CN117732980A - Stamping and breaking device and system for carrier shell - Google Patents

Abstract

The invention relates to the technical field of basically non-cutting processing or treatment of metal plates and stamping metals, and simultaneously relates to the technical field of conveying devices, in particular to a stamping and breaking device and a stamping and breaking system of a carrier shell, wherein the stamping and breaking system of the carrier shell comprises the stamping and breaking device of the carrier shell, and the stamping and breaking device of the carrier shell separates an assembly frame and an iron frame in a stamping manner; the stamping and breaking system of the carrier shell also comprises a conveying device, and the conveying device is provided with the stamping and breaking device of the carrier shell; the conveying device comprises a bearing frame, wherein a lap joint table is connected between the tops of a left supporting arm and a right supporting arm of the bearing frame, and the lap joint table is connected with the pushing mechanism; the upper surfaces of the supporting floors below the left supporting arm and the right supporting arm are provided with belt conveyors, and the belts of the belt conveyors are used for placing supporting components; the invention solves the problem that the prior stamping breaking device is difficult to separate a plurality of iron frames from the corresponding assembly frames simultaneously.

Description

Stamping and breaking device and system for carrier shell

Technical Field

The invention relates to the technical field of basically non-cutting machining or processing of metal plates and stamping metals, and simultaneously relates to the technical field of conveying devices, in particular to a stamping breaking device and a stamping breaking system of a carrier shell.

Background

Referring to fig. 1, there is shown an exploded view of a conventional voice coil motor carrier, which is formed by a base, a gasket, a moving seat, and a frame in this order from bottom to top; in order to prevent the gasket and the movable seat from falling off from the base, it is important to install the iron frame on the top of the base after the gasket and the movable seat are placed in the base; at present, as shown in the display view of a plurality of iron frames connected to an assembly frame in fig. 2,

the iron frame manufactured in the iron frame production workshop is formed by connecting a plurality of iron frames on the inner side of an assembly frame in a linear array mode; when the single iron frame is used as a part of a carrier, the single iron frame needs to be separated from the assembly frame in advance; at present, the assembly frames on two sides of the iron frame are broken in a stamping mode, so that the separation of the iron frame and the assembly frames is realized. The related technology of punching and breaking is disclosed in Chinese patent library, for example, publication No. CN114378181A discloses a windscreen wiper rim material breaker, which comprises a base plate, the upper surface fixedly connected with two symmetrical fixing frames in position of bottom plate, four dead levers of upper end fixedly connected with of fixing frame, left side fixedly connected with frame on the fixing frame, fixedly connected with two motors in the frame, the fixing frame rotates the pivot of being connected with front and back position symmetry, the output shaft of motor with pass through the shaft coupling connection between the pivot, the right-hand member fixedly connected with hold-down plate of pivot realizes the operation of compressing tightly to original part through hold-down mechanism and first breaking mechanism, and the first cylinder through second breaking mechanism provides power for the rupture, and ascending stripper plate drives original windscreen wiper part and upwards buckles, simultaneously through spring energy storage and release, realizes the operation of bending down to the original part of windscreen wiper, and then realizes reciprocal continuous upper and lower buckling until the original part of windscreen wiper is broken.

For another example, CN217095259U discloses an automatic workpiece breaking device, which comprises a workbench, a jig, a lifting plate, a lifting mechanism, a workpiece folding mechanism, a cam lifting mechanism, a horizontal moving mechanism and a pressing block, wherein the jig and the lifting mechanism are fixed on the workbench, the lifting mechanism is connected with the lifting plate, the lifting plate is slidably connected on the workbench, the lifting plate is positioned above the jig, the pressing block is fixed at the bottom of the lifting plate, the horizontal moving mechanism is mounted on the lifting plate, the horizontal moving mechanism is connected with the cam lifting mechanism, and the cam lifting mechanism is connected with the workpiece folding mechanism.

The prior art (CN 114378181A, CN 217095259U) disclosed in the above two has problems in that: the simultaneous separation of the plurality of iron frames from the corresponding assembly frames cannot be achieved.

Disclosure of Invention

Accordingly, the present invention is directed to a device and a system for stamping and breaking a carrier housing, which solve the problem that the conventional stamping and breaking device is difficult to separate a plurality of iron frames from corresponding assembly frames at the same time.

The invention discloses a stamping and breaking device of a carrier shell, which comprises a folding mechanism and a supporting part, wherein the folding mechanism comprises an assembly seat, one side of the assembly seat forms a carrying platform, the other side of the assembly seat forms a stamping platform, and at least two flange columns are arranged on the stamping platform; the left side and the right side of the assembly seat are respectively provided with an electric telescopic cylinder, and a telescopic shaft of the electric telescopic cylinder is connected with a stamping die; the bottom of the supporting component is provided with a carrying seat, the top of the supporting component is provided with at least two punching holes, the inner cavities of each punching hole are in one-to-one correspondence with each flange column, and inclined grooves are formed on two sides of the top of the supporting component between two adjacent punching holes; the outer edge of each punching hole is used for being in sleeve joint fit with the central hole on each iron frame, two sides of the assembly frame between two adjacent iron frames are in one-to-one correspondence with the corresponding two slope grooves, and the vertical end of the punching die is used for being opposite to the connecting lines of the assembly frame and the iron frames.

As an optimization scheme one: the carrying platform is provided with a pushing mechanism for pushing the carrying platform to move towards the supporting component.

As a second optimization scheme: the stamping and breaking device of the carrier shell further comprises a storage mechanism, and storage mechanisms are arranged on the opposite sides of the two stamping dies; the storage mechanism comprises a linkage unit and a storage plate, wherein the left side and the right side of the electric telescopic cylinder are respectively provided with the linkage unit, and the storage plate is commonly arranged at the other ends of the two linkage units of the same electric telescopic cylinder; the gap between the stamping die and the corresponding object placing plate is used for placing an assembly frame and an iron frame; when the electric telescopic cylinder drives the stamping die to move downwards, the stamping die drives the object placing plate to move upwards through corresponding two linkage units.

Specific: the linkage unit comprises a driving toothed plate, the driving toothed plate is fixedly connected with a telescopic shaft of the electric telescopic cylinder, the toothed part of the driving toothed plate is meshed with a first transmission gear, the first transmission gear is connected to a supporting rail in a switching mode, and the supporting rail is fixedly connected to a cylinder body of the electric telescopic cylinder; an auxiliary toothed plate slides on one side of the supporting rail, and the toothed part of the auxiliary toothed plate and the other side of the first transmission gear form meshing linkage; the auxiliary toothed plate is provided with a U-shaped tray, one side of the U-shaped tray is connected with the auxiliary toothed plate, and the other side of the U-shaped tray is used for lifting the corresponding storage plate.

As an optimization scheme III: the edge of the object placing plate is provided with a step groove which is in lap joint fit with the vertical end of the stamping die.

In a second aspect, the invention discloses a stamping and breaking system of a carrier shell, which comprises a stamping and breaking device of the carrier shell, wherein the stamping and breaking device of the carrier shell is arranged on a conveying device; the conveying device comprises a bearing frame, wherein a lap joint table is connected between the tops of a left supporting arm and a right supporting arm of the bearing frame, and the lap joint table is connected with the pushing mechanism; the upper surfaces of the supporting floors below the left supporting arm and the right supporting arm are provided with belt conveyors, and supporting parts are placed on belts of the belt conveyors.

As an optimization scheme IV, the stamping and breaking system of the carrier shell further comprises a collecting device, wherein the collecting device is connected with the storage mechanism, and a receiving groove is arranged below the collecting device and on the supporting floor; when the assembly frame is separated from the iron frame, the collecting device is used for collecting the assembly frame falling off from the object placing plate into the material receiving groove.

The invention has the beneficial effects that:

the invention can bear the weight of the assembly frame and the iron frame by combining the supporting component; simultaneously, the supporting part combines together with the mechanism of folding over to can break the assembly frame that connects on a plurality of chases with machinery, automatic mode, thereby realize separating simultaneously a plurality of chases from the assembly frame, compare in prior art, work efficiency improves.

Drawings

Fig. 1 is a schematic representation of the exploded appearance of a conventional voice coil motor carrier.

Fig. 2 is an illustration showing a plurality of iron frames attached to a mounting frame.

Fig. 3 is a schematic view of the external appearance of the press breaking device of the carrier housing.

Fig. 4 is a schematic perspective view of the folding mechanism.

Fig. 5 is a schematic perspective view of the supporting member.

Fig. 6 is a schematic diagram of a push mechanism mounting structure.

Fig. 7 is a schematic diagram of an assembly structure of an assembly frame, an iron frame and a supporting member.

Fig. 8 is a view of the use of the die break device of the carrier housing.

Fig. 9 is a state diagram showing the fitting frame broken away from the iron frame.

Fig. 10 is a schematic view of the mounting structure of the storage mechanism.

Fig. 11 is a schematic perspective view of the linkage unit.

Fig. 12 is a schematic view of the external appearance of the die break system of the carrier housing.

Fig. 13 is a schematic perspective view of a transport device.

Fig. 14 is a schematic view of the mounting structure of the collecting device.

Fig. 15 is a schematic view of the mounting structure of the tilting mechanism.

In the figure, 1, an assembly seat; 2. a flange post; 3. an electric telescopic cylinder; 4. stamping die; 5. assembling a frame; 6. an iron frame; 7. a support member; 8. punching a hole; 9. a pushing mechanism; 10. driving the toothed plate; 11. a first transmission gear; 12. a support rail; 13. an auxiliary toothed plate; 14. a sliding seat; 15. a U-shaped tray; 16. a storage plate; 17. a step groove; 18. a carrier; 19. a belt conveyor; 20. a receiving groove; 21. a pushing seat; 22. a hinge; 23. a blocking body; 24. a transfer stand; 25. a miniature belt conveyor; 26. a through groove; 27. a tooth holder; 28. a second transmission gear; 29. a grooved bar; 30. a limit groove; 31. hinge lugs, 32, ramp slots.

Detailed Description

For a clear understanding of the technical solutions of the present application, a device and a system for stamping and breaking a carrier housing provided in the present application will be described in detail below with reference to specific embodiments and accompanying drawings.

The terminology used in the following embodiments is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in the specification and claims of this application, the singular forms "a," "an," "the," and "the" are intended to include, for example, "one or more" such forms of expression, unless the context clearly indicates to the contrary. It should also be understood that in the various embodiments herein below, "at least one", "one or more" means one, two or more than two.

Reference in the specification to "one embodiment" or "some embodiments" or the like means that a particular feature, structure, or characteristic described in connection with the embodiment is included in one or more embodiments of the application. Thus, appearances of the phrases "in one embodiment," "in some embodiments," "in other embodiments," and the like in various places throughout this specification are not necessarily all referring to the same embodiment, but mean "one or more, but not all, embodiments" unless expressly specified otherwise. The terms "comprising," "including," "having," and variations thereof mean "including but not limited to," unless expressly specified otherwise.

Embodiment 1 this embodiment provides a die break device for a carrier housing, and referring to fig. 3, there is shown a schematic view of the die break device for a carrier housing, and as can be seen from the figure, the die break device for a carrier housing comprises a crimping mechanism and a supporting member 7. Further combining with the schematic three-dimensional structure of the folding mechanism shown in fig. 4, specifically, the folding mechanism comprises an assembly seat 1, a carrying platform is formed on the top side of the assembly seat 1, a stamping platform is formed on the bottom side of the assembly seat 1, and eight flange columns 2 are formed on the bottom plane of the stamping platform in a linear array mode at equal intervals; the left and right sides surface of assembly seat 1 is installed respectively and is had an current electric telescopic jar 3, connects stamping die 4 on the telescopic shaft free end of electric telescopic jar 3, and stamping die 4's overall form is the L shape, and the vertical end of two stamping die 4 is used for respectively with assembly frame 5, the left and right sides connecting wire of chase 6 is relative (L1, L2 as shown in FIG. 2).

Specifically, referring to fig. 5 and further referring to fig. 3, fig. 5 shows a schematic perspective view of a supporting component 7, and as can be seen from the above two views, a carrier is formed at the bottom of the supporting component 7, eight punching holes 8 are formed on the top plane of the supporting component 7 in a linear array mode at equal intervals, inner cavities of the eight punching holes 8 are in one-to-one correspondence with the eight flange columns 2 of the punching platform, and outer edges of the eight punching holes 8 are respectively in sleeved fit with central holes on the eight iron frames 6; slope grooves 32 are formed on two sides of the top of the supporting part 7 between two adjacent punching holes 8, and two sides of the assembly frame 5 between two adjacent iron frames 6 are in one-to-one correspondence with the two slope grooves 32.

As an optimization scheme for the stamping and breaking device of the carrier shell: in order to ensure smooth butt joint between the folding mechanism and the supporting member 7, referring to the schematic installation structure of the pushing mechanism 9 shown in fig. 6, it can be seen from the figure that the pushing mechanism 9 is disposed above the top of the mounting platform (for example, an electric telescopic rod available in the market is directly used), and the telescopic end of the pushing mechanism 9 is connected to the mounting platform.

The carrier housing punch breaking device works as follows:

first, referring to the schematic assembly structure of the assembly frame 5 and the iron frame 6 and the supporting member 7 shown in fig. 7, it can be seen from the figure that the assembly frame 5 and the iron frame 6 are disposed above the supporting member 7, so that the central hole of each assembly frame 5 is respectively sleeved on the outer edge of the corresponding punching hole 8, and the assembly frame 5 between two adjacent iron frames 6 is partially disposed in the slope groove 32. Then, further referring to the state of use of the die-breaking device of the carrier housing shown in fig. 8, it can be seen from the figure that the crimping mechanism is placed directly above the supporting member 7, with eight die-holes 8 being in one-to-one opposition to eight flange columns 2; starting a pushing mechanism 9, wherein the pushing mechanism 9 drives the assembly seat 1, the electric telescopic cylinder 3 and the stamping die 4 to move towards the supporting part 7 along the a1 direction until eight flange columns 2 are completely inserted into eight stamping holes 8, and the stamping platform of the assembly seat 1 presses the middle positions of the assembly frame 5 and the iron frame 6 (namely, the part between connecting lines L1 and L2); starting two electric telescopic cylinders 3, wherein the electric telescopic cylinders 3 drive a stamping die 4 to continuously reciprocate along the direction a1 and the direction a2, and the stamping die 4 continuously stamps the positions of the L1 and L2 connecting lines on the assembly frame 5 and the iron frame 6 (usually for 4-5 times) until the connecting parts between the assembly frame 5 and the iron frame 6 are broken. Finally, referring to the state diagram of the broken fitting frame 5 from the iron frame 6 shown in fig. 9, it can be seen from the figure that both side portions (left and right side portions in fig. 9) of the broken fitting frame 5 are dropped from both sides of the supporting member 7, and the middle portion (middle portion in fig. 9) of the broken fitting frame 5 is slid down from the slope groove 32 on the supporting portion.

The invention can bear the load of the assembly frame 5 and the iron frame 6 by combining the supporting component 7; simultaneously, the supporting part 7 combines together with the mechanism of folding, can break the assembly frame 5 that connects on a plurality of chases 6 with machinery, automatic mode to realize separating simultaneously a plurality of chases 6 from assembly frame 5, compare in prior art, work efficiency improves.

In embodiment 2, in order to prevent the assembly frame 5 from falling off after being broken off from the iron frame 6 in the process of stamping the connection part between the assembly frame 5 and the iron frame 6 by the stamping die 4 driven by the electric telescopic cylinder 3, a storage mechanism capable of temporarily storing the broken assembly frame 5 is further designed on the basis of the technical scheme of embodiment 1; referring to fig. 10, there is shown a schematic diagram of the mounting structure of the storage mechanism, and as can be seen from the figure, the storage mechanism is provided on the opposite sides of the two press molds 4, respectively, and the specific structure of the storage mechanism is as follows.

Referring to fig. 11 in combination with fig. 10, in which fig. 11 shows a schematic perspective view of a linkage unit, it can be seen from the above two views that the storage mechanism is composed of two linkage units and a storage plate 16, and the two linkage units are respectively disposed on the left and right sides of the electric telescopic cylinder 3; more specifically, the linkage unit comprises a driving toothed plate 10, and the back of the driving toothed plate 10 is fixedly connected with a telescopic shaft of the electric telescopic cylinder 3; the tooth parts of the driving toothed plate 10 are meshed and linked with a first transmission gear 11, the first transmission gear 11 is rotationally connected to a supporting rail 12 through a pin shaft, and the top flange of the supporting rail 12 is fixedly connected to the cylinder body of the electric telescopic cylinder 3; an auxiliary toothed plate 13 is arranged on one side of the support rail 12, the top of the auxiliary toothed plate 13 is connected with a sliding seat 14, the sliding seat 14 is in sliding connection with the support rail 12, and the sliding seat 14 moves along the height direction of the support rail 12; the tooth part of the auxiliary toothed plate 13 is meshed and linked with the other side of the first transmission gear 11, a U-shaped tray 15 is arranged at the bottom of the auxiliary toothed plate 13, one side baffle arm of the U-shaped tray 15 is connected with the auxiliary toothed plate 13, and the other side baffle arm of the U-shaped tray 15 is arranged below the storage plate 16; the blocking arms of the U-shaped trays 15 of the two linkage units are commonly used for lifting the opposite object plate 16; the object placing plate 16 is arranged below the corresponding stamping die 4, and a step groove 17 is formed on the outer side edge of the object placing plate 16, and the step groove 17 is in lap fit with the vertical end of the stamping die 4. When the vertical end of the stamping die 4 performs stamping on the connecting line of the assembly frame 5 and the iron frame 6, the inner part of the upper surface of the object placing plate 16 and the lower surface of the horizontal end of the stamping die 4 respectively extrude the upper surface and the lower surface of the outer edge of the assembly frame 5, and the step groove 17 of the object placing plate 16 and the vertical end of the stamping die 4 jointly act on the connecting line of the assembly frame 5 and the iron frame 6, so that the connecting part between the assembly frame 5 and the iron frame 6 is broken more quickly, and the working efficiency is higher. On the other hand, after the mounting frame 5 is broken off from the iron frame 6, the storage plate 16 can temporarily hold the mounting frame 5 for temporary storage.

The working principle of the storage mechanism is as follows:

step 1, referring to fig. 10, when the stamping die 4 moves along the a1 direction and the connection position of the assembly frame 5 and the iron frame 6 needs to be stamped, starting the electric telescopic cylinder 3, and driving the stamping die 4 and the toothed plate 10 to move along the a1 direction by the electric telescopic cylinder 3, wherein the auxiliary toothed plate 13 and the object placing plate 16 move along the a2 direction under the meshing transmission action of the first transmission gear 11; the stamping die 4 and the object placing plate 16 respectively move relatively along the directions a1 and a2 until the joint between the assembly frame 5 and the iron frame 6 is stamped once. Step 2, with continued reference to fig. 10, the electric telescopic cylinder 3 drives the stamping die 4 and the driving toothed plate 10 to move along the a2 direction, and the auxiliary toothed plate 13 and the object placing plate 16 move along the a1 direction; when the stamping die 4 and the object placing plate 16 are out of contact with the assembly frame 5 and the iron frame 6, the connection part between the assembly frame 5 and the iron frame 6 is stamped again by using the method of the step 1. The operations of the step 1 and the step 2 are repeated for 4 to 5 times until the assembling frame 5 is separated from the iron frame 6.

According to the invention, by combining the linkage unit, only one driving source is needed to realize synchronous relative movement or synchronous remote movement of the stamping die 4 and the object placing plate 16, two driving sources are not needed, the cost is saved, and meanwhile, the situation of asynchronism of the stamping die 4 and the object placing plate 16 during movement is avoided, so that the working efficiency is further improved.

Embodiment 3, this embodiment provides a die breaking system for a carrier housing, which includes, on the basis of the die breaking device for a carrier housing in embodiment 2, referring to a schematic structural diagram of an external appearance of the die breaking system for a carrier housing shown in fig. 12, it can be seen from the figure that the die breaking system for a carrier housing further includes a transporting device, where the die breaking device for a carrier housing is disposed; the specific structure of the transport device is as follows.

Referring to fig. 13 in combination with fig. 12, in which fig. 13 shows a schematic perspective view of a transport device, as can be seen from the two diagrams, the transport device includes a carrier 18, a supporting floor is formed at the bottom of the carrier 18, left and right supporting arms are respectively formed at the left and right sides of the carrier 18, a lapping table is connected between the tops of the left and right supporting arms, and the lapping table is connected with a pushing mechanism 9; the belt conveyer 19 (directly adopting the existing product) is arranged on the upper surface of the supporting floor below the left supporting arm and the right supporting arm, and the supporting part 7 is arranged on the belt of the belt conveyer 19. When the supporting part 7 is transported by the belt conveyor 19, the gap between the stamping die 4 and the object placing plate 16 is required to be opened, and two sides of the assembly frame 5 on the supporting part 7 are allowed to enter the gap, and the belt conveyor 19 is matched with the stamping die 4 and the object placing plate 16, so that the assembly frame 5 and the iron frame 6 can smoothly and quickly reach the stamping station.

The press breaking system as carrier housing is further optimized: the broken assembly frames 5 temporarily stored on the object placing plate 16 need to be collected in time so as not to influence the separation operation of the next complete assembly frame 5 and the iron frame 6; for this purpose, the invention further provides a collecting device, see fig. 12, which is connected to the storage mechanism, and the collecting trough 20 is placed below the collecting device and on the supporting floor, and the specific structure of the collecting device is as follows.

Referring to fig. 14 in combination with fig. 12, wherein fig. 14 shows a schematic view of the mounting structure of the collecting device, it can be seen from the above two figures that the collecting device comprises a turnover mechanism connected to the left U-shaped tray 15; further referring to the schematic diagram of the installation structure of the turnover mechanism shown in fig. 15, as shown in the figure, the turnover mechanism comprises a pushing seat 21, a through hole is formed on the left side U-shaped tray 15, the pushing seat 21 is slidably connected in the through hole, and the top right edge of the pushing seat 21 is rotatably connected with the left end of the storage plate 16 through a hinge 22; when the pushing seat 21 is pushed upwards to press the left end of the object placing plate 16, the object placing plate 16 turns around the axle center of the hinge 22, the left end of the object placing plate 16 is gradually lifted, and the right end of the object placing plate 16 is not separated from the right U-shaped tray 15 all the time; a blocking body 23 is arranged right below the pushing seat 21, the blocking body 23 is connected with the frame of the belt conveyor 19, and the blocking body 23 is used for blocking the pushing seat 21 which moves downwards.

With continued reference to fig. 12 and 14, the collecting device further includes a transfer mechanism, specifically, the transfer mechanism includes a transfer stand 24, the transfer stand 24 is disposed below the right side of the storage board 16, and a micro belt conveyor 25 is installed on the transfer stand 24 (directly adopting the existing product and not described herein again); the transfer base 24 is provided with a through groove 26, and the tooth holder 27 slidably passes through the through groove 26 and is connected with the bottom of the corresponding right U-shaped tray 15; the tooth part of the tooth seat 27 is meshed and linked with a second transmission gear 28, and the second transmission gear 28 is in rotary connection with the adjacent side wall of the frame of the belt conveyor 19 through a pin shaft; a groove rod 29 is fixedly connected to a pin shaft of the second transmission gear 28, a limit groove 30 is formed in the free end of the groove rod 29, a hinge lug 31 is arranged below the transfer base 24, and the hinge lug 31 is movably connected with the limit groove 30; when the right U-shaped tray 15 drives the tooth holder 27 to move downwards, the second transmission gear 28 drives the groove rod 29 and the transferring base 24 to move downwards under the meshing and linkage of the tooth holder 27.

The collecting device works as follows:

referring to fig. 14, after the assembly frame 5 and the iron frame 6 are separated, under the pushing action of the two electric telescopic cylinders 3, the U-shaped trays 15 on the left and right sides drive the object placing plate 16 to move downwards along the a1 direction until the bottom of the pushing seat 21 is contacted with the blocking body 23; the pushing seat 21 continues to move along the direction a1, under the blocking action of the blocking body 23, the blocking body 23 drives the object placing plate 16 to move along the direction a2, the object placing plate 16 at the moment takes the hinge 22 as the center and turns over along the direction b1, and the left side of the object placing plate 16 is placed on the U-shaped tray 15 on the right side; the separated assembly frame 5 slides off the storage plate 16 and falls onto the mini belt conveyor 25. Meanwhile, in the process of downward moving the right U-shaped tray 15 along the direction a1, the tooth holder 27, the second transmission gear 28 and the groove rod 29 drive the transfer seat 24 and the micro belt conveyor 25 to move along the direction a1 in sequence until the micro belt conveyor 25 approaches the receiving groove 20, the micro belt conveyor 25 is started, and the micro belt conveyor 25 conveys the detached assembly frame 5 into the receiving groove 20.

Claims (7)

1. A die break apparatus for a carrier housing, comprising: the folding mechanism comprises an assembly seat (1), one side of the assembly seat (1) forms a carrying platform, the other side of the assembly seat (1) forms a stamping platform, and at least two flange columns (2) are arranged on the stamping platform; the left side and the right side of the assembly seat (1) are respectively provided with an electric telescopic cylinder (3), and a telescopic shaft of the electric telescopic cylinder (3) is connected with a stamping die (4); the bottom of the supporting component (7) is provided with a carrying seat, the top of the supporting component (7) is provided with at least two punching holes (8), the inner cavities of the punching holes (8) are in one-to-one correspondence with the flange columns (2), and the two sides of the top of the supporting component (7) between two adjacent punching holes (8) are provided with slope grooves; the outer edge of each punching hole (8) is used for being in sleeve joint fit with the central hole on each iron frame (6), two sides of the assembly frame (5) between two adjacent iron frames (6) are in one-to-one correspondence with the corresponding two slope grooves, and the vertical end of the punching die (4) is used for being opposite to the connecting lines of the assembly frame (5) and the iron frames (6).

2. The die break apparatus of claim 1, wherein: the carrying platform is provided with a pushing mechanism (9) for pushing the carrying platform to move towards the supporting part (7).

3. The die break apparatus of claim 1, wherein: the stamping die also comprises a storage mechanism, wherein the storage mechanism is arranged on the opposite sides of the two stamping dies (4); the storage mechanism comprises a linkage unit and a storage plate (16), wherein the linkage unit is respectively arranged at the left side and the right side of the electric telescopic cylinder (3), and the storage plate (16) is commonly arranged at the other ends of the two linkage units of the same electric telescopic cylinder (3); the gap between the stamping die (4) and the corresponding object placing plate (16) is used for placing the assembly frame (5) and the iron frame (6); when the electric telescopic cylinder (3) drives the stamping die (4) to move downwards, the stamping die (4) drives the object placing plate (16) to move upwards through corresponding two linkage units.

4. A die break apparatus for a carrier housing as claimed in claim 3 wherein: the linkage unit comprises a driving toothed plate (10), the driving toothed plate (10) is fixedly connected with a telescopic shaft of the electric telescopic cylinder (3), the toothed part of the driving toothed plate (10) is in meshed connection with a first transmission gear (11), the first transmission gear (11) is connected to a supporting rail (12) in a switching mode, and the supporting rail (12) is fixedly connected to a cylinder body of the electric telescopic cylinder (3); an auxiliary toothed plate (13) is slid on one side of the supporting rail (12), and the toothed part of the auxiliary toothed plate (13) is meshed and linked with the other side of the first transmission gear (11); the auxiliary toothed plate (13) is provided with a U-shaped tray (15), one side of the U-shaped tray (15) is connected with the auxiliary toothed plate (13), and the other side of the U-shaped tray (15) is used for lifting the corresponding storage plate (16).

5. The die break apparatus of claim 4, wherein: the edge of the object placing plate (16) is provided with a step groove (17), and the step groove (17) is in lap joint fit with the vertical end of the stamping die (4).

6. A system for die breaking of a carrier housing, comprising: a punch-breaking device comprising the carrier housing of claim 5, further comprising a transport device on which the punch-breaking device of the carrier housing is provided; the conveying device comprises a bearing frame (18), wherein a lap joint table is connected between the tops of a left supporting arm and a right supporting arm of the bearing frame (18), and the lap joint table is connected with a pushing mechanism (9); the upper surfaces of the supporting floors below the left supporting arm and the right supporting arm are provided with a belt conveyor (19), and a supporting part (7) is placed on a belt of the belt conveyor (19).

7. The carrier housing punch-break system of claim 6, wherein: the collecting device is connected with the storage mechanism, and a receiving groove (20) is arranged below the collecting device and on the supporting floor; when the assembly frame (5) is separated from the iron frame (6), the collecting device is used for collecting the assembly frame (5) which falls off from the object placing plate (16) into the receiving groove (20).