CN103212326A - Stirring machine - Google Patents

Abstract

The invention provides a stirring machine, comprising a power assembly, a transmission assembly and a stirring assembly; wherein the transmission assembly comprises a closed transmission case, an output shaft, a drive wheel, a driven wheel and a driven wheel fixing shaft, a main transmission wheel and an auxiliary transmission wheel which are engaged with each other, are arranged in the transmission case from top to bottom, and the main transmission wheel can be driven by the power to rotate; the output shaft is fixed on the transmission case and extends out of the transmission case, and the auxiliary transmission wheel and the drive wheel are respectively arranged in and out of the transmission case and are fixed on the output shaft; the driven wheel fixing shaft is fixed on a side wall of the transmission case, and the driven wheel is fixed on the driven wheel fixing shaft and is engaged with the drive wheel; the stirring assembly comprises a main stirring shaft and an auxiliary stirring shaft which are arranged up and down, wherein the stirring vanes are respectively arranged on the main stirring shaft and the auxiliary stirring shaft; the main stirring shaft is connected to the output shaft; the auxiliary stirring shaft is connected to the driven wheel fixing shaft; and a maximum point of an engaging piece between the driven wheel and the drive wheel is lower than a minimum point of the connecting part between the output shaft and the transmission case. The stirring machine of the invention can prevent a gear from being deadly locked, and is convenient for using.

Description

A kind of mixer

Technical field

The present invention relates to a kind of mixer, especially a kind of horizontal mixer.

Background technology

In the industrial production, regular meeting relates to a kind of metal or alloy of fusion, the technology that makes itself and another kind of metal combine or adhere to.Because most metals contact with oxygen all can oxidation, as scruff (SnO and the SnO that produces in static tin stove or dynamic crest stove ₂) promptly be the modal example of burning in a kind of industry.Under hot environment, especially under melting state, the situation of metal (or alloy) oxidation can be more violent, can form one deck oxide very soon, and poly-more many more.And adhere in the technical process that combines at motlten metal and other metals, the flow circuit that motlten metal must not stop, this can aggravate oxidation rate on the one hand, means that on the other hand the oxide on top layer and a spot of oxygen can be brought to below the liquid level, i.e. liquid internal.Oxidation can take place equally in inside so.Oxide will be carried the floating liquid level of going up of good metal secretly like this, form scum silica frost.Because the generation that do not stop of scum silica frost, emersion causes the scum silica frost accumulation more and more, and is folded, more and more thicker mutually layer by layer, influence liquid level after several hours and flows, even produce excessively, pollutes danger again.The scum silica frost that is produced can not normally participate in the production process that merges, can only constantly salvage out otherwise processed.Because of after salvaging scum silica frost, liquid level is not enough, even it is not enough to produce consumption, can only ceaselessly add and replenish new raw metal.

If the scruff residue that the stanniferous amount is high is thrown away and do not utilized, can cause waste.Available technology adopting is added the method for reducing agent scruff is reduced, but need in the reduction process to stir, at present in practice process, what adopt is gear rotation dynamic formula mixer, yet this type of mixer is in whipping process, scolder and reacted mud shape thing can enter and block gear in the gear-box, cause the mixer cisco unity malfunction, and life cycle is very short.

Summary of the invention

In whipping process, easily blocked and cause the problem that normally to use for overcoming mixer of the prior art by dirts such as scruffs, the invention provides a kind of mixer, this mixer can effectively be avoided the influence of scruff to stirring, increases work efficiency, and easy to use.

Mixer disclosed by the invention comprises Power Component, transmission component and the mixing component that connects in turn; Described transmission component comprises closed transmission case, output shaft, driving wheel, driven pulley and driven pulley fixed axis, be provided with intermeshing main driving wheel and auxiliary driving wheel in the described transmission case from top to bottom, described main driving wheel can rotate under the driving of Power Component; Described output shaft is fixed on the transmission case, and the side away from Power Component is extended transmission case on transmission case, described auxiliary driving wheel and driving wheel all be fixed on the output shaft and lay respectively in the transmission case and transmission case outside; Described driven pulley fixed axis is fixed on the transmission case sidewall, and described driven pulley is fixed on the driven pulley fixed axis and with driving wheel and is meshing with each other; Described mixing component comprises main shaft and at least one the secondary shaft of arranging from top to bottom, is provided with stirring vane on described main shaft and the secondary shaft; Described main shaft is fixedly attached to output shaft; Described secondary shaft is fixedly attached to the driven pulley fixed axis; The engaging piece of described driven pulley and driving wheel is lower than the minimum point of described output shaft and transmission case junction.

The present invention is by being arranged at main driving wheel and auxiliary driving wheel in the closed transmission case, be connected to transmission case outer driving wheel and driven pulley by output shaft, when stirring, make the liquid level of fusion welding be higher than the engaging piece of driven pulley and driving wheel, be lower than the minimum point of output shaft and transmission case junction.

Among the present invention, above-mentioned engaging piece and output shaft about driven pulley and driving wheel, when comparing its height, concrete standard relatively all is defined as the peak of engaging piece and the minimum point of output shaft and transmission case junction.For example, the engaging piece of described driven pulley and driving wheel is lower than the minimum point of described output shaft and transmission case junction, and the peak that promptly is expressed as the engaging piece of described driven pulley and driving wheel is lower than the minimum point of described output shaft and transmission case junction.

Under the particular condition, output shaft is multidiameter or the diminished shaft that cross section changes, and all can use among the present invention, and the peak that the minimum point of a need output shaft and transmission case junction is higher than the engaging piece of driving wheel and driven pulley gets final product.For example, when output shaft is a multidiameter, the cross section of itself and transmission case junction is less than the cross section of driving wheel bearing, at this moment, be lower than at the peak of the engaging piece of driving wheel and driven pulley under the prerequisite of minimum point of output shaft and transmission case junction, can make the minimum point of driving wheel bearing on the output shaft be lower than the peak of the engaging piece of driving wheel and driven pulley.

Usually, above-mentioned stirring means is for to place weldpool with mixer, the fusion welding liquid level is a horizontal plane, for ease of stirring, main shaft and secondary shaft all are in level, among the present invention, when relatively height concerns between the minimum point of engaging piece, output shaft and the transmission case junction of fusion welding liquid level, driving wheel and driven pulley, all based on above-mentioned normal operating condition.

Because the engaging piece of driven pulley and driving wheel is immersed in the fusion welding, can not produce stuck phenomenon, simultaneously, output shaft is higher than the fusion welding liquid level, and fusion welding can not enter transmission case, and then has avoided main driving wheel and auxiliary driving wheel in the transmission case to be stuck.

In the said structure, the mode that the realization main driving wheel can rotate under the driving of Power Component has a variety of, and for example, described transmission component also comprises power shaft, and described power shaft is arranged on the transmission case, and extends transmission case, is connected with Power Component; Described main driving wheel is arranged on the power shaft.

More specifically, described Power Component comprises motor body and inserts the machine shaft of electrode body that described machine shaft is fixedlyed connected by first shaft coupling with power shaft.

According to the present invention, above-mentioned described output shaft is that one or output shaft are fixedlyed connected by second shaft coupling with main shaft with main shaft.When output shaft and main shaft were one, promptly main shaft was connected directly to the auxiliary driving wheel, and driving wheel is fixed on this main shaft.

Equally, described driven pulley fixed axis is that one or driven pulley fixed axis are fixedlyed connected by the 3rd shaft coupling with secondary shaft with secondary shaft.Identical, when driven pulley fixed axis and secondary shaft one, secondary shaft is connected directly on the transmission case sidewall, and driven pulley is fixed on the secondary shaft.

Further, be provided with two stop nuts on described main shaft and the secondary shaft, a plurality of stirring vanes are equally spaced to be arranged between two stop nuts.

Further, described transmission case is away from also being fixed with first reference column and second reference column on the sidewall of Power Component; Described output shaft runs through first reference column; Described driven pulley fixed axis is fixed on second reference column.

Further, described output shaft is positioned at driven pulley fixed axis oblique upper.Corresponding, described main shaft is positioned at secondary shaft oblique upper.

Above-mentioned oblique upper is defined as, and in the vertical direction, output shaft are positioned at driven pulley fixed axis top; In the horizontal direction, output shaft is positioned at driven pulley fixed axis the place ahead or rear.

The problem that gear was stuck when the mixer with said structure can effectively prevent to stir in fusion welding can adopt various structures for its installation, without limits, for example adopts hoisting structure that it is installed.Among the present invention, further, described mixer also comprises supporting component, and described supporting component comprises gripper shoe and connecting plate; Described main shaft and secondary shaft all are fixedly attached to described gripper shoe away from an end of transmission case, and described connecting plate is fixedlyed connected with the bottom of transmission case and the bottom of gripper shoe.

Further, for the ease of dismounting and maintenance, described gripper shoe is provided with first minor axis and second minor axis, and described first minor axis is fixedlyed connected with main shaft by the tetrad axial organ; Second minor axis is fixedlyed connected by the 5-linked axial organ with secondary shaft.

Further, installation and use for the ease of mixer, described supporting component also comprises first support and first limiting plate, and described first support, one end is fixed in the sidewall upper of transmission case near Power Component one side, and the other end is fixedlyed connected with first limiting plate upper end; Described Power Component is fixedly attached on first limiting plate side away from first support.

Further, described supporting component also comprises second support and second limiting plate, and described second support is fixed on the gripper shoe away from the sidewall upper of mixing component one side, and described second limiting plate is fixed on second support away from an end of transmission case and extends downwards.

Further, for the ease of follow-up collection and processing to scum silica frost, under the preferable case, described mixer also comprises collection assembly, and described collection assembly comprises collects box body and filter, and described filter is arranged to be collected in the box body, formation is the bottom with the filter, to collect box body is sidewall, open-topped collecting region, and have a plurality of filtering holes on the filter; Described collection box body is fixedlyed connected with gripper shoe with transmission case, and offers the slag input hole on the close one side of main shaft of collection box body, and described slag input hole is higher than filter, is lower than to collect the box body top edge.

Further, for the ease of using, described filter one end extends the collection box body, forms handle.In the time of need clearing up the scum silica frost that collection obtains, can use this handle that filter is taken out, and then remove the scum silica frost of collecting.

Further, in order to prevent the influence of the buoyancy that filter is subjected in fusion welding, under the preferable case, be fixed with setscrew nut on the described collection box body, described setscrew nut position is higher than filter, is lower than described slag input hole.Promptly filter is positioned the slag input hole extremely down, is convenient to collect scum silica frost by this setscrew nut.

Further, described slag input hole is strip in the horizontal direction.Further, has a plurality of slag inputs hole that is arranged in order from top to bottom on the described slag-overflowing plate.By a plurality of slag inputs hole that is arranged above and below, can improve collection efficiency greatly to scum silica frost, avoid the bulk scum silica frost to enter collecting region simultaneously.

Further, the edge of described slag input Kongzui below is higher than the engaging piece of driving wheel and driven pulley, is lower than the minimum point of output shaft and transmission case junction.In use, make liquid level be positioned at the edge of slag input Kongzui below, as previously mentioned, can effectively avoid driving wheel and driven pulley in rotary course, to be stuck on the one hand, improved the service efficiency of equipment; On the other hand, can carry out effective collection to scum silica frost.

More preferably structure as mixer disclosed by the invention the invention discloses a kind of mixer, comprises Power Component, transmission component, mixing component and supporting component; Described Power Component comprises motor body and inserts the machine shaft of electrode body; Described transmission component comprises transmission case, output shaft, driving wheel, driven pulley and the driven pulley fixed axis of power shaft, closure; Described mixing component comprises main shaft and at least one the secondary shaft of arranging from top to bottom, and described main shaft is positioned at secondary shaft oblique upper, is provided with stirring vane on described main shaft and the secondary shaft; Described supporting component comprises gripper shoe, connecting plate, first support, first limiting plate, second support, second limiting plate; Described first support, one end is fixed in the sidewall upper of transmission case, and the other end is fixedlyed connected with first limiting plate, and described motor body is arranged on first limiting plate side away from first support; Described power shaft is arranged on the transmission case, fixedlys connected by first shaft coupling with machine shaft; Be provided with intermeshing main driving wheel and auxiliary driving wheel in the described transmission case from top to bottom, described main driving wheel is arranged on the power shaft; Described transmission case is away from also being fixed with first reference column and second reference column on the sidewall of motor body; Described output shaft is fixed on the transmission case, and extends first reference column of transmission case and transmission case side, described auxiliary driving wheel and driving wheel all be fixed on the output shaft and lay respectively in the transmission case and transmission case outside; Described driven pulley fixed axis is fixed on second reference column on the transmission case sidewall, and described driven pulley is fixed on the driven pulley fixed axis and with driving wheel and is meshing with each other; Described connecting plate one end is fixed in the transmission case bottom, and the other end is fixedlyed connected with the gripper shoe bottom; Described gripper shoe is provided with first minor axis and second minor axis, and described main shaft one end is fixedlyed connected by second shaft coupling with the output shaft that passes first reference column, and the other end is fixedlyed connected by the tetrad axial organ with first minor axis; Described secondary shaft one end is fixedlyed connected by the 3rd shaft coupling with the driven pulley fixed axis on being fixed in second reference column, and the other end is fixedlyed connected by the 5-linked axial organ with second minor axis; Be provided with two stop nuts on described main shaft and the secondary shaft, a plurality of stirring vanes are equally spaced to be arranged between two stop nuts; Described second support is fixed in the side wall upper part of gripper shoe away from mixing component one side, and described second limiting plate is fixed on second support away from an end of transmission case and extension downwards.

Further, described mixer also comprises collection assembly, and described collection assembly comprises collects box body and filter, described filter is arranged to be collected in the box body, and forming with the slag-overflowing plate is the bottom, is sidewall with the box body, open-topped collecting region, and have a plurality of filtering holes on the filter; Described collection box body is fixedlyed connected with gripper shoe with transmission case, and offers the slag input hole on the close one side of main shaft of collection box body, and described slag input hole is higher than filter, is lower than to collect the box body top edge.

In the said structure, described collection box body can for example can be formed by connecting by welding or bolt for multiple, also can be one-body molded, and among the present invention, further, described collection box body comprises coaming plate and the slag-overflowing plate that is mutually permanently connected; Described slag input hole is arranged on the slag-overflowing plate.More specifically, above-mentioned slag-overflowing plate is dull and stereotyped, and coaming plate and slag-overflowing plate are fixed, and formation both ends open, cross section are that the column of rectangle is collected box body.Concrete, in the said structure, when cylindrical shell is made of coaming plate and slag-overflowing plate, fixedly connected simultaneously with gripper shoe with transmission case by slag-overflowing plate.

By said structure, can prevent effectively that on the one hand gear (comprising driving wheel, driven pulley and main driving wheel and auxiliary driving wheel) is stuck, and simultaneously, can effectively collect the scum silica frost that produces in whipping process.Especially, in weldpool, when using jointly in conjunction with reducing agent, reducing agent can be broken up the bulk scum silica frost that forms, reduce, and forms the fritter scum silica frost, and the fritter scum silica frost is under the driving of mixing component, flow to collection assembly,, enter the collecting region of collection assembly by the slag input hole.And bulk scum silica frost (the tin material is contained in inside) can be stopped by the slag input hole, still stays in the weldpool, is reduced the agent reduction.At this moment, collection assembly can be avoided not collecting reducing completely scum silica frost, has improved the utilization rate of tin material, and the scum silica frost of collecting in the collection assembly is assembled in collecting region simultaneously, can not spread apart again, has improved the efficient of collecting.When needs remove removing dross, directly filter is taken out by handle, scum silica frost can be removed.

Description of drawings

Fig. 1 is the stereogram of first kind of embodiment of mixer provided by the invention.

Fig. 2 is the vertical view of first kind of embodiment of mixer provided by the invention.

Fig. 3 be among Fig. 2 A-A to cutaway view.

Fig. 4 is an A place enlarged drawing among Fig. 3.

Fig. 5 is a B place enlarged drawing among Fig. 3.

Fig. 6 is the stereogram of second kind of embodiment of mixer provided by the invention.

Fig. 7 is the proceeds posterolateral stereogram of second kind of embodiment of mixer provided by the invention.

Wherein, 11, motor body; 12, machine shaft; 21, transmission case; 22, main driving wheel; 23, auxiliary driving wheel; 24, output shaft; 25, first reference column; 26, driving wheel; 27, driven pulley; 28, power shaft; 29, driven pulley fixed axis; 31, main shaft; 32, secondary shaft; 33, stirring vane; 34, stop nut; 41, first support; 42, first limiting plate; 43, gripper shoe; 44, second support; 45, second limiting plate; 46, connecting plate; 5, deflector; 61, first shaft coupling; 62, second shaft coupling; 63, the 3rd shaft coupling; 64, tetrad axial organ; 65,5-linked axial organ; 71, first minor axis; 72, second minor axis; 81, slag-overflowing plate; 811, slag input hole; 82, coaming plate; 91, filter; 911, filtering holes; 92, handle.

The specific embodiment

In order to make technical problem solved by the invention, technical scheme and beneficial effect clearer,, the present invention is further elaborated below in conjunction with drawings and Examples.Should be appreciated that specific embodiment described herein only in order to explanation the present invention, and be not used in qualification the present invention.

Show first kind of embodiment of mixer disclosed by the invention referring to Fig. 1-Fig. 5, comprise Power Component, transmission component, mixing component and supporting component.

Power Component comprises motor body 11 and machine shaft 12.

Transmission component comprises transmission case 21, output shaft 24, driven pulley fixed axis 29, driving wheel 26, driven pulley 27, first reference column 25, second reference column of power shaft 28, closure.

Mixing component comprises main shaft 31 and the secondary shaft 32 that is arranged above and below, and is fixed in the stirring vane 33 on main shaft 31 and the secondary shaft 32 simultaneously.

Supporting component comprises first support 41, first limiting plate 42, second support 44, second limiting plate 45.

See Fig. 4 (amplify for A place among Fig. 3, above-below direction is opposite with Fig. 1 direction) for details, be fixed with first reference column 25 and second reference column on transmission case 21 sidewalls, first reference column 25 is arranged in the second reference column oblique upper (Fig. 4 is oblique below).

Have intermeshing main driving wheel 22 and auxiliary driving wheel 23 in the transmission case 21, main driving wheel 22 is fixed on the power shaft 28, and auxiliary driving wheel 23 is fixed on the output shaft 24.Power shaft 28 is fixed on the transmission case 21 and from a side of transmission case 21 and extends transmission case 21, is connected to Power Component.Output shaft 24 is fixed on the transmission case 21, extends transmission case 21 and runs through first reference column 25 on transmission case 21 sidewalls from the opposite side of transmission case 21.Driving wheel 26 is fixed on the output shaft 24.

Driven pulley fixed axis 29 is fixed on second reference column, and output shaft 24 is arranged in driven pulley fixed axis 29 oblique uppers (Fig. 4 is oblique below).Be fixed with driven pulley 27 on the driven pulley fixed axis 29.Driven pulley 27 and driving wheel 26 engagements.

Output shaft 24 is fixedlyed connected by second shaft coupling 62 with main shaft 31, and driven pulley fixed axis 29 is fixedlyed connected by the 3rd shaft coupling 63 with secondary shaft 32.Same effect can also be designed to one with output shaft 24 and main shaft 31, and driven pulley fixed axis 29 also can be designed as one with secondary shaft 32.

Output shaft 24 is arranged in driven pulley fixed axis 29 oblique uppers (Fig. 4 is oblique below), and the main shaft 31 of fixedlying connected with output shaft 24 is arranged in the oblique upper (Fig. 4 is oblique below) of the secondary shaft 32 of fixedlying connected with driven pulley fixed axis 29.

See Fig. 3 for details, power shaft 28 is fixedlyed connected with machine shaft 12 by first shaft coupling 61.Transmission case 21 is fixedlyed connected with an end of first support 41 near the side wall upper part (being the bottom among Fig. 3) of motor body 11 1 sides, and the other end of first support 41 is fixedly attached to the upper end (being the lower end among Fig. 3) of first limiting plate 42.Motor body 11 is fixed on the sidewall of first limiting plate 42, and the motor body 11 and first support 41 lay respectively at the both sides of first limiting plate 42.

All be fixed with two stop nuts 34 on main shaft 31 and the secondary shaft 32 separately, stirring vane 33 is arranged between the stop nut 34.

Fixedly connected with an end of connecting plate 46 in transmission case 21 lower ends (being the upper end among Fig. 3), the other end of connecting plate 46 is fixedlyed connected (among Fig. 3 for upper end) with the lower end of gripper shoe 43.

See Fig. 5 (amplify for B place among Fig. 3, above-below direction is opposite with Fig. 1 direction) for details, be fixed with the oblique upper (Fig. 5 is oblique below) that first minor axis 71 and second minor axis, 72, the first minor axises 71 are arranged in second minor axis 72 on the gripper shoe 43.First minor axis 71 is fixedlyed connected with main shaft 31 by tetrad axial organ 64, and second minor axis 72 is fixedlyed connected with secondary shaft 32 by 5-linked axial organ 65.

Get back to Fig. 3, gripper shoe 43 tops (being the bottom among Fig. 3) fixedlys connected with an end of second support 44, and the other end of second support 44 is fixedlyed connected with the upper end (being the lower end among Fig. 3) of second limiting plate 45.

Get back to Fig. 1 and Fig. 2, all be fixed with deflector 5 on transmission case 21 and gripper shoe 43 sides.Two deflectors 5 on transmission case 21 and the gripper shoe 43 form " splayed " structures, and the narrower end of its opening is towards secondary shaft 32.

Fig. 6 and Fig. 7 show second kind of embodiment of mixer disclosed by the invention, comprise Power Component, transmission component, mixing component, supporting component and collection assembly.

Wherein, the structure of Power Component, transmission component, mixing component, supporting component and connected mode are shown identical with first kind of embodiment, do not repeat them here.

Collection assembly comprises collects box body and filter 91.Collect box body and comprise coaming plate 82 and the slag-overflowing plate 81 that is mutually permanently connected.

Described slag-overflowing plate 81 is a platy structure, offers slag input hole 811 on the slag-overflowing plate 81, as the inlet of scum silica frost.Slag input hole 811 can be provided with a plurality of, and as shown in Figure 6 and Figure 7, slag input hole 811 has two.

Described coaming plate 82 is the semi-surrounding structure, and coaming plate 82 is fixedlyed connected with slag-overflowing plate 81, and the tubular structure of closure, both ends open is promptly collected box body around forming.Slag-overflowing plate 81 and coaming plate 82 are separately as a part of collecting box side wall.

Filter 91 is arranged in the tubular structure (collection box body) that coaming plate 82 and slag-overflowing plate 81 surround, and filter 91 is connected with slag-overflowing plate 81 with coaming plate 82 simultaneously, and formation is the bottom with filter 91, is sidewall with coaming plate 82 and slag-overflowing plate 81, open-topped collecting region.

Offer filtering holes 911 on the filter 91, be used for scolder is fallen from the collecting region inner filtration, scum silica frost is stayed in the collecting region.As shown in Figure 6 and Figure 7, filtering holes 911 has a plurality of.

See Fig. 7 for details, described slag input hole 811 is higher than filter 91, is lower than coaming plate 82 top edges, is convenient to scum silica frost and enters collecting region from slag input hole 811.

Simultaneously, slag-overflowing plate 81 is provided with the setscrew nut (not shown), is used to locate the position of filter 91, prevents that filter 91 is hiked up by buoyancy in liquid level.Concrete, the setscrew nut position is higher than filter 91, is lower than slag input hole 811.By setscrew nut filter 91 is fixed under the slag input hole 811.

In addition, an end of filter 91 extends to outside the collecting region, forms handle 92.Handle 92 positions are higher than coaming plate 82.Can take out filter 91 easily by handle 92, be convenient to then the scum silica frost that filters out is removed.

The use of above-mentioned mixer is as follows:

This mixer is set up on the weldpool sidewall, first support 41 and second support 44 are individually fixed on the relative sidewall of weldpool two, and first limiting plate 42 and second limiting plate 45 are positioned at the outside of two side, make mixing component, transmission component, deflector 5, collection assembly be positioned at weldpool.

The position of fine setting mixer is immersed in the fusion weldings driving wheel 26 and driven pulley 27, and the liquid level of fusion welding is higher than the engaging piece of driving wheel 26 and driven pulley 27 in the weldpool, is lower than the minimum point of output shaft 24 and transmission case 21 junctions.(be higher than the engaging piece of driving wheel 26 and driven pulley 27 for making the fusion welding liquid level, be lower than the minimum point of output shaft 24 and transmission case 21 junctions, driven pulley 27 below being in major part at least is immersed in the fusion welding, and the driving wheel 26 that is in the top has fraction to immerse in the fusion welding, be appreciated that, in the time of directly over driving wheel 26 is in driven pulley 27,27 of driven pulleys immerse in the fusion welding fully, and 26 of driving wheels have fraction to be immersed in the fusion welding.) and make liquid level be positioned at the lower edge in slag input hole, below 811 of slag-overflowing plate 81.Starter motor body 11, motor body 11 drive motors rotating shafts 12 are rotated, thereby driving output shaft 24 rotates, and then rotate with the fixing main shaft 31 of output shaft 24, and, the driving wheel 26 that the rotating drive of output shaft 24 is fixed on the output shaft 24 rotates, rotate with the driven pulley 27 of driving wheel 26 engagements, the driven pulley fixed axis 29 of fixedlying connected with driven pulley 27 then rotates, the rotation of the secondary shaft 32 that the rotation drive of driven pulley fixed axis 29 is fixedlyed connected with driven pulley fixed axis 29, at this moment, main shaft 31 and secondary shaft 32 all rotate, thereby make stirring vane 33 rotations of being fixed on main shaft 31 and the secondary shaft 32, drive fusion welding and flow.

By above-mentioned mixer, make the liquid level of fusion welding in the weldpool be higher than the engaging piece of driving wheel 26 and driven pulley 27, be lower than the minimum point of output shaft 24 and transmission case 21 junctions.On the one hand, the engaging piece of driving wheel 26 and driven pulley 27 is immersed in the fusion welding, can avoids driving wheel 26 and driven pulley 27 in rotation process, to be stuck, raise the efficiency.Simultaneously, main driving wheel 22 and auxiliary driving wheel 23 are positioned at closed transmission case 21, and the liquid level of fusion welding is positioned under the minimum point of output shaft 24 and transmission case 21 junctions, can't enter transmission case 21, that is, main driving wheel 22 and auxiliary driving wheel 23 stuck phenomenon can not occur.On the other hand, this mixer can carry out effective collection to scum silica frost.

According to the present invention, when above-mentioned mixer in weldpool, when using simultaneously with reducing agent, reducing agent can be broken up the bulk scum silica frost that forms, reduce, and forms the fritter scum silica frost, and the fritter scum silica frost is under the driving of mixer, flow to collection assembly,, enter the collecting region of collection assembly by slag input hole 811.And bulk scum silica frost (the tin material is contained in inside) can be stopped by slag input hole 811, still stays in the weldpool, is reduced the agent reduction.At this moment, collection assembly can be avoided not collecting reducing completely scum silica frost, has improved the utilization rate of tin material, and the scum silica frost of collecting in the collection assembly is assembled in collecting region simultaneously, can not spread apart again, has improved the efficient of collecting.When needs remove removing dross, directly filter 91 is taken out by handle 92, scum silica frost can be removed.Easy to operate.

The above only is preferred embodiment of the present invention, not in order to restriction the present invention, all any modifications of being done within the spirit and principles in the present invention, is equal to and replaces and improvement etc., all should be included within protection scope of the present invention.

Claims (18)

1. a mixer is characterized in that, comprises the Power Component, transmission component and the mixing component that connect in turn;

Described transmission component comprises closed transmission case, output shaft, driving wheel, driven pulley and driven pulley fixed axis, be provided with intermeshing main driving wheel and auxiliary driving wheel in the described transmission case from top to bottom, described main driving wheel can rotate under the driving of Power Component; Described output shaft is fixed on the transmission case, and the side away from Power Component is extended transmission case on transmission case, described auxiliary driving wheel and driving wheel all be fixed on the output shaft and lay respectively in the transmission case and transmission case outside; Described driven pulley fixed axis is fixed on the transmission case sidewall, and described driven pulley is fixed on the driven pulley fixed axis and with driving wheel and is meshing with each other;

Described mixing component comprises main shaft and at least one the secondary shaft of arranging from top to bottom, is provided with stirring vane on described main shaft and the secondary shaft; Described main shaft is fixedly attached to output shaft; Described secondary shaft is fixedly attached to the driven pulley fixed axis; The engaging piece of described driven pulley and driving wheel is lower than the minimum point of described output shaft and transmission case junction.

2. mixer according to claim 1 is characterized in that described transmission component also comprises power shaft, and described power shaft is arranged on the transmission case, and extends transmission case, is connected with Power Component; Described main driving wheel is arranged on the power shaft.

3. mixer according to claim 2 is characterized in that, described Power Component comprises motor body and insert the machine shaft of electrode body that described machine shaft is fixedlyed connected by first shaft coupling with power shaft.

4. mixer according to claim 1 is characterized in that, described output shaft is that one or output shaft are fixedlyed connected by second shaft coupling with main shaft with main shaft; Described driven pulley fixed axis is that one or driven pulley fixed axis are fixedlyed connected by the 3rd shaft coupling with secondary shaft with secondary shaft.

5. mixer according to claim 1 is characterized in that, is provided with two stop nuts on described main shaft and the secondary shaft, and a plurality of stirring vanes are equally spaced to be arranged between two stop nuts.

6. mixer according to claim 1 is characterized in that, described transmission case is away from also being fixed with first reference column and second reference column on the sidewall of Power Component; Described output shaft runs through first reference column; Described driven pulley fixed axis is fixed on second reference column.

7. mixer according to claim 1 is characterized in that, described output shaft is positioned at driven pulley fixed axis oblique upper.

8. mixer according to claim 1 is characterized in that described mixer also comprises supporting component, and described supporting component comprises gripper shoe and connecting plate; Described main shaft and secondary shaft all are fixedly attached to described gripper shoe away from an end of transmission case, and described connecting plate is fixedlyed connected with the bottom of transmission case and the bottom of gripper shoe.

9. mixer according to claim 8 is characterized in that, described gripper shoe is provided with first minor axis and second minor axis, and described first minor axis is fixedlyed connected with main shaft by the tetrad axial organ; Second minor axis is fixedlyed connected by the 5-linked axial organ with secondary shaft.

10. mixer according to claim 8, it is characterized in that, described supporting component also comprises first support and first limiting plate, and described first support, one end is fixed in the sidewall upper of transmission case near Power Component one side, and the other end is fixedlyed connected with first limiting plate upper end; Described Power Component is fixedly attached on first limiting plate side away from first support.

11. any described mixer according to Claim 8-10, it is characterized in that, described supporting component also comprises second support and second limiting plate, described second support is fixed on the gripper shoe away from the sidewall upper of mixing component one side, and described second limiting plate is fixed on second support away from an end of transmission case and extends downwards.

12. mixer according to claim 8, it is characterized in that, described mixer also comprises collection assembly, described collection assembly comprises collects box body and filter, described filter is arranged to be collected in the box body, and forming with the filter is the bottom, is sidewall to collect box body, open-topped collecting region, and have a plurality of filtering holes on the filter;

Described collection box body is fixedlyed connected with gripper shoe with transmission case, and offers the slag input hole on the close one side of main shaft of collection box body, and described slag input hole is higher than filter, is lower than to collect the box body top edge.

13. mixer according to claim 12 is characterized in that, described filter one end extends the collection box body, forms handle.

14., it is characterized in that be fixed with setscrew nut on the described collection box body, described setscrew nut position is higher than filter, is lower than described slag input hole according to claim 12 or 13 described mixers.

15., it is characterized in that described slag input hole is strip in the horizontal direction according to claim 12 or 13 described mixers.

16., it is characterized in that the edge of described slag input Kongzui below is higher than the engaging piece of driving wheel and driven pulley, is lower than the minimum point of output shaft and transmission case junction according to claim 12 or 13 described mixers.

17. a mixer is characterized in that, comprises Power Component, transmission component, mixing component and supporting component;

Described Power Component comprises motor body and inserts the machine shaft of electrode body;

Described transmission component comprises transmission case, output shaft, driving wheel, driven pulley and the driven pulley fixed axis of power shaft, closure;

Described mixing component comprises main shaft and at least one the secondary shaft of arranging from top to bottom, and described main shaft is positioned at secondary shaft oblique upper, is provided with stirring vane on described main shaft and the secondary shaft;

Described supporting component comprises gripper shoe, connecting plate, first support, first limiting plate, second support, second limiting plate;

Described first support, one end is fixed in the sidewall upper of transmission case, and the other end is fixedlyed connected with first limiting plate, and described motor body is arranged on first limiting plate side away from first support;

Described power shaft is arranged on the transmission case, fixedlys connected by first shaft coupling with machine shaft;

Be provided with intermeshing main driving wheel and auxiliary driving wheel in the described transmission case from top to bottom, described main driving wheel is arranged on the power shaft;

Described transmission case is away from also being fixed with first reference column and second reference column on the sidewall of motor body;

Described output shaft is fixed on the transmission case, and extends first reference column of transmission case and transmission case side, described auxiliary driving wheel and driving wheel all be fixed on the output shaft and lay respectively in the transmission case and transmission case outside;

Described driven pulley fixed axis is fixed on second reference column on the transmission case sidewall, and described driven pulley is fixed on the driven pulley fixed axis and with driving wheel and is meshing with each other;

Described connecting plate one end is fixed in the transmission case bottom, and the other end is fixedlyed connected with the gripper shoe bottom; Described gripper shoe is provided with first minor axis and second minor axis, and described main shaft one end is fixedlyed connected by second shaft coupling with the output shaft that passes first reference column, and the other end is fixedlyed connected by the tetrad axial organ with first minor axis; Described secondary shaft one end is fixedlyed connected by the 3rd shaft coupling with the driven pulley fixed axis on being fixed in second reference column, and the other end is fixedlyed connected by the 5-linked axial organ with second minor axis;

Be provided with two stop nuts on described main shaft and the secondary shaft, a plurality of stirring vanes are equally spaced to be arranged between two stop nuts;

Described second support is fixed in the side wall upper part of gripper shoe away from mixing component one side, and described second limiting plate is fixed on second support away from an end of transmission case and extension downwards.

18. mixer according to claim 17, it is characterized in that, described mixer also comprises collection assembly, described collection assembly comprises collects box body and filter, described filter is arranged to be collected in the box body, and forming with the slag-overflowing plate is the bottom, is sidewall with the box body, open-topped collecting region, and have a plurality of filtering holes on the filter;

Described collection box body is fixedlyed connected with gripper shoe with transmission case, and offers the slag input hole on the close one side of main shaft of collection box body, and described slag input hole is higher than filter, is lower than to collect the box body top edge.

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