CN209021389U - Circulating water-cooling hot-pressing tin soldering device - Google Patents

Abstract

The utility model discloses a circulating water cooling and heating pressure tin welding device, which comprises a water cooling part, a soldering lug fixing part, a first soldering lug and a second soldering lug, wherein the water cooling part comprises a first water cooling block and a second water cooling block, the soldering lug fixing part is provided with an installation part extending downwards, the soldering lug fixing part comprises a first soldering lug fixing part and a second soldering lug fixing part, the first soldering lug fixing part is fixed at the bottom of the first water cooling block, and the second soldering lug fixing part is fixed at the bottom of the second water cooling block; the first soldering lug is arranged on one side of the mounting part, one end of the first soldering lug is contacted with the first soldering lug fixing part, and the other end of the first soldering lug is contacted with the second soldering lug fixing part; the second soldering lug is installed in the opposite side of installation department, and first soldering lug and second soldering lug symmetry interval set up, and second soldering lug one end contacts with first soldering lug mounting, and the other end contacts with second soldering lug mounting. The utility model discloses structure and shape reasonable in design, installation and convenient operation are convenient for change the soldering lug according to different products, improve production efficiency.

Description

Recirculated water cooling hot pressing soldering apparatus

Technical field

The utility model relates to a kind of hot pressing soldering apparatus, refer in particular to a kind of recirculated water cooling hot pressing soldering apparatus.

Background technique

Hot pressing soldering apparatus is powered for fixing weld tabs and connection power supply to weld tabs, to realize hot pressing soldering.It is existing Hot pressing soldering apparatus usually has the disadvantage that 1. unreasonable structural designs, cannot rapidly replace weld tabs；2. shape designs not Rationally, not only volume is big, but also operation is very inconvenient, influences production efficiency；3. water cooling design is unreasonable, cannot be rotated after installation Direction is transferred, it is inconvenient to use；4. water circulation cannot adjust water route according to the actual situation.

Therefore, it is necessary to a kind of novel soldering apparatus be designed, to solve the shortcomings of the prior art.

Utility model content

The purpose of this utility model is to provide a kind of recirculated water cooling hot pressing soldering apparatus, structure and shape design are reasonable, It installs and easy to operate, convenient for replacing weld tabs according to different product, improves production efficiency.

For above-mentioned purpose, the utility model uses following technical scheme:

A kind of recirculated water cooling hot pressing soldering apparatus, comprising: a water-cooling section, have a base portion and a tapered portion, it is described gradually The bottom border of contracting portion from the base portion is tapered downward, the water-cooling section include relative spacing setting the first water-cooled block and Second water-cooled block, first water-cooled block and second water-cooled block are respectively provided at least a pair of internal water cooling interface being connected to, First water-cooled block and second water-cooled block are connected from different electrodes respectively；One weld tabs fixing piece, removably connects It is connected to the bottom of the water-cooling section, the weld tabs fixing piece has the mounting portion extended downwardly, and the weld tabs fixing piece includes The the first weld tabs fixing piece and the second weld tabs fixing piece of relative spacing setting, the first weld tabs fixing piece are fixed on described first The bottom of water-cooled block, the second weld tabs fixing piece are fixed on the bottom of second water-cooled block；One first weld tabs, is installed on institute The side of mounting portion is stated, first weld tabs one end is contacted with the first weld tabs fixing piece, the other end and second weld tabs Fixing piece contact；One second weld tabs, is installed on the other side of the mounting portion, and first weld tabs and second weld tabs are symmetrical Interval setting, second weld tabs one end are contacted with the first weld tabs fixing piece, the other end and the second weld tabs fixing piece Contact.

Further, the symmetrical shape of first weld tabs, the symmetrical shape of second weld tabs.

Further, first weld tabs and second weld tabs include main part and the weldering that connect with the main part Socket part is equipped with weld tabs gap among the main part and the main part both ends is not contacted, the weld part be serrated or Flat, the top of weld part are equipped with heat distribution cavity, and the middle part of the weld part is upward convex to be equipped with temp.-sensing wire weld part.

Further, the water-cooling section is that all around symmetrical structure, the weld tabs fixing piece are symmetrical junction all around Structure.

Further, first water-cooled block has multiple the first side walls interconnected, and second water-cooled block has more A second sidewall interconnected, first water-cooled block and second water-cooled block are respectively provided with the multipair internal water cooling being connected to Interface, the multipair water cooling interface is located at multiple the first side walls and multiple second sidewalls, when first water Cold piece and when the second water-cooled block one pair of them water cooling orifice, other water cooling interfaces block.

Further, at least one described the first side wall is equipped with one first connecting hole for electrode connection, at least one institute It states second sidewall and is equipped with one second connecting hole connected for electrode.

Further, two adjacent the first side walls are respectively provided with first connecting hole.

It further, further include a first electrode connector and a second electrode connector, the first electrode connector passes through one First connecting hole is connected to a first side wall of first water-cooled block and does not contact with the second sidewall, and described Two electrode contacts by second connecting hole be connected to second water-cooled block a second sidewall and not with it is described The first side wall contact.

Further, it is recessed to be recessed with one for the second sidewall adjacent with the first side wall with first connecting hole Slot, the groove is interior to be equipped with a collets, and the collets are recessed with a collets groove, and the first electrode connector, which has, is in Step-like first step portion, second step portion and third stage portion, the first step portion are contacted with the first side wall, institute It states second step portion and protrudes into the collets groove and contacted with the collets, the third stage portion and second water-cooled block Between do not contact.

Further, further include the insulation board being fixed at the top of the water-cooling section and be fixed at the top of the insulation board Fixed block, the fixed block are equipped with cylinder mounting holes.

The utility model has the beneficial effects that: structure and the shape design of the utility model are rationally, installation and operation side Just, easy to disassemble, it can be common to the welding of various elements, and production efficiency can be improved with quick-replaceable weld tabs.

Detailed description of the invention

Fig. 1 is the perspective view of the utility model；

Fig. 2 is the stereogram exploded view of the utility model；

Fig. 3 is the perspective view of the water-cooling section of the utility model；

Fig. 4 is the perspective view of the weld tabs fixing piece of the utility model；

Fig. 5 is the perspective view that the utility model eliminates various terminal；

Fig. 6 is the perspective view of another angle of Fig. 5；

Fig. 7 is the schematic diagram of the utility model installation site one；

Fig. 8 is the schematic diagram of the utility model installation site two (opposite Fig. 7 is rotated by 90 °)；

Fig. 9 is the schematic diagram of the weld tabs of the utility model；

Figure 10 is the cross-sectional view of the utility model；

Figure 11 is the schematic diagram in the first water-cooled block internal watercourses channel of the utility model；

Figure 12 is the schematic diagram in the second water-cooled block internal watercourses channel of the utility model.

Drawing reference numeral explanation: water-cooling section 1；Base portion 11；Tapered portion 12；First water-cooled block 13；The first side wall 131；First Connecting hole 132；Second water-cooled block 14；Second sidewall 141；Second connecting hole 142；Groove 143；Collets 144；Collets groove 145；Water cooling interface 15；Weld tabs fixing piece 2；Interconnecting piece 21；Mounting portion 22；First weld tabs fixing piece 23；Second weld tabs fixing piece 24；First weld tabs 3；Main part 31；Weld part 32；Weld tabs gap 33；Heat distribution cavity 34；Temp.-sensing wire weld part 35；Second weldering Piece 4；Water pipe adapter 5；First electrode connector 6；First step portion 61；Second step portion 62；Third stage portion 63；Second electrode Connector 7；Insulation board 8；Fixed block 9；Block head 10.

Specific embodiment

To facilitate a better understanding of the purpose, structure, characteristics and efficacy of the utility model, now in conjunction with attached drawing and specifically The utility model is described in further detail for embodiment.

As depicted in figs. 1 and 2, a kind of water cooling hot pressing soldering apparatus of the utility model preferred embodiment, including a water cooling Component 1, a weld tabs fixing piece 2, one first weld tabs 3 and one second weld tabs 4.

As shown in figure 3, water-cooling section 1 is made using conductive material, such as metal.Water-cooling section 1 has one Base portion 11 and a tapered portion 12, the bottom border of tapered portion 12 from base portion 11 are tapered downward.Base portion 11 is in prism shape, tapered Portion 12 is in prism-frustum-shaped.By the way that tapered portion 12 is arranged in the lower section of base portion 11, when worker carries out soldering, tapered portion 12 can be with It provides the part that sufficient space allows worker to treat soldering to operate, such as fixes the part to soldering with hand, and due to 12 four sides of tapered portion is tapered, and worker can be made to facilitate operation all around, will not be in the way.

As shown in figures 1 and 3, water-cooling section 1 includes the first water-cooled block 13 and the second water-cooled block 14 of relative spacing setting, First water-cooled block 13 and the second water-cooled block 14 are connected from different electrodes respectively.I.e. when the first water-cooled block 13 is connect with anode It waits, the second water-cooled block 14 is connect with cathode；When the first water-cooled block 13 is connect with cathode, the second water-cooled block 14 connects with anode It connects.It due to the first water-cooled block 13 and the setting of the second water-cooled block 14 interval, is not in contact with each other, therefore when the first water-cooled block 13 and the second water It is mutually indepedent between the first water-cooled block 13 and the second water-cooled block 14 when connection with electrode for cold piece 14, will not be mutually conductive, shadow Ring the normal work of weld tabs.

First water-cooled block 13 is respectively provided at least a pair of internal water cooling interface 15 being connected to the second water-cooled block 14.Due to During soldering, the first water-cooled block 13 and the second water-cooled block 14 can generate heat, it is therefore desirable in the first water-cooled block 13 and the second water Cold piece 14 of inside water flowing is quickly to cool down the first water-cooled block 13 and the second water-cooled block 14.Water pump passes through cooling water First water-cooled block 13 and the one of water cooling interface 15 of the second water-cooled block 14 enter the first water-cooled block 13 and the second water-cooled block 14 Inside after cooling down to the first water-cooled block 13 and the second water-cooled block 14, absorbs the water of heat from another water cooling interface 15 outputs.

As shown in figure 4, weld tabs fixing piece 2 is made using conductive material, such as metal.Weld tabs fixing piece 2 can It is connected to detachable the bottom of water-cooling section 1, such as can be by screw connection in the bottom of water-cooling section 1.Weld tabs is fixed Part 2 has interconnecting piece 21, and weld tabs fixing piece 2 is connect by interconnecting piece 21 with water-cooling section 1.Due to weld tabs fixing piece 2 and water cooling It is removably connected between component 1, therefore when weld tabs fixing piece 2 needs repairing or needs replacing, can be convenient dimension It repairs and replaces, without replacing entire tin fixing piece head.

First weld tabs fixing piece 23 and second weld tabs fixing piece 24 of the weld tabs fixing piece 2 including relative spacing setting, first Weld tabs fixing piece 23 is fixed on the bottom of the first water-cooled block 13, and the second weld tabs fixing piece 24 is fixed on the bottom of the second water-cooled block 14 Portion.First weld tabs fixing piece 23 and the setting of 24 relative spacing of the second weld tabs fixing piece are also for both avoiding directly contact from leading Electricity influences the normal work of weld tabs.

Weld tabs fixing piece 2 has the mounting portion 22 that extends downwardly, and the first weld tabs 3 is installed on the side of mounting portion 22, and second Weld tabs 4 is installed on the other side of mounting portion 22.First weld tabs 3 and the second weld tabs 4 are removably installed on mounting portion 22, convenient Maintenance and replacement.Due to mounting portion 22 have a width, when need to adjust between the first weld tabs 3 and the second weld tabs 4 away from When from being welded to different elements, it is only necessary to the width of mounting portion 22 is adjusted, it can be by replacing different welderings Piece fixing piece 2 is to realize, or is directly added gasket on mounting portion 22, without changing integrally-built design.

As shown in Fig. 5 to Fig. 8, the first weld tabs 3 and the second symmetrically interval setting of weld tabs 4.Existing tin fixing piece head is usual Only there is a weld tabs, however in actual production process, there are many elements to need double row welded.If only passing through a weldering Piece is welded, and working efficiency is too low, therefore by the way that symmetrical spaced first weld tabs 3 and the second weld tabs 4, Ke Yiti is arranged High welding efficiency.

One end of first weld tabs 3 is contacted with the first weld tabs fixing piece 23, and the other end is contacted with the second weld tabs fixing piece 24, the One end of two weld tabs 4 is contacted with the first weld tabs fixing piece 23, and the other end is contacted with the second weld tabs fixing piece 24, therefore the first weld tabs The work of fixing piece 23 and the second weld tabs fixing piece 24 is independent from each other.It, can be with when some elements only need single welding One weld tabs is only installed, equally can work normally.Therefore the utility model can be universally used in the element for needing single welding, It is common to the element for needing two rows of or even multiple rows of welding.

As shown in figure 9, the symmetrical shape of the first weld tabs 3, the symmetrical shape of the second weld tabs 4 can make the first weld tabs 3 in this way Identical with the symmetrical both ends resistance value of the second weld tabs 4, fever is uniform, and it is also uniform to radiate, so that the first weld tabs 3 and the second weld tabs 4 the service life is longer.

First weld tabs 3 and the second weld tabs 4 are including main part 31 and the weld part 32 connecting with main part 31.Main part Weld tabs gap 33 is equipped among 31 contacts 31 both ends of main part not, is in order to avoid electric current directly leads to from main part 31 in this way It crosses, influences the welding effect of weld part 32.

Weld part 32 is serrated, so that forming multiple solder joints carries out rapid welding.It can be distributed and be set according to practical pad The size and distance of solder joint are counted, to adapt to the welding of different elements.Weld part 32 can also be in flat, realize whole welding.

The top of weld part 32 is equipped with heat distribution cavity 34 so that weld tabs heat distribution cavity two sides shape by width to narrow It changes, to be gradually increased resistance, weld part is made more preferably to generate heat, welding effect is more preferable.

The centre of weld part 32 has upwardly extended temperature-sensitive wire bonding portion 35, for welding temp.-sensing wire, to detect weld part Temperature, to preferably adjust the temperature of weld part.In addition, temp.-sensing wire weld part 35 can also guarantee the intensity of weld part 32, Weld part 32 is prevented to be broken.

As shown in Figure 7 and Figure 8, water-cooling section 1 is that all around symmetrical structure, weld tabs fixing piece 2 are symmetrical all around Structure.It is on the one hand to guarantee that the central axis of the first weld tabs 3 and the opposite the utility model of the second weld tabs 4 is symmetrically to set in this way It sets, to guarantee the accuracy of the first weld tabs 3 and 4 position of the second weld tabs, on the other hand it is also ensured that the first weld tabs 3 and the Two body structures of weld tabs 4 are also symmetrically, not only to guarantee the first weld tabs 3 and the second weld tabs with respect to the central axis of the utility model 4 itself generate heat uniformly, it is also ensured that it is also uniform that the utility model, which integrally generates heat,.Further, since tapered portion 12 itself All around symmetrical structure, therefore the utility model can both be installed and used in one direction, will not block, can also be with Rotation 90 ° installed and used in another direction, will not block, installed with facilitating according to real work situation with more preferable Ground carries out soldering.

The utility model both multiple in one direction can be applied in combination to form full-automatic or semi-automatic production line, can also To form another full-automatic or semi-automatic production line with multiple be applied in combination in the other direction, can with both direction into Row is applied in combination.

Preferably, the length and width of the base portion 11 of water-cooling section 1 is equal, the length and width of the interconnecting piece 21 of fixing piece head Spend it is equal, in this way when the utility model rotate 90 ° of installations when, the occupied space size of water-cooling section 1 with it is completely overlapped before, Volume will not additionally be increased in some direction, can made so more convenient to use.

As shown in Fig. 3, Figure 11 and Figure 12, the first water-cooled block 13 has multiple the first side walls 131 interconnected, the second water There are multiple second sidewalls 141 interconnected, the first water-cooled block 13 and the second water-cooled block 14 are respectively provided in multipair for cold piece 14 The water cooling interface 15 of portion's connection, multipair water cooling interface 15 are located at multiple the first side walls 131 and multiple second sidewalls 141, when When first water-cooled block 13 is connected to 14 one pair of them water cooling interface 15 of the second water-cooled block, other water cooling interfaces 15 are blocked, such as adopt It is blocked with block head 10.Setting in this way both can neatly adjust water cooling interface 15, to facilitate installation, and It can also realize the adjustment in water route, by using different water cooling interfaces 15 to reach better water-cooled effect.In addition, working as this reality When being installed and used with 90 degree of New type rotary, one pair of them water cooling interface 15 can also be selected, neatly with more convenient peace Fill water pipe adapter 5.During actual use, straight water pipe adapter 5 is can be used in water pipe adapter 5, can also be made With curved water pipe adapter 5.

At least one the first side wall 131 is equipped with one first connecting hole 132 for electrode connection, at least one second sidewall 141 are equipped with one second connecting hole 142 for electrode connection, to guarantee that the first water-cooled block 13 and the second water-cooled block 14 can be into The connection of row electrode.First connecting hole 132 and the second connecting hole 142 are blind hole, can be avoided while producing electrode connection First connecting hole 132 and the second connecting hole 142 are connected to water-cooling channel.

As shown in Fig. 5 to Fig. 8, in the present embodiment, two adjacent the first side walls 131 are respectively provided with first connecting hole 132.In this way, the second water-cooled block 14 and the first water-cooled block 13 can be distinguished when the utility model is installed and used in one direction It carries out electrode with one of them first connecting hole 132 by the second connecting hole 142 to connect, when the utility model is in another side To when installing and using, the second water-cooled block 14 and the first water-cooled block 13 can respectively by the second connecting hole 142 and another the One connecting hole 132 carries out electrode connection.By reserving more first connecting holes 132 in the first side wall 131, to use this reality With novel in rotational angle installation, more convenient progress electrode connection.

As depicted in figs. 1 and 2, the utility model can also include a first electrode connector 6 and a second electrode connector 7, First electrode connector 6 by first connecting hole 132 is connected to a first side wall 131 of the first water-cooled block 13 and not with the The contact of two side walls 141, second electrode connector 7 are connected to one second of the second water-cooled block 14 by second connecting hole 142 It side wall 141 and is not contacted with the first side wall 131.First electrode connector 6 is different with the polarity of second electrode connector 7, i.e., when first When electrode contact 6 is connect with power anode, second electrode connector 7 is connect with power cathode；When first electrode connector 6 and power supply yin When pole connects, second electrode connector 7 is connect with power anode.

As shown in Fig. 1, Fig. 3 and Figure 10, the second sidewall 141 adjacent with having the first side wall 131 of the first connecting hole 132 It being recessed with a groove 143, is equipped with a collets 144 in groove 143, collets 144 are recessed with a collets groove 145, and first Electrode contact 6 have be in step-like first step portion 61, second step portion 62 and third stage portion 63, first step portion 61 with The first side wall 131 contacts, and second step portion 62 protrudes into collets groove 145 and contacts with collets 144, third stage portion 63 and the It is not contacted between two water-cooled blocks 14.Collets 144 can prevent first electrode connector 6 from contacting with the second water-cooled block 14, in this way may be used It is electrically connected with realizing to generate between first electrode connector 6 and the first water-cooled block 13, avoids first electrode connector 6 and the second water-cooled block Electrical connection is generated between 14.In addition, can make to avoid the structure for being designed to outwardly protrude by first electrode connector 6 in this way Structure is more compact, saves space.

As depicted in figs. 1 and 2, the utility model can also include being fixed on the insulation board 8 at 1 top of water-cooling section and consolidating Due to the fixed block 9 at 8 top of insulation board, fixed block 9 is equipped with cylinder mounting holes 91.Insulation board 8 can be glass-fiber-plate, avoid fixing Block 9 is conductive.The utility model is connect by cylinder mounting holes 91 with cylinder (not shown), and the first weldering is realized under the drive of cylinder Piece 3 is synchronous with the second weld tabs 4 to move up and down, to realize soldering.

The explanation of the only preferred embodiment of the utility model is described in detail above, non-therefore limitation the utility model is specially Sharp range, so, all with this creation specification and diagramatic content institute, equivalence techniques change for it, and it is specially to be both contained in this creation In sharp range.

Claims (10)

1. a kind of recirculated water cooling hot pressing soldering apparatus characterized by comprising

One water-cooling section has a base portion and a tapered portion, and the bottom border of the tapered portion from the base portion is tapered downward, The water-cooling section includes the first water-cooled block and the second water-cooled block of relative spacing setting, first water-cooled block and described second Water-cooled block is respectively provided at least a pair of internal water cooling interface being connected to, first water-cooled block and second water-cooled block respectively with Different electrode connections；

One weld tabs fixing piece, is removably connected to the bottom of the water-cooling section, and the weld tabs fixing piece has to downward The mounting portion stretched, the weld tabs fixing piece include the first weld tabs fixing piece and the second weld tabs fixing piece of relative spacing setting, institute The bottom that the first weld tabs fixing piece is fixed on first water-cooled block is stated, the second weld tabs fixing piece is fixed on second water Cold piece of bottom；

One first weld tabs, is installed on the side of the mounting portion, and first weld tabs one end connects with the first weld tabs fixing piece Touching, the other end are contacted with the second weld tabs fixing piece；

One second weld tabs, is installed on the other side of the mounting portion, and first weld tabs and second weld tabs are symmetrically spaced and set It sets, second weld tabs one end is contacted with the first weld tabs fixing piece, and the other end is contacted with the second weld tabs fixing piece.

2. recirculated water cooling hot pressing soldering apparatus as described in claim 1, it is characterised in that: the shape pair of first weld tabs Claim, the symmetrical shape of second weld tabs.

3. recirculated water cooling hot pressing soldering apparatus as described in claim 1, it is characterised in that: first weld tabs and described second Weld tabs includes main part and the weld part that connect with the main part, and weld tabs gap is equipped among the main part and makes institute It states main part both ends not contact, the weld part is serrated or flat, and the top of weld part is equipped with heat distribution cavity, described The middle part of weld part is upward convex to be equipped with temp.-sensing wire weld part.

4. recirculated water cooling hot pressing soldering apparatus as described in claim 1, it is characterised in that: the water-cooling section is all around Symmetrical structure, the weld tabs fixing piece are symmetrical structure all around.

5. recirculated water cooling hot pressing soldering apparatus as claimed in claim 4, it is characterised in that: first water-cooled block has multiple The first side wall interconnected, second water-cooled block have multiple second sidewalls interconnected, first water-cooled block and Second water-cooled block is respectively provided with the multipair internal water cooling interface being connected to, and the multipair water cooling interface is located at multiple described The first side wall and multiple second sidewalls, when first water-cooled block and the second water-cooled block one pair of them water cooling interface connect When logical, other water cooling interfaces are blocked.

6. recirculated water cooling hot pressing soldering apparatus as claimed in claim 5, it is characterised in that: at least one described the first side wall is set There is one first connecting hole for electrode connection, at least one described second sidewall is equipped with one second connection for electrode connection Hole.

7. recirculated water cooling hot pressing soldering apparatus as claimed in claim 6, it is characterised in that: two adjacent the first side walls It is respectively provided with first connecting hole.

8. recirculated water cooling hot pressing soldering apparatus as claimed in claim 7, it is characterised in that: further include a first electrode connector and One second electrode connector, the first electrode connector are connected to the one of first water-cooled block by first connecting hole It a the first side wall and is not contacted with the second sidewall, the second electrode connector is connected to by second connecting hole It one second sidewall of second water-cooled block and is not contacted with the first side wall.

9. recirculated water cooling hot pressing soldering apparatus as claimed in claim 8, it is characterised in that: with first connecting hole The adjacent second sidewall of the first side wall is recessed with a groove, is equipped with a collets, the collets in the groove It is recessed with a collets groove, it is in step-like first step portion, second step portion and third that the first electrode connector, which has, Stage portion, the first step portion are contacted with the first side wall, and the second step portion protrudes into the collets groove and institute Collets contact is stated, is not contacted between the third stage portion and second water-cooled block.

10. recirculated water cooling hot pressing soldering apparatus as described in claim 1, it is characterised in that: further include being fixed on the water cooling The insulation board of component top and the fixed block being fixed at the top of the insulation board, the fixed block are equipped with cylinder mounting holes.