CN115351381A - Automatic dip in and brush scaling powder device - Google Patents

Abstract

The invention discloses an automatic soldering flux dipping device, which relates to the technical field of wire welding processing and comprises a liquid storage mechanism, a lifting mechanism, a metal plate strainer, a reciprocating mechanism, an upper brush and a lower brush; the panel beating strainer is installed on elevating system, and elevating system installs in liquid storage mechanism's side, goes up brush and lower brush longitudinal symmetry and sets up on reciprocating motion mechanism, and reciprocating motion mechanism installs in one side of liquid storage mechanism, goes up the upper and lower both sides of panel beating strainer that brush and lower brush lie in the lifting after. According to the invention, the metal plate strainer is lifted from the inside of the soldering flux liquid tank, so that the soldering flux is stored in the metal plate strainer and the liquid storage holes, meanwhile, the soldering flux liquid in the metal plate strainer leaks from the lower surface through the liquid storage holes, the upper brush and the lower brush move back and forth on the upper surface and the lower surface of the metal plate strainer to fully dip the soldering flux, and then the upper brush and the lower brush the soldering flux at the seam of the iron shell, so that the amount of the soldering flux brushing on the iron shell in unit time can be increased, and the soldering flux brushing efficiency is improved.

Description

Automatic dip in and brush scaling powder device

Technical Field

The invention relates to the technical field of wire welding processing, in particular to an automatic soldering flux dipping device.

Background

Generally, in manufacturing electronic products, it is necessary to weld a conductor of a wire to a soldering portion of a conductive terminal of a housing. The existing soldering tin process for the wire and the shell is to cut and strip the wire to expose the conductor and then weld the conductor and the shell welding cup together.

The welding position needs to be coated with the scaling powder before welding, and the welding position is coated with paint again through the brush to the device of scaling powder of having now coated with paint with a brush, but can only coat with a brush the upper surface through the brush now, need overturn the wire rod, then lead to machining efficiency low.

Disclosure of Invention

The technical problem that the machining efficiency is low due to the fact that the wire rod needs to be overturned to solve the problem that the upper surface can only be brushed through a hairbrush in the prior art.

The invention specifically adopts the following technical scheme for solving the problems in the prior art, and provides an automatic soldering flux dipping device which comprises a liquid storage mechanism, a lifting mechanism, a metal plate strainer, a reciprocating mechanism, an upper brush and a lower brush;

the metal plate strainer is mounted on the lifting mechanism, and the lifting mechanism is mounted on the side of the liquid storage mechanism and used for driving the metal plate strainer to be immersed in the liquid storage mechanism in a reducing mode and lifting the metal plate strainer;

the upper hairbrush and the lower hairbrush are arranged on the reciprocating mechanism in an up-and-down symmetrical mode, the reciprocating mechanism is installed on one side of the liquid storage mechanism, and the upper hairbrush and the lower hairbrush are located on the upper side and the lower side of the metal plate colander after being lifted.

The metal plate strainer comprises a fixing part and a liquid storage part for storing soldering flux, wherein the liquid storage part is of a hollow structure, and one end of the fixing part is fixedly connected with one end of the liquid storage part; the moving end of the lifting mechanism is fixedly connected with the other end of the fixing part;

the lower surface of the liquid storage part is provided with a plurality of first liquid leakage holes communicated with the inside of the liquid storage part.

The further proposal is that the upper surface of the liquid storage part is provided with a plurality of liquid storage holes which are communicated with the inside of the liquid storage part and used for storing soldering flux;

the liquid storage hole and the first liquid leakage hole are arranged in a staggered mode in the vertical direction.

The further scheme is that a groove used for storing soldering flux is formed in the upper surface of the liquid storage part, and second liquid leakage holes communicated with the inside of the liquid storage part are formed in two inner side walls of the groove.

The liquid storage part is internally provided with a partition plate which is positioned between the liquid storage hole and the first liquid leakage hole, the partition plate is provided with a plurality of third liquid leakage holes, and the third liquid leakage holes and the first liquid leakage holes are arranged in a staggered manner in the vertical direction.

The liquid storage mechanism comprises a soldering flux liquid tank and a backflow part, wherein the soldering flux liquid tank is positioned right below the metal plate strainer, and the side part of the soldering flux liquid tank is provided with a liquid inlet part; the side part of the soldering flux liquid tank is also provided with an overflow part and an overflow port for communicating the soldering flux liquid tank with the overflow part; the overflow part is internally provided with a filtering room, and the return part is arranged below the overflow part.

The further scheme is that the reciprocating mechanism comprises a reciprocating power mechanism, the reciprocating power mechanism is arranged below the supporting seat and comprises a driving motor and two sliding rails, an output shaft of the driving motor is connected with a first rotating shaft, the first rotating shaft is connected with a second rotating shaft through a first belt, the two sliding rails are connected with sliding blocks in a sliding mode, the first belt is located on one side of the first rotating shaft and fixedly connected with a fixed block, one side of the fixed block is fixedly connected with one of the sliding blocks, the two sliding blocks are fixedly connected with the same base above the same base, and the upper end of the base is fixedly connected with a bottom plate of the supporting seat.

The reciprocating mechanism further comprises a first brush fixed cylinder, a first supporting arm and a second supporting arm; the upper hairbrush is installed on the first supporting arm, the lower hairbrush is installed on the second supporting arm, the first supporting arm and the second supporting arm are fixedly connected with the movable end of the first hairbrush ejection cylinder, and the first hairbrush ejection cylinder is fixedly arranged above the supporting seat.

The further proposal is that the reciprocating mechanism also comprises a lifting motor, a connecting plate and a second belt

The connecting plate is arranged on the first brush positioning cylinder; the lifting motor is installed on the connecting plate, an output shaft of the lifting motor faces towards the liquid storage mechanism, a driving wheel is arranged on the output shaft of the lifting motor, a third rotating shaft is installed on the connecting plate and located under the driving wheel, the second belt is sleeved on the driving wheel and the third rotating shaft, and the first supporting arm and the second supporting arm are respectively connected to a vertical portion, opposite to the second belt, of the vertical portion.

The automatic soldering flux dipping device further comprises a carrier table and a wire supporting cylinder, wherein a plurality of placing grooves are formed in the upper surface of the carrier table, wires are placed in the placing grooves, a pressing and positioning cylinder is arranged above the carrier table, the movable end of the pressing and positioning cylinder is connected with a pressing block, and a pressure dividing block corresponding to the placing grooves is arranged at the lower end of the pressing block; the movable end of the wire supporting cylinder is located below the carrier table, and the movable end of the wire supporting cylinder can move to the bottom of the carrier table and is in contact with the bottom of the carrier table.

The automatic soldering flux dipping device further comprises a collecting groove for collecting dropped soldering flux during welding, the upper end of the collecting groove is open, and the collecting groove is arranged on the side of the carrier table.

Compared with the prior art, the invention has the following beneficial effects:

according to the metal plate strainer, the lifting mechanism drives the metal plate strainer to descend, the metal plate strainer is immersed in the liquid storage mechanism, then the lifting mechanism drives the metal plate strainer to lift up, the reciprocating mechanism drives the upper hairbrush and the lower hairbrush to be close to the metal plate strainer, the upper hairbrush and the lower hairbrush are enabled to reciprocate on the upper surface and the lower surface of the metal plate strainer simultaneously to dip soldering flux, then the reciprocating mechanism drives the upper hairbrush and the lower hairbrush to move towards a product, and the upper hairbrush and the lower hairbrush are driven to dip soldering flux on the upper surface and the lower surface of the product. Realize upper and lower brush can be abundant dip in get scaling powder liquid, make then fully dip in the upper and lower brush of getting scaling powder liquid to returning iron-clad seam crossing, promote the volume of unit interval to iron-clad brush scaling powder, promote the efficiency of brushing the scaling powder then.

Drawings

Fig. 1 is a schematic perspective view of an automatic flux dipping device provided in embodiment 1 of the present invention;

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1;

fig. 3 is a schematic structural diagram of a sheet metal strainer provided in embodiment 1 of the present invention;

FIG. 4 is a schematic view of the structure of FIG. 3 from another perspective;

FIG. 5 is a front view of an automatic flux dipping device provided in embodiment 1 of the present invention;

FIG. 6 is a right side view of FIG. 5;

fig. 7 is a top view of the reciprocating power mechanism according to embodiment 1 of the present invention;

FIG. 8 is a left side view of FIG. 5;

fig. 9 is a schematic structural view of a liquid storage part provided in embodiment 2 of the present invention;

FIG. 10 is a schematic view of the structure of FIG. 9 from another perspective;

FIG. 11 is a schematic view of a structure of the liquid reservoir provided in example 1 with a partition plate added therein;

FIG. 12 is a schematic view of a structure of a reservoir provided in embodiment 2 with a partition plate added therein;

the attached drawings are marked as follows: 1, brushing the hair; 2, arranging a brush; 3-sheet metal strainer; 30-a fixed part; 31-a liquid storage part; 310-liquid storage hole; 311-first weep hole; 312-a groove; 313-a second weep hole; 32-a soldering flux liquid bath; 40-a drive motor; 41-a slide rail; 410-a slide block; 42-a first belt; 43-fixing block; 44-a base; 45-supporting seat; 46-the first brush defines a cylinder; 47-a first support arm; 48-a second support arm; 50-a lifting motor; 51-a second belt; 60-a carrier table; 61-placing grooves; 62-pressing down the positioning cylinder; 63-briquetting; 64-briquetting; 65-a wire supporting cylinder; 7-a collecting tank; 8-a separator; 80-a third weep hole; 9-driving the cylinder.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Example 1

As shown in fig. 1-8, an embodiment 1 of the present invention discloses an automatic flux dipping device, which comprises a liquid storage mechanism, a lifting mechanism, a metal plate strainer 3, a reciprocating mechanism, an upper brush 1 and a lower brush 2;

the metal plate strainer 3 is arranged on the lifting mechanism, the lifting mechanism is arranged on the side of the liquid storage mechanism and is used for driving the metal plate strainer 3 to be immersed in the liquid storage mechanism in a reducing mode and lifting the metal plate strainer;

go up brush 1 and brush 2 longitudinal symmetry down and set up on reciprocating motion mechanism, reciprocating motion mechanism installs in one side of stock solution mechanism, goes up brush 1 and brush 2 down and is located the panel beating strainer 3 upper and lower both sides after the lifting.

The sheet metal strainer 3 comprises a fixing part 30 and a liquid storage part 31 for storing soldering flux, the liquid storage part 31 is of a hollow structure, and one end of the fixing part 30 is fixedly connected with one end of the liquid storage part 31; the moving end of the lifting mechanism is fixedly connected with the other end of the fixing part 30; the lower surface of the liquid storage part 31 is provided with a plurality of first liquid leakage holes 311 communicated with the inside of the liquid storage part 31. The upper surface of the liquid storage part 31 is provided with a plurality of liquid storage holes 310 which are communicated with the inside of the liquid storage part 31 and are used for storing soldering flux;

in the embodiment 1 of the invention, the sheet metal strainer 3 is arranged, and the sheet metal strainer 3 is lifted to the position above the liquid storage mechanism from the inside of the liquid storage mechanism filled with the soldering flux and between the upper brush and the lower brush through the lifting mechanism, so that when the sheet metal strainer 3 is lifted, the soldering flux in the liquid storage mechanism can enter the inside of the sheet metal strainer 3 through the liquid storage holes 310 formed in the upper surface of the liquid storage part 31 of the sheet metal strainer 3, and the soldering flux is stored in the inside of the sheet metal strainer 3 and the liquid storage holes 310. Meanwhile, the soldering flux in the metal plate strainer 3 can leak out from the lower surface of the metal plate strainer through the first liquid leakage holes 311 formed in the lower surface of the liquid storage part 31. Then, the upper brush 1 and the lower brush 2 respectively reciprocate on the upper surface and the lower surface of the liquid storage part 31 through the reciprocating mechanism and along the length direction of the liquid storage part 31, the upper brush 1 can be continuously contacted with the soldering flux in the liquid storage hole 310 and dipped with the soldering flux in the reciprocating process, the lower brush 2 can also be continuously contacted with the soldering flux leaked from the first liquid leakage hole 311 and dipped with the soldering flux in the reciprocating process, and then the upper brush and the lower brush can be fully dipped with the soldering flux; thereby the upper and lower brush that realizes fully dipping in after getting the scaling powder promotes the unit interval to the volume of iron-clad brush scaling powder to returning iron-clad seam crossing, promotes the efficiency of brushing the scaling powder then.

It should be noted that, the aperture size of the liquid storage hole 310 of the embodiment can be adapted according to the size of the brush, so that the brush can fully contact and dip the flux in the liquid storage hole 310. In addition, the aperture size of the first weep hole 311 of this embodiment can be set up according to the rate of weeping, guarantees in principle that the inside scaling powder of stock solution portion 31 can not run off from first weep hole 311 too fast, as long as satisfy and enable down the brush can fully dip in get from the scaling powder that first weep hole leaked down can.

In the present embodiment, the liquid storage hole 310 and the liquid leakage hole 311 are vertically offset.

According to the embodiment 1 of the invention, the soldering flux is stored in the liquid storage part as much as possible in a short time through the arrangement.

In this embodiment, the plurality of liquid storage holes 310 are equidistantly spaced along the length direction of the liquid storage part 31, and the plurality of first liquid leaking holes 311 are equidistantly spaced along the length direction of the liquid storage part 31.

In the embodiment 1 of the invention, the liquid storage holes are formed in the upper surface of the liquid storage part, so that the upper brush can be dipped with more soldering flux liquid when moving back and forth on the upper surface of the liquid storage part. Similarly, this embodiment sets up a plurality of first weeping holes at liquid storage portion lower surface for the brush can dip in when the lower surface round trip movement of liquid storage portion and get more scaling powder down.

In this embodiment, the liquid storage mechanism includes a soldering flux liquid tank 32 and a reflux part, the soldering flux liquid tank 32 is located right below the sheet metal strainer, and a liquid inlet part is arranged at the side part of the soldering flux liquid tank 32; the side part of the soldering flux liquid groove 32 is also provided with an overflow part and an overflow port for communicating the soldering flux liquid groove 32 and the overflow part; the overflow part is provided with a filtering room, and the reflux part is arranged below the overflow part.

In the embodiment 1 of the invention, the soldering flux can be injected into the soldering flux liquid tank through the liquid inlet part by the arrangement; meanwhile, the excessive soldering flux liquid in the soldering flux liquid groove can be discharged through the overflow part, and the phenomenon that the excessive liquid in the soldering flux liquid groove 32 overflows from the soldering flux liquid groove is avoided.

In this embodiment, the reciprocating mechanism includes a reciprocating power mechanism, the reciprocating power mechanism is disposed below the supporting seat 45, the reciprocating power mechanism includes a driving motor 40 and two sliding rails 41, an output shaft of the driving motor 40 is connected to the first rotating shaft, the first rotating shaft is connected to the second rotating shaft through a first belt 42, the two sliding rails 41 are both slidably connected to a sliding block 410, a fixed block 43 is fixedly connected to one side of the first rotating shaft of the first belt 42, one side of the fixed block 43 is fixedly connected to one of the sliding blocks 410, the same base 44 is fixedly connected to the upper sides of the two sliding blocks 410, the upper end of the base 44 is fixedly connected to the bottom plate of the supporting seat 45, and the moving direction of the sliding block 410 is perpendicular to the moving direction of the first brush ejection cylinder 46.

In embodiment 1 of the present invention, by the above arrangement, the driving motor 40 is started, the driving motor 40 rotates forward or backward to drive the first rotating shaft to rotate, and then the first belt 42 rotates forward or backward between the first rotating shaft and the second rotating shaft, i.e. the first belt 42 reciprocates, because the first belt 42 is fixedly connected to the fixed block 43, the first belt 42 reciprocates to drive the fixed block 43 to reciprocate, and then one of the sliders 410 fixedly connected to the fixed block 43 also reciprocates on the slide rail 41, while the upper ends of the two sliders 410 are fixedly connected to the same base 44, and then the base 44 reciprocates and the slider 41 on the other side also reciprocate on the slide rail 41, and then the supporting base 45 is driven to reciprocate left and right, and then other structures of the reciprocating mechanism connected to the supporting base also reciprocate.

In this embodiment, the reciprocating mechanism further includes a first brush defining cylinder 46, a first support arm 47 and a second support arm 48; the upper brush 1 is arranged on the first supporting arm 47, the lower brush 2 is arranged on the second supporting arm 48, the first supporting arm 47 and the second supporting arm 48 are fixedly connected with the movable end of the first brush ejection cylinder 46, and the first brush ejection cylinder 46 is fixedly arranged above the supporting seat 45.

In embodiment 1 of the present invention, the upper brush 1 is fixed by the first support arm 47, and the lower brush 2 is fixed by the second support arm 48, and the upper brush 1 and the lower brush 2 can be conveyed to the vicinity of the liquid storage portion 31 of the metal plate strainer 3 when the movable end of the first brush ejection cylinder 46 moves. In addition, through making first support arm 47, second support arm 48, the ejecting cylinder 46 of first brush links to each other with supporting seat 45 is fixed, realize then that reciprocating motion power unit drives the supporting seat 45 and also drives the first support arm 47 that links to each other with supporting seat 45 simultaneously when doing reciprocating motion, second support arm 48, the ejecting cylinder 46 of first brush, and fix the last brush 1 on first support arm 47 and fix the lower brush 2 on second support arm 48 and do reciprocating motion, then realize that the brush is reciprocating motion with abundant dipping in order to get the scaling powder on the upper and lower surface of the stock solution portion 31 of panel beating strainer respectively from top to bottom.

In this embodiment, the reciprocating mechanism further comprises a lifting motor 50, a connecting plate and a second belt 51, wherein the connecting plate is mounted on the first brush positioning cylinder 46; lifting motor 50 installs on the connecting plate, and lifting motor 50's output shaft is provided with the action wheel towards stock solution mechanism on lifting motor 50's the output shaft, and the third pivot is installed on the connecting plate and is located the action wheel under, and second belt 51 cover is located action wheel and third pivot on, and first support arm 46 and second support arm 47 are connected respectively on the vertical portion that second belt 51 set up relatively.

According to the embodiment 1 of the invention, through the arrangement, when the upper brush 1 and the lower brush 2 are conveyed to the vicinity of the liquid storage part of the sheet metal strainer through the movable end of the first brush ejection cylinder 46, at the moment, the upper brush and the lower brush are not in contact with the upper surface and the lower surface of the liquid storage part 31 of the sheet metal strainer 3, at the moment, the lifting motor 50 is started, the lifting motor 50 drives the driving wheel to rotate, the driving wheel rotates to drive the second belt 51 to rotate between the driving wheel and the third rotating shaft, and the height positions of the first supporting arm 47 and the second supporting arm 48 in the vertical direction are adjusted through the rotation of the second belt 51, so that the heights of the upper brush 1 on the first supporting arm 47 and the height of the lower brush 2 on the second supporting arm 48 are adjusted, the upper brush and the lower brush are respectively in contact with the upper surface and the lower surface of the liquid storage part 30 of the sheet metal strainer 3, and the ends of the upper brush and the lower brush are respectively attached to the upper surface and the lower surface of the liquid storage part 30 to perform reciprocating movement through the reciprocating movement mechanism.

In this embodiment, the automatic flux dipping device further includes a carrier table 60 and a wire supporting cylinder 65, the upper surface of the carrier table 60 is provided with a plurality of placing grooves 61, wires are placed in the placing grooves 61, a downward pressing and positioning cylinder 62 is arranged above the carrier table 60, the movable end of the downward pressing and positioning cylinder 62 is connected with a pressing block 63, and the lower end of the pressing block 63 is provided with a pressure dividing block 64 corresponding to the placing grooves 61; the movable end of the thread take-up cylinder 65 is located below the carrier table 60 and the movable end of the thread take-up cylinder 65 is movable to the bottom of the carrier table 60 and contacts the bottom of the carrier table 60.

According to the embodiment 1 of the invention, the wire can be placed in the placing groove 61 of the carrier table 60 through the arrangement, the wire supporting cylinder 65 is ejected out to support the lower part of the carrier table 60, the pressing and positioning cylinder 62 is started, and the pressing and positioning cylinder 62 moves downwards to drive the sub-pressing block 64 below the pressing block 63 to press the wire to be flat.

In this embodiment, the automatic flux dipping device further includes a collecting groove 7 for collecting the dropped flux during welding, an upper end of the collecting groove 7 is open, and the collecting groove 7 is disposed on a side of the carrier table 60.

According to the embodiment 1 of the invention, the collection groove 7 is arranged, so that when the soldering flux is brushed on the joint of the iron shell, the soldering flux can be prevented from dropping on equipment or other places.

Example 2

The present invention provides another embodiment 2, which is different from embodiment 1 in the structure of the upper end of the liquid storage part 31, specifically:

as shown in fig. 9-10, a groove 312 for storing the soldering flux is formed on the upper surface of the liquid storage portion 31, and second liquid leakage holes 313 communicated with the inside of the liquid storage portion 31 are formed on both inner side walls of the groove.

In embodiment 2 of the present invention, the groove 312 is formed on the upper surface of the liquid storage portion, so that the flux on the upper surface of the liquid storage portion 31 can be prevented from flowing away too quickly. While the grooves 312 may store flux.

In embodiment 2 of the present invention, when the liquid storage portion 31 moves upward from the inside of the soldering flux liquid tank 32 to the upper side of the soldering flux liquid tank 32 through the above arrangement, the soldering flux enters the hollow cavity of the liquid storage portion 31 from the second liquid leakage holes 313 on both sides of the groove 312, so that the inside of the liquid storage portion 31 is filled with the soldering flux. The soldering flux in the liquid storage part 31 can leak out through the first liquid leakage holes 311 formed in the lower surface of the liquid storage part 31, and at the moment, the soldering flux is stored in the grooves 312. At this moment, by starting the first brush ejection cylinder 46 and the lifting motor 50, the upper brush 1 is moved to the inside of the groove 312 and is contacted with the soldering flux inside the groove 312, meanwhile, the lower brush 2 is moved to the lower surface of the liquid storage part 31 and is contacted with the lower surface of the liquid storage part 31, the upper brush 1 is made to reciprocate in the groove 312 through the reciprocating mechanism, the lower brush 2 is moved to and fro on the lower surface of the liquid storage part 30, and the upper brush and the lower brush can be fully dipped in the soldering flux.

Example 3

The invention provides another embodiment 3, in embodiment 3, the partition plates 8 are respectively arranged inside the liquid storage parts 31 of the sheet metal colander 3 in embodiment 1 or embodiment 2, as shown in fig. 11 to 12, the partition plates 8 are positioned between the liquid storage holes 310 and the first liquid leakage holes 311, a plurality of third liquid leakage holes 80 vertically penetrating through the partition plates 8 are formed in the partition plates 8, the plurality of third liquid leakage holes 80 are distributed at equal intervals, and the third liquid leakage holes 80 and the first liquid leakage holes 311 are arranged in a staggered manner in the vertical direction.

This embodiment 3 staggers in vertical direction through setting up two-layer weeping hole and can delay the scaling powder from the rate that panel beating strainer lower extreme leaked down, solves the too fast loss of scaling powder from the lower surface of panel beating strainer then, plays the effect of slow flow to the brush can fully dip in the scaling powder under the messenger.

Finally, only specific embodiments of the present invention have been described in detail above. The invention is not limited to the specific embodiments described above. Equivalent modifications and substitutions by those skilled in the art are also within the scope of the present invention. Accordingly, equivalent alterations and modifications are intended to be included within the scope of the invention, without departing from the spirit and scope of the invention.

Claims (10)

1. The utility model provides an automatic dip in brush scaling powder device which characterized in that:

comprises a liquid storage mechanism, a lifting mechanism, a metal plate colander (3), a reciprocating mechanism, an upper brush (1) and a lower brush (2);

the metal plate strainer (3) is mounted on the lifting mechanism, and the lifting mechanism is mounted on the side of the liquid storage mechanism and used for driving the metal plate strainer (3) to be immersed in the liquid storage mechanism in a lowered mode and lifting the metal plate strainer;

go up brush (1) with brush (2) longitudinal symmetry down set up in on the reciprocating motion mechanism, reciprocating motion mechanism install in one side of stock solution mechanism, go up brush (1) with brush (2) are located the lifting back both sides about the panel beating strainer down.

2. The automatic flux dipping device of claim 1, wherein:

the metal plate strainer (3) comprises a fixing part (30) and a liquid storage part (31) used for storing soldering flux, the liquid storage part (31) is of a hollow structure, and one end of the fixing part (30) is fixedly connected with one end of the liquid storage part (31); the moving end of the lifting mechanism is fixedly connected with the other end of the fixing part (30);

the lower surface of the liquid storage part (31) is provided with a plurality of first liquid leakage holes (311) communicated with the inside of the liquid storage part (31).

3. The automatic flux dipping device of claim 2, wherein:

the upper surface of the liquid storage part (31) is provided with a plurality of liquid storage holes (310) which are communicated with the inside of the liquid storage part (31) and used for storing soldering flux;

the liquid storage hole (310) and the first liquid leakage hole (311) are arranged in a staggered mode in the vertical direction.

4. The automatic flux dipping device of claim 2, wherein:

the upper surface of the liquid storage part (31) is provided with a groove (312) for storing soldering flux, and two inner side walls of the groove (312) are provided with second liquid leakage holes (313) communicated with the inside of the liquid storage part (31).

5. The automatic flux dipping device of claim 3 or 4, wherein:

be provided with baffle (8) in stock solution portion (31), baffle (8) are located between stock solution hole (310) and first weeping hole (311), a plurality of third weeping hole (80) have been seted up on baffle (8), third weeping hole (80) with first weeping hole (311) stagger the setting in vertical direction.

6. The automatic flux dipping device according to any one of claims 1-4, wherein:

the liquid storage mechanism comprises a soldering flux liquid tank (32) and a backflow part, the soldering flux liquid tank (32) is located right below the sheet metal strainer, and a liquid inlet part is arranged on the side part of the soldering flux liquid tank (32); the side part of the soldering flux liquid groove (32) is also provided with an overflow part and an overflow port for communicating the soldering flux liquid groove (32) with the overflow part; the overflow part is internally provided with a filtering room, and the reflux part is arranged below the overflow part.

7. The automatic flux dipping device according to any one of claims 1-4, wherein:

reciprocating motion mechanism includes reciprocating motion power unit, reciprocating motion power unit sets up the below at supporting seat (45), reciprocating motion power unit includes driving motor (40) and two slide rails (41), the output shaft and the first pivot of driving motor (40) link to each other, first pivot links to each other with the second pivot through first belt (42), two equal sliding connection has slider (410) on slide rail (41), first belt (42) are located one side fixedly connected with fixed block (43) of first pivot, one side and one of them of fixed block (43) slider (410) fixed connection, two same base (44) of top fixedly connected with of slider (410), the upper end of base (44) with the bottom plate fixed connection of supporting seat (45).

8. The automatic flux dipping device according to claim 7, wherein:

the reciprocating mechanism further comprises a first brush defining cylinder (46), a first supporting arm (47) and a second supporting arm (48); go up brush (1) and install on first support arm (47), lower brush (2) install in on second support arm (48), first support arm (47), second support arm (48) all are fixed with the movable end of first brush ejection cylinder (46) and link to each other, first brush ejection cylinder (46) are fixed to be set up the top of supporting seat (45).

9. The automatic flux dipping device according to claim 7, wherein:

the reciprocating mechanism also comprises a lifting motor (50), a connecting plate and a second belt (51)

The connecting plate is arranged on the first brush positioning cylinder (46); elevator motor (50) install in on the connecting plate, the output shaft orientation of elevator motor (50) stock solution mechanism, be provided with the action wheel on the output shaft of elevator motor (50), the third pivot install in on the connecting plate and lie in under the action wheel, second belt (51) cover is located the action wheel with in the third pivot, first support arm (46) and second support arm (47) are connected respectively on the vertical portion that second belt (51) set up relatively.

10. The automatic flux dipping device according to any one of claims 1-4, wherein:

the automatic soldering flux dipping and brushing device further comprises a carrier table (60) and a wire supporting cylinder (65), wherein a plurality of placing grooves (61) are formed in the upper surface of the carrier table (60), wires are placed in the placing grooves (61), a pressing and positioning cylinder (62) is arranged above the carrier table (60), a pressing block (63) is connected to the movable end of the pressing and positioning cylinder (62), and a pressure dividing block (64) corresponding to the placing grooves (61) is arranged at the lower end of the pressing block (63); the movable end of the wire supporting cylinder (65) is positioned below the carrier table (60) and the movable end of the wire supporting cylinder (65) can move to the bottom of the carrier table (60) and is in contact with the bottom of the carrier table (60).

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