CN113262914A - Welding rod manufacturing is with welding flux auxiliary assembly that prevents that welding flux from blockking up drippage in coating process - Google Patents

Abstract

The invention relates to the technical field of welding rod manufacture, and discloses auxiliary equipment for preventing welding flux from blocking and dripping in the coating process of the welding flux for manufacturing a welding rod, which comprises a feeding cavity, the bottom of the feeding cavity is movably connected with a partition plate, the right side of the partition plate is movably connected with a rotating shaft, the outside of the rotating shaft is movably connected with a cutting coil, the outside of the cutting coil is movably connected with a rotating fan blade, the left side of the rotating fan blade is movably connected with a magnetic plate, the left side of the magnetic plate is movably connected with a connecting circuit, the mechanical driving rotating fan blade which can convert part of kinetic energy of the welding flux powder into the rotating fan blade rotates, the rotating fan blade rotates to drive the cutting coil to cut the magnetic induction lines between the magnetic plates to generate induction current, so that the electrified magnet generates magnetism when being electrified, thereby drive and strike the pole motion, drive simultaneously and strike the piece and strike the division board to make the welding flux more solid effect when having reached the coating in-process and preventing that the welding flux from blockking up.

Description

Welding rod manufacturing is with welding flux auxiliary assembly that prevents that welding flux from blockking up drippage in coating process

Technical Field

The invention relates to the technical field of welding rod manufacturing, in particular to auxiliary equipment for preventing welding flux from blocking and dripping in a coating process of welding flux for manufacturing a welding rod.

Background

Machining is always an essential machining mode in people's life, welding machining can connect two or more independent individuals into a whole in need in machining, and machining is an extremely important machining mode in welding.

The welding rod can not be separated in the welding process, the welding rod consists of a core wire and welding flux, the welding rod can be obtained after the welding rod is uniformly coated on the surface of the core wire and is heated and dried in the production process, the traditional welding rod manufacturing equipment often has the condition that the welding flux is blocked when the welding flux is coated, so that the production efficiency of the welding rod is influenced, meanwhile, part of the welding flux is dripped from a gun head after the coating is finished in the coating process of the welding flux, and the waste of resources is caused.

Therefore, in view of the above, research and improvement are made for the existing structure and defects, and an auxiliary device for preventing the welding flux from blocking and dripping in the coating process of the welding flux for manufacturing the welding rod is provided, so as to achieve the purpose of higher practical value.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides auxiliary equipment for preventing welding flux blockage from dripping in the welding flux coating process for manufacturing a welding rod, which has the advantages of preventing the welding flux from being blocked in the coating process, simultaneously enabling the welding flux to be more solidified, automatically recovering excessive welding flux to prevent the welding flux from falling to cause resource waste, and solving the problems that the welding flux is blocked in the production of the traditional welding rod, and the excessive welding flux drips after the coating is finished to cause resource waste.

(II) technical scheme

In order to realize the purposes of preventing welding flux from blocking in the coating process, simultaneously leading the welding flux to be more solidified, automatically recovering excessive welding flux and preventing the welding flux from falling to cause resource waste, the invention provides the following technical scheme: an auxiliary device for preventing welding flux from blocking and dripping in the welding flux coating process for manufacturing a welding rod comprises a feeding cavity, wherein the bottom of the feeding cavity is movably connected with a partition plate, the right side of the partition plate is movably connected with a rotating shaft, the outside of the rotating shaft is movably connected with a cutting coil, the outside of the cutting coil is movably connected with a rotating fan blade, the left side of the rotating fan blade is movably connected with a magnetic plate, the left side of the magnetic plate is movably connected with a connecting circuit, the left side of the connecting circuit is movably connected with an electrified magnet, the top of the electrified magnet is movably connected with an extension spring, the top of the extension spring is movably connected with a transmission seat, the inside of the transmission seat is movably connected with a transmission magnet, the top of the transmission seat is movably connected with a knocking rod, the right side of the transmission seat is movably connected with a push rod, the top of the push rod is movably connected with a push block, the right side of the push block is movably connected with a buffer spring, the electromagnetic valve is characterized in that the right side of the buffer spring is movably connected with a knocking block, the bottom of the electrified magnet is movably connected with a negative pressure spring, the bottom of the negative pressure spring is movably connected with a negative pressure rod, the bottom of the negative pressure rod is movably connected with a negative pressure piston, and the bottom of the negative pressure piston is movably connected with a negative pressure cavity.

Preferably, the diameter of the negative pressure piston is consistent with that of the inner wall of the negative pressure cavity, and the negative pressure piston is connected with the negative pressure cavity in a sliding mode.

Preferably, the negative pressure rod is made of a magnetic material, and the magnetism of the top of the negative pressure rod is the same as the magnetism generated when the electrified magnet is electrified.

Preferably, the magnetism of the end of the transmission magnet close to the electrified magnet is the same as the magnetism generated when the electrified magnet is electrified.

Preferably, the central axis of the knocking rod is collinear with the central axes of the extension spring, the transmission seat and the transmission magnet.

Preferably, the number of the magnetic plates is two, and the magnetic plates are symmetrically distributed on the left side and the right side of the rotating fan blade.

(III) advantageous effects

Compared with the prior art, the invention provides auxiliary equipment for preventing the welding flux from blocking and dripping in the coating process of the welding flux for manufacturing the welding rod, which has the following beneficial effects:

1. the auxiliary device for preventing the welding flux from blocking and dripping in the welding flux coating process for manufacturing the welding rod is characterized in that the welding flux powder after being processed flows through the rotating fan blade through the feeding cavity and then is sprayed out, partial kinetic energy of the welding flux powder is converted into mechanical energy of the rotating fan blade in the process of flowing through the rotating fan blade so as to drive the rotating fan blade to rotate, the rotating fan blade rotates to drive the rotating shaft to rotate, the rotating shaft rotates to drive the cutting coil to rotate to cut magnetic induction lines between the magnetic plates so as to generate induction current, the current flows into the energized magnet through the connecting circuit so as to enable the energized magnet to generate magnetism in the energized operation, the driving magnet receives repulsive force from the energized magnet at the moment, the repulsive force acts on the extension spring through the driving seat, the extension spring is stretched to drive the knocking rod to move after being deformed, the knocking rod can knock the partition plate, and the driving rod can move while the driving seat moves, the push rod motion can be exerted for a horizontal thrust of ejector pad, and this thrust is acted on buffer spring through the ejector pad to final compression buffer spring makes it take place to drive after deformation and strikes the piece and strike the division board, strikes the pole, strikes the piece and strikes under, the division board can produce vibrations, vibrations are in the division board conduction to welding flux, thereby has reached the coating in-process and has prevented that the welding flux from blockking up and make the effect that the welding flux is more consolidated.

2. This welding rod manufacturing is with welding flux auxiliary assembly that welding flux blockked up drippage in coating process, kinetic energy through welding flux can be converted into the mechanical energy that rotates the fan blade when coating thereby drive the cutting coil and rotate the magnetic induction line between the cutting magnetic sheet and produce the induced-current, the current flows in the circular telegram magnet makes circular telegram magnet circular telegram produce magnetism, negative pressure pole can receive the repulsion that comes from circular telegram magnet this moment, this repulsion acts on negative pressure spring through the negative pressure pole, thereby drive the motion of negative pressure piston after drawing negative pressure spring and making it take place deformation, thereby make the space of negative pressure intracavity reduce, after welding flux coating is accomplished, cutting coil no longer rotates this moment, so the magnetic force of circular telegram magnet disappears, thereby make the motion of negative pressure piston of negative pressure spring rebound drive negative pressure piston, negative pressure piston motion can make the inner space increase of negative pressure intracavity form the negative pressure, this negative pressure acts on incomplete coating welding flux, the welding flux is adsorbed into the negative pressure cavity and sprayed out when the next coating is carried out, so that the effect of automatically recycling excessive welding flux and preventing the welding flux from falling to cause resource waste is achieved.

Drawings

FIG. 1 is a schematic structural view of a feeding chamber according to the present invention;

FIG. 2 is a schematic view of a divider plate configuration according to the present invention;

FIG. 3 is a schematic view of the structure of the extension spring of the present invention;

FIG. 4 is a schematic view of the negative pressure piston of the present invention;

FIG. 5 is a schematic view of the structure of the energized magnet of the present invention.

In the figure: 1. a feeding cavity; 2. a partition plate; 3. a rotating shaft; 4. cutting the coil; 5. rotating the fan blade; 6. a magnetic plate; 7. connecting a line; 8. energizing a magnet; 9. an extension spring; 10. a transmission seat; 11. a drive magnet; 12. a knock bar; 13. a push rod; 14. a push block; 15. a buffer spring; 16. knocking the block; 17. a negative pressure spring; 18. a negative pressure lever; 19. a negative pressure piston; 20. a negative pressure chamber.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, an auxiliary device for preventing clogging and dripping of flux during flux coating process for manufacturing welding rod comprises a feeding cavity 1, a division plate 2 movably connected to the bottom of the feeding cavity 1, a rotation shaft 3 movably connected to the right side of the division plate 2, a cutting coil 4 movably connected to the outside of the rotation shaft 3, a rotation fan 5 movably connected to the outside of the cutting coil 4, two magnetic plates 6 movably connected to the left side of the rotation fan 5, the two magnetic plates 6 symmetrically distributed on the left and right sides of the rotation fan 5, a connection circuit 7 movably connected to the left side of the magnetic plate 6, a power-on magnet 8 movably connected to the left side of the connection circuit 7, a tension spring 9 movably connected to the top of the power-on magnet 8, a transmission seat 10 movably connected to the top of the tension spring 9, a transmission magnet 11 movably connected to the inside of the transmission seat 10, the magnetism of one end of the transmission magnet 11 close to the power-on magnet 8 is the same as the magnetism generated when the power-on magnet 8 is powered on, the top of the transmission seat 10 is movably connected with a knocking rod 12, the central axis of the knocking rod 12 and the central axes of the extension spring 9, the transmission seat 10 and the transmission magnet 11 are in the same straight line, the right side of the transmission seat 10 is movably connected with a push rod 13, the top of the push rod 13 is movably connected with a push block 14, the right side of the push block 14 is movably connected with a buffer spring 15, the right side of the buffer spring 15 is movably connected with a knocking block 16, the bottom of the electrified magnet 8 is movably connected with a negative pressure spring 17, the bottom of the negative pressure spring 17 is movably connected with a negative pressure rod 18, the negative pressure rod 18 is made of magnetic materials, and the magnetism at the top of the negative pressure rod 18 is the same as that generated when the electrifying magnet 8 is electrified, the bottom of the negative pressure rod 18 is movably connected with a negative pressure piston 19, the bottom of the negative pressure piston 19 is movably connected with a negative pressure cavity 20, the diameter of the negative pressure piston 19 is the same as that of the inner wall of the negative pressure cavity 20, and the negative pressure piston 19 is in sliding connection with the negative pressure cavity 20.

The working principle is as follows: the welding flux powder after being processed flows through the rotating fan blades 5 through the feeding cavity 1 and then is sprayed out, partial kinetic energy of the welding flux powder in the process of flowing through the rotating fan blades 5 can be converted into mechanical energy of the rotating fan blades 5 so as to drive the rotating fan blades 5 to rotate, the rotating fan blades 5 rotate to drive the rotating shafts 3 to rotate, the rotating shafts 3 rotate to drive the cutting coils 4 to rotate to cut magnetic induction lines between the magnetic plates 6 so as to generate induction currents, the currents flow into the energized magnets 8 through the connecting lines 7 so as to enable the energized magnets 8 to generate magnetism in an energized operation mode, at the moment, the driving magnets 11 can receive repulsive force from the energized magnets 8, the repulsive force acts on the extension springs 9 through the driving seats 10, so that the extension springs 9 drive the knocking rods 12 to move after being deformed, the partitioning plates 2 can be knocked by the knocking rods 12, drive the motion of push rod 13 in the motion of transmission seat 10, push rod 13 motion can be exerted for horizontal thrust of ejector pad 14, this thrust is acted on buffer spring 15 through ejector pad 14, and final compression buffer spring 15 makes it take place to drive after deformation and strikes piece 16 and strike division board 2, strike pole 12, strike under 16 strikes of piece, division board 2 can produce vibrations, vibrations are conducted to the welding flux in through division board 2, thereby the effect that makes the welding flux more solid when having reached the coating in-process and preventing the welding flux jam.

This welding rod manufacturing is with welding flux auxiliary assembly that welding flux blockked up drippage in-process of coating, the kinetic energy of welding flux can be converted into the mechanical energy of rotation fan blade 5 when coating thereby drive cutting coil 4 and rotate the magnetic induction line between the cutting magnetic sheet 6 and produce induced-current, the electric current flows in the circular telegram magnet 8 makes circular telegram magnet 8 circular telegram produce magnetism, negative pressure pole 18 can receive the repulsion from circular telegram magnet 8 this moment, this repulsion acts on negative pressure spring 17 through negative pressure pole 18, thereby stretch negative pressure spring 17 and make it drive negative pressure piston 19 motion after taking place deformation, thereby make the space inside negative pressure chamber 20 reduce, after welding flux coating is accomplished, cutting coil 4 no longer rotates this moment, the magnetic force of circular telegram so magnet 8 disappears, thereby make negative pressure spring 17 kick-back and drive negative pressure piston 19 motion, negative pressure piston 19 motion can make the inner space increase of negative pressure chamber 20 thereby form the negative pressure, the negative pressure acts on the incomplete-coating welding flux, the incomplete-coating welding flux is absorbed into the negative pressure cavity 20 and is sprayed out when coating is carried out next time, and therefore the effect that the excessive welding flux is automatically recycled, and the welding flux is prevented from falling to cause resource waste is achieved.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides an auxiliary assembly that welding rod manufacturing was prevented that welding flux blocks up drippage with welding flux coating in-process, includes feeding cavity (1), its characterized in that: the feeding device is characterized in that the bottom of the feeding cavity (1) is movably connected with a partition plate (2), the right side of the partition plate (2) is movably connected with a rotating shaft (3), the outside of the rotating shaft (3) is movably connected with a cutting coil (4), the outside of the cutting coil (4) is movably connected with a rotating fan blade (5), the left side of the rotating fan blade (5) is movably connected with a magnetic plate (6), the left side of the magnetic plate (6) is movably connected with a connecting circuit (7), the left side of the connecting circuit (7) is movably connected with a power-on magnet (8), the top of the power-on magnet (8) is movably connected with an extension spring (9), the top of the extension spring (9) is movably connected with a transmission seat (10), the inside of the transmission seat (10) is movably connected with a transmission magnet (11), the top of the transmission seat (10) is movably connected with a knocking rod (12), and the right side of the transmission seat (10) is movably connected with a push rod (13), push rod (13) top swing joint has ejector pad (14), ejector pad (14) right side swing joint has buffer spring (15), buffer spring (15) right side swing joint has strikes piece (16), circular telegram magnet (8) bottom swing joint has negative pressure spring (17), negative pressure spring (17) bottom swing joint has negative pressure pole (18), negative pressure pole (18) bottom swing joint has negative pressure piston (19), negative pressure piston (19) bottom swing joint has negative pressure chamber (20).

2. The auxiliary device for preventing clogging and dripping of flux during the coating of flux for manufacturing electrode as defined in claim 1, wherein: the diameter of the negative pressure piston (19) is consistent with that of the inner wall of the negative pressure cavity (20), and the negative pressure piston (19) is in sliding connection with the negative pressure cavity (20).

3. The auxiliary device for preventing clogging and dripping of flux during the coating of flux for manufacturing electrode as defined in claim 1, wherein: the negative pressure rod (18) is made of a magnetic material, and the magnetism of the top of the negative pressure rod (18) is the same as the magnetism generated when the electrified magnet (8) is electrified.

4. The auxiliary device for preventing clogging and dripping of flux during the coating of flux for manufacturing electrode as defined in claim 1, wherein: the magnetism of one end of the transmission magnet (11) close to the electrified magnet (8) is the same as the magnetism generated when the electrified magnet (8) is electrified.

5. The auxiliary device for preventing clogging and dripping of flux during the coating of flux for manufacturing electrode as defined in claim 1, wherein: the central axis of the knocking rod (12) and the central axes of the extension spring (9), the transmission seat (10) and the transmission magnet (11) are in the same straight line.

6. The auxiliary device for preventing clogging and dripping of flux during the coating of flux for manufacturing electrode as defined in claim 1, wherein: the number of the magnetic plates (6) is two, and the magnetic plates are symmetrically distributed on the left side and the right side of the rotating fan blade (5).

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