CN106733156A - A kind of integrated form powder speed governing deironing apparatus - Google Patents

Abstract

The invention discloses a kind of integrated form powder speed governing deironing apparatus, including cylinder, first servomotor, adapter sleeve, sealing ring, Deironing mechanism, end cap, handle, body, support base, second servomotor, leading screw, feed nut, left connecting rod, sliding sleeve, right connecting rod, guide pad, guide rod, plugging plate, motor, second rotating shaft, material head under taper, some harrow nails, airduct, first servomotor works, Deironing mechanism rotates, when powder flows through magnet strip surface, magnet strip is by iron adsorption, magnetic nail can be broken up and except iron to caking powder, second servomotor works, sliding sleeve is separated with material head under taper, can adjust blanking velocity, material head is rotated under motor belt motor mantle shape, it is arranged on the harrow nail of material head under taper and breaks up powder is secondary.The apparatus structure is simple, can adjust automatically blanking velocity and except iron, effectively caking powder is broken up, improve modification efficiency, meanwhile, Deironing mechanism is installed, convenient disassembly is quick, good iron removal effect.

Description

A kind of integrated form powder speed governing deironing apparatus

Technical field

The present invention relates to a kind of powder auxiliary units, more particularly to a kind of integrated form powder speed governing deironing apparatus.

Background technology

Powder surface is processed using method physically or chemically, purposefully changes its Surface Physical Chemistry Matter, with meet specific use requirement technique turn into powder surface modification, it is surface-modified after powder be widely used in papermaking, Plastic cement, plastic film, chemical fibre, rubber, adhesive, sealant, daily-use chemical industry, cosmetics, building materials, coating, paint, ink, oil In ash, sealing wax, medicine, food (such as chewing gum, chocolate), feed, the general technological process of production of modified calcium carbonate：Cleaning, Dry, broken, windrow, grinding, classification, modified, packaging, be modified production when, because powder is through broken and after grinding, powder is included There are tiny iron filings, if do not remove causing powder quality low, existing method for removing iron is using magnet drum or tubular iron remover Carry out except iron, because magnet drum or tubular iron remover are generally stationary structure, it is difficult to cleaning maintenance is carried out, meanwhile, powder is often It is directly inputted in the equipment of tapping a blast furnace, delivery rate cannot be adjusted, causes powder to be deposited in equipment for removing ferric ion, influences de-ferrous effect. In view of disadvantages described above, is necessary a kind of apparatus for removing iron in powder for being easy to safeguard of design in fact.

The content of the invention

The technical problems to be solved by the invention are：It is solid to solve to provide a kind of integrated form powder speed governing deironing apparatus Fixed pattern equipment for removing ferric ion is difficult to the problem safeguarded and delivery rate cannot be adjusted.

In order to solve the above technical problems, the technical scheme is that：A kind of integrated form powder speed governing deironing apparatus, including Cylinder, the first servomotor, adapter sleeve, sealing ring, Deironing mechanism, end cap, handle, body, support base, the second servomotor, Under leading screw, feed nut, left connecting rod, sliding sleeve, right connecting rod, guide pad, guide rod, plugging plate, motor, the second rotating shaft, taper Material head, some harrow nails, airducts, the first described servomotor are located at cylinder left side, the first described servomotor and cylinder Screw thread is connected, and described adapter sleeve is located at the first servomotor right side and positioned at cylinder inner side, and described adapter sleeve is watched with first Take motor key to be connected and be connected with barrel body rotation, described sealing ring is located at cylinder inner side and is connected set and runs through, and described is close Seal ring is connected with cylinder close-fitting and is connected with adapter sleeve gap, and adapter sleeve is stretched into described Deironing mechanism one end, described except iron Mechanism is connected with adapter sleeve gap, and described end cap is located at cylinder right side and positioned at Deironing mechanism right side, described end cap and cylinder Body screw thread is connected and is rotatedly connected with Deironing mechanism, and described handle is located at end cap right side, described handle and end cap screw thread phase Even, described body is located at cylinder lower end, and described body is connected with cylinder screw, and described support base is located at body left side, Described support base is connected with body screw thread, and the second described servomotor is located at support base upper end, described the second servo electricity Machine is connected with support base screw thread, and described leading screw is located at the second servomotor lower end and positioned at support base inner side, described leading screw It is connected with the second servomotor close-fitting and is rotatedly connected with support base, described leading screw through feeds nut, described feeding spiral shell Mother is connected with threads of lead screw and is slided with support base and is connected, and described left connecting rod is located at feed nut right side and through body, Described left connecting rod is connected with feed nut screw thread and is movably connected with body, described sliding sleeve be located at left connecting rod right side and Positioned at body inner side, described sliding sleeve is connected with left connecting rod screw thread and is connected with body gap, and described right connecting rod is located at On the right side of sliding sleeve and through body, described right connecting rod is connected with sliding sleeve screw thread and is movably connected with body, described guide pad Positioned at right connecting rod right side, described guide pad is connected with right connecting rod screw thread, and described guide rod is through guide pad and positioned at pipe Body right side, described guide rod is connected and is connected with body screw thread with block gap is oriented to, and described closure plate is located at bottom of the pipe and position In pedestal upper end, described closure plate is connected with body screw thread and is connected with support screw thread, and described motor is located at closure plate lower end, institute The motor stated is connected with closure plate screw thread, and described rotating shaft is located at motor upper end and positioned at body inner side, described rotating shaft and motor Close-fitting is connected and is movably connected with body, and material head is located at rotating shaft upper end and positioned at sliding sleeve lower end, described cone under described taper Material head is connected with shaft thread and is movably connected with sliding sleeve under shape, and described harrow nail is located at material head outside, described rake under taper Nail is connected with taper blanking head thread, and described airduct is located at body left side lower end, and described airduct is connected with body screw thread.

Further improvement of the invention is as follows：

Further, described cylinder is additionally provided with feeding mouth, and described feeding mouth is located at cylinder outer upper end, and described is upper Material mouth is connected with barrel soldering.

Further, described cylinder is additionally provided with blanking mouth, and described blanking mouth is positioned at lower end on the outside of cylinder and positioned at pipe Body upper end, described feeding mouth is connected with barrel soldering and is connected with body screw thread.

Further, described adapter sleeve is additionally provided with stopper slot, and described stopper slot is located at adapter sleeve inner side, described limit Position groove is not through adapter sleeve main body.

Further, described sealing ring is additionally provided with sealing ring, and described sealing ring is located at sealing ring inner side, and described is close Seal is connected with sealing ring close-fitting.

Further, if described Deironing mechanism also include left rotary shaft, hollow rotating shaft, quantity no less than 2 magnet strip, Dry part magnetic nail, right spindle, described left rotary shaft stretch into one end and stretch into adapter sleeve, and described left rotary shaft is connected with adapter sleeve gap, Described hollow rotating shaft is located at left rotary shaft right side, and described hollow rotating shaft is connected with left-hand rotation axle thread, and described magnet strip is located at Hollow rotating shaft outside, described magnet strip is connected with hollow rotating shaft close-fitting, and described magnet strip is additionally provided with magnetic nail, described magnetic nail Be connected with magnet strip screw thread, described right spindle is located at hollow rotating shaft right side and stretches into end cap, described right spindle with it is hollow Shaft thread is connected and is rotatedly connected with end cap, during dismounting, manual unlocking end cap, by the magnetic separator de-ironing for shaking hands to be connected with end cap Structure is extracted, so that cleaning maintenance will be carried out to Deironing mechanism；During installation, Deironing mechanism is sent into cylinder manually so that set Positive stop strip insertion in left rotary shaft is arranged in the stopper slot on adapter sleeve, is manually fixed end cap and cylinder.

Further, described left rotary shaft is additionally provided with positive stop strip, and described positive stop strip is located at left rotary shaft outside and stretches into limit Position groove, described positive stop strip is connected with left rotary shaft one.

Further, described body is additionally provided with escape groove, and described escape groove is located at body outside, described escape groove Through body main body.

Further, described body is additionally provided with drainage conduit, and described drainage conduit is located at body right side lower end, described row Expects pipe is connected with body screw thread.

Further, described sliding sleeve is additionally provided with tapering transition face, and described tapering transition face is located at sliding sleeve inner side.

Compared with prior art, the integrated form powder speed governing deironing apparatus, during work, powder enters cylinder through feeding mouth Interior, the first servomotor drives adapter sleeve to rotate, and in the stopper slot that is arranged on adapter sleeve and is arranged on spacing in left rotary shaft Under bar collective effect, Deironing mechanism rotates, when powder flows through magnet strip surface, magnet strip by the iron adsorption in powder, Meanwhile, magnetic nail can be broken up to the powder of caking and except iron, then, the second servomotor is driven on feed nut by leading screw Move, so as to drive sliding sleeve to be moved along guide rod so that the tapering transition face being arranged on sliding sleeve and material head under taper are separated, set the Two servomotor rotational angles, such that it is able to adjust the spacing under tapering transition face and taper between material head, so as to adjust blanking Speed, then, material head is rotated under motor drives taper by rotating shaft, is arranged on the harrow nail under taper on material head so as to will be through sliding sleeve The powder that falls is secondary to be broken up, and compressed air is input into body through airduct, and compressed air discharges powder through conveying pipeline.Should Apparatus structure is simple, adjust automatically blanking velocity and can effectively remove iron, effectively breaks up caking powder, improves modification efficiency, together When, Deironing mechanism is installed, convenient disassembly is quick, good iron removal effect.

Brief description of the drawings

Fig. 1 shows front view of the present invention

Fig. 2 shows Deironing mechanism front view of the present invention

Fig. 3 shows adapter sleeve side view of the present invention

Fig. 4 shows sealing ring side view of the present invention

Fig. 5 shows sliding sleeve sectional view of the present invention

The servomotor 2 of cylinder 1 first

The sealing ring 4 of adapter sleeve 3

The end cap 6 of Deironing mechanism 5

Shake hands 7 bodys 8

The servomotor 10 of support base 9 second

The feed nut 12 of leading screw 11

The sliding sleeve 14 of left connecting rod 13

The guide pad 16 of right connecting rod 15

The plugging plate 18 of guide rod 17

The rotating shaft 20 of motor 19 second

The harrow nail 22 of material head 21 under taper

The feeding mouth 101 of airduct 23

The stopper slot 301 of blanking mouth 102

The left rotary shaft 501 of sealing ring 401

The magnet strip 503 of hollow rotating shaft 502

Magnetic follows closely 504 right spindles 505

The escape groove 801 of positive stop strip 506

The tapering transition face 1401 of drainage conduit 802

Specific embodiment

As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4, Fig. 5, a kind of integrated form powder speed governing deironing apparatus, including cylinder 1, first watch Take motor 2, adapter sleeve 3, sealing ring 4, Deironing mechanism 5, end cap 6, handle 7, body 8, support base 9, the second servomotor 10, silk Thick stick 11, feed nut 12, left connecting rod 13, sliding sleeve 14, right connecting rod 15, guide pad 16, guide rod 17, plugging plate 18, motor 19, Material head 21, some harrow nails 22, airducts 23 under second rotating shaft 20, taper, the first described servomotor 2 are located at the left side of cylinder 1, The first described servomotor 2 is connected with the screw thread of cylinder 1, and described adapter sleeve 3 is located at the right side of the first servomotor 2 and positioned at cylinder The inner side of body 1, described adapter sleeve 3 is connected with the key of the first servomotor 2 and is rotatedly connected with cylinder 1, and described sealing ring 4 is located at The inner side of cylinder 1 and it is connected set 3 and runs through, described sealing ring 4 is connected with the close-fitting of cylinder 1 and is connected with the gap of adapter sleeve 3, described The one end of Deironing mechanism 5 stretch into adapter sleeve 3, described Deironing mechanism 5 is connected with the gap of adapter sleeve 3, and described end cap 6 is located at cylinder On the right side of body 1 and positioned at the right side of Deironing mechanism 5, described end cap 6 is connected with the screw thread of cylinder 1 and is rotatedly connected with Deironing mechanism 5, institute The handle 7 stated is located at the right side of end cap 6, and described handle 7 is connected with the screw thread of end cap 6, and described body 8 is located at the lower end of cylinder 1, institute The body 8 stated is connected with the screw thread of cylinder 1, and described support base 9 is located at the left side of body 8, described support base 9 and the screw thread of body 8 It is connected, the second described servomotor 10 is located at the upper end of support base 9, the second described servomotor 10 and the screw thread phase of support base 9 Even, described leading screw 11 is located at the lower end of the second servomotor 10 and positioned at the inner side of support base 9, the described servo of leading screw 11 and second The close-fitting of motor 10 is connected and is rotatedly connected with support base 9, and described leading screw 11 through feeds nut 12, described feed nut 12 It is connected with the screw thread of leading screw 11 and is slided with support base 9 and be connected, described left connecting rod 13 is located at the right side of feed nut 12 and runs through Body 8, described left connecting rod 13 is connected with the screw thread of feed nut 12 and is movably connected with body 8, and described sliding sleeve 14 is located at The right side of left connecting rod 13 and positioned at the inner side of body 8, described sliding sleeve 14 be connected with the screw thread of left connecting rod 13 and with the gap phase of body 8 Even, described right connecting rod 15 is located at the right side of sliding sleeve 14 and through body 8, and described right connecting rod 15 is connected with the screw thread of sliding sleeve 14 And be movably connected with body 8, described guide pad 16 is located at the right side of right connecting rod 15, described guide pad 16 and right connecting rod 15 Screw thread is connected, and described guide rod 17 is through guide pad 16 and positioned at the right side of body 8, described guide rod 17 and the gap phase of guide pad 16 It is connected even and with the screw thread of body 8, described closure plate is located at the lower end of body 8 and positioned at pedestal upper end, described closure plate and the spiral shell of body 8 Line is connected and is connected with support screw thread, and described motor 19 is located at closure plate lower end, and described motor 19 is connected with closure plate screw thread, institute The rotating shaft stated is located at the upper end of motor 19 and positioned at the inner side of body 8, and described rotating shaft is connected and movable with body 8 with the close-fitting of motor 19 It is connected, material head 21 is located at rotating shaft upper end and positioned at the lower end of sliding sleeve 14 under described taper, material head 21 and rotating shaft under described taper Screw thread is connected and is movably connected with sliding sleeve 14, and described harrow nail 22 is located at the outside of material head 21 under taper, described harrow nail 22 and cone The screw thread of material head 21 is connected under shape, and described airduct 23 is located at the left side lower end of body 8, and described airduct 23 is connected with the screw thread of body 8, Described cylinder 1 is additionally provided with feeding mouth 101, and described feeding mouth 101 is located at the outer upper end of cylinder 1, described feeding mouth 101 with Cylinder 1 is weldingly connected, and described cylinder 1 is additionally provided with blanking mouth 102, and described blanking mouth 102 is located at the outside lower end of cylinder 1 and position In the upper end of body 8, described feeding mouth 101 is weldingly connected with cylinder 1 and is connected with the screw thread of body 8, and described adapter sleeve 3 also sets Limited location groove 301, described stopper slot 301 is located at the inner side of adapter sleeve 3, described stopper slot 301 not through the main body of adapter sleeve 3, Described sealing ring 4 is additionally provided with sealing ring 401, and described sealing ring 401 is located at the inner side of sealing ring 4, described sealing ring 401 with The close-fitting of sealing ring 4 is connected, and described Deironing mechanism 5 also includes the magnetic of left rotary shaft 501, hollow rotating shaft 502, quantity no less than 2 Iron bar 503, some magnetic nails 504, right spindle 505, described left rotary shaft 501 stretch into one end and stretch into adapter sleeve 3, described left-hand rotation Axle 501 is connected with the gap of adapter sleeve 3, and described hollow rotating shaft 502 is located at the right side of left rotary shaft 501, described hollow rotating shaft 502 with The screw thread of left rotary shaft 501 is connected, and described magnet strip 503 is located at the outside of hollow rotating shaft 502, described magnet strip 503 with hollow turn The close-fitting of axle 502 is connected, and described magnet strip 503 is additionally provided with magnetic nail 504, and described magnetic nail 504 is connected with the screw thread of magnet strip 503, Described right spindle 505 is located at the right side of hollow rotating shaft 502 and stretches into end cap 6, described right spindle 505 and hollow rotating shaft 502 Screw thread is connected and is rotatedly connected with end cap 6, during dismounting, manual unlocking end cap 6, the magnetic separator de-ironing that will be connected with end cap 6 by handle 7 Structure 5 is extracted, so that cleaning maintenance will be carried out to Deironing mechanism 5；During installation, Deironing mechanism 5 is sent into cylinder 1 manually so that The positive stop strip 506 being arranged in left rotary shaft 501 is inserted in the stopper slot 301 being arranged on adapter sleeve 3, manually by end cap 7 and cylinder Body 1 is fixed, and described left rotary shaft 501 is additionally provided with positive stop strip 506, described positive stop strip 506 be located on the outside of left rotary shaft 501 and Stopper slot 301 is stretched into, described positive stop strip 506 is connected with the one of left rotary shaft 501, and described body 8 is additionally provided with escape groove 801, Described escape groove 801 is located at the outside of body 8, and described escape groove 501 runs through the main body of body 8, the described row of being additionally provided with of body 8 Expects pipe 802, described drainage conduit 802 is located at the right side lower end of body 8, and described drainage conduit 802 is connected with the screw thread of body 8, described Sliding sleeve 14 be additionally provided with tapering transition face 1401, described tapering transition face 1401 is located at the inner side of sliding sleeve 14, during work, powder warp Feeding mouth 101 enters in cylinder 1, and the first servomotor 2 drives adapter sleeve 3 to rotate, in the stopper slot being arranged on adapter sleeve 3 301 and the collective effect of positive stop strip 506 that is arranged in left rotary shaft 501 under, Deironing mechanism 5 rotates, and powder flows through magnet strip During 503 surface, magnet strip 503 by the iron adsorption in powder, meanwhile, magnetic nail 504 can be broken up and removed to the powders for luming Iron, then, the second servomotor 10 is driven by leading screw 11 and moved on feed nut 12, so as to drive sliding sleeve 14 along guide rod 17 Move so that the tapering transition face 1401 being arranged on sliding sleeve 14 and material head under taper 21 are separated, the second servomotor 5 of setting is rotated Angle, such that it is able to adjust the spacing under tapering transition face 1401 and taper between material head 21, so that blanking velocity is adjusted, with Afterwards, material head 21 is rotated under motor 19 drives taper by rotating shaft 20, is arranged on the harrow nail 22 under taper on material head 21 so as to will be through Powder that sliding sleeve 14 falls is secondary to be broken up, and compressed air is input into body 1 through airduct 23, and compressed air is by powder through conveying pipeline 102 discharges.The apparatus structure is simple, adjust automatically blanking velocity and can effectively remove iron, effectively breaks up caking powder, carries Modification efficiency high, meanwhile, Deironing mechanism 5 is installed, convenient disassembly quick, good iron removal effect.

The present invention is not limited to above-mentioned specific embodiment, one of ordinary skill in the art from above-mentioned design, Without performing creative labour, a variety of conversion made are within the scope of the present invention.

Claims (10)

1. a kind of integrated form powder speed governing deironing apparatus, it is characterised in that including cylinder, the first servomotor, adapter sleeve, sealing Ring, Deironing mechanism, end cap, handle, body, support base, the second servomotor, leading screw, feed nut, left connecting rod, sliding sleeve, the right side Material head, some harrow nails, airducts, described first under connecting rod, guide pad, guide rod, plugging plate, motor, the second rotating shaft, taper Servomotor is located at cylinder left side, and the first described servomotor is connected with cylinder screw, and described adapter sleeve is watched positioned at first Take motor right side and positioned at cylinder inner side, described adapter sleeve is connected with the first servomotor key and is connected with barrel body rotation, institute The sealing ring stated be located at cylinder inner side and be connected set run through, described sealing ring be connected with cylinder close-fitting and with adapter sleeve gap It is connected, adapter sleeve is stretched into described Deironing mechanism one end, and described Deironing mechanism is connected with adapter sleeve gap, described end cap position In cylinder right side and positioned at Deironing mechanism right side, described end cap is connected with cylinder screw and is rotatedly connected with Deironing mechanism, institute The handle stated is located at end cap right side, and described handle is connected with end cap screw thread, and described body is located at cylinder lower end, described pipe Body is connected with cylinder screw, and described support base is located at body left side, and described support base is connected with body screw thread, and described the Two servomotors are located at support base upper end, and the second described servomotor is connected with support base screw thread, and described leading screw is positioned at the Two servomotor lower ends and positioned at support base inner side, described leading screw be connected with the second servomotor close-fitting and with support base rotation It is connected, described leading screw through feeds nut, described feed nut is connected with threads of lead screw and is slided with support base and is connected, institute The left connecting rod stated be located at feed nut right side and through body, described left connecting rod be connected with feed nut screw thread and with pipe Body is movably connected, and described sliding sleeve is located at left connecting rod right side and positioned at body inner side, described sliding sleeve and left connecting rod screw thread It is connected and is connected with body gap, described right connecting rod is located at sliding sleeve right side and through body, described right connecting rod and cunning External threading is connected and is movably connected with body, and described guide pad is located at right connecting rod right side, described guide pad and right connection Bar screw thread is connected, described guide rod through guide pad and positioned at body right side, described guide rod be connected with guiding block gap and with Body screw thread is connected, and described closure plate is located at bottom of the pipe and positioned at pedestal upper end, described closure plate be connected with body screw thread and It is connected with support screw thread, described motor is located at closure plate lower end, and described motor is connected with closure plate screw thread, and described rotating shaft is located at Motor upper end and positioned at body inner side, described rotating shaft is connected with motor close-fitting and is movably connected with body, under described taper Material head be located at rotating shaft upper end and under sliding sleeve lower end, described taper material head be connected with shaft thread and with sliding sleeve activity phase Even, described harrow nail is located at material head outside under taper, and described harrow nail is connected with taper blanking head thread, and described airduct is located at Body left side lower end, described airduct is connected with body screw thread.

2. integrated form powder speed governing deironing apparatus as claimed in claim 1, it is characterised in that described cylinder is additionally provided with feeding Mouth, described feeding mouth is located at cylinder outer upper end, and described feeding mouth is connected with barrel soldering.

3. integrated form powder speed governing deironing apparatus as claimed in claim 1, it is characterised in that described cylinder is additionally provided with blanking Mouth, described blanking mouth is located on the outside of cylinder lower end and positioned at body upper end, described feeding mouth be connected with barrel soldering and with Body screw thread is connected.

4. integrated form powder speed governing deironing apparatus as claimed in claim 1, it is characterised in that described adapter sleeve is additionally provided with limit Position groove, described stopper slot is located at adapter sleeve inner side, and described stopper slot is not through adapter sleeve main body.

5. the apparatus for removing iron in powder safeguarded is easy to as claimed in claim 1, it is characterised in that described sealing ring is additionally provided with close Seal, described sealing ring is located at sealing ring inner side, and described sealing ring is connected with sealing ring close-fitting.

6. integrated form powder speed governing deironing apparatus as claimed in claim 1, it is characterised in that described Deironing mechanism also includes The magnet strip of left rotary shaft, hollow rotating shaft, quantity no less than 2, some magnetic nails, right spindles, described left rotary shaft stretch into one end Adapter sleeve is stretched into, described left rotary shaft is connected with adapter sleeve gap, described hollow rotating shaft is located at left rotary shaft right side, described sky Heart rotating shaft is connected with left-hand rotation axle thread, and described magnet strip is located at hollow rotating shaft outside, and described magnet strip is tight with hollow rotating shaft With being connected, described magnet strip is additionally provided with magnetic nail, and described magnetic nail is connected with magnet strip screw thread, and described right spindle is located at hollow Rotating shaft right side and stretch into end cap, described right spindle is connected with hollow rotating shaft screw thread and is rotatedly connected with end cap.

7. integrated form powder speed governing deironing apparatus as described in claim 4 or 6, it is characterised in that described left rotary shaft is additionally provided with Positive stop strip, described positive stop strip is located at left rotary shaft outside and stretches into stopper slot, and described positive stop strip is connected with left rotary shaft one.

8. integrated form powder speed governing deironing apparatus as claimed in claim 1, it is characterised in that described body is additionally provided with avoidance Groove, described escape groove is located at body outside, and described escape groove runs through body main body.

9. integrated form powder speed governing deironing apparatus as claimed in claim 1, it is characterised in that described body is additionally provided with discharge Pipe, described drainage conduit is located at body right side lower end, and described drainage conduit is connected with body screw thread.

10. integrated form powder speed governing deironing apparatus as claimed in claim 1, it is characterised in that described sliding sleeve is additionally provided with taper Transition face, described tapering transition face is located at sliding sleeve inner side.