CN110681615A - Look selects quick-witted feedway and look to select machine - Google Patents

Abstract

The invention discloses a feeding device of a color sorter, which comprises an upper layer vibrating device and a lower layer vibrating device, wherein the lower layer vibrating device is arranged at the lower part of the upper layer vibrating device, and color sorting materials are vibrated by the upper layer vibrating device and fall into the lower layer vibrating device at a certain vertical and downward speed; the look selects the material to vibrate and keep certain vertical decurrent speed to fall into lower floor's vibrating device via upper vibrating device, and the look selects the material when falling into the vibration dish of lower floor, can receive certain impact force for some mobility are poor, and the look of holding a ball selects the material to be strikeed and disperses, avoids the look to select the material to pile up, and lower floor's vibrating device will strike the dispersed look of selecting the material through vibration homodisperse simultaneously, makes the look select the material homodisperse look to select, improves the look and selects the precision.

Description

Look selects quick-witted feedway and look to select machine

Technical Field

The invention belongs to the field of color sorters, and particularly relates to a feeding device of a color sorter capable of uniformly feeding and a color sorter applying the feeding device of the color sorter.

Background

The principle of the color sorter is that different color particles in the particle color sorting materials are automatically sorted out by utilizing a photoelectric detection technology according to the difference of optical characteristics of the color sorting materials. The photoelectric color selector is a nondestructive sorting device for quality detection and classification of bulk color sorting materials, and is widely applied to industries such as grain, food, pigment chemical industry and the like. Can separate plastic, glass, metal, same-color rods and other malignant impurities in grains and reaches the international leading level. The color selector is used as a typical optical-mechanical-electrical integrated system, and relates to innovation and application in various fields of optical-mechanical-electrical softwares, the upgrading and upgrading speed is very high, and the color selector is a typical innovative scientific and technological product.

In the prior art, when selecting color materials with poor flowability, such as tea leaves and plastic sheets, the color materials cannot be uniformly dispersed when being conveyed to a color selection chute of the color selector by a vibrator, so that the color materials are fed in a lump shape, the lump color materials are bound to have a stacking and overlapping phenomenon, the identification effect of the color selector can be influenced, even misjudgment is caused, and the color selection effect of the color selector is greatly influenced.

To solve the above problems, the existing color sorter generally alleviates the problems by the following ways: (1) controlling the yield and the flow of the color selection materials, and avoiding the stacking of the color selection materials as much as possible; (2) through the mode of replacing conventional vibrator with special customized special high-power vibrator, increase the vibration range of look selection material, force the look selection material that will pile up and scatter. The method (1) can greatly reduce the production efficiency of the color sorter and cannot bring the normal capacity of the color sorter into play. Above-mentioned (2) mode, the commonality is relatively poor, can bring great influence for the complete machine outward appearance molding of look selection machine moreover, can increase the logistics cost and the transportation degree of difficulty of look selection machine self simultaneously, and simultaneously, too big vibration amplitude can influence or even destroy the look selection material, can be broken through vibration by a wide margin like tealeaves, reduces the off-the-shelf quality of look selection material or yields.

Disclosure of Invention

The invention aims to provide a feeding device of a color selector, which can disperse color selection materials with poor flowability, avoid stacking of the color selection materials and simultaneously avoid damaging the color selection materials.

The invention also aims to provide the color selector, the feeding device is applied to the natural color selector, the natural color selector is high in color selection material working efficiency and yield, the color selector is attractive in appearance, small in size and convenient to transport and install.

The feeding device of the color selector comprises an upper layer vibrating device and a lower layer vibrating device, wherein the lower layer vibrating device is arranged at the lower part of the upper layer vibrating device, and color selection materials are vibrated by the upper layer vibrating device and fall into the lower layer vibrating device at a certain vertical and downward speed.

Preferably, upper strata vibrating device and lower floor vibrating device all include the vibration dish, connect the bottom plate at the vibrator of vibration dish bottom and installation vibrator, the vibration dish is the uncovered groove of one side open-ended, the opening in uncovered groove is the discharge end of vibration dish, and the inboard position of open-ended side is kept away from in uncovered groove is the feed end of vibration dish.

Preferably, the bottom plate is provided with a plurality of mounting circular long holes, and the mounting circular long holes are parallel to a connecting line of the feeding end and the discharging end of the vibration disc.

Preferably, still include the chute, the chute includes feeding upper segment, guide middle section and ejection of compact hypomere, the slope of guide middle section sets up and connects feeding upper segment and ejection of compact hypomere, the discharge end of upper vibrating device's vibration dish is connected to the feeding upper segment, the ejection of compact hypomere is vertical direction setting, and the feeding end upper portion position of lower floor's vibrating device's vibration dish is arranged in ejection of compact hypomere bottom.

Preferably, the width of the vibration disk of the lower layer vibration device is not less than that of the vibration disk of the upper layer vibration device, and the width of the chute is not more than that of the vibration disk of the lower layer vibration device and not less than that of the vibration disk of the upper layer vibration device.

The utility model provides a look selects machine, includes aforementioned feedway, still includes feeder hopper and look selection spout, the feeder hopper sets up the feed end upper portion at upper vibrating device's vibration dish, the discharge end of lower floor vibrating device's vibration dish is connected to the look selection spout.

Preferably, the front side and the rear side of the feed hopper are respectively provided with an upper check curtain in a detachable mode, and the bottom of the upper check curtain is in surface contact with a vibration disc of an upper-layer vibration device.

Preferably, a lower stop curtain is detachably mounted on the side surface of the discharging lower section of the chute, which is close to the discharging end of the vibrating disk of the lower-layer vibrating device.

Preferably, a notch groove parallel to the vibration plate is arranged on the upper side face of the material guide middle section of the chute and close to the lower end, an inner curtain is detachably mounted on the notch groove, and the inner curtain extends into the chute from the notch groove and is parallel to the lower discharging section of the chute.

Preferably, still include the frame, feeder hopper, upper vibrating device, lower floor vibrating device and look select the spout all can be dismantled and install in the frame.

The feeding device of the color selector in the technical scheme of the invention has the beneficial effects that:

1. the upper layer vibrating device and the lower layer vibrating device are adopted to vibrate, so that the color sorting materials are vibrated twice, the color sorting materials are scattered to the maximum extent, the color sorting materials are prevented from being stacked, and the color sorting precision is improved.

2. The look selects the material to vibrate and keep certain vertical decurrent speed to fall into lower floor's vibrating device via upper vibrating device, and the look selects the material when falling into the vibration dish of lower floor, can receive certain impact force for some mobility are poor, and the look of holding a ball selects the material to be strikeed and disperses, avoids the look to select the material to pile up, and lower floor's vibrating device will strike the dispersed look of selecting the material through vibration homodisperse simultaneously, makes the look select the material homodisperse look to select, improves the look and selects the precision.

The color selector provided by the technical scheme of the invention has the beneficial effects that:

1. by adopting the feeding device of the color selector, which can disperse color selecting materials with poor flowability, the color selection precision of the color selector is effectively improved.

2. Adopt above-mentioned color sorter feedway that can be with the poor color sorting material dispersion of mobility, improve color sorting efficiency and yields.

3. Adopt above-mentioned can select the look of material dispersion with the poor look of mobility to select quick-witted feedway, the effectual compulsory dispersion of selecting the material to the look of having avoided selecting the damage of material to the look.

4. Set up the check apron, the effectual color sorting material of having avoided appears beating or the problem of outside impact when the vibration, has avoided the material to spill.

Drawings

FIG. 1 is a schematic view of a color sorter according to the present invention,

figure 2 is a right side view of figure 1,

FIG. 3 is a schematic view showing the connection between the vibration plate and the vibrator,

figure 4 is a schematic view of the chute configuration,

figure 5 is a schematic view of the feed hopper structure,

fig. 6 is a rear view of fig. 5.

Detailed Description

In order to facilitate the understanding of the technical solutions of the present invention for those skilled in the art, the technical solutions of the present invention will be further described with reference to the drawings attached to the specification.

In the prior art, a layer of vibration device is arranged on a color selector, color selection materials are dispersed through vibration of the layer, then enter a color selection chute, and are subjected to color selection in a color selection box. However, when the color sorter is used for color sorting some color sorting materials with poor flowability, such as tea leaves, plastic sheets and the like, the color sorting materials have some lumps after being subjected to the existing one-time vibration, cannot be dispersed, enter the color sorting box in a stacked state for color sorting, influence the identification effect of the color sorter, and even cannot be color sorted. Based on the problem, the upper layer vibration device and the lower layer vibration device in the technical scheme of the invention well solve the problem.

As shown in fig. 1 in the technical solution of the present invention, a schematic diagram of an upper half structure of a color sorter in the technical solution of the present invention is shown, wherein a schematic diagram of a feeding portion is mainly shown. The utility model provides a look selects quick-witted feedway, includes upper vibrating device 3 and lower floor vibrating device 4, and lower floor vibrating device 4 sets up in the lower part of upper vibrating device 3, and the look selects the material to vibrate and keep certain vertical decurrent speed to fall in lower floor vibrating device 4 through upper vibrating device 3.

Among the above-mentioned technical scheme, the look selects the material to be dispersed through the upper vibrating device vibration, some serious materials of group are fallen into less reunion by the split after the vibration of one deck vibrating device, the look of these reunion form selects the material and has been separated the discharge end of the vibration dish of upper vibrating device together to fall down with the look selection material that has dispersed, then with the vertical vibration dish that falls into lower floor vibrating device of certain speed, the look selection material of reunion form receives the impact force this moment, is broken up, then through the vibration of lower floor vibrating device, equally divide the dispersion, finally fall down by the discharge end of lower floor vibrating device's vibration dish, get into the look selection spout of look selection machine, get into the look selection case through the look selection spout and select for the look. The color sorting materials are not stacked, the color sorting precision is high, the color sorting effect is good, and the yield is high.

The color selection material provided in the upper section technical scheme vibrates through the upper layer vibrating device 3 and keeps a certain vertical downward speed to fall into the lower layer vibrating device 4, and the certain vertical downward speed kept by the color selection material is due to the following reasons: the look selects the material to pass through 3 vibration ejection of compact on upper strata vibrating device in the vertical vibration dish that falls into lower floor vibrating device 4 with appropriate speed for the look of the little bulk form in the look selects the material to receive certain impact force, makes to hold the group to be can be strikeed and scatter. The proper speed is a speed range which can impact and disperse the agglomerated materials on one hand and can not cause crushing and damage to the materials per se on the other hand. When the specific color sorting is carried out or the color sorting machine is installed, different chutes can be selected to control the falling time according to the influence factors of the falling speed of the object, and then the proper speed is controlled.

Referring to fig. 4, which is a schematic structural diagram of the chute 5 in the technical solution of the present invention, the chute 5 includes an upper feeding section 51, a middle guiding section 52 and a lower discharging section 53, and the middle guiding section 52 is obliquely disposed and connected to the upper feeding section 51 and the lower discharging section 53. As shown in fig. 2, the feeding upper section 51 is connected to the discharging end of the vibrating tray of the upper vibrating device 3, the discharging lower section 53 is vertically disposed, and the bottom of the discharging lower section 53 is disposed at the upper position of the feeding end of the vibrating tray of the lower vibrating device 4. The look selects the material to have the discharge end ejection of compact of the vibration dish of upper vibrating device 3 and enters feeding upper segment 51 through the vibration of upper vibrating device 3, fall into guide middle section 52 through feeding upper segment 51, along the internal surface gliding of guide middle section 52, in getting into ejection of compact hypomere 53, be vertical direction whereabouts in ejection of compact hypomere 53, the look selects the material to pass through the whereabouts or a great speed of this section time of guide middle section 52 and ejection of compact hypomere 53, and in getting into the vibration dish of lower floor vibrating device 4 with this speed, take place relative impact with the vibration dish of lower floor vibrating device 4 between, the look of holding a ball selects the material to be strikeed away, again by carrying out the secondary vibration dispersion. The color selection materials are completely and uniformly dispersed and finally enter the color selection box to be subjected to color selection, and the color selection precision is high.

According to the technical scheme, the width of the vibration disk of the lower-layer vibration device 4 is not smaller than that of the vibration disk of the upper-layer vibration device 3, and the width of the chute 5 is not larger than that of the vibration disk of the lower-layer vibration device 4 and is not smaller than that of the vibration disk of the upper-layer vibration device 3. The color selection material passes through the following path: in order to ensure that the materials are not scattered in the downward feeding process, the vibrating disk of the upper vibrating device 3, namely the chute 5 and the vibrating disk of the lower vibrating device 4, the vibrating disk of the lower vibrating device 4 is wider than the chute 5, and the chute 5 is wider than the vibrating disk of the upper vibrating device 3. This technical scheme's design also ensures that the material of 3 vibrations of upper strata vibrating device can not caused to pile up, avoids the material to take place to hold the group problem once more.

Referring to fig. 2 and 3, each of the upper and lower vibration devices 3 and 4 according to the present invention includes a vibration plate 341, a vibrator 342 connected to the bottom of the vibration plate 341, and a bottom plate 343 on which the vibrator 342 is mounted. The vibrator may be any one of the prior art vibrators that can satisfy the requirements and purposes of the technical solution of the present invention. Such as a vibrator conventionally used on color sorters in the prior art. The vibrating tray 341 is an open groove 344 with one side open, the open groove 344 is open at the discharge end 345 of the vibrating tray, and the inner side of the open groove 344 away from the open side is the feed end 346 of the vibrating tray. A plurality of installation round long holes 347 are arranged on the bottom plate 343, and the installation round long holes 347 are parallel to the connecting line of the feeding end 346 and the discharging end 345 of the vibrating disk 341. The installation round long hole 347 is arranged, so that the installation round long hole 347 can drive the vibration disc 341 to adjust the position in the connecting line direction of the feeding end 346 and the discharging end 345, the upper layer vibration device 3, the lower layer vibration device 4 and the chute 5 are installed and fixed, and meanwhile, the adjustment of the position of the color selection material entering the chute 5 through the upper layer vibration device 3 can be realized, namely, the adjustment of the gliding time of the color selection material is realized, namely, the adjustment of the speed of the color selection material falling onto the lower layer vibration device 4 is realized.

As shown in fig. 1 and 2, the color sorter according to the technical scheme of the present invention includes the feeding device, a feeding hopper 2 and a color sorting chute, wherein the feeding hopper 2 is arranged on the upper portion of the feeding end of the vibrating disk of the upper vibrating device 3, and the color sorting chute is connected with the discharging end of the vibrating disk of the lower vibrating device 4. By adopting the color selector of the feeding device in the technical scheme of the invention, color selection materials are scattered uniformly, the color selection precision is high, and the color selection efficiency and the yield are improved. The feeding amount does not need to be reduced during color selection, vibration is not needed to be realized by adopting a large-size vibration device, the problem that the yield is reduced during color selection is effectively avoided, and the problem that the size of the color selector is increased is effectively avoided. The color selector of the technical scheme of the invention is the color selector feeding device capable of dispersing color selection materials with poor flowability, so that forced dispersion of the color selection materials is effectively avoided, and damage to the color selection materials is avoided.

As shown in fig. 2, 5 and 6, the front and rear sides of the feeding hopper 2 of the present invention are detachably mounted with upper curtains 21 and 22, respectively, and the bottoms of the upper curtains 21 and 22 contact with the surface of the vibrating plate of the upper vibrating device 3. The upper baffle 22 on the rear side of the feeding hopper 2 effectively avoids the problem that the material in the vibrating disk of the upper vibrating device 3 is vibrated to overflow when the material in the vibrating disk of the upper vibrating device 3 is accumulated. The bottom of the upper baffle curtain 21 on the front side surface of the feed hopper 2 is horizontal, and is in surface contact with the vibration disc of the upper layer vibration device 3, so that the problems of jumping and splashing of color sorting materials are effectively avoided when color sorting is performed, and meanwhile, the problem that the color sorting materials are quickly flushed out from the discharge end of the vibration disc of the upper layer vibration device 3 is also effectively prevented.

As shown in fig. 2 and 4, the lower discharging section 53 of the chute 5 of the present invention is detachably mounted with a lower curtain 54 on the side surface close to the discharging end of the vibrating disk of the lower vibrating device 4. The bottom of the lower baffle curtain 54 is provided with a section which is in a horizontal state, and the bottom of the lower baffle curtain is in surface contact with the vibration disc of the lower layer vibration device 4, so that the problems of jumping and splashing of color sorting materials are effectively avoided during color sorting, and meanwhile, the problem that the color sorting materials are quickly flushed out from the discharge end of the vibration disc of the lower layer vibration device 4 is effectively prevented.

As shown in fig. 2 and 4, a notch groove 55 parallel to the vibrating disk 341 is disposed on the upper side surface of the material guiding middle section 52 of the chute 5 near the lower end, an inner curtain 56 is detachably mounted on the notch groove 55, and the inner curtain 56 extends into the chute 5 from the notch groove 55 and is parallel to the discharging lower section 53 of the chute 5. The inner curtain 56 effectively prevents the color-selecting materials from sliding down along the material guiding middle section 52 at an excessive speed to enter the material discharging lower section 53 and collide with the inner wall of the material discharging lower section 53.

Last check curtain 21, 22 among this technical scheme, keep off curtain 54 and interior check curtain 56 select different materials for use according to the look selection material type difference, select tealeaves for use thinner smooth plastic film for example, the look can play and prevent tealeaves problem of beating on the one hand, and its weight is less on the other hand, can not cause the hindrance and block to the vibrational motion of the tealeaves of look selection.

As shown in fig. 2, the color sorter according to the technical solution of the present invention further includes a frame 1, and the feed hopper 2, the upper layer vibrating device 3, the lower layer vibrating device 4 and the color sorting chute are detachably mounted on the frame 4.

Technical solution of the invention is described above with reference to the accompanying drawings, it is obvious that the specific implementation of the invention is not limited by the above-mentioned manner, and it is within the scope of the invention to adopt various insubstantial modifications of the inventive method concept and technical solution, or to apply the inventive concept and technical solution to other occasions without modification.

Claims (10)

1. The utility model provides a look selects quick-witted feedway, its characterized in that includes upper vibrating device and lower floor's vibrating device, lower floor's vibrating device sets up the lower part at upper vibrating device, and the look selects the material to vibrate and keep certain vertical decurrent speed to fall into lower floor's vibrating device through upper vibrating device.

2. The feeding device of the color sorter according to claim 1, wherein the upper vibrating device and the lower vibrating device each comprise a vibrating disk, a vibrator connected to the bottom of the vibrating disk, and a bottom plate for mounting the vibrator, the vibrating disk is an open groove with one open side, the open end of the open groove is the discharging end of the vibrating disk, and the inner side of the open groove away from the open side is the feeding end of the vibrating disk.

3. The feeding device of claim 2, wherein the bottom plate is provided with a plurality of mounting circular long holes, and the mounting circular long holes are parallel to a connecting line of the feeding end and the discharging end of the vibrating plate.

4. The feeding device of the color sorter according to claim 2, further comprising a chute, wherein the chute comprises an upper feeding section, a middle guiding section and a lower discharging section, the middle guiding section is obliquely arranged and connected with the upper feeding section and the lower discharging section, the upper feeding section is connected with the discharging end of the vibrating disk of the upper vibrating device, the lower discharging section is vertically arranged, and the bottom of the lower discharging section is arranged at the upper position of the feeding end of the vibrating disk of the lower vibrating device.

5. The feeding device of claim 4, wherein the width of the vibrating disk of the lower vibrating device is not less than the width of the vibrating disk of the upper vibrating device, and the width of the chute is not more than the width of the vibrating disk of the lower vibrating device and not less than the width of the vibrating disk of the upper vibrating device.

6. A color sorter, characterized by comprising the feeding device of any one of claims 1 to 5, and further comprising a feed hopper and a color sorting chute, wherein the feed hopper is arranged at the upper part of the feeding end of the vibrating disk of the upper vibrating device, and the color sorting chute is connected with the discharging end of the vibrating disk of the lower vibrating device.

7. The color sorter according to claim 6, wherein upper shutters are detachably mounted on the front and rear sides of the feed hopper respectively, and the bottoms of the upper shutters contact with the surface of the vibrating disk of the upper vibrating device.

8. The color sorter according to claim 6, wherein a lower curtain is detachably mounted on the side surface of the lower discharging section of the chute, which is close to the discharging end of the vibrating disk of the lower vibrating device.

9. The color sorter according to claim 6, wherein a notch groove parallel to the vibrating plate is arranged on the upper side surface of the material guiding middle section of the chute near the lower end, an inner curtain is detachably mounted on the notch groove, and the inner curtain extends into the chute from the notch groove and is parallel to the lower discharging section of the chute.

10. The color sorter according to claim 6, further comprising a frame, wherein the feed hopper, the upper vibrating device, the lower vibrating device and the color sorting chute are detachably mounted on the frame.

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