CN216296673U - Impeller feeder for feed processing - Google Patents

Abstract

The utility model discloses an impeller feeder for feed processing, which comprises a vibration connecting piece, a sliding dust collecting component, a supporting shell, an upper end vibration shell, a guide component, a blanking component and a magnetic suction component, wherein the lower end connection shell comprises a lower end connection shell, the lower end of the lower end connection shell is of a conical structure, a connecting ring is arranged on the outer side of the lower end connection shell, a mounting through hole is formed in the connecting ring, the magnetic suction component is arranged on the inclined plane of the outer side of the lower end connection shell, the sliding dust collecting component is arranged at the upper end of the inner part of the lower end connection shell in a sliding connection manner, the upper end of the lower end connection shell is connected with the upper end vibration shell, the upper end vibration shell comprises a soft connecting ring connected with the lower end connection shell, and the upper end of the soft connecting ring is provided with an upper end connection shell. But also can filter dust and scrap iron in the raw materials, and is more convenient to clean the device.

Description

Impeller feeder for feed processing

Technical Field

The utility model relates to the technical field of feed processing, in particular to an impeller feeder for feed processing.

Background

The impeller feeder is used for continuously and uniformly feeding dry powdery materials or small-particle materials in the upper bin to the next device, and is quantitative feeding equipment, but the existing device is complex in structure, cannot filter dust and scrap iron in raw materials, is uneven in blanking and cannot meet the requirements of people.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the existing defects and provides the impeller feeder for feed processing, which has the advantages of simple structure and simple and convenient operation, ensures that the feeding is more uniform, can filter dust and scrap iron in raw materials, is more convenient to clean, and can effectively solve the problems in the background art.

In order to achieve the purpose, the utility model provides the following technical scheme: an impeller feeder for feed processing comprises vibrating connectors, a sliding dust collecting assembly, a supporting shell, an upper vibrating shell, a guide assembly, a blanking assembly and a magnetic suction assembly, wherein the supporting shell comprises a lower end connecting shell, the lower end of the lower end connecting shell is of a conical structure, a connecting ring is arranged on the outer side of the lower end connecting shell, an installation through hole is formed in the connecting ring, the magnetic suction assembly is arranged on the inclined plane of the outer side of the lower end connecting shell, the sliding dust collecting assembly is arranged at the upper end of the inner part of the lower end connecting shell in a sliding connection manner, the upper end of the lower end connecting shell is connected with the upper vibrating shell, the upper vibrating shell comprises a soft connecting ring connected with the lower end connecting shell, an upper connecting shell is arranged at the upper end of the soft connecting ring, two vibrating connectors are arranged between the outer side of the upper vibrating shell and the outer side of the lower end connecting shell, the blanking assembly is arranged at the lower end of the middle of the upper vibrating shell, two material guiding assemblies are arranged inside the upper end vibration shell and are respectively positioned on two sides of the discharging assembly.

Further, the subassembly is inhaled to magnetism includes the erection joint board of being connected the shell with the lower extreme and being connected, and one side of erection joint board is equipped with the adsorption plate, be equipped with the logical groove that corresponds with the adsorption plate on the shell is connected to the lower extreme, be equipped with the through-hole on the erection joint board, the inside of this through-hole is equipped with adsorption magnet, and one side and the adsorption plate laminating of adsorption magnet can be installed the lower extreme with the adsorption plate through the erection joint board and connect the shell, can adsorb the scum in the raw materials through adsorption magnet and adsorption plate for the fodder of producing is cleaner.

Further, the guide assembly comprises an L-shaped guide plate, the upper end of the L-shaped guide plate is connected with the upper end connecting shell through a rotating shaft, a vertical plate of the L-shaped guide plate is located on one side of the blanking assembly, a second connecting spring is arranged between one side of the vertical plate of the L-shaped guide plate and the inner side of the upper end connecting shell, the lower end of the L-shaped guide plate can be jacked through the second connecting spring, and the raw materials can be guided to the upper portion of the blanking assembly through the L-shaped guide plate.

Furthermore, the unloading subassembly includes and is connected the shell with the upper end and rotate the unloading impeller of being connected, one side that the shell was connected to the upper end is equipped with and drives unloading impeller pivoted motor, can drive the unloading impeller through the motor and rotate, rotates through the unloading impeller and carries out the unloading.

Further, the subassembly that gathers dust that slides includes the slip filter, the lower extreme is connected and is equipped with the slip groove with slip filter sliding connection on the shell, evenly is equipped with the through-hole on the slip filter, the lower surface of slip filter is equipped with the shell that gathers dust, and the one end of slip filter is equipped with and is connected the mounting panel that the shell is fixed with the lower extreme, can sieve the raw materials through the slip filter, and can collect the dust of screening through the shell that gathers dust.

Further, the vibration connecting piece comprises two connecting lug plates which are respectively connected with the upper end connecting shell and the lower end connecting shell, a first connecting spring is uniformly arranged between the two connecting lug plates, a vibration motor is arranged on the upper surface of the connecting lug plate above the first connecting lug plate, the upper end connecting shell can be driven to vibrate through the vibration motor, and therefore raw material vibration inside the upper end connecting shell can be driven, and feeding is more uniform.

Compared with the prior art, the utility model has the beneficial effects that: the adsorption plate can be arranged on the lower end connecting shell through the mounting connecting plate, the iron slag in the raw materials can be adsorbed through the adsorption magnet and the adsorption plate, so that the produced feed is cleaner, the lower end of the L-shaped guide plate can be jacked through the connecting spring II, the raw materials can be guided above the blanking assembly through the L-shaped guide plate, the blanking impeller can be driven to rotate through the motor, blanking is performed through the rotation of the blanking impeller, the raw materials can be screened through the sliding filter plate, the screened dust can be collected through the dust collecting shell, the upper end connecting shell can be driven to vibrate through the vibrating motor, so that the raw materials inside the upper end connecting shell can be driven to vibrate, the feeding is more uniform, and the impeller feeder for feed processing has the advantages of simple structure and convenient operation, not only can the feeding be more uniform, but also can filter the dust and iron chips in the raw materials, and the cleaning of the device is more convenient.

Drawings

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

FIG. 2 is a schematic cross-sectional view of the present invention.

In the figure: the device comprises a vibration connecting piece 1, a vibration motor 11, a first 12 connecting spring, a first 13 connecting lug plate, a second 2 sliding dust collecting component, a 21 dust collecting shell, a 22 sliding filter plate, a 3 supporting shell, a 31 connecting ring, a 32 lower end connecting shell, a 4 upper end vibration shell, a 41 upper end connecting shell, a 42 soft connecting ring, a 5 material guide component, a 51L-shaped material guide plate, a second 52 connecting spring, a 6 blanking component, a 61 blanking impeller, a 62 motor, a 7 magnetic suction component, a 71 adsorption plate, a 72 adsorption magnet and a 73 mounting connecting plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides a technical solution: an impeller feeder for feed processing comprises a vibration connecting piece 1, a sliding dust collecting component 2, a supporting shell 3, an upper end vibration shell 4, a material guiding component 5, a blanking component 6 and a magnetic suction component 7, wherein the supporting shell 3 comprises a lower end connecting shell 32, the lower end of the lower end connecting shell 32 is of a conical structure, a connecting ring 31 is arranged on the outer side of the lower end connecting shell 32, an installation through hole is formed in the connecting ring 31, the magnetic suction component 7 is arranged on an inclined plane on the outer side of the lower end connecting shell 32, the sliding dust collecting component 2 is arranged at the upper end of the inner part of the lower end connecting shell 32 in a sliding connection mode, the upper end vibration shell 4 is connected to the upper end of the lower end connecting shell 32, the upper end vibration shell 4 comprises a soft connecting ring 42 connected with the lower end connecting shell 32, an upper end connecting shell 41 is arranged at the upper end of the soft connecting ring 42, two vibration connecting pieces 1 are arranged between the outer side of the upper end vibration shell 4 and the outer side of the supporting shell 3, the lower end of the middle of the upper end vibration shell 4 is provided with a blanking component 6, two material guiding components 5 are arranged inside the upper end vibration shell 4, the two material guiding components 5 are respectively positioned at two sides of the blanking component 6, the magnetic suction component 7 comprises a mounting connecting plate 73 connected with the lower end connection shell 32, one side of the mounting connecting plate 73 is provided with an adsorption plate 71, the lower end connection shell 32 is provided with a through groove corresponding to the adsorption plate 71, the mounting connecting plate 73 is provided with a through hole, an adsorption magnet 72 is arranged inside the through hole, one side of the adsorption magnet 72 is attached to the adsorption plate 71, the adsorption plate 71 can be mounted on the lower end connection shell 32 through the mounting connecting plate 73, iron slag in raw materials can be adsorbed through the adsorption magnet 72 and the adsorption plate 71, so that the produced feed is cleaner, the material guiding components 5 comprise an L-shaped material guiding plate 51, the upper end of the L-shaped material guiding plate 51 is connected with the upper end connection shell 41 through a rotating shaft, the vertical plate of the L-shaped guide plate 51 is positioned at one side of the blanking assembly 6, a second connecting spring 52 is arranged between one side of the vertical plate of the L-shaped guide plate 51 and the inner side of the upper connecting shell 41, the lower end of the L-shaped guide plate 51 can be jacked through the second connecting spring 52, and raw materials can be guided to the upper part of the blanking assembly 6 through the L-shaped guide plate 51, the blanking assembly 6 comprises a blanking impeller 61 rotatably connected with the upper connecting shell 41, one side of the upper connecting shell 41 is provided with a motor 62 driving the blanking impeller 61 to rotate, the blanking impeller 61 can be driven to rotate through the motor 62, blanking is carried out through rotation of the blanking impeller 61, the sliding dust collection assembly 2 comprises a sliding filter plate 22, a sliding groove slidably connected with the sliding filter plate 22 is arranged on the lower connecting shell 32, through holes are uniformly arranged on the sliding filter plate 22, a shell 21 is arranged on the lower surface of the sliding filter plate 22, and one end of the sliding filter plate 22 is provided with a mounting plate fixed with the lower connecting shell 32, can sieve the raw materials through sliding filter 22, and can collect the dust of sieving out through shell 21 that gathers dust, vibrating connector 1 includes two and connects the otic placode 13 that shell 32 is connected with upper end connection shell 41 and lower extreme respectively, evenly be equipped with connecting spring 12 between two connection otic placodes 13, the connective placode 13 upper surface of top is equipped with vibrating motor 11, can drive the vibration of upper end connection shell 41 through vibrating motor 11, with this can drive the inside raw materials vibration of upper end connection shell 41, make the feed more even, this impeller feeder for feed processing, moreover, the steam generator is simple in structure, and is simple and convenient to operate, not only make the feed more even, and can filter dust and iron fillings in the raw materials, and it is more convenient to clear up the device.

When in use: the lower end of the L-shaped guide plate 51 can be jacked through the second connecting spring 52, raw materials can be guided to the upper part of the blanking assembly 6 through the L-shaped guide plate 51, the blanking impeller 61 can be driven to rotate through the motor 62, blanking is performed through rotation of the blanking impeller 61, the raw materials can be screened through the sliding filter plate 22, screened dust can be collected through the dust collection shell 21, the upper end connecting shell 41 can be driven to vibrate through the vibrating motor 11, so that the raw materials inside the upper end connecting shell 41 can be driven to vibrate, feeding is more uniform, the raw materials can be screened through the sliding filter plate 22, the screened dust can be collected through the dust collection shell 21, then the raw materials after dust collection are guided to the upper part of the magnetic suction assembly 7, then the raw materials can be adsorbed on iron slag in the raw materials through the adsorption magnet 72 and the adsorption plate 71 while sliding along the magnetic suction assembly 7, so that the produced feed is cleaner.

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 utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides an impeller feeder for feed processing, includes vibrating connector (1), slip subassembly (2) of gathering dust, support housing (3), upper end vibration shell (4), guide subassembly (5), unloading subassembly (6) and magnetism inhale subassembly (7), its characterized in that: the support shell (3) comprises a lower end connecting shell (32), the lower end of the lower end connecting shell (32) is of a conical structure, a connecting ring (31) is arranged on the outer side of the lower end connecting shell (32), an installation through hole is formed in the connecting ring (31), a magnetic suction component (7) is arranged on the inclined plane of the outer side of the lower end connecting shell (32), a sliding dust collection component (2) connected with the inner upper end of the lower end connecting shell (32) is provided with a sliding connection, the upper end of the lower end connecting shell (32) is connected with an upper end vibrating shell (4), the upper end vibrating shell (4) comprises a soft connecting ring (42) connected with the lower end connecting shell (32), an upper end connecting shell (41) is arranged at the upper end of the soft connecting ring (42), two vibrating connecting pieces (1) are arranged between the outer side of the upper end vibrating shell (4) and the outer side of the support shell (3), a blanking component (6) is arranged at the lower end of the middle of the upper end vibrating shell (4), two material guide assemblies (5) are arranged inside the upper end vibration shell (4), and the two material guide assemblies (5) are respectively positioned on two sides of the blanking assembly (6).

2. The impeller feeder for feed processing according to claim 1, wherein: subassembly (7) are inhaled to magnetism includes installing connecting plate (73) be connected shell (32) with the lower extreme, and one side of installing connecting plate (73) is equipped with adsorption plate (71), be equipped with the logical groove that corresponds with adsorption plate (71) on lower extreme connection shell (32), be equipped with the through-hole on installing connecting plate (73), the inside of this through-hole is equipped with adsorption magnet (72), and one side and the adsorption plate (71) laminating of adsorption magnet (72).

3. The impeller feeder for feed processing according to claim 1, wherein: the material guide assembly (5) comprises an L-shaped material guide plate (51), the upper end of the L-shaped material guide plate (51) is connected with the upper end connecting shell (41) through a rotating shaft, a vertical plate of the L-shaped material guide plate (51) is located on one side of the blanking assembly (6), and a second connecting spring (52) is arranged between one side of the vertical plate of the L-shaped material guide plate (51) and the inner side of the upper end connecting shell (41).

4. The impeller feeder for feed processing according to claim 1, wherein: the blanking assembly (6) comprises a blanking impeller (61) rotatably connected with the upper end connecting shell (41), and one side of the upper end connecting shell (41) is provided with a motor (62) driving the blanking impeller (61) to rotate.

5. The impeller feeder for feed processing according to claim 1, wherein: the dust collecting assembly (2) comprises a sliding filter plate (22), a sliding groove connected with the sliding filter plate (22) in a sliding mode is formed in the lower end connecting shell (32), through holes are uniformly formed in the sliding filter plate (22), a dust collecting shell (21) is arranged on the lower surface of the sliding filter plate (22), and a mounting plate fixed with the lower end connecting shell (32) is arranged at one end of the sliding filter plate (22).

6. The impeller feeder for feed processing according to claim 1, wherein: vibration connecting piece (1) include two connect otic placodes (13) of being connected with upper end connection shell (41) and lower extreme connection shell (32) respectively, evenly be equipped with between two connect otic placodes (13) connecting spring (12), the connection otic placode (13) upper surface of top is equipped with vibrating motor (11).

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