evenly distributed manner of 120 degrees, each lifting seat is provided with an inner cavity 414, each inner cavity is a truncated cone-shaped inner cavity with a small upper part and a large lower part, and the truncated cone-shaped inner cavities are used for screwing in and lifting the lifting rod of the lifting appliance mechanism into the tool.

As shown in fig. 13 and 14, the spreader mechanism includes a spreader rod 501, a spreader seat 502, a spreader adjustment seat 503, a spreader connection seat 504, a cylinder assembly 505, a second link 506, a seventh bearing 507, an eighth bearing 508, and a central boom 509, the spreader seat has 3 vertex angles at equal angles, the upper end of the spreader rod is fixedly connected to the vertex angle of the spreader seat, the lower end of the spreader rod is provided with a small-top-large circular platform block 510, the circular platform block of the spreader rod is matched with the inner cavity of the spreader seat, the center of the spreader seat is provided with second through holes, the seventh bearing and the eighth bearing are both disposed on the inner periphery of the second through holes, the central boom is sequentially inserted into the seventh bearing and the eighth bearing, the cylinder assembly is horizontally fixed on the spreader seat, the cylinder assembly has a piston rod, the end of the second link is connected to the piston rod, the other end of the second link is connected to the central boom, the spreader adjustment seat and the spreader connection seat are both fixedly connected to the upper end of the central boom, and the spreader connection seat is connected to the automatic truss mechanism.

The utility model discloses a working process and theory of operation as follows:

firstly, assembling keel type motor iron cores on a base assembly into a complete circular ring; then, the rotating rod assembly on the top plate assembly is pulled, so that the sliding seat assembly in the press-fitting assembly is opened outwards; then, rotating the screw rod, and moving the press-mounting assembly downwards until a second positioning pin on the sliding seat assembly is inserted into the keel type motor core and presses the keel type motor core tightly; the mechanism can be compatible with keel type motor cores with the same inner diameter and different outer diameters and different heights, the automatic truss mechanism drives the lifting appliance mechanism to realize automatic lifting and carrying of the keel type motor cores and the tool to a welding platform for welding operation, after welding is finished, the automatic truss mechanism automatically lifts and carries the keel type motor cores and the tool to a human work area, and the lifting appliance mechanism is separated from the tool through the action of the air cylinder assembly; and finally, the screw rod is rotated to lift the press-mounting component to separate from the keel type motor core, the rotating rod component is stirred to inwards fold the sliding seat component, and a space for hanging the motor core from the tool is reserved.

The above is only the embodiment of the present invention, not so above only is the embodiment of the present invention, not so limiting the patent scope of the present invention, all of which utilize the equivalent structure made by the contents of the specification and the drawings, or directly or indirectly applied to other related technical fields, all of which are included in the patent protection scope of the present invention.

Claims (12)

1, tooling for welding and hoisting keel type motor iron cores, which is characterized by comprising a base assembly (100), a guide rod (200), a press-fitting assembly (300), a top plate assembly (400) and a lifting appliance mechanism (500);

the base assembly is used for assembling and positioning a keel type motor iron core (600);

the press-mounting assembly is used for pressing and positioning the upper part of the keel type motor iron core;

the top plate assembly is used for connecting the lifting appliance mechanism and driving the press mounting assembly to ascend and descend;

the lifting appliance mechanism is used for connecting the automatic truss mechanism and the tool body and lifting the tool through the automatic truss mechanism;

the end of the guide rod is fixedly connected with the base assembly, the other end of the guide rod is fixedly connected with the top plate assembly, the press-fitting assembly is sleeved on the guide rod through a linear bearing (304), a lead screw nut (314) on the press-fitting assembly is matched and connected with a lead screw (407) on the top plate assembly, and the press-fitting assembly is adjusted to move up and down along the guide rod through the rotation of the lead screw;

the lifting appliance mechanism is arranged on the automatic truss mechanism, the tool is lifted and falls down through the up-and-down movement of the automatic truss, and the tool is conveyed through the horizontal movement of the automatic truss.

2. The tooling for welding and hoisting of keel type motor iron core according to claim 1, wherein the base assembly comprises a positioning seat ring (101), a cushion block (102), a second cushion block (103), a 0 positioning pin (104), a stop pin (105), a washer (106), a second washer (107) and a guide sleeve (108), the cushion block and the second cushion block are arranged at equal angular intervals and circumferentially arranged on the positioning seat ring, the positioning pin and the second washer are vertically and circumferentially arranged on the second cushion block, the stop pin is arranged on the second cushion block, the washer is circumferentially arranged on the cushion block and the second cushion block, the stop pin, the washer and the second washer form a circular ring with equal height and flush with the upper end face of , the circular ring is used as a support base for supporting the keel type motor iron core, and the tip of the positioning pin is arranged upward and inserted into the lower part of the keel type motor iron core for positioning the positioning hole and positioning the keel type motor iron core.

3. The tooling for welding and hoisting keel type motor core according to claim 2, wherein a plurality of first cushion blocks and a plurality of second cushion blocks are arranged, stop pins are arranged on each cushion block , two positioning pins are arranged on each second cushion block, cushion rings are arranged between the adjacent positioning pins and the stop pins, and the second cushion rings are arranged between the two positioning pins.

4. The tooling for welding and hoisting keel type motor iron core according to claim 2, wherein the number of the guide sleeves is 3, each guide sleeve is a conical guide sleeve, the opening of the conical guide sleeve faces upwards and is uniformly distributed at 120 degrees on the circumference for the tooling to be matched and positioned with the conical positioning block of the welding platform.

5. The tool for welding and hoisting of keel type motor iron core according to claim 1, wherein the press-fitting assembly comprises a slide carriage assembly (301), a base plate (302), a slide rail (303), a linear bearing (304), an upper dust ring (305), a central shaft (306), a link mechanism, a bearing (307) and a second bearing (308), the base plate is circumferentially provided with a plurality of bearing holes (316) and a plurality of guide grooves (317) at equal angles, the bearing holes and the guide grooves are arranged at intervals, the linear bearing is inserted into the bearing holes, the base plate is sleeved on the guide rod through the linear bearing, and the guide grooves are matched with the guide rod to slide.

6. The tooling for welding and hoisting of keel type motor iron core according to claim 5, wherein 6 slide rail assemblies are arranged in the equal angle circumferential direction, 6 slide rails are respectively arranged on the 6 slide rail assemblies, 6 slide blocks (318) are arranged in the equal angle circumferential direction on the lower surface of the base plate, the slide rails are matched with the slide blocks for use, each slide rail assembly is provided with a second positioning pin (315) on the lower surface, the second positioning pins are 2, and the tips of the second positioning pins face downwards and are used for being inserted into upper positioning holes of the keel type motor iron core, so that the upper portion of the keel type motor iron core is pressed and positioned.

7. The tooling for welding and hoisting keel type motor core according to claim 5, wherein said link mechanism comprises a rotation shaft (309), a second rotation shaft (310), a third bearing (311), a fourth bearing (312) and a link (313), said rotation shaft is vertically disposed at the lower end of said central shaft, said third bearing is sleeved on said rotation shaft, said second rotation shaft is vertically disposed on the lower surface of said slide carriage assembly, said fourth bearing is sleeved on said second rotation shaft, the end of said link is connected with the outer side surface of said third bearing, and the other end of said link is connected with the outer side surface of said fourth bearing.

8. The tooling for welding and hoisting keel type motor iron core according to claim 7, wherein th th through hole is formed in the center of the base plate, the th bearing and the second bearing are arranged on the inner periphery of the th through hole, the central shaft is inserted into the th bearing and the second bearing in sequence, the upper dust ring is arranged between the central shaft and the th through hole, and the central shaft is rotated to drive the sliding seat assembly to synchronously move along the sliding rail for opening and closing the press-fitting assembly.

9. The tool for welding and hoisting of keel type motor iron core according to claim 5, wherein the top plate assembly comprises a top plate (401), a pressure lever seat (402), a third washer (403), a mounting seat (404), a hoisting seat (405), a locking screw seat (406), a screw (407), a limiting lever assembly (408), a rotating lever assembly (409), a cover plate (410), a fifth bearing (411) and a sixth bearing (412), the screw, the cover plate, the locking screw seat, the third washer, a pressure plate rotating shaft, the rotating lever assembly and the pressure lever seat are sequentially arranged on the center of the top plate along the length direction of the screw, the hoisting seat is arranged on the mounting seat and riveted with the mounting seat, the mounting seat and the limiting lever assembly are both fixed on the top plate, and the fifth bearing and the sixth bearing are both arranged on the inner periphery of the locking screw seat and sleeved with the screw;

the pressing rod seat is provided with a pressing plate rotating shaft (413), the pressing plate rotating shaft is fixedly connected with a central shaft bolt of the pressing assembly, the rotating rod assembly is fixedly connected with the pressing plate rotating shaft, the rotating rod assembly is manually rotated, and a central shaft of the pressing assembly synchronously rotates to enable the sliding seat assembly to be opened and folded.

10. The tooling for welding and hoisting keel type motor iron core according to claim 5, wherein the lead screw nut is arranged on the inner periphery of the upper end of the central shaft and is fixedly connected with the central shaft through a bolt, the lead screw is longitudinally inserted into the central shaft, the lead screw nut is matched with the lead screw for use, and the lead screw is rotated by a wrench to enable the press-fitting assembly to ascend and descend.

11. The tooling for welding and hoisting keel type motor iron core according to claim 9, wherein the installation base, the limit rod assembly and the hoisting base are all provided with 3 and are all uniformly distributed on the circumference at 120 degrees, the hoisting base is provided with an inner cavity (414), the inner cavity is a truncated cone-shaped inner cavity with a small top and a big bottom, and the truncated cone-shaped inner cavity is used for screwing in and hoisting the tooling by a hoisting rod of the hoisting tool mechanism.

12. The tooling for welding and hoisting keel type motor core according to claim 11, wherein the spreader mechanism comprises a spreader bar (501), a spreader base (502), a spreader adjustment base (503), a spreader connection base (504), a cylinder assembly (505), a second connecting bar (506), a seventh bearing (507), an eighth bearing (508) and a central boom (509), the spreader base is provided with 3 vertex angles at equal angles, the upper end of the spreader bar is fixedly connected with the vertex angles of the spreader base, the lower end of the spreader bar is provided with a small-top-large circular platform block (510), the circular platform block of the spreader bar is matched with the inner cavity of the spreader base, the center of the spreader base is provided with a second through hole, the seventh bearing and the eighth bearing are both arranged on the inner periphery of the second through hole, the central boom is sequentially inserted into the seventh bearing and the eighth bearing, the cylinder assembly is horizontally fixed on the spreader base, the cylinder assembly is provided with a piston rod, the end of the second connecting rod is connected with the piston rod, the end of the second connecting rod is connected with the center of the spreader, the central boom is connected with the center connection base, and the spreader is connected with the automatic spreader connection base, and the spreader is connected with the spreader connection base.

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