CN112719858A

CN112719858A - Ball cauldron coil panel assembly structure

Info

Publication number: CN112719858A
Application number: CN202011506598.3A
Authority: CN
Inventors: 曾东文
Original assignee: Tongling Jingqiang Electronic Technology Co ltd
Current assignee: Tongling Jingqiang Electronic Technology Co ltd
Priority date: 2020-12-18
Filing date: 2020-12-18
Publication date: 2021-04-30
Anticipated expiration: 2040-12-18
Also published as: CN112719858B

Abstract

The invention discloses a ball kettle coil panel assembling structure which comprises a support, a first coil, a second coil and a line pressing frame, wherein four second clamping strips are installed on the support, the second coil is installed on the support through the four second clamping strips, three installation strips are installed on the line pressing frame, installation columns are installed on the installation strips, three magnetic stripe installation grooves are also installed on the line pressing frame, and magnetic stripes are installed on the magnetic stripe installation grooves. According to the invention, through the design of the first coil and the second coil, the assembly structure of the coil panel of the ball kettle can be ensured to be uniformly and continuously heated in a surrounding manner by 360 degrees from the bottom surface and the side surface, the structure is simple to assemble, a screw processing technology is not adopted, the assembly is quicker and more efficient, the assembly efficiency is improved, the whole wire pressing frame is perfectly combined with the support, the screw processing technology is reduced, the cost is reduced, the convex points and the concave points are matched with each other, so that the wire pressing frame is in close contact with the support, and meanwhile, the coil can be firmly attached to the cambered surface of the support and.

Description

Ball cauldron coil panel assembly structure

Technical Field

The invention relates to the technical field of coil panel design, in particular to a ball kettle coil panel assembling structure.

Background

The coil panel generates heat to provide heat for an induction cooker, a cooking pot and the like. Patent document (201310048021.6) discloses a heating coil disk which eliminates the disadvantage of too concentrated heat generating area, and by enlarging the central area of the coil winding and simultaneously enlarging the outer diameter of the coil disk, the heating area is uniformly distributed in the annular area outside the middle of the coil chassis; the heat in the area is heated up intensively fast, and meanwhile, on the premise that the winding central area is correspondingly enlarged, the speed of spreading the heat to the outermost periphery and the central point of the bottom of the cookware by the middle annular area is not different, so that the middle annular area generates heat fast, the heat is diffused uniformly to the central point of the bottom of the cookware and the outermost periphery of the cookware, the heat of the bottom of the cookware is uniformly distributed finally, the temperature difference of all parts of the whole bottom of the cookware is small, the food in the cookware is heated uniformly, and the food in the local area is prevented from being burnt. However, the coil panel is inconvenient to assemble and is obtained by processing through a conventional screw processing technology, and the manufacturing cost is high. This current coil panel is the operating personnel equipment usually in the equipment simultaneously, extravagant labour when the packaging efficiency is not high.

Disclosure of Invention

The invention aims to provide an assembly structure of a coil panel of a ball kettle, which solves the following technical problems: (1) through the design of the first coil and the second coil, the assembly structure of the coil panel of the ball kettle can be ensured to be uniformly and continuously heated in a surrounding manner by 360 degrees from the bottom surface and the side surface, the structure is simple to assemble, a screw machining process is not adopted, the assembly is quicker and more efficient, the assembly efficiency is improved, the whole wire pressing frame is perfectly combined with the support, the screw machining process is reduced, the cost is reduced, the convex points and the concave points are matched with each other, so that the wire pressing frame is in close contact with the support, and meanwhile, the coil can be firmly attached to the cambered surface of the support and cannot float; (2) installing a first coil on three first clamping strips, installing second coils on four second clamping strips, installing magnetic strips in magnetic strip installation grooves, stacking and placing a wire pressing frame into a wire pressing frame storage barrel for storage, installing the wire pressing frame at the bottom of an inner cavity of the wire pressing frame storage barrel on a positioning ring through a through hole, placing three supports on a belt conveyor of an assembly chamber in assembly equipment, separating the four supports by four partition plates, conveying the three supports into the assembly chamber by the belt conveyor, opening a guide cylinder, pushing the positioning ring by a piston rod of the guide cylinder, moving a dynamic pressure of the positioning ring belt out from an open-side position, moving the wire pressing frame to be below a pneumatic finger, starting a lifting motor, driving a belt pulley third to rotate by an output shaft of the lifting motor, driving a belt pulley fourth to rotate by a belt second belt, driving a second lead screw to rotate by the belt fourth belt, driving a lifting plate to descend by the, the lifting plate drives the shaft sleeve to descend through the mounting arm, the shaft sleeve drives the telescopic shaft to extend, the telescopic shaft drives the pneumatic fingers to descend through the connecting plate, the pneumatic fingers clamp the line pressing frame, then the telescopic shaft contracts, the positioning ring moves back into the line pressing frame storage cylinder, the telescopic shaft drives the connecting plate to continue descending, the driving motor is started, the driving motor output shaft drives the belt pulley to rotate, the belt pulley drives the belt pulley to rotate through the belt III, the belt pulley drives the telescopic shaft to rotate, the telescopic shaft drives the connecting plate to rotate, the connecting plate drives the four spring rods to rotate, the four spring rods rotate to correspond to the four positioning columns on the support, the telescopic shaft continues descending, the spring rods are firstly inserted into the positioning columns, then the spring rods contract, the mounting columns on the line pressing frame are inserted into corresponding pin holes, when the convex points are clamped with the concave points, the magnetic strips are inserted into corresponding magnetic strip slots, through the arrangement of the structure, the spring rod is matched with the positioning column on the support, so that the support is effectively fixed in the assembling process of the support and the wire pressing frame, meanwhile, the assembling efficiency of the support and the wire pressing frame is high, no operator is required to participate, and only the operator is required to load the support during processing, so that the loading is convenient; (3) opening the side and moving the motor, side and move motor output shaft and drive a belt pulley and rotate, belt pulley one drives a belt pulley two through belt one and rotates, and belt pulley two drives first lead screw and rotates, and first lead screw drives and moves board horizontal migration to the side, and then telescopic shaft horizontal migration repeats the above-mentioned step, accomplishes all the other two supports and two pressure line frame equipment, through above structure setting, this equipment can satisfy the equipment to a plurality of ball cauldron coil panels assembly structure, and the packaging efficiency is high.

The purpose of the invention can be realized by the following technical scheme:

a ball kettle coil panel assembling structure comprises a support, a first coil, a second coil and a line pressing frame, wherein four second clamping strips are installed on the support, the second coil is installed on the support through the four second clamping strips, three installation strips are installed on the line pressing frame, installation columns are installed on the installation strips, three magnetic stripe installation grooves are further installed on the line pressing frame, magnetic stripes are installed on the magnetic stripe installation grooves, three first clamping strips are installed on the support, the first coil is installed on the support through the three first clamping strips, three magnetic stripe insertion grooves are formed in the support and correspond to the three magnetic stripes one by one, one end of each magnetic stripe is inserted into each magnetic stripe insertion groove, pin holes are installed in the first clamping strips and correspond to the three installation columns one by one, the installation columns are inserted into the pin holes, salient points are installed in the pin holes, concave points are formed in the installation columns, the convex points and the concave points are matched components, a through hole is formed in the wire pressing frame, and four positioning columns are mounted on the support;

wherein, this ball cauldron coil panel assembly structure obtains through the equipment of following step:

installing a first coil on three first clamping strips, installing second coils on four second clamping strips, installing magnetic strips in magnetic strip installation grooves, stacking and placing a wire pressing frame into a wire pressing frame storage barrel for storage, installing the wire pressing frame at the bottom of an inner cavity of the wire pressing frame storage barrel on a positioning ring through a through hole, placing three supports on a belt conveyor of an assembly chamber in assembly equipment, separating the four supports by four partition plates, conveying the three supports into the assembly chamber by the belt conveyor, opening a guide cylinder, pushing the positioning ring by a piston rod of the guide cylinder, moving a dynamic pressure of the positioning ring belt out from an open-side position, moving the wire pressing frame to be below a pneumatic finger, starting a lifting motor, driving a belt pulley third to rotate by an output shaft of the lifting motor, driving a belt pulley fourth to rotate by a belt second belt, driving a second lead screw to rotate by the belt fourth belt, driving a lifting plate to descend by the, the lifting plate drives the shaft sleeve to descend through the mounting arm, the shaft sleeve drives the telescopic shaft to extend, the telescopic shaft drives the pneumatic fingers to descend through the connecting plate, the pneumatic fingers clamp the line pressing frame, then the telescopic shaft contracts, the positioning ring moves back into the line pressing frame storage cylinder, the telescopic shaft drives the connecting plate to continue descending, the driving motor is started, the driving motor output shaft drives the belt pulley to rotate, the belt pulley drives the belt pulley to rotate through the belt III, the belt pulley drives the telescopic shaft to rotate, the telescopic shaft drives the connecting plate to rotate, the connecting plate drives the four spring rods to rotate, the four spring rods rotate to correspond to the four positioning columns on the support, the telescopic shaft continues descending, the spring rods are firstly inserted into the positioning columns, then the spring rods contract, the mounting columns on the line pressing frame are inserted into corresponding pin holes, when the convex points are clamped with the concave points, the magnetic strips are inserted into corresponding magnetic strip slots, then the telescopic shaft contracts, the side-shifting motor is started, an output shaft of the side-shifting motor drives the belt pulley I to rotate, the belt pulley I drives the belt pulley II to rotate through the belt pulley I, the belt pulley II drives the first lead screw to rotate, the first lead screw drives the side-shifting plate to move horizontally, then the telescopic shaft moves horizontally, the steps are repeated, and the assembly of the rest two supports and the two wire pressing frames is completed.

Furthermore, four second clamping strips are installed on the support in equal radian, three installation strips are installed on the line pressing frame in equal radian, and three magnetic stripe installation grooves are installed on the line pressing frame in equal radian.

Furthermore, radian such as three first card strip is installed on the support such as, radian such as three magnetic stripe slot is installed on the support, and four reference columns are installed on the support in rectangular array form.

Further, the equipment includes the equipment room, two exit have been seted up on the equipment room, the equipment room inner chamber is provided with four division boards, install three pressure line frame storage barrel on the equipment room, install the direction cylinder on the pressure line frame storage barrel, the holding ring is installed to direction cylinder piston rod tip, install the leading truck on the equipment room, install the side shifting board on the leading truck, install the installation shell on the side shifting board, install the lifter plate on the side shifting board, install the installation arm on the lifter plate, install the axle sleeve on the installation arm, install the telescopic shaft on the axle sleeve, the connecting plate is installed to the telescopic shaft bottom, install pneumatic finger on the connecting plate, still install four spring levers on the connecting plate.

Furthermore, two exit symmetry sets up in the equipment room both sides, and four division boards are equidistant to be set up in the equipment room, and three pressure line frame storage barrel is equidistant setting, pressure line frame storage barrel runs through the equipment room top.

Furthermore, the guide cylinder is fixed in the outer wall of the wire pressing frame storage barrel in a horizontal shape, a side opening is formed in the side wall of the wire pressing frame storage barrel, and the four spring rods are arranged at the bottom of the connecting plate in a rectangular array shape.

Furthermore, the side shift plate is slidably arranged on a guide frame, a side shift motor is arranged on the guide frame, a first lead screw is rotatably arranged on the guide frame, a first belt pulley is arranged at the end part of an output shaft of the side shifting motor, the first screw rod is provided with a second belt pulley, the first belt pulley and the second belt pulley are in transmission connection through a belt, a lifting motor is arranged on the side moving plate, a second screw rod is rotatably arranged on the side moving plate, a third belt pulley is arranged at the end part of an output shaft of the lifting motor, the second screw rod is provided with a belt pulley IV, the belt pulley III is in transmission connection with the belt pulley IV through a belt II, a driving motor is arranged on the mounting shell, a belt pulley V is arranged at the end part of an output shaft of the driving motor, and a belt pulley six is installed on the telescopic shaft, and a belt pulley five is in transmission connection with the belt pulley six through a belt.

The working process of the assembly equipment is as follows:

The invention has the beneficial effects that:

(1) according to the assembly structure of the ball kettle coil panel, the assembly structure of the ball kettle coil panel can be uniformly and continuously heated in a surrounding manner for 360 degrees from the bottom surface and the side surface through the design of the first coil and the second coil, the assembly structure is simple, a screw machining process is not adopted, the assembly is quicker and more efficient, the assembly efficiency is improved, the whole wire pressing frame is perfectly combined with the support, the machining process of screws is reduced, the cost is reduced, the convex points and the concave points are matched with each other, so that the wire pressing frame is in close contact with the support, and meanwhile, the coils can be firmly attached to the cambered surface of the support and do not float;

(2) installing a first coil on three first clamping strips, installing second coils on four second clamping strips, installing magnetic strips in magnetic strip installation grooves, stacking and placing a wire pressing frame into a wire pressing frame storage barrel for storage, installing the wire pressing frame at the bottom of an inner cavity of the wire pressing frame storage barrel on a positioning ring through a through hole, placing three supports on a belt conveyor of an assembly chamber in assembly equipment, separating the four supports by four partition plates, conveying the three supports into the assembly chamber by the belt conveyor, opening a guide cylinder, pushing the positioning ring by a piston rod of the guide cylinder, moving a dynamic pressure of the positioning ring belt out from an open-side position, moving the wire pressing frame to be below a pneumatic finger, starting a lifting motor, driving a belt pulley third to rotate by an output shaft of the lifting motor, driving a belt pulley fourth to rotate by a belt second belt, driving a second lead screw to rotate by the belt fourth belt, driving a lifting plate to descend by the, the lifting plate drives the shaft sleeve to descend through the mounting arm, the shaft sleeve drives the telescopic shaft to extend, the telescopic shaft drives the pneumatic fingers to descend through the connecting plate, the pneumatic fingers clamp the line pressing frame, then the telescopic shaft contracts, the positioning ring moves back into the line pressing frame storage cylinder, the telescopic shaft drives the connecting plate to continue descending, the driving motor is started, the driving motor output shaft drives the belt pulley to rotate, the belt pulley drives the belt pulley to rotate through the belt III, the belt pulley drives the telescopic shaft to rotate, the telescopic shaft drives the connecting plate to rotate, the connecting plate drives the four spring rods to rotate, the four spring rods rotate to correspond to the four positioning columns on the support, the telescopic shaft continues descending, the spring rods are firstly inserted into the positioning columns, then the spring rods contract, the mounting columns on the line pressing frame are inserted into corresponding pin holes, when the convex points are clamped with the concave points, the magnetic strips are inserted into corresponding magnetic strip slots, through the arrangement of the structure, the spring rod is matched with the positioning column on the support, so that the support is effectively fixed in the assembling process of the support and the wire pressing frame, meanwhile, the assembling efficiency of the support and the wire pressing frame is high, no operator is required to participate, and only the operator is required to load the support during processing, so that the loading is convenient;

(3) opening the side and moving the motor, side and move motor output shaft and drive a belt pulley and rotate, belt pulley one drives a belt pulley two through belt one and rotates, and belt pulley two drives first lead screw and rotates, and first lead screw drives and moves board horizontal migration to the side, and then telescopic shaft horizontal migration repeats the above-mentioned step, accomplishes all the other two supports and two pressure line frame equipment, through above structure setting, this equipment can satisfy the equipment to a plurality of ball cauldron coil panels assembly structure, and the packaging efficiency is high.

Drawings

The invention will be further described with reference to the accompanying drawings.

Fig. 1 is an exploded view of a ball kettle coil panel assembly structure of the present invention;

FIG. 2 is a perspective view of the present invention;

FIG. 3 is a schematic structural view of the stent of the present invention;

FIG. 4 is a schematic structural view of a wire pressing frame according to the present invention;

FIG. 5 is an installation view of the mounting post of the present invention;

FIG. 6 is a schematic structural view of the assembly apparatus of the present invention;

FIG. 7 is an internal structural view of an assembly chamber of the present invention;

FIG. 8 is an internal block diagram of the cord grip storage canister of the present invention;

figure 9 is an installation view of the pneumatic finger of the present invention.

In the figure: 100. a support; 101. a first clip strip; 102. a pin hole; 1021. salient points; 103. a magnetic strip slot; 104. a positioning column; 200. a first coil; 300. a second coil; 400. a magnetic strip; 500. a wire pressing frame; 501. a magnetic strip mounting groove; 502. mounting a bar; 503. mounting a column; 5031. concave points; 504. a through hole; 600. a second card strip; 1. an assembly chamber; 2. a belt conveyor; 3. a partition plate; 4. a wire pressing frame storage barrel; 5. an inlet and an outlet; 6. a guide cylinder; 7. opening the side; 8. a positioning ring; 9. a guide frame; 10. a side shift plate; 11. a side shift motor; 12. a first lead screw; 13. mounting a shell; 14. a lifting plate; 15. a lifting motor; 16. a second lead screw; 17. mounting an arm; 18. a shaft sleeve; 19. a telescopic shaft; 20. a drive motor; 21. a connecting plate; 22. a pneumatic finger; 23. a spring rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, the present invention is an assembly structure of a spherical tank coil panel, including a bracket 100, a first coil 200, a second coil 300, and a line pressing frame 500, wherein four second clamping bars 600 are installed on the bracket 100, the second coil 300 is installed on the bracket 100 through the four second clamping bars 600, the line pressing frame 500 is installed with three installation bars 502, installation posts 503 are installed on the installation bars 502, three magnetic strip installation slots 501 are also installed on the line pressing frame 500, magnetic strips 400 are installed on the magnetic strip installation slots 501, three first clamping bars 101 are installed on the bracket 100, the first coil 200 is installed on the bracket 100 through the three first clamping bars 101, three magnetic strip slots 103 are opened on the bracket 100, the three magnetic strip slots 103 correspond to the three magnetic strips 400 one by one, the magnetic strip slots 103 are inserted at one end of the magnetic strips 400, pin holes 102 are installed on the first clamping bars 101, the three pin holes 102 correspond to the three installation posts 503 one, the mounting column 503 is inserted into the pin hole 102, the salient point 1021 is installed in the pin hole 102, the concave point 5031 is arranged on the mounting column 503, the salient point 1021 and the concave point 5031 are matched components, the wire pressing frame 500 is provided with a through hole 504, and the bracket 100 is provided with four positioning columns 104;

installing a first coil 200 on three first clamping strips 101, installing second coils 300 on four second clamping strips 600, installing magnetic strips 400 in magnetic strip installation grooves 501, stacking and placing wire pressing frames 500 into a wire pressing frame storage barrel 4 for storage, installing the wire pressing frames 500 at the bottom of the inner cavity of the wire pressing frame storage barrel 4 on a positioning ring 8 through holes 504, placing three supports 100 on a belt conveyor 2 of an assembly chamber 1 in an assembly device, separating the four supports 100 by four separation plates 3, conveying the three supports 100 into the assembly chamber 1 by the belt conveyor 2, opening a guide cylinder 6, pushing the positioning ring 8 by a piston rod of the guide cylinder 6, moving the wire pressing frames 500 out of the position of an opening 7 by the positioning ring 8, moving the wire pressing frames 500 below a pneumatic finger 22, starting a lifting motor 15, driving a belt pulley to rotate three by an output shaft of the lifting motor 15, driving a belt pulley to rotate four by a belt pulley three, the fourth belt pulley drives the second lead screw 16 to rotate, the second lead screw 16 drives the lifting plate 14 to descend, the lifting plate 14 drives the shaft sleeve 18 to descend through the mounting arm 17, the shaft sleeve 18 drives the telescopic shaft 19 to extend, the telescopic shaft 19 drives the pneumatic finger to descend 22 through the connecting plate 21, the pneumatic finger 22 clamps the line pressing frame 500, then the telescopic shaft 19 contracts, the positioning ring 8 moves back into the line pressing frame storage barrel 4, the telescopic shaft 19 drives the connecting plate 21 to descend continuously, the driving motor 20 is started, the output shaft of the driving motor 20 drives the fifth belt pulley to rotate, the fifth belt pulley drives the sixth belt pulley to rotate through the third belt, the sixth belt pulley drives the telescopic shaft 19 to rotate, the telescopic shaft 19 drives the connecting plate 21 to rotate, the connecting plate 21 drives the four spring rods 23 to rotate, the four spring rods 23 rotate to correspond to the four positioning columns 104 on the support 100, the telescopic shaft 19 descends, then the spring rod 23 is contracted, the mounting post 503 on the wire pressing frame 500 is inserted into the corresponding pin hole 102, when the convex point 1021 is clamped with the concave point 5031, the magnetic strip 400 is inserted into the corresponding magnetic strip slot 103, the assembly of the bracket 100 and the wire pressing frame 500 is completed, then the telescopic shaft 19 is contracted, the side shift motor 11 is started, the output shaft of the side shift motor 11 drives the belt pulley to rotate, the belt pulley drives the belt pulley to rotate through the belt pulley, the belt pulley drives the first lead screw 12 to rotate, the first lead screw 12 drives the side shift plate 10 to horizontally move, and further the telescopic shaft 19 horizontally moves, and the steps are repeated, so that the assembly of the other two brackets 100 and the two wire pressing frames 500 is completed.

Specifically, four second clamping strips 600 are installed on the support 100 at equal radians, three installation strips 502 are installed on the wire pressing frame 500 at equal radians, and three magnetic strip installation grooves 501 are installed on the wire pressing frame 500 at equal radians.

Three first card strips 101 are installed on the support 100 in an equal radian mode, three magnetic stripe slots 103 are installed on the support 100 in an equal radian mode, and four positioning columns 104 are installed on the support 100 in a rectangular array mode.

The assembling equipment comprises an assembling chamber 1, two inlet and outlet 5 are formed in the assembling chamber 1, four partition plates 3 are arranged in an inner cavity of the assembling chamber 1, three pressing line frame storage cylinders 4 are installed on the assembling chamber 1, guide cylinders 6 are installed on the pressing line frame storage cylinders 4, positioning rings 8 are installed at end portions of piston rods of the guide cylinders 6, guide frames 9 are installed on the assembling chamber 1, side moving plates 10 are installed on the guide frames 9, installation shells 13 are installed on the side moving plates 10, lifting plates 14 are installed on the side moving plates 10, installation arms 17 are installed on the lifting plates 14, shaft sleeves 18 are installed on the installation arms 17, telescopic shafts 19 are installed on the shaft sleeves 18, connecting plates 21 are installed at the bottoms of the telescopic shafts 19, pneumatic fingers 22 are installed on the connecting plates 21, and four spring rods 23 are further installed on the.

Two import and export 5 symmetries are seted up in assembly room 1 both sides, and four division boards 3 equidistant setting are in assembly room 1, and three wire pressing frame storage barrel 4 is equidistant setting, and wire pressing frame storage barrel 4 runs through assembly room 1 top.

The guide cylinder 6 is fixed in the outer wall of the wire pressing frame storage barrel 4 in a horizontal shape, the side opening 7 is formed in the side wall of the wire pressing frame storage barrel 4, and the four spring rods 23 are arranged at the bottom of the connecting plate 21 in a rectangular array shape.

Side shift board 10 slidable mounting is on leading truck 9, install side shift motor 11 on leading truck 9, the last rotatory first lead screw 12 of installing of leading truck 9, the end portion of output shaft of side shift motor 11 installs belt pulley one, install belt pulley two on first lead screw 12, through belt one drive connection between belt pulley one and the belt pulley two, install elevator motor 15 on the board 10 of side shift, the last rotatory second lead screw 16 of installing of board 10 of side shift, elevator motor 15 output shaft end portion installs belt pulley three, install belt pulley four on the second lead screw 16, through belt two drive connection between belt pulley three and the belt pulley four, install driving motor 20 on the installation shell 13, driving motor 20 output shaft end portion installs belt pulley five, install belt pulley six on telescopic shaft 19, through belt three drive connection between belt pulley five and the belt pulley six.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims

1. The assembly structure of the coil panel of the ball kettle is characterized by comprising a support (100), a first coil (200), a second coil (300) and a wire pressing frame (500), wherein four second clamping strips (600) are installed on the support (100), the second coil (300) is installed on the support (100) through the four second clamping strips (600), three installation strips (502) are installed on the wire pressing frame (500), installation columns (503) are installed on the installation strips (502), three magnetic strip installation grooves (501) are also installed on the wire pressing frame (500), a magnetic strip (400) is installed on each magnetic strip installation groove (501), three first clamping strips (101) are installed on the support (100), the first coil (200) is installed on the support (100) through the three first clamping strips (101), and three magnetic strip slots (103) are formed in the support (100), the three magnetic stripe slots (103) correspond to the three magnetic stripes (400) one by one, one end of each magnetic stripe (400) is connected with the corresponding magnetic stripe slot (103) in an inserting mode, a pin hole (102) is formed in each first clamping strip (101), the three pin holes (102) correspond to the three mounting columns (503) one by one, the mounting columns (503) are connected with the pin holes (102) in an inserting mode, a convex point (1021) is installed in each pin hole (102), concave points (5031) are formed in the mounting columns (503), the convex points (1021) and the concave points (5031) are matched components, a through hole (504) is formed in the wire pressing frame (500), and four positioning columns (104) are installed on the support (100);

installing a first coil (200) on three first clamping strips (101), installing a second coil (300) on four second clamping strips (600), installing a magnetic strip (400) in a magnetic strip installation groove (501), stacking a line pressing frame (500) into a line pressing frame storage barrel (4) for storage, installing the line pressing frame (500) at the bottom of an inner cavity of the line pressing frame storage barrel (4) on a positioning ring (8) through a through hole (504), placing three supports (100) on a belt conveyor (2) of an assembly chamber (1) in an assembly device, separating the four supports (100) by four separating plates (3), conveying the three supports (100) into the assembly chamber (1) by the belt conveyor (2), opening a guide cylinder (6), pushing the positioning ring (8) by a piston rod of the guide cylinder (6), moving the line pressing frame (500) out of a side opening (7) by the positioning ring (8), the wire pressing frame (500) moves to the position below a pneumatic finger (22), a lifting motor (15) is started, an output shaft of the lifting motor (15) drives a belt pulley III to rotate, the belt pulley III drives a belt pulley IV to rotate through a belt II, the belt pulley IV drives a second lead screw (16) to rotate, the second lead screw (16) drives a lifting plate (14) to descend, the lifting plate (14) drives a shaft sleeve (18) to descend through a mounting arm (17), the shaft sleeve (18) drives a telescopic shaft (19) to extend, the telescopic shaft (19) drives the pneumatic finger to descend (22) through a connecting plate (21), the pneumatic finger (22) clamps the wire pressing frame (500), then the telescopic shaft (19) contracts, a positioning ring (8) moves back into the wire pressing frame storage barrel (4), the telescopic shaft (19) drives the connecting plate (21) to continue to descend, a driving motor (20) is started, an output shaft of the driving motor (20) drives the, the belt pulley V drives the belt pulley V to rotate through the belt III, the belt pulley V drives the telescopic shaft (19) to rotate, the telescopic shaft (19) drives the connecting plate (21) to rotate, the connecting plate (21) drives the four spring rods (23) to rotate, the four spring rods (23) rotate to correspond to the four positioning columns (104) on the support (100), the telescopic shaft (19) continues to descend, the spring rods (23) are inserted into the positioning columns (104) firstly, then the spring rods (23) contract, the mounting columns (503) on the wire pressing frame (500) are inserted into corresponding pin holes (102), when the convex points (1021) are clamped with the concave points (5031), the magnetic stripes (400) are inserted into corresponding slots (103), the assembly of the support (100) and the wire pressing frame (500) is completed, then the telescopic shaft (19) contracts, the side shifting motor (11) is started, the output shaft of the side shifting motor (11) drives the belt pulley V to rotate, the first belt pulley drives the second belt pulley to rotate through the first belt pulley, the second belt pulley drives the first lead screw (12) to rotate, the first lead screw (12) drives the side shifting plate (10) to horizontally move, the telescopic shaft (19) horizontally moves, and the steps are repeated to complete the assembly of the rest two supports (100) and the two wire pressing frames (500).

2. The assembly structure of a spherical kettle coil panel according to claim 1, wherein four second clamping strips (600) are installed on the bracket (100) in an equal radian, three installation strips (502) are installed on the wire pressing frame (500) in an equal radian, and three magnetic strip installation grooves (501) are installed on the wire pressing frame (500) in an equal radian.

3. The assembly structure of the coil panel of the spherical kettle according to claim 1, wherein three first clamping strips (101) are installed on the bracket (100) in an equal radian, three magnetic strip slots (103) are installed on the bracket (100) in an equal radian, and four positioning columns (104) are installed on the bracket (100) in a rectangular array.

4. The assembly structure of the coil panel of the ball kettle according to claim 1, wherein the assembly equipment comprises an assembly chamber (1), two inlets and outlets (5) are formed in the assembly chamber (1), four partition plates (3) are arranged in the inner cavity of the assembly chamber (1), three wire pressing frame storage cylinders (4) are installed on the assembly chamber (1), a guide cylinder (6) is installed on each wire pressing frame storage cylinder (4), a positioning ring (8) is installed at the end part of a piston rod of each guide cylinder (6), a guide frame (9) is installed on the assembly chamber (1), a side moving plate (10) is installed on each guide frame (9), an installation shell (13) is installed on each side moving plate (10), a lifting plate (14) is installed on each side moving plate (10), an installation arm (17) is installed on each lifting plate (14), a shaft sleeve (18) is installed on each installation arm (17), install telescopic shaft (19) on axle sleeve (18), connecting plate (21) are installed to telescopic shaft (19) bottom, install pneumatic finger (22) on connecting plate (21), still install four spring levers (23) on connecting plate (21).

5. A spherical kettle coil panel assembling structure according to claim 4, characterized in that two inlet and outlet ports (5) are symmetrically arranged on both sides of the assembling chamber (1), four partition plates (3) are arranged in the assembling chamber (1) at equal intervals, three pressing wire frame storage barrels (4) are arranged at equal intervals, and the pressing wire frame storage barrels (4) penetrate through the top of the assembling chamber (1).

6. The assembly structure of a coil panel of a ball kettle according to claim 4, wherein the guiding cylinder (6) is horizontally fixed on the outer wall of the pressing frame storage barrel (4), the side wall of the pressing frame storage barrel (4) is provided with a side opening (7), and four spring rods (23) are arranged at the bottom of the connecting plate (21) in a rectangular array.

7. The assembly structure of the coil panel of the ball kettle according to claim 4, wherein the side shift plate (10) is slidably mounted on a guide frame (9), a side shift motor (11) is mounted on the guide frame (9), a first lead screw (12) is rotatably mounted on the guide frame (9), a first belt pulley is mounted at an output shaft end of the side shift motor (11), a second belt pulley is mounted on the first lead screw (12), the first belt pulley and the second belt pulley are in transmission connection through a belt, a lifting motor (15) is mounted on the side shift plate (10), a second lead screw (16) is rotatably mounted on the side shift plate (10), a third belt pulley is mounted at an output shaft end of the lifting motor (15), a fourth belt pulley is mounted on the second lead screw (16), and the third belt pulley and the fourth belt pulley are in transmission connection through a belt, install driving motor (20) on installation shell (13), driving motor (20) output shaft end portion installs belt pulley five, install belt pulley six on telescopic shaft (19), be connected through three transmissions of belt between belt pulley five and the belt pulley six.