CN113851418B

CN113851418B - Diode correction positioning seat convenient to adjust direction

Info

Publication number: CN113851418B
Application number: CN202111114753.1A
Authority: CN
Inventors: 白云龙
Original assignee: Semtech Semiconductor Technology Dongguan Co Ltd
Current assignee: Semtech Semiconductor Technology Dongguan Co Ltd
Priority date: 2021-09-23
Filing date: 2021-09-23
Publication date: 2022-04-05
Anticipated expiration: 2041-09-23
Also published as: CN113851418A

Abstract

The invention provides a diode correction positioning seat convenient for direction adjustment, which comprises a base, a rotary disc, a bracket, a driving motor A, a rotating shaft A, a cam, a positioning disc, a correction disc, an annular tension spring, four clamping jaws, a bearing seat and a cushion block, wherein the driving motor B, a synchronous belt and a driving wheel A are arranged on the base; the correction disc is fixedly arranged on the positioning disc coaxially; an inner arc concave surface is formed on the outer side surface of the positioning disc, and the bottom of each clamping jaw penetrates through the sliding groove and is in sliding connection with the clamping jaw embedding groove; the annular tension spring is correspondingly sleeved on the inner arc concave surface; one end of the rotating shaft A is connected with the power output end of the driving motor A, and the other end of the rotating shaft A extends into the cam accommodating cavity and is connected with the cam; the upper surface of the correction disc is connected with a bearing seat in a coaxial rotation mode. The invention has the beneficial effects that: the positioning direction can be adjusted at will, the whole machine is not required to be disassembled, the device can be matched with various types of test equipment for use, and the applicability is high.

Description

Diode correction positioning seat convenient to adjust direction

Technical Field

The invention relates to the technical field of diode processing, in particular to a diode correction positioning seat convenient for direction adjustment.

Background

In order to improve the processing precision or the testing accuracy of the diode, the diode is generally corrected before testing or processing, and after the diode is adjusted to an accurate position or direction, the next testing or processing action is performed. The quality of the test or the processing is ensured by the correction step, so that the method is an important link. The correction positioning device forest assembly in the prior art has advantages, but each correction positioning structure basically only considers a product to carry out pertinence setting, and when the form or the model of the product is different, the whole product needs to be replaced, so that the applicability is low, and the whole machine is required to be detached to adjust the clamping direction according to different testing devices or different production lines, so that the whole machine is extremely complex, and the production efficiency is reduced. In view of such circumstances, improvement is urgently required.

Disclosure of Invention

The invention aims to provide a diode correction positioning seat convenient for direction adjustment, the positioning direction can be adjusted at will, the whole machine is not required to be disassembled, the diode correction positioning seat can be matched with various types of test equipment for use, and the applicability is high.

The invention provides a diode correction positioning seat convenient for direction adjustment, which comprises a base, a rotary table, a bracket, a driving motor A, a rotating shaft A, a cam, a positioning disc, a correction disc, an annular tension spring, four clamping jaws, a bearing seat, a cushion block, a driving motor B, a synchronous belt and a driving wheel A, wherein the rotary table is rotationally connected with the base; the bracket is arranged on the turntable, and the driving motor A is arranged on the turntable; the positioning plate is connected with the bracket through a connecting rod; the correcting disc is coaxially and fixedly arranged on the positioning disc; the bottom of the positioning disc is provided with a cam receiving cavity, four sides of the upper surface of the positioning disc are provided with clamping jaw embedding grooves communicated with the cam receiving cavity, and four sides of the correction disc are provided with sliding grooves corresponding to the clamping jaw embedding grooves; an inner arc concave surface for accommodating an annular tension spring is formed at the position, corresponding to the outlet of the clamping jaw embedding groove, of the outer side surface of the positioning disc, and the bottom of each clamping jaw penetrates through the sliding groove and is in sliding connection with the clamping jaw embedding groove; the annular tension spring is correspondingly sleeved on the inner arc concave surface and is abutted and contacted with each clamping jaw; one end of the rotating shaft A is connected with the power output end of the driving motor A, and the other end of the rotating shaft A extends into the cam accommodating cavity and is connected with the cam; the correcting disc upper surface coaxial rotation is connected with and holds the seat of putting, hold and install the cushion on putting the seat, driving motor B installs on the support, driving motor B's power take off end is connected with pivot B, the cover is equipped with action wheel A on the pivot B, the lateral surface circumference array that holds the seat of putting is provided with the dogtooth, the hold-in range cover is established action wheel A and hold and put between the seat.

Preferably, rotating assembly A includes driving motor C, action wheel B, follows the driving wheel, driving motor C installs on the base, the lateral surface circumference array of carousel is provided with the gear, the base with the position that driving motor C corresponds is provided with accomodates the chamber, action wheel B sets up accomodate the intracavity and with driving motor C's power take off end is connected, accomodate the intracavity with the position that action wheel B corresponds is provided with the erection column, from the driving wheel cover establish on the erection column, from one side of driving wheel with the carousel meshing, from the opposite side of driving wheel with action wheel B meshing.

Preferably, the axle center department of base is protruding to be equipped with the connecting seat, the bottom of carousel be provided with the groove of stepping down that the connecting seat corresponds, the inslot of stepping down install with the bearing that the connecting seat rotates to be connected.

Preferably, the clamping jaw comprises a lower sliding part and an upper pushing part, the upper pushing part is provided with a waist-shaped hole, and the upper pushing part penetrates through the waist-shaped hole through a bolt to be connected with the lower sliding part; the lower sliding part is correspondingly embedded in the sliding groove and the clamping jaw embedding groove, and the push-up part is arranged on the upper surface of the correcting disc; the side width of the push-up part is larger than the width of the sliding groove.

Preferably, the upper surface of the correction disc is coaxially provided with a rotary column at a position corresponding to the bearing seat, and the bearing seat is rotatably connected with the rotary column.

Preferably, the cushion block is provided with a negative pressure air hole in a penetrating manner, a negative pressure air pipe connected with the negative pressure air hole is rotatably arranged in the bearing seat, and the free end of the negative pressure air pipe transversely penetrates through the correcting disc and extends out of the correcting disc to be connected with a negative pressure air source.

Preferably, four protrusions and four depressions corresponding to the clamping jaws are formed on the outer side surface of the cam at intervals.

Preferably, the upper surface of the pushing-up part is provided with a first adjusting block, a second adjusting block and a third adjusting block by being sequentially overlapped from bottom to top on one side of the bearing seat, waist-shaped holes are formed in the first adjusting block, the second adjusting block and the third adjusting block, and the first adjusting block, the second adjusting block and the third adjusting block are connected with the pushing-up part through bolts.

Preferably, the first adjusting block, the second adjusting block and the third adjusting block are close to one side face of the bearing seat to form arc-shaped faces corresponding to diodes of different types in shape.

The invention has the beneficial effects that: the diode product is placed on the cushion block, clamping correction is carried out through the four clamping jaws, and when the reverse placement of the direction of the product is detected, the driving motor B rotates by a set angle through the synchronous belt bearing seat to complete the direction change; when the angle adjustment is required to be carried out in order to match with the assembly of a production line, the rotating assembly A is used for driving the rotating disc to rotate to a required angle, the whole machine is not required to be disassembled, the rotating disc can be matched with various types of testing equipment, and the applicability is high.

Drawings

Fig. 1 is a cross-sectional view of the present invention.

Fig. 2 is an enlarged view at a of fig. 1.

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

Fig. 4 is a partial exploded view (omitting the bracket, base, turntable).

FIG. 5 is a side view of the jaw (showing the relative structural relationship of the first, second and third adjustment blocks).

The reference signs are: the device comprises a cam 10, a synchronous belt 11, an annular tension spring 12, a rotating shaft A13, a driving motor B14, a pushing-up part 16, a bolt 15, a lower sliding part 17, a positioning disc 18, a driving motor A20, a rotating disc 23, a connecting rod 19, a bracket 21, a connecting seat 22, a base 24, a bearing 25, a driving motor C26, a driving wheel B29, a driven wheel 28, a mounting column 27, a containing cavity 30, a bearing and placing seat 32, a cushion block 31, a rotating column 33, a negative pressure air hole 34, a correcting disc 35, a negative pressure air pipe 36, a waist-shaped hole 37, a sliding groove 38, a rotating shaft B39, a cam containing cavity 41, a clamping jaw embedding groove 40, a clamping jaw 42, a driving wheel A43, a convex part 44, a concave part 45, a first adjusting block 48, a second adjusting block 47, a third adjusting block 46 and an inner arc concave surface 49.

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 expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, 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 invention provides a diode alignment positioning seat convenient for adjusting a direction, which includes a base 24, a turntable 23, a bracket 21, a driving motor a20, a rotation shaft a13, a cam 10, a positioning disc 18, an alignment disc 35, an annular tension spring 12, four clamping jaws 42, a bearing seat 32, a cushion block 31, a driving motor B14, a synchronous belt 11, and a driving wheel a 43.

The rotary table 23 is rotatably connected with the base 24, the connecting base 22 is convexly arranged at the axis of the base 24, a yielding groove corresponding to the connecting base 22 is arranged at the bottom of the rotary table 23, and a bearing 25 rotatably connected with the connecting base 22 is arranged in the yielding groove. One side of the base 24 is provided with a rotating assembly A for driving the turntable 23 to rotate; the rotating assembly A comprises a driving motor C26, a driving wheel B29 and a driven wheel 28, the driving motor C26 is installed on the base 24, gears are arranged on the circumferential array of the outer side face of the rotary table 23, a containing cavity 30 is formed in the position, corresponding to the driving motor C26, of the base 24, the driving wheel B29 is arranged in the containing cavity 30 and is connected with the power output end of the driving motor C26, a mounting column 27 is arranged in the position, corresponding to the driving wheel B29, the driven wheel 28 is sleeved on the mounting column 27, one side of the driven wheel 28 is meshed with the rotary table 23, and the other side of the driven wheel 28 is meshed with the driving wheel B29.

The bracket 21 is arranged on the turntable 23, and the driving motor A20 is arranged on the turntable 23; the positioning plate 18 is connected with a bracket 21 through a connecting rod 19; the correcting disc 35 is fixedly arranged on the positioning disc 18 coaxially; the bottom of the positioning disc 18 is provided with a cam accommodating cavity 41, four sides of the upper surface of the positioning disc 18 are provided with clamping jaw embedding grooves 40 communicated with the cam accommodating cavity 41, and four sides of the correcting disc 35 are provided with sliding grooves 38 corresponding to the clamping jaw embedding grooves 40; an inner arc concave surface 49 for accommodating the annular tension spring 12 is formed on the outer side surface of the positioning disc 18 corresponding to the outlet of the clamping jaw embedding groove 40, and the bottom of each clamping jaw 42 penetrates through the sliding groove 38 and is in sliding connection with the clamping jaw embedding groove 40; the annular tension spring 12 is correspondingly sleeved on the inner arc concave surface 49 and is abutted against each clamping jaw 42. One end of the rotating shaft A13 is connected with the power output end of the driving motor A20, the other end of the rotating shaft A13 extends into the cam accommodating cavity 41 and is connected with the cam 10, and four convex parts 44 and four concave parts 45 corresponding to the clamping jaws 42 are formed on the outer side surface of the cam 10 at intervals. The upper surface of the correcting disc 35 is coaxially and rotatably connected with a bearing seat 32, the upper surface of the correcting disc 35 and the position corresponding to the bearing seat 32 are coaxially provided with a rotating column 33, the bearing seat 32 is rotatably connected with the rotating column 33, a cushion block 31 is arranged on the bearing seat 32, a driving motor B14 is arranged on the support 21, the power output end of the driving motor B14 is connected with a rotating shaft B39, a driving wheel A43 is sleeved on the rotating shaft B39, convex teeth are circumferentially arranged on the outer side surface of the bearing seat 32 in an array mode, and the synchronous belt 11 is sleeved between the driving wheel A43 and the bearing seat 32.

The clamping jaw 42 comprises a lower sliding part 17 and an upper pushing part 16, the upper pushing part 16 is provided with a waist-shaped hole 37, and the upper pushing part 16 penetrates through the waist-shaped hole 37 through a bolt 15 to be connected with the lower sliding part 17; the lower sliding part 17 is correspondingly embedded in the sliding groove 38 and the clamping jaw embedding groove 40, and the push-up part 16 is arranged on the upper surface of the correcting disc 35; the lateral width of the push-up portion 16 is larger than the width of the slide groove 38.

The cushion block 31 is provided with a negative pressure air hole 34 in a penetrating way, a negative pressure air pipe 36 connected with the negative pressure air hole 34 is arranged in the bearing seat 32 in a rotating way, and the free end of the negative pressure air pipe 36 transversely penetrates through the correcting disc 35 and extends out of the correcting disc 35 to be connected with a negative pressure air source. The negative pressure air source is controlled to be opened and closed through a control valve, and when the diode product needs to be fixed, negative pressure air is output through the negative pressure air hole 34 to adsorb and fix the diode product.

The upper surface of the push-up part 16 is provided with a first adjusting block 48, a second adjusting block 47 and a third adjusting block 46 which are sequentially overlapped from bottom to top on the side close to the bearing seat 32, waist-shaped holes 37 are formed in the first adjusting block 48, the second adjusting block 47 and the third adjusting block 46, and the first adjusting block 48, the second adjusting block 47 and the third adjusting block 46 are connected with the push-up part 16 through bolts 15. One side of the first adjusting block 48, the second adjusting block 47 and the third adjusting block 46, which is close to the bearing seat 32, forms an arc-shaped surface corresponding to the shape of diodes of different types. Through setting up first regulating block 48, second regulating block 47, third regulating block 46, can carry out the adjustment of the extension length that corresponds and the adjustment of required height according to the diode product of different models, only need loosen bolt 15, the relative position that corresponds first regulating block 48, second regulating block 47, third regulating block 46 to required position can, it can accomplish the adjustment to tighten the bolt again, simple and convenient swift, and the suitability is high.

The operating principle of the present embodiment is: the driving motor a20 drives the cam 10 to rotate through the rotating shaft a13, so that the bottom of the clamping jaw 42 is in contact with the protrusion 44 of the cam 10, and at the moment, the clamping jaws 42 on the four sides are in an open state; after the diode product is placed on the cushion block 31, the driving motor a20 drives the cam 10 to rotate through the rotating shaft a13, so that the bottom of the clamping jaw 42 is abutted against the concave part 45 of the cam 10, and the clamping jaws 42 on the four sides are in a clamping state at the moment; the annular tension spring 12 applies an axial pressure to the clamping jaws 42 on the four sides, so that the clamping jaws 42 are driven to keep the diode product in a compressed state. The negative pressure air hole 34 outputs negative pressure air to adsorb and fix the diode product on the cushion block 31.

When the detection equipment detects the diode product on the pad 31 and finds that the direction is reversed, the driving motor a20 drives the cam 10 to rotate through the rotating shaft a13, so that the bottom of the clamping jaw 42 is abutted against the convex part 44 of the cam 10, at this time, the clamping jaws 42 on four sides are in an open state, the driving motor B14 drives the driving wheel a43 to drive the synchronous belt 11 to rotate, the synchronous belt 11 synchronously drives the bearing seat 32 to rotate to a preset angle and then stops, the driving motor a20 drives the cam 10 to rotate through the rotating shaft a13, so that the bottom of the clamping jaw 42 is abutted against the concave part 45 of the cam 10, and at this time, the clamping jaws 42 on four sides are in a clamping state.

When the overall correction direction of the correction positioning seat needs to be adjusted, the driving motor C26 drives the driving wheel B29 to drive the driven wheel 28 to rotate, and the rotation of the driven wheel 28 synchronously drives the turntable 23 to rotate, so that the angle adjustment can be completed. The device does not need to be disassembled from the whole machine, can be matched with various types of test equipment for use, and has high applicability.

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 diode correction positioning seat convenient to adjust direction which characterized in that: the device comprises a base (24), a rotary table (23), a support (21), a driving motor A (20), a rotating shaft A (13), a cam (10), a positioning disc (18), a correcting disc (35), an annular tension spring (12), four clamping jaws (42), a bearing seat (32), a cushion block (31), a driving motor B (14), a synchronous belt (11) and a driving wheel A (43), wherein the rotary table (23) is rotatably connected with the base (24), and one side of the base (24) is provided with a rotating assembly A for driving the rotary table (23) to rotate; the bracket (21) is arranged on the rotary table (23), and the driving motor A (20) is arranged on the rotary table (23); the positioning plate (18) is connected with the bracket (21) through a connecting rod (19); the correcting disc (35) is fixedly arranged on the positioning disc (18) coaxially; a cam receiving cavity (41) is formed in the bottom of the positioning disc (18), clamping jaw embedding grooves (40) communicated with the cam receiving cavity (41) are formed in four sides of the upper surface of the positioning disc (18), and sliding grooves (38) corresponding to the clamping jaw embedding grooves (40) are formed in four sides of the correcting disc (35); an inner arc concave surface (49) for accommodating an annular tension spring (12) is formed at a position, corresponding to an outlet of the clamping jaw embedding groove (40), of the outer side surface of the positioning disc (18), and the bottom of each clamping jaw (42) penetrates through the sliding groove (38) and is in sliding connection with the clamping jaw embedding groove (40); the annular tension spring (12) is correspondingly sleeved on the inner arc concave surface (49) and is abutted against each clamping jaw (42); one end of the rotating shaft A (13) is connected with the power output end of the driving motor A (20), and the other end of the rotating shaft A (13) extends into the cam accommodating cavity (41) and is connected with the cam (10); the utility model discloses a take-up reel, including correction dish (35), correction dish (35) upper surface coaxial rotation is connected with and holds seat (32), hold and install cushion (31) on putting seat (32), driving motor B (14) are installed on support (21), the power take off end of driving motor B (14) is connected with pivot B (39), the cover is equipped with action wheel A (43) on pivot B (39), the lateral surface circumference array of holding seat (32) is provided with the dogtooth, hold-in range (11) cover is established between action wheel A (43) and holding seat (32).

2. The diode alignment socket of claim 1, wherein the diode alignment socket is adapted to be adjusted in direction: rotating assembly A includes driving motor C (26), action wheel B (29), follows driving wheel (28), driving motor C (26) is installed on base (24), the lateral surface circumference array of carousel (23) is provided with the gear, base (24) with the position that driving motor C (26) corresponds is provided with accomodates chamber (30), action wheel B (29) set up accomodate in chamber (30) and with the power take off end of driving motor C (26) is connected, accomodate the intracavity with the position that action wheel B (29) corresponds is provided with erection column (27), it establishes to follow driving wheel (28) on erection column (27), follow one side of driving wheel (28) with carousel (23) meshing, follow the opposite side of driving wheel (28) with action wheel B (29) meshing.

3. The diode alignment socket of claim 2, wherein the diode alignment socket is adapted to be adjusted in direction: the axis of base (24) department is protruding to be equipped with connecting seat (22), the bottom of carousel (23) be provided with the groove of stepping down that connecting seat (22) correspond, step down the inslot install with connecting seat (22) rotate bearing (25) of connecting.

4. The diode alignment socket of claim 1, wherein the diode alignment socket is adapted to be adjusted in direction: the clamping jaw (42) comprises a lower sliding part (17) and an upper pushing part (16), the upper pushing part (16) is provided with a waist-shaped hole (37), and the upper pushing part (16) penetrates through the waist-shaped hole (37) through a bolt (15) to be connected with the lower sliding part (17); the lower sliding part (17) is correspondingly embedded in the sliding groove (38) and the clamping jaw embedding groove (40), and the push-up part (16) is arranged on the upper surface of the correcting disc (35); the side width of the push-up part (16) is larger than the width of the sliding groove (38).

5. The diode alignment socket of claim 1, wherein the diode alignment socket is adapted to be adjusted in direction: the upper surface of the correcting disc (35) and the position corresponding to the bearing seat (32) are coaxially provided with a rotating column (33), and the bearing seat (32) is rotationally connected with the rotating column (33).

6. The diode alignment socket of claim 5, wherein: the cushion block (31) is provided with a negative pressure air hole (34) in a penetrating mode, a negative pressure air pipe (36) connected with the negative pressure air hole (34) is arranged in the bearing seat (32) in a rotating mode, and the free end of the negative pressure air pipe (36) transversely penetrates through the correcting disc (35) and extends out of the correcting disc (35) to be connected with a negative pressure air source.

7. The diode alignment socket of claim 1, wherein the diode alignment socket is adapted to be adjusted in direction: four convex parts (44) and four concave parts (45) corresponding to the clamping jaws (42) are formed on the outer side surface of the cam (10) at intervals.

8. The diode alignment socket of claim 4, wherein the diode alignment socket is adapted to be adjusted in direction: the upper surface of the upward pushing part (16) is close to one side of the bearing seat (32) and is sequentially overlapped with a first adjusting block (48), a second adjusting block (47) and a third adjusting block (46) from bottom to top, waist-shaped holes (37) are formed in the first adjusting block (48), the second adjusting block (47) and the third adjusting block (46), and the first adjusting block (48), the second adjusting block (47) and the third adjusting block (46) are connected with the upward pushing part (16) through bolts (15).

9. The diode alignment socket of claim 8, wherein the diode alignment socket is adapted to be adjusted in direction: the first adjusting block (48), the second adjusting block (47) and the third adjusting block (46) lean against one side surface of the bearing seat (32) to form arc surfaces corresponding to diodes of different types in shape.