CN214635855U - Powder metallurgy double-cone W-shaped gravity-free blade mixing system - Google Patents

Abstract

The utility model discloses a powder metallurgy bipyramid W type does not have gravity paddle hybrid system, including first frame, still including stirring more even multiple stirring structure, prevent scraping of material adhesion material structure and preventing the material structure of throwing of card material, the main part is installed through the pivot in one side of first frame, and one side of main part installs first actuating lever, one side that the main part was kept away from is provided with the second frame, and the one end of first actuating lever runs through one side that the second frame extended to the second frame, first driving motor is installed to the one end of first actuating lever. The utility model discloses a be provided with the crank, rotate the crank, it is rotatory to drive the drive lever through the crank, because drive gear and driven gear intermeshing, so the drive lever passes through drive gear and driven gear's meshing and drives the threaded rod rotatory, and the material passes through the inside that the threaded rod can very smooth and easy access device, and this structure has realized that the convenience of device throws the material, prevents to take place the card material.

Description

Powder metallurgy double-cone W-shaped gravity-free blade mixing system

Technical Field

The utility model relates to a powder metallurgy technical field specifically is powder metallurgy bipyramid W type gravity-free paddle hybrid system.

Background

The raw material of powder metallurgy production is the first step of guaranteeing powder metallurgy finished product quality, the physical properties after the blank sintering hardening is directly influenced to the quality of powder mixture, the powder of preparation requires each material ratio must the homogeneous mixing, the horizontal barrel hybrid system that uses at present only is simple and easy mixing arrangement, the powder after the mixing is difficult to reach powder metallurgy powder standard requirement, for solving this difficult problem, can reform transform current equipment, increase appurtenance such as paddle, realize that the powder after the preparation is even, the proportion is equivalent and do not have the caking phenomenon.

First, the horizontal barrel hybrid system of tradition is mixing the in-process, only for two to mix, and the inefficiency of mixing.

Second, the material is easily blocked at the dog-house and is difficult to get into inside the main part when the material is thrown to traditional horizontal barrel hybrid system in-process.

Third, in the discharging process of the traditional horizontal cylinder mixing system, materials are easily adhered to the inner wall of the device and are difficult to remove.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a powder metallurgy bipyramid W type does not have gravity paddle hybrid system to the problem of the easy adhesion at the inner wall at dog-house and material of the inefficiency of the mixture that provides in solving above-mentioned background art, material easily card.

In order to achieve the above object, the utility model provides a following technical scheme: the powder metallurgy double-cone W-shaped gravity-free blade mixing system comprises a first rack, a multiple stirring structure for more uniform stirring, a scraping structure for preventing materials from being adhered, and a feeding structure for preventing materials from being blocked;

the feeding device comprises a first rack, a second rack, a first driving rod, a first driving motor, a feeding pipe and a feeding structure, wherein the main body is installed on one side of the first rack through a rotating shaft, the first driving rod is installed on one side of the main body, the second rack is arranged on the side, away from the main body, of the main body, one end of the first driving rod penetrates through the second rack and extends to one side of the second rack, the first driving motor is installed at one end of the first driving rod, the feeding pipes are installed on two sides of the top end of the main body, and the feeding structure is located inside the feeding pipes;

a second driving motor is mounted in the middle of the top end of the main body, a second driving rod is mounted at the output end of the second driving motor, the bottom end of the second driving rod extends into the main body, a discharge hole is mounted in the middle of the bottom end of the main body, and the scraping structures are located at the bottom ends of two sides of the mounting plate;

the multiple stirring structures are positioned on two sides of the second driving rod.

Preferably, the multiple stirring structure comprises a main stirring blade, the main stirring blade is mounted at the top ends of two sides of the second driving rod, the rotating rods are mounted at the middle positions of two sides of the second driving rod through rotating shafts, six auxiliary stirring blades are mounted on the outer sides of the rotating rods, a gear ring is mounted at the middle position inside the main body, and a mounting gear is arranged inside the gear ring;

one end of the rotating rod extends to the inside of the gear ring, and the rotating rod is installed on one side of the installation gear.

Preferably, scrape the material structure and include scraper blade, mounting panel, activity spring and push rod, the mounting panel is all installed in the bottom of second actuating lever both sides, and the scraper blade all sets up in the both sides of the inside bottom of main part, the push rod is all installed to the both sides on scraper blade top, and the push rod outer wall of mounting panel below all overlaps and is equipped with activity spring.

Preferably, the top end of the movable spring extends to the upper side of the mounting plate through the mounting plate, and the movable spring is mounted at the bottom end of the mounting plate.

Preferably, the feeding structure comprises a crank, a driving rod, a driving gear, a mounting groove, a driven gear and a threaded rod, the mounting groove is mounted in the feeding pipe, the crank is mounted on one side, away from the second driving motor, of the feeding pipe, the driving rod is mounted at the output end of the crank, the driving gear is mounted at one end of the driving rod, the threaded rod is mounted at the bottom end of the mounting groove through a rotating shaft, and the driven gear is mounted at the top end of the threaded rod.

Preferably, the one end of driving lever all passes the mounting groove and extends to the inside of mounting groove, and the top of threaded rod all passes the mounting groove and extends to the inside of mounting groove, drive gear and driven gear intermeshing.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the crank is arranged, the crank is rotated, the driving rod is driven to rotate through the crank, and the driving gear is meshed with the driven gear, so that the driving rod drives the threaded rod to rotate through the meshing of the driving gear and the driven gear, and materials can smoothly enter the device through the threaded rod;

(2) by the arrangement, the first driving motor and the second driving motor are started, the first driving motor is started, the main body is driven by the first driving rod to rotate along with the rotating shaft on the first frame, the materials in the main body are repeatedly turned over, so that material particles with different thicknesses can be mixed together, the second driving motor is started to drive the second driving rod to rotate, the second driving rod drives the main stirring blade to rotate, the materials in the main body are stirred, and the rotating rod is driven by the second driving rod to transversely rotate, the gear and the gear ring are meshed with each other, so that the rotating rod rotates longitudinally, the auxiliary stirring blades stir longitudinally, the space between the auxiliary stirring blades and the rotating rod is large, the materials cannot be crushed, the structure realizes three-dimensional mixing of the device, improves the mixing efficiency and ensures more uniform mixing;

(3) through being provided with the scraper blade, close first driving motor, open the discharge gate, the material that will mix is discharged from the discharge gate, second driving motor is still working, it is rotatory to make the second actuating lever, it is rotatory to drive the mounting panel through the second actuating lever, it gets to scrape the inner wall of main part by the push rod drive scraper blade, the material that will adhere passes through the discharge gate and discharges, the in-process of scraping at the scraper blade, constantly extrude the floating spring, and the floating spring also produces the reaction force and makes the outer wall in close contact with of scraper blade and main part, this structure has realized the processing to inner wall adhesion material.

Drawings

FIG. 1 is a schematic sectional view of the front view of the present invention;

fig. 2 is a schematic view of the structure of the present invention;

FIG. 3 is a schematic top view of the ring gear of the present invention;

fig. 4 is an enlarged schematic structural diagram of a in fig. 1 according to the present invention.

In the figure: 1. a first frame; 2. a squeegee; 3. a discharge port; 4. mounting a plate; 5. a movable spring; 6. a push rod; 7. a ring gear; 8. a scraping structure; 9. a feeding structure; 901. a crank; 902. a driving lever; 903. a drive gear; 904. mounting grooves; 905. a driven gear; 906. a threaded rod; 10. mounting a gear; 11. a first drive motor; 12. a first drive lever; 13. a main body; 14. a second drive motor; 15. a second drive lever; 16. a main stirring blade; 17. a feeding pipe; 18. an auxiliary stirring blade; 19. a rotating rod; 20. and a second frame.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1: referring to fig. 1-4, the powder metallurgy double-cone W-shaped gravity-free paddle mixing system includes a first frame 1, a multiple stirring structure for more uniform stirring, a scraping structure 8 for preventing materials from adhering, and a feeding structure 9 for preventing materials from being jammed;

a main body 13 is mounted on one side of the first rack 1 through a rotating shaft, a first driving rod 12 is mounted on one side of the main body 13, a second rack 20 is arranged on one side, far away from the main body 13, of the main body 12, one end of the first driving rod 12 penetrates through the second rack 20 and extends to one side of the second rack 20, a first driving motor 11 is mounted at one end of the first driving rod 12, the type of the first driving motor 11 can be Y315M-2, feeding pipes 17 are mounted on two sides of the top end of the main body 13, and the feeding structures 9 are located inside the feeding pipes 17;

a second driving motor 14 is installed at the middle position of the top end of the main body 13, the type of the second driving motor 14 can be Y160M1-2, a second driving rod 15 is installed at the output end of the second driving motor 14, the bottom end of the second driving rod 15 extends into the main body 13, a discharge hole 3 is installed at the middle position of the bottom end of the main body 13, and the scraping structures 8 are located at the bottom ends of two sides of the installation plate 4;

the multiple stirring structures are positioned on two sides of the second driving rod 15;

referring to fig. 1-4, the powder metallurgy double-cone W-shaped gravity-free blade mixing system further includes a multiple stirring structure, the multiple stirring structure includes a main stirring blade 16, the main stirring blade 16 is mounted at the top end of two sides of the second driving rod 15, the rotating rods 19 are mounted at the middle positions of two sides of the second driving rod 15 through rotating shafts, six auxiliary stirring blades 18 are mounted at the outer side of the rotating rods 19, the gear ring 7 is mounted at the middle position inside the main body 13, and the mounting gear 10 is disposed inside the gear ring 7;

one end of each rotating rod 19 extends into the gear ring 7, and the rotating rods 19 are mounted on one side of the mounting gear 10;

specifically, as shown in fig. 1 and 3, in use of the mechanism, the first drive motor 11 and the second drive motor 14 are turned on, the first drive motor 11 is started, the main body 13 is driven by the first driving rod 12 to rotate along with the rotating shaft on the first frame 1, the materials in the main body 13 are repeatedly turned over, so that the material particles with different thicknesses can be mixed together, the second driving motor 14 is started to drive the second driving rod 15 to rotate, the second driving rod 15 drives the main stirring blade 16 to rotate, the materials in the main body 13 are stirred, and the rotating rod 19 is rotated transversely by the second driving rod 15, through the mutual meshing of the mounting gear 10 and the gear ring 7, the rotating rod 19 rotates longitudinally, the auxiliary stirring blades 18 stir longitudinally, and the space between the auxiliary stirring blades 18 and the rotating rod 19 is large, so that materials cannot be crushed.

Example 2: the scraping structure 8 comprises scraping plates 2, mounting plates 4, movable springs 5 and push rods 6, the mounting plates 4 are mounted at the bottom ends of the two sides of the second driving rod 15, the scraping plates 2 are arranged at the two sides of the bottom end inside the main body 13, the push rods 6 are mounted at the two sides of the top end of the scraping plates 2, and the outer walls of the push rods 6 below the mounting plates 4 are sleeved with the movable springs 5;

the top ends of the movable springs 5 penetrate through the mounting plate 4 and extend to the upper side of the mounting plate 4, and the movable springs 5 are mounted at the bottom end of the mounting plate 4;

specifically, as shown in fig. 1, when the mechanism is used, the first driving motor 11 is closed, the discharge port 3 is opened, the mixed material is discharged from the discharge port 3, the second driving motor 14 is still working, the second driving rod 15 is made to rotate, the mounting plate 4 is driven to rotate through the second driving rod 15, the push rod 6 drives the scraper 2 to scrape the inner wall of the main body 13, the adhered material is discharged through the discharge port 3, the movable spring 5 is continuously extruded in the scraping process of the scraper 2, and the movable spring 5 also generates a reaction force to enable the scraper 2 to be in close contact with the outer wall of the main body 13.

Example 3: the feeding structure 9 comprises a crank 901, a driving rod 902, a driving gear 903, a mounting groove 904, a driven gear 905 and a threaded rod 906, wherein the mounting grooves 904 are all mounted inside the feeding pipe 17, the crank 901 is mounted on one side, far away from the second driving motor 14, of the feeding pipe 17, the driving rod 902 is mounted at the output end of the crank 901, the driving gear 903 is mounted at one end of the driving rod 902, the threaded rod 906 is mounted at the bottom end of the mounting groove 904 through a rotating shaft, and the driven gear 905 is mounted at the top end of the threaded rod 906;

one end of each driving rod 902 penetrates through the mounting groove 904 and extends into the mounting groove 904, the top end of each threaded rod 906 penetrates through the mounting groove 904 and extends into the mounting groove 904, and the driving gear 903 and the driven gear 905 are meshed with each other;

specifically, as shown in fig. 1 and 4, when the mechanism is used, the crank 901 is rotated, the driving rod 902 is driven to rotate through the crank 901, and the driving gear 903 is meshed with the driven gear 905, so that the driving rod 902 drives the threaded rod 906 to rotate through the meshing of the driving gear 903 and the driven gear 905, and materials can smoothly enter the device through the threaded rod 906.

The working principle is as follows: when the device is used, firstly, a worker puts materials to be stirred into the device from the feeding pipe 17, the crank 901 is rotated, the driving rod 902 is driven to rotate through the crank 901, and the driving gear 903 is meshed with the driven gear 905, so that the driving rod 902 drives the threaded rod 906 to rotate through the meshing of the driving gear 903 and the driven gear 905, and the materials can smoothly enter the device through the threaded rod 906.

Then, the material is put in, the worker closes the feeding pipe 17, sequentially opens the first driving motor 11 and the second driving motor 14, the first driving motor 11 is started, the main body 13 is driven by the first driving rod 12 to rotate along with the rotating shaft on the first frame 1, the material in the main body 13 is repeatedly turned over, so that material particles with different thicknesses can be mixed together, the second driving motor 14 is started to drive the second driving rod 15 to rotate, the second driving rod 15 drives the main stirring blade 16 to rotate, so as to stir the material in the main body 13, meanwhile, the rotating rod 19 is driven by the second driving rod 15 to transversely rotate, the rotating rod 19 is longitudinally rotated by the mutual engagement of the mounting gear 10 and the gear ring 7, so that the auxiliary stirring blade 18 is longitudinally stirred, and the space between the auxiliary stirring blade 18 and the rotating rod 19 is large, so that the material cannot be crushed, the three-way mixing of the device is realized, the mixing efficiency is improved, and the mixing is more uniform.

Finally, the mixture finishes, the staff closes first driving motor 11, open discharge gate 3, discharge the material of mixing from discharge gate 3, second driving motor 14 is still working, make second actuating lever 15 rotatory, it is rotatory to drive mounting panel 4 through second actuating lever 15, it scrapes the inner wall of main part 13 to drive scraper blade 2 by push rod 6, the material with the adhesion passes through discharge gate 3 and discharges, in-process of scraping at scraper blade 2, constantly extrude movable spring 5, and movable spring 5 also produces the reaction force and makes scraper blade 2 and main part 13's outer wall in close contact with.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. Powder metallurgy bipyramid W type does not have gravity paddle hybrid system, including first frame (1), its characterized in that: the stirring device also comprises a multiple stirring structure for stirring more uniformly, a scraping structure (8) for preventing materials from being adhered and a feeding structure (9) for preventing materials from being blocked;

a main body (13) is installed on one side of the first rack (1) through a rotating shaft, a first driving rod (12) is installed on one side of the main body (13), a second rack (20) is arranged on one side, far away from the main body (13), one end of the first driving rod (12) penetrates through the second rack (20) and extends to one side of the second rack (20), a first driving motor (11) is installed at one end of the first driving rod (12), feeding pipes (17) are installed on two sides of the top end of the main body (13), and the feeding structures (9) are located inside the feeding pipes (17);

a second driving motor (14) is installed in the middle of the top end of the main body (13), a second driving rod (15) is installed at the output end of the second driving motor (14), the bottom end of the second driving rod (15) extends into the main body (13), a discharge hole (3) is installed in the middle of the bottom end of the main body (13), and the scraping structures (8) are located at the bottom ends of two sides of the mounting plate (4);

the multiple stirring structures are positioned on two sides of the second driving rod (15).

2. The powder metallurgy double-cone W-shaped gravity-free blade mixing system according to claim 1, wherein: multiple stirring structure includes main stirring vane (16), install on the top of second actuating lever (15) both sides main stirring vane (16), and bull stick (19) all install in the both sides intermediate position department of second actuating lever (15) through the pivot, six vice stirring vane (18) are installed in the outside of bull stick (19), and main part (13) inside intermediate position department installs ring gear (7), the inside of ring gear (7) is provided with installation gear (10).

3. The powder metallurgy double-cone W-shaped gravity-free blade mixing system according to claim 2, wherein: one end of each rotating rod (19) extends to the inside of the gear ring (7), and the rotating rods (19) are mounted on one side of the mounting gear (10).

4. The powder metallurgy double-cone W-shaped gravity-free blade mixing system according to claim 1, wherein: scrape material structure (8) and include scraper blade (2), mounting panel (4), activity spring (5) and push rod (6), mounting panel (4) are all installed in the bottom of second actuating lever (15) both sides, and scraper blade (2) all set up in the both sides of main part (13) inside bottom, push rod (6) are all installed to the both sides on scraper blade (2) top, and push rod (6) outer wall of mounting panel (4) below all overlaps and is equipped with activity spring (5).

5. The powder metallurgy double-cone W-shaped gravity-free blade mixing system according to claim 4, wherein: the top of activity spring (5) all runs through mounting panel (4) and extends to the top of mounting panel (4), and activity spring (5) all install in the bottom of mounting panel (4).

6. The powder metallurgy double-cone W-shaped gravity-free blade mixing system according to claim 1, wherein: throw material structure (9) including crank (901), drive lever (902), drive gear (903), mounting groove (904), driven gear (905) and threaded rod (906), mounting groove (904) are all installed in the inside of throwing material pipe (17), and crank (901) are all installed in the one side of throwing material pipe (17) and keeping away from second driving motor (14), drive lever (902) are all installed to the output of crank (901), and drive gear (903) are all installed to the one end of drive lever (902), threaded rod (906) are all installed through the pivot to the bottom of mounting groove (904), and driven gear (905) are all installed on the top of threaded rod (906).

7. The powder metallurgy double-cone W-shaped gravity-free blade mixing system according to claim 6, wherein: one end of the driving rod (902) penetrates through the mounting groove (904) and extends to the inside of the mounting groove (904), the top end of the threaded rod (906) penetrates through the mounting groove (904) and extends to the inside of the mounting groove (904), and the driving gear (903) and the driven gear (905) are meshed with each other.

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