CN219771067U - Feeding and distributing device for multi-inclined-roller particle size sieve - Google Patents

Abstract

The utility model provides a feeding and distributing device for a multi-inclined-roller particle size sieve, which comprises a frame with a feeding hopper at the top, an inclined roller set arranged in the frame, a high-position input end of the inclined roller set connected with a feeding hopper discharging opening in a matched manner, and a low-position output end connected with a discharging opening in a matched manner, wherein a distributing mechanism is arranged between the feeding hopper discharging opening and the high-position input end of the inclined roller set, and a buffer plate and a distributing plate are arranged in the distributing mechanism, wherein: the material dividing plate is a corrugated plate with a plurality of bulges, and at least two buffer plates are arranged at intervals from top to bottom. Through set up feed divider in many oblique roller particle diameter sieves, after the cigarette explodes the pearl and gets into the hopper, can reduce impact force and speed under the buffering of buffer board to avoid exploding the pearl and directly drop and appear bouncing the condition that splashes on oblique roller group. The explosive beads can uniformly fall into the inclined roller set through the material distributing plate, so that the problem of stacking on the inclined roller set is avoided.

Description

Feeding and distributing device for multi-inclined-roller particle size sieve

Technical Field

The utility model relates to a feeding and distributing device, in particular to a feeding and distributing device for a multi-inclined-roller particle size sieve, and belongs to the technical field of mechanical design and manufacturing.

Background

The explosive bead for cigarettes is a brittle spherical capsule with smooth surface, high elasticity and liquid inside. In actual production, the particle size requirement of the cigarette explosion beads is very strict, because the particle size directly influences the quality of cigarettes. The inconsistent particle size inevitably occurs in the production process of the explosive beads for cigarettes, and screening equipment is needed to screen the explosive beads with inconsistent particle size. The existing screening device can screen the explosive beads with different particle sizes according to the requirements, but two obvious problems exist: firstly, a certain distance exists between a feeding mechanism and the roller surface of the multi-inclined roller, the explosive beads fly around when falling to the roller surface, and the explosive beads fly off without screening fall into a collecting bin, so that qualified explosive beads are mixed in unqualified explosive beads, and unnecessary waste is caused; secondly, the position that the explosive bead can not be controlled to fall in the free falling process, so that the explosive bead quantity difference between the rollers is large, the phenomenon of overtaking from the upper layer occurs after the explosive beads are accumulated, and the qualification rate is reduced. There is therefore a need for improvements in the art.

Disclosure of Invention

The utility model provides a feeding and distributing device for a multi-oblique-roller particle size sieve, which aims to solve the problems of serious waste of the explosive beads for cigarettes and low cost qualification rate caused by a certain distance between a feeding mechanism and the roller surface of the multi-oblique-roller existing in the conventional explosive bead screening equipment for cigarettes.

The utility model is completed by the following technical scheme: the utility model provides a many oblique roller particle diameter sieves with feeding feed divider, includes the frame of feeder hopper is established at the top, locates the oblique roller group in the frame, and this oblique roller group high-order input matches with the feeder hopper feed opening and connects, low level output matches with the discharge gate and connects, and its characterized in that is equipped with feed divider between feeder hopper feed opening and the oblique roller group high-order input, establishes buffer board and feed divider in the feed divider, wherein: the material distributing plate is provided with a plurality of raised corrugated plates, at least two buffer plates are arranged at intervals from top to bottom so as to guide materials into the inclined roller group through the material distributing mechanism, and the buffer plates are used for avoiding the materials from bouncing off in the material guiding process, and the material distributing plate is used for preventing the materials from piling up.

The inclined roller group consists of a plurality of inclined rollers which are arranged at intervals, and the interval between every two inclined rollers is consistent with the required particle size.

The feed mechanism input is connected with the feeder hopper feed opening in a matched manner, the output end is connected with the high-position input end of the inclined roller set in a matched manner, the feed mechanism comprises a shell with a cavity, wherein the shell is provided with a material outlet and a material inlet, at least two buffer plates in the cavity of the shell are staggered and obliquely arranged, and the feed plate is arranged at the bottom of the cavity of the shell, wherein: the shell is a strip box body surrounded by a left side plate, a right side plate, a front strip baffle plate and a rear strip baffle plate, the material inlet is arranged at the top of the shell, the width of the material inlet is matched with the width of the feed opening of the feed hopper, and the material outlet is arranged at the bottom of the shell, and the width of the material outlet is matched with the width of the inclined roller set;

the buffer plates are at least two arranged at intervals from top to bottom, the length of the buffer plates is consistent with the length of the cavity of the shell, one side edge of the buffer plate positioned on the upper layer is connected with the inner wall of the shell and positioned below the material inlet, the other side edge of the buffer plate is inclined downwards and keeps a distance with the buffer plate on the lower layer, one side edge of the buffer plate on the lower layer is connected with the inner wall of the shell, and the other side edge of the buffer plate on the lower layer is inclined downwards and keeps a distance with the material distributing plate;

the distributing plate is arranged at the bottom of the shell, the length of the distributing plate is consistent with the length of the cavity of the shell, the bulges are arranged at intervals along one end of the distributing plate to the other end, the distributing plate is divided into high bulges and low bulges which are alternately arranged, a discharging groove is arranged between the adjacent high bulges and low bulges, and the discharging groove corresponds to the interval between two adjacent inclined rollers of the inclined roller group;

so as to slow down the falling speed of the explosive beads and counteract the impact force through a buffer plate in the distributing mechanism, thereby avoiding the explosion bead bouncing, uniformly distributing the explosive beads to the inclined roller group through the distributing plate, separating the explosive beads through high and low bulges and avoiding the explosion bead accumulation.

The utility model has the following advantages and effects: by adopting the scheme, through setting up feed divider in many oblique roller particle diameter sieves, after the cigarette explodes the pearl and gets into the hopper, can reduce impact force and speed under the buffering of buffer board to avoid exploding the pearl and directly drop and appear bouncing the condition that splashes on oblique roller group. The explosive beads can uniformly fall into the inclined roller set through the material distributing plate, so that the problem of stacking on the inclined roller set is avoided. The screening qualification rate is improved, and meanwhile, unnecessary waste is effectively reduced. Is an ideal material distributing device.

Drawings

FIG. 1 is a cross-sectional view of the present utility model;

FIG. 2 is an enlarged view of a portion of FIG. 1;

FIG. 3 is a perspective view of the material distributing mechanism of the present utility model.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

The utility model provides a feeding and distributing device for a multi-inclined-roller particle size sieve, which comprises a frame 1, an inclined roller group 6 and a distributing mechanism 2, wherein the top of the frame 1 is provided with a feeding hopper 3, the inclined roller group 6 is arranged in the frame 1, the high-position input end of the inclined roller group 6 is connected with a feeding opening of the feeding hopper 3 in a matched manner, the low-position output end of the inclined roller group 6 is connected with a discharging opening 7 in a matched manner, the distributing mechanism 2 is arranged between the feeding opening of the feeding hopper 3 and the high-position input end of the inclined roller group 6, and the distributing mechanism 2 is internally provided with a buffer plate 4 and a distributing plate 5, wherein: the material distributing plate 5 is provided with a plurality of raised corrugated plates, the buffer plates 4 are arranged at intervals from top to bottom so as to guide materials into the inclined roller group 6 through the material distributing mechanism 2, and in the material guiding process, the buffer plates 4 are used for preventing the materials from bouncing off, and the material distributing plate 5 is used for preventing the materials from piling up;

the inclined roller group 6 consists of a plurality of inclined rollers which are arranged at intervals, and the interval between every two inclined rollers is consistent with the required particle size;

the feed hopper 3 feed opening of feed mechanism 2 input is connected with, the output is connected with the high-order input of oblique roller group 6 with the cooperation, and it includes that it is last to establish material entry 10, the take casing 9 of cavity of material export 8, and two buffer plates 4 in the casing 9 cavity are crisscross and the slope sets up, and the feed plate 5 is located casing 9 cavity bottom, wherein: the shell 9 is a strip box body surrounded by a left side plate, a right side plate, a front strip baffle plate and a rear strip baffle plate, the material inlet 10 is arranged at the top of the shell 9, the width of the material inlet is matched with the width of the feed opening of the feed hopper 3, the material outlet 8 is arranged at the bottom of the shell 9, and the width of the material outlet is matched with the width of the inclined roller set 6;

the two buffer plates 4 are arranged at intervals from top to bottom, the length of the buffer plates is consistent with the length of the cavity of the shell 9, one side edge of the buffer plate 4 positioned on the upper layer is connected with the inner wall of the shell 9 and positioned below the material inlet 10, the other side edge of the buffer plate is inclined downwards and keeps a distance with the buffer plate on the lower layer, one side edge of the buffer plate on the lower layer is connected with the inner wall of the shell 9, and the other side edge of the buffer plate on the lower layer is inclined downwards and keeps a distance with the material distributing plate 5;

the distributing plate 5 is arranged at the bottom of the shell 9, the length of the distributing plate is consistent with the length of the cavity of the shell 9, the bulges are arranged at intervals along one end of the distributing plate 5 to the other end, the distributing plate is divided into high bulges 11 and low bulges 13 which are alternately arranged, a discharging chute 12 is arranged between the adjacent high bulges 11 and low bulges 13, and the discharging chute 12 corresponds to the interval between the adjacent inclined rollers of the inclined roller group 6;

so as to slow down the falling speed of the explosive beads and counteract the impact force through the buffer plate 4 in the distributing mechanism 2, thereby avoiding the explosion bead bouncing, uniformly distributing the explosive beads into the inclined roller group 6 through the distributing plate 5, separating the explosive beads through high and low bulges and avoiding the explosion bead accumulation.

Claims (3)

1. The utility model provides a many oblique roller particle diameter sieves with feeding feed divider, includes the frame of feeder hopper is established at the top, locates the oblique roller group in the frame, and this oblique roller group high-order input matches with the feeder hopper feed opening and connects, low level output matches with the discharge gate and connects, and its characterized in that is equipped with feed divider between feeder hopper feed opening and the oblique roller group high-order input, establishes buffer board and feed divider in the feed divider, wherein: the material dividing plate is a corrugated plate with a plurality of bulges, and at least two buffer plates are arranged at intervals from top to bottom.

2. The feeding and distributing device for the multi-inclined-roller particle-size screen of claim 1, wherein the inclined roller group consists of a plurality of inclined rollers which are arranged at intervals, and the interval between every two inclined rollers is consistent with the required particle size.

3. The feeding and distributing device for the multi-oblique-roller particle size sieve according to claim 1, wherein the input end of the distributing mechanism is matched with the feed opening of the feed hopper, the output end of the distributing mechanism is matched with the high-level input end of the oblique-roller group, the feeding and distributing device comprises a shell with a cavity, on which a material outlet and a material inlet are arranged, at least two buffer plates in the cavity of the shell are staggered and obliquely arranged, and the distributing plate is arranged at the bottom of the cavity of the shell, wherein: the shell is a strip box body surrounded by a left side plate, a right side plate, a front strip baffle plate and a rear strip baffle plate, the material inlet is arranged at the top of the shell, the width of the material inlet is matched with the width of the feed opening of the feed hopper, and the material outlet is arranged at the bottom of the shell, and the width of the material outlet is matched with the width of the inclined roller set;

the buffer plates are at least two arranged at intervals from top to bottom, the length of the buffer plates is consistent with the length of the cavity of the shell, one side edge of the buffer plate positioned on the upper layer is connected with the inner wall of the shell and positioned below the material inlet, the other side edge of the buffer plate is inclined downwards and keeps a distance with the buffer plate on the lower layer, one side edge of the buffer plate on the lower layer is connected with the inner wall of the shell, and the other side edge of the buffer plate on the lower layer is inclined downwards and keeps a distance with the material distributing plate;

the distributing plate is arranged at the bottom of the shell, the length of the distributing plate is consistent with the length of the cavity of the shell, the bulges are arranged at intervals along one end of the distributing plate to the other end of the distributing plate, the distributing plate is divided into high bulges and low bulges which are alternately arranged, a discharging groove is arranged between each two adjacent high bulges and low bulges, and the discharging groove corresponds to the interval between two adjacent inclined rollers of the inclined roller group.