CN112908671B - Manufacturing and processing method of high-low voltage transformer iron core - Google Patents
Manufacturing and processing method of high-low voltage transformer iron core Download PDFInfo
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- CN112908671B CN112908671B CN202110067815.1A CN202110067815A CN112908671B CN 112908671 B CN112908671 B CN 112908671B CN 202110067815 A CN202110067815 A CN 202110067815A CN 112908671 B CN112908671 B CN 112908671B
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01F—MAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
- H01F41/00—Apparatus or processes specially adapted for manufacturing or assembling magnets, inductances or transformers; Apparatus or processes specially adapted for manufacturing materials characterised by their magnetic properties
- H01F41/005—Impregnating or encapsulating
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01F—MAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
- H01F41/00—Apparatus or processes specially adapted for manufacturing or assembling magnets, inductances or transformers; Apparatus or processes specially adapted for manufacturing materials characterised by their magnetic properties
- H01F41/02—Apparatus or processes specially adapted for manufacturing or assembling magnets, inductances or transformers; Apparatus or processes specially adapted for manufacturing materials characterised by their magnetic properties for manufacturing cores, coils, or magnets
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Abstract
The invention relates to a manufacturing and processing method of a high-low voltage transformer iron core, which uses a dispersing and soaking device, the dispersing and soaking equipment comprises a base, an operation box, a dispersing device, a shaking device and a drying device, wherein a driving motor is started, the output end of the driving motor drives a driving rotating shaft to rotate, so that the supporting rod is driven to move back and forth when the two rack plates move back and forth relatively, thereby scattering the iron core strung on the placing rod, driving the sliding support plate to bounce by the shaking spring when the sliding support plate rises, shaking the placing rod in the arc-shaped supporting bracket, thereby shaking the lifted iron core up and down to realize shaking off the surplus insulating paint adhered to the immersed iron core, the insulating paint overflows into each water seepage port through the through grooves, the adsorption sponge adsorbs the insulating paint in the water seepage port, the adsorption sponge is attached to the inner cavity of each iron core, so that the inner wall of each iron core round hole is dip-dyed.
Description
Technical Field
The invention relates to the technical field of electric power, in particular to a manufacturing and processing method of a high-low voltage transformer iron core.
Background
The high-voltage transformer is a transformer which converts low voltage into high voltage by the electromagnetic induction principle and consists of an iron core and a primary winding and a secondary winding;
the iron core is the main magnetic circuit part in the transformer, usually by the high silicon content, the surface is coated with the hot rolling or cold rolled silicon steel sheet stack-up of the insulating varnish, the iron core and coil wound on it make up the complete electromagnetic induction system, the magnitude of the power transformer transmission power depends on material and cross-sectional area of the iron core, play the skeleton function of the body at the same time and need to carry on the coating of the insulating varnish to the surface of iron core in order to reduce the iron core loss;
the existing dispersing and soaking equipment has the following problems in working:
(1) the iron cores need to be fixedly placed before a large batch of iron cores are soaked and smeared, and the existing device is used for placing and taking the iron cores one by one when the large batch of iron cores are placed, so that time and labor are wasted, and the working efficiency is low;
(2) after the piled iron cores are placed, the iron cores are attached together due to gravity, and the surfaces of the iron cores need to be fully soaked, so that the iron cores need to be dispersed, and the existing device cannot disperse the iron cores;
(3) after the iron core is soaked and taken out, redundant insulating paint is attached to the surface of the iron core, so that the redundant insulating paint on the surface of the iron core needs to be shaken off, and the existing device cannot realize the purpose;
(4) when the E-shaped iron core is soaked, the holes at the two ends of the iron core cannot be dip-dyed and smeared after being supported, so that the inner wall of the hole needs to be smeared.
Disclosure of Invention
In order to achieve the purpose, the invention adopts the following technical scheme to achieve the purpose:
a manufacturing and processing method of a high-low voltage transformer iron core uses a dispersing and soaking device, the dispersing and soaking device comprises a base, an operation box, a dispersing device, a shaking device and a drying device, and the manufacturing and processing method of the high-low voltage transformer iron core by adopting the dispersing and soaking device comprises the following steps:
s1, iron core placement: rotating the placing rods to be vertical to the base, placing the stacked iron cores between the two placing rods and falling down, and rotating the placing rods to be parallel to the base;
s2, iron core scattering: the piled iron cores are scattered one by one on the placing rods by opening the scattering device, so that the subsequent soaking is facilitated;
s3, iron core soaking: fully infiltrating and soaking the inner wall of the circular hole of each scattered iron core through the water seepage branched chain;
s4, iron core shaking: the immersed iron core is lifted, and the iron core is lifted and simultaneously the redundant insulating paint on the iron core is shaken off by a shaking device;
the middle part of the upper surface of the base is fixedly provided with an operation box, the left side of the operation box is provided with a scattering device fixedly connected with the base, the right side of the inner cavity of the operation box is fixedly provided with a shaking device, and the rear side of the operation box is provided with a drying device fixedly connected with the base;
the scattering device comprises hydraulic rods, supporting plates, driving rotating shafts, gears, rack plates, L-shaped plates, driving motors, suspenders, supporting rods and isolating units, the hydraulic rods are symmetrically arranged on the front side and the rear side of the left side of the upper surface of the base, the four hydraulic cylinders are fixedly arranged on the supporting plates together far away from one end of the base, the driving rotating shafts are rotatably arranged in the middle of the upper surface of the supporting plates, the gears are fixedly arranged on the outer sides of the driving rotating shafts, the rack plates which are connected with the supporting plates in a sliding mode are meshed on the front side and the rear side of each gear, the L-shaped plates are fixedly arranged on the upper surfaces of the supporting plates, the driving motors are fixedly arranged on the lower portions of inner cavities of the L-shaped plates through motor plates, the output ends of the driving motors are fixedly connected with the driving rotating shafts, one opposite sides of the two rack plates are respectively connected with the operation box in a sliding mode, the suspenders are fixedly arranged on the lower portions of the two rack plates, the supporting rods are fixedly arranged at the lower ends of the two suspenders, the supporting rods are respectively, and the isolating units are arranged in front portions of the supporting rods, the driving motor is started, the output end of the driving motor drives the driving rotating shaft to rotate, the support rod is driven to move back and forth when the two rack plates move back and forth relatively, and therefore the iron cores strung on the placing rod are scattered;
the isolation unit comprises a placing rod, a bearing plate, a fixed cylinder, a central rotating rod, a circular ring, a convex block, a baffle, a reset spring, a driven bevel gear, a thread rotating rod, a driving bevel gear and a water seepage branch chain, wherein the placing rod is hinged at the front part of the supporting rod, the bearing plate fixedly connected with the supporting rod is arranged at the lower part of the placing rod, the fixed cylinder is fixedly arranged in the inner cavity of the placing rod, the central rotating rod is rotatably arranged on the right side wall of the inner cavity of the fixed cylinder through a bearing, the circular rings are sequentially and fixedly arranged on the central rotating rod from left to right, the convex block is circumferentially and fixedly arranged on the outer side of each circular ring, the baffle penetrating through and sliding on the placing rod is arranged on each convex block, the reset springs fixedly connected with the outer side of the fixed cylinder are arranged on the two sides of each baffle, the driven bevel gear is fixedly arranged at one end of the central rotating rod, the thread rotating rod rotatably connected with the lower part of the inner cavity of the fixed cylinder is arranged on the front side of the driven bevel gear, the thread rotating rod penetrates through the placing rod and is rotatably connected with the placing rod, the outer side of the threaded rotating rod is fixedly provided with a driving bevel gear meshed with the driven bevel gear, the side wall of the placing rod is provided with a water seepage branch chain, the threaded rotating rod is rotated clockwise, the driving bevel gear is driven to rotate when the threaded rotating rod rotates, and the dispersed iron cores can be isolated by pushing the baffle out of the placing rod;
the shaking device comprises a sliding groove, an inner bottom plate, a sliding support plate, a shaking spring, an arc-shaped support bracket, a return block and a bolt, wherein the sliding groove is formed in the middle of the right side of the operation box, the inner bottom plate is fixedly arranged at the lower part of the right side of the inner cavity of the operation box, the inner bottom plate is positioned at the lower part of the sliding groove, the sliding support plate is slidably arranged in the inner cavity of the sliding groove, the shaking spring is arranged between the sliding support plate and the inner bottom plate, the arc-shaped support bracket is fixedly arranged at the upper part of the sliding support plate, the arc-shaped support bracket is positioned at the lower part of the right end of the placing rod, the return blocks are symmetrically arranged at the front and back of the right side of the operation box and are respectively positioned at the front side and the back side of the sliding support plate, the bolt is clamped in the return block and is positioned in the groove when the sliding support plate is fixed, the shaking spring drives the sliding support plate to bounce to shake the placing rod in the arc-shaped support bracket when the sliding support plate ascends, therefore, the lifted iron core is shaken up and down, and the phenomenon that the redundant insulating paint attached to the immersed iron core is shaken down is realized.
Preferably, drying device includes riser, electric putter, fixed plate and desiccator, and riser fixed mounting is in base upper surface rear side, and the promotion push rod is installed to riser front side bilateral symmetry, and electric putter is two sets of, and two sets of electric putter front end fixed mounting have the fixed plate, and fixed plate front side fixed mounting has the desiccator, promotes forward through opening electric putter, and electric putter removes the desiccator to operation incasement chamber to the realization carries out quick drying in batches to soaking the iron core after finishing rising.
Preferably, the infiltration branch chain is including leading to groove, infiltration mouth and absorption sponge, leads to the groove and evenly sets up and place the pole inner chamber lateral wall, leads to groove upper portion and sets up the infiltration mouth that runs through and place the pole, and infiltration mouth outside fixed mounting has the absorption sponge, and insulating paint overflows through leading to the groove and goes into each infiltration mouth, and the absorption sponge adsorbs the intraoral insulating paint in with the infiltration, and the round hole inner chamber through adsorbing sponge and each iron core is laminated to dip-dye iron core round hole inner wall.
Preferably, place pole outside circumference fixed mounting have anti-skidding rubber pad, and anti-skidding rubber pad and adsorb the sponge and laminate mutually, through setting up anti-skidding rubber pad two iron cores of placing on the pole when scattering, increase iron core and the frictional force of placing the pole, the iron core of being convenient for disperses sooner.
Preferably, the front side of the hinged position of the support rod and the placing rod is provided with a lifting plate in threaded connection with the placing rod, the lifting plate is rotated out of threads, and the processed iron core can be intensively slid out.
Preferably, place the pole and keep away from driving motor one end screw thread and rotate and install and block the box, block the box through the setting, avoid when being parallel with the base iron core on placing the pole, the iron core does not deviate from and places the pole.
The invention has the beneficial effects that:
according to the placing rods, the two placing rods are rotated to be perpendicular to the base, the stacked iron cores are placed between the two placing rods and fall down, so that the iron cores can be placed in batches conveniently, the lifting plate is arranged, the lifting plate is rotated out of threads, and the lifting plate is moved upwards so as to intensively slide out the processed iron cores;
according to the dispersing device provided by the invention, the driving motor is started, the output end of the driving motor drives the driving rotating shaft to rotate, so that the supporting rod is driven to move back and forth when the two rack plates move back and forth relatively, and the iron cores strung on the placing rod are dispersed;
according to the shaking device provided by the invention, when the sliding support plate rises, the shaking spring drives the sliding support plate to pop up, so that the placing rod in the arc-shaped support bracket shakes, the iron core after rising shakes up and down, and the surplus insulating paint adhered to the iron core after being soaked is shaken down;
according to the water seepage branch chain, the insulating paint overflows into each water seepage port through the through groove, the insulating paint in the water seepage port is adsorbed by the adsorption sponge, and the adsorption sponge is attached to the inner cavity of each round hole of the iron core, so that the inner wall of the round hole of the iron core is dip-dyed.
Drawings
The invention is further illustrated with reference to the following figures and examples.
FIG. 1 is a flow diagram of a method of deploying an infusion device in accordance with the present invention;
FIG. 2 is a schematic top perspective view of the de-aeration infusion apparatus of the present invention;
FIG. 3 is a schematic front perspective view of the de-aeration infusion apparatus of the present invention;
FIG. 4 is a schematic view of a front section of an isolation unit of the dispersing and soaking apparatus of the present invention;
FIG. 5 is an enlarged view of the portion B of the dispersing and soaking device of the present invention;
FIG. 6 is an enlarged schematic view of part A of the dispersing and soaking device of the present invention;
FIG. 7 is a schematic view of the right side of the inner cavity of the operation box of the dispersing and soaking device of the present invention;
FIG. 8 is a schematic side sectional view of an isolation unit of the de-aeration soaking apparatus of the present invention;
FIG. 9 is a partial structure diagram of the dispersing and soaking device of the present invention.
Detailed Description
Embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.
As shown in fig. 1 to 9, a manufacturing and processing method of a high-low voltage transformer iron core uses a dispersing and soaking device, the dispersing and soaking device includes a base 1, a work box 2, a dispersing device 3, a shaking device 4 and a drying device 5, and the manufacturing and processing method of the high-low voltage transformer iron core using the dispersing and soaking device includes the following steps:
s1, iron core placement: rotating the placing rods 61 to be vertical to the base 1, placing the stacked iron cores between the two placing rods 61 and dropping, and rotating the placing rods 61 to be parallel to the base 1;
s2, iron core scattering: the piled iron cores are scattered one by one on the placing rods 61 by opening the scattering device 3, so that the subsequent soaking is facilitated;
s3, iron core soaking: fully infiltrating and soaking the inner walls of the circular holes of the scattered iron cores through the water seepage branched chains 7;
s4, iron core shaking: the immersed iron core is lifted, and the iron core is lifted and simultaneously the surplus insulating paint on the iron core is shaken off by the shaking device 4;
an operation box 2 is fixedly installed in the middle of the upper surface of the base 1, a scattering device 3 fixedly connected with the base 1 is arranged on the left side of the operation box 2, a shaking device 4 is fixedly installed on the right side of an inner cavity of the operation box 2, and a drying device fixedly connected with the base 1 is arranged on the rear side of the operation box 2;
the scattering device 3 comprises hydraulic rods 31, support plates 32, driving rotating shafts 33, gears 34, rack plates 35, L-shaped plates 36, driving motors 37, hanging rods 38, support rods 39 and an isolation unit 6, the hydraulic rods 31 are symmetrically arranged on the left side of the upper surface of the base 1 in a front-back mode, the number of the hydraulic cylinders is four, the support plates 32 are fixedly arranged at one ends of the four hydraulic cylinders far away from the base 1 together, the driving rotating shafts 33 are rotatably arranged in the middle of the upper surface of the support plates 32, the gears 34 are fixedly arranged on the outer sides of the driving rotating shafts 33, the rack plates 35 which are connected with the support plates 32 in a sliding mode are meshed with the front sides and the rear sides of the gears 34, the L-shaped plates 36 are fixedly arranged on the upper surface of the support plates 32, the driving motors 37 are fixedly arranged on the lower portions of inner cavities of the L-shaped plates 36 through motor plates, the output ends of the driving motors 37 are fixedly connected with the driving rotating shafts 33, one opposite sides of the two rack plates 35 are respectively connected with the operation box 2 in a sliding mode, the hanging rods 38 are fixedly arranged on the lower portions of the two rack plates 35, the lower ends of the two hanging rods 38 are fixedly provided with supporting rods 39, the front parts of the supporting rods 39 are provided with isolating units 6, when iron cores strung on the placing rods 61 are scattered, the driving motor 37 is started, the output end of the driving motor 37 drives the driving rotating shaft 33 to rotate, the driving rotating shaft 33 rotates to respectively drive the two rack plates 35 to move back and forth through the gears 34, and the supporting rods 39 are driven to move back and forth when the two rack plates 35 move back and forth, so that the iron cores strung on the front parts of the two supporting rods 39 are scattered, and the subsequent iron cores are isolated;
the isolation unit 6 comprises a placing rod 61, a bearing plate 62, a fixed cylinder 63, a central rotating rod 64, a ring 65, a bump 66, a baffle 67, a reset spring 68, a driven bevel gear 69, a thread rotating rod 690, a driving bevel gear 691 and a water seepage branch chain 7, the front part of the supporting rod 39 is hinged with the placing rod 61, the lower part of the placing rod 61 is provided with the bearing plate 62 fixedly connected with the supporting rod 39, the inner cavity of the placing rod 61 is fixedly provided with the fixed cylinder 63, the right side wall of the inner cavity of the fixed cylinder 63 is rotatably provided with the central rotating rod 64 through a bearing, the central rotating rod 64 is sequentially and fixedly provided with the ring 65 from left to right, the ring 65 is provided with a plurality of blocks 66, the outer side of the ring 65 is circumferentially and fixedly provided with the bump 66, the baffle 67 penetrating and sliding on the placing rod 61 is arranged on the bump 66, the two sides of the baffle 67 are respectively provided with the reset spring 68 fixedly connected with the outer side of the fixed cylinder 63, one end of the central rotating rod 64 is fixedly provided with the driven bevel gear 69, a thread rotating rod 690 rotatably connected with the lower part of the inner cavity of the fixed cylinder 63 is arranged on the front side of the driven bevel gear 69, the thread rotating rod 690 penetrates through the placing rod 61 and is rotatably connected with the placing rod 61, a driving bevel gear 691 meshed with the driven bevel gear 69 is fixedly installed on the outer side of the thread rotating rod 690, a water seepage branched chain 7 is arranged on the side wall of the placing rod 61, when each dispersed iron core is isolated before soaking, the thread rotating rod 690 is rotated clockwise, the driving bevel gear 691 is driven to rotate when the thread rotating rod 690 rotates, the driving bevel gear 691 is meshed with the driven bevel gear 69 to drive the central rotating rod 64 to rotate when the driving bevel gear 691 rotates, the central rotating rod 64 rotates to drive the lug 66 on the circular ring 65 to rotate, the lug 66 rotates to push the baffle 67 out of the placing rod 61, each dispersed iron core can be isolated, and subsequent soaking operation is facilitated;
the shaking device 4 comprises a sliding groove 41, an inner bottom plate 42, a sliding support plate 43, a shaking spring 44, an arc-shaped support bracket 45, a clip-shaped block 46 and a bolt 47, wherein the sliding groove 41 is arranged in the middle of the right side of the operation box 2, the inner bottom plate 42 is fixedly arranged at the lower part of the right side of the inner cavity of the operation box 2, the inner bottom plate 42 is positioned at the lower part of the sliding groove 41, the sliding support plate 43 is slidably arranged in the inner cavity of the sliding groove 41, the shaking spring 44 is arranged between the sliding support plate 43 and the inner bottom plate 42, the arc-shaped support bracket 45 is fixedly arranged at the upper part of the sliding support plate 43, the arc-shaped support bracket 45 is positioned at the lower part of the right end of the placing rod 61, the clip-shaped blocks 46 are symmetrically arranged at the front and back of the right side of the operation box 2, the two clip-shaped blocks 46 are respectively positioned at the front and back sides of the sliding support plate 43, grooves are symmetrically arranged at the front and back of the right side of the sliding support plate 43, the clip-shaped block 46 is connected with the bolt 47, and the bolt is positioned in the grooves when the sliding support plate 43 is fixed, when the iron core is soaked and then moved out, the hydraulic rod 31 is opened to ascend, the hydraulic rod 31 ascends to drive the placing rod 61 to ascend, the placing rod 61 ascends, the sliding support plate 43 is pushed to be sprung along with the placing rod 61 due to the acting force of the shaking spring 44, the shaking spring 44 drives the placing rod 61 in the arc-shaped support bracket 45 to shake when the sliding support plate 43 is driven to be sprung, and therefore the lifted iron core is shaken up and down, and surplus insulating paint attached to the soaked iron core is shaken down.
Infiltration branch 7 is including leading to groove 71, infiltration mouth 72 and absorption sponge 73, it evenly sets up in placing pole 61 intracavity lateral wall to lead to groove 71, it runs through the infiltration mouth 72 of placing pole 61 to lead to groove 71 upper portion to set up, infiltration mouth 72 outside fixed mounting has absorption sponge 73, through setting up absorption sponge 73, when placing pole 61 and dip into in the 2 inner chambers insulated paint of operation case, insulated paint crosses logical groove 71 and walks into each infiltration mouth 72, absorption sponge 73 adsorbs the insulated paint in the infiltration mouth 72, the round hole inner chamber laminating through absorption sponge 73 with each iron core, thereby dip-dye iron core round hole inner wall.
A lifting plate 9 in threaded connection with the placing rod 61 is arranged on the front side of the hinged position of the support rod 39 and the placing rod 61, the lifting plate 9 is rotated out of threads, and the processed iron core can be rolled out in a centralized manner.
It keeps away from driving motor 37 one end screw thread rotation and installs and block box 8 to place pole 61, blocks box 8 through the setting, avoids when being parallel with base 1 placing the iron core on the pole 61, and the iron core does not break away from and places pole 61.
The present invention is not limited to the above-described embodiments, which are described in the specification and illustrated only to illustrate the principle of the present invention, but various changes and modifications may be made within the scope of the present invention as claimed without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.
Claims (4)
1. The utility model provides a high-low voltage transformer iron core manufacturing method, it has used a dispersion to soak equipment, should scatter soaking equipment and include base (1), operation case (2), scatter device (3), shake device (4), drying device (5), its characterized in that: the method for manufacturing and processing the high-low voltage transformer iron core by adopting the dispersing and soaking equipment comprises the following steps:
s1, iron core placement: rotating the placing rods (61) to be vertical to the base (1), placing the iron cores in a stack between the two placing rods (61) and dropping, and rotating the placing rods (61) to be parallel to the base (1);
s2, iron core dispersion: the piled iron cores are scattered one by one on the placing rods (61) by opening the scattering device (3), so that subsequent soaking is facilitated;
s3, iron core soaking: fully infiltrating and soaking the inner walls of the circular holes of the scattered iron cores through the water seepage branched chains (7);
s4, core chattering: the immersed iron core is lifted, and the iron core is lifted and simultaneously the redundant insulating paint on the iron core is shaken off by a shaking device (4);
the middle part of the upper surface of the base (1) is fixedly provided with an operation box (2), the left side of the operation box (2) is provided with a scattering device (3) fixedly connected with the base (1), the right side of the inner cavity of the operation box (2) is fixedly provided with a shaking device (4), and the rear side of the operation box (2) is provided with a drying device (5) fixedly connected with the base (1);
the scattering device (3) comprises hydraulic rods (31), support plates (32), driving rotating shafts (33), gears (34), rack plates (35), L-shaped plates (36), driving motors (37), hanging rods (38), support rods (39) and isolation units (6), the hydraulic rods (31) are symmetrically installed on the front and back of the left side of the upper surface of the base (1), the four hydraulic cylinders are provided, the support plates (32) are fixedly installed at one ends, far away from the base (1), of the four hydraulic cylinders together, the driving rotating shafts (33) are installed in the middle of the upper surface of the support plates (32) in a rotating mode, the gears (34) are fixedly installed on the outer sides of the driving rotating shafts (33), the rack plates (35) which are connected with the support plates (32) in a sliding mode are meshed with the front and back sides of the gears (34), the L-shaped plates (36) are fixedly installed on the upper surface of the support plates (32), and the driving motors (37) are fixedly installed on the lower portions of inner cavities of the L-shaped plates (36), the output end of a driving motor (37) is fixedly connected with a driving rotating shaft (33), one opposite sides of two rack plates (35) are respectively connected with an operation box (2) in a sliding manner, suspenders (38) are fixedly arranged at the lower parts of the two rack plates (35), supporting rods (39) are fixedly arranged at the lower ends of the two suspenders (38), and isolation units (6) are arranged at the front parts of the supporting rods (39);
the isolation unit (6) comprises a placing rod (61), a bearing plate (62), a fixed cylinder (63), a center rotating rod (64), a circular ring (65), a convex block (66), a baffle plate (67), a reset spring (68), a driven bevel gear (69), a thread rotating rod (690), a driving bevel gear (691) and a water seepage branch chain (7), wherein the front part of the supporting rod (39) is hinged with the placing rod (61), the lower part of the placing rod (61) is provided with the bearing plate (62) fixedly connected with the supporting rod (39), the inner cavity of the placing rod (61) is fixedly provided with the fixed cylinder (63), the right side wall of the inner cavity of the fixed cylinder (63) is rotatably provided with the center rotating rod (64) through a bearing, the circular ring (65) is sequentially and fixedly arranged on the center rotating rod (64) from left to right, the circular rings (65) are provided with a plurality of convex blocks (66) circumferentially and fixedly arranged on the outer side of the circular rings (65), the convex block (66) is provided with the baffle plate (67) which penetrates and slides on the placing rod (61), the two sides of the baffle (67) are respectively provided with a return spring (68) fixedly connected with the outer side of the fixed cylinder (63), one end of the central rotating rod (64) is fixedly provided with a driven bevel gear (69), the front side of the driven bevel gear (69) is provided with a threaded rotating rod (690) rotatably connected with the lower part of the inner cavity of the fixed cylinder (63), the threaded rotating rod (690) penetrates through the placing rod (61) and is rotatably connected with the placing rod (61), the outer side of the threaded rotating rod (690) is fixedly provided with a driving bevel gear (691) meshed with the driven bevel gear (69), and the side wall of the placing rod (61) is provided with a water seepage branched chain (7);
the shaking device (4) comprises a sliding groove (41), an inner bottom plate (42), a sliding support plate (43), a shaking spring (44), an arc-shaped support bracket (45), a returning block (46) and a plug pin (47), wherein the sliding groove (41) is arranged in the middle of the right side of the operation box (2), the inner bottom plate (42) is fixedly arranged at the lower part of the right side of the inner cavity of the operation box (2), the inner bottom plate (42) is positioned at the lower part of the sliding groove (41), the sliding support plate (43) is slidably arranged in the inner cavity of the sliding groove (41), the shaking spring (44) is arranged between the sliding support plate (43) and the inner bottom plate (42), the arc-shaped support bracket (45) is fixedly arranged at the upper part of the sliding support plate (43), the arc-shaped support bracket (45) is positioned at the lower part of the right end of the placing rod (61), the returning blocks (46) are symmetrically arranged at the front and back of the right side of the operation box (2), and the two returning blocks (46) are respectively positioned at the front and back sides of the sliding support plate (43), grooves are symmetrically formed in the front and the back of the right side of the sliding support plate (43), the return block (46) is internally clamped with a plug pin (47), and the plug pin (47) is positioned in the grooves when the sliding support plate (43) is fixed;
the drying device (5) comprises a vertical plate (51), electric push rods (52), a fixing plate (53) and a dryer (54), wherein the vertical plate (51) is fixedly arranged on the rear side of the upper surface of the base (1), the push rods are symmetrically arranged on the left and right sides of the front side of the vertical plate (51), the electric push rods (52) are divided into two groups, the fixing plate (53) is fixedly arranged on the front ends of the two groups of electric push rods (52), and the dryer (54) is fixedly arranged on the front side of the fixing plate (53);
infiltration branch chain (7) are including leading to groove (71), infiltration mouth (72) and absorption sponge (73), lead to groove (71) and evenly set up and place pole (61) cavity lateral wall, lead to groove (71) upper portion and set up infiltration mouth (72) of running through and placing pole (61), infiltration mouth (72) outside fixed mounting has absorption sponge (73).
2. The manufacturing and processing method of the high-low voltage transformer iron core according to claim 1, characterized in that: the circumferential direction of the outer side of the placing rod (61) is fixedly provided with an anti-skidding rubber pad, and the anti-skidding rubber pad is attached to the adsorption sponge (73).
3. The manufacturing and processing method of the high-low voltage transformer iron core according to claim 1, characterized in that: and a lifting plate (9) in threaded connection with the placing rod (61) is arranged on the front side of the hinged position of the supporting rod (39) and the placing rod (61).
4. The manufacturing and processing method of the high-low voltage transformer iron core according to claim 1, characterized in that: one end of the placing rod (61) far away from the driving motor (37) is provided with a blocking box (8) in a threaded rotating mode.
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