CN106732297A - A kind of integrated form powder modifying device - Google Patents
A kind of integrated form powder modifying device Download PDFInfo
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- CN106732297A CN106732297A CN201710110510.8A CN201710110510A CN106732297A CN 106732297 A CN106732297 A CN 106732297A CN 201710110510 A CN201710110510 A CN 201710110510A CN 106732297 A CN106732297 A CN 106732297A
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- screw thread
- rotating shaft
- cylinder
- servomotor
- adapter sleeve
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01J—CHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
- B01J19/00—Chemical, physical or physico-chemical processes in general; Their relevant apparatus
- B01J19/18—Stationary reactors having moving elements inside
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01F—MIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
- B01F27/00—Mixers with rotary stirring devices in fixed receptacles; Kneaders
- B01F27/05—Stirrers
- B01F27/11—Stirrers characterised by the configuration of the stirrers
- B01F27/19—Stirrers with two or more mixing elements mounted in sequence on the same axis
- B01F27/191—Stirrers with two or more mixing elements mounted in sequence on the same axis with similar elements
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01F—MIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
- B01F27/00—Mixers with rotary stirring devices in fixed receptacles; Kneaders
- B01F27/80—Mixers with rotary stirring devices in fixed receptacles; Kneaders with stirrers rotating about a substantially vertical axis
- B01F27/808—Mixers with rotary stirring devices in fixed receptacles; Kneaders with stirrers rotating about a substantially vertical axis with stirrers driven from the bottom of the receptacle
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01J—CHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
- B01J19/00—Chemical, physical or physico-chemical processes in general; Their relevant apparatus
- B01J19/0006—Controlling or regulating processes
- B01J19/0013—Controlling the temperature of the process
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01J—CHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
- B01J19/00—Chemical, physical or physico-chemical processes in general; Their relevant apparatus
- B01J19/0053—Details of the reactor
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01J—CHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
- B01J19/00—Chemical, physical or physico-chemical processes in general; Their relevant apparatus
- B01J19/0053—Details of the reactor
- B01J19/0066—Stirrers
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B03—SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
- B03C—MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
- B03C1/00—Magnetic separation
- B03C1/02—Magnetic separation acting directly on the substance being separated
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- Chemical & Material Sciences (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Organic Chemistry (AREA)
- Soil Working Implements (AREA)
Abstract
The invention discloses a kind of integrated form powder modifying device, including frame, the first motor, tank body, the first hollow rotating shaft, impeller, transmission mechanism, conveying pipeline, caching case, except swage block, material storing box, controller, support, speed adjusting gear, fuel reserve tank, throttling capping, spray bar.The apparatus structure is simple, can adjust automatically blanking velocity, and can caking powder smash, can automatically be modified and modified powder is carried out except iron, and good iron removal effect, modified powder quality is effectively improved, Deironing mechanism is easy to maintenance quick, while can be heated when powder-modified, improve modification efficiency, meanwhile, homogeneous heating, efficiency high.
Description
Technical field
The present invention relates to a kind of reforming apparatus, more particularly to a kind of integrated form powder modifying device.
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 modified device is general without Deironing mechanism, and modified
Powder typically directly packed, cause remaining iron filings after modified powder not remove totally, so as to reduce modified powder
Body quality, meanwhile, when being input into raw material and modifying agent to modified device, because material quantity is big, and modified dosage is small, if not to modified
Agent material speed is adjusted, and just input is completed within a very short time to cause modifying agent, certainly will so result in the need for extending modification time
It is modified to ensure that raw material and modifying agent can be fully contacted, causes modification efficiency low, and passes through leaf more existing modified device
Wheel with powder direct friction heat up and is modified, it is impossible to which powder is preheated, because temperature arrising caused by friction efficiency is low, it is necessary to for a long time
Stirring could complete modified, cause modification efficiency low.In view of disadvantages described above, is necessary to design a kind of powder-modified dress of integrated form in fact
Put.
The content of the invention
The technical problems to be solved by the invention are:There is provided a kind of integrated form powder modifying device modified to solve
Iron filings residual causes powder quality low and delivery rate cannot be adjusted and cannot automatic preheating powder problem.
In order to solve the above technical problems, the technical scheme is that:A kind of integrated form powder modifying device, including machine
Frame, the first motor, tank body, the first hollow rotating shaft, impeller, transmission mechanism, conveying pipeline, caching case, except swage block, material storing box, control
Device processed, support, speed adjusting gear, fuel reserve tank, throttling capping, spray bar, the first described motor are located at frame upper end left side, described
The first motor be connected with frame screw thread, described tank body is located at frame upper end right side, and described rotating shaft one end is stretched into tank body
Side, described rotating shaft is rotatedly connected with tank body, and described rotating shaft runs through impeller, and described impeller is connected with rotating shaft close-fitting, described
Transmission mechanism be located at motor lower end and positioned at rotating shaft lower end, described transmission mechanism be connected with motor close-fitting and with rotating shaft close-fitting
It is connected, described conveying pipeline is located at tank body right side lower end, described conveying pipeline is connected with tank body screw thread, and described caching case is located at
Conveying pipeline lower end, described caching case is connected with conveying pipe screw thread, and described caches case lower end except swage block is located at, and described removes
Swage block is connected with caching case screw thread, and described material storing box is located at except swage block lower end and positioned at frame upper end, described storing
With except swage block screw thread is connected and is connected with frame screw thread, described controller is located at frame upper end to case, described controller with
Frame screw thread is connected, and described support is located at frame upper end, and described support is connected with frame screw thread, described speed adjusting gear position
In pedestal upper end, described speed adjusting gear is connected with support screw thread, and described fuel reserve tank is located at frame upper end and hollow by first
Rotating shaft runs through, and described fuel reserve tank is connected with frame screw thread and is rotatedly connected with the first hollow rotating shaft, described throttling capping position
In fuel reserve tank lower end, described throttling capping is connected with fuel reserve tank screw thread, and described spray bar sequentially passes through fuel reserve tank and throttling
End cap and stretch into the first hollow rotating shaft inner side;Described Deironing mechanism module also include cylinder, the first servomotor, adapter sleeve,
Sealing ring, Deironing mechanism, end cap, described cylinder are located at caching case lower end and positioned at material storing box upper end, described cylinder with it is slow
Deposit case screw thread to be connected and be connected with material storing box screw thread, the first described servomotor is located at cylinder left side, the first described servo
Motor is connected with cylinder screw, and described adapter sleeve is located at the first servomotor right side and positioned at cylinder inner side, described connection
Set is connected with the first servomotor key and is connected with barrel body rotation, and described sealing ring is located at cylinder inner side and is connected set and passes through
Wear, described sealing ring is connected with cylinder close-fitting and is connected with adapter sleeve gap, adapter sleeve is stretched into described Deironing mechanism one end,
Described Deironing 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 be connected with cylinder screw and be rotatedly connected with Deironing mechanism;Described Deironing mechanism also includes left rotary shaft, second hollow
The magnet strip of rotating shaft, quantity no less than 2, some magnetic nails, right spindles, described left rotary shaft stretch into one end and stretch into adapter sleeve,
Described left rotary shaft is connected with adapter sleeve gap, and the second described hollow rotating shaft is located at left rotary shaft right side, and described second is hollow
Rotating shaft is connected with left-hand rotation axle thread, and described magnet strip is located at the second hollow rotating shaft outside, and described magnet strip is hollow with second
Rotating shaft close-fitting is connected, and described magnet strip is additionally provided with magnetic nail, and described magnetic nail is connected with magnet strip screw thread, described right-hand rotation axle position
In the second hollow rotating shaft right side and stretch into end cap, described right spindle be connected with the second hollow rotating shaft screw thread and with end cap rotation
It is connected;Described speed adjusting gear also includes body, support base, the second servomotor, leading screw, feed nut, left connecting rod, cunning
Material head, some harrow nails, airducts under set, right connecting rod, guide pad, guide rod, plugging plate, the second motor, the second rotating shaft, taper,
Described support base is located at body left side, and described support base is connected with body screw thread, and the second described servomotor is located at branch
Support seat upper end, the second described servomotor is connected with support base screw thread, described leading screw positioned at the second servomotor lower end and
Positioned at support base inner side, described leading screw is connected with the second servomotor close-fitting and is rotatedly connected with support base, described leading screw
Nut is through fed, described feed nut is connected with threads of lead screw and is slided with support base and is connected, described left connecting rod position
In feed nut right side and through body, described left connecting rod is connected with feed nut screw thread and is movably connected with body, institute
The sliding sleeve stated is located at left connecting rod right side and positioned at body inner side, and described sliding sleeve is connected and between body with left connecting rod screw thread
Gap is connected, and described right connecting rod is located at sliding sleeve right side and through body, described right connecting rod be connected with sliding sleeve screw thread and with
Body is movably connected, and described guide pad is located at right connecting rod right side, and described guide pad is connected with right connecting rod screw thread, described
Guide rod through guide pad and positioned at body right side, described guide rod is connected and is connected with body screw thread with guiding block gap, institute
The closure plate stated is located at bottom of the pipe and positioned at pedestal upper end, and described closure plate is connected with body screw thread and is connected with support screw thread,
The second described motor is located at closure plate lower end, and the second described motor is connected with closure plate screw thread, and described the second rotating shaft is positioned at the
Two motor upper ends and positioned at body inner side, the second described rotating shaft is connected with the second motor close-fitting and is movably connected with body, institute
Material head is located at the second rotating shaft upper end and material head and the second shaft thread phase under sliding sleeve lower end, described taper under the taper stated
It is movably connected even and with sliding sleeve, described harrow nail is located at material head outside, described harrow nail and taper blanking head thread phase under taper
Even, 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 tank body is additionally provided with corrugated flexible hose, and described corrugated flexible hose is located at tank body upper end, described ripple
Line flexible pipe is connected with tank body screw thread.
Further, described tank body is additionally provided with balancer structure, and described balancer structure is located at tank body upper end, and described is equal
Press mechanism is connected with tank body screw thread.
Further, cylinder also includes Transition Materials mouth, and described Transition Materials mouth is located at cylinder outside, described Transition Materials mouth
It is connected with barrel soldering.
Further, described left rotary shaft is additionally provided with positive stop strip, and described positive stop strip is located at left rotary shaft outside, described limit
Position bar is connected with left rotary shaft one.
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 end cap is additionally provided with handle, and described handle is located at end cap right side, described handle and end cap
Screw thread is connected, and during dismounting, manual unlocking end cap is extracted the Deironing mechanism being connected with end cap by shaking hands, so as to magnetic separator de-ironing
Structure carries out cleaning maintenance;During installation, Deironing mechanism is sent into cylinder manually so that be arranged on the positive stop strip insertion in left rotary shaft
It is arranged in the stopper slot on adapter sleeve, manually fixes end cap and cylinder.
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 sliding sleeve is additionally provided with tapering transition face, and described tapering transition face is located at sliding sleeve inner side.
Further, described throttling capping is additionally provided with some throttle orifices, and described throttle orifice is covered through throttling.
Compared with prior art, the integrated form powder modifying device, during work, controller controls the second servomotor to pass through
Leading screw drives and moved on feed nut, so as to drive sliding sleeve to be moved along guide rod so that the tapering transition face being arranged on sliding sleeve and cone
Material head is separated under shape, sets the second servomotor angle, between adjusting under tapering transition face and taper between material head
Away from so as to adjust blanking velocity, then, material head is rotated under the second motor drives taper by the second rotating shaft, is arranged under taper
Harrow nail on material head breaks up the powder fallen through sliding sleeve, and compressed air is input into body through airduct, and compressed air passes through powder
Corrugated flexible hose is continuously blown in tank body, and the first motor drives first rotating shaft to rotate by transmission mechanism, so that impeller is rotated
Powder whip modified, modified raw material are entered in caching case through conveying pipeline, the raw material in caching case is forced into cylinder,
First servomotor drives adapter sleeve to rotate, and is total in the stopper slot being arranged on adapter sleeve and the positive stop strip being arranged in left rotary shaft
Under same-action, 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 and except iron to the powder for luming, meanwhile, through spray bar to spraying into deep fat, deep fat pair in the second hollow rotating shaft
Second hollow rotating shaft is heated, and the second hollow rotating shaft transfers heat to impeller, so as to heat powder in rotation process, heat
The configured throttle orifice in throttling capping of oil slowly enters fuel reserve tank, powder-modified until completing.The apparatus structure is simple, energy
Adjust automatically blanking velocity, and caking powder can be smashed, can automatically be modified and modified powder is carried out except iron, and
Good iron removal effect, effectively improves modified powder quality, and Deironing mechanism is easy to maintenance quick, while can be carried out when powder-modified
Heating, improves modification efficiency, meanwhile, homogeneous heating, efficiency high.
Brief description of the drawings
Fig. 1 shows front view of the present invention
Fig. 2 shows the present invention except swage structural representation
Fig. 3 shows Deironing mechanism structural representation of the present invention
Fig. 4 shows adapter sleeve side view of the present invention
Fig. 5 shows speed adjusting gear structural representation of the present invention
Fig. 6 shows sliding sleeve side view of the present invention
Fig. 7 shows present invention throttling capping upward view
The motor 2 of frame 1 first
The hollow rotating shaft 4 of tank body 3 first
The transmission mechanism 6 of impeller 5
Conveying pipeline 7 caches case 8
Except the material storing box 10 of swage block 9
The support 12 of controller 11
The fuel reserve tank 14 of speed adjusting gear 13
Throttling 15 spray bars 16 of capping
The balancer structure 302 of corrugated flexible hose 301
The servomotor 902 of cylinder 901 first
The sealing ring 904 of adapter sleeve 903
The end cap 906 of Deironing mechanism 905
The hollow rotating shaft 908 of left rotary shaft 907 second
The magnetic of magnet strip 909 nail 910
The Transition Materials mouth 912 of right spindle 911
The stopper slot 914 of positive stop strip 913
Shake hands 915 bodys 1301
The servomotor 1303 of support base 1,302 second
The feed nut 1305 of leading screw 1304
The sliding sleeve 1307 of left connecting rod 1306
The guide pad 1309 of right connecting rod 1308
The plugging plate 1311 of guide rod 1310
The rotating shaft 1313 of second motor 1,312 second
The harrow nail 1315 of material head 1314 under taper
The escape groove 1317 of airduct 1316
The throttle orifice 1501 of tapering transition face 1318
Specific embodiment
As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, a kind of integrated form powder modifying device, including frame 1,
One motor 2, tank body 3, the first hollow rotating shaft 4, impeller 5, transmission mechanism 6, conveying pipeline 7, caching case 8, except swage block 9, material storing box
10th, controller 11, support 12, speed adjusting gear 13, fuel reserve tank 14, throttling capping 15, spray bar 16,2 described, the first motor
In the upper end of frame 1 left side, the first described motor 2 is connected with the screw thread of frame 1, and described tank body 3 is located at the upper end of frame 1 right side,
The inner side of tank body 3 is stretched into described rotating shaft one end, and described rotating shaft is rotatedly connected with tank body 3, and described rotating shaft runs through impeller 5, institute
The impeller 5 stated is connected with rotating shaft close-fitting, and described transmission mechanism 6 is located at motor lower end and positioned at rotating shaft lower end, described transmission
Mechanism 6 is connected with motor close-fitting and is connected with rotating shaft close-fitting, and described conveying pipeline 7 is located at the right side lower end of tank body 3, described conveying
Pipe 7 is connected with the screw thread of tank body 3, and described caching case 8 is located at the lower end of conveying pipeline 7, described caching case 8 and the screw thread phase of conveying pipeline 7
Connect, described caches the lower end of case 8 except swage block 9 is located at, and described is connected except swage block 9 with the screw thread of case 8 is cached, described storing
Case 10 is located at except the lower end of swage block 9 and positioned at the upper end of frame 1, and described material storing box 10 is connected and and machine with except the screw thread of swage block 9
The screw thread of frame 1 is connected, and described controller 11 is located at the upper end of frame 1, and described controller 11 is connected with the screw thread of frame 1, described
Support 12 is located at the upper end of frame 1, and described support 12 is connected with the screw thread of frame 1, and described speed adjusting gear 13 is located on support 12
End, described speed adjusting gear 13 is connected with the screw thread of support 12, and described fuel reserve tank 14 is located at the upper end of frame 1 and by first hollow turn
Axle 4 runs through, and described fuel reserve tank 14 is connected with the screw thread of frame 1 and is rotatedly connected with the first hollow rotating shaft 4, described throttling capping
15 are located at the lower end of fuel reserve tank 14, and described throttling capping 15 is connected with the screw thread of fuel reserve tank 14, and described spray bar 16 is sequentially passed through
Fuel reserve tank 14 and throttling end cap 906 and the inner side of the first hollow rotating shaft 4 is stretched into, the described module of Deironing mechanism 905 also includes cylinder
901st, the first servomotor 902, adapter sleeve 903, sealing ring 904, Deironing mechanism 905, end cap 906, described cylinder 901 are located at
The caching lower end of case 8 and positioned at the upper end of material storing box 10, described cylinder 901 with cache the screw thread of case 8 be connected and with the screw thread of material storing box 10
It is connected, the first described servomotor 902 is located at the left side of cylinder 901, the first described servomotor 902 and the screw thread of cylinder 901
It is connected, described adapter sleeve 903 is located at the right side of the first servomotor 902 and positioned at the inner side of cylinder 901, described adapter sleeve 903
It is connected with the key of the first servomotor 902 and is rotatedly connected with cylinder 901, described sealing ring 904 is located at the inner side of cylinder 901 and quilt
Adapter sleeve 903 runs through, and described sealing ring 904 is connected with the close-fitting of cylinder 901 and is connected with the gap of adapter sleeve 903, and described removes
Iron mechanism 905 stretches into one end adapter sleeve 903, and described Deironing mechanism 905 is connected with the gap of adapter sleeve 903, described end cap 906
Positioned at the right side of cylinder 901 and positioned at the right side of Deironing mechanism 905, described end cap 906 is connected and and magnetic separator de-ironing with the screw thread of cylinder 901
Structure 905 is rotatedly connected, and described Deironing mechanism 905 also includes that left rotary shaft 907, the second hollow rotating shaft 908, quantity are no less than 2
Magnet strip 909, some magnetic nail 910, right spindle 911, described left rotary shaft 907 stretches into one end and stretches into adapter sleeve 903, described
Left rotary shaft 907 be connected with the gap of adapter sleeve 903, described second hollow rotating shaft 908 is located at the right side of left rotary shaft 907, described
Second hollow rotating shaft 908 is connected with the screw thread of left rotary shaft 907, and described magnet strip 909 is located at the outside of the second hollow rotating shaft 908, institute
The magnet strip 909 stated is connected with the close-fitting of the second hollow rotating shaft 908, and described magnet strip 909 is additionally provided with magnetic nail 910, described magnetic
Nail 910 is connected with the screw thread of magnet strip 909, and described right spindle 911 is located at the right side of the second hollow rotating shaft 908 and stretches into end cap 906
Interior, described right spindle 911 is connected with the screw thread of the second hollow rotating shaft 908 and is rotatedly connected with end cap 906, described speed adjusting gear
13 also include body 1301, support base 1302, the second servomotor 1303, leading screw 1304, feed nut 1305, left connecting rod
1306th, sliding sleeve 1307, right connecting rod 1308, guide pad 1309, guide rod 1310, plugging plate 1311,1312, second turn of the second motor
Material head 1314, some harrow nails 1315, airducts 1316 under axle 1313, taper, it is left that described support base 1302 is located at body 1301
Side, described support base 1302 is connected with the screw thread of body 1301, and the second described servomotor 1303 is located on support base 1302
End, the second described servomotor 1303 is connected with the screw thread of support base 1302, and described leading screw 1304 is located at the second servomotor
1303 lower ends and positioned at the inner side of support base 1302, described leading screw 1304 be connected with the close-fitting of the second servomotor 1303 and with support
Seat 1302 is rotatedly connected, and described leading screw 1304 through feeds nut 1305, described feed nut 1305 and the spiral shell of leading screw 1304
Line is connected and is slided with support base 1302 and is connected, and described left connecting rod 1306 is located at the right side of feed nut 1305 and through body
1301, described left connecting rod 1306 is connected with the screw thread of feed nut 1305 and is movably connected with body 1301, described sliding sleeve
1307 are located at the right side of left connecting rod 1306 and positioned at the inner side of body 1301, described sliding sleeve 1307 and the screw thread phase of left connecting rod 1306
It is connected even and with the gap of body 1301, described right connecting rod 1308 is located at the right side of sliding sleeve 1307 and through body 1301, described
Right connecting rod 1308 be connected with the screw thread of sliding sleeve 1307 and be movably connected with body 1301, described guide pad 1309 is located at right company
The right side of extension bar 1308, described guide pad 1309 is connected with the screw thread of right connecting rod 1308, and described guide rod 1310 runs through guide pad
1309 and positioned at the right side of body 1301, described guide rod 1310 be connected with the gap of guide pad 1309 and with the screw thread phase of body 1301
Even, described closure plate is located at the lower end of body 1301 and positioned at the upper end of support 12, described closure plate be connected with the screw thread of body 1301 and
It is connected with the screw thread of support 12, the second described motor 1312 is located at closure plate lower end, the second described motor 1312 and closure plate screw thread
It is connected, the second described rotating shaft 1313 is located at the upper end of the second motor 1312 and positioned at the inner side of body 1301, the second described rotating shaft
1313 are connected with the close-fitting of the second motor 1312 and are movably connected with body 1301, and material head 1314 is located at second turn under described taper
The upper end of axle 1313 and positioned at the lower end of sliding sleeve 1307, under described taper material head 1314 be connected with the screw thread of the second rotating shaft 1313 and with cunning
Set 1307 is movably connected, and described harrow nail 1315 is located at the outside of material head 1314 under taper, described harrow nail 1315 and taper blanking
First 1314 screw thread is connected, and described airduct 1316 is located at the left side lower end of body 1301, described airduct 1316 and the spiral shell of body 1301
Line is connected, and described tank body 3 is additionally provided with corrugated flexible hose 301, and described corrugated flexible hose 301 is located at the upper end of tank body 3, described ripple
Flexible pipe 301 is connected with the screw thread of tank body 3, and described tank body 3 is additionally provided with balancer structure 302, and described balancer structure 302 is located at tank body
3 upper ends, described balancer structure 302 is connected with the screw thread of tank body 3, and cylinder 901 also includes Transition Materials mouth 913, described Transition Materials
Mouth 912 is located at the outside of cylinder 901, and described Transition Materials mouth 912 is weldingly connected with cylinder 901, and described left rotary shaft 907 is additionally provided with
Positive stop strip 913, described positive stop strip 913 is located at the outside of left rotary shaft 907, described positive stop strip 913 and the body phase of left rotary shaft 907 1
Even, described adapter sleeve 903 is additionally provided with stopper slot 914, and described stopper slot 914 is located at the inner side of adapter sleeve 903, and described is spacing
Not through the main body of adapter sleeve 903, described end cap 906 is additionally provided with handle 915 to groove 914, and described handle 915 is located at end cap 906
Right side, described handle 915 is connected with the screw thread of end cap 906, and during dismounting, manual unlocking end cap 906 will be with end by handle 915
The Deironing mechanism 905 of the connection of lid 906 is extracted, so as to carry out cleaning maintenance to Deironing mechanism 905;During installation, manually by magnetic separator de-ironing
In the feeding cylinder 901 of structure 905 so that the positive stop strip 913 being arranged in left rotary shaft 907 inserts the limit being arranged on adapter sleeve 903
In the groove 914 of position, end cap 906 and cylinder 901 are fixed manually, described body 1301 is additionally provided with escape groove 1317, described
Escape groove 1317 be located at the outside of body 1301, described escape groove 1317 runs through the main body of body 1301, described sliding sleeve 1307
Tapering transition face 1318 is additionally provided with, described tapering transition face 1318 is located at the inner side of sliding sleeve 1307, and described throttling capping 15 is also
Some throttle orifices 1501 are provided with, described throttle orifice 1501 is through throttling capping 15, the integrated form powder modifying device, work
When, second servomotor of the control of controller 11 1303 is driven by leading screw 1304 and moved on feed nut 1305, so as to drive sliding sleeve
1307 are moved along guide rod 1310 so that the tapering transition face 1320 being arranged on sliding sleeve 1307 and material head under taper 1314 are separated,
The angle of the second servomotor 1303 is set, between adjusting under tapering transition face 1320 and taper between material head 1314
Away from, so as to adjust blanking velocity, then, material head 1314 is rotated under the second motor 1312 drives taper by the second rotating shaft 131, if
Put the harrow nail 1315 under taper on material head 1314 to break up the powder fallen through sliding sleeve 1307, through airduct 1316 to body 1301
Through corrugated flexible hose 301 be continuously blown in tank body 3 powder by input compressed air, compressed air, and the first motor 2 passes through transmission mechanism
6 drive first rotating shafts 4 are rotated, so that impeller 5 is rotated powder whip modified, modified raw material enters through conveying pipeline 7
In caching case 8, the raw material in caching case 8 is forced into cylinder 901, and the first servomotor 902 drives adapter sleeve 903 to rotate,
Under the stopper slot 914 being arranged on adapter sleeve 903 and the collective effect of positive stop strip 912 being arranged in left rotary shaft 907, magnetic separator de-ironing
Structure 905 rotates, when powder flows through 909 surface of magnet strip, magnet strip 909 by the iron adsorption in powder, meanwhile, magnetic nail
910 can be broken up and except iron to the powder for luming, meanwhile, it is hot through spray bar 16 to deep fat is sprayed into the second hollow rotating shaft 908
Oil is heated to the second hollow rotating shaft 908, and the second hollow rotating shaft 908 transfers heat to impeller 5, so as in rotation process
Heating powder, the configured throttle orifice 1501 in throttling capping 15 of deep fat slowly enters fuel reserve tank 14, changes until completing powder
Property.The apparatus structure is simple, energy adjust automatically blanking velocity, and the powder that can lump be smashed, and can be modified automatically and to changing
Property after powder carry out except iron, and good iron removal effect effectively improves modified powder quality, and Deironing mechanism 905 is easy to maintenance fast
Victory, while can be heated when powder-modified, improves modification efficiency, meanwhile, homogeneous heating, efficiency high.
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 modifying device, it is characterised in that including frame, the first motor, tank body, the first hollow rotating shaft, leaf
Wheel, transmission mechanism, conveying pipeline, caching case, except swage block, material storing box, controller, support, speed adjusting gear, fuel reserve tank, throttling envelope
Lid, spray bar, the first described motor are located at frame upper end left side, and the first described motor is connected with frame screw thread, described
Tank body is located at frame upper end right side, and tank body inner side is stretched into described rotating shaft one end, and described rotating shaft is rotatedly connected with tank body, described
Rotating shaft run through impeller, described impeller is connected with rotating shaft close-fitting, and described transmission mechanism is positioned at motor lower end and positioned at rotating shaft
Lower end, described transmission mechanism is connected with motor close-fitting and is connected with rotating shaft close-fitting, and described conveying pipeline is located under tank body right side
End, described conveying pipeline is connected with tank body screw thread, and described caching case is located at conveying pipeline lower end, described caching case and conveying pipeline
Screw thread is connected, and described caches case lower end except swage block is located at, and described is connected except swage block with case screw thread is cached, described storage
Hopper is located at except swage block lower end and positioned at frame upper end, described material storing box with except swage block screw thread be connected and with frame screw thread
It is connected, described controller is located at frame upper end, and described controller is connected with frame screw thread, described support is located in frame
End, described support is connected with frame screw thread, and described speed adjusting gear is located at pedestal upper end, described speed adjusting gear and support spiral shell
Line is connected, and described fuel reserve tank is located at frame upper end and is run through by the first hollow rotating shaft, described fuel reserve tank and frame screw thread phase
It is rotatedly connected even and with the first hollow rotating shaft, described throttling capping is located at fuel reserve tank lower end, described throttling capping and oil storage
Case screw thread is connected, and described spray bar sequentially passes through fuel reserve tank and throttling end cap and stretches into the first hollow rotating shaft inner side;
Described Deironing mechanism module also includes cylinder, the first servomotor, adapter sleeve, sealing ring, Deironing mechanism, end cap, institute
The cylinder stated is located at caching case lower end and positioned at material storing box upper end, described cylinder with cache case screw thread be connected and with material storing box spiral shell
Line is connected, and the first described servomotor is located at cylinder left side, and the first described servomotor is connected with cylinder screw, described
Adapter sleeve be located at the first servomotor right side and positioned at cylinder inner side, described adapter sleeve be connected with the first servomotor key and with
Barrel body rotation is connected, and described sealing ring is located at cylinder inner side and is connected set and runs through, described sealing ring and cylinder close-fitting phase
It is connected even and with adapter sleeve gap, adapter sleeve, described Deironing mechanism and adapter sleeve gap are stretched into described Deironing mechanism one end
Be connected, described end cap is located at cylinder right side and positioned at Deironing mechanism right side, described end cap be connected with cylinder screw and with remove
Iron mechanism is rotatedly connected;
Described Deironing mechanism also include the magnet strip of left rotary shaft, the second hollow rotating shaft, quantity no less than 2, some magnetic nail,
Right spindle, described left rotary shaft stretches into one end and stretches into adapter sleeve, and described left rotary shaft is connected with adapter sleeve gap, and described second
Hollow rotating shaft is located at left rotary shaft right side, and the second described hollow rotating shaft is connected with left-hand rotation axle thread, and described magnet strip is positioned at the
Two hollow rotating shafts outside, described magnet strip is connected with the second 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 on the right side of the second hollow rotating shaft and stretches into end cap, the described right side
Rotating shaft is connected with the second hollow rotating shaft screw thread and is rotatedly connected with end cap;
Described speed adjusting gear also include body, support base, the second servomotor, leading screw, feed nut, left connecting rod, sliding sleeve,
Material head, some harrow nails, airducts, described under right connecting rod, guide pad, guide rod, plugging plate, the second motor, the second rotating shaft, taper
Support base be located at body left side, described support base is connected with body screw thread, and the second described servomotor is positioned at support base
Upper end, the second described servomotor is connected with support base screw thread, and described leading screw is located at the second servomotor lower end and is located at
Support base inner side, described leading screw is connected with the second servomotor close-fitting and is rotatedly connected with support base, and described leading screw runs through
Feed nut, described feed nut be connected with threads of lead screw and with support base slide be connected, described left connecting rod be located at into
To 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 be connected with left connecting rod screw thread and with body gap phase
Even, described right connecting rod is located at sliding sleeve right side and through body, and described right connecting rod is connected and and body with sliding sleeve screw thread
It is movably connected, described guide pad is located at right connecting rod right side, described guide pad is connected with right connecting rod screw thread, and described leads
Bar is through guide pad and positioned at body right side, and described guide rod is connected and is connected with body screw thread with block gap is oriented to, described
Closure plate is located at bottom of the pipe and positioned at pedestal upper end, and described closure plate is connected with body screw thread and is connected with support screw thread, described
The second motor be located at closure plate lower end, the second described motor is connected with closure plate screw thread, and the second described rotating shaft is electric positioned at second
Machine upper end and positioned at body inner side, the second described rotating shaft is connected with the second motor close-fitting and is movably connected with body, described
Under taper material head be located at the second rotating shaft upper end and under sliding sleeve lower end, described taper material head be connected with the second shaft thread and
It is movably connected with sliding sleeve, described harrow nail is located at material head outside under taper, described harrow nail is connected with taper blanking head thread, institute
The airduct stated is located at body left side lower end, and described airduct is connected with body screw thread.
2. integrated form powder modifying device as claimed in claim 1, it is characterised in that described tank body is additionally provided with corrugated flexible hose,
Described corrugated flexible hose is located at tank body upper end, and described corrugated flexible hose is connected with tank body screw thread.
3. integrated form powder modifying device as claimed in claim 1, it is characterised in that described tank body is additionally provided with balancer structure,
Described balancer structure is located at tank body upper end, and described balancer structure is connected with tank body screw thread.
4. integrated form powder modifying device as claimed in claim 1, it is characterised in that cylinder also includes Transition Materials mouth, described
Transition Materials mouth is located at cylinder outside, and described Transition Materials mouth is connected with barrel soldering.
5. integrated form powder modifying device as claimed in claim 1, 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 described positive stop strip is connected with left rotary shaft one.
6. integrated form powder modifying device as claimed in claim 1, it is characterised in that described adapter sleeve is additionally provided with stopper slot,
Described stopper slot is located at adapter sleeve inner side, and described stopper slot is not through adapter sleeve main body.
7. integrated form powder modifying device as claimed in claim 1, it is characterised in that described end cap is additionally provided with handle, described
Handle be located at end cap right side, described handle is connected with end cap screw thread.
8. integrated form powder modifying device as claimed in claim 1, it is characterised in that described body is additionally provided with escape groove, institute
The escape groove stated is located at body outside, and described escape groove runs through body main body.
9. integrated form powder modifying device as claimed in claim 1, it is characterised in that described sliding sleeve is additionally provided with tapering transition
Face, described tapering transition face is located at sliding sleeve inner side.
10. integrated form powder modifying device as claimed in claim 1, it is characterised in that described throttling capping is additionally provided with some
Throttle orifice, described throttle orifice is covered through throttling.
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CN201710110510.8A CN106732297A (en) | 2017-02-28 | 2017-02-28 | A kind of integrated form powder modifying device |
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CN201710110510.8A CN106732297A (en) | 2017-02-28 | 2017-02-28 | A kind of integrated form powder modifying device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109499753A (en) * | 2018-10-30 | 2019-03-22 | 南安市弈诚机械科技有限公司 | A kind of iron tramp screening plant of the dry feed based on magnetic transfer principle |
CN110026290A (en) * | 2019-05-05 | 2019-07-19 | 陆永翠 | A kind of ferromagnetic powder filter method of gearbox gear oil |
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2017
- 2017-02-28 CN CN201710110510.8A patent/CN106732297A/en active Pending
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109499753A (en) * | 2018-10-30 | 2019-03-22 | 南安市弈诚机械科技有限公司 | A kind of iron tramp screening plant of the dry feed based on magnetic transfer principle |
CN109499753B (en) * | 2018-10-30 | 2020-08-18 | 连云港韩德饲料有限公司 | Dry feed iron impurity screening device based on magnetic transfer principle |
CN110026290A (en) * | 2019-05-05 | 2019-07-19 | 陆永翠 | A kind of ferromagnetic powder filter method of gearbox gear oil |
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