CN113953796B - Filament embedding device of electronic element - Google Patents

Abstract

The present disclosure relates to filament inlaying devices, and particularly to a filament inlaying device for an electronic component. The invention aims to solve the technical problems that: provided is a filament inlay device for an electronic component, which has high working efficiency and can prevent scalding. A filament inlay device for an electronic component, comprising: a mounting frame; the guide frame is arranged on the mounting frame; the guide frame is arranged at one side of the guide frame; the air cylinder is arranged at one side of the guide frame; the movable plate is arranged on the telescopic end of the air cylinder and is connected with the mounting frame in a sliding manner; the first springs are arranged between the moving plate and the two sides of the mounting frame symmetrically; the lifting plate is slidably arranged on the other side of the guide frame; and the two sliding blocks are slidably arranged on the clamping block. According to the invention, the ratchet bar is matched with the gear by pushing the push rod, so that the gear is driven to rotate, the cross push plate is rotated by 90 degrees, and the filament can be pushed to enter the clamping block.

Description

Filament embedding device of electronic element

Technical Field

The present disclosure relates to filament inlaying devices, and particularly to a filament inlaying device for an electronic component.

Background

Electronic components are the basic elements in electronic circuits, typically individual packages, and have two or more leads or metal contacts. The lamp filament can be inlaid on a plurality of electronic components, the lamp filament of the general electronic components is inlaid manually by a worker, when the lamp filament is inlaid manually, the lamp filament is clamped by a clamp by holding the clamp manually, then the lamp filament is contacted with the electronic components, and the lamp filament is inlaid into the electronic components by holding an inlaying tool by holding the lamp filament by the other hand, so that the lamp filament is inlaid manually, the work efficiency is low, and the lamp filament is easy to scald when inlaid.

Therefore, it is necessary to design a filament inlay device of an electronic component which has high working efficiency and can prevent scalding.

Disclosure of Invention

In order to overcome the defects that the lamp filament is inlaid manually, the working efficiency is low, and the lamp filament is easy to scald during inlaying, the technical problem to be solved is as follows: provided is a filament inlay device for an electronic component, which has high working efficiency and can prevent scalding.

The technical scheme of the invention is as follows: a filament inlay device for an electronic component, comprising: a mounting frame; the guide frame is arranged on the mounting frame; the guide frame is arranged on one side of the mounting frame; the air cylinder is arranged at one side of the guide frame; the movable plate is arranged on the telescopic end of the air cylinder and is connected with the mounting frame in a sliding manner; the first springs are arranged between the moving plate and the two sides of the mounting frame symmetrically; the lifting plate is slidably arranged on the other side of the guide frame; the clamping block is arranged on the lifting plate; the two sliding blocks are arranged on the clamping block in a sliding manner; the second spring is arranged between the sliding block and the clamping block; the discharging assembly is arranged in the mounting frame; and the driving assembly is arranged on the other side of the mounting frame.

As a preferred technical scheme of the invention, the discharging assembly comprises: the cross bars are rotatably arranged on two sides of the mounting frame; the conveyor belt is arranged between the cross bars; and the pushing plates are uniformly arranged on the surface of the conveyor belt at intervals.

As a preferred technical solution of the present invention, the driving assembly includes: the placement frame is arranged on one side of the mounting frame; the gear motor is arranged in the placement frame; the rotating rod is arranged on an output shaft of the speed reducing motor and is connected with the rear cross rod; the infrared reactor is arranged on the other side of the mounting frame and is connected with the speed reducing motor through a circuit.

As a preferable technical scheme of the invention, the invention also comprises a pushing component, and the pushing component comprises: the fixing sleeves are arranged on two sides of the mounting frame; the gear is rotatably arranged in the fixed sleeve; the cross push plate penetrates through the fixed sleeve and is arranged on the gear; the two guide rails are arranged on one side of the mounting frame far away from the guide frame; the movable frame is installed between the guide rails in a sliding manner, and elastic pieces are connected between the guide rails and the movable frame; the telescopic rods are arranged at two sides of the movable frame; the third spring is arranged between the telescopic end and the fixed end of the telescopic rod; the ratchet bar is arranged on one side of the telescopic rod and is matched with the gear on the same side; and the push rod is arranged on the movable frame.

As a preferable technical scheme of the invention, the invention further comprises a pulling assembly, and the pulling assembly comprises: the reel is arranged on one side of the guide frame, which is close to the lifting plate; the guide wheel is arranged on the guide frame and is positioned below the winding wheel; and the tail ends of the stay wires are wound on the reel by bypassing the guide wheel.

As a preferred technical solution of the present invention, the present invention further includes a contact assembly, where the contact assembly includes: the U-shaped rods are uniformly distributed on the output shaft of the speed reducing motor; and the L-shaped rod is arranged on the push rod and is matched with the U-shaped rod.

As a preferable technical scheme of the invention, the invention also comprises a condensing assembly, wherein the condensing assembly comprises: the liquid outlet box is arranged on one side of the mounting frame and is provided with an air inlet hole with a one-way valve; the feeding cover is arranged at one side of the liquid outlet box; the two conversion spray heads are arranged on the other side of the liquid outlet box; the pressurizing cylinder is arranged on one side of the liquid outlet box, which is close to the conversion spray head, and the pressurizing cylinder is positioned above the conversion spray head; and the movable rod is installed in the pressurizing cylinder in a sliding manner and is connected with the movable frame.

As a preferred technical scheme of the invention, a plug is arranged on the feeding cover.

The beneficial effects are that: 1. according to the invention, the ratchet bar is matched with the gear by pushing the push rod, so that the gear is driven to rotate, the cross push plate is rotated by 90 degrees, the filament can be pushed to enter the clamping block, the filament can be ensured to be accurately and completely clamped into the clamping block, and the safety and accuracy of the device are improved.

2. According to the invention, the sliding block can move downwards and can be pulled inwards by the pull wire to move the sliding block, so that the filament can be automatically loosened, and the electronic element with the filament inlaid can be conveniently taken out.

3. The U-shaped rod is matched with the L-shaped rod, so that the push rod can be intermittently pushed to move forwards, the lamp filament can be accurately and completely clamped into the clamping block, and the trouble of manually pushing the push rod is reduced.

4. When the invention operates, the movable rod is driven to continuously move forwards and backwards, so that the liquid outlet box is continuously pressurized, and the cooling liquid is sprayed out from the conversion spray head, so that the embedded part can be cooled, and the staff can be prevented from being scalded.

Drawings

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

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic perspective view of a first part of the present invention.

Fig. 4 is an enlarged schematic view of the portion a of the present invention.

Fig. 5 is a schematic perspective view of a discharging assembly according to the present invention.

Fig. 6 is a schematic perspective view of a driving assembly according to the present invention.

Fig. 7 is a schematic perspective view of a pushing assembly according to the present invention.

FIG. 8 is an enlarged schematic view of section B of the present invention.

Fig. 9 is a schematic perspective view of a second part of the present invention.

Fig. 10 is an enlarged schematic view of section C of the present invention.

Fig. 11 is a schematic perspective view of a contact assembly according to the present invention.

Fig. 12 is a schematic view showing a first perspective structure of the condensing unit according to the present invention.

Fig. 13 is a schematic view showing a second perspective structure of the condensing unit according to the present invention.

Fig. 14 is an enlarged schematic view of part D of the present invention.

Marked in the figure as: the device comprises a 1-mounting frame, a 2-guide frame, a 3-guide frame, a 4-cylinder, a 5-moving plate, a 6-first spring, a 7-lifting plate, a 8-clamping block, a 9-sliding block, a 10-second spring, a 11-discharging component, a 111-cross rod, a 112-conveying belt, a 113-pushing plate, a 12-driving component, a 121-placing frame, a 122-gear motor, a 123-rotating rod, a 124-infrared reactor, a 13-pushing component, a 131-fixed sleeve, a 132-gear, a 133-cross push plate, a 134-guide rail, a 135-moving frame, a 136-telescopic rod, a 137-third spring, a 138-ratchet, a 139-push rod, a 14-pulling component, a 141-winding wheel, a 142-guide wheel, a 143-pulling wire, a 15-contact component, a 151-U-shaped rod, a 152-L-shaped rod, a 16-condensing component, a 161-liquid outlet box, a 162-feeding cover, a 163-conversion nozzle, a 164-pressurizing cylinder and a 165-moving rod.

Detailed Description

The invention will now be described in more detail with reference to the drawings and specific examples, which are not intended to limit the invention thereto.

Example 1

The utility model provides a device is inlayed to electronic component's filament, as shown in fig. 1-6, including mounting bracket 1, the guide frame 2, the guide frame 3, cylinder 4, movable plate 5, first spring 6, lifter plate 7, fixture block 8, sliding block 9, second spring 10, blowing subassembly 11 and drive assembly 12, the middle part downside of mounting bracket 1 is equipped with the guide frame 2, the upside of mounting bracket 1 is connected with the guide frame 3, the rear portion upside of guide frame 3 is equipped with cylinder 4, the flexible end of cylinder 4 is connected with movable plate 5, movable plate 5 is connected with mounting bracket 1 slidingtype, the equal bilateral symmetry in front and back both sides between movable plate 5 and the mounting bracket 1 is connected with first spring 6, the front downside sliding connection of guide frame 3 has lifter plate 7, the lower part rear side of lifter plate 7 is connected with fixture block 8, the middle part sliding connection of fixture block 8 has two sliding blocks 9 about, all be connected with second spring 10 between sliding block 9 and the fixture block 8, be equipped with blowing subassembly 11 in the mounting bracket 1, the left side of mounting bracket 1 is equipped with drive assembly 12.

When the filament of the electronic component is required to be inlaid, the filament is vertically placed at the rear part of the guide frame 2, then the driving component 12 is started, the driving component 12 drives the discharging component 11 to operate, the filament is pushed to move forward, then the filament is continuously placed at the rear side of the guide frame 2, the filament is enabled to move forward gradually, after the filament is pushed into the clamping block 8, the sliding block 9 is enabled to move inwards, the second spring 10 is compressed, the electronic component is clamped by the sliding block 9 and the clamping block 8 due to the resilience force of the second spring 10, meanwhile, the driving component 12 is triggered to stop operating for three seconds, the electronic component is placed below the front part of the device, the air cylinder 4 is started, the air cylinder 4 drives the moving plate 5 to move downwards, the first spring 6 is compressed, and then make lifter plate 7, fixture block 8, sliding block 9 and second spring 10 move down together, thereby drive filament entering electronic component and inlay, inlay the completion back, take out the electronic component who will inlay the completion, make filament and fixture block 8 and sliding block 9 break away from, second spring 10 is restored, control cylinder 4 reverse operation resets afterwards, first spring 6 is kick-backed this moment, lifter plate 7, fixture block 8, sliding block 9 and second spring 10 move up and reset together, after three seconds, drive assembly 12 continues to operate, thereby promote the next group lamp filament to move forward and block into fixture block 8, and repeat above-mentioned process, after all electronic component's filaments are inlayed completely, close drive assembly 12 and cylinder 4 can.

The discharging assembly 11 comprises a cross rod 111, a conveying belt 112 and a pushing plate 113, wherein the cross rod 111 is rotatably connected to the front side and the rear side of the inside of the installation frame 1, the conveying belt 112 is connected between the cross rods 111, a plurality of pushing plates 113 are uniformly arranged on the surface of the conveying belt 112 at intervals, the pushing plates 113 are provided with left and right grooves, and the inner sides of the grooves are made of rubber.

When the filament of the electronic component needs to be inlaid, the filament is vertically placed on the rear side of the guide frame 2, then the driving component 12 is started, the driving component 12 drives the rear cross rod 111 to rotate, the conveyor belt 112 is enabled to operate, the lower pushing plate 113 is enabled to continuously move towards the front side, the filament is pushed to be clamped into the groove, the rubber groove slightly clamps and fixes the filament, the filament is driven to move towards the front side, the filament is continuously placed on the rear side of the guide frame 2, the filament is pushed to the front side in a grouping mode, after the filament moves and is pushed to enter the clamping block 8, the driving component 12 is triggered to stop operating for five seconds, at the moment, the cylinder 4 is controlled to operate, the filament is driven to enter the electronic component to be inlaid, after the inlaid electronic component is taken out, after the five seconds are finished, the driving component 12 continues to operate, the next group of filaments are pushed to move forwards and clamped into the clamping block 8, and the process is repeated, and after all the filaments are inlaid completely, the driving component 12 and the cylinder 4 are closed.

The driving assembly 12 comprises a placing frame 121, a gear motor 122, a rotating rod 123 and an infrared reactor 124, the placing frame 121 is arranged on the left side of the rear portion of the installation frame 1, the gear motor 122 is arranged in the placing frame 121, the rotating rod 123 is connected to an output shaft of the gear motor 122, the rotating rod 123 is connected with the rear cross rod 111, the infrared reactor 124 is arranged on the left side of the lower front portion of the installation frame 1, and the infrared reactor 124 is connected with the gear motor 122 through a circuit.

When the filament of the electronic component needs to be inlaid, the gear motor 122 is started, the gear motor 122 drives the rotating rod 123 to rotate, and then drives the rear cross rod 111 to rotate, so that the conveyor belt 112 operates, and then the filament can be pushed to move forward, when the filament moves and is pushed into the clamping block 8, the infrared reactor 124 senses the filament, and then signals are sent to control the gear motor 122 to stop operating for five seconds, at this moment, the cylinder 4 can be controlled to inlay the filament of the electronic component, after the inlay is completed, the inlaid electronic component is taken out, after the five seconds are completed, the gear motor 122 can continue to operate, then the above process is repeated, and after all the filaments of the electronic component are inlaid, the gear motor 122 and the cylinder 4 are closed.

Example 2

On the basis of embodiment 1, as shown in fig. 1, fig. 2, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13 and fig. 14, the utility model further comprises a pushing component 13, the pushing component 13 comprises a fixed sleeve 131, a gear 132, a cross pushing plate 133, a guide rail 134, a movable frame 135, a telescopic rod 136, a third spring 137, a ratchet bar 138 and a push rod 139, the left side and the right side of the lower front part of the installation frame 1 are respectively connected with the fixed sleeve 131, the gear 132 is respectively and rotatably connected in the fixed sleeve 131, the upper side of the gear 132 passes through the fixed sleeve 131 and is connected with the cross pushing plate 133, the left side and the right side of the lower side of the front part of the installation frame 1 are respectively and fixedly connected with the guide rails 134 through bolts, a movable frame 135 is connected between the guide rails 134 and the movable frame 135, the left side and the right side of the front part of the movable frame 135 are respectively connected with the telescopic rod 136, the telescopic rod 136 is respectively connected with the third spring 137 between the telescopic end and the fixed end, the ratchet bar 136 is respectively connected with the ratchet bar 138, the ratchet bar 138 is matched with the gear 132 on the same side, and the push rod 139 is connected on the rear side of the movable frame 135.

When the filament moves to be in contact with the cross push plate 133, the push rod 139 can be pushed to move forward, so that the moving frame 135 can move forward, the elastic piece is compressed, the telescopic rod 136 and the ratchet bar 138 can be pushed to move forward, the elastic piece is matched with the gear 132, the gear 132 is driven to rotate, the cross push plate 133 can rotate by 90 degrees, the filament can be pushed to enter the clamping block 8, the filament can be ensured to be accurately and completely clamped into the clamping block 8, the safety and the accuracy of the device are improved, after the filament enters the clamping block 8, the push rod 139 can be prevented from being controlled, at the moment, the elastic piece rebounds to drive the moving frame 135, the push rod 139, the telescopic rod 136 and the ratchet bar 138 to move backwards and reset, at the moment, the telescopic rod 136 and the third spring 137 can be compressed, the ratchet bar 138 can move inwards, the gear 132 is not driven to rotate, and after the telescopic rod 136 and the ratchet bar 138 are rebounded to move backwards and reset, the third spring 137 drives the telescopic rod 136 to restore to move outwards.

The novel automatic pulling device is characterized by further comprising a pulling assembly 14, wherein the pulling assembly 14 comprises a reel 141, a guide wheel 142 and a pulling wire 143, the reel 141 is connected to the rear side of the lower portion of the guide frame 3, the guide wheel 142 is located below the reel 141, the pulling wires 143 are connected to the sliding blocks 9, and the tail ends of the pulling wires 143 are wound on the reel 141 around the guide wheel 142.

When inlaying electronic component's filament, fixture block 8 and sliding block 9 can the downwardly moving, and then inlay the filament of clamp and get into electronic component, when sliding block 9 downwardly moving, can pull wire 143, and then make wire 143 by tight, thereby can tear sliding block 9 to the inboard removal, second spring 10 is compressed, and then can loosen the filament automatically, thereby conveniently take out the electronic component that the filament was inlayed and is accomplished, after taking out, fixture block 8 and sliding block 9 can upwards move the reset, at this moment pull wire 143 is loosened, second spring 10 resilience drives sliding block 9 to move the reset to the outside.

The contact assembly 15 comprises a U-shaped rod 151 and an L-shaped rod 152, the output shaft of the gear motor 122 is uniformly distributed and connected with the four U-shaped rods 151, the left side of the rear part of the push rod 139 is connected with the L-shaped rod 152, and the L-shaped rod 152 is matched with the U-shaped rods 151.

The gear motor 122 is started, the U-shaped rod 151 is driven to rotate, so that the U-shaped rod 151 is matched with the L-shaped rod 152, the push rod 139 can be intermittently pushed to move to the front side, the lamp filament can be accurately and completely clamped into the clamping block 8, the trouble of manually pushing the push rod 139 is reduced, after all the lamp filaments of all the electronic elements are inlaid, the gear motor 122 is closed, and the device stops operating.

Still including condensation subassembly 16, condensation subassembly 16 is including going out liquid case 161, feeding lid 162, conversion shower nozzle 163, pressurization section of thick bamboo 164 and carriage release 165, the right side of mounting bracket 1 is equipped with out liquid case 161, the front side of going out liquid case 161 is equipped with the inlet port of taking the check valve, the upside of going out liquid case 161 is equipped with feeding lid 162, the lower part front side of going out liquid case 161 is connected with controls two conversion shower nozzles 163, the lower part front side of going out liquid case 161 is connected with pressurization section of thick bamboo 164, pressurization section of thick bamboo 164 is located conversion shower nozzle 163 top, sliding connection has carriage release 165 in the pressurization section of thick bamboo 164, carriage release 165 is connected with carriage release 135.

When the filament of electronic component is inlayed, can open the stopper on the feeding lid 162, pour into the coolant liquid into out in the liquid case 161, control the stopper later and close the feeding lid 162 to can aim at the department of inlaying with conversion shower nozzle 163, when the device operates, remove frame 135 can constantly carry out the back-and-forth movement, thereby can drive movable rod 165 and constantly carry out the back-and-forth movement, and then can constantly pressurize out in the liquid case 161, and then make the coolant liquid can follow conversion shower nozzle 163 blowout, thereby can cool down to inlaying the department, and then can prevent that the staff from being scalded.

It will be appreciated by persons skilled in the art that the above embodiments are not intended to limit the invention in any way, and that all technical solutions obtained by means of equivalent substitutions or equivalent transformations fall within the scope of the invention.

Claims (5)

1. A filament inlay device for an electronic component, comprising:

a mounting frame (1);

the guide frame (2) is arranged on the mounting frame (1);

the guide frame (3) is arranged at one side of the mounting frame (1);

the air cylinder (4) is arranged at one side of the guide frame (3);

the moving plate (5) is arranged on the telescopic end of the air cylinder (4), and the moving plate (5) is connected with the mounting frame (1) in a sliding manner;

the first springs (6) are arranged between the moving plate (5) and the two sides of the mounting frame (1) symmetrically;

the lifting plate (7) is slidably arranged on the other side of the guide frame (3);

the clamping block (8) is arranged on the lifting plate (7);

the two sliding blocks (9) are slidably arranged on the clamping block (8);

the second spring (10) is arranged between the sliding block (9) and the clamping block (8);

the discharging assembly (11) is arranged in the mounting frame (1);

the driving assembly (12) is arranged on the other side of the mounting frame (1);

the blowing subassembly (11) is including:

the cross bars (111) are rotatably arranged at two sides of the mounting frame (1);

a conveyor belt (112) mounted between the crossbars (111);

the pushing plates (113) are uniformly arranged on the surface of the conveyor belt (112) at intervals;

the driving assembly (12) comprises:

a placement frame (121) mounted on one side of the mounting frame (1);

a gear motor (122) installed in the placement frame (121);

the rotating rod (123) is arranged on an output shaft of the speed reducing motor (122), and the rotating rod (123) is connected with the rear cross rod (111);

the infrared reactor (124) is arranged on the other side of the mounting frame (1), the infrared reactor (124) is arranged on the other side of the mounting frame, and the infrared reactor (124) is connected with the gear motor (122) through a circuit;

the utility model also comprises a pulling component (14), wherein the pulling component (14) comprises:

a reel (141) mounted on one side of the guide frame (3) near the lifting plate (7);

the guide wheel (142) is arranged on the guide frame (3), and the guide wheel (142) is positioned below the reel (141);

the stay wire (143) is arranged on the sliding block (9), and the tail ends of the stay wires (143) are wound on the reel (141) by bypassing the guide wheel (142).

2. A filament inlay device for electronic components as claimed in claim 1, further comprising a pushing assembly (13), the pushing assembly (13) comprising:

the fixing sleeves (131) are arranged on two sides of the mounting frame (1);

the gear (132) is rotatably arranged in the fixed sleeve (131);

the cross push plate (133) passes through the fixed sleeve (131) and is arranged on the gear (132);

the guide rails (134), two guide rails (134) are installed on one side of the installation frame (1) far away from the guide frame (3);

the movable frame (135) is arranged between the guide rails (134) in a sliding manner, and elastic pieces are connected between the guide rails (134) and the movable frame (135);

telescopic rods (136) installed at both sides of the moving frame (135);

a third spring (137) installed between the telescopic end and the fixed end of the telescopic rod (136);

a ratchet bar (138) which is arranged on one side of the telescopic rod (136), and the ratchet bar (138) is matched with the gear (132) on the same side;

and a push rod (139) mounted on the moving frame (135).

3. A filament inlay device for an electronic component as claimed in claim 2, further comprising a contact assembly (15), the contact assembly (15) comprising:

the U-shaped rods (151), at least two U-shaped rods (151) are uniformly distributed and arranged on the output shaft of the speed reducing motor (122);

and an L-shaped rod (152) mounted on the push rod (139), wherein the L-shaped rod (152) is matched with the U-shaped rod (151).

4. A filament inlay device for an electronic component as claimed in claim 3, further comprising a condensing assembly (16), the condensing assembly (16) comprising:

the liquid outlet box (161) is arranged on one side of the mounting frame (1), and an air inlet with a one-way valve is arranged on the liquid outlet box (161);

a feed cover (162) mounted on one side of the liquid outlet tank (161);

the two conversion spray heads (163) are arranged on the other side of the liquid outlet box (161);

a pressurizing cylinder (164) which is arranged on one side of the liquid outlet box (161) close to the switching spray head (163), wherein the pressurizing cylinder (164) is positioned above the switching spray head (163);

and a moving rod (165) slidably installed in the pressurizing cylinder (164), the moving rod (165) being connected to the moving frame (135).

5. A filament inlay device for electronic components as in claim 4, wherein the feed cap (162) is provided with plugs.