CN108695164A - The assemble method of crystal pedestal tube - Google Patents

Abstract

The present invention provides a kind of opening wobbler, and crystal pedestal tube is shaken into the first groove, and a magnetic sheet is taken, and is covered in returning face plate, and magnetic sheet attracts crystal pedestal tube, is attracted to the second groove of returning face plate;Wobbler is opened, glass tube is shaken into the second through-hole, takes a pumping board, be covered in transit plate, and transit plate and pumping board are taken out from the indentation, there as a whole;Wobbler is opened, draw pin is shaken into third through-hole, and entered in the hole and first through hole of glass tube by third through-hole, and perpendicular needle plate is taken out from the indentation, there, transit plate and pumping board are taken out from the notch as a whole:Transit plate and pumping board are placed on directing plate as a whole, transit plate is located on pumping board;Pumping board is taken out, glass tube is entered by fourth hole in the hole on crystal pedestal tube for placing glass tube, and draw pin is driven by glass tube to be entered in fifth hole.The present invention replaces hand labor using machinery, and working efficiency is greatly improved.

Description

The assemble method of crystal pedestal tube

Technical field

The invention belongs to field of mechanical technique, especially a kind of assemble method of crystal pedestal tube.

Background technology

When being sintered crystal pedestal tube, need glass tube, draw pin and solder ball being assembled to crystal pedestal tube, currently, ability Domain since crystal pedestal tube is smaller, and is counted by the way that glass tube, draw pin and solder ball are manually assembled to crystal pedestal tube It measures numerous, therefore too many human cost can be spent, and inefficiency.

Invention content

The purpose of the present invention is to provide a kind of assemble methods of crystal pedestal tube, and most of artificial labor is replaced using machinery It is dynamic, it is time saving and energy saving, human cost is reduced, efficiency is greatly improved.

It is realized the purpose of the present invention is technical solution in this way, it includes the following steps:

Taking a wobbler, wobbler is fixed with the first supporting rack, is equipped with baffle around first supporting rack, and described the One supporting rack is equipped with the first positioning plate, and the upper surface of first positioning plate is equipped with multiple first grooves, first groove It is matched with the exterior contour of crystal pedestal tube;

Multiple crystal pedestal tubes are placed on the first positioning plate, wobbler is opened, crystal pedestal tube is shaken into the first groove It is interior, after wholly or largely crystal pedestal tube enters the first groove, wobbler is closed, crystalline substance extra on the first positioning plate is taken away Body pedestal tube;

Take a returning face plate, be covered in the first positioning plate, the lower surface of the returning face plate be equipped with it is multiple with it is the multiple One-to-one second groove of first groove, second groove are matched with the exterior contour of crystal pedestal tube;

A magnetic sheet is taken, is covered in returning face plate, magnetic sheet attracts crystal pedestal tube, is attracted to the of returning face plate Two grooves;

Returning face plate and magnetic sheet are taken out as a whole;

Taking a wobbler, wobbler is fixed with the second supporting rack, is equipped with baffle around second supporting rack, and described the Two supporting racks are equipped with transit plate, and the transit plate is equipped with multiple first through hole groups, and the first through hole group includes two first Through-hole, one end of the first through hole group towards transit plate upper surface, which expands, is formed with the second sets of vias, second sets of vias Including two the second through-holes, for placing, two holes of glass tube are corresponding to be set described two second through-holes with crystal pedestal tube respectively Set, second through-hole and the concyclic heart of first through hole, first through hole is matched with the exterior contour of draw pin, second through-hole with The exterior contour of glass tube matches;

Multiple glass tubes are placed on transit plate, wobbler is opened, glass tube is shaken into the second through-hole, is waited for all or big After part of the glass tube enters the second through-hole, wobbler is closed, glass tube extra on transit plate is taken away;

A pumping board is taken, transit plate is covered in, baffle of dismantling forms a notch, using transit plate and pumping board as one It is whole to be taken out from the indentation, there;

A wobbler, wobbler is taken to be fixed with third supporting rack, baffle is equipped with around the third supporting rack, by transfer Plate and pumping board are placed on as a whole on third supporting rack, and transit plate is on pumping board;

A perpendicular needle plate is taken, is covered on transit plate, the perpendicular needle plate includes multiple strip gabs and third through-hole, institute The lower surface that strip gab is through to perpendicular needle plate by the upper surface for erecting needle plate is stated, it is logical that each strip gab corresponds to a third Hole, the third through-hole of the strip gab corresponding thereto communicate, and the diameter of the third through-hole is more than the width of strip gab, Each two third through-hole forms a third through-hole group, and described two third through-holes are logical with two first of first through hole group respectively Hole is correspondingly arranged;

Multiple draw pins are placed on perpendicular needle plate, draw pin includes cap body and needle body, and the diameter of needle body is less than the width of strip gab Degree, the diameter of cap body are more than the width of strip gab, and the diameter of cap body is less than the diameter of third through-hole;

Wobbler is opened, draw pin is shaken into third through-hole, and is entered the hole of glass tube and first by third through-hole and led to In hole, after wholly or largely draw pin enters hole and the first through hole of glass tube, wobbler is closed, baffle of dismantling forms one Notch takes away draw pin extra on perpendicular needle plate, perpendicular needle plate is taken out from the indentation, there, as a whole by transit plate and pumping board It is taken out from the notch;

It includes bottom surface to take a storage rack, the storage rack, and the storage rack is equipped with storing board, and the storing board is located at bottom surface Returning face plate and magnetic sheet are placed on storing board by top as a whole, and magnetic sheet is located on returning face plate, by magnetic sheet from turning over It is removed on flap, then returning face plate is removed from storing board;

A directing plate is taken, is placed it on storing board, directing plate is equipped with multiple fourth hole groups, the fourth hole group Including two fourth holes, described two fourth holes respectively with two holes pair for placing glass tube on crystal pedestal tube It should be arranged;

Storing board is equipped with multiple fifth hole groups, and the fifth hole group includes two fifth holes, and described two the Five through-holes are correspondingly arranged with two first through hole of first through hole group respectively;

Transit plate and pumping board are placed on directing plate as a whole, transit plate is located on pumping board;

Pumping board is taken out, glass tube is entered by fourth hole in the hole on crystal pedestal tube for placing glass tube, draw pin It is driven and enters in fifth hole by glass tube, the insertion end of draw pin is abutted with bottom surface.

Further, the assemble method further includes:

Directing plate is removed, backing is diffused on each crystal pedestal tube, cooling fin is equipped with for placing solder ball Hole;

A wobbler, wobbler is taken to be fixed with the 4th supporting rack, the 4th supporting rack is connected through the hinge and has the 5th Support, baffle is equipped with around the 5th supporting rack, and the 5th supporting rack is equipped with the second positioning plate, second positioning The upper surface of plate is equipped with multiple solder ball, and the solder ball is correspondingly arranged on cooling fin for placing the hole of solder ball;

Multiple solder balls are placed on the second positioning plate, wobbler is opened, solder ball is shaken into solder ball, waits for whole Or after most of solder ball enters solder ball, wobbler is closed, solder ball extra on the second positioning plate is taken away;

By the 5th supporting rack and the second positioning plate, around hinge axis overturns at least 90 degree as a whole, and a component is taken to shift Solder ball in solder ball is transferred to the hole on cooling fin for placing solder ball by device simultaneously.

Further, the part transfer device includes the first fixed plate, first movement plate and guide post, first fixed plate It is overlapped on first movement plate, first fixed plate is equipped with the first in command and second handle, and the first in command is fixed on First fixed plate, the first fixed plate are set there are two the first strip-shaped hole, the length direction of first strip-shaped hole and two handles The length direction of line is consistent, and two head rods are each passed through two the first strip-shaped holes, the both ends difference of head rod It is fixed on first movement plate and second handle, head rod is slidably matched with the first strip-shaped hole, and the first in command is towards the One end of second chief is equipped with the first blind hole, and the second handle is equipped with corresponding with first blind hole towards one end of the first in command The second blind hole, the both ends of the guide post are mating with the first blind hole and the second blind hole respectively, the guide column sleeve be equipped with first The both ends of spring, the first spring are located in the first blind hole and the second blind hole, the both ends of the first spring respectively with the first in command It is abutted with second handle, the first movement plate is equipped with multiple 6th through-holes, is used to place solder on the 6th through-hole and cooling fin The hole of ball is correspondingly arranged, first fixed plate be equipped with respectively with multiple one-to-one third grooves of 6th through-hole, when first When connecting rod slides into one end close to the first in command in the first strip-shaped hole, the corresponding third groove of the 6th through-hole overlaps, When head rod slides into one end of the separate first in command in the first strip-shaped hole, the corresponding third groove of the 6th through-hole It is staggered;

It holds with a firm grip the first in command and second handle, head rod slides into the first strip-shaped hole close to the one of the first in command End, the corresponding third groove of the 6th through-hole overlap, and the first movement plate of the part transfer device is directed at the second positioning plate, Solder ball is entered by the 6th through-hole in third groove;

The first in command and second handle are unclamped, head rod slides into one far from the first in command in the first strip-shaped hole End, the corresponding third groove of the 6th through-hole are staggered, and solder ball is locked in third groove;

Directing plate is placed on storing board, directing plate is equipped with multiple 7th through-holes, the 7th through-hole and fifth hole It is correspondingly arranged;

By the part transfer device alignment guidance plate, first movement plate is abutted with directing plate, hold with a firm grip the first in command and second Handle, it is recessed that head rod slides into one end close to the first in command, the corresponding third of the 6th through-hole in the first strip-shaped hole Slot overlaps, and solder ball passes sequentially through the 6th through-hole and the 7th through-hole enters cooling fin and is equipped in the hole for placing solder ball.

Further, the part transfer device includes the second fixed plate and the second movable plate, the second fixed plate overlapping In on the second movable plate, second fixed plate is equipped with third handle and the 4th handle, the 4th handle and third handle It is arranged in left and right, the third handle is fixed on the second fixed plate, and the second fixed plate is equipped at least two second strip-shaped holes, described The length direction of second strip-shaped hole is consistent with the length direction of the line of two handles, and two the second connecting rods are each passed through two The both ends of second strip-shaped hole, the second connecting rod are individually fixed in the second movable plate and the 4th handle, the second connecting rod and Article 2 Shape hole is slidably matched, and the 4th handle includes front and rear, and the front and rear is respectively equipped with the first perforation and second The both ends of perforation, piston ejector ram, ejector piston are located in the first perforation and the second perforation, the side of the 4th handle of the third handle direction Equipped with the first limiting section, the piston ejector ram, ejector piston is equipped with the second limiting section, and second limiting section is described between front and rear portion First limiting section abuts the second limiting section on the length direction of piston ejector ram, ejector piston and limits, and the piston ejector ram, ejector piston is arranged with second spring, Second limiting section is between the first limiting section and second spring, and one end of the second spring is abutted with the second limiting section, separately One end is abutted with front or rear portion, second movable plate be equipped with multiple 8th through-holes, the 8th through-hole on cooling fin be used for put The hole for setting solder ball is correspondingly arranged, second fixed plate be equipped with respectively with one-to-one 4th groove of multiple through-holes, when the When two connecting rods are slid into the second strip-shaped hole close to one end of third handle, the 4th corresponding groove of the 8th through-hole is wrong Open, when the second connecting rod slides into the second strip-shaped hole one end far from third handle, the 8th through-hole it is corresponding the 4th Groove overlaps;

Pull the 4th handle far from third handle, the second connecting rod moves in the second strip-shaped hole far from third handle One end, corresponding the 4th groove of the 8th through-hole overlaps, and the second limiting section is detached from the limit of the first limiting section, second spring Elongation, second spring pushes the second limiting section, and posteriorly posteriorly direction moves for direction movement namely piston ejector ram, ejector piston;

Second movable plate of the part transfer device is directed at the second positioning plate, solder ball enters the 4th by the 8th through-hole In groove;

The part transfer device is restored to original state, the 4th corresponding groove of the 8th through-hole is staggered;

By the part transfer device alignment guidance plate, the second movable plate is abutted with directing plate, pulls the 4th handle far from the Three handles, the second connecting rod slide into one end far from third handle in the second strip-shaped hole, the 8th through-hole it is corresponding the 4th Groove overlaps, and solder ball passes sequentially through the 8th through-hole and the 7th through-hole enters cooling fin equipped with the hole for placing solder ball It is interior.

By adopting the above-described technical solution, the present invention replaces most of hand labor using machinery, and it is time saving and energy saving, it reduces Efficiency is greatly improved in human cost.

Description of the drawings

Fig. 1 is the structural schematic diagram of crystal pedestal tube wobbler in the present invention.

Fig. 2 is the structural schematic diagram of crystal pedestal tube wobbler in the present invention.

Fig. 3 is the deployed configuration schematic diagram of crystal pedestal tube wobbler in the present invention.

Fig. 4 is the structural schematic diagram of crystal pedestal tube wobbler in the present invention.

Fig. 5 is the structural schematic diagram of crystal pedestal tube wobbler in the present invention.

Fig. 6 is the structural schematic diagram of returning face plate and magnetic sheet in crystal pedestal tube wobbler in the present invention.

Fig. 7 is the structural schematic diagram of glass tube wobbler in the present invention.

Fig. 8 is the structural schematic diagram of glass tube wobbler in the present invention.

Fig. 9 is the deployed configuration schematic diagram of glass tube wobbler in the present invention.

Figure 10 is the structural schematic diagram of the transit plate of glass tube wobbler in the present invention.

Figure 11 is the structural schematic diagram of the transit plate of glass tube wobbler in the present invention.

Figure 12 is the structural schematic diagram of lead wobbler in the present invention.

Figure 13 is the structural schematic diagram of lead wobbler in the present invention.

Figure 14 is the structural schematic diagram of lead wobbler in the present invention.

Figure 15 is the deployed configuration schematic diagram of lead wobbler in the present invention.

Figure 16 is the structural schematic diagram of the perpendicular needle plate of lead wobbler, transit plate and pumping board in the present invention.

Figure 17 is the structural schematic diagram of the perpendicular needle plate of lead wobbler, transit plate and pumping board in the present invention.

Figure 18 is the structural schematic diagram of draw pin.

Figure 19 is a kind of structural schematic diagram of part transfer device in the present invention.

Figure 20 is a kind of deployed configuration schematic diagram of part transfer device in the present invention.

Figure 21 is a kind of deployed configuration schematic diagram of part transfer device in the present invention.

Figure 22 is a kind of structural schematic diagram of the first in command and second handle of part transfer device in the present invention.

Figure 23 is a kind of structural schematic diagram of the second handle of part transfer device in the present invention.

Figure 24 is a kind of structural schematic diagram of the first fixed plate and first movement plate of part transfer device in the present invention.

Figure 25 is the structural schematic diagram of another part transfer device in the present invention.

Figure 26 is another first in command of part transfer device and the structural schematic diagram of second handle in the present invention.

Figure 27 is the structural schematic diagram of the second fixed plate and the second movable plate of another part transfer device in the present invention.

Figure 28 is the structural schematic diagram of solder ball wobbler in the present invention.

Figure 29 is the structural schematic diagram of solder ball wobbler in the present invention.

Figure 30 is the deployed configuration schematic diagram of solder ball wobbler in the present invention.

Figure 31 is the structural schematic diagram of directing plate in the present invention.

Figure 32 is the structural schematic diagram of storage rack in the present invention.

Figure 33 is the structural schematic diagram of storing board in the present invention.

Figure 34 is the structural schematic diagram of crystal pedestal tube.

Figure 35 is the structural schematic diagram after the assembling of crystal pedestal tube.

In figure:1, wobbler;21, the first supporting rack;22, the second supporting rack;23, third supporting rack;24, the 4th support Frame;25, the 5th supporting rack;26, the 6th supporting rack;27, the 7th supporting rack;28, the 8th supporting rack;29, storage rack;31, first Through-hole;32, the second through-hole;33, third through-hole;34, fourth hole;35, fifth hole;36, the 6th through-hole;37, the 7th through-hole; 38, the 8th through-hole;39, the 9th through-hole;310, the tenth through-hole;311, the 11st through-hole;321, the first strip-shaped hole;322, Article 2 Shape hole;331, the first blind hole;332, the second blind hole;333, third blind hole;334, the 4th blind hole;341, the first perforation;342, Two perforation;351, solder ball;41, the first in command;42, second handle;43, third handle;44, the 4th handle;501, first Positioning plate;502, the second positioning plate;511, the first fixed plate;512, the second fixed plate;521, first movement plate;522, it second moves Movable plate;531, baffle;532, needle plate is erected;533, returning face plate;534, magnetic sheet;535, transit plate;536, storing board;537, it guides Plate;538, pumping board;61, the first limiting section;62, the second limiting section;63, front;64, rear portion;65, lug boss;71, first is recessed Slot;72, the second groove;73, third groove;74, the 4th groove;75, the 5th groove;81, head rod;82, the second connection Bar;83, piston ejector ram, ejector piston;84, self-lock rod;85, the first spring;86, second spring;87, self-lock pin;88, pin rod;89, cap is sold;90, Guide post;91, pillar;92, cap body;93, needle body;94, sleeve;95, bottom surface;96, cooling fin;97, hinge;98, notch;99, brilliant Body pedestal tube;100, splicing basin;101, bushing;102, strip gab;103, draw pin;104, glass tube;105, solder ball.

Specific implementation mode

The present invention will be further described below in conjunction with the accompanying drawings.

As shown in Fig. 1-35, the present invention includes the following steps:

A wobbler 1, wobbler 1 is taken to be fixed with the first supporting rack 21, baffle is equipped with around first supporting rack 21 531, first supporting rack 21 is equipped with the first positioning plate 501, and the upper surface of first positioning plate 501 is equipped with multiple first Groove 71, first groove 71 are matched with the exterior contour of crystal pedestal tube 99;

Multiple crystal pedestal tubes 99 are placed on the first positioning plate 501, open wobbler 1, crystal pedestal tube 99 shaken into In first groove 71, after wholly or largely crystal pedestal tube 99 enters the first groove 71, wobbler 1 is closed, takes away first Extra crystal pedestal tube 99 on positioning plate 501;

Take a returning face plate 533, be covered in the first positioning plate 501, the lower surface of the returning face plate 533 be equipped with it is multiple with 71 one-to-one second groove 72 of the multiple first groove, the exterior contour of second groove 72 and crystal pedestal tube 99 It matches;

A magnetic sheet 534 is taken, returning face plate 533 is covered in, magnetic sheet 534 attracts crystal pedestal tube 99, attracted To the second groove 72 of returning face plate 533;

Returning face plate 533 and magnetic sheet 534 are taken out as a whole;

This step can be realized mainly by 99 wobbler 1 of crystal pedestal tube.In the step, wobbler 1 can be arranged one 6th supporting rack 26, the first supporting rack 21 are connect with the 6th supporting rack 26 by hinge 97, and the first supporting rack 21 is located at the 6th The top of support 26.When returning face plate 533 and magnetic sheet 534 are taken out as a whole, can first by the first supporting rack 21 around 97 shaft rotation of hinge and move 90 degree -180 degree, preferably 180 degree, then again by returning face plate 533 and magnetic sheet 534 as a whole It takes out, crystal pedestal tube 99 of being more convenient for all can smoothly enter into the second groove 72.

Returning face plate 533 can be one piece of metallic plate.

Pillar 91 can be set in first groove 71, and the pillar 91 can be used to place glass on crystal pedestal tube 99 The hole of glass pipe 104 it is mating, ensure to be in correct length direction when crystal pedestal tube 99 is in the first groove 71.

For crystal pedestal tube 99 during slipping into the first groove 71 on the first positioning plate 501, pillar 91 can be with crystalline substance On body pedestal tube 99 for place glass tube 104 hole it is mating, avoid crystal pedestal tube 99 be detached from the first groove 71.

The bottom surface 95 of second groove 72 is equipped with the 9th through-hole 39.

Crystal pedestal tube 99 enters during the second groove 72, and crystal pedestal tube 99 can penetrate the 9th through-hole 39 directly quilt Magnetic sheet 534 attracts, and ensures that crystal pedestal tube 99 can smoothly enter into the second groove 72, can also be inverted magnetic sheet 534 and returning face plate When 533 this entirety, magnetic sheet 534 has crystal pedestal tube 99 enough attractions.

The upper surface of the returning face plate 533 or the lower surface of magnetic sheet 534 are equipped with the 5th groove 75, the magnetic sheet 534 Lower surface or returning face plate 533 upper surface be equipped with and 75 matched soft magnetism lug boss 65 of the 5th groove.

Soft magnetism lug boss 65 and the 5th groove 75 are engaged by clamping, and convenient for take magnetic sheet 534 and returning face plate 533, this is whole Body.

A wobbler 1, wobbler 1 is taken to be fixed with the second supporting rack 22, baffle is equipped with around second supporting rack 22 531, second supporting rack 22 is equipped with transit plate 535, and the transit plate 535 is equipped with 31 groups of multiple first through hole, and described the One 31 groups of through-hole includes two first through hole 31, and the one end of 31 groups of the first through hole towards 535 upper surface of transit plate expands shape At there is 32 groups of the second through-hole, 32 groups of second through-hole includes two the second through-holes 32, described two second through-holes 32 respectively with Two holes that crystal pedestal tube 99 is used to place glass tube 104 are correspondingly arranged, and second through-hole 32 and first through hole 31 are concyclic The heart, first through hole 31 are matched with the exterior contour of draw pin 103, the exterior contour phase of second through-hole 32 and glass tube 104 Cooperation;

Multiple glass tubes 104 are placed on transit plate 535, wobbler 1 is opened, glass tube 104 is shaken into the second through-hole 32 It is interior, after wholly or largely glass tube 104 enters the second through-hole 32, wobbler 1 is closed, it is extra on transit plate 535 to take away Glass tube 104;

A pumping board 538 is taken, transit plate 535 is covered in, baffle 531 of dismantling forms a notch 98, by transit plate 535 It is taken out from the notch 98 as a whole with pumping board 538;

This step can be realized mainly by 104 wobbler 1 of glass tube.In the step, wobbler 1 can be arranged one the 7th Supporting rack 27, the second supporting rack 22 are connect with the 7th supporting rack 27 by hinge 97, and the second supporting rack 22 is located at the 7th supporting rack 27 top.After wholly or largely glass tube 104 enters the second through-hole 32, closing wobbler 1, baffle 531 of dismantling, second 22 around hinge of supporting rack, 97 shaft rotation is 45 degree dynamic, and extra glass tube 104 slides to 104 wobbler 1 of glass tube on transit plate 535 Splicing basin 100.

A wobbler 1, wobbler 1 is taken to be fixed with third supporting rack 23, baffle is equipped with around the third supporting rack 23 531, transit plate 535 and pumping board 538 are placed on as a whole on third supporting rack 23, transit plate 535 is on pumping board 538;

A perpendicular needle plate 532 is taken, is covered on transit plate 535, the perpendicular needle plate 532 includes multiple strip gabs 102 With third through-hole 33, the strip gab 102 is through to the lower surface of perpendicular needle plate 532 by the upper surface for erecting needle plate 532, each Strip gab 102 corresponds to a third through-hole 33, and the third through-hole 33 of the strip gab 102 corresponding thereto communicates, described The diameter of third through-hole 33 is more than the width of strip gab 102, and each two third through-hole 33 forms 33 groups of a third through-hole, institute Two third through-holes 33 are stated to be correspondingly arranged with two first through hole 31 of 31 groups of first through hole respectively;

Multiple draw pins 103 are placed on perpendicular needle plate 532, draw pin 103 includes cap body 92 and needle body 93, and the diameter of needle body 93 is small In the width of strip gab 102, the diameter of cap body 92 is more than the width of strip gab 102, and the diameter of cap body 92 is logical less than third The diameter in hole 33;

Wobbler 1 is opened, draw pin 103 is shaken into third through-hole 33, and enters glass tube 104 by third through-hole 33 In hole and first through hole 31, after wholly or largely draw pin 103 enters hole and the first through hole 31 of glass tube 104, closing is shaken Pendulum machine 1, baffle 531 of dismantling form a notch 98, take away draw pin 103 extra on perpendicular needle plate 532, perpendicular needle plate 532 is lacked from this It is taken out at mouth 98, transit plate 535 and pumping board 538 is taken out from the notch 98 as a whole;

This step can be realized mainly by 103 wobbler 1 of draw pin.In the step, wobbler 1 can be arranged one the 8th Support 28, third supporting rack 23 are connect with the 8th supporting rack 28 by hinge 97, and third supporting rack 23 is located at the 8th supporting rack 28 Top.After wholly or largely draw pin 103 enters third through-hole 33, wobbler 1, baffle 531 of dismantling, third support are closed 23 around hinge of frame, 97 shaft rotation is 45 degree dynamic, and extra draw pin 103 slides to the splicing basin of 103 wobbler 1 of draw pin on transit plate 535 100。

It includes bottom surface 95 to take a storage rack 29, the storage rack 29, and the storage rack 29 is equipped with storing board 536, described to deposit It puts plate 536 and is located at 95 top of bottom surface, returning face plate 533 and magnetic sheet 534 are placed on as a whole on storing board 536, it is magnetic Plate 534 is located on returning face plate 533, magnetic sheet 534 is removed from returning face plate 533, then by returning face plate 533 from storing board 536 It removes;

A directing plate 537 is taken, is placed it on storing board 536, directing plate 537 is equipped with 34 groups of multiple fourth holes, institute It includes two fourth holes 34 to state 34 groups of fourth hole, and described two fourth holes 34 are used for on crystal pedestal tube 99 respectively Two holes for placing glass tube 104 are correspondingly arranged;

Storing board 536 is equipped with 35 groups of multiple fifth holes, and 35 groups of the fifth hole includes two fifth holes 35, institute Two fifth holes 35 are stated to be correspondingly arranged with two first through hole 31 of 31 groups of first through hole respectively;

Transit plate 535 and pumping board 538 are placed on as a whole on directing plate 537, transit plate 535 is located at pumping board 538 On;

Pumping board 538 is taken out, glass tube 104 is entered on crystal pedestal tube 99 by fourth hole 34 for placing glass tube In 104 hole, draw pin 103 is driven by glass tube 104 to be entered in fifth hole 35, and the insertion end of draw pin 103 is abutted with bottom surface 95.

This step can be realized mainly by assembly machine.

As shown in figs. 28-30, the assemble method further includes:

Directing plate 537 is removed, backing 96 is diffused on each crystal pedestal tube 99, cooling fin 96 is equipped with for placing The hole of solder ball 105;

A wobbler 1, wobbler 1 is taken to be fixed with the 4th supporting rack 24, the 4th supporting rack 24 is connected by hinge 97 There is the 5th supporting rack 25, baffle 531 is equipped with around the 5th supporting rack 25, it is fixed that the 5th supporting rack 25 is equipped with second Position plate 502, the upper surface of second positioning plate 502 are equipped with 105 hole 351 of multiple solder balls, 105 hole 351 of the solder ball with It is correspondingly arranged on cooling fin 96 for placing the hole of solder ball 105;

Multiple solder balls 105 are placed on the second positioning plate 502, wobbler 1 is opened, solder ball 105 is shaken into solder ball In 105 holes 351, after wholly or largely solder ball 105 enters 105 hole 351 of solder ball, wobbler 1 is closed, it is fixed to take away second Extra solder ball 105 on the plate 502 of position;

By the 5th supporting rack 25 and the second positioning plate 502,97 axis of around hinge overturns at least 90 degree as a whole, takes one Solder ball 105 in 105 hole 351 of solder ball is transferred on cooling fin 96 for placing solder ball by part transfer device simultaneously 105 hole.

This step can be realized mainly by 105 wobbler 1 of solder ball.

As shown in Figure 19-24, the part transfer device includes the first fixed plate 511, first movement plate 521 and guide post 90, first fixed plate 511 is overlapped on first movement plate 521, and first fixed plate 511 is equipped with 41 He of the first in command Second handle 42, the first in command 41 are fixed on the first fixed plate 511, and the first fixed plate 511 sets that there are two the first strip-shaped holes 321, the length direction of first strip-shaped hole 321 is consistent with the length direction of the line of two handles, two head rods 81 are each passed through two the first strip-shaped holes 321, and the both ends of head rod 81 are individually fixed in first movement plate 521 and second Hand 42, head rod 81 are slidably matched with the first strip-shaped hole 321, and one end of the first in command 41 towards second handle 42 is set There is the first blind hole 331, the second handle 42 is equipped with corresponding with first blind hole 331 the towards one end of the first in command 41 The both ends of two blind holes 332, the guide post 90 are mating with the first blind hole 331 and the second blind hole 332 respectively, 90 sets of the guide post Equipped with the first spring 85, the both ends of the first spring 85 are located in the first blind hole 331 and the second blind hole 332, the first spring 85 Both ends abutted respectively with the first in command 41 and second handle 42, the first movement plate 521 is equipped with multiple 6th through-holes 36, the Six through-holes 36 are correspondingly arranged with the hole for placing solder ball 105 on cooling fin 96, first fixed plate 511 be equipped with respectively with 36 one-to-one third groove 73 of multiple 6th through-holes, when head rod 81 slides into the first strip-shaped hole 321 close to the When one end of leader 41, the corresponding third groove 73 of the 6th through-hole 36 overlaps, when head rod 81 slides into first In strip-shaped hole 321 when one end of the separate first in command 41, the corresponding third groove 73 of the 6th through-hole 36 is staggered;

It holds with a firm grip the first in command 41 and second handle 42, head rod 81 slides into the first strip-shaped hole 321 close to first One end of handle 41, the corresponding third groove 73 of the 6th through-hole 36 overlaps, by the first movement plate of the part transfer device 521 the second positioning plates 502 of alignment, solder ball 105 are entered by the 6th through-hole 36 in third groove 73;

The first in command 41 and second handle 42 are unclamped, head rod 81 slides into the first strip-shaped hole 321 far from first One end of handle 41, the corresponding third groove 73 of the 6th through-hole 36 are staggered, and solder ball 105 is locked to third groove 73 It is interior;

Directing plate 537 is placed on storing board 536, directing plate 537 is equipped with multiple 7th through-holes 37, the 7th through-hole 37 are correspondingly arranged with fifth hole 35;

By the part transfer device alignment guidance plate 537, first movement plate 521 is abutted with directing plate 537, the first of holding with a firm grip Hand 41 and second handle 42, head rod 81 slide into logical close to one end of the first in command 41, the 6th in the first strip-shaped hole 321 The corresponding third groove 73 in hole 36 overlaps, and solder ball 105 passes sequentially through the 6th through-hole 36 and the 7th through-hole 37 enters heat dissipation Piece 96 is equipped in the hole for placing solder ball 105.

The part transfer device can also include self-lock rod 84, the company of the length trend and two handles of the self-lock rod 84 The length direction of line is consistent, and the first in command 41 is fixed in one end of the self-lock rod 84, and the second handle 42 is towards the first One end of hand 41 is equipped with third blind hole 333, and the other end of the self-lock rod 84 is located in the third blind hole 333.

The self-lock rod 84 is used to limit the position of the first in command 41 and second handle 42.

The self-lock rod 84 is equipped with the tenth through-hole 310, the axial line of the center line and self-lock rod 84 of the tenth through-hole 310 Vertically, self-lock pin 87 is equipped in the tenth through-hole 310, the self-lock pin 87 includes pin rod 88 and pin cap 89, and the described tenth is logical The one end in hole 310, which expands, is formed with the 11st through-hole 311, and the diameter of the 11st through-hole 311 is more than the straight of the tenth through-hole 310 Diameter, the pin cap 89 are located in the 11st through-hole 311, and the length of the 11st through-hole 311 is more than the thickness of pin cap 89, the third The side wall of blind hole 333 is equipped with the 4th blind hole 334, and the 4th blind hole 334 is used for mating with pin rod 88.

This part transfer device is lifted, makes the first fixed plate 511 and first movement plate 521 upward, holds the first in command 41 With second handle 42, the first spring 85 is made to compress, head rod 81 is also slided in the first strip-shaped hole 321 to the first strip-shaped hole Close to the side of the first in command 41 in 321, at this point, pin rod 88 enters the 4th blind hole 334, the first in command 41 and second handle are unclamped 42,334 wall clamping of pin rod 88 and the 4th blind hole, the corresponding third groove 73 of the 6th through-hole 36 overlaps.

It is inverted this part transfer device, makes the first fixed plate 511 and first movement plate 521 downward, holds the first in command 41 With second handle 42, pin rod 88 leaves the 4th blind hole 334, unclamps the first in command 41 and second handle 42,85 return of the first spring, First spring 85 push second handle 42 far from the first in command 41, head rod 81 also slided in the first strip-shaped hole 321 to Side far from the first in command 41 in first strip-shaped hole 321, at this point, the corresponding third groove 73 of the 6th through-hole 36 is staggered, Solder ball 105 is locked in third groove 73.Even if being inverted the present apparatus, solder ball 105 will not be fallen.

The quantity of first blind hole, 331 and second blind hole 332 is 2, and the quantity of the guide post 90 is two, described Two guide posts 90 are located at the both ends of self-lock rod 84.

The length direction of the guide post 90 is consistent with the length direction of the line of described two handles.

The head rod 81 is arranged with bushing 101, and the bushing 101 is slidably matched with the first strip-shaped hole 321.

Described two head rods 81 are set in parallel, and two guide posts 90 are set in parallel.

As illustrated in figs. 25-27, the part transfer device includes the second fixed plate 512 and the second movable plate 522, and described the Two fixed plates 512 are overlapped on the second movable plate 522, and second fixed plate 512 is equipped with third handle 43 and the 4th handle 44, the 4th handle 44 and third handle 43 arrange that the third handle 43 is fixed on the second fixed plate 512 in left and right, the Two fixed plates 512 are equipped at least two second strip-shaped holes 322, the length direction of second strip-shaped hole 322 and two handles The length direction of line is consistent, and two the second connecting rods 82 are each passed through two the second strip-shaped holes 322, and the two of the second connecting rod 82 End is individually fixed in the second movable plate 522 and the 4th handle 44, and the second connecting rod 82 is slidably matched with the second strip-shaped hole 322, institute It includes front 63 and rear portion 64 to state the 4th handle 44, and the front 63 and rear portion 64 are respectively equipped with the first perforation 341 and second and wear The both ends in hole 342, piston ejector ram, ejector piston 83 are located in the first perforation 341 and second perforation 342, the third handle 43 towards the 4th The side of handle 44 is equipped with the first limiting section 61, and the piston ejector ram, ejector piston 83 is equipped with the second limiting section 62, second limiting section 62 Between front 63 and rear portion 64, first limiting section 61 abuts the second limiting section 62 on the length direction of piston ejector ram, ejector piston 83 Limit, the piston ejector ram, ejector piston 83 are arranged with second spring 86, the second limiting section 62 be located at the first limiting section 61 and second spring 86 it Between, one end of the second spring 86 is abutted with the second limiting section 62, and the other end is abutted with front 63 or rear portion 64, and described second Movable plate 522 is equipped with multiple 8th through-holes 38, and for placing, the hole of solder ball 105 is corresponding to be set the 8th through-hole 38 on cooling fin 96 Set, second fixed plate 512 be equipped with respectively with one-to-one 4th groove 74 of multiple through-holes, when the second connecting rod 82 slide When in the second strip-shaped hole 322 close to one end of third handle 43, the 4th corresponding groove 74 of the 8th through-hole 38 is staggered, when When second connecting rod 82 slides into one end far from third handle 43 in the second strip-shaped hole 322, the 8th through-hole 38 is corresponding 4th groove 74 overlaps;

Pull the 4th handle 44 far from third handle 43, the second connecting rod 82 moves to remote in the second strip-shaped hole 322 One end from third handle 43, the 4th corresponding groove 74 of the 8th through-hole 38 overlap, and the second limiting section 62 is detached from the first limit The limit in position portion 61, second spring 86 extend, and second spring 86 pushes the second limiting section 62 posteriorly movement of 64 directions namely bullet Penetrating bar 83, posteriorly 64 directions move;

Second movable plate 522 of the part transfer device is directed at the second positioning plate 502, solder ball 105 is logical by the 8th Hole 38 enters in the 4th groove 74;

The part transfer device is restored to original state, the 4th corresponding groove 74 of the 8th through-hole 38 is staggered;

By the part transfer device alignment guidance plate 537, the second movable plate 522 is abutted with directing plate 537, pulls the 4th For hand 44 far from third handle 43, the second connecting rod 82 slides into one end far from third handle 43 in the second strip-shaped hole 322, and the 8th The 4th corresponding groove 74 of through-hole 38 overlaps, and solder ball 105 passes sequentially through the 8th through-hole 38 and the entrance of the 7th through-hole 37 dissipates Backing 96 is equipped in the hole for placing solder ball 105.

Second limiting section 62 can be spacing ring.

When original state, the first limiting section 61 limits the front end of spacing ring, is detached from when pulling the 4th handle 44, spacing ring The limit of first limiting section 61 and after crossing the first limiting section 61, the first limiting section 61 can also limit the rear end of spacing ring, The 4th groove 74 for keeping the 8th through-hole 38 corresponding keeps coincidence status, easy to operation.

First limiting section 61 is gag lever post.

The piston ejector ram, ejector piston 83 is arranged with sleeve 94, and the second spring 86 is sheathed on sleeve 94, and the second limiting section 62 is located at Between first limiting section 61 and sleeve 94, front 63 or rear portion 64 are fixed in one end of the sleeve 94.

After the second limiting section 62 is abutted with rear portion 64, one end of piston ejector ram, ejector piston 83 is located in the second through-hole 32, other end position In in sleeve 94, sleeve 94 limits piston ejector ram, ejector piston 83.

The other end of the sleeve 94 is abutted with the second limiting section 62.

The quantity of second connecting rod 82 is three, and three connecting rods are set in parallel.

Glass tube 104, draw pin 103 and solder ball 105 are assembled to by crystal pedestal tube 99 using this method, it is time saving and energy saving, Greatly improve efficiency.

It these are only embodiments of the present invention, be not intended to limit the scope of the invention, it is every to utilize the present invention Equivalent structure made by specification and accompanying drawing content is directly or indirectly used in other related technical areas, similarly at this Within the scope of patent protection of invention.

Claims (4)

1. the assemble method of crystal pedestal tube, which is characterized in that including step once:

Take a wobbler, wobbler is fixed with the first supporting rack, is equipped with baffle around first supporting rack, described first Support is equipped with the first positioning plate, and the upper surface of first positioning plate is equipped with multiple first grooves, first groove and crystalline substance The exterior contour of body pedestal tube matches;

Multiple crystal pedestal tubes are placed on the first positioning plate, wobbler is opened, crystal pedestal tube is shaken into the first groove, waited for After wholly or largely crystal pedestal tube enters the first groove, wobbler is closed, transistor extra on the first positioning plate is taken away Pedestal;

A returning face plate is taken, is covered in the first positioning plate, the lower surface of the returning face plate is equipped with multiple with the multiple first One-to-one second groove of groove, second groove are matched with the exterior contour of crystal pedestal tube;

A magnetic sheet is taken, returning face plate is covered in, magnetic sheet attracts crystal pedestal tube, be attracted to returning face plate second recessed Slot;

Returning face plate and magnetic sheet are taken out as a whole;

Take a wobbler, wobbler is fixed with the second supporting rack, is equipped with baffle around second supporting rack, described second Support is equipped with transit plate, and the transit plate is equipped with multiple first through hole groups, and the first through hole group includes two first through hole, One end of the first through hole group towards transit plate upper surface, which expands, is formed with the second sets of vias, and second sets of vias includes two A second through-hole, two holes that described two second through-holes are used to place glass tube with crystal pedestal tube respectively are correspondingly arranged, institute The second through-hole and the concyclic heart of first through hole are stated, first through hole is matched with the exterior contour of draw pin, second through-hole and glass The exterior contour of pipe matches;

Multiple glass tubes are placed on transit plate, wobbler is opened, glass tube is shaken into the second through-hole, waited for wholly or largely After glass tube enters the second through-hole, wobbler is closed, glass tube extra on transit plate is taken away;

A pumping board is taken, transit plate is covered in, baffle of dismantling forms a notch, as a whole by transit plate and pumping board It is taken out from the indentation, there;

Take a wobbler, wobbler is fixed with third supporting rack, and baffle is equipped with around the third supporting rack, by transit plate and Pumping board is placed on as a whole on third supporting rack, and transit plate is on pumping board;

A perpendicular needle plate is taken, is covered on transit plate, the perpendicular needle plate includes multiple strip gabs and third through-hole, the item Shape opening is through to the lower surface of perpendicular needle plate by the upper surface for erecting needle plate, each strip gab corresponds to a third through-hole, institute The third through-hole of strip gab corresponding thereto to be stated to communicate, the diameter of the third through-hole is more than the width of strip gab, and every two A third through-hole forms a third through-hole group, described two third through-holes respectively with two first through hole pair of first through hole group It should be arranged;

Multiple draw pins are placed on perpendicular needle plate, draw pin includes cap body and needle body, and the diameter of needle body is less than the width of strip gab, cap The diameter of body is more than the width of strip gab, and the diameter of cap body is less than the diameter of third through-hole;

Wobbler is opened, draw pin is shaken into third through-hole, and is entered in the hole and first through hole of glass tube by third through-hole, After wholly or largely draw pin enters hole and the first through hole of glass tube, wobbler is closed, baffle of dismantling forms a notch, Draw pin extra on perpendicular needle plate is taken away, perpendicular needle plate is taken out from the indentation, there, by transit plate and pumping board as a whole from this Notch takes out;

It includes bottom surface to take a storage rack, the storage rack, and the storage rack is equipped with storing board, and the storing board is located on bottom surface Side, returning face plate and magnetic sheet are placed on storing board as a whole, and magnetic sheet is located on returning face plate, by magnetic sheet from overturning It is removed on plate, then returning face plate is removed from storing board;

A directing plate is taken, is placed it on storing board, directing plate is equipped with multiple fourth hole groups, and the fourth hole group includes Two fourth holes, for placing, two holes of glass tube are corresponding to be set described two fourth holes on crystal pedestal tube respectively It sets;

Storing board is equipped with multiple fifth hole groups, and the fifth hole group includes two fifth holes, and described two five is logical Hole is correspondingly arranged with two first through hole of first through hole group respectively;

Transit plate and pumping board are placed on directing plate as a whole, transit plate is located on pumping board;

Pumping board is taken out, glass tube is entered by fourth hole in the hole on crystal pedestal tube for placing glass tube, and draw pin is by glass Glass pipe, which drives, to be entered in fifth hole, and the insertion end of draw pin is abutted with bottom surface.

2. the assemble method of crystal pedestal tube as described in claim 1, which is characterized in that the assemble method further includes:

Directing plate is removed, backing is diffused on each crystal pedestal tube, cooling fin is equipped with the hole for placing solder ball;

A wobbler, wobbler is taken to be fixed with the 4th supporting rack, the 4th supporting rack is connected through the hinge and has the 5th supporting rack, Baffle is equipped with around 5th supporting rack, the 5th supporting rack is equipped with the second positioning plate, second positioning plate Upper surface is equipped with multiple solder ball, and the solder ball is correspondingly arranged on cooling fin for placing the hole of solder ball;

Multiple solder balls are placed on the second positioning plate, wobbler is opened, solder ball is shaken into solder ball, is waited for all or big After part solder ball enters solder ball, wobbler is closed, solder ball extra on the second positioning plate is taken away;

By the 5th supporting rack and the second positioning plate, around hinge axis overturns at least 90 degree as a whole, takes component transfer dress It sets, the solder ball in solder ball is transferred to the hole on cooling fin for placing solder ball simultaneously.

3. the assemble method of crystal pedestal tube as claimed in claim 2, which is characterized in that the part transfer device includes the One fixed plate, first movement plate and guide post, first fixed plate are overlapped on first movement plate, are set in first fixed plate There are a first in command and second handle, the first in command is fixed on the first fixed plate, and the first fixed plate sets that there are two the first bar shapeds The length direction in hole, first strip-shaped hole is consistent with the length direction of the line of two handles, two head rod difference Across two the first strip-shaped holes, the both ends of head rod are individually fixed in first movement plate and second handle, head rod It is slidably matched with the first strip-shaped hole, the first in command is equipped with the first blind hole, the second handle towards one end of second handle It is equipped with the second blind hole corresponding with first blind hole towards one end of the first in command, the both ends of the guide post are blind with first respectively Hole and the second blind hole are mating, and the guide column sleeve is equipped with the first spring, the both ends of the first spring be located at the first blind hole and In second blind hole, the both ends of the first spring are abutted with the first in command and second handle respectively, and the first movement plate is equipped with multiple 6th through-hole, the 6th through-hole are correspondingly arranged on cooling fin for placing the hole of solder ball, and first fixed plate is equipped with difference With multiple one-to-one third grooves of 6th through-hole, slid into the first strip-shaped hole close to the first in command when head rod When one end, the corresponding third groove of the 6th through-hole overlaps, when head rod slides into the first strip-shaped hole far from first When one end of handle, the corresponding third groove of the 6th through-hole is staggered;

It holds with a firm grip the first in command and second handle, head rod slides into one end close to the first in command in the first strip-shaped hole, the The corresponding third groove of six through-holes overlaps, and the first movement plate of the part transfer device is directed at the second positioning plate, solder Ball is entered by the 6th through-hole in third groove;

The first in command and second handle are unclamped, head rod slides into one end far from the first in command in the first strip-shaped hole, the The corresponding third groove of six through-holes is staggered, and solder ball is locked in third groove;

Directing plate is placed on storing board, directing plate is equipped with multiple 7th through-holes, and the 7th through-hole is corresponding with fifth hole Setting;

By the part transfer device alignment guidance plate, first movement plate is abutted with directing plate, hold with a firm grip the first in command and second handle, Head rod slides into one end close to the first in command, the corresponding third groove weight of the 6th through-hole in the first strip-shaped hole It closes, solder ball passes sequentially through the 6th through-hole and the 7th through-hole enters cooling fin and is equipped in the hole for placing solder ball.

4. the assemble method of crystal pedestal tube as claimed in claim 2, which is characterized in that the part transfer device includes the Two fixed plates and the second movable plate, second fixed plate are overlapped on the second movable plate, and second fixed plate is equipped with the Three handles and the 4th handle, the 4th handle and third handle arrange that the third handle is fixed on the second fixation in left and right Plate, the second fixed plate are equipped at least two second strip-shaped holes, the line of the length direction and two handles of second strip-shaped hole Length direction it is consistent, two the second connecting rods are each passed through two the second strip-shaped holes, and the both ends of the second connecting rod are fixed respectively In the second movable plate and the 4th handle, the second connecting rod is slidably matched with the second strip-shaped hole, the 4th handle include front and Rear portion, the front and rear are respectively equipped with the first perforation and the second perforation, the both ends of piston ejector ram, ejector piston be located at the first perforation and In second perforation, the third handle is equipped with the first limiting section towards the side of the 4th handle, and the piston ejector ram, ejector piston is equipped with the second limit Position portion, second limiting section is between front and rear portion, and first limiting section is on the length direction of piston ejector ram, ejector piston to Two limiting sections abut limit, and the piston ejector ram, ejector piston is arranged with second spring, and the second limiting section is located at the first limiting section and second spring Between, one end of the second spring is abutted with the second limiting section, and the other end is abutted with front or rear portion, second movable plate Equipped with multiple 8th through-holes, the 8th through-hole is correspondingly arranged on cooling fin for placing the hole of solder ball, second fixed plate Equipped with respectively with one-to-one 4th groove of multiple through-holes, when the second connecting rod slides into the second strip-shaped hole close to third handle When one end of hand, the 4th corresponding groove of the 8th through-hole is staggered, when the second connecting rod slide into it is separate in the second strip-shaped hole When one end of third handle, the 4th corresponding groove of the 8th through-hole overlaps;

Pull the 4th handle far from third handle, the second connecting rod moves to one far from third handle in the second strip-shaped hole End, the 4th corresponding groove of the 8th through-hole overlap, and the second limiting section is detached from the limit of the first limiting section, and second spring is stretched Long, second spring pushes the second limiting section, and posteriorly posteriorly direction moves for direction movement namely piston ejector ram, ejector piston;

Second movable plate of the part transfer device is directed at the second positioning plate, solder ball enters the 4th groove by the 8th through-hole It is interior;

The part transfer device is restored to original state, the 4th corresponding groove of the 8th through-hole is staggered;

By the part transfer device alignment guidance plate, the second movable plate is abutted with directing plate, pulls the 4th handle far from third handle Hand, the second connecting rod slide into one end far from third handle in the second strip-shaped hole, the 4th corresponding groove of the 8th through-hole It overlaps, solder ball passes sequentially through the 8th through-hole and the 7th through-hole enters cooling fin and is equipped in the hole for placing solder ball.