CN214068555U - Magnetic core rubber coating device of flat-plate transformer - Google Patents

Abstract

The utility model belongs to the technical field of rubber coating equipment for transformers, in particular to a magnetic core rubber coating device of a flat-plate transformer, which comprises a frame, a rubber coating mechanism, a double-module moving mechanism and a discharge frame, wherein the discharge frame is fixedly arranged at the top of the frame, the top of the frame is provided with a first mounting frame and a second mounting frame, the first mounting frame is arranged across the material placing frame, the second mounting frame is fixedly arranged on one side of the material placing frame, the rubber coating mechanism is fixedly arranged on the second mounting frame, the double-module moving mechanism comprises a first fixing mechanism and a second fixing mechanism, the first fixing mechanism is slidably arranged on the first mounting frame, the second fixing mechanism is slidably arranged on the machine frame, and the first fixing mechanism and the second fixing mechanism are respectively positioned at two sides of the material placing frame, the rubber coating mechanism is positioned above the second fixing mechanism, and the double-module moving mechanism is used for realizing automatic feeding and discharging of workpieces at three positions. Through above-mentioned equipment, realize the full automatization material loading unloading of transformer rubber coating, improve rubber coating efficiency.

Description

Magnetic core rubber coating device of flat-plate transformer

Technical Field

The utility model belongs to the technical field of the rubber coating equipment for the transformer, especially, relate to a magnetic core rubber coating device of planar transformer.

Background

In the production of transformer, need to adorn a pair of E type magnetic core on the skeleton to fix with the sticky tape winding, the creepage distance from coil winding to magnetic core can effectually be increased to the sticky tape of pasting on the magnetic core of transformer, among the prior art, the sticky tape mode that adopts usually is for adopting the mode of bare-handed operation to paste the sticky tape of fixed length on the magnetic core of transformer, therefore the relative position of sticky tape on the transformer relies on the human eye to control, adopt the method among the prior art to paste and cover magnetic core sticky tape of transformer, because the instability of artificial operation, produce the phenomenon that the rubberizing is cheap easily, thereby influence the security performance of transformer, the process of bare-handed operation is loaded down with trivial details simultaneously, production efficiency is lower technical problem.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a magnetic core rubber coating device of planar transformer aims at solving the lower technical problem of transformer rubber coating efficiency among the prior art.

In order to achieve the above object, an embodiment of the present invention provides a magnetic core encapsulation device for a planar transformer, including a frame, an encapsulation mechanism, a dual module moving mechanism and a material placing frame, wherein the material placing frame is fixedly mounted on the top of the frame, the top of the frame is provided with a first mounting frame and a second mounting frame, the first mounting frame spans across the material placing frame, the second mounting frame is fixedly mounted on one side of the material placing frame, the encapsulation mechanism is fixedly mounted on the second mounting frame, the dual module moving mechanism includes a first fixing mechanism and a second fixing mechanism, the first fixing mechanism is slidably mounted on the first mounting frame, the second fixing mechanism is slidably mounted on the frame, the first fixing mechanism and the second fixing mechanism are respectively located on two sides of the material placing frame, the encapsulation mechanism is located above the second fixing mechanism, the double-module moving mechanism is used for realizing automatic feeding and discharging of workpieces at three positions.

Preferably, first fixed establishment includes fixed plate, first slide rail, movable plate, first Y axle cylinder, Z axle cylinder and follows fixed subassembly, the fixed plate fixed mounting be in on the first mount, first slide rail fixed mounting be in the fixed plate top, just first slide rail is followed the direction setting of blowing frame, movable plate slidable mounting in on the first slide rail, first Y axle cylinder fixed mounting be in the bottom of movable plate, just the removal end of Y axle cylinder with the side butt of fixed plate is used for promoting the movable plate is in move on the first slide rail, Z axle cylinder fixed mounting be in the movable plate top, just follow fixed subassembly fixed mounting in the removal end of Z axle cylinder.

Preferably, the second fixing mechanism comprises a second slide rail, a moving plate, a second Y-axis cylinder, a mounting plate, a rotary fixing component and a motor, the second slide rail is fixedly arranged on the rack, the moving plate is slidably arranged on the second slide rail, the second Y-axis cylinder is fixedly arranged on the rack, and the moving end of the second Y-axis cylinder is fixedly connected with the moving plate to drive the moving plate to move on the second slide rail, the mounting plate is fixedly arranged on the moving plate, the rotary fixing component is arranged on the side surface of the mounting plate, one end of the rotating shaft of the rotating and fixing component penetrates through the mounting plate, the motor is fixed on the other side surface of the mounting plate, the output end of the motor is connected with the rotating shaft of the rotary fixing component through a rotating belt, and the rotating shaft of the rotary fixing component is driven to rotate.

Preferably, the following fixing component and the rotating fixing component are arranged oppositely, and clamping and rotating operation is achieved on the workpiece.

Preferably, the first fixing mechanism and the second fixing mechanism are further provided with an X-axis cylinder for driving the first fixing mechanism and the second fixing mechanism to move in the X-axis direction for clamping and releasing the workpiece.

Preferably, the number of the clamping parts oppositely arranged on the following fixing component and the rotating fixing component is the same, so that a plurality of workpieces can be simultaneously processed.

Preferably, the rubber coating mechanism comprises an assembly plate, a material placing disc and a winding mechanism, the assembly plate is slidably mounted on the second mounting frame, the material placing disc is rotatably mounted on the assembly plate, the winding mechanism is fixedly mounted on the assembly plate, the material placing disc and the winding mechanism are matched with each other to form a plurality of material placing discs, and the number of the material placing discs and the number of the winding mechanism are the same as the number of the clamping parts, so that the rubber coating mechanism is used for winding the adhesive tape on all clamped parts simultaneously.

Preferably, the assembly plate is further provided with guide shafts which are matched with the material placing discs, and each guide shaft is positioned between each material placing disc and each winding mechanism and is used for guiding the adhesive tape on each material placing disc into each winding mechanism respectively for workpiece winding.

Preferably, the winding mechanism is provided with a body, a roller, a cutter and a tape clamp capable of moving up and down, the roller is rotatably mounted at the bottom of the body, the tape clamp is movably mounted on the side surface of the body, the cutter is fixedly mounted on the tape clamp, and the cutter is located between the tape clamp and the body and used for cutting off the tape.

Preferably, the material placing discs are arranged on the assembling plate in an up-and-down staggered manner.

The embodiment of the utility model provides a above-mentioned one or more technical scheme in planar transformer's magnetic core mucilage binding is put has one of following technological effect at least:

the utility model discloses a magnetic core rubber coating device of a flat-plate transformer, which comprises a frame, a rubber coating mechanism, a double-module moving mechanism and a material placing frame, wherein, when assembling, the material placing frame is fixedly arranged at the top of the frame, the material placing frame stretches across the surface of the top of the frame, a first mounting frame and a second mounting frame are arranged on the frame, the material placing frame passes through the first mounting frame and is positioned at the lower position of the first mounting frame, the second mounting frame is arranged at one side of the material placing frame, the first fixing mechanism in the double-module moving mechanism is slidably arranged on the first mounting frame, the second fixing mechanism is arranged on the frame in east China, the first fixing mechanism and the second fixing mechanism are respectively arranged at the two sides of the material placing frame, the workpiece placed on the material placing frame is relatively clamped and moved, the material coating mechanism is assembled on the second mounting frame and is positioned above the second fixing mechanism, the rubber coating treatment is carried out on the moved workpiece, the double-module moving mechanism is arranged, after a module moves a workpiece to a rubber coating position to complete rubber coating, the module continues to move forwards to clamp the workpiece, the other module moves forwards to clamp the workpiece after rubber coating is completed, the workpiece is moved backwards to be conveyed, the previous module repeats the operation, and automatic feeding and discharging operation is achieved in the movement of three positions. Through above-mentioned equipment, realize the full automatization material loading unloading of transformer rubber coating, improve rubber coating efficiency.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive labor.

Fig. 1 is an effect diagram of a magnetic core rubber coating device of a planar transformer according to an embodiment of the present invention.

Fig. 2 the embodiment of the utility model provides an effect picture of rubber coating mechanism of magnetic core rubber coating device of planar transformer.

Fig. 3 is an effect diagram of a dual-module moving mechanism of a magnetic core encapsulation device of a planar transformer according to an embodiment of the present invention.

Fig. 4 the embodiment of the utility model provides an effect picture of winding mechanism of rubber coating mechanism of magnetic core rubber coating device of planar transformer.

Wherein, in the figures, the respective reference numerals:

10-frame 11-first mounting frame 12-second mounting frame

20-rubber coating mechanism 21-assembly plate 22-discharging disc

23-winding mechanism 30-double module moving mechanism 31-first fixing mechanism

32-second fixing mechanism 40-discharging frame 231-body

232-roller 233-cutter 234-adhesive tape clip

311-following fixed component 321-rotating fixed component.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in fig. 1-4, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functionality throughout. The embodiments described below by referring to the drawings are exemplary and intended to explain the embodiments of the present invention and are not to be construed as limiting the present invention.

In the description of the embodiments of the present invention, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings, which is only for convenience in describing the embodiments of the present invention and simplifying the description, and do not indicate or imply that the device or element so indicated must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the embodiments of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly, e.g., as fixed or detachable connections or as an integral part; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the embodiments of the present invention can be understood by those skilled in the art according to specific situations.

In an embodiment of the present invention, as shown in fig. 1 to 3, there is provided a magnetic core encapsulation device for a planar transformer, including a frame 10, an encapsulation mechanism 20, a dual module moving mechanism 30 and a material placing frame 40, the dual module moving mechanism 30 is used for moving two sets of workpieces between different stations at the same time, the material placing frame 40 is fixedly installed on the top of the frame 10, the material placing frame 40 is in a conveyor belt form and is used for continuously conveying the workpieces to be processed, a first mounting frame 11 and a second mounting frame 12 are installed on the top of the frame 10, the first mounting frame 11 is installed across the material placing frame 40, the second mounting frame 12 is fixedly installed on one side of the material placing frame 40, the encapsulation mechanism 20 is fixedly installed on the second mounting frame 12, the dual module moving mechanism 30 includes a first fixing mechanism 31 and a second fixing mechanism 32, the first fixing mechanism 31 is slidably mounted on the first mounting frame 11, the second fixing mechanism 32 is slidably mounted on the frame 10, the first fixing mechanism 31 and the second fixing mechanism 32 are respectively located on two sides of the material placing frame 40, the first fixing mechanism 31 and the second fixing mechanism 32 are respectively slidably mounted on the first mounting frame 11 and the frame 10, the first fixing mechanism 31 and the second fixing mechanism 32 are used for achieving movement of the whole double-module moving mechanism 30 between three stations, operations of feeding, rubber coating and discharging of workpieces are achieved between the three stations, full-automatic processing is achieved, the rubber coating mechanism 20 is located above the second fixing mechanism 32, and the double-module moving mechanism 30 is used for achieving automatic feeding and discharging of the workpieces at three positions.

The utility model provides a magnetic core rubber coating device of planar transformer includes frame 10, rubber coating mechanism 20, bimodulus group moving mechanism 30 and blowing frame 40, when assembling, blowing frame 40 is fixed mounting at the top of frame 10, and blowing frame 40 stretches across the frame 10 top surface, and set up first mounting bracket 11 and second mounting bracket 12 on frame 10 again, make blowing frame 40 pass first mounting bracket 11, and be located the below position of first mounting bracket 11, and second mounting bracket 12 sets up one side at blowing frame 40, first fixed establishment 31 among bimodulus group moving mechanism 30 slidable mounting is on first mounting bracket 11, second fixed establishment 32 china east installs on frame 10, guarantee simultaneously that first fixed establishment 31 and second fixed establishment 32 are located the both sides of blowing frame 40 respectively, carry out relative centre gripping removal to the work piece of placing on blowing frame 40, rubber coating mechanism 20 assembles on second mounting bracket 12, and is located the second fixed establishment 32, carries out the rubber coating to the work piece that moves over, the setting of bimodulus group moving mechanism 30, a module moves to the rubber coating position to accomplish the rubber coating to the work piece, and this module continues to move forward and centre gripping the work piece after the rubber coating is accomplished, moves backward and carries, and the preceding module repeats the above-mentioned operation, realizes the operation of unloading in the removal of three positions automatically. Through above-mentioned equipment, realize the full automatization material loading unloading of transformer rubber coating, improve rubber coating efficiency.

In another embodiment of the present invention, as shown in fig. 1 and 3, the first fixing mechanism 31 includes a fixing plate, a first slide rail, a first moving plate, a first Y-axis cylinder, a Z-axis cylinder, and a following fixing component 311, the first slide rail is disposed along the Y-axis direction and is used for providing a moving path of the first moving plate in the Y-axis direction, a plurality of sliders are further disposed at the bottom of the first moving plate, the sliders are slidably mounted on the first slide rail to realize movement of the first moving plate in the Y-axis direction, the fixing plate is fixedly mounted on the first fixing frame, the fixing plate is fixedly mounted at the top of the first fixing frame and provides mounting positions for the first slide rail, the first moving plate, and the first Y-axis cylinder, the first slide rail is fixedly mounted at the top of the fixing plate, and the first slide rail is disposed along the direction of the discharging frame 40, so that the first slide rail is disposed along the direction of the discharging frame 40, the workpiece moving device can ensure that the workpiece is moved in the conveying direction of the material loading frame 40 under the action of the first sliding rail, the first moving plate is slidably mounted on the first sliding rail, the first Y-axis cylinder is fixedly mounted at the bottom of the first moving plate, the moving end of the Y-axis cylinder is abutted against the side face of the fixed plate and used for pushing the first moving plate to move on the first sliding rail, the Z-axis cylinder is fixedly mounted at the top of the first moving plate, the following fixing component 311 is fixedly mounted at the moving end of the Z-axis cylinder, and the upper and lower position adjustment of the following fixing component 311 is realized by arranging the Z-axis cylinder.

In another embodiment of the present invention, as shown in fig. 1 and 3, the second fixing mechanism 32 includes a second slide rail, a second moving plate, a second Y-axis cylinder, a mounting plate, a rotation fixing component 321 and a motor, the second slide rail is fixedly mounted on the frame 10, and the second slide rail is disposed along the Y-axis direction, so that the second moving plate can move on the second slide rail in the Y-axis direction, the second moving plate is slidably mounted on the second slide rail, the second Y-axis cylinder is fixedly mounted on the frame 10, and the moving end of the second Y-axis cylinder is fixedly connected to the second moving plate, so as to drive the second moving plate to move on the second slide rail, the mounting plate is fixedly mounted on the second moving plate, the rotation fixing component 321 is disposed at the side of the mounting plate, rotatory fixed subassembly 321 rotates the side that sets up at the mounting panel, makes rotatory fixed subassembly 321 can also rotate behind the fixed work piece and rotate the rubber coating with the work piece, just the pivot one end of rotatory fixed subassembly 321 is passed the mounting panel, the motor is fixed the another side of mounting panel, the output of motor with connect through the rotating band between the pivot of rotatory fixed subassembly 321, be used for driving the pivot of rotatory fixed subassembly 321 is rotated, drives a plurality of rotatory fixed subassemblies 321 through a motor and rotates, guarantees that the slew rate of each rotatory fixed subassembly 321 is unanimous, avoids appearing the error in the rubber coating process.

In another embodiment of the present invention, as shown in fig. 1 and fig. 3, the following fixing component 311 and the rotating fixing component 321 are relatively arranged, so as to realize clamping rotation operation on the workpiece, and the following fixing component 311 and the rotating fixing component 321 are relatively arranged, so that the stability of clamping the workpiece can be ensured by following the relative clamping of the fixing component 311 and the rotating fixing component 321, and meanwhile, the rotating fixing component 321 rotates, the following fixing component 311 rotates, so that the workpiece can rotate and move for the number of turns to complete the encapsulation.

In another embodiment of the present invention, the first fixing mechanism 31 and the second fixing mechanism 32 are further provided with an X-axis cylinder for driving the first fixing mechanism 31 and the second fixing mechanism 32 move in the X-axis direction for clamping and loosening the workpiece, the X-axis cylinder is provided, the first fixing mechanism 31 and the second fixing mechanism 32 are moved to the vicinity of the workpiece and then gathered together to clamp the workpiece between the first fixing mechanism 31 and the second fixing mechanism 32, after the encapsulation is completed, the first fixing mechanism 31 and the second fixing mechanism 32 are separated, and the workpiece is released and input into the next process.

In another embodiment of the present invention, as shown in fig. 1 and fig. 3, the number of the clamping components relatively arranged on the following fixing component 311 and the rotating fixing component 321 is the same, so that a plurality of workpieces can be simultaneously processed, and the number of the clamping components relatively arranged on the following fixing component 311 and the rotating fixing component 321 can be simultaneously moved to a plurality of stations and the rubber coating process can be performed, thereby further improving the rubber coating efficiency.

In another embodiment of the present invention, as shown in fig. 1-2 and 4, the encapsulating mechanism 20 includes an assembling plate 21, a material placing tray 22 and a winding mechanism 23, the assembling plate 21 is slidably mounted on the second mounting frame 12, the position of the assembling plate 21 can be adjusted, the material placing tray 22 is rotatably mounted on the assembling plate 21, the rotational mounting of the material placing tray 22 facilitates the rotation of the material placing tray 22 during the material placing process, the winding mechanism 23 is fixedly mounted on the assembling plate 21, the position of the winding mechanism 23 is fixed, the position movement during the winding process is avoided, the material placing tray 22 and the winding mechanism 23 are provided with a plurality of matching members, and the number of each material placing tray 22 and each winding mechanism 23 is the same as the number of each clamping member, the winding mechanism is used for winding adhesive tapes on all clamped components simultaneously, and the arrangement of the plurality of material placing discs 22 and the winding mechanism 23 realizes rubber coating treatment on a plurality of workpieces, so that the rubber coating efficiency of the transformer can be improved.

In another embodiment of the present invention, as shown in fig. 1 to 2 and 4, the assembly plate 21 is further provided with guide shafts paired with the material placing trays 22, each of the guide shafts is located between each of the material placing trays 22 and each of the winding mechanisms 23, and is configured to guide the adhesive tapes on each of the material placing trays 22 into each of the winding mechanisms 23 for workpiece winding, and plan the conveying direction of the adhesive tapes output from the plurality of material placing trays 22 through the arrangement of each of the guide shafts.

In another embodiment of the present invention, as shown in fig. 1-2 and 4, the winding mechanism 23 is provided with a body 231, a roller 232, a cutter 233 and a tape clamp 234 capable of moving up and down, the roller 232 is rotatably installed at the bottom of the body 231, the tape clip 234 is movably installed at a side of the body 231, the cutting knife 233 is fixedly installed on the adhesive tape clip 234, and the cutting knife 233 is located between the adhesive tape clip 234 and the body 231, for cutting the adhesive tape, changing the direction of the adhesive tape fed into the winding mechanism 23 by the roller 232, entering the adhesive tape nip 234, through the reciprocating of sticky tape clamp 234, on the one hand, through reciprocating of sticky tape clamp 234 with sticky tape free end glue on the work piece, carry out subsequent rotatory winding, on the other hand, continue to push down and drive cutter 233 and cut off the sticky tape and accomplish whole winding process.

In another embodiment of the present invention, as shown in fig. 1-2 and fig. 4, each of the material placing trays 22 are arranged in an up-down two-layer staggered manner on the assembling plate 21, and the material placing trays 22 are divided into an upper layer and a lower layer to be arranged on the assembling plate 21, so that the occupied area in a single direction can be reduced, and the layout of the tape conveying line is convenient.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a magnetic core rubber coating device of planar transformer which characterized in that: comprises a frame, a rubber coating mechanism, a double-module moving mechanism and a material placing frame, wherein the material placing frame is fixedly arranged at the top of the frame, a first mounting frame and a second mounting frame are arranged at the top of the frame, the first mounting rack is arranged across the material placing rack, the second mounting rack is fixedly arranged on one side of the material placing rack, the rubber coating mechanism is fixedly arranged on the second mounting rack, the double-module moving mechanism comprises a first fixing mechanism and a second fixing mechanism, the first fixing mechanism is slidably mounted on the first mounting frame, the second fixing mechanism is slidably mounted on the rack, and the first fixing mechanism and the second fixing mechanism are respectively positioned at two sides of the material placing frame, the rubber coating mechanism is located above the second fixing mechanism, and the double-module moving mechanism is used for achieving automatic feeding and discharging of workpieces in three positions.

2. The core encapsulated device of a planar transformer according to claim 1, wherein: first fixed establishment includes fixed plate, first slide rail, first movable plate, first Y axle cylinder, Z axle cylinder and follows fixed subassembly, the fixed plate fixed mounting be in on the first mount, first slide rail fixed mounting be in the fixed plate top, just first slide rail is followed the direction setting of blowing frame, first movable plate slidable mounting in on the first slide rail, first Y axle cylinder fixed mounting be in the bottom of first movable plate, just the removal end of Y axle cylinder with the side butt of fixed plate is used for promoting first movable plate is in move on the first slide rail, Z axle cylinder fixed mounting be in first movable plate top, just follow fixed subassembly fixed mounting in the removal end of Z axle cylinder.

3. The core encapsulated device of a planar transformer according to claim 2, wherein: the second fixing mechanism comprises a second slide rail, a second moving plate, a second Y-axis cylinder, a mounting plate, a rotary fixing component and a motor, the second slide rail is fixedly arranged on the rack, the second moving plate is slidably arranged on the second slide rail, the second Y-axis cylinder is fixedly arranged on the rack, and the moving end of the second Y-axis cylinder is fixedly connected with the second moving plate to drive the second moving plate to move on the second slide rail, the mounting plate is fixedly arranged on the second moving plate, the rotary fixing component is arranged on the side surface of the mounting plate, one end of the rotating shaft of the rotating and fixing component penetrates through the mounting plate, the motor is fixed on the other side surface of the mounting plate, the output end of the motor is connected with the rotating shaft of the rotary fixing component through a rotating belt, and the rotating shaft of the rotary fixing component is driven to rotate.

4. The core encapsulated device of a planar transformer according to claim 3, wherein: the following fixing component and the rotating fixing component are arranged oppositely to clamp and rotate the workpiece.

5. The core encapsulated device of a planar transformer according to claim 3, wherein: and the first fixing mechanism and the second fixing mechanism are also provided with X-axis cylinders for driving the first fixing mechanism and the second fixing mechanism to move in the X-axis direction for clamping and loosening workpieces.

6. The core encapsulated device of a planar transformer according to claim 5, wherein: the number of clamping parts oppositely arranged on the following fixing component and the rotating fixing component is the same, and a plurality of workpieces can be simultaneously processed.

7. The core encapsulated device of a planar transformer according to claim 6, wherein: the rubber coating mechanism comprises an assembly plate, a material discharging disc and a winding mechanism, wherein the assembly plate is slidably mounted on the second mounting frame, the material discharging disc is rotatably mounted on the assembly plate, the winding mechanism is fixedly mounted on the assembly plate, the material discharging disc and the winding mechanism are mutually matched and provided with a plurality of material discharging discs, and the number of the material discharging discs and the number of the winding mechanisms are the same as that of the clamping parts, so that rubber belts are wound on all clamped parts simultaneously.

8. The core encapsulated device of a planar transformer according to claim 7, wherein: the assembling plate is also provided with guide shafts matched with the material placing discs, and the guide shafts are positioned between the material placing discs and the winding mechanisms and are used for guiding the adhesive tapes on the material placing discs into the winding mechanisms respectively for workpiece winding.

9. The core encapsulated device of a planar transformer according to claim 7, wherein: the winding mechanism is provided with a body, a roller, a cutter and a tape clamp capable of moving up and down, the roller is rotatably mounted at the bottom of the body, the tape clamp is movably mounted on the side face of the body, the cutter is fixedly mounted on the tape clamp, and the cutter is located between the tape clamp and the body and used for cutting off a tape.

10. The core encapsulated device of a planar transformer according to claim 7, wherein: the upper layer and the lower layer of each material placing disc are arranged on the assembling plate in a staggered mode.

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