CN115354256A

CN115354256A - Supplementary material equipment of inserting of tin frame is invaded to diode pin

Info

Publication number: CN115354256A
Application number: CN202211062333.8A
Authority: CN
Inventors: 许卫林
Original assignee: Semtech Semiconductor Technology Dongguan Co Ltd
Current assignee: Semtech Semiconductor Technology Dongguan Co Ltd
Priority date: 2022-08-31
Filing date: 2022-08-31
Publication date: 2022-11-18
Anticipated expiration: 2042-08-31
Also published as: CN115354256B

Abstract

The invention provides auxiliary inserting equipment for a diode pin tin-dipping frame, which comprises a workbench, wherein a tin-dipping frame bearing jig is arranged in the middle of the workbench, and inserting components are correspondingly arranged on two opposite sides of the tin-dipping frame bearing jig; the inserting assembly comprises a first linear sliding table, a second linear sliding table, a T-shaped mounting plate and a clamping structure; the second linear sliding table is connected with the first linear sliding table through a first sliding block, and the second linear sliding table and the first linear sliding table form a vertical relation; the T-shaped mounting plate is connected with the second linear sliding table through a second sliding block; the clamping structure is correspondingly arranged on the T-shaped mounting plate and corresponds to the tin-dipping frame bearing jig in position; a through hole is formed in the middle of the T-shaped mounting plate at a position corresponding to the clamping structure; the clamping structure comprises a first clamping part and a second clamping part which are arranged in opposite matching mode. The work efficiency is improved.

Description

Supplementary material equipment of inserting of tin frame is invaded to diode pin

Technical Field

The invention relates to the technical field of diode processing, in particular to auxiliary inserting equipment for a diode pin tin-dipping frame.

Background

In the diode processing process, the base pins of the strip material below the tube shell need to be subjected to tin-dipping treatment. The conventional operations in the prior art are: the material belt is orderly placed in the rectangular tin-dipping frame 10 by the hand, the bottom of the material belt 11 is held by the material supporting plate 13 in the rectangular tin-dipping frame 10, and the top of the material belt is pressed by the I-shaped pressing rod 15, so that the tin-dipping treatment can be simultaneously carried out on a plurality of material belts once. The operation efficiency of the manual hand for placing the material belt into the rectangular tin-dipping frame 10 is very low, the main reason is that the material belt is cut into strips in a rolling manner, when the rectangular tin-dipping frame 10 is inserted, bending of the material belt basically exists, so that the manual hand needs to straighten the material on one hand and insert the material aiming at the abdicating grooves 12 on two opposite sides in the rectangular tin-dipping frame 10 on the other hand, the manual hand needs to be highly concentrated in the process of keeping straightening action and calibrating insertion action, fatigue is easy to cause, and the phenomenon that the material insertion efficiency is affected due to shaking of the hand is difficult to avoid. In view of this situation, a solution is urgently needed.

Disclosure of Invention

Based on this, the invention aims to provide the auxiliary inserting equipment for the diode pin tin-dipping frame, so that automatic inserting is realized, and the working efficiency is improved.

The invention provides auxiliary inserting equipment for a diode pin tin-dipping frame, which comprises a workbench, wherein a tin-dipping frame bearing jig is arranged in the middle of the workbench, and inserting components are correspondingly arranged on two opposite sides of the tin-dipping frame bearing jig;

the inserting assembly comprises a first linear sliding table, a second linear sliding table, a T-shaped mounting plate and a clamping structure;

the second linear sliding table is connected with the first linear sliding table through a first sliding block, and the second linear sliding table and the first linear sliding table form a vertical relation; the T-shaped mounting plate is connected with the second linear sliding table through a second sliding block; the clamping structure is correspondingly arranged on the T-shaped mounting plate and corresponds to the tin-dipping frame bearing jig in position;

a through hole is formed in the middle of the T-shaped mounting plate at a position corresponding to the clamping structure;

the clamping structure comprises a first clamping part and a second clamping part which are arranged in a matched manner in opposite directions, and the first clamping part and the second clamping part respectively comprise a push-pull driving motor and a clamping jaw; the power output end of the push-pull driving motor is connected with the clamping jaw; the lower parts of the two clamping jaws penetrate through the through hole and extend to the lower surface of the T-shaped mounting plate.

Furthermore, the position that corresponds with invade tin frame and hold and put the tool on the workstation is provided with third sharp slip table, third sharp slip table through the third slider with it holds and puts the tool and be connected to invade tin frame.

Furthermore, a plurality of limiting slots are formed on the upper surface of the tin-dipping frame bearing jig along the width direction of the upper surface.

Further, the clamping jaw is arranged in a vertical Z shape.

Furthermore, the outer side surface of one clamping jaw on the two inserting assemblies is provided with a convex block, the convex block is provided with a vertical threaded hole, and a fool-proof thimble is connected in the vertical threaded hole in a corresponding threaded manner.

The beneficial effects of the invention are as follows: the centre gripping is carried out by the clamping structure in the corresponding clamping structure who places both sides in material area to the people hand, afterwards, the straight line slip table of second makes T shape mounting panel to invading the position that tin frame holds and put the tool and correspond and insert to accomplish and insert the material action, so repetitive operation has effectively avoided the material area because of the curved condition of expecting and influence efficiency, and work efficiency is high, has saved the manpower greatly.

Drawings

FIG. 1 is a top view of a lead-in solder rack.

Fig. 2 is a bottom perspective view of a pin wicking frame.

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

Fig. 4 is a partial view of a clamping structure of the present invention.

Fig. 5 is a partial view (from another perspective) of a clamping structure according to the present invention.

The reference signs are: the tin dipping machine comprises a rectangular tin dipping frame 10, a material belt 11, a abdicating groove 12, a material supporting plate 13, a gap 14, an I-shaped pressure lever 15, a T-shaped mounting plate 18, a second sliding block 17, a second linear sliding table 16, a push-pull driving motor 20, a clamping jaw 19, a convex block 21, a fool-proof thimble 22, a third linear sliding table 23, a through hole 24, a first clamping part 25, a working table 26, a material inserting assembly 27, a tin dipping frame bearing jig 28, a limiting slot 29, a first linear sliding table 30, a second clamping part 31, a clamping structure 32 and a first sliding block 33.

Detailed Description

For a better understanding of the features and technical solutions of the present invention, together with the specific objects and functions attained by the invention, reference is made to the following detailed description and accompanying drawings that form a part hereof.

In the present invention, unless otherwise explicitly stated or limited, the terms "mounted," "connected," "fixed," and the like are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Referring to fig. 1-5, the present invention provides an auxiliary insertion device for a diode pin tin-dipping frame, which includes a worktable 26, wherein a tin-dipping frame holding fixture 28 is disposed in the middle of the worktable 26, and insertion assemblies 27 are correspondingly disposed on two opposite sides of the tin-dipping frame holding fixture 28.

The insertion assembly 27 comprises a first linear sliding table 30, a second linear sliding table 16, a T-shaped mounting plate 18 and a clamping structure 32.

The second linear sliding table 16 is connected with the first linear sliding table 30 through a first sliding block 33, and the second linear sliding table 16 and the first linear sliding table 30 form a vertical relation; the T-shaped mounting plate 18 is connected with the second linear sliding table 16 through a second sliding block 17; the clamping structure 32 is correspondingly mounted on the T-shaped mounting plate 18 and is located corresponding to the wicking frame holding fixture 28.

The middle part of the T-shaped mounting plate 18 is provided with a through hole 24 corresponding to the clamping structure 32.

The clamping structure 32 comprises a first clamping part 25 and a second clamping part 31 which are oppositely matched, and the first clamping part 25 and the second clamping part 31 both comprise a push-pull driving motor 20 and a clamping jaw 19; the power output end of the push-pull driving motor 20 is connected with the clamping jaw 19; the lower portions of both jaws 19 extend through the through-holes 24 and to the lower surface of the T-shaped mounting plate 18.

And a third linear sliding table 23 is arranged on the workbench 26 at a position corresponding to the tin-dipping frame bearing jig 28, and the third linear sliding table 23 is connected with the tin-dipping frame bearing jig 28 through a third sliding block. Can drive through third straight line slip table 23 and invade tin frame and hold tool 28 and put along its length direction round trip movement to be convenient for the staff and place and take away rectangle and invade tin frame 10 on invading tin frame and hold tool 28.

The upper surface of the tin-dipping frame holding fixture 28 is formed with a plurality of limiting slots 29 along the width direction.

The clamping jaw is arranged in a vertical Z shape, so that the push-pull stroke of the push-pull driving motor 20 is shortened, and the clamping speed is increased.

A convex block 21 is arranged on the outer side surface of one clamping jaw of the two inserting assemblies 27, a vertical threaded hole is formed in the convex block 21, and a fool-proof thimble 22 is correspondingly and threadedly connected in the vertical threaded hole. Through the arrangement of the fool-proof thimble 22, after the material belt is inserted into a proper position in the abdicating groove 12, the fool-proof thimble 22 can contact with the upper surface of the retainer plate 13, so that the situation that the material belt is damaged due to excessive insertion is avoided. The up-down extending distance of the fool-proof thimble 22 on the bump 21 can be adjusted, so that the fool-proof thimble can be adjusted to be fine-tuned according to the abrasion condition, and the service life is too long.

The operating principle of the present embodiment is:

1. placing the rectangular tin-dipping frame 10 on a tin-dipping frame bearing jig 28, and correspondingly embedding the material supporting plate 13 at the bottom of the rectangular tin-dipping frame into the limiting slot 29 so as to realize stable placement;

2. the material belt is taken by hands and placed at the positions of the clamping structures 32 at two sides, and two ends of the material belt are clamped and fixed in a matching manner through the first clamping part 25 and the second clamping part 31 respectively, so that the material belt is prevented from being bent or shifted;

3. the second linear sliding table 16 drives the T-shaped mounting plate 18 and the clamping structure 32 to move straight towards the solder-dipping rack bearing jig 28 until the clamping jaws 19 drive the material strip to be inserted into the abdicating groove 12, and at this time, the two clamping jaws 19 are located at the gap 14 between the abdicating groove 12 and the material supporting plate 13 on the opposite two side surfaces of the rectangular solder-dipping rack 10, so as to avoid touching the adjacent material strip which is completely placed;

4. then the second linear sliding table 16 drives the T-shaped mounting plate 18 and the clamping structure 32 to reset, and the first linear sliding table 30 drives the second linear sliding table 16, the T-shaped mounting plate 18 and the clamping structure 32 to move for a predetermined distance and then continuously repeat the above-mentioned inserting operation.

The invention effectively avoids the condition that the efficiency is influenced by bending the material belt, has high working efficiency and greatly saves manpower.

The above-mentioned embodiments only express one embodiment of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. The utility model provides a supplementary material equipment of inserting of tin frame is invaded to diode pin, includes workstation (26), its characterized in that: a tin-dipping frame bearing jig (28) is arranged in the middle of the workbench (26), and inserting assemblies (27) are correspondingly arranged on two opposite sides of the tin-dipping frame bearing jig (28);

the inserting assembly (27) comprises a first linear sliding table (30), a second linear sliding table (16), a T-shaped mounting plate (18) and a clamping structure (32);

the second linear sliding table (16) is connected with the first linear sliding table (30) through a first sliding block (33), and the second linear sliding table (16) and the first linear sliding table (30) form a vertical relation; the T-shaped mounting plate (18) is connected with the second linear sliding table (16) through a second sliding block (17); the clamping structure (32) is correspondingly arranged on the T-shaped mounting plate (18) and corresponds to the tin-dipping frame bearing jig (28);

a through hole (24) is formed in the middle of the T-shaped mounting plate (18) at a position corresponding to the clamping structure (32);

the clamping structure (32) comprises a first clamping part (25) and a second clamping part (31) which are arranged in a matched mode in the opposite direction, and the first clamping part (25) and the second clamping part (31) respectively comprise a push-pull driving motor (20) and a clamping jaw (19); the power output end of the push-pull driving motor (20) is connected with the clamping jaw (19); the lower parts of the clamping jaws (19) penetrate through the through holes (24) and extend to the lower surface of the T-shaped mounting plate (18).

2. The auxiliary inserting equipment for the diode pin tin-dipping frame as claimed in claim 1, wherein: and a third linear sliding table (23) is arranged on the workbench (26) at a position corresponding to the tin-dipping frame bearing jig (28), and the third linear sliding table (23) is connected with the tin-dipping frame bearing jig (28) through a third sliding block.

3. The diode pin tin-encroaching frame auxiliary inserting equipment as claimed in claim 1, wherein: the upper surface of the tin-dipping frame bearing jig (28) is provided with a plurality of limiting slots (29) along the width direction.

4. The diode pin tin-encroaching frame auxiliary inserting equipment as claimed in claim 1, wherein: the clamping jaw is arranged in a vertical Z shape.

5. The auxiliary insertion equipment for the diode pin tin-dipping frame according to any one of claims 1 to 4, wherein: the outer side surface of one clamping jaw on the two inserting assemblies (27) is provided with a convex block (21), a vertical threaded hole is formed in the convex block (21), and a fool-proof thimble (22) is connected in the vertical threaded hole in a corresponding threaded manner.