阅读说明：本技术 一种电感加工工艺及应用该工艺的收放料装置 (Inductance processing technology and material receiving and discharging device applying same ) 是由 李彬 杨小静 邹松青 魏佛民 于 2021-06-26 设计创作，主要内容包括：本申请涉及电感器加工技术领域,尤其是涉及一种电感加工工艺及应用该工艺的收放料装置,其包括移动座,所述移动座的顶部安装有储物箱,所述储物箱的一侧呈开口设置,且所述储物箱的侧壁安装有用于启闭开口的活动门,所述储物箱的顶部设置有呈竖直设置的固定架,所述固定架的一端设置为进料端,所述固定架的另一端设置为出料端,所述固定架的一侧转动安装有呈竖直设置的转动座,所述转动座可拆卸套设有料盘,所述固定架的另一侧安装有用于驱动转动座转动的驱动件。本申请具有节省烘烤机的能源消耗的效果。(The utility model belongs to the technical field of the inductor processing technique and specifically relates to a receive and release material device of inductance processing technology and applied this technology is related to, and it is including removing the seat, remove the top of seat and install the storage tank, one side of storage tank is the opening setting, just the lateral wall of storage tank is installed and is used for opening and close the open-ended dodge gate, the top of storage tank is provided with the mount that is vertical setting, the one end of mount sets up to the feed end, the other end of mount sets up to the discharge end, one side of mount is rotated and is installed the rotation seat that is vertical setting, it is equipped with the charging tray to rotate the detachable cover of seat, the opposite side of mount is installed and is used for the drive to rotate seat pivoted driving piece. This application has the effect of saving the energy consumption of roaster.)

1. The utility model provides a receive and release material device that inductance processing was used which characterized in that: including removing seat (1), storage tank (3) are installed at the top of removing seat (1), one side of storage tank (3) is the opening setting, just lateral wall of storage tank (3) is installed and is used for opening and close open-ended dodge gate (4), the top of storage tank (3) is provided with mount (5) that are vertical setting, the one end of mount (5) sets up to feed end (51), the other end of mount (5) sets up to discharge end (52), one side of mount (5) is rotated and is installed and rotate seat (6) that are vertical setting, it is equipped with charging tray (7) to rotate seat (6) and can dismantle the cover, the opposite side of mount (5) is installed and is used for the drive to rotate seat (6) pivoted driving piece.

2. The material receiving and discharging device for inductance processing according to claim 1, wherein: the material tray (7) comprises a material receiving ring (71) and two sub-discs (72), wherein the two sub-discs (72) are fixedly arranged on two sides of the material receiving ring (71) respectively, and the two sub-discs (72) are arranged in a hollow mode.

3. The material receiving and discharging device for inductance processing according to claim 2, wherein: and a chuck (9) for clamping the material belt is fixedly arranged on the outer arc surface of the material receiving ring (71).

4. The material receiving and discharging device for inductance processing according to claim 2, wherein: a plurality of air holes (15) are arranged on the two sides of the sub-disc (72) in a penetrating way.

5. The material receiving and discharging device for inductance processing according to claim 2, wherein: receive material ring (71) with rotate seat (6) cooperation of pegging graft, just the inboard of receiving material ring (71) is provided with coupling assembling (10), coupling assembling (10) with rotate seat (6) and can dismantle the connection.

6. The material receiving and discharging device for inductance processing according to claim 5, wherein: the connecting assembly (10) comprises a clamping block (101) and an inserting rod (103), a sliding groove (11) is formed in the inner side wall of the receiving ring (71), the clamping block (101) is in sliding fit with the sliding groove (11), a through groove (13) is formed in the side wall, penetrating through the groove wall of the sliding groove (11), of the receiving ring (71), the inserting rod (103) is in inserting fit with the through groove (13), when the inserting rod (103) is in inserting fit with the through groove (13), the part of the inserting rod (103) is located in the through groove (13), the other part of the inserting rod (103) extends into the sliding groove (11) and is located at the groove bottom of the sliding groove (11), and a guide inclined plane is arranged at one side, facing the sliding groove (11), of the clamping block (101) located at the groove bottom of the sliding groove (11); the side wall of the rotating seat (6) is correspondingly provided with a clamping groove (14), the clamping block (101) is in clamping fit with the clamping groove (14), and when the rotating seat (6) is in splicing fit with the material receiving ring (71), the clamping groove (14) can be aligned to and communicated with the sliding groove (11).

7. The material receiving and discharging device for inductance processing according to claim 6, wherein: the lateral wall circumference of fixture block (101) is provided with spacing platform (12), spout (11) are including sliding sub-groove (112) and spacing sub-groove (111), the notch of spacing sub-groove (111) with the inside wall of receipts material ring (71) is linked together, the tank bottom of spacing sub-groove (111) with the notch of sliding sub-groove (112) is linked together, just the width of spacing sub-groove (111) is less than the width of sliding sub-groove (112), fixture block (101) with spacing sub-groove (111) cooperation of sliding, spacing platform (12) with sliding sub-groove (112) cooperation of sliding.

8. The material receiving and discharging device for inductance processing according to claim 1, wherein: and an arc surface cover (16) used for closing the circumferential direction of the charging tray (7) is arranged at the charging tray (7).

9. The material receiving and discharging device for inductance processing according to claim 1, wherein: feed end (51) of mount (5) are the level and set up deflector (17), just deflector (17) are fixed mount (5) are installed one side of charging tray (7), the one end orientation of deflector (17) charging tray (7), guide way (18) have been seted up to the top surface of deflector (17), just the both sides cell wall of guide way (18) runs through respectively deflector (17) length direction's both sides lateral wall, just leading wheel (19) are installed in the top rotation of deflector (17).

10. An inductance processing technology applied to the receiving and discharging device for inductance processing as claimed in any one of claims 1 to 9, characterized by comprising the following steps:

s1, putting a plurality of integrated inductors which are die-cast and molded at the discharge end (52) of an inductor molding machine into a guide groove (18) of a guide plate (17) through a material belt, and then penetrating through a guide wheel (19) and putting into a material tray (7);

s2, clamping the end part of the material belt placed in the material tray (7) through a chuck (9) of the outer arc surface of the material receiving ring (71);

s3, starting a driving piece to drive the rotating seat (6) to drive the material tray (7) to rotate and wind the material belt;

s4, after the winding is finished, closing the driving piece and covering the material closing disc (7) by matching the first sub cover (161) and the second sub cover (162);

s5, pulling out the insertion rod (103) to release the connection relation between the rotating seat (6) and the material receiving ring (71), and taking out the material tray (7) and storing the material tray into the storage box (3);

s6, loading a new tray (7) and repeating the steps until the storage box (3) is full;

s7, the storage box (3) is placed into the baking machine to bake the integrated inductor by moving the movable seat (1).

Technical Field

The application relates to the technical field of inductor processing, in particular to an inductor processing technology and a material receiving and discharging device applying the technology.

Background

An inductor is a component that can convert electrical energy into magnetic energy for storage. With the development of the inductance industry and the continuous improvement of the manufacturing and research and development technologies, an integrally formed inductor appears in the inductor, which is also called as: an integral inductor. The integrated inductor comprises a magnet and a winding body, wherein the winding body is embedded in metal magnetic powder by a magnetic system and is formed by die casting.

In the related art, the integrated inductor is manufactured in batches in a factory, and when the primary die casting of the inductor forming machine is completed, the integrated inductor needs to be manufactured through the processes of baking, cutting, pin bending, oil immersion spraying, testing, packaging and the like.

Specifically, a discharge end for the inductance make-up machine of integrative inductance of die-casting is provided with roaster and cutting means, a plurality of integrative inductances through inductance make-up machine die-casting shaping can be through a material area fixed linking to each other into the strip and convey to the discharge end of inductance make-up machine, then the material area takes a plurality of integrative inductances to get into the roaster and toast, then follow closely and use cutting means, cut integrative inductance in the material area, make it separate into individual integrative inductance, buckle through the pin at last, the preparation is accomplished to processes such as immersion oil spraying and test packing.

Aiming at the related technologies, the inventor thinks that the baking machine needs to be uninterruptedly started in the baking process through the integrated inductor on the material belt die-cast by the inductor forming machine, and the energy consumption of the baking machine is greatly increased by the arrangement, so that the waste is easily caused.

Disclosure of Invention

In order to save the energy consumption of the baking machine, the application provides an inductance processing technology and a material receiving and discharging device applying the technology.

The application provides an inductance processing technology and a material receiving and discharging device applying the technology, and the following technical scheme is adopted:

first aspect, a receive and release material device that inductance processing was used, including removing the seat, remove the top of seat and install the storage tank, one side of storage tank is the opening setting, just the lateral wall of storage tank is installed and is used for opening and close the open-ended dodge gate, the top of storage tank is provided with the mount that is vertical setting, the one end of mount sets up to the feed end, the other end of mount sets up to the discharge end, one side of mount is rotated and is installed and be the rotation seat of vertical setting, it is equipped with the charging tray to rotate the seat and can dismantle the cover, the opposite side of mount is installed and is used for the drive to rotate seat pivoted driving piece.

Through adopting the above technical scheme, in operation, the staff removes the discharge end that the seat removed the inductance make-up machine through promoting, and aim at the discharge end of inductance make-up machine with the feed end of mount, then put into and roll up and establish in charging tray department from the feed end of mount a plurality of integrative inductances through the material area with die-casting shaping, start driving piece drive rotation seat after that and drive the charging tray and rotate, make charging tray rolling material area, the back is accomplished in the rolling, the staff cuts the material area, and lift the charging tray off and deposit in the storage tank, promote to remove the seat at last and shift to toast integrative inductance in the roaster, set up like this, can once only toast the charging tray in many rolls of good material areas, can change the mode that needs open the roaster always, be favorable to saving the energy resource consumption of roaster.

Optionally, the charging tray includes material receiving ring and two sub-discs, two the sub-disc is fixed the setting respectively and is in material receiving ring's both sides, and two the sub-disc is cavity setting.

Through adopting above-mentioned technical scheme, when receiving the material, the staff puts into the charging tray with the one end in material area, and when the charging tray rotated, the receipts material ring can the rolling material area to through the spacing preparation effect of two sub-discs, keep the rolling that the material area can be stable in the charging tray, realize that the charging tray is used for the effect in rolling material area.

Optionally, a chuck for clamping the material belt is fixedly mounted on the outer arc surface of the material receiving ring.

Through adopting above-mentioned technical scheme, the setting of chuck can press from both sides tightly the material area to be favorable to improving the convenience of charging tray coil stock.

Optionally, a plurality of air holes are formed in the two sides of the sub-disc in a penetrating manner.

Through adopting above-mentioned technical scheme, the whole ventilation effect of charging tray can be improved in the setting of bleeder vent to be favorable to improving the effect of toasting.

Optionally, the material receiving ring is in plug-in fit with the rotating seat, a connecting assembly is arranged on the inner side of the material receiving ring, and the connecting assembly is detachably connected with the rotating seat.

By adopting the technical scheme, during installation, the receiving ring is inserted into the rotating seat, and then the receiving ring is fixedly connected with the rotating seat through the connecting component, so that the material tray is fixed at the rotating seat; when the material receiving ring is detached, the connection relation between the rotating seat and the material receiving ring is removed through the release connecting assembly, and then the material receiving ring is detached out of the rotating seat, so that the detachable connection of the material tray and the rotating seat is realized.

Optionally, the connecting assembly includes a fixture block and an insertion rod, a sliding groove is formed in an inner side wall of the receiving ring, the fixture block is in sliding fit with the sliding groove, a through groove is formed in a side wall of the sliding groove, which penetrates through the receiving ring, and a through groove is formed in the side wall of the receiving ring, the insertion rod is in insertion fit with the through groove, when the insertion rod is inserted into the through groove, a part of the insertion rod is located in the through groove, another part of the insertion rod extends into the sliding groove and is located at a groove bottom of the sliding groove, and a guide inclined plane is arranged at one end of the fixture block, which is located at the groove bottom of the sliding groove, and faces one side of the sliding groove; the side wall of the rotating seat is correspondingly provided with a clamping groove, the clamping block is in clamping fit with the clamping groove, and when the rotating seat is in splicing fit with the material receiving ring, the clamping groove and the sliding groove can be aligned and communicated.

Through adopting above-mentioned technical scheme, during the installation, earlier with receipts material ring with rotate the seat and peg graft for draw-in groove and spout are aimed at and are linked together, then insert logical groove with the inserted bar, make the one end of inserted bar pass logical groove and stretch into in the spout, thereby make the tip of inserted bar can extrude the direction inclined plane of fixture block, and then make the fixture block move and insert in the draw-in groove towards the one side of keeping away from the spout, realized coupling assembling to rotating the seat and being connected with dismantling of receipts material ring.

Optionally, the lateral wall circumference of fixture block is provided with spacing platform, the spout includes the son groove of sliding and spacing son groove, the notch in spacing son groove with the inside wall of receipts material ring is linked together, the tank bottom in spacing son groove with the notch in the son groove of sliding is linked together, just the width in spacing son groove is less than the width in the son groove of sliding, the fixture block with spacing son groove cooperation of sliding, spacing platform with the cooperation of sliding in the son groove of sliding.

Through adopting above-mentioned technical scheme, the setting of spacing platform, when the fixture block will break away from the spout, spacing platform can with the cell wall looks butt of spacing sub-groove to break away from the spout to the fixture block and play the limiting action, be favorable to improving fixture block and spout sliding fit's stability.

Optionally, an arc surface cover for closing the circumferential direction of the material tray is arranged at the material tray.

Through adopting above-mentioned technical scheme, when the material area had been taken in the charging tray rolling, the staff covered the cambered surface and established charging tray department, closed to the charging tray to play confined effect to the charging tray, be favorable to improving the stability that the charging tray stored the material area.

Optionally, the feed end of mount is the level and sets up the deflector, just the deflector is fixed the mount is installed one side of charging tray, the one end orientation of deflector the charging tray, the guide way has been seted up to the top surface of deflector, just the both sides cell wall of guide way runs through respectively the both sides lateral wall of deflector length direction, just the leading wheel is installed in the top rotation of deflector.

Through adopting above-mentioned technical scheme, the cooperation setting of deflector and leading wheel can lead the material area to be favorable to improving the smooth and easy nature in charging tray roll-up material area.

In a second aspect, a process for manufacturing an inductor includes the following steps: s1, placing a plurality of integrated inductors die-cast and formed at the discharge end of an inductor forming machine into a guide groove of a guide plate through a material belt, and then passing through a guide wheel and placing the inductors into a material tray; s2, clamping the end part of the material belt placed into the material tray through a chuck of the outer cambered surface of the material receiving ring; s3, starting a driving piece to drive the rotating seat to drive the material tray to rotate and roll the material belt; s4, after the winding is finished, closing the driving piece and covering the material tray by matching the first sub cover and the second sub cover; s5, pulling out the insertion rod to release the connection relation between the rotating seat and the material receiving ring, and taking out the material tray and storing the material tray into the storage box; s6, loading a new tray and repeating the steps until the storage box is full; s7, the storage box is placed into the baking machine to bake the integrated inductor by moving the movable seat.

Through adopting above-mentioned technical scheme, accomodate a plurality of integrative inductances of fixing on the material area through the charging tray to accomodate a plurality of charging trays through the storage tank, at last will accomodate the charging tray in the storage tank and put into the roaster and once only toast, set up like this, can once only toast the charging tray in many rolls of good materials area of rolling up, can change the mode that needs open the roaster always, be favorable to saving the energy resource consumption of roaster.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the integrated inductors fixed on the material belt are stored through the material disc, the material discs are stored through the storage box, and finally the material discs stored in the storage box are placed into the baking machine for one-time baking, so that the material discs wound with the material belt in multiple rolls can be baked at one time, the working mode that the baking machine needs to be started all the time can be changed, and the energy consumption of the baking machine is saved;

2. the arrangement of the chuck can clamp the material belt, so that the convenience of material coiling of the material disc is improved;

3. the arrangement of the air holes can improve the whole ventilation effect of the material tray, thereby being beneficial to improving the baking effect;

4. the cooperation setting of deflector and leading wheel can lead the material area to be favorable to improving the smooth and easy nature in charging tray roll-up material area.

Drawings

Fig. 1 is a schematic view of an overall structure of a hidden arc cover of a material receiving and discharging device for inductance processing in the application.

Fig. 2 is a sectional view of a structural piece of a receiving and discharging device for inductance processing in the application to a charging tray.

Fig. 3 is an enlarged view of fig. 2.

Fig. 4 is a schematic view of an overall structure of an arc cover in a material receiving and discharging device for inductance processing according to the present application.

Description of reference numerals: 1. a movable seat; 2. a universal wheel; 3. a storage box; 4. a movable door; 5. a fixed mount; 51. a feeding end; 52. a discharge end; 6. a rotating seat; 7. a material tray; 71. a material receiving ring; 72. a sub-disc; 8. a drive motor; 9. a chuck; 10. a connecting assembly; 101. a clamping block; 102. a spring; 103. inserting a rod; 11. a chute; 111. a limiting subslot; 112. a slider groove; 12. a limiting table; 13. a through groove; 14. a card slot; 15. air holes are formed; 16. a cambered surface cover; 161. a first sub-cap; 162. a second sub-cap; 17. a guide plate; 18. a guide groove; 19. a guide wheel.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

In a first aspect, an embodiment of the application discloses a material receiving and discharging device for inductance processing. Referring to fig. 1, the material receiving and discharging device for inductance processing comprises a movable base 1, wherein four universal wheels 2 are installed at the bottom of the movable base 1, and the four universal wheels 2 are arranged in a rectangular and symmetrical mode along the bottom surface of the movable base 1. Remove the top of seat 1 and install storage tank 3, one side of storage tank 3 is the opening setting, and the lateral wall of storage tank 3 is installed and is used for opening and close open-ended dodge gate 4. Mount 5 that is vertical setting is installed at the top of storage tank 3, the one end of mount 5 sets up to feed end 51, the other end of mount 5 sets up to discharge end 52, one side of mount 5 is rotated and is installed the rotation seat 6 that is vertical setting, and rotate seat 6 and can dismantle the cover and be equipped with charging tray 7, the opposite side of mount 5 is installed and is used for the drive to rotate seat 6 pivoted driving piece, in this embodiment, the driving piece is driving motor 8, driving motor 8 is installed and is fixed to be held about keeping away from one side lateral wall that rotates seat 6, and driving motor 8's drive shaft and the coaxial fixed connection of rotation seat 6.

When the device works, a worker pushes the moving seat 1 to drive the storage box 3 and the fixing frame 5 to move towards the discharge end 52 of the inductance forming machine, so that the feed end 51 of the fixing frame 5 is aligned with the discharge end 52 of the inductance forming machine, then a plurality of integrated inductors molded by die casting are put into the charging tray 7 from the feeding end 51 of the fixed frame 5 through the material belt, then the driving motor 8 is started to drive the rotating seat 6 to drive the material tray 7 to rotate, so that the material tray 7 winds the material belt, after the winding is finished, the worker cuts the material belt, unloads the material disc 7 and stores the material disc into the storage box 3, finally pushes the movable seat 1 to be transferred into the baking machine to bake the integrated inductor, and by the arrangement, the material disc 7 with a plurality of wound material belts can be baked at one time, therefore, the working mode that the baking machine needs to be started all the time to bake the integrated inductor can be changed, and the energy consumption of the baking machine is saved.

After the toast is accomplished, the staff can remove and remove seat 1 and drive storage tank 3 and mount 5 and remove cutting device department, then the staff takes out the tail end in material area and puts into cutting device department from the discharge end 52 of mount 5 and cuts a plurality of integrative inductances on the material area to make integrative inductance cut into the singleton. When it needs to be described, the cutting device is the prior art, and is not described herein again.

Specifically, in this embodiment, the two movable doors 4 are provided, and the two movable doors 4 are symmetrically provided along the vertical center line of the storage box 3. One side of the movable door 4 close to the storage box 3 is rotatably connected with the storage box 3 through a hinge.

Referring to fig. 1 and 2, the tray 7 includes a receiving ring 71 and two sub-discs 72, the two sub-discs 72 are respectively and fixedly disposed on two sides of the receiving ring 71, and a side wall of one side of the sub-disc 72 penetrates through to a side wall of the other side of the sub-disc 72 and is disposed in a hollow manner, so that the center of the sub-disc 72 can perform a position avoiding function on the center of the receiving ring 71.

Further, in order to improve the convenience of the material coiling of the material tray 7, the outer arc surface of the material collecting ring 71 is fixedly provided with a chuck 9 for clamping the material belt, so that the material belt can be clamped by the chuck 9 before the material coiling, and the material coiling is convenient.

Referring to fig. 1 to 3, the material receiving ring 71 is inserted into the rotating seat 6, and a connecting assembly 10 for detachably connecting with the rotating seat 6 is disposed inside the material receiving ring 71. The connecting assembly 10 includes a fixture block 101 and a spring 102, the inner side wall of the material receiving ring 71 is provided with a chute 11, the fixture block 101 is in sliding fit with the chute 11, and the sliding direction of the fixture block 101 is parallel to the radial direction of the material receiving ring 71.

Specifically, in order to improve the stability of the sliding fit between the fixture block 101 and the sliding groove 11, the side wall of the fixture block 101 is circumferentially and fixedly provided with a limiting table 12. The sliding groove 11 comprises a sliding sub groove 112 and a limiting sub groove 111, the notch of the limiting sub groove 111 is communicated with the inner side wall of the material receiving ring 71, and the bottom of the limiting sub groove 111 is communicated with the notch of the sliding sub groove 112. And the width of the limiting subslot 111 is smaller than that of the sliding subslot 112. The fixture block 101 is in sliding fit with the limiting sub-groove 111, and the limiting table 12 is in sliding fit with the sliding sub-groove 112. Therefore, when the fixture block 101 moves to the maximum distance in the direction away from the sliding slot 11, the limiting table 12 can abut against the slot wall of the limiting sub-slot 111, thereby limiting the fixture block 101 from being separated from the sliding slot 11.

Further, the spring 102 is disposed in the sliding slot 11, and the spring 102 is sleeved on the outer side of the latch 101. One end of the spring 102 is fixedly connected with the side wall of the position-limiting table 12, and the other end of the spring 102 is fixedly connected with the groove wall of the position-limiting sub-groove 111. The direction of the elastic force of the spring 102 is the same as the moving direction of the position restricting table 12. When the spring 102 is in the natural state, the latch 101 is located in the slide groove 11.

Referring to fig. 3, the connecting assembly 10 further includes an insert rod 103, a through groove 13 is formed in the side wall of the sliding groove 11 penetrating through the material receiving ring 71, the insert rod 103 is in insertion fit with the through groove 13, an external thread is arranged on one side of the insert rod 103 far away from the sliding groove 11, and an internal thread is correspondingly arranged on the groove wall of the through groove 13, so that the insert rod 103 is partially inserted into the through groove 13, and the other portion of the insert rod 103 is in threaded fit with the through groove 13. One side of the latch 101 facing the sliding slot 11 is provided with a guiding inclined surface, so that the plunger 103 can push the latch 101 to move towards the outside of the sliding slot 11 when pressing the guiding inclined surface of the latch 101. The side wall of the rotating shaft is provided with a clamping groove 14, and the clamping block 101 can be matched with the clamping groove 14 in a clamping manner. When the rotating seat 6 is in inserting fit with the material receiving ring 71, the clamping groove 14 and the sliding groove 11 can be aligned and communicated.

During connection, with receipts material ring 71 and the cooperation of pegging graft of rotating seat 6, make draw-in groove 14 align with spout 11 and be linked together, then peg graft inserted bar 103 and logical groove 13, make the tip of inserted bar 103 can extrude the direction inclined plane, thereby promote fixture block 101 and move towards the outer direction of spout 11 and cooperate with draw-in groove 14 joint, then through the screw-thread fit of inserted bar 103 with logical groove 13, fix fixture block 101, thereby make fixture block 101 part be located spout 11, another part of fixture block 101 is located draw-in groove 14, thereby realized receiving the fixed connection of material ring 71 and axis of rotation.

During the dismantlement, through relieving the threaded connection of inserted bar 103 and logical groove 13 to outside taking inserted bar 103 out logical groove 13, make fixture block 101 under the effect of spring 102 elasticity, move and slide in spout 11 towards the direction in the spout 11 rapidly, thereby make fixture block 101 break away from draw-in groove 14, will receive the material ring 71 to write out outside the seat 6 rotates this moment, realized that charging tray 7 and axis of rotation pass through the dismantlement of coupling assembling 10 and be connected.

Referring to fig. 1, in order to improve the baking effect of the integrated inductor wound in the tray 7, a plurality of air holes 15 are formed through one side of the sub-disc 72 of the tray 7 to the other side, and the air holes 15 are uniformly distributed along the side wall of the sub-disc 72. When putting into the roaster with charging tray 7 and toasting, the steam of roaster can enter into charging tray 7 through bleeder vent 15 inside and carry out better the toasting to integrative inductance.

Referring to fig. 4, in order to store the integrated inductor, a cambered cover 16 for closing the receiving tray 7 is disposed at the receiving tray 7. Specifically, the arc surface cover 16 includes a first sub-cover 161 and a second sub-cover 162, the first sub-cover 161 and the second sub-cover 162 are symmetrically disposed, one end of the first sub-cover 161 is hinged to the second sub-cover 162, and the other end of the first sub-cover 161 is fixedly connected to the second sub-cover 162 through a pin.

Referring to fig. 1, the feeding end 51 of the fixing frame 5 is horizontally provided with the guide plate 17, and the guide plate 17 is fixed on the side wall of the fixing frame 5 on one side of the tray 7. One end of the guide plate 17 faces the tray 7, a guide groove 18 is formed in the top surface of the guide plate 17, and the length direction of the guide groove 18 is the same as the length direction of the guide plate 17. The both sides cell wall of guide way 18 runs through the both sides lateral wall of deflector 17 length direction respectively, and the top of deflector 17 is rotated and is installed leading wheel 19, and the lateral wall of leading wheel 19 can be used for playing guide positioning's effect to the material area with the tank bottom of guide way 18 mutually supporting to be favorable to improving the stability in charging tray 7 rolling material area.

The implementation principle of the material receiving and discharging device for inductance processing in the embodiment of the application is as follows: when the induction forming machine works, a worker pushes the movable seat 1 to drive the storage box 3 and the fixed frame 5 to move towards the discharge end 52 of the induction forming machine, so that one end of the guide plate 17, which is far away from the material disc 7, is aligned with the discharge end 52 of the induction forming machine, then a plurality of integrated inductors formed by die casting pass through the material belt between the guide groove 18 and the guide wheel 19 and are placed on the material receiving ring 71, the end part of the material belt is clamped through the chuck 9, then the driving motor 8 is started to drive the rotary seat 6 to drive the material disc 7 to rotate, so that the material disc 7 is wound by the material disc 7, after winding is finished, the worker cuts the material belt and unloads the material disc 7 into the storage box 3, finally the movable seat 1 is pushed to be transferred into the baking machine to bake the integrated inductors, and the arrangement is characterized in that the material disc 7 with a plurality of wound material belts can be baked at one time, so that the working mode that the baking machine needs to be started all the time to bake the integrated inductors can be changed, is favorable for saving the energy consumption of the baking machine.

In a second aspect, an embodiment of the present application further discloses a method for detecting corner strength of an inductance product, including the following steps:

s1, placing a plurality of integrated inductors which are die-cast and formed at the discharge end 52 of the inductor forming machine into the guide groove 18 of the guide plate 17 through the material belt, and then passing through the guide wheel 19 and placing into the material tray 7;

s2, clamping the end part of the material belt placed in the material tray 7 by a chuck 9 of the outer cambered surface of the material receiving ring 71;

s3, starting the driving motor 8 to drive the rotating seat 6 to drive the material tray 7 to rotate and wind the material belt;

s4, after the winding is finished, closing the driving motor 8, covering the material tray 7 by matching the first sub-cover 161 and the second sub-cover 162, and fixing by using a bolt;

s5, pulling out the inserted rod 103 to enable the fixture block 101 to rebound and retract into the chute 11 under the action of the spring 102, then releasing the connection relation between the rotating seat 6 and the material receiving ring 71, and taking out the tray 7 and retracting into the storage box 3;

s6, loading a new tray 7 and repeating the steps until the storage box 3 is full;

s7, the movable seat 1 is moved to place the storage box 3 into the baking machine to bake the integrated inductor.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.