CN212935114U - Pin inserting device for coil framework of high-voltage igniter - Google Patents

Abstract

The utility model relates to a pin inserting device for a high-voltage igniter coil framework, wherein a plurality of pins are inserted on the upper surface of the coil framework; the stitch lengths are different, namely, the stitch lengths are long stitch lengths and the stitch lengths are short stitch lengths; the pin inserting device comprises a pin inserting workbench, a conveying line is fixedly arranged on the pin inserting workbench, two positions are arranged on the conveying line in a tandem manner, the front side is a short pin inserting position, the front side is a long pin inserting position, and two pin inserting mechanisms are fixedly arranged on the pin inserting workbench; the coil framework is arranged on the conveying line, the upper surface of the coil framework faces upwards and moves along with the conveying line, the coil framework sequentially passes through the short pin insertion position and the long pin insertion position, a pin insertion mechanism inserts a long pin into the coil framework on the long pin insertion position, and another pin insertion mechanism inserts a short pin into the coil framework on the short pin insertion position. Reasonable in design, simple structure can realize the cartridge of the multiple different stitches of coil skeleton.

Description

Pin inserting device for coil framework of high-voltage igniter

Technical Field

The utility model relates to an some firearm preparation technical field, concretely relates to a contact pin device for high pressure point firearm coil skeleton.

Background

In the prior art, the stitches of the igniter are all equal in length in the coil manufacturing process, but in the subsequent assembly process, the stitches are required to be short or long, so that the stitches need to be manually trimmed, and for the large-batch components, the subsequent trimming is time-consuming and labor-consuming and wastes materials.

Disclosure of Invention

The utility model provides a contact pin device for high pressure point firearm coil skeleton.

The technical scheme of the utility model:

a pin inserting device for a coil framework of a high-voltage igniter is characterized in that a plurality of pins are inserted into the upper surface of the coil framework; the stitch lengths are different, namely, the stitch lengths are long stitch lengths and the stitch lengths are short stitch lengths;

the pin inserting device comprises a pin inserting workbench, a conveying line is fixedly arranged on the pin inserting workbench, two positions are arranged on the conveying line in a tandem manner, the front side is a short pin inserting position, the rear side is a long pin inserting position, and two pin inserting mechanisms are fixedly arranged on the pin inserting workbench; the coil framework is arranged on the conveying line, the upper surface of the coil framework faces upwards and moves along with the conveying line, the coil framework sequentially passes through the short pin insertion position and the long pin insertion position, a pin insertion mechanism inserts a long pin into the coil framework on the long pin insertion position, and another pin insertion mechanism inserts a short pin into the coil framework on the short pin insertion position.

A pin shearing position is arranged at the tail side of the conveying line, and a pin shearing mechanism is fixedly arranged on the pin inserting workbench; the coil framework inserted with the long and short pins moves along with the conveying line to a pin shearing position, and the long pins or the short pins on the coil framework are sheared by the pin shearing mechanism.

Certainly, the device aims at the pins with two lengths, namely, the short pin is inserted firstly, and then the long pin is inserted, so that when the long pin is inserted, the pin inserting mechanism cannot cause any influence on the inserted short pin; however, for pins with more lengths, only the number of the pin inserting mechanisms is increased, and the pins are arranged from short to long.

The conveying line comprises a front material channel, an intermediate material channel and a rear material channel, the front material channel, the intermediate material channel and the rear material channel are sequentially and fixedly installed on the pin inserting workbench, die holders are respectively arranged between the front material channel and the intermediate material channel and between the intermediate material channel and the rear material channel, the front material channel, the intermediate material channel and the rear material channel are communicated through the die holders, the front side die holders form short pin inserting positions, and the rear side die holders form long pin inserting positions; certainly, a material shifting device is further installed on the pin inserting workbench and used for driving the coil framework to move along the front material channel, the middle material channel and the rear material channel, which is common in the prior art and is not repeated herein;

the contact pin workbench is vertically and fixedly connected with two optical axes, a contact pin discharging bottom plate is sleeved on each optical axis, the contact pin discharging bottom plate is supported and fixedly connected with the die holder, a die holder cylinder is fixedly mounted on the contact pin workbench and connected with the contact pin discharging bottom plate, and the contact pin discharging bottom plate is driven to drive the die holder to lift; the upper end of the optical axis is sleeved with a wire feeding sliding block, a sliding block air cylinder is fixedly installed on the pin inserting workbench and connected with the wire feeding sliding block to drive the wire feeding sliding block to move up and down, two grooving connecting plates are fixedly connected to the wire feeding sliding block, a grooving fixing plate is fixedly connected to the wire feeding sliding block and located between the two grooving connecting plates, grooving floating plates are respectively arranged on the front side and the rear side of the grooving fixing plate, grooving pulling plates are respectively rotatably installed on the front side and the rear side of the grooving connecting plates, the lower ends of the front side and the rear side of the grooving pulling plates are fixedly connected through the grooving connecting plates, rollers are installed at the upper ends of all the grooving pulling plates and are contacted with the rollers on the left side and the right side of the grooving pulling plates, two pulling plate air cylinders are fixedly installed on the wire feeding sliding block, triangular blocks are connected to the pulling plate air cylinders and drive the wire feeding sliding block to be inserted, the grooving connecting plate is driven to swing through a grooving pulling plate, and the grooving floating plate is fixedly connected to the grooving connecting plate and swings together with the grooving connecting plate to clamp the grooving fixing plate; still the cover is equipped with the cutting die fixed plate on the optical axis, and cutting die fixed plate and optical axis fixed connection are located and send between line slider and the contact pin blowing bottom plate, horizontal rotation installation contact pin twist-off board on the cutting die fixed plate, fixed mounting has twist-off cylinder on the contact pin workstation, and twist-off cylinder is connected with contact pin twist-off board, drives its horizontal hunting, fixed mounting has the cutting die on the contact pin twist-off board fixed plate, and the cutting die is relative with the die holder, constitutes jointly the contact pin device.

Two wire feeding mechanisms are fixedly arranged on the pin inserting workbench, and the wire feeding mechanisms correspond to the pin inserting devices one by one;

send line mechanism to include porcelain eye installation upper plate, porcelain eye installation hypoplastron fixed connection is on the contact pin workstation, is located the ditching fixed plate top that corresponds the contact pin device, porcelain eye installation upper plate sets up in porcelain eye installation hypoplastron top, and both sides are connected through the gyro wheel mounting panel respectively, and a plurality of porcelain eyes are installed to the one-to-one on porcelain eye installation upper plate, porcelain eye installation hypoplastron, and rotatory the installation has a plurality of wire gyro wheels between two gyro wheel mounting panels, and still fixedly connected with solid fixed splint between two gyro wheel mounting panels, gu the fixed splint opposite side is provided with unsteady splint, gyro wheel mounting panel fixed mounting has unsteady cylinder, and unsteady cylinder is connected with unsteady splint, and it is floated relatively to drive its work.

The wire feeding mechanism further comprises H-shaped steel, the H-shaped steel is fixedly connected below the porcelain eye mounting lower plate and located above the grooving fixing plate corresponding to the pin inserting mechanism, and a plurality of wire holes are uniformly formed in the H-shaped steel.

The needle shearing mechanism comprises pneumatic shearing pliers, a sliding table is slidably mounted on the needle inserting workbench, a sliding table cylinder is fixedly mounted on the needle inserting workbench and connected with the sliding table, the sliding table and the needle shearing position are driven to move relatively, and the pneumatic shearing pliers are fixedly mounted on the sliding table and move together with the sliding table.

The utility model discloses the advantage is, reasonable in design, and simple structure can realize the cartridge of the multiple different stitch of coil skeleton.

Drawings

Fig. 1 is a perspective view of a pin device for a coil armature of a high voltage igniter.

Fig. 2 is a partially enlarged schematic view of fig. 1.

Fig. 3 is a front view of a pin apparatus for a high voltage igniter bobbin.

Fig. 4 is a partially enlarged schematic view of fig. 3.

Fig. 5 is a perspective view of the pin mechanism.

Fig. 6 is a front view of the insertion mechanism.

Fig. 7 is a side view of the insertion mechanism.

Fig. 8 is a partially enlarged schematic view of fig. 7.

Fig. 9 is a perspective view of the wire feeding mechanism.

Fig. 10 is a partial schematic view of fig. 9 (with the upper plate mounted in the absence of the porcelain eye).

Fig. 11 is a perspective view of the needle cutting mechanism.

Fig. 12 is a perspective view of the completed bobbin.

In the figure, a coil framework 1, a long stitch 1-1, a short stitch 1-2, a pin working table 2, a conveying line 3, a front material channel 3-1, a middle material channel 3-2, a back material channel 3-3, a die holder 3-4, a pin mechanism 4, an optical axis 4-1, a pin discharging bottom plate 4-2, a die holder cylinder 4-3, a wire feeding slide block 4-4, a slide block cylinder 4-5, a grooving connecting plate 4-6, a grooving fixing plate 4-7, a grooving floating plate 4-8, a grooving pulling plate 4-9, a grooving connecting plate 4-10, a roller 4-11, a pulling plate cylinder 4-12, a triangular block 4-13, a cutting die fixing plate 4-14, a pin twisting plate 4-15, a twisting cylinder 4-16, a cutting die 4-17, a pin shearing mechanism 5, a pin clamping mechanism and a wire clamping mechanism are arranged on the same plane, 5-1 of pneumatic shearing pliers, 5-2 of a sliding table, 5-3 of a sliding table cylinder, 6 of a wire feeding mechanism, 6-1 of a porcelain eye mounting upper plate, 6-2 of a porcelain eye mounting lower plate, 6-3 of a roller mounting plate, 6-4 of a wire guide roller, 6-5 of a fixed clamping plate, 6-6 of a floating clamping plate, 6-7 of a floating cylinder and 6-8 of H-shaped steel.

Detailed Description

As shown in fig. 1-12, a pin device for a coil frame of a high-voltage igniter, wherein a plurality of pins are inserted into the upper surface of the coil frame 1; the stitch lengths are different, namely, the stitch length is 1-1 for the long stitch and 1-2 for the short stitch; the pin inserting device comprises a pin inserting workbench 2, a conveying line 3 is fixedly arranged on the pin inserting workbench 2, the conveying line 3 is arranged at two positions, namely a front position and a rear position, the front side is a short pin inserting position, the rear side is a long pin inserting position, and two pin inserting mechanisms 4 are fixedly arranged on the pin inserting workbench 2; the coil framework 1 is arranged on the conveying line 3, the upper surface of the coil framework is upward, the coil framework moves along with the conveying line 3 and sequentially passes through the short pin insertion position and the long pin insertion position, one pin insertion mechanism 4 inserts a long pin into the coil framework 1 on the long pin insertion position, and the other pin insertion mechanism 4 inserts a short pin into the coil framework 1 on the short pin insertion position; a pin shearing position is arranged at the tail side of the conveying line 3, and a pin shearing mechanism 5 is fixedly arranged on the pin inserting workbench 2; the coil framework 1 with the inserted long and short pins moves along with the conveying line 3 to a pin shearing position, and the upper long pin 1-1 of the coil framework is sheared by the pin shearing mechanism 5; two wire feeding mechanisms 6 are fixedly arranged on the pin inserting workbench 2, and the wire feeding mechanisms 6 correspond to the pin inserting devices 4 one by one;

the conveying line 3 comprises a front material channel 3-1, an intermediate material channel 3-2 and a rear material channel 3-3, the front material channel 3-1, the intermediate material channel 3-2 and the rear material channel 3-3 are sequentially and fixedly installed on the pin inserting workbench 2, die holders 3-4 are respectively arranged between the front material channel 3-1 and the intermediate material channel 3-2 and between the intermediate material channel 3-2 and the rear material channel 3-3, the front material channel 3-1 and the intermediate material channel 3-2, the intermediate material channel 3-2 and the rear material channel 3-3 are communicated through the die holders 3-4, the front die holder 3-4 forms a short pin inserting position, and the rear die holder 3-4 forms a long pin inserting position;

the contact pin working table 2 is vertically and fixedly connected with two optical shafts 4-1, a contact pin discharging bottom plate 4-2 is sleeved on the optical shaft 4-1, the contact pin discharging bottom plate 4-2 is supported and fixedly connected with a die holder 3-4, a die holder cylinder 4-3 is fixedly arranged on the contact pin working table 2, the die holder cylinder 4-3 is connected with the contact pin discharging bottom plate 4-2, and the contact pin discharging bottom plate 4-2 is driven to drive the die holder 3-4 to lift; the upper end of the optical axis 4-1 is sleeved with a wire feeding sliding block 4-4, the pin inserting workbench 2 is fixedly provided with a sliding block air cylinder 4-5, the sliding block air cylinder 4-5 is connected with the wire feeding sliding block 4-4 to drive the wire feeding sliding block to move up and down, the wire feeding sliding block 4-4 is fixedly connected with two groove connecting plates 4-6, the wire feeding sliding block 4-4 is fixedly connected with a groove fixing plate 4-7, the groove fixing plate 4-7 is positioned between the two groove connecting plates 4-6, the front side and the rear side of the groove fixing plate 4-7 are respectively provided with a groove floating plate 4-8, the groove connecting plates 4-6 are respectively provided with a groove pulling plate 4-9 in a rotating manner before and after one, the lower ends of the two groove pulling plates 4-9 at the front side and the rear side are fixedly connected through a groove connecting plate 4-10, the upper ends of all the grooving pulling plates 4-9 are provided with rollers 4-11, the rollers 4-11 on the left and right grooving pulling plates 4-9 are contacted, the wire feeding sliding block 4-4 is also fixedly provided with two pulling plate cylinders 4-12, the pulling plate cylinders 4-12 are connected with triangular blocks 4-13 and are driven to be inserted between the two contacted rollers 4-11, the grooving pulling plates 4-9 drive the grooving connecting plates 4-10 to swing, the grooving floating plates 4-8 are fixedly connected to the grooving connecting plates 4-9 and swing together with the grooving connecting plates 4-7 to clamp the grooving fixing plates 4-7; the optical axis 4-1 is further sleeved with a cutting die fixing plate 4-14, the cutting die fixing plate 4-14 is fixedly connected with the optical axis 4-1 and is positioned between the wire feeding sliding block 4-4 and the inserting pin discharging bottom plate 4-2, the inserting pin twisting plate 4-15 is horizontally and rotatably installed on the cutting die fixing plate 4-14, a twisting off cylinder 4-16 is fixedly installed on the inserting pin workbench 2, the twisting off cylinder 4-16 is connected with the inserting pin twisting plate 4-15 to drive the inserting pin twisting plate to horizontally swing, a cutting die 4-17 is fixedly installed on the inserting pin twisting plate 4-15 fixing plate, and the cutting die 4-17 is opposite to the die holder 3-4 to jointly form the inserting pin device 4;

the wire feeding mechanism 6 comprises a porcelain eye mounting upper plate 6-1 and a porcelain eye mounting lower plate 6-2, the porcelain eye mounting lower plate 6-2 is fixedly connected on the pin inserting worktable 2 and is positioned above a groove fixing plate 4-7 corresponding to the pin inserting device, the porcelain eye mounting upper plate 6-1 is arranged above the porcelain eye mounting lower plate 6-1, two sides of the porcelain eye mounting lower plate are respectively connected through roller mounting plates 6-3, a plurality of porcelain eyes are correspondingly mounted on the porcelain eye mounting upper plate 6-1 and the porcelain eye mounting lower plate 6-2 one by one, a plurality of lead rollers 6-4 are rotatably mounted between the two roller mounting plates 6-3, a fixed clamping plate 6-5 is also fixedly connected between the two roller mounting plates 6-3, a floating clamping plate 6-6 is arranged at the opposite side of the fixed clamping plate 6-5, and a floating cylinder 6-7 is fixedly mounted on the roller mounting plates 6-3, the floating cylinder 6-7 is connected with the floating splint 6-6 to drive the floating cylinder to float relative to the fixed splint 6-7; the wire feeding mechanism 6 also comprises H-shaped steel 6-8, the H-shaped steel 6-8 is fixedly connected below the porcelain eye mounting lower plate 6-2 and is positioned above the grooving fixing plate 3-4 of the corresponding pin inserting mechanism, and a plurality of wire holes are uniformly distributed on the H-shaped steel 6-8;

the needle shearing mechanism 5 comprises pneumatic shearing pliers 5-1, a sliding table 5-2 is slidably mounted on the needle inserting workbench 2, a sliding table cylinder 5-3 is fixedly mounted on the needle inserting workbench 2, the sliding table cylinder 5-3 is connected with the sliding table 5-2, the sliding table 5-2 and the needle shearing position are driven to move relatively, and the pneumatic shearing pliers 5-1 is fixedly mounted on the sliding table 5-2 and moves together with the sliding table 5-2.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (6)

1. A pin inserting device for a coil framework of a high-voltage igniter is characterized in that a plurality of pins are inserted into the upper surface of the coil framework; the novel sewing machine is characterized in that the stitch lengths are different, namely, a part is long stitch and a part is short stitch;

the pin inserting device comprises a pin inserting workbench, a conveying line is fixedly arranged on the pin inserting workbench, two positions are arranged on the conveying line in a tandem manner, the front side is a short pin inserting position, the rear side is a long pin inserting position, and two pin inserting mechanisms are fixedly arranged on the pin inserting workbench; the coil framework is arranged on the conveying line, the upper surface of the coil framework faces upwards and moves along with the conveying line, the coil framework sequentially passes through the short pin insertion position and the long pin insertion position, a pin insertion mechanism inserts a long pin into the coil framework on the long pin insertion position, and another pin insertion mechanism inserts a short pin into the coil framework on the short pin insertion position.

2. The pin device for the coil framework of the high-voltage igniter as claimed in claim 1, wherein a pin shearing position is arranged at an end position of the conveying line, and a pin shearing mechanism is fixedly mounted on the pin workbench.

3. The pin inserting device for the coil skeleton of the high-voltage igniter as claimed in claim 1, wherein the conveying line comprises a front material channel, an intermediate material channel and a rear material channel, the front material channel, the intermediate material channel and the rear material channel are sequentially and fixedly installed on the pin inserting workbench, die holders are respectively arranged between the front material channel and the intermediate material channel and between the intermediate material channel and the rear material channel, the front material channel, the intermediate material channel and the rear material channel are communicated through the die holders, the front die holder forms a short pin inserting position, and the rear die holder forms a long pin inserting position;

the contact pin workbench is vertically and fixedly connected with two optical axes, a contact pin discharging bottom plate is sleeved on each optical axis, the contact pin discharging bottom plate is supported and fixedly connected with the die holder, a die holder cylinder is fixedly mounted on the contact pin workbench and connected with the contact pin discharging bottom plate, and the contact pin discharging bottom plate is driven to drive the die holder to lift; the upper end of the optical axis is sleeved with a wire feeding sliding block, a sliding block air cylinder is fixedly installed on the pin inserting workbench and connected with the wire feeding sliding block to drive the wire feeding sliding block to move up and down, two grooving connecting plates are fixedly connected to the wire feeding sliding block, a grooving fixing plate is fixedly connected to the wire feeding sliding block and located between the two grooving connecting plates, grooving floating plates are respectively arranged on the front side and the rear side of the grooving fixing plate, grooving pulling plates are respectively and rotatably installed on the grooving connecting plates in the front and the rear sides, the lower ends of the front side and the rear side of the grooving pulling plates are fixedly connected through the grooving connecting plates, rollers are installed at the upper ends of all the grooving pulling plates, the rollers on the left side and the right side of the grooving pulling plates are contacted, two pulling plate air cylinders are fixedly installed on the wire feeding sliding block, triangular blocks are connected to the pulling plate air cylinders and drive the wire feeding sliding block to be inserted, the utility model discloses a contact pin device, including the grooving, including grooving float plate, optical axis, cutting die fixed plate, contact pin workstation, contact pin twist-off board, grooving float plate fixed connection is on the grooving connecting plate, still the cover is equipped with the cutting die fixed plate on the optical axis, and cutting die fixed plate and optical axis fixed connection are located and send between line slider and the contact pin blowing bottom plate, horizontal rotation installation contact pin twist-off board on the cutting die fixed plate, fixed mounting has the twist-off cylinder on the contact pin workstation, and the twist-off cylinder is connected with the contact pin twist-off board, drives its horizontal oscillation, fixed mounting has the cutting die on the contact pin twist.

4. The pin device for the coil framework of the high-voltage igniter as claimed in claim 3, wherein two wire feeding mechanisms are fixedly mounted on the pin workbench, and the wire feeding mechanisms correspond to the pin devices one by one;

send line mechanism to include porcelain eye installation upper plate, porcelain eye installation hypoplastron fixed connection is on the contact pin workstation, is located the ditching fixed plate top that corresponds the contact pin device, porcelain eye installation upper plate sets up in porcelain eye installation hypoplastron top, and both sides are connected through the gyro wheel mounting panel respectively, and a plurality of porcelain eyes are installed to the one-to-one on porcelain eye installation upper plate, porcelain eye installation hypoplastron, and rotatory installation has a plurality of wire gyro wheels between two gyro wheel mounting panels, and still fixedly connected with solid fixed splint between two gyro wheel mounting panels, gu the fixed splint opposite side is provided with unsteady splint, gyro wheel mounting panel fixed mounting has unsteady cylinder, and unsteady cylinder is connected with unsteady splint.

5. The pin device for the coil skeleton of the high-voltage igniter as claimed in claim 4, wherein the wire feeding mechanism further comprises H-shaped steel, the H-shaped steel is fixedly connected below the porcelain eye mounting lower plate and above the groove fixing plate corresponding to the pin mechanism, and a plurality of wire holes are uniformly distributed on the H-shaped steel.

6. The pin device for the coil skeleton of the high-voltage igniter according to claim 2, wherein the pin shearing mechanism comprises a pneumatic shearing pliers, a sliding table is slidably mounted on the pin workbench, a sliding table cylinder is fixedly mounted on the pin workbench and connected with the sliding table, the sliding table and the pin shearing position are driven to move relatively, and the pneumatic shearing pliers are fixedly mounted on the sliding table and move along with the sliding table.

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