CN203830289U - Soldering-flux recovery device - Google Patents

Abstract

The utility model relates to a soldering-flux recovery device. The soldering-flux recovery device comprises a first collection tank and a second collection tank, a first through hole is formed in the first collection tank and connected with a first air pipe, the first collection tank is communicated with the second collection tank through a second air pipe, a second through hole is formed in the second collection tank and connected with a third air pipe, and an air inlet is formed in the third air pipe and connected with a compressed air tank. The bottom surface of the first collection tank and the bottom surface of the second collection tank are respectively provided with a discharging port, the inner side wall of the first collection tank and the inner side wall of the second collection tank are respectively provided with first baffles which are inclined downwards, the first baffles are parallel to one another alternately, every two adjacent first baffle are arranged in an intersecting mode, and the position, close to an opening of the second collection tank, of the second air pipe is provided with a second baffle which is inclined downwards. Through the soldering-flux recovery device, small-particle dust can be separated from soldering flux automatically and rapidly, the soldering flux is recovered, and the soldering-flux recovery device has a good separation effect on the small-particle dust and the soldering flux.

Description

Flux collection system

Technical field

The utility model relates to flux collection system.

Background technology

In weld job process; can use a large amount of solder flux; be scattered and understand in operation some solder flux; if in addition recovery can not cause waste, and the solder flux being scattered tends to mix with granule dust, conventional mode is that hand sweeping is reclaimed at present; collected mixture need to carry out the operation of separate small particles dust and solder flux; hand sweeping extremely bothers, and wastes time and energy, and is not easy granule dust to separate completely with solder flux.

Summary of the invention

The utility model, for prior art deficiency, provides flux collection system, and it can separate granule dust automatically fast with solder flux, carry out the recycling of solder flux, to the good separating effect of granule dust and solder flux.

In order to solve the problems of the technologies described above, the utility model is solved by following technical proposals: flux collection system, comprise a collecting tank and No. two collecting tanks, on a described collecting tank, offer one number service hole, described one number service hole is connected with tracheae No. one, a described collecting tank is connected by No. two tracheaes with described No. two collecting tanks, on described No. two collecting tanks, offer through hole No. two, described No. two through holes are connected with tracheae No. three, on described No. three tracheaes, offer air inlet, described air inlet connects compression gas tank, on a described collecting tank and described No. two collecting tank bottom surfaces, all offer drain hole, and be provided with several baffle plate on a described collecting tank and described No. two collecting tank madial walls, a described baffle plate is tilted to lower setting, and be parallel to each other between a baffle plate of being separated by, between an adjacent baffle plate, be crisscross arranged, the opening part that is positioned at described No. two collecting tanks at described No. two tracheaes is provided with baffle plate No. two, described No. two baffle plates are tilted to lower setting.When use, the opening part of a tracheae is placed on to the mixture top of solder flux and granule dust, then input Compressed Gas from the air inlet of No. three tracheaes, make a collecting tank and No. two collecting tanks form vacuum, thereby the mixture of solder flux and granule dust is sucked to a collecting tank, because solder flux is heavier, the mixture of solder flux and granule dust is entering into after a collecting tank, encounter baffle plate No. one, solder flux drops to the bottom of a collecting tank, and discharge from drain hole, and granule dust is lighter, granule dust is inhaled in No. two tracheaes and enters into collecting tank No. two, be subject to the impact of a baffle plate, granule dust cannot move toward top from the bottom of No. two collecting tanks, thereby granule dust is discharged from the drain hole of the bottom of No. two collecting tanks, complete the lock out operation of solder flux and granule dust.

In technique scheme, a described tracheae end is connected with cover.The effect of cover is to ensure that the mixture of solder flux in cover and granule dust is not subject to the impact of ambient atmos, prevents from cannot effectively reclaiming because the impact of ambient atmos makes the mixture of solder flux and granule dust.

In technique scheme, described one number service hole is opened in the top of a described collecting tank, and described No. two tracheae one end are connected with the top of a described collecting tank, and the other end is connected with the bottom of described No. two collecting tanks.One number service hole and No. two tracheaes are all positioned at the top of a collecting tank; can conveniently make granule dust enter in No. two collecting tanks; and No. two tracheaes are communicated with the bottom of No. two collecting tanks; add the effect of a baffle plate; can effectively prevent that granule dust from entering in No. three tracheaes, thereby effectively granule dust be separated.

In technique scheme, the bottom surface of a described collecting tank and described No. two collecting tanks is tilted to center by side.The bottom surface tilting facilitates solder flux or granule dust to discharge from drain hole, prevents that solder flux or granule dust from resting on bottom surface and cannot discharge from drain hole.

In technique scheme, the opening part that is positioned at a described collecting tank at described No. two tracheaes is connected with baffle plate No. three, and described No. three baffle plates are tilted to setting.Because solder flux is heavier, granule dust is lighter, and No. three baffle plates that are therefore tilted to setting can prevent that solder flux from entering in No. two tracheaes, and granule dust can enter in No. two tracheaes, thereby effectively by solder flux and granule dust separation.

The utility model compared with prior art, has following beneficial effect: the utility model can separate granule dust automatically fast with solder flux, carry out the recycling of solder flux, to the good separating effect of granule dust and solder flux.The effect of cover is to ensure that the mixture of solder flux in cover and granule dust is not subject to the impact of ambient atmos, prevents from cannot effectively reclaiming because the impact of ambient atmos makes the mixture of solder flux and granule dust.One number service hole and No. two tracheaes are all positioned at the top of a collecting tank; can conveniently make granule dust enter in No. two collecting tanks; and No. two tracheaes are communicated with the bottom of No. two collecting tanks; add the effect of a baffle plate; can effectively prevent that granule dust from entering in No. three tracheaes, thereby effectively granule dust be separated.The bottom surface tilting facilitates solder flux or granule dust to discharge from drain hole, prevents that solder flux or granule dust from resting on bottom surface and cannot discharge from drain hole.Because solder flux is heavier, granule dust is lighter, and No. three baffle plates that are therefore tilted to setting can prevent that solder flux from entering in No. two tracheaes, and granule dust can enter in No. two tracheaes, thereby effectively by solder flux and granule dust separation.

Brief description of the drawings

Fig. 1 is the utility model schematic diagram.

Detailed description of the invention

Below in conjunction with accompanying drawing and detailed description of the invention, the utility model is described in further detail: referring to Fig. 1, flux collection system, comprise a collecting tank 1 and No. two collecting tanks 2, on a described collecting tank 1, offer one number service hole 11, one number service hole 11 is opened in the top 12 of a collecting tank 1, described one number service hole 11 is connected with tracheae 3 No. one, and described tracheae 3 ends are connected with cover 31.The effect of cover 31 is to ensure that the mixture of solder flux in cover 31 and granule dust is not subject to the impact of ambient atmos, prevents from cannot effectively reclaiming because the impact of ambient atmos makes the mixture of solder flux and granule dust.

A described collecting tank 1 is connected by No. two tracheaes 4 with described No. two collecting tanks 2, described No. two tracheae 4 one end are connected with the top 12 of a described collecting tank 1, the other end is connected with the bottom 22 of described No. two collecting tanks 2, one number service hole 11 and No. two tracheaes 4 are all positioned at the top 12 of a collecting tank 1, can make granule dust enter in No. two collecting tanks 2, and solder flux is stayed in a collecting tank 1, and No. two tracheaes 4 are communicated with the bottom 22 of No. two collecting tanks 2, add the effect of a baffle plate 8, can effectively prevent that granule dust from entering in No. three tracheaes 5, thereby effectively granule dust is separated.

On described No. two collecting tanks 2, offer through hole 21 No. two, described No. two through holes 21 connect tracheae 5 No. three, on described No. three tracheaes 5, offer air inlet 51, described air inlet 51 connects compression gas tank 6, the opening direction toward No. three tracheaes 5 that Compressed Gas tilts enters in No. three tracheaes 5, thereby makes a collecting tank 1 and No. two interior formation vacuum of collecting tank 2.

On a described collecting tank 1 and described No. two collecting tank 2 bottom surfaces, all offer drain hole 7, the bottom surface of a described collecting tank 1 and described No. two collecting tanks 2 is tilted to center by side.The bottom surface tilting facilitates solder flux or granule dust to discharge from drain hole, prevents that solder flux or granule dust from resting on bottom surface and cannot discharge from drain hole 7.

On a described collecting tank 1 and described No. two collecting tank 2 madial walls, be provided with several baffle plate 8, a described baffle plate 8 is tilted to lower setting, and be parallel to each other between a baffle plate 8 of being separated by, between an adjacent baffle plate 8, be crisscross arranged, namely wherein a baffle plate 8 tilts to left down, and the baffle plate 8 being adjacent has a down dip to the right, a baffle plate 8 below tilts to left down again, by that analogy, and the angle that a baffle plate 8 of being separated by tilts is identical, and mutually do not contact between each adjacent baffle plate 8.Being arranged on like this in No. two collecting tanks 2 to stop granule dust to move toward top from No. two collecting tank 2 bottoms 22; And in a collecting tank 1, not only can prevent that solder flux is inhaled in No. two tracheaes 4, but also can slow down the impulsive force of solder flux to collecting tank 1 bottom, prevent that solder flux from damaging No. one collecting tank 1 when whereabouts.

The opening part that is positioned at described No. two collecting tanks 2 at described No. two tracheaes 4 is provided with baffle plate 13 No. two, and described No. two baffle plates 13 are tilted to lower setting.After granule dust enters into No. two collecting tanks 2; first contact with No. two baffle plate 13 resistances; contacting rear No. two baffle plates 13 can directly rebound most granule dust and arrive drain hole 7 places; make this part granule dust directly be discharged from collecting tank 2 No. two; therefore No. two baffle plates 13 are set and can promote the effective collection to granule dust, stop most of granule dust to be inhaled in No. three tracheaes 5.

The opening part that is positioned at a described collecting tank 1 at described No. two tracheaes 4 is connected with baffle plate 9 No. three, and described No. three baffle plates 9 are tilted to setting.Because solder flux is heavier, granule dust is lighter, and No. three baffle plates 9 that are therefore tilted to setting can prevent that solder flux from entering in No. two tracheaes 4, and granule dust can enter in No. two tracheaes 4, thereby effectively by solder flux and granule dust separation.

When use, by the opening part of a tracheae 3 namely cover 31 be placed on the mixture top of solder flux and granule dust, then input Compressed Gas from the air inlet 51 of No. three tracheaes 5, make a collecting tank 1 and No. two collecting tanks 2 form vacuum, thereby the mixture of solder flux and granule dust is sucked to a collecting tank 1, because solder flux is heavier, the mixture of solder flux and granule dust is entering into after a collecting tank 1, encounter baffle plate 8 No. one, solder flux drops to the bottom of a collecting tank 1 along each baffle plate 8, and discharge from drain hole 7, and granule dust is lighter, granule dust is inhaled in No. two tracheaes 4 and enters into collecting tank 2 No. two, be subject to stopping of a baffle plate 8, granule dust cannot move toward top from the bottom of No. two collecting tanks 2, thereby granule dust is discharged from the drain hole 7 of the bottom of No. two collecting tanks 2, complete the lock out operation of solder flux and granule dust.

Claims (5)

1. flux collection system, it is characterized in that: comprise a collecting tank (1) and No. two collecting tanks (2), on a described collecting tank (1), offer one number service hole (11), described one number service hole (11) is connected with a tracheae (3), a described collecting tank (1) is connected by No. two tracheaes (4) with described No. two collecting tanks (2), on described No. two collecting tanks (2), offer No. two through holes (21), described No. two through holes (21) are connected with No. three tracheaes (5), on described No. three tracheaes (5), offer air inlet (51), described air inlet (51) connects compression gas tank (6), on a described collecting tank (1) and described No. two collecting tanks (2) bottom surface, all offer drain hole (7), and be provided with several baffle plates (8) on a described collecting tank (1) and described No. two collecting tanks (2) madial wall, a described baffle plate (8) is tilted to lower setting, and be parallel to each other between a baffle plate (8) of being separated by, between an adjacent baffle plate (8), be crisscross arranged, the opening part that is positioned at described No. two collecting tanks (2) at described No. two tracheaes (4) is provided with No. two baffle plates (13), described No. two baffle plates (13) are tilted to lower setting.

2. flux collection system as claimed in claim 1, is characterized in that: a described tracheae (3) end is connected with cover (31).

3. flux collection system as claimed in claim 1, it is characterized in that: described one number service hole (11) is opened in the top (12) of a described collecting tank (1), described No. two tracheaes (4) one end is connected with the top (12) of a described collecting tank (1), and the other end is connected with the bottom (22) of described No. two collecting tanks (2).

4. flux collection system as claimed in claim 1, is characterized in that: the bottom surface of a described collecting tank (1) and described No. two collecting tanks (2) is tilted to center by side.

5. flux collection system as claimed in claim 1, is characterized in that: the opening part that is positioned at a described collecting tank (1) at described No. two tracheaes (4) is connected with No. three baffle plates (9), and described No. three baffle plates (9) are tilted to setting.