CN114789812A

CN114789812A - Diode is material loading subassembly for braider

Info

Publication number: CN114789812A
Application number: CN202210475064.1A
Authority: CN
Inventors: 叶晓刚
Original assignee: Semtech Semiconductor Technology Dongguan Co Ltd
Current assignee: Semtech Semiconductor Technology Dongguan Co Ltd
Priority date: 2022-04-29
Filing date: 2022-04-29
Publication date: 2022-07-26
Anticipated expiration: 2042-04-29
Also published as: CN114789812B

Abstract

The invention provides a feeding assembly for a diode braider, which comprises a material guide pipeline, an installation plate, a first guide rail block, a second guide rail block and an adjusting connecting rod, wherein the material guide pipeline is arranged on the installation plate; the material guide pipeline is connected with the mounting plate, and a discharge hole is formed in one side, close to the first guide rail block and the second guide rail block, of the material guide pipeline; the first guide rail block and the second guide rail block are arranged on one side of the mounting plate in parallel; a feeding gap is formed between the first guide rail block and the second guide rail block; one side face, opposite to the first guide rail block and the second guide rail block, of each guide rail block is provided with a guide rail groove corresponding to the diode pin; mounting lugs are arranged on the outer side surfaces of the first guide rail block and the second guide rail block, connecting rods A corresponding to the adjusting connecting rods are arranged on the mounting lugs, and one side of each connecting rod A is sleeved on the adjusting connecting rod through a sleeve A; the sleeve A is connected with an adjusting bolt; the position of the material guide pipeline corresponding to the discharge hole is connected with an air blowing nozzle. The device can be suitable for diode braiding operation with multiple sizes and has high applicability.

Description

Diode is material loading subassembly for braider

Technical Field

The invention relates to the technical field of diode processing, in particular to a feeding assembly for a diode braider.

Background

The braider can be divided into semi-automatic and full-automatic types, and bulk component products are put into a carrier tape after passing through detection, reversing, testing and other stations. The working principle of the braider is as follows: after the electric and pneumatic connection of the braid packaging machine is completed, if the braid packaging machine is used for heat packaging, the cutter is raised to the proper temperature, and the carrier band and the air pressure of an air source are adjusted. The SMD component is placed into the carrier tape by manual or automatic feeding equipment, the motor rotates to pull the cover tape forming carrier tape to a packaging position, the cover tape is arranged at the upper part and the lower part, and the two blades after temperature rise are pressed on the cover tape and the carrier tape, so that the SMD component port on the carrier tape is sealed by the cover tape, and the purpose of SMD component packaging is achieved. The take-up reel then takes up the encapsulated carrier tape.

Chinese patent application publication No. CN 112588619A, having application publication date of 2021, 04 and 02, entitled diode pin judgment braid cutting device, discloses the following technical contents, including a machine body, a conveying cavity is arranged in the machine body, the conveying cavity is communicated with a bottom adhesive cavity with a left opening leftwards, the right side of the conveying cavity is communicated with an adhesive cavity with an upward opening upwards, the adhesive cavity is communicated with a finished product cavity downwards, a turntable cavity is arranged on the upper side of the conveying cavity in the machine body, a belt cavity is arranged on the rear side of the turntable cavity in the machine body, a turntable shaft extending forwards and backwards is rotatably arranged between the belt cavity and the turntable cavity, the diode pin judgment braid cutting device provided by the invention has simple structure and stable operation, and the pin polarity judgment and the element quality inspection are carried out according to the unidirectional conduction characteristic of a diode, and after the arrangement, braiding is carried out, and redundant pins are cut off at the same time, so that the qualification rate of the diode element is ensured. This structure is direct with the diode blanking to the primer on, after this diode deviates the discharge gate along with the removal of primer, next diode also corresponds under the effect of gravity and falls into the primer on, however, the storage cavity is difficult to avoid the condition that can appear blockking up, this just needs to spend a large amount of time to go to dredge, influences production efficiency.

Chinese patent grant publication No. CN212530195U, grant publication date is 12 days in 2021, 02 months, the name of the utility model is a triode braider, which discloses the following technical contents: including link and the braid that is located the link below, a plurality of standing grooves have been seted up to equidistant on the braid, the one end fixed mounting of link has the material loading pipe, one side fixed mounting of material loading pipe has L shape passage, and L shape passage is linked together with the material loading pipe, L shape passage and the corresponding standing groove looks adaptation, place in the material loading pipe with a plurality of triodes, triode and L shape passage looks adaptation, first hole has been seted up on the link, first downthehole slidable mounting has the montant, the one end fixed mounting of montant has reset spring's one end, reset spring's other end fixed mounting is on the inner wall in first hole. This patent teaches a loading method, that is, the diodes are stacked in sequence and loaded one by one into the material belt, but in order to ensure the processing efficiency, the loading method is only suitable for diode products of a single size, and the utilization rate is low. In view of such circumstances, improvement is urgently required.

Disclosure of Invention

Based on this, the invention aims to provide a feeding assembly for a diode braiding machine, which is suitable for multi-size diode braiding operation and has high applicability.

The invention provides a feeding assembly for a diode braider, which comprises a material guide pipeline, an installation plate, a first guide rail block, a second guide rail block and an adjusting connecting rod, wherein the material guide pipeline is arranged on the installation plate; the bottom of the material guide pipeline is connected with the mounting plate, and a discharge hole is formed in one side, close to the first guide rail block and the second guide rail block, of the material guide pipeline; the first guide rail block and the second guide rail block are arranged on one side of the mounting plate in parallel; a feeding gap is formed between the first guide rail block and the second guide rail block; the upper surfaces of the first guide rail block and the second guide rail block are lower than the upper surface of the mounting plate; one side face, opposite to the first guide rail block and the second guide rail block, of each guide rail block is provided with a guide rail groove corresponding to the diode pin; mounting convex blocks are arranged on the outer side surfaces of the first guide rail block and the second guide rail block, connecting rods A corresponding to the adjusting connecting rods are arranged on the mounting convex blocks, and one sides of the connecting rods A are sleeved on the adjusting connecting rods through sleeves A; the sleeve A is connected with an adjusting bolt; the material guide pipeline is connected with a blowing nozzle at a position corresponding to the discharge port.

Further, the material guide pipeline comprises a first U-shaped frame and a second U-shaped frame, the first U-shaped frame and the second U-shaped frame are arranged oppositely, and a gap for extending out of the diode pin is formed between the first U-shaped frame and the second U-shaped frame; the second U-shaped frame is connected with the mounting plate through an L-shaped rod; the first U-shaped frame is connected with the mounting plate; the first U-shaped frame and the second U-shaped frame are arranged in an enclosing mode to form a diode shell containing cavity; a discharge hole is formed in the lower part of the second U-shaped frame; and a blowing nozzle is arranged at the position of the lower part of the first U-shaped frame corresponding to the discharge hole.

Furthermore, two opposite sides of the mounting plate are provided with baffles; the second U-shaped frame is connected with the baffle through an L-shaped rod.

Furthermore, the middle part of the adjusting connecting rod is connected with an anti-jumping baffle through a sleeve B; the anti-jumping baffle is provided with a rotating shaft seat close to one side of the sleeve B, the rotating shaft seat is connected with a connecting block through a rotating shaft A, and the other side of the connecting block is connected with the sleeve B.

Furthermore, the upper surfaces of the first guide rail block and the second guide rail block are convexly provided with limiting coamings at positions corresponding to the inlets of the guide rail grooves.

Furthermore, a triangular material guide sliding table corresponding to the guide rail groove is arranged in the middle of one side, close to the feeding gap, of the mounting plate.

Furthermore, the outer side surfaces of the first guide rail block and the second guide rail block are respectively provided with a compression structure; the pressing structure comprises a push-pull motor, an L-shaped push-pull arm, a connecting rod B and a pressing wheel, the push-pull motor is arranged on the outer side surfaces of the first guide rail block and the second guide rail block, and one end of the L-shaped push-pull arm is connected with the power output end of the push-pull motor; the connecting rod B is connected with the outer side surfaces of the first guide rail block and the second guide rail block through a rotating shaft B; a torsion spring connected with the connecting rod B is sleeved outside the rotating shaft B; one side of the connecting rod B, which is far away from the L-shaped push-pull arm, is connected with the pressing wheel; when the L-shaped push-pull arm is in an extending state, the pressing wheel is in a retracting state; when the L-shaped push-pull arm is in a retraction state, the pressing wheel is in contact with the material belt.

Further, an arc-shaped limiting groove is formed in the position, corresponding to the material guide pipeline, of the mounting plate.

The invention has the beneficial effects that:

1. by arranging the material guide pipeline, the mounting plate, the first guide rail block, the second guide rail block and the adjusting connecting rod, the diode enters the feeding gap through the material guide pipeline to finish the feeding action; mounting lugs are arranged on the outer side surfaces of the first guide rail block and the second guide rail block, connecting rods A corresponding to the adjusting connecting rods are arranged on the mounting lugs, and one side of each connecting rod A is sleeved on the adjusting connecting rod through a sleeve A; the sleeve A is connected with an adjusting bolt; the position that the material guide pipeline corresponds with the discharge gate is connected with the blowing nozzle, when the relative distance in material loading clearance need be adjusted, accessible adjusting sleeve pipe A on the adjusting link relative position can, easy and simple to handle, applicable many sizes diode braid operation, the suitability degree is high.

2. The outer side surfaces of the first guide rail block and the second guide rail block are respectively provided with a pressing structure, and after the diode enters the material belt, pressure is applied to the diode through the pressing structures, so that the diode can be tightly contacted with the material belt, and the quality of the braid is ensured.

Drawings

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

Fig. 2 is a side view of the present invention.

Fig. 3 is a top view of the present invention.

The reference signs are: the device comprises a gap 10, a material guide pipeline 11, a shell 12, pins 13, a mounting plate 14, a baffle 15, a limiting enclosing plate 16, a triangular material guide sliding table 17, a push-pull motor 18, an L-shaped push-pull arm 19, a connecting rod B22, a pinch roller 20, a guide rail groove 23, a second guide rail block 24, a diode 25, a mounting lug 26, a connecting rod A27, a sleeve A28, an adjusting connecting rod 29, an adjusting bolt 30, an anti-jump baffle 31, an air blowing nozzle 32, a rotating shaft seat 33, an L-shaped rod 34, a first guide rail block 35, a first U-shaped frame 37, a second U-shaped frame 36, an arc limiting groove 38, a sleeve B39, a connecting block 40, a material loading gap 41 and a rotating shaft A42.

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.

Please refer to fig. 1-3: a feeding assembly for a diode braider comprises a feeding pipeline 11, a mounting plate 14, a first guide rail block 35, a second guide rail block 24 and an adjusting connecting rod 29; the bottom of the material guide pipeline 11 is connected with the mounting plate 14, and a discharge hole is formed in one side, close to the first guide rail block 35 and the second guide rail block 24, of the material guide pipeline 11; the first guide rail block 35 and the second guide rail block 24 are arranged in parallel on one side of the mounting plate 14; a feeding gap 41 is formed between the first guide rail block 35 and the second guide rail block 24; the upper surfaces of the first rail block 35 and the second rail block 24 are lower than the upper surface of the mounting plate 14; a guide rail groove 23 corresponding to the pin 13 of the diode 25 is formed in one side surface of the first guide rail block 35 opposite to the second guide rail block 24; the outer side surfaces of the first guide rail block 35 and the second guide rail block 24 are both provided with mounting lugs 26, the mounting lugs 26 are both provided with connecting rods A27 corresponding to the adjusting connecting rods 29, and one side of the connecting rod A27 is sleeved on the adjusting connecting rods 29 through a sleeve A28; the sleeve A28 is connected with an adjusting bolt 30; the position of the material guide pipeline 11 corresponding to the discharge hole is connected with an air blowing nozzle 32. In actual operation, the diodes in the vibration disc correspondingly enter the material guide pipeline 11, the adjusting connecting rod 29 is installed on the frame of the braider, the blowing nozzle 32 blows the diodes at the bottommost part of the material guide pipeline 11 to the guide rail groove 23, and the diodes correspondingly fall into the material belt along with the guide rail groove 23.

The material guide pipeline 11 comprises a first U-shaped frame 37 and a second U-shaped frame 36, the first U-shaped frame 37 and the second U-shaped frame 36 are arranged oppositely, a gap 10 for the pins 13 of the diode 25 to extend out is formed between the first U-shaped frame 37 and the second U-shaped frame 36, and the second U-shaped frame 36 is connected with the mounting plate 14 through an L-shaped rod 34; the first U-shaped frame 37 is connected to the mounting plate 14; the first U-shaped frame 37 and the second U-shaped frame 36 enclose to form a diode housing 12 accommodating cavity, so that the diodes can be orderly and limitedly placed in the diode housing 12 accommodating cavity. A discharge hole is formed in the lower portion of the second U-shaped frame 36; the lower part of the first U-shaped frame 37 is provided with an air blowing nozzle 32 at the position corresponding to the discharge port, and the air blowing nozzle 32 is connected with an air source. Baffles 15 are arranged on two opposite sides of the mounting plate 14; the second U-shaped frame 36 is connected to the baffle 15 by the L-shaped bar 34.

The middle part of the adjusting connecting rod 29 is connected with an anti-jumping baffle 31 through a sleeve B39; a rotating shaft seat 33 is arranged on one side, close to the sleeve B39, of the anti-jumping baffle plate 31, the rotating shaft seat 33 is connected with a connecting block 40 through a rotating shaft A42, and the other side of the connecting block 40 is connected with a sleeve B39. The diode is prevented from being separated from the feeding assembly by arranging the anti-jumping baffle 31; under the supporting action of the rotating shaft seat 33 and the rotating shaft A42, the anti-bouncing baffle 31 can adjust the inclination angle.

The positions of the upper surfaces of the first guide rail block 35 and the second guide rail block 24 corresponding to the inlet of the guide rail groove 23 are convexly provided with a limiting coaming 16, so that the diode can accurately enter the guide rail groove 23.

The middle part of the mounting plate 14 close to one side of the feeding gap 41 is provided with a triangular material guiding sliding table 17 corresponding to the guide rail groove 23, and the triangular material guiding sliding table is matched with the diode and enters the guide rail groove 23.

The outer side surfaces of the first guide rail block 35 and the second guide rail block 24 are provided with a compression structure; the compaction structure comprises a push-pull motor 18, an L-shaped push-pull arm 19, a connecting rod B22 and a pinch roller 20, wherein the push-pull motor 18 is arranged on the outer side surfaces of the first guide rail block 35 and the second guide rail block 24, and one end of the L-shaped push-pull arm 19 is connected with the power output end of the push-pull motor 18; the connecting rod B22 is connected with the outer side surfaces of the first guide rail block 35 and the second guide rail block 24 through a rotating shaft B21; a torsion spring connected with the connecting rod B22 is sleeved outside the rotating shaft B; one side of the connecting rod B22, which is far away from the L-shaped push-pull arm 19, is connected with the pressure wheel 20; when the L-shaped push-pull arm 19 is in an extending state, the pressing wheel 20 is in a retracting state; when the L-shaped push-pull arm 19 is in a retracted state, the pressing wheel 20 is in contact with the material belt. After the diode enters the material belt, a pressure is applied to the diode through the pressing structure, so that the diode can be tightly contacted with the material belt, and the quality of the braid is ensured.

The mounting plate 14 is provided with an arc-shaped limiting groove 38 at a position corresponding to the material guide pipeline 11, so that the diode at the lowest position can stably stay in the material guide pipeline 11 to wait for being blown out.

In the embodiment, the diode enters the feeding gap through the material guide pipeline to complete the feeding action; mounting lugs are arranged on the outer side surfaces of the first guide rail block and the second guide rail block, connecting rods A corresponding to the adjusting connecting rods are arranged on the mounting lugs, and one side of each connecting rod A is sleeved on the adjusting connecting rod through a sleeve A; the sleeve A is connected with an adjusting bolt, and the sleeve A is positioned on the adjusting connecting rod through the adjusting bolt. When the relative distance in material loading clearance need be adjusted, the adjusting bolt is twisted, adjusting sleeve pipe A again screw up after adjusting the relative position on the connecting rod can, easy and simple to handle, applicable many sizes diode braid operation, the suitability is high.

The above-mentioned embodiment only expresses one embodiment of the present invention, and the description thereof is specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that various changes and modifications can be made by those skilled in the art without departing from the spirit of the invention, and these changes and modifications are all within the scope of the invention. Therefore, the protection scope of the present patent should be subject to the appended claims.

Claims

1. The utility model provides a diode is material loading subassembly for braider which characterized in that: comprises a material guide pipeline (11), a mounting plate (14), a first guide rail block (35), a second guide rail block (24) and an adjusting connecting rod (29); the bottom of the material guide pipeline (11) is connected with the mounting plate (14), and a discharge hole is formed in one side, close to the first guide rail block (35) and the second guide rail block (24), of the material guide pipeline (11); the first guide rail block (35) and the second guide rail block (24) are arranged on one side of the mounting plate (14) in parallel; a feeding gap (41) is formed between the first guide rail block (35) and the second guide rail block (24); the upper surfaces of the first guide rail block (35) and the second guide rail block (24) are lower than the upper surface of the mounting plate (14); one side face, opposite to the first guide rail block (35) and the second guide rail block (24), is provided with a guide rail groove (23) corresponding to the pin (13) of the diode (25); mounting convex blocks (26) are arranged on the outer side surfaces of the first guide rail block (35) and the second guide rail block (24), connecting rods A (27) corresponding to the adjusting connecting rods (29) are arranged on the mounting convex blocks (26), and one sides of the connecting rods A (27) are sleeved on the adjusting connecting rods (29) through sleeves A (28); the sleeve A (28) is connected with an adjusting bolt (30); the material guide pipeline (11) is connected with an air blowing nozzle (32) at a position corresponding to the discharge hole.

2. The diode taping machine feeding assembly of claim 1, wherein: the guide pipeline (11) comprises a first U-shaped frame (37) and a second U-shaped frame (36), the first U-shaped frame (37) and the second U-shaped frame (36) are arranged oppositely, and a gap (10) for the pins (13) of the diode (25) to extend out is formed between the first U-shaped frame (37) and the second U-shaped frame (36); the second U-shaped frame (36) is connected with the mounting plate (14) through an L-shaped rod (34); the first U-shaped frame (37) is connected with the mounting plate (14); the first U-shaped frame (37) and the second U-shaped frame (36) are arranged in an enclosing mode to form a containing cavity of the diode shell (12); a discharge hole is formed in the lower part of the second U-shaped frame (36); and the lower part of the first U-shaped frame (37) is provided with an air blowing nozzle (32) at a position corresponding to the discharge hole.

3. The feeding assembly for the diode braider according to claim 2, characterized in that: baffles (15) are arranged on two opposite sides of the mounting plate (14); the second U-shaped frame (36) is connected with the baffle (15) through an L-shaped rod (34).

4. The feeding assembly for the diode braider according to claim 1, characterized in that: the middle part of the adjusting connecting rod (29) is connected with an anti-jumping baffle (31) through a sleeve B (39); the anti-jumping baffle (31) is close to one side of the sleeve B (39) and is provided with a rotating shaft seat (33), the rotating shaft seat (33) is connected with a connecting block (40) through a rotating shaft A (42), and the other side of the connecting block (40) is connected with the sleeve B (39).

5. The feeding assembly for the diode braider according to claim 1, characterized in that: and the positions of the upper surfaces of the first guide rail block (35) and the second guide rail block (24) corresponding to the inlets of the guide rail grooves (23) are convexly provided with limiting coamings (16).

6. The diode taping machine feeding assembly of claim 1, wherein: the mounting plate (14) is close to the middle part of one side of the feeding gap (41) and is provided with a triangular material guide sliding table (17) corresponding to the guide rail groove (23).

7. The feeding assembly for the diode braider according to claim 1, characterized in that: the outer side surfaces of the first guide rail block (35) and the second guide rail block (24) are respectively provided with a compression structure; the compaction structure comprises a push-pull motor (18), an L-shaped push-pull arm (19), a connecting rod B (22) and a pressing wheel (20), the push-pull motor (18) is installed on the outer side surfaces of the first guide rail block (35) and the second guide rail block (24), and one end of the L-shaped push-pull arm (19) is connected with the power output end of the push-pull motor (18); the connecting rod B (22) is connected with the outer side surfaces of the first guide rail block (35) and the second guide rail block (24) through a rotating shaft B (21); a torsion spring connected with the connecting rod B (22) is sleeved outside the rotating shaft B; one side, far away from the L-shaped push-pull arm (19), of the connecting rod B (22) is connected with the pressing wheel (20); when the L-shaped push-pull arm (19) is in an extending state, the pressing wheel (20) is in a retracting state; when the L-shaped push-pull arm (19) is in a retracted state, the pressing wheel (20) is in contact with the material belt.

8. The diode taping machine feeding assembly according to any one of claims 1 to 7, wherein: and an arc-shaped limiting groove (38) is formed in the position, corresponding to the material guide pipeline (11), of the mounting plate (14).