CN213699750U - Powder metallurgy processing is with preventing stifled formula material mixing device - Google Patents

Abstract

The utility model discloses a powder metallurgy processing is with preventing stifled formula material mixing device, including agitating unit, when feed inlet inner chamber material carries out the material loading through the screw axis, install cam and lower cam in surface one side of screw axis, when the screw axis rotates, the screw axis drives cam and lower cam and rotates, and cam and lower cam are when rotating, drive coupling assembling and remove, make the lifter remove from top to bottom through coupling assembling, the lifter reciprocates at the material inner chamber, thereby can make the material prevent to block up when the unloading, and go up the cam and cooperate the use simultaneously with lower cam, prevent stifled effect better once on one.

Description

Powder metallurgy processing is with preventing stifled formula material mixing device

Technical Field

The utility model relates to a metallurgical processing technical field specifically is a powder metallurgy processing is with preventing stifled formula material mixing device.

Background

Metallurgy is the process and technology of extracting metals or metal compounds from minerals and making metals into metallic materials with certain properties by various processing methods, and powder metallurgy processing requires stirring the materials to a certain extent to better mix the powders.

However, the existing metallurgical stirring device is not provided with an anti-blocking device during feeding, and when a large amount of powdery materials enter the inner cavity of the stirring box from the feeding hole, the feeding hole is easy to block, so that the blanking is not smooth.

The problems described above are addressed. Therefore, the anti-blocking type material stirring device for powder metallurgy processing is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a powder metallurgy processing is with preventing stifled formula material mixing device, when feed inlet inner chamber material carries out the material loading through the screw axis, install cam and lower cam in surface one side of screw axis, when the screw axis rotates, the screw axis drives cam and lower cam rotate, and go up cam and lower cam when rotating, drive coupling assembling and remove, make the lifter can remove from top to bottom through coupling assembling, the lifter reciprocates at the material inner chamber, thereby can make the material prevent to block up when the unloading, and go up the cam and cooperate the use simultaneously with lower cam, prevent stifled effect better once more, thereby the problem in the above-mentioned background art has been solved.

In order to achieve the above object, the utility model provides a following technical scheme: an anti-blocking material stirring device for powder metallurgy processing comprises a stirring device, wherein the stirring device comprises a stirring box, a supporting rod, a blanking box, a first driving motor, a feeding hole, a second driving motor and a feeding groove, the supporting rods are arranged at four corners of the lower end of the stirring box, the blanking box is arranged at the lower end of the stirring box, the first driving motor is arranged at the upper end of one side of the stirring box, the feeding hole is arranged at one side of the upper end of the stirring box, the second driving motor is arranged at the upper end of the stirring box, and the feeding groove is arranged in an inner cavity of the stirring box;

the second driving motor comprises a rotating shaft and a rotating rod, the rotating shaft is installed at the lower end of the second driving motor, and the rotating rod is installed on the outer surface of the rotating shaft.

Preferably, first driving motor includes screw axis, lifter, prevents stifled subassembly and coupling assembling, and the screw axis is installed to first driving motor's output, and the surface mounting of screw axis has a pair of lifter, and the surface mounting of lifter prevents stifled subassembly, and coupling assembling is installed to the lower extreme of lifter.

Preferably, the screw shaft comprises an upper cam and a lower cam, the upper cam is mounted on one side of the outer surface of the screw shaft, and the lower cam is mounted on the other side of the outer surface of the screw shaft.

Preferably, the lifter comprises a mounting groove, a limiting rod and a rotating groove, the mounting groove is formed in the outer surface of the lifter, the limiting rod is mounted on two sides of the lifter, and the rotating groove is formed in the lower end of the lifter.

Preferably, prevent that stifled subassembly includes first semicircle, second semicircle and connector link, and the second semicircle is installed to one side of first semicircle, and the connector link is installed to one side of second semicircle.

Preferably, first semicircle includes rectangular channel, flexible post, first spring, three hornblocks and baffle, and the rectangular channel has been seted up at one side both ends of first semicircle, and flexible post is installed to the inner chamber of rectangular channel, and the surface mounting of flexible post has first spring, and three hornblocks are installed to the one end of flexible post, and the baffle is installed to the inner chamber of flexible post.

Preferably, the lower extreme one side of coupling assembling has seted up rotatory hole, and rotatory hole connects in last cam and lower cam.

Preferably, the feed inlet includes connecting plate and constant head tank, and the connecting plate is installed to the inner chamber lower extreme of feed inlet, and the constant head tank has been seted up to the upper end of connecting plate.

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

1. the utility model provides a powder metallurgy processing is with preventing stifled formula material mixing device, when the feed inlet inner chamber material carries out the material loading through the screw axis, install upper cam and lower cam in surface one side of screw axis, when the screw axis rotates, the screw axis drives upper cam and lower cam and rotates, and upper cam and lower cam drive coupling assembling and remove when rotating, make the lifter can move from top to bottom through coupling assembling, the lifter reciprocates in the material inner chamber, thereby can make the material prevent to block up when unloading, and upper cam and lower cam cooperate the use simultaneously, prevent stifled effect better one by one;

2. the utility model provides a powder metallurgy processing is with preventing stifled formula material mixing device, the surface at the lifter is seted up the mounting groove, and the mounting groove is installed and is prevented stifled subassembly, when the lifter reciprocates and drives and prevent stifled subassembly and together move, because of preventing stifled subassembly and being the coniform structure to when moving downwards, prevent stifled subassembly and can drive the material and together move downwards, thereby prevent the material jam;

3. the utility model provides a pair of powder metallurgy processing is with preventing stifled formula material mixing device, install the connector link in one side of second semicircle, the rectangular channel is installed to one side of first semicircle, when preventing stifled subassembly and need changing different dead areas, the baffle is inhaled to the accessible magnetism, the baffle drives flexible post and contracts, flexible post drives three hornblocks and contracts, thereby make second semicircle and first semicircle separation, conveniently change the stifled subassembly of preventing of different dead areas, it is better to make to prevent stifled effect, and when second semicircle and first semicircle lock, no external hole, the effectual material card that prevents advances the rectangular channel inner chamber.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the stirring device of the present invention;

FIG. 3 is a schematic structural view of the anti-blocking assembly of the present invention;

fig. 4 is a schematic view of the screw shaft structure of the present invention;

FIG. 5 is a schematic view of the anti-blocking assembly of the present invention;

fig. 6 is a schematic view of the first semicircular overlooking internal structure of the present invention.

In the figure: 1. a stirring device; 11. a stirring box; 12. a support bar; 13. a blanking box; 14. a first drive motor; 141. a screw shaft; 1411. an upper cam; 1412. a lower cam; 142. a lifting rod; 1421. mounting grooves; 1422. a limiting rod; 1423. a rotating tank; 143. an anti-clogging component; 1431. a first semicircle; 14311. a rectangular groove; 14312. a telescopic column; 14313. a first spring; 14314. a triangular block; 14315. a baffle plate; 1432. a second semicircle; 1433. a connecting buckle; 144. a connecting assembly; 1441. rotating the hole; 15. a feed inlet; 151. a connecting plate; 152. positioning a groove; 16. a second drive motor; 161. a rotating shaft; 162. a rotating rod; 17. a feed chute.

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.

Please refer to fig. 1, an anti-blocking material stirring device for powder metallurgy processing comprises a stirring device 1, wherein the stirring device 1 comprises a stirring box 11, a supporting rod 12, a blanking box 13, a first driving motor 14, a feeding port 15, a second driving motor 16 and a feeding groove 17, the supporting rod 12 is installed at four corners of the lower end of the stirring box 11, the blanking box 13 is installed at the lower end of the stirring box 11, the first driving motor 14 is installed at the upper end of one side of the stirring box 11, the feeding port 15 is installed at one side of the upper end of the stirring box 11, the second driving motor 16 is installed at the upper end of the stirring box 11, and the feeding groove 17 is installed in an inner cavity of the stirring.

Referring to fig. 2, the first driving motor 14 includes a screw shaft 141, a pair of lifting rods 142, an anti-blocking assembly 143, and a connecting assembly 144, the screw shaft 141 is installed at an output end of the first driving motor 14, the pair of lifting rods 142 are installed on an outer surface of the screw shaft 141, the anti-blocking assembly 143 is installed on an outer surface of the lifting rods 142, the connecting assembly 144 is installed at a lower end of the lifting rods 142, the second driving motor 16 includes a rotating shaft 161 and a rotating rod 162, the rotating shaft 161 is installed at a lower end of the second driving motor 16, and the rotating rod 162 is installed on an outer.

Referring to fig. 3-4, the screw shaft 141 includes an upper cam 1411 and a lower cam 1412, an upper cam 1411 is installed on one side of the outer surface of the screw shaft 141, a lower cam 1412 is installed on the other side of the outer surface of the screw shaft 141, when the material in the cavity of the feed inlet 15 is loaded through the screw shaft 141, the upper cam 1411 and the lower cam 1412 are installed on one side of the outer surface of the screw shaft 141, when the screw shaft 141 rotates, the screw shaft 141 drives the upper cam 1411 and the lower cam 1412 to rotate, and the upper cam 1411 and the lower cam 1412 drive the connecting assembly 144 to move when rotating, the lifting rod 142 can move up and down through the connecting assembly 144, the lifting rod 142 moves up and down in the cavity of the material, so as to prevent the material from being blocked during the unloading, and the upper cam 1411 and the lower cam 1412 are used together, thereby providing a better anti-blocking effect for both the upper and the lower sides, the mounting groove 1421 has been seted up to the surface of lifter 142, the gag lever post 1422 is installed to the both sides of lifter 142, rotatory groove 1423 has been seted up to the lower extreme of lifter 142, rotatory hole 1441 has been seted up to lower extreme one side of coupling assembling 144, and rotatory hole 1441 connects in last cam 1411 and lower cam 1412, and feed inlet 15 includes connecting plate 151 and constant head tank 152, and connecting plate 151 is installed to the inner chamber lower extreme of feed inlet 15, and constant head tank 152 has been seted up to the upper end of connecting plate 151.

Referring to fig. 5, the anti-blocking assembly 143 includes a first semicircle 1431, a second semicircle 1432 and a connecting buckle 1433, the second semicircle 1432 is installed at one side of the first semicircle 1431, the connecting buckle 1433 is installed at one side of the second semicircle 1432, an installation groove 1421 is opened at the outer surface of the lifting rod 142, the anti-blocking assembly 143 is installed in the installation groove 1421, when the lifting rod 142 moves up and down to drive the anti-blocking assembly 143 to move together, the anti-blocking assembly 143 is in a cone-shaped structure, so that when moving down, the anti-blocking assembly 143 can drive the material to move down together, thereby preventing the material from blocking.

Referring to fig. 6, the first semicircle 1431 includes a rectangular groove 14311, a retractable column 14312, a first spring 14313, a triangular block 14314 and a baffle 14315, the rectangular groove 14311 is opened at both ends of one side of the first semicircle 1431, the retractable column 14312 is installed in an inner cavity of the rectangular groove 14311, the first spring 14313 is installed on an outer surface of the retractable column 14312, the triangular block 14314 is installed at one end of the retractable column 14312, the baffle 14315 is installed in an inner cavity of the retractable column 14312, the connecting buckle 1433 is installed at one side of the second semicircle 1432, the rectangular groove 14311 is installed at one side of the first semicircle 1431, when the anti-blocking component 143 needs to be replaced with different anti-blocking volumes, the baffle 14315 can be magnetically attracted, the baffle 14315 drives the retractable column 14312 to retract, the retractable column 14312 drives the triangular block 14314 to retract, so that the second semicircle 1432 is separated from the first semicircle 1431, the anti-blocking component 143 with different volumes is convenient to be replaced, the anti-blocking component 143 has better effect, and when the, no external holes are formed, so that the material is effectively prevented from being clamped into the inner cavity of the rectangular groove 14311.

In summary, the following steps: the utility model provides a powder metallurgy processing is with preventing stifled formula material mixing device, when feed inlet 15 inner chamber material carries out the material loading through screw axis 141, install upper cam 1411 and lower cam 1412 in screw axis 141's surface one side, when screw axis 141 rotates, screw axis 141 drives upper cam 1411 and lower cam 1412 and rotates, and upper cam 1411 and lower cam 1412 drive coupling assembling 144 and move when rotating, make lifter 142 can move from top to bottom through coupling assembling 144, lifter 142 reciprocates in the material inner chamber, thereby can make the material prevent blocking up when unloading, and upper cam 1411 and lower cam 1412 cooperate the use simultaneously, one-on-one-off prevents stifled effect is better, mounting groove 1421 has been seted up at lifter 142's surface, the stifled subassembly 143 is installed to mounting groove 1421, when lifter 142 reciprocates and drives stifled subassembly 143 and move together, because of preventing stifled subassembly 143 and being the circular cone column structure, thereby when moving downwards, prevent stifled subassembly 143 and can drive the together downstream of material, thereby prevent that the material from blockking up, install connector link 1433 in one side of second semicircle 1432, rectangular channel 14311 is installed to one side of first semicircle 1431, when preventing stifled subassembly 143 and need changing different basal areas, baffle 14315 is inhaled to accessible magnetism, baffle 14315 drives flexible post 14312 and contracts, flexible post 14312 drives triangle 14314 and contracts, thereby make second semicircle 1432 and first semicircle 1431 separation, conveniently change the stifled subassembly 143 of preventing of different basal areas, it is better to make to prevent stifled effect, and when second semicircle 1432 and first semicircle 1431 lock, no external hole, effectually prevent that the material card from advancing rectangular channel 14311 inner chamber.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a powder metallurgy processing is with preventing stifled formula material mixing device, includes agitating unit (1), its characterized in that: the stirring device (1) comprises a stirring box (11), a supporting rod (12), a blanking box (13), a first driving motor (14), a feeding hole (15), a second driving motor (16) and a feeding groove (17), wherein the supporting rods (12) are installed at four corners of the lower end of the stirring box (11), the blanking box (13) is installed at the lower end of the stirring box (11), the first driving motor (14) is installed at the upper end of one side of the stirring box (11), the feeding hole (15) is installed at one side of the upper end of the stirring box (11), the second driving motor (16) is installed at the upper end of the stirring box (11), and the feeding groove (17) is installed in an inner cavity of the stirring box (11);

the second driving motor (16) comprises a rotating shaft (161) and a rotating rod (162), the rotating shaft (161) is installed at the lower end of the second driving motor (16), and the rotating rod (162) is installed on the outer surface of the rotating shaft (161).

2. The anti-blocking type material stirring device for powder metallurgy processing according to claim 1, characterized in that: the anti-blocking device is characterized in that the first driving motor (14) comprises a screw shaft (141), lifting rods (142), an anti-blocking assembly (143) and a connecting assembly (144), the screw shaft (141) is installed at the output end of the first driving motor (14), a pair of lifting rods (142) are installed on the outer surface of the screw shaft (141), the anti-blocking assembly (143) is installed on the outer surface of each lifting rod (142), and the connecting assembly (144) is installed at the lower end of each lifting rod (142).

3. The anti-blocking type material stirring device for powder metallurgy processing according to claim 2, characterized in that: the screw shaft (141) comprises an upper cam (1411) and a lower cam (1412), the upper cam (1411) is installed on one side of the outer surface of the screw shaft (141), and the lower cam (1412) is installed on the other side of the outer surface of the screw shaft (141).

4. The anti-blocking type material stirring device for powder metallurgy processing according to claim 2, characterized in that: the lifting rod (142) comprises a mounting groove (1421), a limiting rod (1422) and a rotating groove (1423), the mounting groove (1421) is formed in the outer surface of the lifting rod (142), the limiting rod (1422) is mounted on two sides of the lifting rod (142), and the rotating groove (1423) is formed in the lower end of the lifting rod (142).

5. The anti-blocking type material stirring device for powder metallurgy processing according to claim 2, characterized in that: prevent stifled subassembly (143) including first semicircle (1431), second semicircle (1432) and connector link (1433), second semicircle (1432) is installed to one side of first semicircle (1431), and connector link (1433) is installed to one side of second semicircle (1432).

6. The anti-blocking type material stirring device for powder metallurgy processing according to claim 5, characterized in that: first semicircle (1431) includes rectangular channel (14311), flexible post (14312), first spring (14313), triangle-shaped piece (14314) and baffle (14315), rectangular channel (14311) have been seted up at one side both ends of first semicircle (1431), flexible post (14312) are installed to the inner chamber of rectangular channel (14311), first spring (14313) are installed to the surface of flexible post (14312), triangle-shaped piece (14314) are installed to the one end of flexible post (14312), baffle (14315) are installed to the inner chamber of flexible post (14312).

7. The anti-blocking type material stirring device for powder metallurgy processing according to claim 2, characterized in that: one side of the lower end of the connecting component (144) is provided with a rotating hole (1441), and the rotating hole (1441) is connected with the upper cam (1411) and the lower cam (1412).

8. The anti-blocking type material stirring device for powder metallurgy processing according to claim 1, characterized in that: feed inlet (15) are including connecting plate (151) and constant head tank (152), and connecting plate (151) are installed to the inner chamber lower extreme of feed inlet (15), and constant head tank (152) have been seted up to the upper end of connecting plate (151).

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