CN209520467U - A kind of flux collection system - Google Patents
A kind of flux collection system Download PDFInfo
- Publication number
- CN209520467U CN209520467U CN201822129380.5U CN201822129380U CN209520467U CN 209520467 U CN209520467 U CN 209520467U CN 201822129380 U CN201822129380 U CN 201822129380U CN 209520467 U CN209520467 U CN 209520467U
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- China
- Prior art keywords
- flux
- storage vat
- solder flux
- recycling storage
- screening machine
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Abstract
The utility model is a kind of flux collection system, belong to field of welding devices, aiming at the problem that manual recovery solder flux low efficiency, it is as follows using technical solution: a kind of flux collection system, including the recycling storage vat with collecting action, screening machine and the Flux Recovery Unit being connected to by communicating pipe with recycling storage vat, one connecting tube one end is connected to recycling storage vat, the other end is close to solder flux to be recycled, the Flux Recovery Unit can produce negative pressure, and solder flux to be recycled is pumped in recycling storage vat via connecting tube;The screening machine is located at below recycling storage vat, the solder flux to be recycled fallen for accepting and screening recycling storage vat, to obtain clean solder flux.The negative pressure that Flux Recovery Unit generates provides suction force, the solder flux to be recycled of connecting tube one end is pumped in recycling storage vat, the dust more light than solder flux can get clean solder flux after screening machine screening separation by Flux Recovery Unit suction and solder flux initial gross separation, other impurities.
Description
Technical field
The utility model belongs to field of welding devices, in particular to a kind of flux collection system.
Background technique
When using submerged-arc welding, for the good forming ability for guaranteeing weld seam, need largely to use solder flux, the solder flux used is generally
Powdered or graininess has a large amount of waste in the welding process and causes environmental pollution, but uses in the actual production process
Manual recovery solder flux, this makes the time used in recycling solder flux long, in addition, there are also many impurity in the solder flux after manual recovery, needs
It wants just come into operation after artificial screening, recovery efficiency is lower.
Utility model content
Aiming at the problem that manual recovery solder flux low efficiency, the utility model provides a kind of flux collection system, can be right
Solder flux separation and screening, can be improved recovery efficiency.
The utility model is as follows using technical solution: a kind of flux collection system, including the recycling storage with collecting action
Charging basket, screening machine and the Flux Recovery Unit being connected to by communicating pipe with recycling storage vat, a connecting tube one end and recycling storing
Bucket connection, the other end can produce negative pressure close to solder flux to be recycled, the Flux Recovery Unit, solder flux to be recycled taken out via connecting tube
It is drawn in recycling storage vat;The screening machine is located at below recycling storage vat, recycles what storage vat was fallen for accepting and screening
Solder flux to be recycled, to obtain clean solder flux.
The negative pressure that Flux Recovery Unit generates provides suction force, and the solder flux to be recycled of connecting tube one end is pumped to recycling storing
In bucket, the dust more light than solder flux is by Flux Recovery Unit suction and solder flux initial gross separation, and other impurities are by screening machine screening point
It can get clean solder flux from after.
Further, magnetic part is equipped in the screening machine, for adsorbing and separating the iron powder in solder flux to be recycled.Welding
The iron powder generated in the process can be pumped to together in recycling storage vat, and iron powder can exist as impurity if without screening,
Influence welding quality, it is necessary to screen out and, magnetic part can efficiently separate the iron powder in solder flux to be recycled.
Further, the sieve that screening machine is divided into upper layer and lower layer structure is additionally provided in the screening machine, the sieve is used
In separating the waste residue in solder flux to be recycled, the magnetic part is located in understructure, and a delivery line connects superstructure, for leading
Waste residue out;One delivery pipe connects understructure, for being sent clean solder flux.Waste residue is generally flux particle or powder through high temperature
It is formed after clinkering, size is usually bigger than solder flux size, after the screening of sieve, can obtain clean solder flux.
As an improvement the recycling storage vat, Flux Recovery Unit and screening machine are both connected on a bracket, wherein returning
Store up charging basket, Flux Recovery Unit is located at the top of bracket, screening machine be located at the lower part of bracket and be located at recycling storage vat below.It returns
It stores up charging basket, Flux Recovery Unit and screening machine to be arranged on bracket, can prevent these devices from accidentally being touched and relative position is caused to move
It is dynamic.
Further, a floor truck with idler wheel is placed on bottom surface and connects delivery pipe, manages for collecting from delivery
The clean solder flux that delivery comes out.The position of recycling storage vat, Flux Recovery Unit and screening machine is fixed to one another, and transports clean weldering
Agent is more inconvenient, can solve the problems, such as this using floor truck.
It is improved as another kind, to prevent from accidentally touching, the recycling storage vat, Flux Recovery Unit are connected on a bracket, institute
It states screening machine to be located at below recycling storage vat and be placed on ground, to be easy to remove, the screening machine is equipped with handle and idler wheel.
Further, the Flux Recovery Unit includes the air-breathing for being built-in with the accommodating chamber of filter screen and communicating with accommodating chamber
Pump, the accommodating chamber remove chalk dust removing for filtering gas, prevent dust by air-breathing close to recycling storage vat side, the filter screen
Pumping inhales and is discharged into air and pollutes environment, and the asepwirator pump provides dynamic for generating negative pressure for suction solder flux to be recycled
Power.
Further, the bottom of the recycling storage vat is taper, and lowermost end is discharge port, one end connection of an efferent duct
Discharge port, the other end are located at the top of screening machine, and solder flux to be recycled falls to screening machine from recycling storage vat via efferent duct, with
Four scatter when preventing solder flux to be recycled from falling downwards.
Further, the connecting tube is arrival end close to one end of solder flux to be recycled, and the arrival end is flared, is had
Helping solder flux to be recycled can smoothly enter into connecting tube, guarantee suction effect.
The utility model has the advantages that the negative pressure that Flux Recovery Unit generates provides suction force, by connecting tube one end
Solder flux to be recycled be pumped in recycling storage vat, the dust more light than solder flux is aspirated by Flux Recovery Unit tentatively to be divided with solder flux
From other impurities can get clean solder flux after screening machine screening separation.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of embodiment 1;
Fig. 2 is the structural schematic diagram of embodiment 2;
In figure: 1- recycles storage vat;11- discharge port;2- screening machine;21- magnetic part;22- sieve;3- Flux Recovery Unit;
31- accommodating chamber;311- filter screen;32- asepwirator pump;33- communicating pipe;4- connecting tube;41- arrival end;5- solder flux to be recycled;6- is led
Outlet pipe;7- delivery pipe;8- bracket;9- floor truck;10- efferent duct;A- idler wheel;B- handle.
Specific embodiment
Below with reference to the attached drawing of the utility model, the technical solution of the utility model embodiment is explained and illustrated,
But following embodiments are only the preferred embodiment of the utility model, and not all.Based on the implementation example in the implementation mode, this field
Technical staff's obtained other embodiments without making creative work, belong to the protection model of the utility model
It encloses.
Embodiment 1
The flux collection system of the present embodiment, as shown in Figure 1, including the recycling storage vat 1 with collecting action, screening machine
2 and by communicating pipe 33 and the Flux Recovery Unit 3 that be connected to of recycling storage vat 1,4 one end of connecting tube is connected to storage vat 1 is recycled,
The other end can produce negative pressure close to solder flux 5 to be recycled, the Flux Recovery Unit 3, and solder flux 5 to be recycled is aspirated via connecting tube 4
To recycling storage vat 1;The screening machine 2 is located at 1 lower section of recycling storage vat, falls for accepting and screening recycling storage vat 1
Solder flux to be recycled 5, to obtain clean solder flux.
It is equipped with magnetic part 21 in the screening machine 2, for adsorbing and separating the iron powder in solder flux 5 to be recycled.Welding process
The iron powder of middle generation can be pumped to together in recycling storage vat 1, and iron powder can exist as impurity if without screening, influenced
Welding quality, it is necessary to screen out and, magnetic part 21 can efficiently separate the iron powder in solder flux 5 to be recycled.
Be additionally provided in the screening machine 2 and divide screening machine 2 to sieve 22 for upper layer and lower layer structure, the sieve 22 for point
From the waste residue in solder flux 5 to be recycled, the magnetic part 21 is located in understructure, and delivery line 6 connects superstructure, for exporting
Waste residue;It is sent pipe 7 and connects understructure, for being sent clean solder flux.Waste residue is generally flux particle or powder through high temperature melting
It is formed after knot, size is usually bigger than solder flux size, after the screening of sieve 22, can obtain clean solder flux.
The recycling storage vat 1, Flux Recovery Unit 3 and screening machine 2 are both connected on bracket 8, wherein recycling storage vat 1,
Flux Recovery Unit 3 is located at the top of bracket 8, and screening machine 2 is located at the lower part of bracket 8 and is located at 1 lower section of recycling storage vat.Recycling storage
Charging basket 1, Flux Recovery Unit 3 and screening machine 2 are arranged on bracket 8, can prevent these devices from accidentally being touched and relative position is caused to move
It is dynamic.
Floor truck 9 with idler wheel A and handle B is placed on bottom surface and connects delivery pipe 7, for collecting from delivery pipe 7
The clean solder flux that delivery comes out.The position of recycling storage vat 1, Flux Recovery Unit 3 and screening machine 2 is fixed to one another, and transports cleaning
Solder flux it is more inconvenient, this can be solved the problems, such as using floor truck 9.
The Flux Recovery Unit 3 includes the air-breathing for being built-in with the accommodating chamber 31 of filter screen 311 and communicating with accommodating chamber 31
Pump 32, the accommodating chamber 31 remove chalk dust removing for filtering gas, prevent powder close to recycling 1 side of storage vat, the filter screen 311
Dirt is aspirated and be discharged into air and pollute environment by asepwirator pump 32, and the asepwirator pump 32 is for generating negative pressure, to aspirate wait return
It receives solder flux 5 and power is provided.
The bottom of the recycling storage vat 1 is taper, and lowermost end is discharge port 11, and one end of efferent duct 10 connects discharge port
11, the other end is located at the top of screening machine 2, and solder flux 5 to be recycled falls to screening machine 2 from recycling storage vat 1 via efferent duct 10,
Four scatter when preventing solder flux to be recycled from falling downwards.
The connecting tube 4 is arrival end 41 close to one end of solder flux 5 to be recycled, and the arrival end 41 is flared, is helped
It can smoothly enter into connecting tube 4 in solder flux 5 to be recycled, guarantee suction effect.
Embodiment 2
The flux collection system of the present embodiment, as shown in Fig. 2, including the recycling storage vat 1 with collecting action, screening machine
2 and with the Flux Recovery Unit 3 that be connected to of recycling storage vat 1,4 one end of connecting tube is connected to storage vat 1 is recycled, the other end it is close to
Solder flux 5 is recycled, the Flux Recovery Unit 3 can produce negative pressure, and solder flux 5 to be recycled is pumped to recycling storage vat 1 via connecting tube 4
It is interior;The screening machine 2 is located at 1 lower section of recycling storage vat, the solder flux to be recycled 5 fallen for accepting and screening recycling storage vat 1,
To obtain clean solder flux.
It is equipped with magnetic part 21 in the screening machine 2, for adsorbing and separating the iron powder in solder flux 5 to be recycled.Welding process
The iron powder of middle generation can be pumped to together in recycling storage vat 1, and iron powder can exist as impurity if without screening, influenced
Welding quality, it is necessary to screen out and, magnetic part 21 can efficiently separate the iron powder in solder flux 5 to be recycled.
Be additionally provided in the screening machine 2 and divide screening machine 2 to sieve 22 for upper layer and lower layer structure, the sieve 22 for point
From the waste residue in solder flux 5 to be recycled, the magnetic part 21 is located in understructure, and delivery line 6 connects superstructure, for exporting
Waste residue;It is sent pipe 7 and connects understructure, for being sent clean solder flux.Waste residue is generally flux particle or powder through high temperature melting
It is formed after knot, size is usually bigger than solder flux size, after the screening of sieve 22, can obtain clean solder flux.
To prevent from accidentally touching, the recycling storage vat 1, Flux Recovery Unit 3 are connected on bracket 8, and the screening machine 2 is located at back
Store up the lower section of charging basket 1 and be placed on ground, be it is easy to remove, the screening machine 2 is equipped with handle B and idler wheel A.
The Flux Recovery Unit 3 includes the air-breathing for being built-in with the accommodating chamber 31 of filter screen 311 and communicating with accommodating chamber 31
Pump 32, the accommodating chamber 31 remove chalk dust removing for filtering gas, prevent powder close to recycling 1 side of storage vat, the filter screen 311
Dirt is aspirated and be discharged into air and pollute environment by asepwirator pump 32, and the asepwirator pump 32 is for generating negative pressure, to aspirate wait return
It receives solder flux 5 and power is provided.
The bottom of the recycling storage vat 1 is taper, and lowermost end is discharge port 11, and one end of efferent duct 10 connects discharge port
11, the other end is located at the top of screening machine 2, and solder flux 5 to be recycled falls to screening machine 2 from recycling storage vat 1 via efferent duct 10,
Four scatter when preventing solder flux to be recycled from falling downwards.
The connecting tube 4 is arrival end 41 close to one end of solder flux 5 to be recycled, and the arrival end 41 is flared, is helped
It can smoothly enter into connecting tube 4 in solder flux 5 to be recycled, guarantee suction effect.
Above description is only a specific implementation of the present invention, but the protection scope of the utility model is not limited to
In this, one skilled in the art should be understood that the utility model includes but is not limited to attached drawing and specific embodiment above
Described in content.The modification of any function and structure principle without departing from the utility model is intended to be included in the model of claim
In enclosing.
Claims (9)
1. a kind of flux collection system, which is characterized in that including the recycling storage vat (1) with collecting action, screening machine (2) with
And the Flux Recovery Unit (3) being connected to by communicating pipe (33) with recycling storage vat (1), a connecting tube (4) one end and recycling storing
Bucket (1) connection, the other end can produce negative pressure close to solder flux to be recycled (5), the Flux Recovery Unit (3), by solder flux to be recycled (5)
It is pumped in recycling storage vat (1) via connecting tube (4);The screening machine (2) is located at below recycling storage vat (1), for holding
The solder flux to be recycled (5) that recycling storage vat (1) is fallen is connect and screens, to obtain clean solder flux.
2. flux collection system according to claim 1, which is characterized in that be equipped with magnetic part in the screening machine (2)
(21), for adsorbing and separating the iron powder in solder flux to be recycled (5).
3. flux collection system according to claim 2, which is characterized in that be additionally provided with and will screen in the screening machine (2)
Machine (2) is divided into the sieve (22) of upper layer and lower layer structure, and the sieve (22) is for separating solder flux and waste residue, the magnetic part (21)
In understructure, a delivery line (6) connects superstructure, for exporting waste residue;One delivery pipe (7) connects understructure,
For being sent clean solder flux.
4. flux collection system according to claim 3, which is characterized in that the recycling storage vat (1), Flux Recovery Unit
(3) it is both connected on a bracket (8) with screening machine (2), wherein recycling storage vat (1), Flux Recovery Unit (3) are located at bracket (8)
Top, screening machine (2) be located at the lower part of bracket (8) and be located at recycling storage vat (1) below.
5. flux collection system according to claim 4, which is characterized in that a floor truck (9) with idler wheel (A) is set
In on bottom surface and connect delivery pipe (7), for collects from delivery pipe (7) delivery out clean solder flux.
6. flux collection system according to claim 3, which is characterized in that the recycling storage vat (1), Flux Recovery Unit
(3) it is connected on a bracket (8), the screening machine (2) is located at below recycling storage vat (1) and is placed on ground, the screening
Machine (2) is equipped with idler wheel (A).
7. flux collection system according to claim 1, which is characterized in that the Flux Recovery Unit (3) includes being built-in with
The accommodating chamber (31) of filter screen (311) and the asepwirator pump (32) communicated with accommodating chamber (31), the accommodating chamber (31) is close to return
Charging basket (1) side is stored up, the asepwirator pump (32) is for generating negative pressure.
8. flux collection system according to claim 1, which is characterized in that the bottom of recycling storage vat (1) is cone
Shape, lowermost end are discharge port (11), and one end of an efferent duct (10) connects discharge port (11), and the other end is located at screening machine (2)
Top, solder flux (5) to be recycled fall to screening machine (2) from recycling storage vat (1) via efferent duct (10).
9. flux collection system according to claim 1, which is characterized in that the connecting tube (4) is close to solder flux to be recycled
(5) one end is arrival end (41), and the arrival end (41) is flared.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201822129380.5U CN209520467U (en) | 2018-12-18 | 2018-12-18 | A kind of flux collection system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201822129380.5U CN209520467U (en) | 2018-12-18 | 2018-12-18 | A kind of flux collection system |
Publications (1)
Publication Number | Publication Date |
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CN209520467U true CN209520467U (en) | 2019-10-22 |
Family
ID=68226698
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201822129380.5U Active CN209520467U (en) | 2018-12-18 | 2018-12-18 | A kind of flux collection system |
Country Status (1)
Country | Link |
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CN (1) | CN209520467U (en) |
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2018
- 2018-12-18 CN CN201822129380.5U patent/CN209520467U/en active Active
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