CN214030558U - Feeding device with anti-blocking function for iron nanoparticle material - Google Patents

Abstract

The utility model discloses a feeding device for iron nano particle materials with anti-blocking function, belonging to the technical field of iron nano particles, comprising a feeding barrel, a first fixed plate and a feeding hopper, wherein the left side surface of the feeding barrel is fixedly connected with the first fixed plate, the upper surface of the first fixed plate is fixedly connected with a motor, the output end of the motor is fixedly connected with a first rotating shaft, a cavity is arranged in the feeding barrel, and the upper surface of the feeding barrel is connected with the feeding hopper communicated with the cavity in a clamping manner; the utility model discloses in, prevent blockking up mechanism, motor, first pivot, flood dragon and discharging pipe through the setting for staff can be through opening the motor carrying out pay-off during operation, and the flood dragon drives the raw materials in the hopper and enters into the discharging pipe, and easy operation need not staff's use of tools and dismantles and then carry out the work of dredging to the jam position to its pay-off section of thick bamboo, has reduced staff's work load, has improved the security.

Description

Feeding device with anti-blocking function for iron nanoparticle material

Technical Field

The utility model belongs to the technical field of the iron nano particle, especially, relate to a material feeding unit for iron nano particle material with prevent blockking up function.

Background

Iron nanoparticles are a novel nano carbon metal composite material, and show a great application prospect in various fields, so that great interest is brought to people recently.

During iron nano particle pay-off among the prior art, because the shape of iron nano particle is less at quick pay-off during operation, take place to block up in the conveying pipe easily, thereby need staff to dismantle the use tools to its conveying pipe and then dredge its position that blocks up, waste time and energy and increaseed staff's work load, simultaneously because of the unfavorable contact of iron nano particle undersize is external, staff dredge the during operation and can possibly inhale the lung with partial iron nano particle, thereby influence staff's healthy, and material feeding unit among the prior art is when carrying out the pay-off, can't accomplish even homodromous material loading work, the most likely can lead to the wasting of resources, be unfavorable for the subsequent work of iron nano particle simultaneously.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: in order to solve the problems that the prior art does not have an anti-blocking function and cannot feed materials uniformly and uniformly, the feeding device for the iron nano particle material with the anti-blocking function is provided.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an iron nano particle material feeding unit with prevent blockking up function, includes a feed cylinder, first fixed plate and goes into the hopper, the first fixed plate of left surface fixedly connected with of feed cylinder, the last fixed surface of first fixed plate is connected with the motor, the first pivot of output fixedly connected with of motor, the cavity has been seted up in the feed cylinder, the upper surface joint of feed cylinder has the income hopper of intercommunication cavity, the left surface joint of cavity inner wall has first sealed bearing, the other end of first pivot passes first sealed bearing and overlaps and is equipped with first bearing, and first bearing joint is at the right flank of cavity inner wall, the surface joint of first pivot has the flood dragon, and the right side of flood dragon is provided with prevents blockking up the mechanism.

As a further description of the above technical solution:

prevent blockking up the mechanism and include the reciprocal lead screw of joint at first pivot surface, reciprocal lead screw setting is on the right side of flood dragon, the surface threaded connection of reciprocal lead screw has the lead screw seat, and the surface joint of lead screw seat has the removal cover, the right flank fixedly connected with carriage release lever of cavity inner wall, the other end of carriage release lever pass the removal hole that the right flank of removing the cover was seted up.

As a further description of the above technical solution:

the utility model discloses a cavity, including the cavity inner wall, the cavity inner wall is equipped with the lantern ring, the outer surface of removal cover is seted up the circular shape lantern ring groove, and lantern ring inslot is equipped with the lantern ring, the even fixedly connected with puddler of surface of the lantern ring, the arc spout has been seted up at the upper surface and the back of cavity inner wall, and sliding connection has the metal ball in the arc spout, and metal ball fixed connection is on the top of the puddler of upside.

As a further description of the above technical solution:

the position joint that a pay-off section of thick bamboo lower surface corresponds the removal cover has the discharging pipe, and the other end intercommunication of discharging pipe has the casing, and shells inner wall's positive joint has the second bearing, and the second bearing endotheca is equipped with the second pivot, and the other end of second pivot passes the first axle sleeve of joint at casing back joint, the surface joint of second pivot has rotatory section of thick bamboo, a plurality of fixed strips of the even fixedly connected with of surface of rotatory section of thick bamboo, and a plurality of fixed strips closely laminate on shells inner wall, the lower surface intercommunication of casing has the material loading pipe, the rear side of casing is provided with link gear.

As a further description of the above technical solution:

the link gear includes the third fixed plate of fixed connection at the casing back, and the left surface joint of third fixed plate has the third bearing, and the third bearing endotheca is equipped with the third pivot, the lower fixed surface of a pay-off section of thick bamboo is connected with the second fixed plate, and the inside joint of second fixed plate has the second shaft cover, the other end of third pivot passes second shaft cover and joint has the second drive wheel.

As a further description of the above technical solution:

the outer surface joint of third pivot has first bevel gear, the one end fixedly connected with second bevel gear that first axle sleeve was passed in the second pivot, second bevel gear and first bevel gear meshing, the outer surface joint of first pivot has first drive wheel, and first drive wheel is located first seal bearing's left side, be connected through the track transmission between first drive wheel and the second drive wheel.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. in the utility model, by arranging the anti-blocking mechanism, the motor, the first rotating shaft, the flood dragon and the discharging pipe, the worker can drive the flood dragon and the first rotating shaft to rotate when feeding, the flood dragon drives the raw materials in the hopper to enter the discharging pipe, meanwhile, the first rotating shaft drives the reciprocating lead screw to rotate, the lead screw seat is limited by the moving sleeve and the moving rod to move left and right, the four stirring rods are driven to move left and right, under the action of the metal ball and the arc chute, the lantern ring can start to rotate so as to drive the stirring rods to start to rotate, the effect of cleaning the raw materials on the right side of the flood dragon is achieved, the situation that the feeding barrel is blocked due to the over-fast discharging is avoided, the work of the worker is facilitated, the operation is simple, the worker does not need to use tools to disassemble the feeding barrel to further dredge the blocked position, the workload of workers is reduced, and the safety is improved.

2. The utility model discloses in, through setting up link gear, rotatory section of thick bamboo and second pivot, it is rotatory to make the motor move and to drive first drive wheel, thereby it is rotatory to drive the second drive wheel and then drive the third pivot and begin to rotate, under first bevel gear and second bevel gear's effect, the second pivot can be driven rotatoryly, make rotatory section of thick bamboo can be rotatory in the casing, thereby it begins to rotate to drive a plurality of fixed strips and drives the even homodromous entering into material loading pipe of raw materials, the work of staff has been made things convenient for, be favorable to the subsequent processing work of iron nano particles, the waste of resource has been avoided.

Drawings

Fig. 1 is a schematic front view of a cross-sectional structure of the present invention;

fig. 2 is a schematic top view of the cross-sectional structure of the housing of the present invention;

FIG. 3 is an enlarged schematic view of the structure at A of the present invention;

FIG. 4 is a schematic perspective view of the middle rotary drum of the present invention;

illustration of the drawings:

1. a feed cylinder; 2. a first fixing plate; 3. an anti-clogging mechanism; 31. a reciprocating screw; 32. moving the sleeve; 33. a collar; 34. a ring groove; 35. a travel bar; 36. an arc-shaped chute; 37. a metal ball; 38. a stirring rod; 4. a linkage mechanism; 41. a first drive pulley; 42. a crawler belt; 43. a second transmission wheel; 44. a second fixing plate; 45. a third rotating shaft; 46. a first bevel gear; 47. a third fixing plate; 48. a third bearing; 49. a second bevel gear; 5. a motor; 6. a first sealed bearing; 7. a first rotating shaft; 8. feeding into a hopper; 9. flood dragon; 11. a first bearing; 12. a discharge pipe; 13. a second rotating shaft; 14. feeding pipes; 15. a rotary drum; 16. a housing; 17. a second bearing; 18. and (4) fixing the strip.

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 of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a feeding device with an anti-blocking function for iron nanoparticle materials comprises a feeding barrel 1, a first fixing plate 2 and a feeding hopper 8, wherein the first fixing plate 2 is fixedly connected to the left side face of the feeding barrel 1, a motor 5 is fixedly connected to the upper surface of the first fixing plate 2, a first rotating shaft 7 is fixedly connected to the output end of the motor 5, a cavity is formed in the feeding barrel 1, the feeding hopper 8 communicated with the cavity is clamped to the upper surface of the feeding barrel 1, a first sealing bearing 6 is clamped to the left side face of the inner wall of the cavity, the other end of the first rotating shaft 7 penetrates through the first sealing bearing 6 and is sleeved with a first bearing 11, the first bearing 11 is clamped to the right side face of the inner wall of the cavity, a flood dragon 9 is clamped to the outer surface of the first rotating shaft 7, and an anti-blocking mechanism 3 is arranged on the right side of the flood dragon 9;

the anti-blocking mechanism 3 comprises a reciprocating screw rod 31 clamped on the outer surface of the first rotating shaft 7, the reciprocating screw rod 31 is arranged on the right side of the flood dragon 9, a screw rod seat is in threaded connection with the outer surface of the reciprocating screw rod 31, the screw rod seat is arranged so that when the reciprocating screw rod 31 rotates, the screw rod seat can move left and right on the reciprocating screw rod 31 under the limitation of a moving sleeve 32, the outer surface of the screw rod seat is clamped with the moving sleeve 32, a moving rod 35 is fixedly connected to the right side surface of the inner wall of the cavity, and the other end of the moving rod 35 penetrates through a moving hole formed in the right side surface of the moving sleeve 32;

the outer surface of the movable sleeve 32 is provided with a circular sleeve ring groove 34, a sleeve ring 33 is sleeved in the sleeve ring groove 34, the outer surface of the sleeve ring 33 is uniformly and fixedly connected with stirring rods 38, the upper surface and the back surface of the inner wall of the cavity are provided with arc-shaped sliding grooves 36, metal balls 37 are connected in the arc-shaped sliding grooves 36 in a sliding mode, and by arranging the metal balls 37, when the movable sleeve 32 moves left and right, the metal balls 37 can be limited by the arc-shaped sliding grooves 36 to rotate, so that the sleeve ring 33 and the stirring rods 38 are driven to rotate, and the metal balls 37 are fixedly connected to the top ends of the stirring rods 38 on;

a discharge pipe 12 is clamped on the lower surface of the feeding barrel 1 corresponding to the position of the moving sleeve 32, the other end of the discharge pipe 12 is communicated with a shell 16, a second bearing 17 is clamped on the front surface of the inner wall of the shell 16, a second rotating shaft 13 is sleeved in the second bearing 17, the other end of the second rotating shaft 13 penetrates through a first shaft sleeve clamped on the back surface of the shell 16, a rotating barrel 15 is clamped on the outer surface of the second rotating shaft 13, a plurality of fixing strips 18 are fixedly connected to the outer surface of the rotating barrel 15 uniformly, the plurality of fixing strips 18 can be driven to rotate when the rotating barrel 15 rotates by arranging the fixing strips 18, so that raw materials in the shell 16 are driven to perform blanking uniformly, the plurality of fixing strips 18 are tightly attached to the inner wall of the shell 16, a feeding pipe 14 is communicated with the lower surface of the shell 16, and a linkage mechanism 4 is arranged on the rear side of the shell 16;

the linkage mechanism 4 comprises a third fixing plate 47 fixedly connected to the back surface of the shell 16, a third bearing 48 is clamped on the left side surface of the third fixing plate 47, a third rotating shaft 45 is sleeved in the third bearing 48, a second fixing plate 44 is fixedly connected to the lower surface of the feeding barrel 1, a second shaft sleeve is clamped in the second fixing plate 44, and the other end of the third rotating shaft 45 penetrates through the second shaft sleeve and is clamped with a second driving wheel 43;

the outer surface joint of third pivot 45 has first bevel gear 46, the one end fixedly connected with second bevel gear 49 that second pivot 13 passed first axle sleeve, second bevel gear 49 and first bevel gear 46 mesh, through setting up first bevel gear 46 and second bevel gear 49 for third pivot 45 can be under first bevel gear 46 and second bevel gear 49's effect when rotatory, and second pivot 13 can be driven rotatory, the outer surface joint of first pivot 7 has first drive wheel 41, and first drive wheel 41 is located the left side of first sealed bearing 6, be connected through track 42 transmission between first drive wheel 41 and the second drive wheel 43.

The working principle is as follows: when the feeding device is used, when workers carry out feeding work, the motor 5 is turned on to drive the flood dragon 9 and the first rotating shaft 7 to rotate, the flood dragon 9 drives raw materials in the hopper 8 to enter the discharging pipe 12, meanwhile, the first rotating shaft 7 rotates to drive the reciprocating screw 31 to rotate, the screw base is limited by the moving sleeve 32 and the moving rod 35 to move left and right, the four stirring rods 38 are driven to move left and right, under the action of the metal ball 37 and the arc-shaped sliding groove 36, the lantern ring 33 can start to rotate to drive the stirring rods 38 to start rotating, the anti-blocking effect is achieved, meanwhile, the motor 5 can drive the first driving wheel 41 to rotate when running, so as to drive the second driving wheel 43 to rotate to drive the third rotating shaft 45 to start rotating, under the action of the first bevel gear 46 and the second bevel gear 49, the second rotating shaft 13 can be driven to rotate, so that the rotating drum 15 can rotate in the shell 16, thereby driving the plurality of fixing strips 18 to rotate to drive the raw materials to enter the feeding pipe 14 at a uniform speed.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. A feeding device with an anti-blocking function for iron nano particle materials comprises a feeding barrel (1), a first fixing plate (2) and a feeding hopper (8), and is characterized in that the left side surface of the feeding barrel (1) is fixedly connected with the first fixing plate (2), the upper surface of the first fixing plate (2) is fixedly connected with a motor (5), the output end of the motor (5) is fixedly connected with a first rotating shaft (7), a cavity is formed in the feeding barrel (1), the upper surface of the feeding barrel (1) is connected with the feeding hopper (8) communicated with the cavity in a clamping manner, the left side surface of the inner wall of the cavity is connected with a first sealing bearing (6) in a clamping manner, the other end of the first rotating shaft (7) penetrates through the first sealing bearing (6) and is sleeved with a first bearing (11), the first bearing (11) is connected to the right side surface of the inner wall of the cavity in a clamping manner, a flood dragon (9) is connected to the outer surface of the first rotating shaft (7), the right side of flood dragon (9) is provided with anti-clogging mechanism (3).

2. The feeding device with the anti-blocking function for the iron nanoparticle materials is characterized in that the anti-blocking mechanism (3) comprises a reciprocating lead screw (31) clamped on the outer surface of a first rotating shaft (7), the reciprocating lead screw (31) is arranged on the right side of a flood dragon (9), a lead screw seat is in threaded connection with the outer surface of the reciprocating lead screw (31), a movable sleeve (32) is clamped on the outer surface of the lead screw seat, a movable rod (35) is fixedly connected to the right side surface of the inner wall of the cavity, and the other end of the movable rod (35) penetrates through a movable hole formed in the right side surface of the movable sleeve (32).

3. The feeding device with the anti-blocking function for the iron nanoparticle materials, as claimed in claim 2, is characterized in that a circular annular groove (34) is formed in the outer surface of the moving sleeve (32), a sleeve ring (33) is sleeved in the annular groove (34), a stirring rod (38) is fixedly connected to the outer surface of the sleeve ring (33) uniformly, an arc-shaped chute (36) is formed in the upper surface and the back surface of the inner wall of the cavity, a metal ball (37) is slidably connected in the arc-shaped chute (36), and the metal ball (37) is fixedly connected to the top end of the stirring rod (38) on the upper side.

4. The feeding device for iron nanoparticle material with anti-clogging function according to claim 1, it is characterized in that a discharge pipe (12) is clamped at the position of the lower surface of the feeding barrel (1) corresponding to the movable sleeve (32), the other end of the discharge pipe (12) is communicated with a shell (16), a second bearing (17) is clamped at the front surface of the inner wall of the shell (16), a second rotating shaft (13) is sleeved in the second bearing (17), the other end of the second rotating shaft (13) passes through a first shaft sleeve clamped at the back surface of the shell (16), the outer surface of the second rotating shaft (13) is clamped with a rotating cylinder (15), the outer surface of the rotating cylinder (15) is uniformly and fixedly connected with a plurality of fixing strips (18), the plurality of fixing strips (18) are tightly attached to the inner wall of the shell (16), the lower surface of the shell (16) is communicated with a feeding pipe (14), and the rear side of the shell (16) is provided with a linkage mechanism (4).

5. The feeding device with the anti-blocking function for the iron nanoparticle material is characterized in that the linkage mechanism (4) comprises a third fixing plate (47) fixedly connected to the back surface of the shell (16), a third bearing (48) is clamped on the left side surface of the third fixing plate (47), a third rotating shaft (45) is sleeved in the third bearing (48), a second fixing plate (44) is fixedly connected to the lower surface of the feeding barrel (1), a second shaft sleeve is clamped in the second fixing plate (44), and a second driving wheel (43) is clamped at the other end of the third rotating shaft (45) and penetrates through the second shaft sleeve.

6. The feeding device with the anti-blocking function for the iron nanoparticle material is characterized in that a first bevel gear (46) is clamped on the outer surface of the third rotating shaft (45), a second bevel gear (49) is fixedly connected to one end, penetrating through the first shaft sleeve, of the second rotating shaft (13), the second bevel gear (49) is meshed with the first bevel gear (46), a first driving wheel (41) is clamped on the outer surface of the first rotating shaft (7), the first driving wheel (41) is located on the left side of the first sealing bearing (6), and the first driving wheel (41) is in transmission connection with the second driving wheel (43) through a crawler belt (42).

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