CN106076799A - Submerged arc flux secondary recovery slag agent separation frock - Google Patents

Abstract

The invention discloses a kind of submerged arc flux secondary recovery slag agent separation frock, including casing (1), it is characterized in that: the top of described casing (1) is provided with hopper (2), the bottom of described casing (1) is provided with splicing case (3)；Described splicing case (3) includes solder flux case (3.1) and welding slag case (3.2), is separated by dividing plate (4) between described solder flux case (3.1) and welding slag case (3.2)；Described hopper (2) bottom is provided with discharging opening (2.1), and described discharging opening (2.1) is positioned at described solder flux case (3.1) top；Being provided with sieving plate (5) between described discharging opening (2.1) and described solder flux case (3.1) obliquely, the landing direction of described sieving plate (5) is arranged towards welding slag case (3.2)；One end of described sieving plate (5) is positioned at immediately below described discharging opening (2.1), which overcome that the artificial screening efficiency of employing of the prior art is low and the shortcoming of labor intensive, have simple in construction, cost of labor can be saved, advantage that solder flux separation purity is high.

Description

Submerged arc flux secondary recovery slag agent separation frock

Technical field

The present invention relates to submerged arc flux segregation apparatus in a kind of steel construction industry, in particular to a kind of submerged arc flux two Secondary recovery slag agent separation frock.

Background technology

Submerged-arc welding is a kind of important welding method, and its intrinsic welding quality stable, welding production efficiency are high, without arc light And lack the advantages such as flue dust and be widely used, solder flux is submerged-arc welding indispensable welding auxiliary material, in welding process still The solder flux not melted needs recovery to reuse.Though existing submerged-arc welding is equipped with the semi-automatic recovery system of solder flux, but due to it , there is gap between welding machine positioning baffle and component in self design defect, causes part solder flux to be revealed when welding thus cause Solder flux cannot reclaim completely, and simultaneously along with the growth of welding machine service life, submerged-arc welding machine positioning baffle can deform, and solder flux is revealed Problem is more serious, and solder flux be carried out back by the solder flux general steel construction producer meeting from the standpoint of production cost leaking to ground Receive, but solder flux falls to ground and can mix with welding slag, need to be separated by welding slag solder flux, current solder flux during solder flux secondary recovery Separating with welding slag generally to use and manually sieve, i.e. one people shovels material, and a people shakes steel sieve separation makes solder flux separate with welding slag, this kind Method efficiency is low and labor intensive.

Summary of the invention

It is an object of the invention to overcome the weak point of above-mentioned background technology, and propose a kind of submerged arc flux secondary returning Receive slag agent separation frock.

Submerged arc flux secondary recovery slag agent separation frock of the present invention, including casing, the top of described casing is provided with hopper, The bottom of described casing is provided with splicing case；Described splicing case includes solder flux case and welding slag case, between described solder flux case and welding slag case Separated by dividing plate；Described feed hopper bottom is provided with discharging opening, and described discharging opening is positioned at above described solder flux case；Described discharging opening with Being provided with sieving plate between described solder flux case obliquely, the landing direction of described sieving plate is arranged towards welding slag case；Described screening One end of plate is positioned at immediately below described discharging opening, and solder flux and welding slag compound are dropped down onto on sieving plate by discharging opening output, described sieve The other end dividing plate is placed on described dividing plate；In described solder flux case, lateral inclination is provided with some magnetic stripes.Solder flux and welding slag mix Compound from hopper discharging opening output drop down onto sieving plate, sieving plate solder flux and welding slag are carried out screening separate, general welding slag Grain particle diameter is more than solder flux particle diameter, and the slot size on sieving plate is chosen as more than solder flux particle diameter less than welding slag particle diameter, short grained Solder flux directly falls to solder flux case, during oarse-grained welding slag is along sieving plate landing to welding slag case, is provided with some in solder flux case Magnetic stripe, adsorbable can be effectively improved the separation purity of solder flux by the metal welding slag of magnet adsorption.

In technique scheme: the lower section of described sieving plate is provided with sieving plate angle controller, described sieving plate angle Degree controller includes the screw rod being horizontally set in the middle part of casing and is symmetricly set on the laterally movable hole of both sides, institute in the middle part of casing The two ends stating screw rod through movable span and are fastened by nut screw connection；One end of described sieving plate leans against on described screw rod, its The other end is hinged with described dividing plate by articulated elements, and described screw rod height is higher than described dividing plate.Screw rod can be in laterally movable hole Seesaw, lean against the sieving plate on screw rod and then change the inclination angle with horizontal direction along with the movement of screw rod, sieving plate Inclination angle is the biggest, is more conducive to the separation of welding slag.

In technique scheme: described feed hopper bottom is provided with discharging switch, and described discharging switch includes horizontal at hopper The rotating handles that the baffle plate of bottom inside and drive baffle plate rotate；The width of described baffle plate is more than described discharging opening Width；Described rotating handles includes stick and connecting rod connected vertically with stick, and described stick is positioned at outside casing, One end of described connecting rod is connected through casing is fixing with the end, one end of described baffle plate.Rotating handles controls the inclination of baffle plate Degree, thus control the flow of discharging, when feeding initial, baffle plate horizontal positioned.The gradient of baffle plate is the biggest, and discharging flow is more Greatly；Described casing outside side wall is provided with fixed plate, and described fixed plate is provided with moves before and after the direction vertical with described baffle plate Dynamic movable block, described movable block is provided with and inclined-plane, and described stick leans against on the inclined-plane of described movable block.Described activity Relative motion before and after block and rotating handles work, can change the inclination angle of stick and horizontal direction, thus change the inclination of baffle plate Degree；Described magnetic stripe is 45 ° with the inclination angle of horizontal direction；

Described sieving plate is steel plate with holes or the steel plate using network；Described hopper is that inverted tetragonous cone table is tied Structure；Include the lower shoe being placed on the ground at described casing, described lower shoe catches the solder flux screened；Described Being provided with the bushing in V-shape in hopper, the angle between one end and the discharging switch of lower section of described bushing is acute angle, and It is placed with adjusting button between, between described adjusting button and described discharging switch, is provided with transverse baffle；Described screw rod Through the two ends of splicing case and be screwed；Described articulated elements is made up of upper hinge and lower hinge, described upper hinge Fitting and lower hinge are at an acute angle, and angle is between 15 degree-60, and described upper hinge touch described sieving plate and parallel sets Put；Described lower hinge touch described dividing plate and be arranged in parallel.

It is an advantage of the current invention that:

1, present configuration is simple, can be not required to manually sieve, and directly separates solder flux welding slag by sieving plate screening, and save time province Power, saves cost of labor, is provided with some magnetic stripes simultaneously in solder flux case, adsorbable can be by the metal welding slag of magnet adsorption, effectively Improve the separation purity of solder flux.

2, the present invention is provided with discharging switch in discharge outlet, can control discharging flow, improves separation efficiency.

3, the present invention is provided with sieving plate angle controller in the lower section of sieving plate, can control the gradient of sieving plate, According to the welding slag gradient that change sieving plate different from the ratio of solder flux, thus separation purity and separation efficiency can be improved.

Accompanying drawing explanation

Fig. 1 is the submerged arc flux secondary recovery slag agent separation tool structure schematic diagram of the present invention.

Fig. 2 is the left view structural representation of the submerged arc flux secondary recovery slag agent separation frock of the present invention.

Fig. 3 be the present invention submerged arc flux secondary recovery slag agent separation frock in discharging switch and sieving plate Angle ambiguity Device structural representation；

Fig. 4 be the present invention submerged arc flux secondary recovery slag agent separation frock between sieving plate and dividing plate connection knot Structure schematic diagram；

In figure: casing 1, hopper 2, discharging opening 2.1, splicing case 3, solder flux case 3.1, welding slag case 3.2, dividing plate 4, sieving plate 5, Solder flux and welding slag compound 6, magnetic stripe 7, sieving plate angle controller 8, screw rod 9, laterally movable hole 10, discharging switch 11, baffle plate 12, rotating handles 13, stick 13.1, connecting rod 13.2, fixed plate 14, movable block 15, inclined-plane 15.1, articulated elements 16.

Detailed description of the invention

Describe the performance of the present invention below in conjunction with the accompanying drawings in detail, but they are not intended that limitation of the invention, only For example, be will become clearer from easy to understand by explanation advantages of the present invention simultaneously.

With reference to shown in Fig. 1-4: submerged arc flux secondary recovery slag agent separation frock of the present invention, including casing 1, described casing The top of 1 is provided with hopper 2, and the bottom of described casing 1 is provided with splicing case 3；Described splicing case 3 includes solder flux case 3.1 and welding slag case 3.2, separated by dividing plate 4 between described solder flux case 3.1 and welding slag case 3.2；Discharging opening 2.1 it is provided with bottom described hopper 2, described Discharging opening 2.1 is positioned at above described solder flux case 3.1；Sieve it is provided with obliquely between described discharging opening 2.1 and described solder flux case 3.1 Dividing plate 5, the landing direction of described sieving plate 5 is arranged towards welding slag case 3.2；One end of described sieving plate 5 is positioned at described discharging opening Immediately below 2.1, solder flux and welding slag compound 6 are dropped down onto on sieving plate 5 by discharging opening 2.1 output, and the other end of described sieving plate 5 is put On described dividing plate 4；In described solder flux case 3.1, lateral inclination is provided with some magnetic stripes 7.

The lower section of described sieving plate 5 is provided with sieving plate angle controller 8, and described sieving plate angle controller 8 includes horizontal stroke To the screw rod 9 being arranged in the middle part of casing 1 be symmetricly set on the laterally movable hole 10 of both sides in the middle part of casing 1, described screw rod 9 Two ends through movable span 10 and are fastened by nut screw connection；One end of described sieving plate 5 leans against on described screw rod 9, its another Holding hinged with described dividing plate 4 by articulated elements 16, described screw rod 9 height is higher than described dividing plate 4.

Described feed hopper bottom is provided with discharging switch 11, and described discharging switch 11 includes the horizontal gear in hopper 2 bottom inside The rotating handles 13 that plate 12 and drive baffle plate 12 rotate；The width of described baffle plate 12 is more than the width of described discharging opening 2.1 Degree；Described rotating handles 13 includes stick 13.1 and connecting rod connected vertically with stick 13.1 13.2, described stick 13.1 are positioned at outside casing 1, and one end of described connecting rod 13.2 connects through casing 1 is fixing with the end, one end of described baffle plate 12 Connect.

Described casing 1 outside side wall is provided with fixed plate 14, and described fixed plate 14 is provided with along vertical with described baffle plate 12 The movable movable block 15 in direction, described movable block 15 is provided with and inclined-plane 15.1, and described stick 13.1 leans against institute State on the inclined-plane 15.1 of movable block 15；Described magnetic stripe 7 is 45 ° with the angle of horizontal direction；Described sieving plate 5 is steel plate with holes Or use the steel plate of network；Described hopper 2 is in inverted tetragonous cone table structure.

Include the lower shoe 7 being placed on the ground at described casing 1, described lower shoe 7 catches the solder flux screened； The bushing 19 in V-shape it is provided with, between one end and the discharging switch 11 of lower section of described bushing 19 in described hopper 2 Angle be acute angle, and between be placed with adjusting button 18, arrange between described adjusting button 18 and described discharging switch 11 There is transverse baffle 20；Described screw rod 9 through the two ends of splicing case 3 and is fixed with screw 21；Described articulated elements 16 is by upper hinge Fitting 22 and lower hinge 23 form, and described upper hinge 22 and lower hinge 23 are at an acute angle, and angle is between 15 degree-60, Described upper hinge 22 touch described sieving plate 5 and be arranged in parallel；Described lower hinge 23 touch described dividing plate 4 and It is arranged in parallel.

Above-mentioned unspecified part is prior art.

Claims (1)

1. a submerged arc flux secondary recovery slag agent separation frock, including casing (1), it is characterised in that: described casing (1) Top is provided with hopper (2), and the bottom of described casing (1) is provided with splicing case (3)；Described splicing case (3) include solder flux case (3.1) and Welding slag case (3.2), is separated by dividing plate (4) between described solder flux case (3.1) and welding slag case (3.2)；Described hopper (2) bottom sets Discharging opening (2.1), described discharging opening (2.1) is had to be positioned at described solder flux case (3.1) top；Described discharging opening (2.1) and described weldering Being provided with sieving plate (5) between agent case (3.1) obliquely, the landing direction of described sieving plate (5) sets towards welding slag case (3.2) Put；One end of described sieving plate (5) is positioned at immediately below described discharging opening (2.1), and solder flux and welding slag compound (6) are by discharging opening (2.1) output drops down onto on sieving plate (5), and the other end of described sieving plate (5) is placed on described dividing plate (4)；Described solder flux case (3.1) interior lateral inclination is provided with some magnetic stripes (7)；The lower section of described sieving plate (5) is provided with sieving plate angle controller (8), described sieving plate angle controller (8) includes being horizontally set at the screw rod (9) at casing (1) middle part and being symmetricly set on case Body (1) middle part both sides laterally movable hole (10), the two ends of described screw rod (9) through movable span (10) and by nut screw connection tight Gu；One end of described sieving plate (5) leans against on described screw rod (9), and its other end is by articulated elements (16) and described dividing plate (4) Hinged, described screw rod (9) height is higher than described dividing plate (4)；Described hopper (2) bottom is provided with discharging switch (11), described discharging Switch (11) includes the horizontal baffle plate (12) in hopper (2) bottom inside and the rotation handle driving baffle plate (12) to rotate Hands (13)；The width of described baffle plate (12) is more than the width of described discharging opening (2.1)；Described rotating handles (13) includes stick (13.1) and with stick (13.1) connecting rod connected vertically (13.2), described stick (13.1) be positioned at casing (1) outside, One end of described connecting rod (13.2) is connected through casing (1) is fixing with the end, one end of described baffle plate (12)；Described casing (1) Outside side wall is provided with fixed plate (14), and described fixed plate (14) is provided with moves before and after the direction vertical with described baffle plate (12) Dynamic movable block (15), described movable block (15) is provided with and inclined-plane (15.1), and described stick (13.1) leans against described work On the inclined-plane (15.1) of motion block (15)；Described magnetic stripe (7) is 45 ° with the angle of horizontal direction；Described sieving plate (5) is with holes Steel plate or the steel plate of employing network；Described hopper (2) is in inverted tetragonous cone table structure；

Include the lower shoe (7) being placed on the ground at described casing (1), described lower shoe (7) catches the weldering screened Agent；The bushing (19) in V-shape, one end of described bushing (19) and the discharging of lower section it is provided with in described hopper (2) Switch (11) between angle be acute angle, and between be placed with adjusting button (18), described adjusting button (18) goes out with described It is provided with transverse baffle (20) between material switch (11)；Described screw rod (9) is through the two ends of splicing case (3) and with screw (21) Fixing；Described articulated elements (16) is made up of upper hinge (22) and lower hinge (23), described upper hinge (22) and under Articulated elements (23) is at an acute angle, and angle is between 15 degree-60, and described upper hinge (22) touch described sieving plate (5) and puts down Row is arranged；Described lower hinge (23) touch described dividing plate (4) and be arranged in parallel.