CN110775518B

CN110775518B - Powder collecting device of rice flour cutting machine

Info

Publication number: CN110775518B
Application number: CN201910276065.1A
Authority: CN
Inventors: 王新云; 柳先知; 邵泽强; 徐庆斌; 潘松林; 田青华
Original assignee: Qingdao Haikejia Intelligent Technology Co ltd
Current assignee: Qingdao Haikejia Intelligent Technology Co ltd
Priority date: 2019-04-08
Filing date: 2019-04-08
Publication date: 2024-01-09
Anticipated expiration: 2039-04-08
Also published as: CN110775518A

Abstract

The powder collecting device of the rice flour cutting machine is characterized by comprising a bracket, a longitudinal transmission part and a transverse output part, wherein the longitudinal transmission part is arranged on the bracket and is used for conveying materials from the back to the front between fingers; the transverse output part is arranged on the bracket and is positioned above the longitudinal conveying part and is used for transversely outputting the materials positioned above the longitudinal conveying part. The invention has the advantages that: the scraper blade of the transverse output part is used for collecting the cut rice flour, so that the position movement and inclination are avoided, the regular output and collection of the rice flour are ensured, and the follow-up process is facilitated.

Description

Powder collecting device of rice flour cutting machine

Technical Field

The invention relates to a powder collecting device of a rice flour cutting machine, which is used for outputting and collecting cut rice flour and belongs to the technical field of food cutting machinery.

Background

At present, the powder collecting form of the cut rice flour in the market is that a belt or an O-shaped belt rotates along with a motor, materials falling into the belt or the O-shaped belt are output and collected, the materials are easy to move in position in the conveying process, inclination is generated, and the materials are uneven front and back to influence subsequent production.

Disclosure of Invention

The invention aims to provide a powder collecting device of a rice flour cutting machine, which solves the problems that in the prior art, materials are easy to move in position in the conveying process, incline is generated, the front and back of the materials are uneven, and the follow-up production is affected.

The technical scheme of the invention is as follows: the powder collecting device of the rice flour cutting machine is characterized by comprising a bracket, a longitudinal transmission part and a transverse output part, wherein the longitudinal transmission part is arranged on the bracket and is used for conveying materials from the back to the front between fingers; the transverse output part is arranged on the bracket and is positioned above the longitudinal conveying part and is used for transversely outputting the materials positioned above the longitudinal conveying part.

The bracket comprises two side plates which are arranged in parallel and a cross beam connected between the two side plates, and two ends of the cross beam are welded at the front ends of the two side plates; the support is a shared component of the rice flour cutting machine, a cutter support and two rear rocker arm support plates for installing the transverse output part are fixed at the upper end of the left side plate.

The longitudinal transmission part includes: the device comprises a first motor, a first motor fixing plate, a face feeding roller and a baffle, wherein the first motor is arranged on a left side plate through the first motor fixing plate; two ends of 2-4 surface feeding rollers which are transversely arranged in parallel are respectively rotatably arranged on side plates at two sides, an output shaft of a first motor is in transmission connection with the left end of each surface feeding roller through a first synchronous belt transmission mechanism, and a tensioning plate is arranged on the side plate at the left side; the baffle is fixed above the cross beam and is positioned in front of one front face conveying roller.

The lateral output section includes: the device comprises an air cylinder, rocker arms, belt shafts, belts, belt side plates, a front rocker arm support plate, a discharge panel, scraping plates, connecting rods and a second motor, wherein one belt shaft is respectively rotatably supported between two ends of the two belt side plates which are transversely arranged in parallel, the belts encircle the two belt shafts, one end of the belt shaft on the left side is provided with a third synchronous belt pulley, and one end or two ends of the outer side of the belt are provided with the scraping plates; the left side of the left belt shaft is provided with a second motor, and an output shaft of the second motor is rotationally connected with the left belt shaft through a second synchronous transmission mechanism; a plurality of surface guide plates are arranged below the right end of the belt, and a tensioning device is arranged between a belt shaft on the right side and a belt side plate; the belt shaft, the belt side plate and the scraping plate form an output belt whole, and the output belt whole is connected with the front end of the bracket through a lifting driving mechanism.

The lifting driving mechanism comprises a cylinder, a rocker arm, a connecting rod, a front rocker arm support plate and a rear rocker arm support plate, and the bottom end of a cylinder body at the upper end of the cylinder is connected to a cutter support above a left side plate through a cylinder support; a front rocker arm support plate is arranged on the front side opposite to the two rear rocker arm support plates, the lower ends of the front rocker arm support plates are respectively connected with the front ends of the brackets, and the two rear rocker arm support plates and the two front rocker arm support plates are respectively positioned on the front side and the rear side of the longitudinal transmission part close to the two ends; the fulcrums of the four L-shaped rocker arms are respectively rotatably arranged on the two rear rocker arm support plates and the two front rocker arm support plates; one end of each rocker arm is hinged with a corresponding part on the outer side of the belt side plate, and the other ends of the two rocker arms on the same side are hinged with two ends of one connecting rod respectively; the left rocker arm is provided with a driving arm, and the top end of the driving arm is hinged with the top end of a piston rod at the lower end of the cylinder.

The invention has the advantages that: the scraper blade of the transverse output part is used for collecting the cut rice flour, so that the position movement and inclination are avoided, the regular output and collection of the rice flour are ensured, and the follow-up process is facilitated.

Drawings

FIG. 1 is a schematic perspective view of the whole structure of the present invention;

FIG. 2 is a schematic perspective view of the bracket portion of FIG. 1;

fig. 3 is a schematic perspective view of the driving part of fig. 1;

fig. 4 is a schematic perspective view of the powder collecting part in fig. 1.

Reference numerals illustrate: 1. side plate, 2, crossbeam, 3, back rocking arm extension board, 4, cutter support, 5, first motor, 6, first motor fixed plate, 7, first synchronous pulley, 8, first synchronous belt, 9, first bearing frame, 10, send the face roller, 11, baffle, 12, tensioning board, 13, cylinder, 14, cylinder support, 15, rocking arm, 16, belt axle, 17, belt, 18, belt side plate, 19, preceding rocking arm extension board, 20, face deflector, 21, scraper blade, 22, connecting rod, 23, overspeed device tensioner, 51, second motor, 61, second motor fixed plate, 71, second synchronous pulley, 72, third synchronous pulley, 81, second synchronous belt, 91, second bearing frame.

Detailed Description

Referring to fig. 1 to 4, the invention relates to a powder collecting device of a rice flour cutting machine, which is characterized by comprising a bracket, a longitudinal conveying part and a transverse output part, wherein the longitudinal conveying part is arranged on the bracket and is used for conveying materials from the back to the front between fingers; the transverse output part is arranged on the bracket and is positioned above the longitudinal conveying part and is used for transversely outputting the materials positioned above the longitudinal conveying part.

The bracket comprises two side plates 1 which are arranged in parallel and a cross beam 2 connected between the two side plates, wherein two ends of the cross beam 2 are welded at the front ends of the two side plates 1 to form a whole. The support is a common part of the rice flour cutter, and a cutter support 4 (a cutter device for mounting the rice flour cutter and a cylinder support 14 of the invention) and two rear rocker arms support plates 3 for mounting a transverse output part are fixed at the upper end of a left side plate 1 by bolts (see fig. 1 and 2).

Referring to fig. 1 and 3, the longitudinal transport section of the present invention includes: the first motor 5, the first motor fixing plate 6, the first synchronous pulley 7, the first synchronous belt 8, the first bearing seat 9, the face feeding roller 10, the baffle 11 and the tensioning plate 12, wherein the first motor 5 is arranged on the left side plate 1 through the first motor fixing plate 6; two ends of three face feeding rollers 10 which are transversely arranged in parallel are respectively fixed on side plates 1 on two sides through a bearing seat 9, and an output shaft of a first motor 5 is in transmission connection with the left end of the face feeding roller 10 through a first synchronous belt transmission mechanism [ consisting of 5 first synchronous pulleys 7 (one on the output shaft of the first motor 5 and four on the left end of the three face feeding rollers 10), a tensioning pulley and two first synchronous belts 8 (one of the synchronous pulleys surrounds the synchronous pulleys 7 on the output shaft of the first motor 5 and the synchronous pulleys on the two face feeding rollers 10 at the back, and the other synchronous belt 8 surrounds the tensioning pulley and the synchronous pulleys on the two face feeding rollers 10 at the front and back) ]; a tensioning plate 12 is fixed to the left side plate 1, and the tensioning pulley is mounted on the tensioning plate 12. A baffle 11 is fixed above the cross beam 2 in front of the front one of the face-feed rollers 10.

Referring to fig. 1 and 4, the lateral output part of the present invention includes: cylinder 13, rocker 15, belt shaft 16, belt 17, belt side plate 18, front rocker arm support plate 19, face plate 20, scraper 21, connecting rod 22 and second motor 51. A belt shaft 16 is rotatably supported between both ends of two belt side plates 18 arranged in parallel in the transverse direction, a belt 17 is wound around the two belt shafts 16, a third timing pulley 72 is mounted at one end of the belt shaft 16 on the left side, and a set of scrapers 21 are provided at both ends of the outer side of the belt 17. A second motor 51 (mounted on a second motor fixing plate 61, which is connected to the left side plate 1) is provided on the left side of the left belt shaft 16, and an output shaft of the second motor 51 drives the left belt shaft 16 to rotate through a second synchronous transmission mechanism composed of a second synchronous pulley 71, a third synchronous pulley 72 and a second synchronous belt 81, thereby driving the belt 17 to rotate. A plurality of surface guide plates 20 (fixed to the side plate 1) are provided below the right end of the belt 17, and a tensioner 23 is provided between the belt shaft 16 on the right side and the belt side plate 18.

The belt shaft 16, the belt 17, the belt side plate 18 and the scraper 21 constitute an output belt unit, and the output belt unit is connected to the front end of the bracket by a lifting drive mechanism.

The lifting driving mechanism comprises an air cylinder 13, a rocker arm 15, a connecting rod 22, a front rocker arm support plate 19 and a rear rocker arm support plate 3, wherein the bottom end of the cylinder body at the upper end of the air cylinder 13 is connected to the cutter support 4 above the left side plate 1 through an air cylinder support 14. A front rocker arm support plate 19 (the lower ends of which are respectively connected with the front ends of the brackets) is respectively arranged on the front sides opposite to the two rear rocker arm support plates 3, and the two rear rocker arm support plates 3 and the two front rocker arm support plates 19 are respectively arranged on the front and rear sides of the longitudinal transmission part, which are close to the two ends. The fulcrums of the four L-shaped rocker arms 15 are respectively rotatably arranged on the two rear rocker arm support plates 3 and the two front rocker arm support plates 19 through a bearing seat 19. One end of each rocker arm 15 is hinged with a corresponding position on the outer side of the belt side plate 18, and the other ends of the two rocker arms 15 on the same side are hinged with two ends of one connecting rod 22. One rocker arm 15 on the left side is provided with a driving arm (the whole rocker arm 15 is in a shape), the top end of the driving arm is hinged with the top end of a piston rod at the lower end of the cylinder 13, the rocker arms 15 are driven to deflect around the pivot point of the driving arm through the expansion and contraction of the piston rod of the cylinder 13, the deflection of the rocker arms 15 drives the belt side plate 18 to move up and down, and accordingly the whole output belt is driven to move up and down, and the two rocker arms 15 on the cylinder side are welded into a whole through a long shaft.

The first and second timing belt transmission mechanisms of the present invention are not limited to the above-described configuration, and a chain transmission mechanism or any other timing transmission mechanism may be employed.

The working process of the invention comprises the following steps: the first motor 5 is started and then drives the flour feeding roller 10 to rotate through the first synchronous belt transmission mechanism, when cut materials (rice flour) reach the upper surface of the flour feeding roller 10, the flour feeding roller 10 is driven to continue to move forwards until the cut materials are blocked by the baffle 11 and are retained in the material collecting area, and then the first motor 5 stops running; subsequently, piston rods of the air cylinders 13 are contracted to drive the four rocker arms 15 to synchronously deflect, so that the belt side plates 18 and the output belt are driven to integrally move downwards, when the belt side plates and the output belt are moved downwards to a required position, the second motor 51 is started, power is transmitted to the belt shaft 16 through the second synchronous belt transmission mechanism, the belt shaft 16 is driven to rotate to drive the belt 17 arranged on the belt shaft 16 to rotate together, the scraper 21 fixed on the belt is driven to rotate simultaneously when the belt 17 rotates, and when the scraper 21 rotates, the belt 17 and materials between the surface conveying rollers 10 are driven to transversely move together, and finally the materials are output through the surface guide plate 20, so that the materials are collected; when the scraper 21 moves to the right end (horizontal state) of the belt 17, the second motor 51 stops operating, waiting for the next material collection.

Claims

1. The powder collecting device of the rice flour cutting machine is characterized by comprising a bracket, a longitudinal transmission part and a transverse output part, wherein the longitudinal transmission part is arranged on the bracket and is used for conveying materials from the back to the front between fingers; the transverse output part is arranged on the bracket and is positioned above the longitudinal conveying part and is used for transversely outputting the materials positioned above the longitudinal conveying part;

the bracket comprises two side plates which are arranged in parallel and a cross beam connected between the two side plates, and two ends of the cross beam are welded at the front ends of the two side plates; the support is a shared component of the rice flour cutting machine, a cutter support and two rear rocker arm support plates for installing the transverse output part are fixed at the upper end of a left side plate;

the longitudinal transmission part includes: the device comprises a first motor, a first motor fixing plate, a face feeding roller and a baffle, wherein the first motor is arranged on a left side plate through the first motor fixing plate; two ends of 2-4 surface feeding rollers which are transversely arranged in parallel are respectively rotatably arranged on side plates at two sides, an output shaft of a first motor is in transmission connection with the left end of each surface feeding roller through a first synchronous belt transmission mechanism, and a tensioning plate is arranged on the side plate at the left side; the baffle is fixed above the cross beam and positioned in front of one front face conveying roller;

2. The powder collecting device of the rice flour cutting machine according to claim 1, wherein the lifting driving mechanism comprises a cylinder, a rocker arm, a connecting rod, a front rocker arm support plate and a rear rocker arm support plate, and the bottom end of a cylinder body at the upper end of the cylinder is connected to a cutter support above a left side plate through a cylinder support; a front rocker arm support plate is arranged on the front side opposite to the two rear rocker arm support plates, the lower ends of the front rocker arm support plates are respectively connected with the front ends of the brackets, and the two rear rocker arm support plates and the two front rocker arm support plates are respectively positioned on the front side and the rear side of the longitudinal transmission part close to the two ends; the fulcrums of the four L-shaped rocker arms are respectively rotatably arranged on the two rear rocker arm support plates and the two front rocker arm support plates; one end of each rocker arm is hinged with a corresponding part on the outer side of the belt side plate, and the other ends of the two rocker arms on the same side are hinged with two ends of one connecting rod respectively; the left rocker arm is provided with a driving arm, and the top end of the driving arm is hinged with the top end of a piston rod at the lower end of the cylinder.