CN210973087U - Electromagnetic iron remover feeding device with scattering mechanism - Google Patents

Abstract

The utility model relates to the technical field of edible alcohol production, and discloses an electromagnetic iron remover feeding device with a scattering mechanism, which comprises a frame and a feeding conveyor belt, wherein the feeding end of the feeding conveyor belt is provided with a feeding hopper, a scattering mechanism and a stirring mechanism, and the discharging end of the feeding conveyor belt is provided with an iron removing mechanism; the scattering mechanism comprises a supporting plate, a blanking plate, a first scattering roller, a second scattering roller and a press roller; the iron removing mechanism comprises a fixed frame, an iron removing conveyor belt and an electromagnet; the material turning mechanism comprises a third support and a material turning plate. The utility model discloses a loading attachment, the deironing is effectual to can prevent that the material from blockking up, make material loading even, steady, guarantee the quality and the output of later stage processing product.

Description

Electromagnetic iron remover feeding device with scattering mechanism

Technical Field

The utility model relates to an edible alcohol production technical field especially relates to an electromagnetism de-ironing separator loading attachment with break up mechanism.

Background

In the production process of edible alcohol, the raw materials need to be deironized, transported and loaded. The existing feeding device has the advantages that raw materials directly enter the conveying belt through the feeding hopper, are easily wetted and bonded or are agglomerated into blocks due to the fact that the raw materials are easily accumulated between the feeding port of the feeding bin and the feeding end of the conveying belt when entering the conveying belt through the feeding bin, so that the raw materials cannot smoothly enter the conveying belt, are unevenly distributed on the conveying belt, are not beneficial to conveying and influence the iron removal effect, iron impurities cannot be completely removed and doped in the raw materials, equipment is damaged, and the product quality is influenced due to the fact that the content of the impurities in the product is too high.

SUMMERY OF THE UTILITY MODEL

In order to solve the prior technical problem, the utility model provides an electromagnetism de-ironing separator loading attachment with break up mechanism.

In order to achieve the above object, the utility model provides a following technical scheme: a feeding device of an electromagnetic iron remover with a breaking mechanism comprises a rack and a feeding conveyor belt arranged on the rack, wherein a feeding end of the feeding conveyor belt is provided with a feeding hopper, the breaking mechanism and a stirring mechanism, and a discharging end of the feeding conveyor belt is provided with an iron removing mechanism;

the scattering mechanism comprises a supporting plate, a blanking plate, a first scattering roller, a second scattering roller and a press roller; the support plate is obliquely fixed on the machine frame on one side of the feeding end of the feeding conveyor belt through a first support, the lower material plate is connected to the support plate through a vibration mechanism, the lower material plate is arranged in parallel with the support plate, the lowest end of the lower material plate is arranged above the feeding conveyor belt, the other end of the lower material plate is arranged below the feeding hopper, the first scattering roller, the second scattering roller and the compression roller are sequentially arranged along the feeding direction of the lower material plate and are transversely and rotatably arranged above the support plate and connected with scattering driving mechanisms, the rotating directions of the first scattering roller and the second scattering roller are opposite, and the first scattering roller and the second scattering roller are connected with a plurality of radial scattering rods;

the iron removing mechanism comprises a fixing frame, an iron removing conveyor belt and an electromagnet, the fixing frame is fixed above the rack through a second support, the iron removing conveyor belt is arranged on the fixing frame, the conveying direction of the iron removing conveyor belt is consistent with that of the feeding conveyor belt, the feeding end of the iron removing conveyor belt is arranged above the discharging end of the feeding conveyor belt, the discharging end of the iron removing conveyor belt extends out of the discharging end of the feeding conveyor belt and is arranged in a hanging mode, and the electromagnet is fixed on the fixing frame and is arranged between the upper conveyor belt and the lower conveyor belt of the iron removing;

the material turning mechanism comprises a third support and a material turning plate, the third support is fixed on the rack below the electromagnet, the third support is a door-shaped support, the material turning plate is connected onto the third support, the bottom end of the material turning plate is provided with sawtooth-shaped material turning teeth, and the material turning teeth are abutted to the working surface of the feeding conveyor belt.

Preferably, the vibrations mechanism includes vibrating motor, outer joint sleeve, in-connection pillar and buffer spring, vibrating motor fixes in the backup pad, and vibrating motor's output portion and the lower surface of flitch down are connected, outer joint sleeve fixes in the backup pad, in the lower surface of flitch is fixed down to in-connection pillar, in the outer joint sleeve is inserted to the lower extreme of in-connection pillar, the buffer spring cover is located in the outer joint sleeve and the in-connection pillar outside, and buffer spring's one end is fixed in the backup pad, and the other end is fixed on the flitch down.

Preferably, the blanking plate is relatively fixed with two side plates perpendicular to the blanking plate, and the first scattering roller, the second scattering roller and the press roller are rotatably connected between the two side plates through a first rotating shaft, a second rotating shaft and a third rotating shaft respectively.

Preferably, the scattering driving mechanism comprises a scattering motor, a driving wheel, a driven wheel, a first gear, a second gear and a third gear, the scattering motor is fixed on one side plate, the driving wheel is connected to an output shaft of the scattering motor, the driven wheel is connected to a first rotating shaft and is connected with the driving wheel through a transmission belt, and the first gear, the second gear and the third gear are sequentially meshed and are respectively connected to the first rotating shaft, the second rotating shaft and the third rotating shaft.

Preferably, a base is arranged below the rack, and universal wheels are arranged on the base.

Preferably, the frame of material loading conveyer belt feed end one side is articulated with the base, and the frame of material loading conveyer belt discharge end one side is articulated to have air cylinder, air cylinder's the other end articulates on the base.

Preferably, the second support is connected with a material guide plate, and the material guide plate is arranged below the discharge end of the iron removal conveyor belt.

Preferably, the scattering rods of the first scattering roller and the scattering rods on the second scattering roller are distributed at intervals in a crossed manner.

Preferably, the material turning mechanisms are provided with a plurality of material turning teeth, and the material turning teeth of adjacent material turning mechanisms are distributed in a staggered mode.

The utility model discloses a loading attachment, the deironing is effectual to can prevent that the material from blockking up, make material loading even, steady, guarantee the quality and the output of later stage processing product.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a top view of the scattering mechanism of the present invention.

Fig. 3 and 4 are left side views of two material turning mechanisms in the present invention, respectively.

In the figure: the device comprises a machine frame 1, a feeding conveyor belt 2, a feeding hopper 3, a supporting plate 4, a blanking plate 5, a first scattering roller 6, a second scattering roller 7, a compression roller 8, a first support 9, a scattering rod 10, a fixing frame 11, an iron-removing conveyor belt 12, an electromagnet 13, a second support 14, a third support 15, a material turning plate 16, a material turning tooth 17, a vibrating motor 18, an outer connecting sleeve 19, an inner connecting column 20, a buffer spring 21, a side plate 22, a first rotating shaft 23, a second rotating shaft 24, a third rotating shaft 25, a scattering motor 26, a first gear 27, a base 28, a universal wheel 29, an adjusting cylinder 30 and a material guide plate 31.

Detailed Description

The embodiments of the present invention will be further explained with reference to the drawings.

Referring to fig. 1-4, an electromagnetic iron remover feeding device with a scattering mechanism comprises a frame 1 and a feeding conveyor belt 2 arranged on the frame 1 and used for feeding, wherein a feeding hopper 3, the scattering mechanism and a material turning mechanism are arranged at a feeding end of the feeding conveyor belt 2, and an iron removing mechanism is arranged at a discharging end of the feeding conveyor belt 2.

The scattering mechanism comprises a supporting plate 4, a blanking plate 5, a first scattering roller 6, a second scattering roller 7 and a press roller 8. Backup pad 4 is fixed in the frame 1 of 2 feed ends one sides of material loading conveyer belt through the slope of first support 9, flitch 5 is connected on backup pad 4 through reciprocating motion mechanism down, flitch 5 and backup pad 4 parallel arrangement down, and the 2 tops of material loading conveyer belt are located to the lower extreme of flitch 5 down, and feeder hopper 3 below is located to the other end of flitch 5 down. First break up roller 6, second and break up roller 7 and compression roller 8 and set gradually and all transversely rotate along the unloading direction of unloading board 5 and locate backup pad 4 top and be connected with and break up actuating mechanism, and first break up roller 6 and second break up the direction of rotation of roller 7 and are opposite, all are connected with a plurality of radial poles 10 that break up on first break up roller 6 and the second break up roller 7.

Deironing mechanism includes mount 11, deironing conveyer belt 12 and electro-magnet 13, mount 11 is fixed in frame 1 top through second support 14, deironing conveyer belt 12 is located on mount 11, and the direction of transfer of deironing conveyer belt 12 is unanimous with material loading conveyer belt 2, and the discharge end top of material loading conveyer belt 2 is located to the feed end of deironing conveyer belt 12, and the discharge end of deironing conveyer belt 12 stretches out the discharge end and unsettled setting of material loading conveyer belt 2, electro-magnet 13 is fixed on mount 11 and is located between the last conveyer belt of deironing conveyer belt 12 and the lower conveyer belt.

The material turning mechanism comprises a third support 15 and a material turning plate 16, the third support 15 is fixed on the rack 1 below the electromagnet 13, the third support 15 is a door-shaped support, the material turning plate 16 is connected onto the third support 15, the bottom end of the material turning plate 16 is provided with sawtooth-shaped material turning teeth 17, and the material turning teeth 17 are abutted to the working surface of the feeding conveyor belt 2.

The vibration mechanism comprises a vibration motor 18, an outer connecting sleeve 19, an inner connecting column 20 and a buffer spring 21, wherein the vibration motor 18 is fixed on the supporting plate 4, the output part of the vibration motor 18 is connected with the lower surface of the lower feeding plate 5, the outer connecting sleeve 19 is fixed on the supporting plate 4, the inner connecting column 20 is fixed on the lower surface of the lower feeding plate 5, the lower end of the inner connecting column 20 is inserted into the outer connecting sleeve 19, the buffer spring 21 is sleeved outside the outer connecting sleeve 19 and the inner connecting column 20, one end of the buffer spring 21 is fixed on the supporting plate 4, and the other end of the buffer spring 21 is fixed on the lower feeding plate 5.

Two side plates 22 perpendicular to the blanking plate 5 are relatively fixed on the blanking plate 5, and the first scattering roller 6, the second scattering roller 7 and the press roller 8 are respectively and rotatably connected between the two side plates 22 through a first rotating shaft 23, a second rotating shaft 24 and a third rotating shaft 25. In this embodiment, the feed hopper 3 is fixed to two side plates 22.

Break up actuating mechanism and include break up motor 26, action wheel, follow driving wheel, first gear 27, second gear, third gear, break up motor 26 and fix on one of them curb plate 22, the action wheel is connected on the output shaft of breaking up motor 26, connect on first pivot 23 and pass through driving belt with the action wheel from the driving wheel and be connected, first gear 27, second gear, third gear mesh in proper order and connect respectively on first pivot 23, second pivot 24, third pivot 25.

A base 28 is arranged below the machine frame 1, and universal wheels 29 are arranged on the base 28.

The frame 1 of the feeding end one side of the feeding conveyor belt 2 is hinged with the base 28, the frame 1 of the discharging end one side of the feeding conveyor belt 2 is hinged with the adjusting cylinder 30, and the other end of the adjusting cylinder 30 is hinged on the base 28.

The second support 14 is connected with a material guide plate 31, and the material guide plate 31 is arranged below the discharge end of the iron removing conveyor belt 12.

The scattering rods 10 of the first scattering roller 6 and the scattering rods 10 on the second scattering roller 7 are distributed at intervals in a crossed manner.

The material turning mechanisms are provided with two material turning teeth 17 which are distributed in a staggered way.

In this embodiment, the feeding conveyor belt 2 and the de-ironing conveyor belt 12 both include a driving roller and a driven roller, and are connected to a transmission driving mechanism (the transmission driving mechanism is prior art, and therefore, detailed description is omitted). And the electromagnet 13 is positioned between the driving roller and the driven roller of the deironing conveyor belt 12.

The utility model discloses a theory of operation does: add the raw materials into feeder hopper 3, the raw materials falls into down on flitch 5 through feeder hopper 3, and the during operation, vibrating motor 18 starts, and lower flitch 5 is in shock condition, can carry out the predispersion with the raw materials effectively, and the setting of two curb plates 22 can prevent that the raw materials from droing from the front and back both sides of lower flitch 5 and avoid the raw materials extravagant. The raw materials move downwards along the blanking plate 5 due to gravity, and when the raw materials pass through the first scattering roller 6 and the second scattering roller 7, the scattering rods 10 on the first scattering roller 6 and the second scattering roller 7 scatter the raw materials further. The first scattering roller 6 and the second scattering roller 7 are opposite in rotating direction, and the scattering rods 10 on the first scattering roller are distributed at intervals in a crossed mode, so that raw materials on the discharging plate 5 can be scattered uniformly and thoroughly, and scattering blind areas are eliminated. In addition, the first scattering roller 6, the second scattering roller 7 and the vibration mechanism are matched with each other, so that the raw materials which are bonded or agglomerated can be scattered quickly and uniformly, and the scattering efficiency is improved.

When the raw materials passes through compression roller 8, compression roller 8 can control the volume that the raw materials got into material loading conveyer belt 2, makes the raw materials evenly get into material loading conveyer belt 2 to guarantee that the raw materials disperses evenly, the material loading is steady on material loading conveyer belt 2. Because the blanking plate 5 is in a vibration state, the raw materials can be prevented from being blocked when passing through the compression roller 8. The raw materials that get into material loading conveyer belt 2 moves up along with material loading conveyer belt 2, and when moving to electro-magnet 13 department, iron impurity in the raw materials receives the magnetic force of electro-magnet 13 and is adsorbed to the lower surface of deironing conveyer belt 12 to along with deironing conveyer belt 12 motion. When the iron impurities move to the discharge end of the iron removing conveyor belt 12, the magnetic force applied to the iron impurities is weakened, and the iron impurities fall to the material guide plate 31 under the action of gravity, so that the iron impurities are removed. And the raw materials are sent to the next processing procedure from the discharging end of the feeding conveyor belt 2.

The raw materials on the feeding conveyor belt 2 can be turned by the material turning mechanism, so that iron chips and impurities on the bottom layer of the raw materials are prevented from being adsorbed by the electromagnet 13, and the impurities are thoroughly removed.

The base 28 has still been set up to this embodiment, installs universal wheel 29 on the base 28, makes things convenient for loading attachment to remove. In addition, the feeding height and angle of the feeding device can be adjusted by the adjusting cylinder 30.

Claims (9)

1. The utility model provides an electromagnetism de-ironing separator loading attachment with break up mechanism, includes the frame and locates the material loading conveyer belt in the frame, its characterized in that: the feeding end of the feeding conveyor belt is provided with a feeding hopper, a scattering mechanism and a stirring mechanism, and the discharging end of the feeding conveyor belt is provided with a deironing mechanism;

the scattering mechanism comprises a supporting plate, a blanking plate, a first scattering roller, a second scattering roller and a press roller; the support plate is obliquely fixed on the machine frame on one side of the feeding end of the feeding conveyor belt through a first support, the lower material plate is connected to the support plate through a vibration mechanism, the lower material plate is arranged in parallel with the support plate, the lowest end of the lower material plate is arranged above the feeding conveyor belt, the other end of the lower material plate is arranged below the feeding hopper, the first scattering roller, the second scattering roller and the compression roller are sequentially arranged along the feeding direction of the lower material plate and are transversely and rotatably arranged above the support plate and connected with scattering driving mechanisms, the rotating directions of the first scattering roller and the second scattering roller are opposite, and the first scattering roller and the second scattering roller are connected with a plurality of radial scattering rods;

the iron removing mechanism comprises a fixing frame, an iron removing conveyor belt and an electromagnet, the fixing frame is fixed above the rack through a second support, the iron removing conveyor belt is arranged on the fixing frame, the conveying direction of the iron removing conveyor belt is consistent with that of the feeding conveyor belt, the feeding end of the iron removing conveyor belt is arranged above the discharging end of the feeding conveyor belt, the discharging end of the iron removing conveyor belt extends out of the discharging end of the feeding conveyor belt and is arranged in a hanging mode, and the electromagnet is fixed on the fixing frame and is arranged between the upper conveyor belt and the lower conveyor belt of the iron removing;

the material turning mechanism comprises a third support and a material turning plate, the third support is fixed on the rack below the electromagnet, the third support is a door-shaped support, the material turning plate is connected onto the third support, the bottom end of the material turning plate is provided with sawtooth-shaped material turning teeth, and the material turning teeth are abutted to the working surface of the feeding conveyor belt.

2. The feeding device of the electromagnetic iron remover with the scattering mechanism of claim 1, which is characterized in that: the utility model discloses a vibrating mechanism, including vibrating motor, outer connecting sleeve, in-connection connecting post and buffer spring, vibrating motor fixes in the backup pad, and vibrating motor's output portion is connected with the lower surface of flitch down, outer connecting sleeve fixes in the backup pad, in-connection connecting post fixes the lower surface of flitch down, in the outer connecting sleeve was inserted to the lower extreme of in-connection connecting post, the buffer spring cover was located in the outer connecting sleeve and the in-connection connecting post outside, and buffer spring's one end is fixed in the backup pad, and the other end is fixed on flitch down.

3. The feeding device of the electromagnetic iron remover with the scattering mechanism of claim 1, which is characterized in that: two side plates vertical to the blanking plate are oppositely fixed on the blanking plate, and the first scattering roller, the second scattering roller and the press roller are respectively and rotatably connected between the two side plates through a first rotating shaft, a second rotating shaft and a third rotating shaft.

4. The feeding device of the electromagnetic iron remover with the scattering mechanism as claimed in claim 3, characterized in that: the scattering driving mechanism comprises a scattering motor, a driving wheel, a driven wheel, a first gear, a second gear and a third gear, the scattering motor is fixed on one side plate, the driving wheel is connected to an output shaft of the scattering motor, the driven wheel is connected to a first rotating shaft and is connected with the driving wheel through a transmission belt, and the first gear, the second gear and the third gear are sequentially meshed and are respectively connected to the first rotating shaft, the second rotating shaft and the third rotating shaft.

5. The feeding device of the electromagnetic iron remover with the scattering mechanism of claim 1, which is characterized in that: the frame below is equipped with the base, be equipped with the universal wheel on the base.

6. The feeding device of the electromagnetic iron remover with the scattering mechanism of claim 5, characterized in that: the frame of material loading conveyer belt feed end one side articulates with the base, and the frame of material loading conveyer belt discharge end one side articulates there is air cylinder, air cylinder's the other end articulates on the base.

7. The feeding device of the electromagnetic iron remover with the scattering mechanism of claim 1, which is characterized in that: and the second support is connected with a material guide plate, and the material guide plate is arranged below the discharge end of the iron removal conveyor belt.

8. The feeding device of the electromagnetic iron remover with the scattering mechanism of claim 1, which is characterized in that: the scattering rods of the first scattering roller and the scattering rods of the second scattering roller are distributed at intervals in a crossed mode.

9. The feeding device of the electromagnetic iron remover with the scattering mechanism of claim 1, which is characterized in that: the material turning mechanism is provided with a plurality of material turning teeth, and the material turning teeth of adjacent material turning mechanisms are distributed in a staggered mode.

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