CN113953796A - Filament embedding device of electronic component - Google Patents

Abstract

The present disclosure relates to filament mounting devices, and particularly to a filament mounting device for an electronic device. The technical problem to be solved by the invention is as follows: provided is a filament embedding device of an electronic component, which has high working efficiency and can prevent scalding. A filament mosaic device of 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 guide frame; the cylinder is arranged on one side of the guide frame; the moving plate is arranged on the telescopic end of the cylinder and is connected with the mounting rack in a sliding manner; the first springs are arranged between the movable plate and the two symmetrical sides of the mounting rack; the lifting plate is arranged on the other side of the guide frame in a sliding manner; and the sliding blocks are arranged on the clamping blocks in a sliding manner. 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 fixture block.

Description

Filament embedding device of electronic component

Technical Field

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

Background

Electronic components are basic elements in electronic circuits, typically individually packaged, and have two or more leads or metal contacts. Have on many electronic component can inlay the filament, the filament of general electronic component is inlayed and is gone on by artifical manual, and the manual work is carried out the filament and is inlayed the time, needs the manual work to hold the clip and clip the filament, then with filament and electronic component contact, another hand is held and is inlayed the instrument and inlay the filament and get into electronic component, and the manual work is carried out the filament and is inlayed, and not only work efficiency is lower, is inlayed the time easily by the scald moreover.

Therefore, it is necessary to design a filament mounting apparatus for electronic components, which has high working efficiency and can prevent burning.

Disclosure of Invention

Inlay in order to overcome the manual work and carry out the filament, not only work efficiency is lower, is scalded easily when inlaying moreover shortcoming, and the technical problem who solves is: provided is a filament embedding device of an electronic component, which has high working efficiency and can prevent scalding.

The technical scheme of the invention is as follows: a filament mosaic device of 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 cylinder is arranged on one side of the guide frame; the moving plate is arranged on the telescopic end of the cylinder and is connected with the mounting rack in a sliding manner; the first springs are arranged between the movable plate and the two symmetrical sides of the mounting rack; the lifting plate is arranged on the other side of the guide frame in a sliding manner; the clamping block is arranged on the lifting plate; the two sliding blocks are slidably arranged on the clamping blocks; the second spring is arranged between the sliding block and the clamping block; the discharging assembly is arranged in the mounting rack; and the driving assembly is arranged on the other side of the mounting rack.

As a preferred technical scheme of the invention, the emptying assembly comprises: the cross rods are rotatably arranged on two sides of the mounting rack; the conveying belt is arranged between the cross rods; the material pushing plates are uniformly arranged on the surface of the conveying belt at intervals.

As a preferred embodiment of the present invention, the driving assembly includes: the placing frame is arranged on one side of the mounting frame; the speed reducing motor is arranged in the placing frame; the rotating rod is arranged on an output shaft of the speed reducing motor and is connected with the rear side 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 preferred technical scheme of the invention, the device also comprises a pushing assembly, wherein the pushing assembly comprises: the fixing sleeves are arranged on two sides of the mounting rack; the gear is rotatably arranged in the fixed sleeve; the cross push plate is arranged on the gear through the fixed sleeve; the two guide rails are arranged on one side of the mounting frame, which is far away from the guide frame; the movable frames are arranged between the guide rails in a sliding manner, and elastic pieces are connected between the guide rails and the movable frames; the telescopic rods are arranged on 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 matched with the gear on the same side; and the push rod is arranged on the movable frame.

As a preferred technical scheme of the invention, the device also comprises a pulling assembly, wherein the pulling assembly comprises: the reel is arranged on one side of the guide frame close to the lifting plate; the guide wheel is arranged on the guide frame and is positioned below the reel; and the pull wires are arranged on the sliding blocks, and the tail ends of the pull wires are wound on the winding wheel around the guide wheel.

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

As a preferred technical scheme of the invention, the device also comprises a condensation component, wherein the condensation component 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 on one side of the liquid outlet box; the two conversion nozzles are arranged on the other side of the liquid outlet box; the pressurizing cylinder is arranged on one side of the liquid outlet box close to the conversion spray head and is positioned above the conversion spray head; and the movable rod is arranged in the pressurizing cylinder in a sliding manner and is connected with the movable frame.

As a preferred technical scheme of the invention, the feeding cover is provided with a plug.

Has the advantages that: 1. according to the filament clamping device, the ratchet bar is matched with the gear by pushing the push rod, so that the gear is driven to rotate, the cross-shaped push plate can rotate by 90 degrees, the filament can be pushed into the clamping block, the filament can be accurately and completely clamped into the clamping block, and the safety and the accuracy of the filament clamping device are improved.

2. The sliding block can move downwards, and can pull the sliding block to move inwards through the pull wire, so that the filament can be automatically loosened, and the electronic element embedded with the filament can be conveniently taken out.

3. The U-shaped rod can be matched with the L-shaped rod, so that the push rod can be intermittently pushed to move towards the front side, 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 cooling device is operated, the moving rod can be driven to continuously move back and forth, so that the liquid outlet box can be continuously pressurized, and further cooling liquid can be sprayed out from the conversion spray head, so that the embedded part can be cooled, and further workers 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 view of a first partial body structure according to the present invention.

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

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

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

Fig. 7 is a schematic perspective view of the pusher assembly of the present invention.

Fig. 8 is an enlarged view of part B of the present invention.

FIG. 9 is a schematic view of a second partial body structure according to the present invention.

Fig. 10 is an enlarged schematic view of part 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 perspective view of a first condensing assembly according to the present invention.

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

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

Labeled as: 1-mounting frame, 2-guide frame, 3-guide frame, 4-cylinder, 5-moving plate, 6-first spring, 7-lifting plate, 8-clamping block, 9-sliding block, 10-second spring, 11-discharging component, 111-cross bar, 112-conveyor belt, 113-pushing plate, 12-driving component, 121-placing frame, 122-speed reducing motor, 123-rotating rod, 124-infrared reactor, 13-pushing component, 131-fixing sleeve, 132-gear, 133-cross pushing plate, 134-guide rail, 135-moving frame, 136-telescopic rod, 137-third spring, 138-ratchet rack, 139-push rod, 14-pulling component, 141-reel, 142-guide wheel, 143-draw line, 15-contact module, 151-U-bar, 152-L-bar, 16-condensation module, 161-liquid outlet box, 162-feeding cover, 163-conversion nozzle, 164-pressurizing cylinder, 165-moving bar.

Detailed Description

The invention is described in detail below with reference to the drawings and specific examples, but the invention is not limited thereto.

Example 1

A filament inlaying device of an electronic element is disclosed, as shown in figures 1-6, and comprises a mounting frame 1, a guide frame 2, a guide frame 3, a cylinder 4, a moving plate 5, a first spring 6, a lifting plate 7, a clamping block 8, a sliding block 9, a second spring 10, a material placing component 11 and a driving component 12, wherein the lower side of the middle part of the mounting frame 1 is provided with the guide frame 2, the upper side of the mounting frame 1 is connected with the guide frame 3, the upper side of the rear part of the guide frame 3 is provided with the cylinder 4, the telescopic end of the cylinder 4 is connected with the moving plate 5, the moving plate 5 is connected with the mounting frame 1 in a sliding way, the front side and the rear side between the moving plate 5 and the mounting frame 1 are symmetrically connected with the first spring 6 from left to right, the lower side of the front part of the guide frame 3 is connected with the lifting plate 7 in a sliding way, the rear side of the lower part of the lifting plate 7 is connected with the clamping block 8, the middle part of the clamping block 8 is connected with the left and the right sliding block 9, and the second spring 10 are connected between the sliding block 9 and the clamping block 8, a discharging component 11 is arranged in the mounting rack 1, and a driving component 12 is arranged on the left side of the mounting rack 1.

When a filament of an electronic element needs to be inlaid, the filament is vertically placed at the rear part of the guide frame 2, then the driving assembly 12 is started, the driving assembly 12 can drive the emptying assembly 11 to operate, and further can push the filament to move towards the front side, and then the filament can be continuously placed at the rear side of the guide frame 2, so that the filament gradually moves towards the front side, after the filament moves and is pushed into the clamping block 8, the sliding block 9 can move towards the inner side, the second spring 10 is compressed, and further the sliding block 9 and the clamping block 8 clamp the electronic element due to the resilience force of the second spring 10, and simultaneously the driving assembly 12 can be triggered to stop operating for three seconds, at the moment, the electronic element is placed below the front part of the device, then the cylinder 4 is started, the cylinder 4 can drive the moving plate 5 to move downwards, the first spring 6 is compressed, and further the lifting plate 7, the clamping block 8, the sliding block 9 and the second spring 10 move downwards together, thereby drive the filament and get into electronic component and inlay, inlay the completion after, the electronic component who will inlay the completion takes out, make the filament break away from with fixture block 8 and sliding block 9, second spring 10 recovers, control cylinder 4 backward operation resets afterwards, first spring 6 rebounds this moment, lifter plate 7, fixture block 8, sliding block 9 and second spring 10 rebound together, after the three seconds, drive assembly 12 continues to operate, thereby promote next a set of filament and move forward and go into in fixture block 8, and repeat above-mentioned process, after the filament of all electronic components is whole to inlay the completion, it can to close drive assembly 12 and cylinder 4.

Blowing subassembly 11 is connected with horizontal pole 111 including horizontal pole 111, conveyer belt 112 and scraping wings 113, the equal rotary type in both sides around the inside of mounting bracket 1, is connected with conveyer belt 112 between the horizontal pole 111, and conveyer belt 112's the even spaced in surface is equipped with a plurality of scraping wings 113, all opens two recesses about on the scraping wings 113, and the recess inboard is the rubber material.

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, so that the conveyor belt 112 can operate, further the lower side material pushing plate 113 can continuously move towards the front side, so that the filament is pushed to be clamped into the groove, the rubber groove slightly clamps and fixes the filament, so that the filament is driven to move towards the front side, then the filament is continuously placed on the rear side of the guide frame 2, so that the filament is pushed to the front side in groups, after the filament is pushed to enter the fixture block 8 in a moving mode, the driving component 12 is triggered to stop operating for five seconds, at the moment, the cylinder 4 can be controlled to operate, so that the filament is driven to enter the electronic component for inlaying, after the inlaying is completed, the inlaid electronic component is taken out, after the five seconds are completed, the driving component 12 continues to operate, thereby pushing the next group of filaments to move forward and clamp into the clamping block 8, repeating the process, and closing the driving assembly 12 and the cylinder 4 after the filaments of all the electronic elements are completely embedded.

Drive assembly 12 is including placing frame 121, gear motor 122, bull stick 123 and infrared ray reactor 124, and the rear portion left side of mounting bracket 1 is equipped with places frame 121, places and is equipped with gear motor 122 in the frame 121, is connected with bull stick 123 on gear motor 122's the output shaft, and bull stick 123 is connected with rear side horizontal pole 111, and the lower anterior left side of mounting bracket 1 is equipped with infrared ray reactor 124, and infrared ray reactor 124 is connected through the circuit with gear motor 122.

When needing to inlay electronic component's filament, start gear motor 122, gear motor 122 just can drive bull stick 123 and rotate, and then drive rear side horizontal pole 111 and rotate, thereby make conveyer belt 112 operate, and then can promote the filament to the front side and remove, when filament removal promotion gets into fixture block 8, infrared reactor 124 senses the filament, just can signal control gear motor 122 stop operating for five seconds, alright control cylinder 4 inlays electronic component's filament this moment, inlay the completion back, the electronic component who will inlay the completion takes out, five seconds finish the back, gear motor 122 can continue to operate, then repeat above-mentioned process, after the filament of all electronic component is all inlayed the completion, it can to close gear motor 122 and cylinder 4.

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 material pushing assembly 13 further includes a fixing sleeve 131, a gear 132, a cross push plate 133, a guide rail 134, a moving frame 135, a telescopic rod 136, a third spring 137, a ratchet bar 138 and a push rod 139, the fixing sleeve 131 is connected to both left and right sides of the lower front portion of the mounting frame 1, the gear 132 is rotatably connected to the fixing sleeve 131, the upper side of the gear 132 is connected to the cross push plate 133 by passing through the fixing sleeve 131, the left and right guide rails 134 are fixedly connected to the lower side of the front portion of the mounting frame 1 by bolts, the moving frame 135 is slidably connected to the guide rails 134, elastic members are connected to both sides of the front portion of the moving frame 135, the telescopic rods 136 are connected to both left and right sides of the front portion of the moving frame 135, the third spring 137 is connected to the telescopic ends of the telescopic rods 136, the outer sides of the telescopic rods 136 are connected with ratchet racks 138, the ratchet racks 138 are matched with the gears 132 on the same side, and the rear side of the movable frame 135 is connected with a push rod 139.

When the filament moves to contact with the cross push plate 133, the push rod 139 can be pushed to move towards the front side, so that the moving frame 135 can move towards the front side, the elastic part is compressed, the telescopic rod 136 and the ratchet rack 138 can be pushed to move towards the front side, and then the elastic part can be matched with the gear 132, so that the gear 132 can be driven to rotate, so that the cross push plate 133 can rotate for 90 degrees, and further the filament can be pushed to enter the fixture block 8, so that the filament can be accurately and completely clamped into the fixture block 8, and therefore, the safety and the accuracy of the device can be improved, after the filament enters the fixture block 8, the push rod 139 can not be controlled any more, at the moment, the elastic part rebounds to drive the moving frame 135, the push rod 139, the telescopic rod 136 and the ratchet rack 138 to move towards the rear side for resetting, at the moment, the telescopic rod 136 and the third spring 137 can be compressed, so that the ratchet rack 138 can move towards the inner side, so that the gear 132 can not be driven to rotate, when the telescopic rod 136 and the ratchet bar 138 move to the rear side for resetting, the third spring 137 rebounds to drive the telescopic rod 136 to reset, and the ratchet bar 138 moves to the outer side for resetting.

The pulling assembly 14 is further included, the pulling assembly 14 comprises a reel 141, a guide wheel 142 and a pull wire 143, the lower rear side of the guide frame 3 is connected with the reel 141, the lower rear side of the guide frame 3 is connected with the guide wheel 142, the guide wheel 142 is located below the reel 141, the slide blocks 9 are connected with the pull wire 143, and the tail ends of the pull wire 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 downstream, and then inlay the entering electronic component with tight filament, when sliding block 9 moves down, can stimulate 143 of acting as go-between, and then make 143 of acting as go-between tightly, thereby can pull sliding block 9 and move to the inboard, second spring 10 is compressed, and then can loosen the filament automatically, thereby conveniently inlay the electronic component of completion with the filament and take out, take out the back, fixture block 8 and sliding block 9 can the rebound reset, 143 of acting as go-between is relaxed this moment, second spring 10 rebounds and drives sliding block 9 and move to the outside and reset.

The contact component 15 is further included, the contact component 15 comprises a U-shaped rod 151 and an L-shaped rod 152, four U-shaped rods 151 are uniformly distributed and connected to an output shaft of the speed reducing motor 122, the L-shaped rod 152 is connected to the left side of the rear portion of the push rod 139, and the L-shaped rod 152 is matched with the U-shaped rods 151.

Starting gear motor 122 still can drive U type pole 151 and rotate to make U type pole 151 can cooperate with L type pole 152, and then can intermittently promote push rod 139 and move to the front side, make the filament can be accurate and block 8 is gone into completely to reduce the trouble of artifical manual push rod 139, after the filament of all electronic component is whole to inlay the completion, close gear motor 122, the device just can stop the function.

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

When carrying out electronic component's filament and inlaying, can open the stopper on the feeding lid 162, go out the liquid box 161 with the coolant liquid injection, control the stopper afterwards and close feeding lid 162, and can aim at the position of inlaying with conversion shower nozzle 163, when the device operates, removal frame 135 constantly carries out the back-and-forth movement, thereby can drive carriage release lever 165 constantly carries out the back-and-forth movement, and then constantly pressurizes in going out liquid box 161, and then make the coolant liquid can follow conversion shower nozzle 163 blowout, thereby can cool down inlaying the position, and then can prevent that the staff from being scalded.

It should be understood by those skilled in the art that the above embodiments do not limit the present invention in any way, and all technical solutions obtained by using equivalent alternatives or equivalent variations fall within the scope of the present invention.

Claims (8)

1. A filament mosaic device of electronic component is characterized in that the device comprises:

a mounting frame (1);

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

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

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

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

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

the lifting plate (7) is arranged on the other side of the guide frame (3) in a sliding manner;

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

the two sliding blocks (9) are arranged on the clamping block (8) in a sliding manner;

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 rack (1);

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

2. A filament mosaic device of electronic element according to claim 1, wherein the discharge member (11) comprises:

the cross rods (111) are rotatably arranged on two sides of the mounting rack (1);

a conveyor belt (112) installed between the cross bars (111);

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

3. A filament mosaic device of an electronic component according to claim 2, wherein the driving member (12) comprises:

the placing frame (121) is arranged on one side of the mounting frame (1);

a reduction 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 side cross rod (111);

the infrared reactor (124) is arranged on the other side of the mounting rack (1), and the infrared reactor (124) is connected with the speed reducing motor (122) through a circuit.

4. A filament mosaic device of electronic element according to claim 3, further comprising a pusher assembly (13), the pusher assembly (13) comprising:

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

a gear (132) rotatably mounted in the fixed sleeve (131);

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

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

the moving frame (135) is arranged between the guide rails (134) in a sliding way, and elastic parts are connected between the guide rails (134) and the moving frame (135);

the telescopic rods (136) are arranged on two sides of the movable frame (135);

the third spring (137) is arranged between the telescopic end and the fixed end of the telescopic rod (136);

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

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

5. A filament inlay device for electronic components according to claim 4, further comprising a pulling member (14), wherein the pulling member (14) comprises:

a reel (141) mounted on the guide frame (3) on the side close to the lifting plate (7);

a guide wheel (142) mounted on the guide frame (3), the guide wheel (142) being located below the reel (141);

the pull wires (143) are installed on the sliding blocks (9), and the tail ends of the pull wires (143) are wound on the reel (141) through the guide wheels (142).

6. A filament inlay device for electronic components, according to claim 5, further comprising a contact member (15), wherein the contact member (15) comprises:

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

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

7. The filament mosaic device of claim 6, further comprising a condensing assembly (16), wherein said condensing assembly (16) comprises:

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 formed in the liquid outlet box (161);

the feeding cover (162) is arranged on one side of the liquid outlet box (161);

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

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

and the moving rod (165) is slidably arranged in the pressurizing cylinder (164), and the moving rod (165) is connected with the moving frame (135).

8. A filament mosaic device of an electronic component according to claim 7, wherein the feed cap (162) is provided with a plug.

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