CN214003140U - Multichannel feed mechanism - Google Patents

Abstract

The utility model belongs to the technical field of feed mechanism and specifically relates to a multichannel feed mechanism is related to, including sharp feeding unit, connect the material unit, the vision monitoring unit, sharp feeding unit includes the chassis, a plurality of sharp feeding mechanism install in proper order on the chassis, sharp feeding mechanism includes first mounting panel, the material conveying way, the straight line feeder, be provided with the electro-magnet in the straight line feeder, connect the material unit to include the material receiving groove, the piece that gathers gases, connect the gas head, the mobile device, the base is located one side of chassis, the mobile device is installed on the base, the one end of the piece that gathers gases is installed on the mobile device and is connected with the gas head, it is provided with a plurality of to connect the material groove, a plurality of material receiving grooves are equidistantly installed at the other end of the piece that gathers gases, connect the material groove to be located the below of the discharge gate that conveys the material way; the multi-channel independent control function is provided, the raisin distribution frequency of each channel can be controlled, the arrangement and on-site waiting of the raisin in each channel are ensured, and the beat of the whole machine is improved.

Description

Multichannel feed mechanism

Technical Field

The utility model belongs to the technical field of feed mechanism and specifically relates to a multichannel feed mechanism is related to.

Background

At present, in the process of processing and manufacturing betel nut food, raisins need to be separated into single grains to be arranged before the raisins are picked up by a raisin picking mechanism, and currently, the raisins are generally separated by adopting a multi-stage linear feeder, so that the number of the linear feeders is large, the single grain separation state of each channel is difficult to debug, the classification effect is unstable, and the cost is relatively high.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an it is not enough to overcome above-mentioned condition, aims at providing the technical scheme that can solve above-mentioned problem.

A multi-channel material distributing mechanism comprises a linear feeding unit, a material receiving unit and a visual monitoring unit, wherein the visual monitoring unit is arranged above the linear feeding unit, the linear feeding unit comprises a bottom frame and a plurality of linear feeding mechanisms, the linear feeding mechanisms are sequentially arranged on the bottom frame, the linear feeding mechanism comprises a first mounting plate, a material conveying channel and a linear feeder, the first mounting plate is arranged on the bottom frame, the linear feeder is arranged on the first mounting plate, an electromagnet is arranged in the linear feeder, the material conveying channel is arranged on the linear feeder, the material receiving unit comprises a material receiving groove, a gas collecting block, a gas receiving head, a moving device and a base, the base is positioned on one side of the bottom frame, the moving device is arranged on the base, one end of the gas collecting block is arranged on the moving device and connected with the gas receiving head, the material receiving grooves are arranged in plurality, the plurality of material receiving grooves are arranged at equal intervals on the other end of the gas collecting block, the material receiving groove is positioned below the discharge hole of the material conveying channel.

Further, the vision monitoring unit comprises a second mounting plate, a third mounting plate, a light source, an industrial camera and a mounting seat, wherein the second mounting plate and the third mounting plate are vertically arranged, the third mounting plate is mounted at the bottom of the second mounting plate, the mounting seat is mounted on the third mounting plate, the industrial camera is mounted on the mounting seat, and the light source is mounted at the bottom of the second mounting plate.

Furthermore, the light sources are arranged in two numbers, and the two light sources are symmetrically arranged at two ends of the second mounting plate.

Further, the mobile device comprises a servo motor and a linear module, the linear module is installed on the base, the servo motor is installed on one side of the linear module and drives the linear module, and the gas collection block is installed on the linear module.

Further, the number of the linear feeding mechanisms is consistent with that of the material receiving grooves.

Further, a shock insulation plate is arranged between the first mounting plate and the underframe.

Furthermore, the cross section of the conveying channel is V-shaped.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model provides a multichannel feed mechanism, electro-magnet through on the sharp feeder produces high-frequency oscillation, the directional transmission of raisin on the drive transmission material way, the vacuum flow gets into air collecting block through connecing the gas head, connect the silo to be used for adsorbing single raisin on the transmission material way, rethread mobile device removes air collecting block, and then the drive connects the silo, will connect the silo to remove next process processing, visual monitoring unit is used for detecting the state that the raisin is located sharp feeding unit, the multichannel independent control function has, the raisin of steerable every passageway divides the material frequency, ensure that every passageway all has the raisin to arrange waiting on the throne, improve the complete machine beat.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

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

fig. 2 is a schematic structural view of the linear feeding mechanism of the present invention;

fig. 3 is a schematic structural view of the material receiving unit of the present invention;

fig. 4 is a schematic structural diagram of the vision monitoring unit of the present invention.

In the figure: the device comprises a linear feeding unit 1, a material receiving unit 2, a visual monitoring unit 3, an underframe 4, a linear feeding mechanism 5, a first mounting plate 6, a material conveying channel 7, a linear feeder 8, an electromagnet 9, a material receiving groove 10, a gas collecting block 11, a gas receiving head 12, a moving device 13, a base 14, a second mounting plate 15, a third mounting plate 16, a light source 17, an industrial camera 18, a mounting seat 19, a servo motor 20, a linear module 21 and a shock insulation plate 23.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be understood that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 4, in an embodiment of the present invention, a multi-channel material distribution mechanism includes a linear feeding unit 1, a material receiving unit 2, and a visual monitoring unit 3, the visual monitoring unit 3 is disposed above the linear feeding unit 1, the linear feeding unit 1 includes a bottom frame 4 and a plurality of linear feeding mechanisms 5, the plurality of linear feeding mechanisms 5 are sequentially mounted on the bottom frame 4, the linear feeding mechanisms 5 include a first mounting plate 6, a material conveying channel 7, and a linear feeder 8, the first mounting plate 6 is mounted on the bottom frame 4, the linear feeder 8 is mounted on the first mounting plate 6, an electromagnet 9 is disposed in the linear feeder 8, the material conveying channel 7 is mounted on the linear feeder 8, the material receiving unit 2 includes a material receiving groove 10, a gas collecting block 11, a gas receiving head 12, a moving device 13, and a base 14, the base 14 is located on one side of the bottom frame 4, the moving device 13 is mounted on the base 14, the one end of gas collecting block 11 is installed on mobile device 13 and is connected with gas collecting head 12, and it is provided with a plurality ofly to connect silo 10, and a plurality ofly connect silo 10 equidistant installation in the other end of gas collecting block 11, connect silo 10 to be located the below of the discharge gate of transmission material way 7.

The utility model provides a multichannel feed mechanism, electro-magnet 9 through on the sharp feeder 8 produces high-frequency vibration, the directional transmission of raisin on the drive transmission material way 7, vacuum flow gets into gas collection piece 11 through connecing gas head 12, connect silo 10 to be used for adsorbing single raisin on the transmission material way 7, rethread mobile device 13 removes gas collection piece 11, and then the drive connects silo 10, will connect silo 10 to remove next process processing, visual monitoring unit 3 is used for detecting the raisin and is located the state on sharp feeding unit 1, the multichannel independent control function has, the raisin of steerable every passageway divides the material frequency, ensure that every passageway all has the raisin to arrange waiting on the throne, improve the complete machine beat.

In this embodiment, the visual monitoring unit 3 includes a second mounting plate 15, a third mounting plate 16, a light source 17, an industrial camera 18, and a mounting base 19, the second mounting plate 15 and the third mounting plate 16 are vertically disposed, the third mounting plate 16 is mounted at the bottom of the second mounting plate 15, the mounting base 19 is mounted on the third mounting plate 16, the industrial camera 18 is mounted on the mounting base 19, and the light source 17 is mounted at the bottom of the second mounting plate 15; through the cooperation of the second mounting plate 15, the third mounting plate 16, the light source 17 and the industrial camera 18, the industrial camera 18 can be adjusted in height through the position of the movable mounting seat 19 on the third mounting plate 16, and the industrial camera 18 can be used for photographing the position state of the raisins on the linear feeder unit 8 and further controlling the transmission of the linear feeder 8.

In this embodiment, two light sources 17 are provided, and the two light sources 17 are symmetrically arranged at two ends of the second mounting plate 15; by arranging the two light sources 17, light rays are effectively complemented, and shooting by the industrial camera 18 is facilitated.

In this embodiment, the moving device 13 includes a servo motor 20 and a linear module 21, the linear module 20 is installed on the base 14, the servo motor 20 is installed at one side of the linear module 21 and drives the linear module 21, and the gas collection block 11 is installed on the linear module 21; through the cooperation of servo motor 20, straight line module 21, effectual air-collecting block 11 that removes.

In the embodiment, the number of the linear feeding mechanisms 5 is consistent with that of the receiving grooves 10; the raisins are effectively transported through the arrangement that the number of the linear feeding units 1 is consistent with that of the receiving grooves 10.

In the embodiment, a shock insulation plate 23 is arranged between the first mounting plate 6 and the underframe 4; the vibration isolating plate 23 effectively reduces the influence of the chassis 4 which vibrates.

In this embodiment, the cross section of the conveying channel 7 is V-shaped; the arrangement of the raisins on the conveying material channel 7 is facilitated by arranging the cross section of the conveying material channel 7 in a V shape.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (7)

1. A multi-channel material distributing mechanism is characterized by comprising a linear feeding unit, a material receiving unit and a visual monitoring unit, wherein the visual detecting unit is arranged above the linear feeding unit, the linear feeding unit comprises a bottom frame and a plurality of linear feeding mechanisms, the linear feeding mechanisms are sequentially arranged on the bottom frame, the linear feeding mechanism comprises a first mounting plate, a material conveying channel and a linear feeder, the first mounting plate is arranged on the bottom frame, the linear feeder is arranged on the first mounting plate, an electromagnet is arranged in the linear feeder, the material conveying channel is arranged on the linear feeder, the material receiving unit comprises a material receiving groove, a gas collecting block, a gas receiving head, a moving device and a base, the base is positioned on one side of the bottom frame, the moving device is arranged on the base, one end of the gas collecting block is arranged on the moving device and connected with the gas receiving head, the material receiving grooves are arranged in plurality, and are equidistantly arranged at the other end of the gas collecting block, the material receiving groove is positioned below the discharge hole of the material conveying channel.

2. The multi-channel separating mechanism as claimed in claim 1, wherein the vision monitoring unit comprises a second mounting plate, a third mounting plate, a light source, an industrial camera, and a mounting base, the second mounting plate and the third mounting plate are vertically disposed, the third mounting plate is mounted on the bottom of the second mounting plate, the mounting base is mounted on the third mounting plate, the industrial camera is mounted on the mounting base, and the light source is mounted on the bottom of the second mounting plate.

3. The multi-channel material distributing mechanism of claim 2, wherein two light sources are provided, and the two light sources are symmetrically provided at two ends of the second mounting plate.

4. The multi-channel separating mechanism as claimed in claim 1, wherein the moving device comprises a servo motor, a linear module, the linear module is mounted on the base, the servo motor is mounted on one side of the linear module and drives the linear module, and the gas collecting block is mounted on the linear module.

5. The multi-channel distribution mechanism as claimed in claim 1, wherein the number of the linear feeding mechanisms is the same as that of the receiving troughs.

6. The multi-channel separating mechanism as claimed in claim 1, wherein a vibration isolating plate is disposed between the first mounting plate and the bottom frame.

7. The multi-channel distribution mechanism as claimed in claim 1, wherein the cross section of the conveying channel is V-shaped.

Images