CN217614422U - Neodymium iron boron powder compounding device - Google Patents

Abstract

The utility model relates to a neodymium iron boron powder mixing device, which comprises a workbench, a mixing barrel, a blowing mechanism, a rotary screening mechanism, a conveying mechanism and a collecting mechanism; the fixed setting of tempering tank is in workstation mesa center department, the one side shaping that center department was kept away from at the top of tempering tank has the feed inlet of a cylindrical shape, rotatable sealed lid that is provided with on the feed inlet, the fixed top center department that sets up at the tempering tank of rotary screening mechanism, blow off the fixed one side that keeps away from the feed inlet that sets up at the top of tempering tank of mechanism, the bottom outer wall shaping of tempering tank has the round hole that runs through, conveying mechanism is fixed to be set up on the workstation and the rotatable setting of conveying mechanism's the execution part is in the round hole that runs through of tempering tank, it sets up in the workstation below to collect the mechanism is fixed. The same size's granule is selected out with neodymium iron boron powder to the cooperation that this application was through rotary screening mechanism and blowing mechanism, has solved how better mixed neodymium iron boron powder's technical problem.

Description

Neodymium iron boron powder compounding device

Technical Field

The utility model relates to a neodymium iron boron processing field specifically relates to a neodymium iron boron powder compounding device.

Background

In neodymium iron boron processing industry, carry out the compounding after the alloy powder of different kinds is weighed according to the mass ratio usually, current compounding is only poured the powder into the holding vessel usually, put the holding vessel and overturn the compounding on compounding equipment again, because only exerted outside upset power, the effect is comparatively single, inside different powder can gather in a certain upset sometimes, be difficult to the homodisperse, compounding is inefficient, and the easy mutual adsorption of different alloy powder is reunited, current blendor can not break up these groups in advance, influence subsequent compounding effect.

Therefore, a neodymium iron boron powder mixing device is needed.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide a neodymium iron boron powder compounding device to solve the problems in the prior art.

For solving the prior art problem, the utility model discloses a technical scheme be:

a neodymium iron boron powder mixing device comprises a workbench, a mixing barrel, a blowing mechanism, a rotary screening mechanism, a conveying mechanism and a collecting mechanism;

the tempering tank is cylindrical shape and the tempering tank is the fixed setting in workstation mesa center department of vertical state, the top of tempering tank is kept away from one side shaping of center department and is had the feed inlet of a cylindrical shape, rotatable sealed lid that is provided with on the feed inlet, rotatory screening mechanism is fixed to be set up in the top center department of tempering tank, the shaping of top center department of tempering tank has first perforation, the inside of rotatory screening mechanism's execution portion through first perforation stretched into the tempering tank, blow off the fixed setting of mechanism and keep away from one side of feed inlet at the top of tempering tank, the shaping of top outer wall of tempering tank has the second perforation, blow off the execution portion and the second perforation fixed connection of mechanism, the shaping of bottom outer wall of tempering tank has the round hole that runs through, conveying mechanism is fixed to be set up on the workstation and the rotatable setting of conveying mechanism's execution portion is in the round hole that runs through of tempering tank, the shaping of cavity bottom center department of tempering tank has a discharge gate, run through the round hole and the internal connection of tempering tank, the position shaping that the workstation mesa is close to rectangle breach of tempering tank has a breach and is located conveying mechanism, the fixed setting of workstation square breach.

Preferably, the blowing mechanism comprises an air pump and an air conveying pipe;

the air pump is fixed to be set up and keeps away from the position of center department at the tempering tank top, the output of air pump and the one end fixed connection of gas-supply pipe, and the one end that the air pump was kept away from to the gas-supply pipe is fixed to be set up in the second perforation of tempering tank to first perforation is located between rotatory screening mechanism execution portion and the tempering tank top.

In particular, the outer wall of the mixing barrel is also provided with a piece of transparent glass.

Preferably, the rotary screening mechanism comprises a first rotary driver, a transmission shaft, a sieve plate, a spiral scraper and a stirring rod;

the first rotary driver is fixedly arranged at the center of the top of the mixing barrel, the transmission shaft is vertically and rotatably arranged in a first through hole of the mixing barrel, and an execution part of the first rotary driver is fixedly connected with one end, close to the top of the mixing barrel, of the transmission shaft;

the sieve plate is in a circular shape, a third through hole is formed in the center of the sieve plate, the sieve plate is in a horizontal state, the transmission shaft is fixedly arranged in the third through hole in the center of the sieve plate, the second through hole is positioned between the sieve plate and the top of the mixing barrel, a plurality of fourth through holes are further formed in the sieve plate, and the fourth through holes are arranged in the circumferential direction of the sieve plate and the diameter direction of the sieve plate at equal intervals;

the spiral scraper is fixedly arranged on the transmission shaft and positioned between the sieve plate and the bottom of the mixing barrel, and the spiral scraper is abutted against the inner wall of the mixing barrel;

the puddler has a plurality ofly, and the puddler is the arc shape, and the puddler is vertical state fixed mounting and keeps away from the one end at blending tank top and be located between spiral scraper blade and the blending tank bottom at the transmission shaft, and the puddler is along the setting of transmission shaft circumferencial direction equidistance.

Preferably, the conveying mechanism comprises a second rotary driver, a coupling and a screw rod;

the second rotary driver is fixedly arranged on the workbench table top and is positioned on one side of the mixing barrel through which the round hole is penetrated, the screw rod can be rotatably arranged in the through round hole of the mixing barrel, one end of the screw rod close to the second rotary driver is fixedly connected with the execution part of the second rotary driver through the coupler, and one end of the screw rod far away from the second rotary driver faces to the rectangular notch on the workbench table top.

Preferably, the collecting mechanism comprises a linear driver, a supporting frame and a collecting box;

the two linear drivers are symmetrically arranged at two sides of the rectangular notch and are positioned below the table top of the workbench;

the supporting seat is rectangular, and the execution parts of the two linear drivers are respectively fixedly connected with the two ends of the supporting seat;

the collecting box is the square shape, and the size of collecting box is the same with the rectangle breach of workstation just, and the shaping has a rectangle to stretch out the end on the supporting seat, and two linear actuator stretch out the end with the rectangle and mutually support, make the collecting box be in just under the rectangle breach, and the collecting box is close to the one end shaping of rectangle breach and has the space that holds neodymium iron boron powder.

Preferably, the workbench further comprises supporting legs and universal wheels;

the supporting legs are cylindrical and fixedly arranged at four corners of the workbench; all fixed mounting has a universal wheel on every landing leg, and the quantity of universal wheel is the same with landing leg quantity.

Compared with the prior art, the beneficial effect of this application is:

1. this application will treat the neodymium iron boron powder that mixes through the staff open sealed lid earlier and pour into the tempering tank through the feed inlet on the tempering tank in, turn round tight sealed lid, later the staff opens rotatory screening mechanism and blows off the mechanism, rotatory screening mechanism screens the neodymium iron boron powder, sieve out the neodymium iron boron powder with the size and mix, the execution part that blows off the mechanism blows off the neodymium iron boron powder through the second perforation, will blow off because of the neodymium iron boron powder of magnetic force actuation, and then the screening through rotatory screening mechanism, rotatory screening mechanism mixes the neodymium iron boron powder that filters, after the mixture, the neodymium iron boron powder that mixes enters into the through hole through tempering tank cavity bottom center department fashioned discharge gate, rotatable setting of the execution part of conveying mechanism is in the through hole, carry the neodymium iron boron powder that mixes to the workstation mesa's neodymium breach department through the conveying mechanism execution part, the neodymium iron boron powder that mixes drops through the rectangle breach and collects in the mechanism, accomplish whole mixing process. The technical problem to be solved is how to mix neodymium iron boron powder.

2. This application starts the air pump through the staff, the output of air pump and the one end fixed connection of gas-supply pipe, the gas-supply pipe is kept away from the fixed setting of one end of air pump in the second perforation of blending tank, gaseous neodymium iron boron powder of treating the mixture through the second perforation blows, it is rotatory by rotatory screening mechanism drive to treat the neodymium iron boron powder of mixture, make more comprehensive that blows, the condition of neodymium iron boron powder can be observed to transparent glass through the outer wall mounting of blending tank, thereby the better neodymium iron boron powder that will bind separates. The technical problem to be solved is how to separate the bonded neodymium iron boron powder.

3. This application will treat the neodymium iron boron powder of mixing to pour into the feed inlet on the blending hopper through the staff, start first rotary actuator and air pump afterwards, first rotary actuator's execution portion and transmission shaft fixed connection, the transmission shaft drives the sieve rather than fixed connection and rotates, the neodymium iron boron powder that enters into on the sieve also rotates simultaneously, the neodymium iron boron powder of equidimension is screened out, along with the rotation of sieve, the gas-supply pipe blows off the part of gluing in the neodymium iron boron powder, the neodymium iron boron powder of equidimension sieves the rotatory region of spiral scraper blade through the fourth perforation on the sieve, the spiral scraper blade can scrape down the neodymium iron boron powder of gluing on the blending hopper inner wall and carry the work area of puddler along the spiral, neodymium iron boron powder stirs at the work area of puddler, better mixing of neodymium iron boron powder of equidimension, later enter into the through the discharge gate of blending hopper in the through, the transport mechanism that sets up in the through-hole carries the good neodymium iron boron powder of mixing, the good neodymium iron boron powder of mixing is carried the fashioned breach department on the mesa, drop in the collection mechanism thereupon. The technical problem to be solved is how to screen neodymium iron boron powder with the same size and mix the neodymium iron boron powder.

4. This application starts the rotatory driver of second through the staff, the one end fixed connection that the execution portion of the rotatory driver of second is close to the rotatory driver of second through shaft coupling and hob, the staff will treat the neodymium iron boron powder of mixing and pour into the feed inlet of blending drum, screening through the screening board and the stirring back of puddler, the neodymium iron boron powder that mixes enters into the discharge gate department of blending drum, the discharge gate with run through between the round hole communicating, the neodymium iron boron powder that mixes is promoted rectangle breach department along with the rotation of hob, fall into subsequently in the collection mechanism, because the structure particularity of hob, neodymium iron boron powder wherein can be promoted along with the rotation of hob, can not lead to the discharge gate of blending drum to block up because the neodymium iron boron powder that mixes is too much. The technical problem to be solved is how to avoid the blockage of the neodymium iron boron powder.

5. This application starts two sharp drivers through the staff, the execution portion of two sharp drivers promotes the supporting seat downwards, conflict ground, later the staff places the collecting box on the supporting seat along the space that forms between two sharp drivers, make the rectangle on its conflict supporting seat stretch out the end, at this moment, the collecting box is located workstation rectangle breach under just, the staff starts two sharp drivers, the execution portion of two sharp drivers drives the supporting seat and removes towards the direction that is close to workstation rectangle breach, when the top of collecting box is neat with the workstation mesa just, close sharp driver, the rotatory driver of second drives the hob and rotates, neodymium iron boron powder spiral propelling movement to the collecting box that will mix is good, when the collecting box collects full neodymium iron boron powder, the staff starts two sharp drivers and promotes the supporting seat towards keeping away from rectangle breach direction, when its contact ground, the staff can very convenient change the collecting box, mixing work after not influencing. The technical problem to be solved is how to collect the neodymium iron boron powder which is well mixed more easily.

6. This application all installs an universal wheel on through the workstation landing leg, when the staff need remove neodymium iron boron powder compounding device, only need promote the workstation, and the universal wheel of installation will assist the staff to remove neodymium iron boron powder compounding device towards staff's promotion direction on the workstation landing leg, saves staff's strength for neodymium iron boron powder compounding device is more convenient for transport and transport. The technical problem solved is how to convenient removal neodymium iron boron powder compounding device.

Drawings

FIG. 1 is a front view of the present application;

FIG. 2 isbase:Sub>A plan sectional view taken along A-A of FIG. 1;

FIG. 3 is a perspective view of the present application;

FIG. 4 is a perspective view of the blow-off mechanism of the present application;

FIG. 5 is a perspective view of the rotary screening mechanism of the present application;

FIG. 6 is a perspective view of the delivery mechanism of the present application;

FIG. 7 is a perspective view of the collection mechanism of the present application;

the reference numbers in the figures are:

1-a workbench; 1 a-a rectangular notch; 1 b-a leg; 1 c-a universal wheel;

2-mixing barrel; 2 a-a feed inlet; 2 b-a sealing cover; 2 c-first perforation; 2 d-second perforation; 2 e-penetrating the round hole; 2 f-a discharge hole; 2 g-clear glass;

3-blowing mechanism; 3 a-an air pump; 3 b-a gas delivery pipe;

4-rotating the screening mechanism; 4 b-a drive shaft; 4 c-sieve plate; 4c 1-third perforation; 4c 2-fourth perforation; 4 d-a helical flight; 4 e-a stirring rod;

5-a conveying mechanism; 5 a-a second rotary drive; 5 b-a coupler; 5 c-a screw rod;

6-a collecting mechanism; 6 a-linear drive; 6 b-a support seat; 6 c-Collection tank.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in detail with reference to the accompanying drawings and detailed description.

In order to solve the technical problem of how to mix neodymium iron boron powder, as shown in fig. 1-3, the following technical solutions are provided:

a neodymium iron boron powder mixing device comprises a workbench 1, a mixing barrel 2, a blowing mechanism 3, a rotary screening mechanism 4, a conveying mechanism 5 and a collecting mechanism 6;

mixing barrel 2 is cylindrical shape and mixing barrel 2 is the fixed setting in 1 mesa center department of workstation 1 of vertical state, the top of mixing barrel 2 is kept away from one side shaping of center department and is had the feed inlet 2a of a cylindrical shape, rotatable sealed lid 2b that is provided with on feed inlet 2a, rotatory screening mechanism 4 is fixed to be set up in the top center department of mixing barrel 2, the shaping of top center department of mixing barrel 2 has first perforation 2c, the inside that rotatory screening mechanism 4's execution portion stretched into mixing barrel 2 through first perforation 2c, blow off the fixed one side of keeping away from feed inlet 2a of setting at mixing barrel 2's top of mechanism 3, the shaping of mixing barrel 2's top outer wall has second perforation 2d, blow off mechanism 3's execution portion and second perforation 2d fixed connection, mixing barrel 2's bottom outer wall shaping has the round hole 2e that runs through, conveying mechanism 5 is fixed to be set up on workstation 1 and conveying mechanism 5's rotatable setting is in rectangular mixing barrel 2's round hole 2e that runs through, mixing barrel 2's cavity bottom center department shaping has a discharge gate 2f, run through 2e and mixing barrel 2a fixed setting is located a breach 1 below the conveying mechanism 1a and is located the conveying mechanism 1a breach 1a fixed position of mixing barrel 2.

Concretely, this application will treat that the neodymium iron boron powder that mixes pours into mixing barrel 2 into through feed inlet 2a on mixing barrel 2 through the staff open sealed lid 2b earlier, turn round tight sealed lid 2b, later the staff opens rotatory screening mechanism 4 and blows off mechanism 3, rotatory screening mechanism 4 screens the neodymium iron boron powder, sieve out the neodymium iron boron powder with the same size and mix, blow off mechanism 3's execution portion and blow the neodymium iron boron powder through second perforation 2d, blow off the neodymium iron boron powder because of magnetic force actuation, and then through the screening of rotatory screening mechanism 4, rotatory screening mechanism 4 mixes the neodymium iron boron powder that screens well, after the mixing, the neodymium iron boron powder that mixes well enters into in running through round hole 2e through mixing barrel 2 cavity bottom center department fashioned discharge gate 2f, the rotatable setting of conveying mechanism 5's execution portion is in running through round hole 2e, carry the neodymium iron boron powder that mixes to the mesa of workstation 1 through conveying mechanism 5 execution portion, the mixed rectangle breach 1a that falls through the neodymium iron boron powder that mixes, accomplish whole rectangle breach 6a mixing process.

Further:

in order to solve the technical problem of how to separate bonded neodymium iron boron powder, as shown in fig. 3-4, the following technical solutions are provided:

the blowing mechanism 3 comprises an air pump 3a and an air delivery pipe 3b;

the fixed position of keeping away from center department at 2 tops of blending bin of setting of air pump 3a, the output of air pump 3a and the one end fixed connection of air-supply pipe 3b, the fixed setting of the one end of air pump 3a is kept away from to air-supply pipe 3b is in the second perforation 2d of blending bin 2 to first perforation 2c is located between 4 executions of rotatory screening mechanism and the 2 tops of blending bin.

Specifically, a piece of transparent glass 2g is further mounted on the outer wall of the mixing tub 2.

Specifically, this application starts air pump 3a through the staff, air pump 3 a's output and air-supply pipe 3 b's one end fixed connection, air-supply pipe 3b keeps away from the fixed setting of one end of air pump 3a in the second perforation 2d of tempering tank 2, gaseous neodymium iron boron powder of treating the mixture through second perforation 2d blows, treat that the neodymium iron boron powder of mixing is driven rotatoryly by rotatory screening mechanism 4, make more comprehensive that blows, can observe the condition of neodymium iron boron powder through 2 outer wall mounting's of tempering tank 2 clear glass 2g, thereby the better neodymium iron boron powder that will bind separates.

Further:

in order to solve the technical problem of how to select and mix the ndfeb powder with the same size, as shown in fig. 5, the following technical solutions are provided:

the rotary screening mechanism 4 comprises a first rotary driver, a transmission shaft 4b, a sieve plate 4c, a spiral scraper 4d and a stirring rod 4e;

the first rotary driver is fixedly arranged at the center of the top of the mixing barrel 2, the transmission shaft 4b is vertically and rotatably arranged in the first through hole 2c of the mixing barrel 2, and the execution part of the first rotary driver is fixedly connected with one end, close to the top of the mixing barrel 2, of the transmission shaft 4 b;

the sieve plate 4c is in a circular shape, a third through hole 4c1 is formed in the center of the sieve plate 4c, the sieve plate 4c is in a horizontal state, the transmission shaft 4b is fixedly arranged in the third through hole 4c1 in the center of the sieve plate 4c, the second through hole 2d is positioned between the sieve plate 4c and the top of the mixing barrel 2, a plurality of fourth through holes 4c2 are formed in the sieve plate 4c, and the fourth through holes 4c2 are arranged at equal intervals along the circumferential direction of the sieve plate 4c and the diameter direction of the sieve plate 4 c;

the spiral scraper 4d is fixedly arranged on the transmission shaft 4b and is positioned between the sieve plate 4c and the bottom of the mixing barrel 2, and the spiral scraper 4d is abutted against the inner wall of the mixing barrel 2;

puddler 4e has a plurality ofly, and puddler 4e is arc shape, and puddler 4e is vertical state fixed mounting and keeps away from the one end at 2 tops of blending tank and be located between 2 bottoms of spiral scraper blade 4d and the blending tank at transmission shaft 4b, and puddler 4e is along the equidistant setting of transmission shaft 4b circumferencial direction.

Specifically, this application pours into the neodymium iron boron powder that waits to mix into feed inlet 2a on tempering tank 2 through the staff, start first rotary actuator and air pump 3a afterwards, first rotary actuator's execution portion and transmission shaft 4b fixed connection, transmission shaft 4b drives and rotates rather than fixed connection's sieve 4c, it also rotates simultaneously to enter into the neodymium iron boron powder on the sieve 4c, sieve out the neodymium iron boron powder of the same size, along with sieve 4 c's rotation, the part that binds among the transmission pipe 3b to the neodymium iron boron powder blows off, the neodymium iron boron powder of the same size screens the rotation region of spiral scraper blade 4d through fourth perforation 4c2 on the sieve 4c, spiral scraper blade 4d can scrape down the neodymium iron boron powder that binds on tempering tank 2 inner wall and carry the work area of puddler 4e along the spiral, the neodymium iron boron powder stirs in the work area of puddler 4e, the better mixing of the neodymium iron boron powder of the same size, later get into the round hole through tempering tank 2f and run through in 2e, the round hole that sets up 5 in the good transport mechanism that receives the good neodymium iron boron powder and is carried on the transport mesa 1a shaping thereupon, the transport mechanism, the good transport notch that drops.

Further:

in order to solve the technical problem of how to avoid the clogging of the neodymium iron boron powder, as shown in fig. 6, the following technical solutions are provided:

the conveying mechanism 5 comprises a second rotary driver 5a, a coupling 5b and a screw rod 5c;

the second rotary driver 5a is fixedly arranged on the table top of the workbench 1 and is positioned on one side of the mixing barrel 2 penetrating the round hole 2e, the screw rod 5c can be rotatably arranged in the round hole 2e of the mixing barrel 2, one end of the screw rod 5c close to the second rotary driver 5a is fixedly connected with the execution part of the second rotary driver 5a through the coupler 5b, and one end of the screw rod 5c far away from the second rotary driver 5a faces the rectangular notch 1a on the table top of the workbench 1.

Specifically, according to the present application, a worker starts the second rotary driver 5a, an executing portion of the second rotary driver 5a is fixedly connected to one end, close to the second rotary driver 5a, of the spiral rod 5c through the coupler 5b, the worker pours the neodymium iron boron powder to be mixed into the feed port 2a of the mixing barrel 2, after the neodymium iron boron powder is screened by the screening plate and is stirred by the stirring rod 4e, the mixed neodymium iron boron powder enters the discharge port 2f of the mixing barrel 2, the discharge port 2f is communicated with the through circular hole 2e, the mixed neodymium iron boron powder is pushed to the rectangular notch 1a along with the rotation of the spiral rod 5c and then falls into the collecting mechanism 6, and due to the structural particularity of the spiral rod 5c, the neodymium iron boron powder therein is pushed along with the rotation of the spiral rod 5c, so that the discharge port 2f of the mixing barrel 2 is not blocked due to the excessive mixed neodymium iron boron powder.

Further:

in order to solve the technical problem of how to collect mixed neodymium iron boron powder more easily, as shown in fig. 7, the following technical solutions are provided:

the collecting mechanism 6 comprises a linear driver 6a, a supporting frame and a collecting box 6c;

the two linear drivers 6a are symmetrically arranged at two sides of the rectangular notch 1a and are positioned below the table top of the workbench 1;

the supporting seat 6b is rectangular, and the executing parts of the two linear drivers 6a are respectively and fixedly connected with the two ends of the supporting seat 6 b;

collecting box 6c is the square shape, and collecting box 6 c's size is the same with the rectangle breach 1a of workstation 1 just, and the shaping has a rectangle to stretch out the end on the supporting seat 6b, and two linear actuator 6a stretch out the end with the rectangle and mutually support, make collecting box 6c be in under rectangle breach 1a just, and the one end shaping that collecting box 6c is close to rectangle breach 1a has the space that holds neodymium iron boron powder.

Specifically, according to the present application, the worker starts the two linear drivers 6a, the executing portions of the two linear drivers 6a push the supporting seat 6b downward to abut against the ground, and then places the collecting box 6c on the supporting seat 6b along the space formed between the two linear drivers 6a to abut against the rectangular protruding end of the supporting seat 6b, at this time, the collecting box 6c is located right below the rectangular notch 1a of the workbench 1, the worker starts the two linear drivers 6a, the executing portions of the two linear drivers 6a drive the supporting seat 6b to move in the direction close to the rectangular notch 1a of the workbench 1, when the top of the collecting box 6c is just aligned with the top of the workbench 1, the linear drivers 6a are turned off, the second rotary driver 5a drives the spiral rod 5c to rotate, the mixed neodymium iron boron powder is spirally pushed into the collecting box 6c, when the collecting box 6c is full of neodymium iron boron powder, the worker starts the two linear drivers 6a to push the supporting seat 6b in the direction far away from the notch 1a, when the collecting box is fully aligned with the neodymium iron boron powder, the ground, the worker can conveniently replace the collecting box, and the mixed collecting box 6c cannot influence the mixed working of the collecting box.

And further:

in order to solve the technical problem of how to conveniently move the neodymium iron boron powder mixing device, as shown in fig. 1, the following technical scheme is provided:

the workbench 1 also comprises supporting legs 1b and universal wheels 1c;

the supporting legs 1b are cylindrical, and the supporting legs 1b are fixedly arranged at four corners of the workbench 1; each supporting leg 1b is fixedly provided with a universal wheel 1c, and the number of the universal wheels 1c is the same as that of the supporting legs 1 b.

Specifically, all install an universal wheel 1c on this application through 1 landing leg 1b of workstation, when the staff need remove neodymium iron boron powder compounding device, only need promote workstation 1, the universal wheel 1c of installation will assist the staff to remove neodymium iron boron powder compounding device towards staff's promotion direction on the 1 landing leg 1b of workstation, saves staff's strength for neodymium iron boron powder compounding device is more convenient for transport and transport.

This application will treat the neodymium iron boron powder that mixes to pour into mixing barrel 2 through feed inlet 2a on mixing barrel 2 through the staff open sealed lid 2b earlier, turn round sealed lid 2b tightly, later the staff opens rotatory screening mechanism 4 and blows off mechanism 3, rotatory screening mechanism 4 screens the neodymium iron boron powder, sieve out the neodymium iron boron powder of the same size and mix, blow off mechanism 3's execution portion and blow off the neodymium iron boron powder through second perforation 2d, blow off the neodymium iron boron powder because of the magnetic force actuation, and then through the screening of rotatory screening mechanism 4, rotatory screening mechanism 4 mixes the neodymium iron boron powder that filters, after the mixture, the neodymium iron boron powder that mixes gets into in penetrating through round hole 2e through the fashioned discharge gate 2f of mixing barrel 2 cavity bottom center department, the rotatable setting of the execution portion of conveying mechanism 5 is in penetrating through round hole 2e, carry the neodymium iron boron powder that mixes to workstation mesa 1a breach of breach through the rectangle mechanism that conveying mechanism 5 execution portion carries, the neodymium iron boron powder that mixes is through the breach of collection in 1a completion, whole mixing process is accomplished through collection rectangle mechanism 6 a. Solves the technical problem of how to mix neodymium iron boron powder. This application starts air pump 3a through the staff, the output of air pump 3a and air-supply pipe 3 b's one end fixed connection, air-supply pipe 3b keeps away from the fixed setting of one end of air pump 3a in the second perforation 2d of tempering tank 2, gaseous neodymium iron boron powder of treating the mixture through second perforation 2d blows, treat that the neodymium iron boron powder of mixing is driven rotatoryly by rotatory screening mechanism 4, make more comprehensive that blows, the condition of neodymium iron boron powder can be observed to transparent glass 2g through 2 outer wall mountings of tempering tank, thereby the better neodymium iron boron powder that will bind separates. The technical problem of how to separate the neodymium iron boron powder that binds is solved. This application pours the neodymium iron boron powder of waiting to mix into feed inlet 2a on tempering tank 2 through the staff, start first rotary actuator and air pump 3a afterwards, first rotary actuator's execution portion and transmission shaft 4b fixed connection, transmission shaft 4b drives and rotates rather than fixed connection's sieve 4c, it also rotates simultaneously to enter into the neodymium iron boron powder on the sieve 4c, sieve out the neodymium iron boron powder of the same size, along with sieve 4 c's rotation, the part that binds in the pneumatic-supply pipe 3b is to the neodymium iron boron powder blows off, the neodymium iron boron powder of the same size sieves the rotatory region of spiral scraper blade 4d through fourth perforation 4c2 on the sieve 4c, spiral scraper blade 4d can scrape down the neodymium iron boron powder that binds on tempering tank 2 inner wall and carry the work area of tempering rod 4e along the spiral, the neodymium iron boron powder stirs in the work area of tempering rod 4e, the better mixture of the neodymium iron boron powder of the same size, later get into in running through tempering tank 2's discharge gate 2f and run through round hole 2e, the transport mechanism 5 that runs through in the transport mechanism is good with mixing tank 2e mixes the good neodymium iron boron powder and carries on the good neodymium iron boron powder collection mesa is carried on the shaping by work platform face 1a, the transport notch that drops thereupon, neodymium iron boron powder, the neodymium iron boron platform is carried on the transport mechanism 1a that the formation. The technical problem of how to select and mix the neodymium iron boron powder with the same size is solved. According to the application, the worker starts the two linear drivers 6a, the execution parts of the two linear drivers 6a push the supporting seat 6b downwards to be abutted against the ground, then the worker places the collection box 6c on the supporting seat 6b along a space formed between the two linear drivers 6a to enable the collection box to abut against the rectangular extending end on the supporting seat 6b, at the moment, the collection box 6c is located right below the rectangular notch 1a of the workbench 1, the worker starts the two linear drivers 6a, the execution parts of the two linear drivers 6a drive the supporting seat 6b to move towards the direction close to the rectangular notch 1a of the workbench 1, when the top of the collection box 6c is flush with the table top of the workbench 1, the linear drivers 6a are closed, the second rotary driver 5a drives the spiral rod 5c to rotate, the mixed neodymium iron boron powder is spirally pushed into the collection box 6c, when the collection box 6c is fully collected with the neodymium iron boron powder, the worker starts the two linear drivers 6a to push the supporting seat 6b towards the direction far away from the rectangular notch 1a, when the neodymium iron boron powder abuts against the ground, the worker can conveniently replace the collection box, and the collection box 6c, and the collection box is not to be mixed after the worker does not affect the collection box. Solves the technical problem of how to collect the mixed neodymium iron boron powder more easily.

The above embodiments only represent one or several embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the concept of the present invention, several variations and modifications can be made, which all fall within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (6)

1. A neodymium iron boron powder mixing device is characterized by comprising a workbench (1), a mixing barrel (2), a blowing mechanism (3), a rotary screening mechanism (4), a conveying mechanism (5) and a collecting mechanism (6);

the mixing barrel (2) is in a cylindrical shape, the mixing barrel (2) is fixedly arranged at the center of the table top of the workbench (1) in a vertical state, a feeding hole (2 a) in a cylindrical shape is formed in one side, far away from the center, of the top of the mixing barrel (2), a sealing cover (2 b) is rotatably arranged on the feeding hole (2 a), a rotary screening mechanism (4) is fixedly arranged at the center of the top of the mixing barrel (2), a first perforation (2 c) is formed in the center of the top of the mixing barrel (2), an execution part of the rotary screening mechanism (4) extends into the mixing barrel (2) through the first perforation (2 c), a blowing mechanism (3) is fixedly arranged on one side, far away from the feeding hole (2 a), of the top of the mixing barrel (2), a second perforation (2 d) is formed in the outer wall of the top of the mixing barrel (2), an execution part of the blowing mechanism (3) is fixedly connected with the second perforation (2 d), a circular hole (2 e) penetrates through the outer wall of the bottom of the mixing barrel (2), a conveying mechanism (5) is fixedly arranged on the working table, and a discharge hole (2) is connected with a discharge hole (2 e) through the mixing barrel (2) in the mixing barrel (2) through which the center, a rectangular notch (1 a) is formed at the position, close to the mixing barrel (2), of the table top of the workbench (1), the rectangular notch (1 a) is located in the conveying direction of the conveying mechanism (5), and the collecting mechanism (6) is fixedly arranged below the rectangular notch (1 a) of the table top of the workbench (1).

2. A neodymium iron boron powder mixing device according to claim 1, characterized in that the blowing mechanism (3) comprises an air pump (3 a) and an air pipe (3 b);

the air pump (3 a) is fixedly arranged at the top of the mixing barrel (2) and far away from the center, the output end of the air pump (3 a) is fixedly connected with one end of the air pipe (3 b), one end of the air pipe (3 b) far away from the air pump (3 a) is fixedly arranged in a second perforation (2 d) of the mixing barrel (2), and the first perforation (2 c) is positioned between the execution part of the rotary screening mechanism (4) and the top of the mixing barrel (2);

in particular, the outer wall of the mixing barrel (2) is also provided with a piece of transparent glass (2 g).

3. A neodymium iron boron powder mixing device according to claim 1, characterized in that the rotary screening mechanism (4) comprises a first rotary driver, a transmission shaft (4 b), a sieve plate (4 c), a spiral scraper (4 d) and a stirring rod (4 e);

the first rotary driver is fixedly arranged at the center of the top of the mixing barrel (2), the transmission shaft (4 b) is vertically and rotatably arranged in a first through hole (2 c) of the mixing barrel (2), and an execution part of the first rotary driver is fixedly connected with one end, close to the top of the mixing barrel (2), of the transmission shaft (4 b);

the sieve plate (4 c) is circular, a third through hole (4 c 1) is formed in the center of the sieve plate (4 c), the sieve plate (4 c) is in a horizontal state, the transmission shaft (4 b) is fixedly arranged in the third through hole (4 c 1) in the center of the sieve plate (4 c), the second through hole (2 d) is located between the sieve plate (4 c) and the top of the mixing barrel (2), a plurality of fourth through holes (4 c 2) are formed in the sieve plate (4 c), and the fourth through holes (4 c 2) are arranged at equal intervals along the circumferential direction of the sieve plate (4 c) and the diameter direction of the sieve plate (4 c);

the spiral scraper (4 d) is fixedly arranged on the transmission shaft (4 b) and is positioned between the sieve plate (4 c) and the bottom of the mixing barrel (2), and the spiral scraper (4 d) is abutted against the inner wall of the mixing barrel (2);

puddler (4 e) have a plurality ofly, and puddler (4 e) are arc shape, and puddler (4 e) are vertical state fixed mounting and keep away from the one end at blending tank (2) top and lie in spiral scraper blade (4 d) and between blending tank (2) bottom at transmission shaft (4 b), and the setting of transmission shaft (4 b) circumferencial direction equidistance is followed in puddler (4 e).

4. A neodymium-iron-boron powder mixing device according to claim 1, characterized in that the conveying mechanism (5) comprises a second rotary driver (5 a), a coupling (5 b) and a screw rod (5 c);

the second rotary driver (5 a) is fixedly arranged on the table top of the workbench (1) and is positioned on one side of the mixing barrel (2) penetrating through the round hole (2 e), the screw rod (5 c) can be rotatably arranged in the round hole (2 e) of the mixing barrel (2), one end, close to the second rotary driver (5 a), of the screw rod (5 c) is fixedly connected with an execution part of the second rotary driver (5 a) through the coupler (5 b), and one end, far away from the second rotary driver (5 a), of the screw rod (5 c) faces towards the rectangular notch (1 a) on the table top of the workbench (1).

5. A neodymium iron boron powder mixing device according to claim 1, characterized in that, the collecting mechanism (6) comprises a linear driver (6 a), a supporting frame and a collecting box (6 c);

the two linear drivers (6 a) are symmetrically arranged at two sides of the rectangular notch (1 a) and are positioned below the table top of the workbench (1);

the supporting seat (6 b) is rectangular, and the execution parts of the two linear drivers (6 a) are respectively fixedly connected with the two ends of the supporting seat (6 b);

the collecting box (6 c) is in a square shape, the size of the collecting box (6 c) is just the same as that of the rectangular notch (1 a) of the workbench (1), a rectangular extending end is formed on the supporting seat (6 b), the two linear drivers (6 a) are matched with the rectangular extending end, the collecting box (6 c) is just positioned under the rectangular notch (1 a), and a space for containing neodymium, iron and boron powder is formed at one end, close to the rectangular notch (1 a), of the collecting box (6 c).

6. A neodymium iron boron powder mixing device according to claim 1, characterized in that the working table (1) further comprises supporting legs (1 b) and universal wheels (1 c);

the supporting legs (1 b) are cylindrical, and the supporting legs (1 b) are fixedly arranged at four corners of the workbench (1); all fixed mounting has a universal wheel (1 c) on every landing leg (1 b), and the quantity of universal wheel (1 c) is the same with landing leg (1 b) quantity.

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