CN114496538A

CN114496538A - Flexible hot-pressing shaping welding mechanism for inductance production

Info

Publication number: CN114496538A
Application number: CN202210120569.6A
Authority: CN
Inventors: 杨秀枚
Original assignee: Shenzhen Futao Hongda Electronics Co ltd
Current assignee: Shenzhen Futao Hongda Electronics Co ltd
Priority date: 2022-02-09
Filing date: 2022-02-09
Publication date: 2022-05-13

Abstract

The invention discloses a flexible hot-pressing shaping welding mechanism for inductor production, and relates to the technical field of welding. This mechanism includes the underframe, and the underframe top is provided with the apical ring, and underframe top side is provided with a plurality of screw rods. According to the invention, the side edges of the welding plate are respectively correspondingly attached to the tops of the inclined surfaces of the plurality of clamping plates, the welding plate is pressed downwards, the side edges of the welding plate slide on the inclined surfaces of the clamping plates at the moment, the plurality of clamping plates are separated from each other by the inclined surfaces when the welding plate moves downwards, the clamping plates stop moving after the side edges of the welding plate move into the first clamping groove, the plurality of clamping plates clamp the welding plate by using the springs at the moment, the limitation on the welding plate is completed, the nut is rotated, the screw effect of the nut and the screw rod enables the top ring to move downwards, the top ring moves downwards so that the clamping plates are pushed to move by using the rotating frame and the limiting rod, the clamping effect of the inner side surfaces of the clamping plates and the side edges of the welding plate is further increased, the clamping effect of the welding plate on the inner side of the first clamping groove is ensured, and the welding plate is prevented from moving.

Description

Flexible hot-pressing shaping welding mechanism for inductance production

Technical Field

The invention belongs to the technical field of welding, and particularly relates to a flexible hot-pressing shaping and welding mechanism for inductor production.

Background

The power inductor is an inductor which is used in electrical engineering and can bear high power, mainly plays a role in filtering and oscillation in a circuit, is divided into two types of a magnetic cover and a non-magnetic cover, and mainly comprises a magnetic core and a copper wire. Most of the induction coil welding adopts hot-press welding, the welding material on the surface of a terminal pin is melted by utilizing the high temperature of a welding head, and the melted welding material falls on the surface of a magnet to be cooled and solidified so as to realize welding connection.

When the inductor is required to be welded on the surface of the magnet, the magnet is required to be limited, and after the magnet is limited by the clamping device due to the fact that the magnet is indefinite in shape, the magnet is prone to shifting due to the fact that the welding head and the magnet are squeezed, and then the welding effect of the inductor and the magnet is affected.

Therefore, it is necessary to invent a flexible hot-press shaping and welding mechanism for inductor production to solve the above problems.

Disclosure of Invention

Aiming at the problems, the invention provides a flexible hot-pressing shaping and welding mechanism for inductor production, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a flexible hot-pressing shaping and welding mechanism for inductance production comprises a bottom frame, wherein a top ring is arranged at the top of the bottom frame, a plurality of screw rods are arranged on the side edge of the top of the bottom frame, the top ends of the screw rods penetrate through the side edge of the top ring, and screw caps are spirally sleeved at the top ends of the screw rods;

the utility model discloses a top ring of rotary compressor, including the underframe, the inboard center department of top ring is provided with changes the board, it has a plurality of branches to change the board surface to run through, and the equal fixedly connected with clamp plate in branch top and bottom, change board top surface center department fixedly connected with cylinder one end, and cylinder output and top clamp plate bottom surface fixed connection, bottom clamp plate bottom surface is connected with the soldered connection, the underframe inboard is provided with a plurality of splint, and the soldered connection bottom corresponds the setting with the inboard of a plurality of splint.

Further, it is inside that commentaries on classics board and apical ring are in same horizontal plane, the circumference side of commentaries on classics board is provided with the annular, the annular inboard is provided with a plurality of sliders, the slider lateral surface is provided with the kelly, and the kelly runs through the apical ring, the kelly passes through slider and annular sliding connection.

Further, the splint medial surface is provided with the inclined plane, the inclined plane top flushes with splint medial surface top side, and the inclined plane bottom is in the splint inboard, the inclined plane middle part is provided with first draw-in groove, and a plurality of splint all have the welded plate through first draw-in groove centre gripping.

Further, splint lateral surface both sides all are provided with the limiting plate, are connected with two gag lever posts between two limiting plates, and the gag lever post surface at top cup joints the revolving rack bottom, and the revolving rack top rotates with the mount of apical ring bottom surface to be connected, revolving rack and splint one-to-one, and revolving rack and kelly one-to-one set up.

Further, two the limiting plate inboard all is provided with the fly leaf, the fly leaf slides and cup joints in the gag lever post surface, the spring has been cup jointed on the gag lever post surface, and the spring both ends respectively with two fly leaf medial surface fixed connection, the spring and the revolving rack bottom fixed connection at top, and the revolving rack bottom connects in the gag lever post center department at top through the spring cover at top.

Further, the fly leaf side is provided with the dead lever, the dead lever surface has cup jointed the commentaries on classics piece, the slope of commentaries on classics piece one end terminal surface sets up, and changes a terminal surface top and bottom and all with adjustable shelf fixed connection, and the adjustable shelf rotates through commentaries on classics piece and dead lever to be connected, the top surface and the bottom surface of adjustable shelf all are provided with the spout, and the vertical relative setting of two spouts.

Furthermore, a limiting frame is arranged at the outer side part of the clamping plate, the center of the limiting frame is fixedly connected with the inner side wall of the bottom frame, two ends of the limiting frame are respectively arranged corresponding to the two movable frames, two frame plates are arranged at two ends of the limiting frame, the two frame plates are respectively positioned at the top and the bottom of the movable frame, the two frame plates are fixedly connected through a movable rod, the movable rod penetrates through the two sliding grooves, and the movable rod is in sliding connection with the sliding grooves.

Further, the movable rod surface has cup jointed changes the cover, it is provided with the perpendicular groove that a plurality of equidistance were arranged to change the cover lateral surface, it has all cup jointed the adapter sleeve to change cover top and bottom, the sliding cup joint in commentaries on classics cover surface of adapter sleeve medial extremity, and the end spiral of adapter sleeve outside cup joints in the movable rod surface, and the internal thread opposite direction of two adapter sleeves, and two adapter sleeves correspond with the top and the bottom of adjustable shelf respectively.

Further, the bottom surface of the inner side of the bottom frame is provided with a plurality of second clamping grooves, the clamping plates correspond to the second clamping grooves one to one, the bottom ends of the clamping plates are located inside the second clamping grooves, and the bottom ends of the inclined planes are not in contact with the bottom surface of the inner side of the bottom frame.

The invention has the technical effects and advantages that:

1. the invention drives the movable plate to move by using the limiting plate and the limiting rod by screwing the rotating sleeve, the movable plate is limited by using the spring, the movable plate moves on the surface of the movable rod by using the chute on the surface of the movable frame, the movable frame rotates on the surface of the fixed rod by using the rotating block in the moving process, the mutual distance between the two rotating blocks is kept unchanged in the rotating process of the movable frame until the clamping plate moves to a proper position, the rotating sleeve is rotated reversely, the two fastening sleeves are kept away from each other in the rotating process by using the vertical groove and the movable rod until the two fastening sleeves are respectively tightly attached to the bottom surface of the top of the movable frame and the top surface of the bottom of the movable frame, so that the position of the clamping plate at the top of the second clamping groove is limited, and different square welding plates can be conveniently placed on the tops of the inner sides of the plurality of clamping plates correspondingly, the adaptability of the splint is improved.

2. According to the invention, the side edges of the welding plate are respectively correspondingly attached to the tops of the inclined surfaces of the plurality of clamping plates, the welding plate is pressed downwards, the side edges of the welding plate slide on the inclined surfaces of the clamping plates at the moment, the plurality of clamping plates are separated from each other by the inclined surfaces when the welding plate moves downwards, the clamping plates stop moving after the side edges of the welding plate move into the first clamping groove, the plurality of clamping plates clamp the welding plate by using the springs at the moment, the limitation on the welding plate is completed, the nut is rotated, the screw effect of the nut and the screw rod enables the top ring to move downwards, the top ring moves downwards so that the clamping plates are pushed to move by using the rotating frame and the limiting rod, the clamping effect of the inner side surfaces of the clamping plates and the side edges of the welding plate is further increased, the clamping effect of the welding plate on the inner side of the first clamping groove is ensured, and the welding plate is prevented from moving.

3. According to the invention, the rotating plate slides on the surface of the sliding block by utilizing the ring groove through rotating the rotating plate until the positions of the two welding heads respectively correspond to the positions of two ends of the inductor. When the inductor is not positioned at the right bottom of the welding head, the rotating plate limits the sliding block by using the ring groove, the rotating plate is moved, and the rotating plate drives the clamping rod to move on the inner side of the top ring by using the sliding block; when the commentaries on classics board moves to the right, the slider on left side and right side moves to the right according to changeing the board synchronization, and the kelly on left side and right side all moves to the right in the apical ring inboard, prescribes a limit to the kelly of front side and rear side for the slider of front side and rear side is close to each other at the in-process that the commentaries on classics board moved to the right, and makes things convenient for the soldered connection to weld the inductance of different positions on the welding plate surface inside being in the annular all the time.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 shows a schematic overall perspective view of an embodiment of the present invention;

FIG. 2 is a schematic view of a connection structure of a rotating plate and a supporting rod according to an embodiment of the invention;

FIG. 3 shows an overall top view schematic of an embodiment of the present invention;

figure 4 shows a schematic perspective view of the bottom frame inner part according to the embodiment of the invention;

in the figure: 1. a bottom frame; 2. a top ring; 3. a screw; 4. a nut; 5. rotating the plate; 6. a strut; 7. pressing a plate; 8. a cylinder; 9. welding a head; 10. a splint; 11. a ring groove; 12. a slider; 13. a clamping rod; 14. a bevel; 15. a first card slot; 16. a limiting plate; 17. a limiting rod; 18. rotating the frame; 19. a fixed mount; 20. a movable plate; 21. a spring; 22. fixing the rod; 23. rotating the block; 24. a movable frame; 25. a chute; 26. a limiting frame; 27. a movable rod; 28. rotating the sleeve; 29. fastening sleeves; 30. and a second card slot.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

The invention provides a flexible hot-pressing shaping and welding mechanism for inductance production, which comprises a bottom frame 1, wherein a top ring 2 is arranged at the top of the bottom frame 1, a plurality of screw rods 3 are arranged on the side edge of the top of the bottom frame 1, the top ends of the screw rods 3 penetrate through the side edge of the top ring 2, and screw caps 4 are spirally sleeved at the top ends of the screw rods 3; 2 inboard center departments of apical ring are provided with

changes board

5, 5 surface penetrations of commentaries on classics board have a plurality of branches 6, and the equal fixedly connected with clamp plate 7 in branch 6 top and bottom, 5 top surface centers of commentaries on classics board department fixedly connected with cylinder 8 one end, and 8 output of cylinder and 7 bottom surfaces fixed connection of top clamp plate, 7 bottom surfaces of bottom clamp plate are connected with soldered connection 9, 1 inboard of underframe is provided with a plurality of splint 10, and soldered connection 9 bottom corresponds the setting with the inboard of a plurality of splint 10. Splint 10 can utilize gag lever post 17 to drive the removal of revolving rack 18 bottom being close to the in-process that limits 26, because the screw rod 3 is to the injecing of

apical ring

2, 18 bottoms of revolving rack rotate on gag lever post 17 surface this moment, 18 tops of revolving rack rotate on mount 19 surface, revolving rack 18 rotates this moment so that apical ring 2 shifts up on the screw rod 3 surface, through the injecing of a plurality of screws 3 and revolving rack 18, make things convenient for the plane of apical ring 2 place to be parallel with the inboard bottom surface place plane of underframe 1 all the time, and a plurality of revolving racks 18 further improve splint 10 at the inside stability of underframe 1, thereby guaranteed the stability of welded plate between a plurality of splint 10.

In fig. 1, the rotating plate 5 and the top ring 2 are located in the same horizontal plane, the circumferential side face of the rotating plate 5 is provided with an annular groove 11, the inner side of the annular groove 11 is provided with a plurality of sliding blocks 12, the outer side face of each sliding block 12 is provided with a clamping rod 13, the clamping rod 13 penetrates through the top ring 2, and the clamping rod 13 is connected with the annular groove 11 in a sliding mode through the sliding blocks 12. And rotating the rotating plate 5, wherein the rotating plate 5 slides on the surface of the sliding block 12 by using the annular groove 11 until the positions of the two welding heads 9 respectively correspond to the positions of two ends of the inductor. When the inductor is not positioned at the bottom of the welding head 9, the rotating plate 5 limits the sliding block 12 by using the ring groove 11, the rotating plate 5 is moved, and the rotating plate 5 drives the clamping rod 13 to move on the inner side of the top ring 2 by using the sliding block 12. When the rotating plate 5 moves to the right, the sliding blocks 12 on the left side and the right side move to the right synchronously according to the rotating plate 5, the clamping rods 13 on the left side and the right side all move to the right in the inner side of the top ring 2, the clamping rods 13 on the front side and the rear side are limited, the sliding blocks 12 on the front side and the rear side are close to each other in the process of moving to the right of the rotating plate 5, the sliding blocks 12 on the front side and the rear side are always in the ring grooves 11, and the welding head 9 is convenient to weld inductors at different positions on the surface of a welding plate.

In fig. 4, the inner side surface of the clamping plate 10 is provided with an inclined surface 14, the top of the inclined surface 14 is flush with the top side edge of the inner side surface of the clamping plate 10, the bottom of the inclined surface 14 is located on the inner side of the clamping plate 10, a first clamping groove 15 is formed in the middle of the inclined surface 14, and the plurality of clamping plates 10 are clamped by the first clamping grooves 15. Keep flat the welded plate at the inboard top of a plurality of splint 10, make the side of welded plate correspond the laminating with the inclined plane 14 top of a plurality of splint 10 respectively, push down the welded plate, the side of welded plate slides on the inclined plane 14 surface of splint 10 this moment, because the slope setting of inclined plane 14, utilize inclined plane 14 to make a plurality of splint 10 alternate segregation when the welded plate moves down, after the welded plate side moves inside first draw-in groove 15, splint 10 stop movement, a plurality of splint 10 all utilize spring 21 to carry out the centre gripping to the welded plate this moment, accomplish the injecing to the welded plate.

In fig. 1, fig. 3 and fig. 4, splint 10 lateral surface both sides all are provided with limiting plate 16, are connected with two gag lever posts 17 between two limiting plates 16, and the gag lever post 17 surface at top cup joints 18 bottoms of revolving rack, and the 18 tops of revolving rack rotate with the mount 19 of top ring 2 bottom surface and be connected, revolving rack 18 and splint 10 one-to-one, and revolving rack 18 and kelly 13 one-to-one setting. The inner sides of the two limiting plates 16 are provided with movable plates 20, the movable plates 20 are slidably sleeved on the surfaces of the limiting rods 17, the surfaces of the limiting rods 17 are sleeved with springs 21, two ends of each spring 21 are fixedly connected with the inner side surfaces of the two movable plates 20 respectively, the springs 21 at the tops are fixedly connected with the bottom ends of the rotating frames 18, and the bottoms of the rotating frames 18 are sleeved on the centers of the limiting rods 17 at the tops through the springs 21 at the tops. After welding plate is injectd to a plurality of splint 10, if the length of welding plate is different, then only two relative splint 10 can carry out the centre gripping to the both sides limit of welding plate, rotate nut 4, nut 4 makes the apical ring 2 move down with the spiral effect of screw rod 3, thereby apical ring 2 moves down utilizes swivel mount 18 and gag lever post 17 to promote splint 10 and removes, and then increases the centre gripping effect of splint 10 medial surface and welding plate side, guarantee the welding plate at the inboard centre gripping effect of first draw-in groove 15, avoid the welding plate to remove.

In fig. 3 and 4, the side of the movable plate 20 is provided with a fixing rod 22, the surface of the fixing rod 22 is sleeved with a rotating block 23, one end face of the rotating block 23 is inclined, the top and the bottom of the end face of the rotating block 23 are fixedly connected with a movable frame 24, the movable frame 24 is rotatably connected with the fixing rod 22 through the rotating block 23, the top surface and the bottom surface of the movable frame 24 are provided with sliding grooves 25, and the two sliding grooves 25 are vertically and oppositely arranged. The outer side of the clamping plate 10 is provided with a limiting frame 26, the center of the limiting frame 26 is fixedly connected with the inner side wall of the bottom frame 1, two ends of the limiting frame 26 are respectively arranged corresponding to the two movable frames 24, two frame plates are respectively arranged at two ends of the limiting frame 26, the two frame plates are respectively arranged at the top and the bottom of the movable frames 24, the two frame plates are fixedly connected through a movable rod 27, the movable rod 27 penetrates through the two sliding grooves 25, and the movable rod 27 is slidably connected with the sliding grooves 25. The splint 10 utilizes the limiting plate 16 and the limiting rod 17 to drive the movable plate 20 to gradually approach the limiting frame 26, the rotating block 23 and the movable frame 24 rotate in the moving process of the splint 10, the rotating block 23 rotates on the surface of the fixed rod 22, the movable frame 24 rotates on the surface of the movable rod 27, as the rotating sleeve 28 utilizes the two fastening sleeves 29, the two ends of the limiting frame 26 are respectively limited with the two movable frames 24, and the friction force between the fastening sleeves 29 and the movable frame 24 is utilized to prevent the movable frame 24 from sliding at the end part of the limiting frame 26. The rotating block 23 rotates to drive the movable plates 20 to slide on the surface of the limiting rod 17 by using the fixed rod 22, the two movable plates 20 extrude the spring 21 in the sliding process, and the clamping force of the clamping plate 10 on the outer side edge of the welding plate is improved by using the elastic force of the spring 21.

In fig. 4, the movable rod 27 surface has cup jointed changes cover 28, it is provided with the perpendicular groove that a plurality of equidistance were arranged to change cover 28 lateral surface, change cover 28 top and bottom and all cup jointed adapter sleeve 29, adapter sleeve 29 medial extremity slides and cup joints in changeing cover 28 surface, and adapter sleeve 29 outside end spiral cover in movable rod 27 surface, and the internal thread opposite direction of two adapter sleeves 29, and two adapter sleeves 29 correspond with the top and the bottom of adjustable shelf 24 respectively. Screwing the rotating sleeve 28, enabling the two fastening sleeves 29 to approach each other by using the rotation of the rotating sleeve 28, at the moment, separating the two fastening sleeves 29 from the top and the bottom of the movable frame 24 respectively, pushing the clamping plate 10 to move, enabling the clamping plate 10 to drive the movable plate 20 to move by using the limiting plate 16 and the limiting rod 17, limiting the movable plate 20 by using the spring 21, enabling the movable plate 20 to move on the surface of the movable rod 27 by using the sliding groove 25 on the surface of the movable frame 24, enabling the movable frame 24 to rotate on the surface of the fixed rod 22 by using the rotating block 23 in the moving process, keeping the mutual distance between the two rotating blocks 23 unchanged in the rotating process of the movable frame 24 until the clamping plate 10 moves to a proper position, reversely rotating the rotating sleeve 28, enabling the two fastening sleeves 29 to be far away from each other in the rotating process by using the vertical groove and the movable rod 27 until the two fastening sleeves 29 are tightly attached to the top bottom surface and the bottom surface of the movable frame 24 respectively, thereby limiting the position of the clamping plate 10 on the top of the second clamping groove 30, make things convenient for the inboard top of a plurality of splint 10 to correspond and place different square welded plates, improved splint 10's suitability.

In fig. 1, 3 and 4, a plurality of second locking grooves 30 are formed in the bottom surface of the inner side of the bottom frame 1, the clamping plates 10 correspond to the second locking grooves 30 one by one, the bottom ends of the clamping plates 10 are located inside the second locking grooves 30, and the bottom ends of the inclined surfaces 14 are not in contact with the bottom surface of the inner side of the bottom frame 1. When the bottom end of the clamping plate 10 slides on the top surface of the second clamping groove 30, the position of the clamping plate 10 is limited by the second clamping groove 30, the clamping plate 10 is prevented from swaying arbitrarily, and the stability of the clamping plate 10 on the inner side of the bottom frame 1 is improved.

The working principle of the invention is as follows:

referring to the attached drawings 1-4 of the specification, when an inductor needs to be welded on a welding plate, the welding plate needs to be limited firstly, the welding plate is horizontally placed at the top of the inner sides of a plurality of clamping plates 10, the side edges of the welding plate are correspondingly attached to the tops of inclined surfaces 14 of the clamping plates 10 respectively, the welding plate is pressed downwards, the side edges of the welding plate slide on the surfaces of the inclined surfaces 14 of the clamping plates 10 at the moment, due to the inclined surfaces 14, the inclined surfaces 14 are used for separating the clamping plates 10 when the welding plate moves downwards, the bottom ends of the clamping plates 10 slide on the top surfaces of second clamping grooves 30, the positions of the clamping plates 10 are limited by the second clamping grooves 30, and the clamping plates 10 are prevented from rocking arbitrarily.

Before placing the welding plate, thereby can be according to the actual appearance adjustment splint 10's of welding plate position, change cover 28 in movable rod 27 surface pivoted, change cover 28 and utilize a plurality of perpendicular grooves to drive two adapter sleeves 29 and rotate on movable rod 27 surface simultaneously, because two adapter sleeves 29 all with movable rod 27 threaded connection, and the internal screw thread opposite direction of two adapter sleeves 29, when changeing cover 28 and driving two adapter sleeves 29 synchronous rotations, two adapter sleeves 29 keep away from each other or are close to at movable rod 27 surface pivoted in-process. Screwing the rotating sleeve 28, enabling the two fastening sleeves 29 to approach each other by using the rotation of the rotating sleeve 28, at the moment, separating the two fastening sleeves 29 from the top and the bottom of the movable frame 24 respectively, pushing the clamp plate 10 to move, enabling the clamp plate 10 to drive the movable plate 20 to move by using the limiting plate 16 and the limiting rod 17, limiting the movable plate 20 by using the spring 21, enabling the movable plate 20 to move on the surface of the movable rod 27 by using the sliding groove 25 on the surface of the movable frame 24, enabling the movable frame 24 to rotate on the surface of the fixed rod 22 by using the rotating block 23 in the moving process, keeping the mutual distance between the two rotating blocks 23 unchanged in the rotating process of the movable frame 24 until the clamp plate 10 moves to a proper position, reversely rotating the rotating sleeve 28, enabling the two fastening sleeves 29 to be far away from each other in the rotating process by using the vertical groove and the movable rod 27 until the two fastening sleeves 29 are respectively attached to the top bottom surface and the bottom surface of the movable frame 24, and limiting the position of the clamp plate 10 on the top of the second clamping groove 30 by using the friction force between the fastening sleeve 29 and the movable frame 24, make things convenient for the inboard top of a plurality of splint 10 to correspond and place different square welded plates, improved splint 10's suitability.

The welding plate is pressed downwards continuously, at the moment, the clamping plate 10 is gradually close to the limiting frame 26, the clamping plate 10 drives the movable plate 20 to be gradually close to the limiting frame 26 by using the limiting plate 16 and the limiting rod 17, the rotating block 23 and the movable frame 24 rotate in the moving process of the clamping plate 10, the rotating block 23 rotates on the surface of the fixed rod 22, the movable frame 24 rotates on the surface of the movable rod 27, as the rotating sleeve 28 utilizes the two fastening sleeves 29, the two ends of the limiting frame 26 are respectively limited with the two movable frames 24, and the friction force between the fastening sleeves 29 and the movable frames 24 is utilized to prevent the movable frames 24 from sliding at the ends of the limiting frame 26. The rotating block 23 rotates and utilizes the fixed rod 22 to drive the movable plates 20 to slide on the surface of the limiting rod 17, the two movable plates 20 extrude the spring 21 in the sliding process, the elastic force of the spring 21 is utilized to improve the clamping force of the clamping plates 10 on the outer side edge of the welding plate, after the side edge of the welding plate moves to the inside of the first clamping groove 15, the clamping plates 10 stop moving, the clamping plates are clamped by the spring 21 through the plurality of clamping plates 10, and the limitation on the welding plate is completed.

After the inductor is placed at the top of the welding plate, the positions of the welding joints 9 are adjusted according to the positions of the two ends of the inductor, the rotating plate 5 is rotated at the moment, the rotating plate 5 slides on the surface of the sliding block 12 by using the annular groove 11 until the positions of the two welding joints 9 respectively correspond to the positions of the two ends of the inductor. When the inductor is not positioned at the bottom of the welding head 9, the rotating plate 5 limits the sliding block 12 by using the ring groove 11, the rotating plate 5 is moved, and the rotating plate 5 drives the clamping rod 13 to move on the inner side of the top ring 2 by using the sliding block 12. When the rotating plate 5 moves to the right, the sliding blocks 12 on the left side and the right side synchronously move to the right according to the rotating plate 5, the clamping rods 13 on the left side and the right side move to the right inside the top ring 2, the clamping rods 13 on the front side and the rear side are limited, so that the sliding blocks 12 on the front side and the rear side are close to each other in the process of moving to the right of the rotating plate 5, and the sliding blocks 12 on the front side and the rear side are always positioned inside the ring grooves 11. Utilize the removal and the rotation of commentaries on classics board 5, conveniently make soldered connection 9 bottom be in the inductance all the time directly over, connect power supply with soldered connection 9, mains operated makes soldered connection 9's temperature rise, start cylinder 8 this moment, the work of cylinder 8 makes the clamp plate 7 at top move down, the clamp plate 7 at top utilizes branch 6 to make the clamp plate 7 of bottom drive soldered connection 9 move down in step, until soldered connection 9 contacts the inductance both ends, utilize high temperature to make the connection tin bar of inductance melt and with welded plate fixed connection, thereby accomplish the welding to the inductance.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. The utility model provides an inductance production is with flexible hot pressing plastic welding mechanism which characterized in that: the device comprises a bottom frame (1), wherein a top ring (2) is arranged at the top of the bottom frame (1), a plurality of screw rods (3) are arranged on the side edge of the top of the bottom frame (1), the top ends of the screw rods (3) penetrate through the side edge of the top ring (2), and screw caps (4) are spirally sleeved at the top ends of the screw rods (3); top ring (2) inboard center department is provided with changes board (5), it has a plurality of branches (6) to change board (5) surface to run through, and branch (6) top and the equal fixedly connected with clamp plate (7) in bottom, change board (5) top surface center fixedly connected with cylinder (8) one end, and cylinder (8) output and top clamp plate (7) bottom surface fixed connection, bottom clamp plate (7) bottom surface is connected with soldered connection (9), underframe (1) inboard is provided with a plurality of splint (10), and soldered connection (9) bottom corresponds the setting with the inboard of a plurality of splint (10).

2. The flexible hot-press shape welding mechanism for inductance production according to claim 1, characterized in that: the rotating plate (5) and the top ring (2) are located in the same horizontal plane, a ring groove (11) is formed in the circumferential side face of the rotating plate (5), a plurality of sliding blocks (12) are arranged on the inner side of the ring groove (11), clamping rods (13) are arranged on the outer side faces of the sliding blocks (12), the clamping rods (13) penetrate through the top ring (2), and the clamping rods (13) are connected with the ring groove (11) in a sliding mode through the sliding blocks (12).

3. The flexible hot-press shape welding mechanism for inductance production according to claim 1, characterized in that: the inner side face of the clamping plate (10) is provided with an inclined plane (14), the top of the inclined plane (14) is flush with the side edge of the top of the inner side face of the clamping plate (10), the bottom of the inclined plane (14) is located on the inner side of the clamping plate (10), a first clamping groove (15) is formed in the middle of the inclined plane (14), and the clamping plates are clamped by the clamping grooves (15).

4. The flexible hot-press shape welding mechanism for inductance production according to claim 2, characterized in that: limiting plates (16) are arranged on two sides of the outer side face of the clamping plate (10), two limiting rods (17) are connected between the two limiting plates (16), the bottom end of a rotating frame (18) is sleeved on the surface of the limiting rod (17) at the top, the top end of the rotating frame (18) is rotatably connected with a fixing frame (19) on the bottom face of the top ring (2), the rotating frame (18) corresponds to the clamping plate (10) one to one, and the rotating frame (18) corresponds to the clamping rods (13) one to one.

5. The flexible hot-press shape welding mechanism for inductance production according to claim 4, characterized in that: the inner sides of the two limiting plates (16) are respectively provided with a movable plate (20), the movable plates (20) are slidably sleeved on the surfaces of the limiting rods (17), the surfaces of the limiting rods (17) are sleeved with springs (21), two ends of each spring (21) are respectively fixedly connected with the inner side surfaces of the two movable plates (20), the springs (21) at the tops are fixedly connected with the bottom ends of the rotating frames (18), and the bottoms of the rotating frames (18) are sleeved on the centers of the limiting rods (17) at the tops through the springs (21) at the tops.

6. The flexible hot-press shape welding mechanism for inductance production according to claim 5, characterized in that: the side of the movable plate (20) is provided with a fixed rod (22), the surface of the fixed rod (22) is sleeved with a rotating block (23), one end face of the rotating block (23) is obliquely arranged, the top and the bottom of the end face of the rotating block (23) are fixedly connected with a movable frame (24), the movable frame (24) is rotatably connected with the fixed rod (22) through the rotating block (23), the top surface and the bottom surface of the movable frame (24) are provided with sliding grooves (25), and the two sliding grooves (25) are vertically arranged oppositely.

7. The flexible hot-press shape welding mechanism for inductance production according to claim 6, characterized in that: splint (10) outside portion is provided with limit frame (26), and limit frame (26) center department and underframe (1) inside wall fixed connection, limit frame (26) both ends and correspond the setting with two adjustable shelf (24) respectively, and limit frame (26) both ends and all be provided with two frame plates, two frame plates are in the top and the bottom of adjustable shelf (24) respectively, and two frame plates pass through movable rod (27) fixed connection, and movable rod (27) run through two spout (25), movable rod (27) and spout (25) sliding connection.

8. The flexible hot-press shape welding mechanism for inductance production according to claim 7, characterized in that: the surface of the movable rod (27) is sleeved with a rotating sleeve (28), the outer side surface of the rotating sleeve (28) is provided with a plurality of vertical grooves which are arranged at equal intervals, fastening sleeves (29) are sleeved at the top end and the bottom of the rotating sleeve (28), the inner side ends of the fastening sleeves (29) are sleeved on the surface of the rotating sleeve (28) in a sliding mode, the outer side ends of the fastening sleeves (29) are spirally sleeved on the surface of the movable rod (27), the internal thread directions of the two fastening sleeves (29) are opposite, and the two fastening sleeves (29) correspond to the top and the bottom of the movable frame (24) respectively.

9. The flexible hot-press shape welding mechanism for inductance production according to claim 3, characterized in that: a plurality of second clamping grooves (30) are formed in the bottom surface of the inner side of the bottom frame (1), the clamping plates (10) correspond to the second clamping grooves (30) one to one, the bottom ends of the clamping plates (10) are located inside the second clamping grooves (30), and the bottom ends of the inclined planes (14) are not in contact with the bottom surface of the inner side of the bottom frame (1).