CN205376482U - Arrange brace for diode - Google Patents

Abstract

The utility model discloses an arrange brace for diode, insert the dish including bottom subassembly, emission subassembly, diode, inserted the diode on the diode is inserted and is coiled. The utility model discloses arrange brace for diode simple structure, convenient operation, can with the diode that welds from the diode insert that the dish is taken off and the orientation arrangement to the mouth style of calligraphy frame for to the range to the diode, remove, reach the purpose of direct material loading, can improve artifical efficiency, improve the product quality.

Description

A kind of arrangement diode brace

Technical field

This utility model relates to diode production aid technical field, is specifically related to a kind of arrangement diode brace.

Background technology

Diode, in the processes such as molding, encapsulation, detection, often needs to align diode, moves on corresponding equipment, in prior art, often rely on manual arrangement, waste time and energy, increase cost of labor, efficiency is low, be unfavorable for quality control.

Utility model content

The purpose of this utility model is in that, for the deficiencies in the prior art, it is provided that a kind of arrangement diode brace.

This utility model technical scheme just is as follows.

A kind of arrangement diode brace, including base assemblies, Exhaust assembly, diode plug-in unit dish.

Diode includes columned P/N knot, P/N knot be respectively arranged at the two ends with copper lead-in wire, P/N knot, copper lead-in wire axis on the same line and form the axis of diode；Diode plug-in unit dish includes the pedestal in cubic, the bottom surface of pedestal is rectangular planes, on diode plug-in unit dish, the equidistant row axis that is inserted with is parallel to each other and diode in the same plane, the axis of each diode is perpendicular to the long limit of the bottom surface of pedestal, and place, the axis plane of each diode is parallel to the bottom surface of pedestal.

Base assemblies includes base plate, left guide plate, right guide plate, left guide plate, right guide plate are parallel to each other and are disposed longitudinally on the end face of base plate, and between the upper left guide plate of end face of base plate, right guide plate, crossbar array has the rectangular-shaped spacing block that some sizes are identical；The axial clearance of the rectangular-shaped spacing block of each row and the length of diode adapt；The diameter of each lateral clearance and copper lead-in wire arranging rectangular-shaped spacing block adapts；The left side of left guide plate is provided with left limit device, and the right side of right guide plate is provided with right limit device.

Exhaust assembly includes hollow framework, and the leading flank of hollow framework is connected to handle, and the width of hollow framework is equal to the distance between right flank and the left surface of right limit device of left limit device；Hollow framework to be provided with on the end face of number and base plate the line number of rectangular-shaped spacing block few one and axial clearance is equal to the lateral partitions of the length of diode.

The leading flank of each lateral partitions is provided with lath before lateral partitions, before lateral partitions, on lath, transverse row shows spacing block before the rectangular-shaped lateral partitions that a line size is identical, and the size of spacing block before this row lateral partitions, lateral clearance and the size of the rectangular-shaped spacing block of any a line on the end face of base plate, lateral clearance are identical.

The trailing flank of each lateral partitions is provided with lath after lateral partitions, after lateral partitions, on lath, transverse row shows spacing block after the rectangular-shaped lateral partitions that a line size is identical, after lateral partitions, the end face of spacing block is positioned at below the end face of lateral partitions, and after this row lateral partitions, the lateral clearance between lateral clearance and the rectangular-shaped spacing block of each row on the end face of base plate between spacing block is identical.

The trailing flank of the front side edge of hollow framework is provided with front side edge lath, on front side edge lath, transverse row shows the rectangular-shaped front side edge spacing block that a line size is identical, the end face of front side edge spacing block is positioned at below the end face of lateral partitions, and the lateral clearance between lateral clearance and the rectangular-shaped spacing block of each row on the end face of base plate between this row front side edge spacing block is identical.

The leading flank of the back side edge of hollow framework is provided with back side edge lath, on back side edge lath, transverse row shows the rectangular-shaped back side edge spacing block that a line size is identical, and the size of this row back side edge spacing block, lateral clearance and the size of the rectangular-shaped spacing block of any a line on the end face of base plate, lateral clearance are identical.

The leading flank of the back side edge of hollow framework and from the length equal to diode of the distance between the trailing flank of the lateral partitions of its nearest neighbours；The trailing flank of the front side edge of hollow framework and from the length equal to diode of the distance between the leading flank of the lateral partitions of its nearest neighbours；The height of rectangular-shaped spacing block is more than the thickness of hollow framework.

As optimal technical scheme, the rear end on the end face of pedestal is provided with fin after laterally, and the front end on the end face of pedestal is provided with fin before laterally；After transverse direction, fin is provided with row's longitudinal hole, and before laterally, on fin, opposite position is provided with row's longitudinal direction jack；Before laterally, the axis of longitudinal jack of the longitudinal hole on fin and its dead ahead is on the same line.

As optimal technical scheme, the width of lateral partitions is identical with the width of the bottom surface of diode plug-in unit dish.

As optimal technical scheme, the length of lateral partitions is identical with the length of the bottom surface of diode plug-in unit dish.

As optimal technical scheme, between adjacent two front side edge spacing blocks, between adjacent two back side edge spacing blocks, it is provided with longitudinally guiding groove.

As optimal technical scheme, after adjacent two lateral partitions of the rear side of each lateral partitions between spacing block, before adjacent two lateral partitions of the front side of each lateral partitions, between spacing block, it is provided with longitudinally guiding groove.

As optimal technical scheme, hollow framework, diode plug-in unit dish are all adopted and are formed from aluminium.

End face as optimal technical scheme, handle and hollow framework is provided with 15 to 30 angles spent.

As optimal technical scheme, before lateral partitions, the height of spacing block is equal to the height of rectangular-shaped spacing block.

As optimal technical scheme, left limit device, right limit device are all cylindrical, stopping means, right limit device axis be each perpendicular to the end face of base plate.

During use, hollow framework is placed in base assemblies, the left surface of left side making hollow framework contact with the right flank of left limit device, the make right flank of right edge of hollow framework contacts with the left surface of right limit device, and in base assemblies, the rectangular-shaped spacing block of a line of front side is close to the trailing flank of the front side edge of hollow framework.To the upper surface of front side edge of hollow framework, lateral partitions) upper surface place diode plug-in unit dish, and in the corresponding gap of each diode of diode plug-in unit dish is put into its rear rectangular-shaped spacing block.Now, the P/N knot of each row diode is positioned at the dead astern of the rectangular-shaped spacing block of a line, withdraws from diode plug-in unit dish from back to front, and diode plug-in unit dish pulls diode to travel forward.nullBetween the diode on diode plug-in unit dish、Between the rectangular-shaped spacing block of same a line、It is positioned at the front side edge spacing block of same a line、It is positioned at the back side edge spacing block of same a line、It is positioned at spacing block after the lateral partitions of same a line、Before being positioned at the lateral partitions of same a line, spacing block gap is identical，After diode plug-in unit dish is extracted diode and is removed，Under the stop of rectangular-shaped spacing block，The front end of diode falls into the gap of spacing block after a line front side edge spacing block or lateral partitions being arranged in rectangular-shaped spacing block front，Simultaneously，The rear end of diode falls into the gap of spacing block before a line front side edge spacing block or lateral partitions being arranged in rectangular-shaped spacing block rear，Seesaw hollow framework，Diode easily can be arranged in front before side spacing block and adjacent lateral partitions thereof between the gap of spacing block、Before lateral partitions after spacing block and adjacent lateral partitions thereof between the gap of spacing block、After back side edge spacing block and adjacent lateral partitions thereof between the gap of spacing block.

The beneficial effects of the utility model are: can take off and align on hollow framework from diode plug-in unit dish by the diode welded, for to the arrangement of diode, movement, reach the purpose of direct feeding, it is possible to improve man efficiency, improve product quality.

Accompanying drawing explanation

Fig. 1 is the structural representation of hollow framework.

Fig. 2 is the partial enlarged drawing of the part B of Fig. 1.

Fig. 3 is the structural representation of base assemblies.

Fig. 4 is placed with the schematic diagram when hollow framework of diode plug-in unit dish is placed in base assemblies；

Fig. 5 is the partial enlarged drawing of the C portion of Fig. 4.

Fig. 6 removes the schematic diagram when hollow framework of diode plug-in unit dish is placed in base assemblies；

Fig. 7 is the partial enlarged drawing of the D part of Fig. 6.

Fig. 8 removes the schematic diagram after the hollow framework of diode plug-in unit dish takes off from base plate.

Fig. 9 is the front view of diode plug-in unit dish.

Diode plug-in unit dish shown in Figure 10 Fig. 9 is along the sectional view of A-A '.

Wherein: diode plug-in unit dish-1；Fin-12 laterally longitudinal jack-15 of front fin-13 longitudinal hole-14 after pedestal-11 is horizontal；Diode-2;P/N knot-21;Copper lead-in wire-22;Base plate-3;Left guide plate-31;Right guide plate-32;Left limit device-33;Right limit device-34;Rectangular-shaped spacing block-35;Hollow framework-4;Lateral partitions-41;Lath-42 before lateral partitions;Spacing block-43 before lateral partitions;Lath-44 after lateral partitions;Spacing block-45 after lateral partitions;The front side edge-46 of hollow framework;Front side edge lath-47;Front side edge spacing block-48;The back side edge-49 of hollow framework;Back side edge lath-410;Back side edge spacing block-411；The left side-412 of hollow framework；The right edge-413 of hollow framework；Handle-5；Longitudinally guiding groove-6.

Detailed description of the invention

Below, in conjunction with the accompanying drawings and embodiments this utility model is described further.

Embodiment 1.As shown in Fig. 1 to Figure 10, a kind of arrangement diode brace, including base assemblies, Exhaust assembly, diode plug-in unit dish 1.

Diode 2 include columned P/N knot 21, P/N knot 21 be respectively arranged at the two ends with copper lead-in wire 22, P/N knot 21, the axis of copper lead-in wire 22 on the same line and forms the axis of diode 2；Diode plug-in unit dish 1 includes the pedestal 11 in cubic, the bottom surface of pedestal 11 is rectangular planes, on diode plug-in unit dish 1, the equidistant row axis that is inserted with is parallel to each other and diode 2 in the same plane, the axis of each diode 2 is perpendicular to the long limit of the bottom surface of pedestal 11, and place, the axis plane of each diode 2 is parallel to the bottom surface of pedestal 11.

Base assemblies includes base plate 3, left guide plate 31, right guide plate 32, left guide plate 31, right guide plate 32 are parallel to each other and are disposed longitudinally on the end face of base plate 3, and between the upper left guide plate of end face 31 of base plate 3, right guide plate 32, crossbar array has the rectangular-shaped spacing block 35 that some sizes are identical；The rectangular-shaped axial clearance of spacing block 35 of each row and the length of diode adapt, and namely the axial clearance of the rectangular-shaped spacing block of each row 35 is substantially identical with the length of diode.

The diameter of each lateral clearance and copper lead-in wire 22 arranging rectangular-shaped spacing block 35 adapts, and namely copper lead-in wire 22 can put into the lateral clearance of the rectangular-shaped spacing block 35 of each row.

The left side of left guide plate 31 is provided with left limit device 33, and the right side of right guide plate 32 is provided with right limit device 34.

Exhaust assembly includes hollow framework 4, and the leading flank of hollow framework 4 is connected to handle 5, and the width of hollow framework 4 is equal to the distance between right flank and the left surface of right limit device 34 of left limit device 33；Hollow framework 4 is provided with number and lacks, with the line number of rectangular-shaped spacing block 35 on the end face of base plate 3, the lateral partitions 41 that and axial clearance and diode length adapt.Handle has two.

The leading flank of each lateral partitions 41 is provided with lath 42 before lateral partitions, before lateral partitions, on lath 42, transverse row shows spacing block 43 before the rectangular-shaped lateral partitions that a line size is identical, and the size of spacing block 43 before this row lateral partitions, lateral clearance and the size of the rectangular-shaped spacing block of any a line 35 on the end face of base plate 3, lateral clearance are identical.

The trailing flank of each lateral partitions 41 is provided with lath 44 after lateral partitions, after lateral partitions, on lath 44, transverse row shows spacing block 45 after the rectangular-shaped lateral partitions that a line size is identical, after lateral partitions, the end face of spacing block 45 is positioned at below the end face of lateral partitions 41, and after this row lateral partitions, the lateral clearance between lateral clearance and the rectangular-shaped spacing block of each row 35 on the end face of base plate 3 between spacing block 45 is identical.

The trailing flank of the front side edge 46 of hollow framework is provided with front side edge lath 47, on front side edge lath 47, transverse row shows the rectangular-shaped front side edge spacing block 48 that a line size is identical, the end face of front side edge spacing block 48 is positioned at below the end face of lateral partitions 41, and the lateral clearance between lateral clearance and the rectangular-shaped spacing block of each row 35 on the end face of base plate 3 between this row front side edge spacing block 48 is identical.

The leading flank of the back side edge 49 of hollow framework is provided with back side edge lath 410, on back side edge lath 410, transverse row shows the rectangular-shaped back side edge spacing block 411 that a line size is identical, and the size of this row back side edge spacing block 411, lateral clearance and the size of the rectangular-shaped spacing block of any a line 35 on the end face of base plate 3, lateral clearance are identical.

The leading flank of the back side edge 49 of hollow framework and from the length equal to diode of the distance between the trailing flank of the lateral partitions 41 of its nearest neighbours；The trailing flank of the front side edge 46 of hollow framework and from the length equal to diode of the distance between the leading flank of the lateral partitions 41 of its nearest neighbours；Axial clearance between adjacent two lateral partitions 41 is equal to the length of diode；The height of rectangular-shaped spacing block 35 is more than the thickness of hollow framework 4.

Rear end on the end face of pedestal 11 is provided with fin 12 after laterally, and the front end on the end face of pedestal 11 is provided with fin 13 before laterally；After transverse direction, fin 12 is provided with row's longitudinal hole 14, and before laterally, on fin 13, opposite position is provided with row's longitudinal direction jack 15；Before laterally, the axis of the longitudinal hole 14 on fin 13 and longitudinal jack 15 of its dead ahead is on the same line, and this longitudinal hole 14 is inserted with the front end of the copper lead-in wire 22 of a diode and the copper lead-in wire 22 of this diode and is positioned at longitudinal jack 15 of this longitudinal hole 14 dead ahead.

The width of lateral partitions 41 is identical with the width of the bottom surface of diode plug-in unit dish 1.

The length of lateral partitions 41 is identical with the length of the bottom surface of diode plug-in unit dish 1.

Between adjacent two front side edge spacing blocks 48, between adjacent two back side edge spacing blocks 411, it is provided with longitudinally guiding groove 6.

After adjacent two lateral partitions of the rear side of each lateral partitions 41 between spacing block 45, before adjacent two lateral partitions of the front side of each lateral partitions 41, between spacing block 43, it is provided with longitudinally guiding groove 6.

Hollow framework 4, diode plug-in unit dish 1 are all adopted and are formed from aluminium.

The end face of handle 5 and hollow framework 4 is provided with the angles of 15 to 30 degree.

Before lateral partitions, the height of spacing block 43 is equal to the height of rectangular-shaped spacing block 35.

Left limit device 33, right limit device 34 are all cylindrical, stopping means 33, right limit device 34 axis be each perpendicular to the end face of base plate 3.

During use, hollow framework 4 is placed in base assemblies, the left surface of left side 412 making hollow framework contact with the right flank of left limit device 33, the make right flank of right edge 413 of hollow framework contacts with the left surface of right limit device 34, and in base assemblies, the rectangular-shaped spacing block 35 of a line of front side is close to the trailing flank of the front side edge 46 of hollow framework.Diode plug-in unit dish 1 is placed to the upper surface of the upper surface of front side edge 46 of hollow framework, lateral partitions 41, and in the corresponding gap of each diode 2 of diode plug-in unit dish 1 is put into its rear rectangular-shaped spacing block 35.Now, the P/N knot 21 of each row diode is positioned at the dead astern of the rectangular-shaped spacing block 35 of a line, withdraws from diode plug-in unit dish 1 from back to front, and diode plug-in unit dish 1 pulls diode to travel forward.nullBetween the diode 2 on diode plug-in unit dish 1、Between the rectangular-shaped spacing block 35 of same a line、It is positioned at the front side edge spacing block 48 of same a line、It is positioned at the back side edge spacing block 411 of same a line、It is positioned at spacing block 45 after the lateral partitions of same a line、Before being positioned at the lateral partitions of same a line, spacing block 43 gap is identical，After diode plug-in unit dish 1 is extracted diode and is removed，Under the stop of rectangular-shaped spacing block 35，The front end of diode falls into the gap of spacing block 45 after a line front side edge spacing block 48 or lateral partitions being arranged in rectangular-shaped spacing block 35 front，Simultaneously，The rear end of diode falls into the gap of spacing block 43 before a line front side edge spacing block 48 or lateral partitions being arranged in rectangular-shaped spacing block 35 rear，Seesaw hollow framework，Diode easily can be arranged in front before side spacing block 48 and adjacent lateral partitions thereof between the gap of spacing block 43、Before lateral partitions after spacing block 43 and adjacent lateral partitions thereof between the gap of spacing block 45、After back side edge spacing block 411 and adjacent lateral partitions thereof between the gap of spacing block 45.

The foregoing is only preferred embodiment of the present utility model, it is not limited to this utility model, although this utility model being described in detail with reference to previous embodiment, for a person skilled in the art, technical scheme described in foregoing embodiments still can be modified by it, or wherein portion of techniques feature carries out equivalent replacement.All within spirit of the present utility model and principle, any amendment of making, equivalent replacement, improvement etc., should be included within protection domain of the present utility model.

Claims (10)

1. an arrangement diode brace, it is characterised in that: include base assemblies, Exhaust assembly, diode plug-in unit dish (1)；

Diode (2) includes columned P/N and ties (21), and P/N knot (21) is respectively arranged at the two ends with copper lead-in wire (22), and the axis of P/N knot (21), copper lead-in wire (22) on the same line and forms the axis of diode (2)；Diode plug-in unit dish (1) includes the pedestal (11) in cubic, the bottom surface of pedestal (11) is rectangular planes, the upper equidistant row axis that is inserted with of diode plug-in unit dish (1) is parallel to each other and diode (2) in the same plane, the axis of each diode (2) is perpendicular to the long limit of the bottom surface of pedestal (11), and place, the axis plane of each diode (2) is parallel to the bottom surface of pedestal (11)；

Base assemblies includes base plate (3), left guide plate (31), right guide plate (32), left guide plate (31), right guide plate (32) are parallel to each other and are disposed longitudinally on the end face of base plate (3), and between the upper left guide plate of the end face (31) of base plate (3), right guide plate (32), crossbar array has the rectangular-shaped spacing block (35) that some sizes are identical；The axial clearance of the rectangular-shaped spacing block of each row (35) is equal to the length of diode；The diameter of each lateral clearance and copper lead-in wire (22) arranging rectangular-shaped spacing block (35) adapts；The left side of left guide plate (31) is provided with left limit device (33), and the right side of right guide plate (32) is provided with right limit device (34)；

Exhaust assembly includes hollow framework (4), and the leading flank of hollow framework (4) is connected to handle (5), and the width of hollow framework (4) is equal to the distance between right flank and the left surface of right limit device (34) of left limit device (33)；Hollow framework (4) is provided with number and lacks, with the line number of rectangular-shaped spacing block (35) on the end face of base plate (3), the lateral partitions (41) that and axial clearance and diode length adapt；

The leading flank of each lateral partitions (41) is provided with lath (42) before lateral partitions, before lateral partitions, the upper transverse row of lath (42) shows spacing block (43) before the rectangular-shaped lateral partitions that a line size is identical, and the size of spacing block (43) before this row lateral partitions, lateral clearance and the size of the rectangular-shaped spacing block of any a line (35) on the end face of base plate (3), lateral clearance are identical；

The trailing flank of each lateral partitions (41) is provided with lath (44) after lateral partitions, after lateral partitions, the upper transverse row of lath (44) shows spacing block (45) after the rectangular-shaped lateral partitions that a line size is identical, after lateral partitions, the end face of spacing block (45) is positioned at below the end face of lateral partitions (41), and after this row lateral partitions, the lateral clearance between lateral clearance and the rectangular-shaped spacing block of each row (35) on the end face of base plate (3) between spacing block (45) is identical；

The trailing flank of the front side edge (46) of hollow framework is provided with front side edge lath (47), the upper transverse row of front side edge lath (47) shows the rectangular-shaped front side edge spacing block (48) that a line size is identical, the end face of front side edge spacing block (48) is positioned at below the end face of lateral partitions (41), and the lateral clearance between lateral clearance and the rectangular-shaped spacing block of each row (35) on the end face of base plate (3) between this row front side edge spacing block (48) is identical；

The leading flank of the back side edge (49) of hollow framework is provided with back side edge lath (410), the upper transverse row of back side edge lath (410) shows the rectangular-shaped back side edge spacing block (411) that a line size is identical, and the size of this row back side edge spacing block (411), lateral clearance and the size of the rectangular-shaped spacing block of any a line (35) on the end face of base plate (3), lateral clearance are identical；

Distance between the trailing flank of the leading flank of the back side edge (49) of hollow framework and the lateral partitions (41) from its nearest neighbours is equal to the length of diode；Distance between the leading flank of the trailing flank of the front side edge (46) of hollow framework and the lateral partitions (41) from its nearest neighbours is equal to the length of diode；The height of rectangular-shaped spacing block (35) is more than the thickness of hollow framework (4).

2. a kind of arrangement diode brace as claimed in claim 1, it is characterised in that: the rear end on the end face of pedestal (11) is provided with fin (12) after laterally, and the front end on the end face of pedestal (11) is provided with fin (13) before laterally；After transverse direction, fin (12) is provided with row's longitudinal hole (14), and before laterally, the upper opposite position of fin (13) is provided with row's longitudinal direction jack (15)；Before laterally, the axis of longitudinal jack (15) of the longitudinal hole (14) on fin (13) and its dead ahead is on the same line.

3. a kind of arrangement diode brace as claimed in claim 1, it is characterised in that: the width of lateral partitions (41) is identical with the width of the bottom surface of diode plug-in unit dish (1).

4. a kind of arrangement diode brace as claimed in claim 1, it is characterised in that: the length of lateral partitions (41) is identical with the length of the bottom surface of diode plug-in unit dish (1).

5. a kind of arrangement diode brace as claimed in claim 1, it is characterised in that: between adjacent two front side edge spacing blocks (48), between adjacent two back side edge spacing blocks (411), it is provided with longitudinally guiding groove (6).

6. arrangement diode brace as claimed in claim 1 a kind of, it is characterised in that: after adjacent two lateral partitions of the rear side of each lateral partitions (41) between spacing block (45), before adjacent two lateral partitions of the front side of each lateral partitions (41), between spacing block (43), it is provided with longitudinally guiding groove (6).

7. a kind of arrangement diode brace as claimed in claim 1, it is characterised in that: hollow framework (4), diode plug-in unit dish (1) are all adopted and are formed from aluminium.

8. a kind of arrangement diode brace as claimed in claim 1, it is characterised in that: the end face of handle (5) and hollow framework (4) is provided with the angles of 15 to 30 degree.

9. a kind of arrangement diode brace as claimed in claim 1, it is characterised in that: before lateral partitions, the height of spacing block (43) is equal to the height of rectangular-shaped spacing block (35).

10. a kind of arrangement diode brace as claimed in claim 1, it is characterized in that: left limit device (33), right limit device (34) are all cylindrical, stopping means (33), right limit device (34) axis be each perpendicular to the end face of base plate (3).