CN209948303U - Step-by-step assembling equipment for multiple terminals and material belts - Google Patents

Abstract

The utility model provides a stepwise assembly device for multiple terminals sharing material belts, which comprises a base, wherein the base is provided with a shell conveying component, an assembly material clamping component and a terminal cutting component; the terminal cutting assembly comprises a cutting support, a terminal material channel is fixed on the cutting support, a first gap portion and a second gap portion are arranged on the terminal material channel, and a first cutting structure and a second cutting structure are further arranged on the cutting support; the first cutting structure comprises a first cutting lifting mechanism, a first main cutter is fixed at the output end of the first cutting lifting mechanism, the first cutting structure further comprises a y-axis pushing mechanism, a clamping lifting mechanism, an upper clamping plate and a lower clamping plate, and the first cutting structure further comprises a first pushing block; the second cutting structure comprises a second cutting lifting mechanism, a second main cutter is fixed at the output end of the second cutting lifting mechanism, and the second cutting structure further comprises a second pushing block. The utility model discloses can carry out reliable cutting, machining efficiency is high to the terminal of different specifications.

Description

Step-by-step assembling equipment for multiple terminals and material belts

Technical Field

The utility model relates to a connector equipment specifically discloses a substep equipment for multiple terminal is taken altogether.

Background

Connectors, also known as connectors, plugs or sockets, are used to connect two active devices for transmitting current or signals. The connector mainly comprises a terminal and a plastic shell, and after the terminal and the plastic shell are manufactured, the connector is mainly assembled by inserting the terminal into a corresponding position in the plastic shell.

Different connectors have different specification structures, and terminals with different specifications need to be arranged in part of the connectors. Terminals with different specifications can be arranged in different material belts, and in the case, a plurality of cutting machines and pin inserting machines are required to cut and assemble the material belts and the terminals, so that the equipment investment cost and the land cost are high; different terminals set up in same material area, when multiple terminal takes the area altogether promptly, generally all cut the terminal in the material area earlier, obtain the independent terminal of different specifications after the rethread hand to it carry out contact pin equipment processing, this kind of mode processing makes mistakes easily, the defective rate is high, and the cost of labor is high.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide a substep equipment for multiple terminal is taken altogether to prior art problem, can carry out reliable cutting contact pin processing to the multi-terminal is taken altogether, and the machining precision is high, and machining efficiency is high.

In order to solve the prior art problem, the utility model discloses a stepwise assembly device for multiple terminals sharing a material belt, which comprises a base, wherein a shell conveying component is arranged on the base, and an assembly material clamping component and a terminal cutting component are respectively arranged at two sides of the shell conveying component;

the terminal cutting assembly comprises a cutting support, a terminal material channel extending along an x axis is fixed on the cutting support, n first notch portions and a second notch portion are sequentially arranged on the terminal material channel along the x axis direction, n is an integer larger than 1, and n first cutting structures and a second cutting structure are further arranged on the cutting support;

the first cutting structure comprises a first cutting lifting mechanism, a first main cutter is fixed at the output end of the first cutting lifting mechanism, the first main cutter is located right above the first gap portion, the first cutting structure further comprises a y-axis pushing mechanism, the output end of the y-axis pushing mechanism is connected with a clamping lifting mechanism, an upper clamping plate is fixed at the output end of the clamping lifting mechanism, a lower clamping plate is fixed at the fixed end of the top of the clamping lifting mechanism, the upper clamping plate is located right above the lower clamping plate, the first cutting structure further comprises a first pushing block, the first pushing block is located on one side, close to the shell conveying assembly, of the terminal material channel, and the first pushing block is located between the first gap portion and the second gap portion;

the second cuts the structure and includes that the second cuts elevating system, and the second cuts elevating system's output end and is fixed with the main cutter of second, and the main cutter of second is located second breach portion directly over, and the second cuts the structure and still includes second bulldozes the piece, and the second bulldozes the piece and is located the terminal material and says one side that is close to shell conveying assembly, and the second bulldozes the piece and is located second breach portion and keeps away from one side of first breach portion.

Further, the shell conveying assembly comprises a feeding support, a conveying belt and two strip-shaped limiting seats are arranged in the feeding support, the conveying belt and the two strip-shaped limiting seats are conveyed along the x-axis direction, the two strip-shaped limiting seats are respectively located on two sides of the conveying belt, a material blocking block is further fixed on the feeding support and located above the conveying belt, a feeding channel is arranged on one side of the material blocking block, a lifting limiting hole is formed in the top of the material blocking block, and the lifting limiting hole is communicated with the feeding channel; all be equipped with one in every spacing seat of bar and step down the through-hole, two step down the through-holes and all be located the below that keeps off the material piece, the pay-off support has liftout elevating system, and liftout elevating system's output is fixed with the liftout piece, and the top of liftout piece is fixed with two liftout risers, and two liftout risers pass two setting of stepping down the through-hole respectively.

Furthermore, the assembly material clamping assembly comprises a three-axis positioning structure, and a material clamp is fixed at the output end of the three-axis positioning structure.

Furthermore, an auxiliary clamping baffle is fixed on the material blocking block and is positioned on one side, away from the assembling and material clamping assembly, of the lifting limiting hole.

Furthermore, the three-axis positioning structure comprises an x-axis positioning mechanism, a y-axis positioning mechanism and a z-axis positioning mechanism which are connected in pairs.

Furthermore, a feeding motor rotating around the y axis is further arranged on the cutting support, a feeding gear is fixed at the output end of the feeding motor, and the feeding gear is located above the terminal material channel.

Further, still be equipped with first spacing elevating system and the spacing elevating system of second under cutting the support, first spacing elevating system's output is fixed with first secondary cutter, and first secondary cutter is located first breach portion under, and the spacing elevating system's of second output is fixed with the vice cutter of second, and the vice cutter of second is located second breach portion under.

Furthermore, a waste material channel is fixed on the cutting support, and an inlet of the waste material channel is opposite to an outlet of the terminal material channel.

Further, still be equipped with the third under cutting the support and cut elevating system, the third cuts elevating system's output and is fixed with the waste material cutter, cuts still to be fixed with the waste material blade holder on the support, and the waste material blade holder is located the export that the terminal material was said, and the waste material cutter is located the top of waste material blade holder.

The utility model has the advantages that: the utility model discloses a substep equipment for multiple terminal is material area altogether is provided with a plurality of and cuts the station of adding, can carry out reliable cutting to the terminal of different specifications, in a set of terminal is taken to the material altogether, the terminal in the place ahead cuts and can be taken out one by one after accomplishing, and accomplish accurate contact pin equipment with the plastic shell one by one, last terminal is accomplished and is cut the back and can directly counterpoint the contact pin equipment with the plastic shell, the contact pin action is accurate reliable, high machining efficiency, equipment occupation of land space is little, it directly carries out the contact pin to need not the staff, low in processing cost.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the middle housing conveying assembly of the present invention.

Fig. 3 is an enlarged schematic structural diagram of a in fig. 2 according to the present invention.

Fig. 4 is a schematic view of a three-dimensional structure of the middle assembly material clamping assembly of the present invention.

Fig. 5 is a schematic view of a three-dimensional structure of the middle terminal cutting assembly of the present invention.

Fig. 6 is an enlarged schematic structural diagram of B in fig. 5 according to the present invention.

Fig. 7 is a schematic perspective view of another view angle of the middle terminal cutting assembly of the present invention.

Fig. 8 is a schematic perspective view of another view angle of the middle terminal cutting assembly of the present invention.

Fig. 9 is an enlarged schematic structural diagram of C in fig. 8 when the first terminal of the present invention is pre-inserted.

Fig. 10 is an enlarged schematic structural view of C in fig. 8 when the first terminal is completely pressed in according to the present invention.

Fig. 11 is an enlarged schematic structural diagram of C in fig. 8 when the second terminal is pre-inserted according to the present invention.

Fig. 12 is an enlarged schematic structural diagram of C in fig. 8 when the second terminal is completely pressed in according to the present invention.

The reference signs are: the automatic assembling and cutting device comprises a base 10, a shell conveying component 20, a feeding support 21, a conveying belt 22, a strip-shaped limiting seat 23, a abdicating channel 231, a material blocking block 24, a feeding channel 241, a lifting limiting hole 242, a material ejecting lifting mechanism 25, a material ejecting block 26, a material ejecting vertical plate 261, an auxiliary clamping baffle 27, an assembling material clamping component 30, a three-axis positioning structure 31, an x-axis positioning mechanism 311, a z-axis positioning mechanism 312, a y-axis positioning mechanism 313, a material clamp 32, a terminal cutting component 40, a cutting support 41, a terminal material channel 42, a first notch part 421, a second notch part 422, a feeding motor 43, a feeding gear 431, a waste material channel 44, a first cutting structure 50, a first cutting lifting mechanism 51, a first main cutter 511, a y-axis pushing mechanism 52, a clamping lifting mechanism 53, an upper clamping plate 531, a lower clamping plate 532, a first pushing block 54, a first limiting lifting mechanism 55, a first auxiliary cutter 551, a second cutting structure 60, the cutting device comprises a second cutting lifting mechanism 61, a second main cutter 611, a second push block 62, a second limiting lifting mechanism 63, a second auxiliary cutter 631, a third cutting lifting mechanism 71, a waste cutter 711, a waste cutting seat 72, a material belt frame 80, a first terminal 81, a second terminal 82 and a plastic shell 90.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

Refer to fig. 1 to 12.

The embodiment of the utility model discloses a step-by-step assembly equipment for multiple terminal sharing material area, as shown in fig. 1-8, including base 10, be equipped with shell conveying subassembly 20 on base 10, the both sides of shell conveying subassembly 20 are equipped with respectively and assemble material clamping component 30 and terminal cutting assembly 40, and the material clamping component 30 of equipment and terminal cutting assembly 40 are located the both sides of shell conveying subassembly 20 in the y axle respectively promptly;

the terminal cutting assembly 40 comprises a cutting support 41, a terminal material channel 42 extending along the x axis is fixed on the cutting support 41, n first notch portions 421 and a second notch portion 422 are sequentially arranged on the terminal material channel 42 along the x axis direction, n is an integer larger than 1, and n first cutting structures 50 and a second cutting structure 60 are further arranged on the cutting support 41;

the first cutting structure 50 includes a first cutting lifting mechanism 51, a first main cutter 511 is fixed at an output end of the first cutting lifting mechanism 51, the first main cutter 511 is located right above the first notch 421, the first cutting structure 50 further includes a y-axis pushing mechanism 52, the y-axis pushing mechanism 52 is fixed below the cutting support 41, preferably, the y-axis pushing mechanism 52 is a cylinder driven along the y-axis, an output end of the y-axis pushing mechanism 52 is connected with a clamping lifting mechanism 53, preferably, the clamping lifting mechanism 53 is a cylinder driven along the z-axis, an output end of the clamping lifting mechanism 53 is fixed with an upper clamping plate 531, a fixed end at the top of the clamping lifting mechanism 53 is fixed with a lower clamping plate 532, the upper clamping plate 531 is located right above the lower clamping plate 532, the upper clamping plate 531 and the lower clamping plate 532 move close to each other to clamp the terminal, the upper clamping plate 531 and the lower clamping plate 532 are located at a side of the terminal material channel 42 close to the housing conveying assembly 20, the first cutting structure 50 further includes a first pushing block 54, the first pushing block 54 is located on one side of the terminal material channel 42 close to the housing conveying assembly 20, the first pushing block 54 matches with the shape structure of the terminal, and the first pushing block 54 is located between the first notch portion 421 and the second notch portion 422;

the second cutting structure 60 includes a second cutting lifting mechanism 61, preferably, the first cutting lifting mechanism 51 and the second cutting lifting mechanism 61 are both cylinders driven along the z axis, the output end of the second cutting lifting mechanism 61 is fixed with a second main cutter 611, the second main cutter 611 is located right above the second notch portion 422, the second cutting structure 60 further includes a second pushing block 62, the second pushing block 62 is located on one side of the terminal material channel 42 close to the housing conveying assembly 20, the second pushing block 62 is located on one side of the second notch portion 422 far away from the first notch portion 421, and the second pushing block 62 is matched with the shape structure of the terminal.

The plastic housing 90 is placed on the housing transfer assembly 20 for transfer, and the multi-terminal tape is generally combined with at least two terminals, for example, two terminals in the multi-terminal tape. The multiple terminal common material belts are placed on the terminal material channel 42, the first cutting lifting mechanism 51 drives the first main cutter 511 to press downwards, so that a connecting rib between the first terminal 81 and the material belt frame 80 is cut off, the upper clamping plate 531 and the lower clamping plate 532 are positioned above and below the cut first terminal 81, the clamping lifting mechanism 53 drives the upper clamping plate 531 to move towards the lower clamping plate 532 and clamp the cut first terminal 81, the y-axis pushing mechanism 52 drives the clamping lifting mechanism 53 to move integrally away from the terminal material channel 42, so that the first terminal 81 is completely separated from the material belt frame 80, and at the moment, the first terminal 81 is positioned outside one side of the terminal material channel 42, which is close to the shell conveying assembly 20; as shown in fig. 9, the assembly clamping assembly 30 clamps the plastic housing 90 in the housing conveying assembly 20, and after the assembly clamping assembly 30 aligns the first mounting position of the plastic housing 90 with the cut first terminal 81, the assembly clamping assembly 30 drives the plastic housing 90 to approach the upper clamping plate 531 and the lower clamping plate 532, so that the first terminal 81 between the upper clamping plate 531 and the lower clamping plate 532 is pre-inserted into the plastic housing 90; as shown in fig. 10, the assembly clamping assembly 30 drives the plastic housing 90 inserted into the first terminal 81 to align with the first pushing block 54, the assembly clamping assembly 30 drives the plastic housing 90 to approach the first pushing block 54, and the first pushing block 54 pushes the first terminal 81 to be completely pressed and installed in the plastic housing 90; the second cutting lifting mechanism 61 drives the second main cutter 611 to descend, the second main cutter 611 cuts off a connecting rib between the second terminal 82 and the material belt frame 80, and the position of the second terminal 82 is matched with the position of the material belt frame 80 where the first terminal 81 is installed; as shown in fig. 11, the assembly clamping assembly 30 drives the plastic housing 90 with the first terminals 81 mounted thereon to align and approach the cut second terminals 82, and the second terminals 82 are pre-inserted into the plastic housing 90; as shown in fig. 12, the assembly clamping assembly 30 drives the plastic housing 90 inserted into the second terminal 82 to align with and move close to the second pushing block 62, and the second pushing block 62 presses and installs the second terminal 82 into the plastic housing 90 completely. By analogy, the plastic housing 90 can be cut and inserted with different types of terminals in the same equipment.

The utility model discloses be provided with a plurality of stations that add that cut, can carry out reliable cutting to the terminal of different specifications, take a set of terminal altogether, the terminal in the place ahead can be taken out one by one after cutting the completion to accomplish accurate contact pin equipment with plastic shell 90 one by one, last terminal is accomplished and is cut the back and can directly counterpoint the contact pin equipment with plastic shell 90, the contact pin action is accurate reliable, machining efficiency is high, equipment takes up an area of the space for a short time, it directly carries out the contact pin to need not the staff, the processing cost is low.

In this embodiment, the housing conveying assembly 20 includes a feeding support 21, a conveyor belt 22 and two strip-shaped limiting seats 23 which are conveyed along the x-axis direction are arranged in the feeding support 21, the two strip-shaped limiting seats 23 are respectively located at two sides of the conveyor belt 22, a material blocking block 24 is further fixed on the feeding support 21, the material blocking block 24 is located above the conveyor belt 22, a feeding channel 241 is arranged at one side of the material blocking block 24, the feeding channel 241 only penetrates through one side of the material blocking block 24, the plastic housing 90 is blocked by the other side of the material blocking block 24, a lifting limiting hole 242 is arranged at the top of the material blocking block 24, the lifting limiting hole 242 is used for limiting the lifting track of the plastic housing 90, and the lifting limiting hole 242 is; all be equipped with one in every spacing seat of bar 23 and step down through-hole 231, two step down through-holes 231 all are located the below of material blocking piece 24, pay-off support 21 has along z axle driven liftout elevating system 25, liftout elevating system 25's output is fixed with liftout piece 26, liftout piece 26's top is fixed with two liftout risers 261, two liftout risers 261 pass two respectively and step down the through-hole 231 setting, plastic shell 90 gos forward on conveyer belt 22, be stopped by material blocking piece 24 after getting into feedstock channel 241 and go forward, liftout elevating system 25 drives liftout piece 26 and rises, liftout riser 261 rises along step down through-hole 231, liftout riser 261 drive plastic shell 90 rises in the restriction of spacing hole 242 that goes up and down, plastic shell 90 protrusion in the top of material blocking piece 24, supply equipment clamping component 30 to carry out accurate clamp to this plastic shell 90.

Based on the above embodiment, the assembly material clamping assembly 30 includes the three-axis positioning structure 31, the material clamp 32 is fixed at the output end of the three-axis positioning structure 31, the three-axis positioning structure 31 can drive the material clamp 32 to realize the positioning of the x-y-z axis, and preferably, the material clamp 32 is a material clamp 32 with certain elasticity and no power source, or the material clamp 32 is a material clamp 32 clamped by air.

Based on the above embodiment, the material blocking block 24 is fixed with the auxiliary clamping baffle 27, the auxiliary clamping baffle 27 is located on one side of the lifting limiting hole 242 away from the assembling material clamping assembly 30, and when the material clamp 32 clamps the plastic shell 90 on the lifting limiting hole 242, the auxiliary clamping baffle 27 can prevent the plastic shell 90 from advancing along the y axis, so as to ensure that the material clamp 32 can stably clamp the plastic shell 90.

Based on the above embodiment, the three-axis positioning structure 31 includes two x-axis positioning mechanisms 311, two y-axis positioning mechanisms 313, and two z-axis positioning mechanisms 312 connected to each other, preferably, an output end of the x-axis positioning mechanism 311 is connected to a fixing housing of the z-axis positioning mechanism 312, an output end of the z-axis positioning mechanism 312 is connected to a fixing housing of the y-axis positioning mechanism 313, an output end of the y-axis positioning mechanism 313 is an output end of the three-axis positioning structure 31, and the x-axis positioning mechanism 311, the y-axis positioning mechanism 313, and the z-axis positioning mechanism 312 are all screw rod positioning mechanisms.

In this embodiment, the cutting support 41 is further provided with a feeding motor 43 rotating around the y-axis, the output end of the feeding motor 43 is fixed with a feeding gear 431, the feeding gear 431 is located above the terminal material channel 42, and the positioning teeth of the feeding gear 431 are matched with the positioning holes in the material belt frame 80, so that the material belt frame 80 can be effectively conveyed.

In this embodiment, a first limit lifting mechanism 55 and a second limit lifting mechanism 63 are further disposed below the cutting support 41, preferably, both the first limit lifting mechanism 55 and the second limit lifting mechanism 63 are lifting cylinders, a first auxiliary cutter 551 is fixed to an output end of the first limit lifting mechanism 55, the first auxiliary cutter 551 is located under the first notch portion 421, the first auxiliary cutter 551 can realize stable cutting processing on the first terminal 81 in cooperation with the first main cutter 511, z-axis positioning at a certain distance can be performed on the first terminal 81, a second auxiliary cutter 631 is fixed to an output end of the second limit lifting mechanism 63, the second auxiliary cutter 631 is located under the second notch portion 422, the first auxiliary cutter 551 can realize stable cutting processing on the second terminal 82 in cooperation with the second main cutter 611, and z-axis positioning at a certain distance can be performed on the second terminal 82. The first cutting structure 50 comprises a first cutting lifting mechanism 51, a first main cutter 511, a y-axis pushing mechanism 52, a clamping lifting mechanism 53, an upper clamping plate 531, a lower clamping plate 532, a first pushing block 54, a first limiting lifting mechanism 55 and a first auxiliary cutter 551, and the second cutting structure 60 comprises a second cutting lifting mechanism 61, a second main cutter 611, a second pushing block 62, a second limiting lifting mechanism 63 and a second auxiliary cutter 631.

In this embodiment, a waste channel 44 is further fixed on the cutting support 41, and an inlet of the waste channel 44 faces an outlet of the terminal material channel 42.

Based on above-mentioned embodiment, still be equipped with the third under the support 41 and cut elevating system 71, preferably, the third cuts elevating system 71 and is the cylinder along z axle driven, the output that the third cut elevating system 71 is fixed with waste material cutter 711, still be fixed with waste material blade holder 72 on the support 41 cuts, waste material blade holder 72 is located the export of terminal material way 42, waste material cutter 711 is located waste material blade holder 72's top, shearing force that misplaces formation with waste material blade holder 72 when waste material cutter 711 pushes down cuts into the subsection to the waste material of taking frame 80, thereby reduce the collection degree of difficulty of waste material.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (9)

1. The step-by-step assembling equipment for the multiple terminal common material belts is characterized by comprising a base (10), wherein a shell conveying assembly (20) is arranged on the base (10), and an assembling material clamping assembly (30) and a terminal cutting assembly (40) are respectively arranged on two sides of the shell conveying assembly (20);

the terminal cutting assembly (40) comprises a cutting support (41), a terminal material channel (42) extending along an x axis is fixed on the cutting support (41), n first gap parts (421) and a second gap part (422) are sequentially arranged on the terminal material channel (42) along the x axis direction, n is an integer larger than 1, and n first cutting structures (50) and n second cutting structures (60) are further arranged on the cutting support (41);

first cutting structure (50) includes first elevating system (51) that cuts, the first output that cuts elevating system (51) is fixed with first main cutter (511), first main cutter (511) are located directly over first breach portion (421), first cutting structure (50) still includes y axle pushing equipment (52), the output of y axle pushing equipment (52) is connected with presss from both sides tight elevating system (53), the output that presss from both sides tight elevating system (53) is fixed with punch holder (531), the stiff end that presss from both sides tight elevating system (53) top is fixed with lower plate (532), punch holder (531) are located directly over lower plate (532), first cutting structure (50) still includes first bulldoze piece (54), first bulldoze piece (54) are located terminal material way (42) are close to one side of shell conveying component (20), the first push block (54) is positioned between the first notch portion (421) and the second notch portion (422);

the second cutting structure (60) comprises a second cutting lifting mechanism (61), the output end of the second cutting lifting mechanism (61) is fixed with a second main cutter (611), the second main cutter (611) is located right above the second notch portion (422), the second cutting structure (60) further comprises a second pushing block (62), the second pushing block (62) is located on one side of the terminal material channel (42) close to the shell conveying assembly (20), and the second pushing block (62) is located on one side of the second notch portion (422) far away from the first notch portion (421).

2. The step-by-step assembling device for multiple terminal common material belts according to claim 1, wherein the housing conveying assembly (20) comprises a feeding support (21), a conveying belt (22) for conveying along an x-axis and two strip-shaped limiting seats (23) are arranged in the feeding support (21), the two strip-shaped limiting seats (23) are respectively located on two sides of the conveying belt (22), a material blocking block (24) is further fixed on the feeding support (21), the material blocking block (24) is located above the conveying belt (22), a feeding channel (241) is arranged on one side of the material blocking block (24), a lifting limiting hole (242) is arranged at the top of the material blocking block (24), and the lifting limiting hole (242) is communicated with the feeding channel (241); every all be equipped with one in the spacing seat of bar (23) and let a through-hole (231), two let a through-hole (231) all be located keep off the below of material piece (24), pay-off support (21) have liftout elevating system (25), the output of liftout elevating system (25) is fixed with liftout piece (26), the top of liftout piece (26) is fixed with two liftout riser (261), two liftout riser (261) pass two respectively let a through-hole (231) set up.

3. The step-by-step assembly device for multiple terminal strips according to claim 2, wherein the assembly clamping assembly (30) comprises a three-axis positioning structure (31), and the output end of the three-axis positioning structure (31) is fixed with a clamping clip (32).

4. The step assembling device for multiple terminal shared tapes according to claim 3, wherein an auxiliary clamping baffle (27) is fixed on the material blocking block (24), and the auxiliary clamping baffle (27) is located on one side of the lifting limiting hole (242) far away from the assembling material clamping assembly (30).

5. The step-and-assemble device for multiple terminal strips according to claim 3, wherein said three-axis positioning structure (31) comprises two-by-two connected x-axis positioning mechanism (311), y-axis positioning mechanism (313) and z-axis positioning mechanism (312).

6. The step-by-step assembling device for multiple terminal strips in common according to claim 1, wherein the cutting support (41) is further provided with a feeding motor (43) rotating around a y-axis, an output end of the feeding motor (43) is fixed with a feeding gear (431), and the feeding gear (431) is located above the terminal strip (42).

7. The step-by-step assembling equipment for multiple terminal common material belts according to claim 1, wherein a first limit lifting mechanism (55) and a second limit lifting mechanism (63) are further arranged below the cutting support (41), a first auxiliary cutter (551) is fixed at the output end of the first limit lifting mechanism (55), the first auxiliary cutter (551) is located right below the first notch portion (421), a second auxiliary cutter (631) is fixed at the output end of the second limit lifting mechanism (63), and the second auxiliary cutter (631) is located right below the second notch portion (422).

8. The step-by-step assembly equipment for multiple terminal strips according to claim 1, wherein a waste channel (44) is further fixed on the cutting support (41), and an inlet of the waste channel (44) is opposite to an outlet of the terminal strip (42).

9. The step-by-step assembling apparatus for multiple terminal strips as claimed in claim 8, wherein a third cutting and lifting mechanism (71) is further disposed under the cutting frame (41), a waste cutter (711) is fixed to an output end of the third cutting and lifting mechanism (71), a waste cutter seat (72) is further fixed to the cutting frame (41), the waste cutter seat (72) is located at an outlet of the terminal strip (42), and the waste cutter (711) is located above the waste cutter seat (72).

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