CN216426071U - Blanking structure for removing rice different color grains - Google Patents

Abstract

The utility model discloses a discharging structure for removing rice heterochromatic grains, and relates to the technical field of food processing. The utility model comprises a blanking device, a sensor, an injection separation executing component, a fixed base and a storage bin, wherein the storage bin is arranged in front of the fixed base, the injection separation executing component is fixedly connected onto the fixed base, the sensor is rotatably connected above the fixed base, and the blanking device is arranged above the sensor. The feeding device, the light source lamp tube, the different color bin and the baffle are arranged, so that the problem that the sensing detection of a sensor is often not accurate enough due to insufficient brightness of a light source in the existing feeding structure for removing the different color grains of the rice, and the rice separation quality is poor is solved; the blanking structure for removing the rice heterochrosis grains is used for solving the problem that the baffle on the bin for receiving unqualified rice is vertical, so that heterochrosis rice grains sprayed in the horizontal direction are easy to rebound.

Description

Blanking structure for removing rice different color grains

Technical Field

The utility model belongs to the technical field of food processing, and particularly relates to a blanking structure for removing rice heterochromatic grains.

Background

Rice is also called rice or paddy rice is edible grain, annual herbaceous plants like rice, the nature is pleased with warm and humid, the southern China is commonly called as 'rice' or 'millet', the grain without husk is rice, in the production process of the rice, a blanking structure for removing rice heterochrous grains is needed to separate heterochrous grains in the grain, the blanking structure for removing the rice heterochrous grains is equipment for automatically sorting out the heterochrous grains in the grain material by utilizing a photoelectric detection technology according to the difference of the optical characteristics of the materials, but the equipment still has the following defects in the actual use:

1. the existing blanking structure for removing the rice abnormal color grains often causes the inaccurate induction detection of a sensor due to the fact that a light source is not bright enough, so that the rice separation quality is poor;

2. the existing blanking structure for removing the abnormal color grains of the rice is vertical to a baffle plate on a bin for receiving unqualified rice, so that the abnormal color rice grains sprayed in the horizontal direction are easy to rebound.

Therefore, the existing blanking structure for removing the rice abnormal-color grains cannot meet the requirements in practical use, so that an improved technology is urgently needed in the market to solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a blanking structure for removing rice heterochromous grains, which solves the problem that the existing blanking structure for removing rice heterochromous grains often causes inaccurate induction detection of a sensor due to insufficient brightness of a light source so as to cause poor rice separation quality by arranging a blanking device, a light source lamp tube, a heterochromous bin and a baffle; the blanking structure for removing the rice heterochrosis grains is used for solving the problem that the baffle on the bin for receiving unqualified rice is vertical, so that heterochrosis rice grains sprayed in the horizontal direction are easy to rebound.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model relates to a discharging structure for removing rice abnormal color grains, which comprises a discharging device, a sensor, an injection separation executing component, a fixed base and a storage bin, wherein the storage bin is arranged in front of the fixed base, the storage bin is positioned right below the discharging device, the injection separation executing component is fixedly connected to the fixed base, the injection separation executing component is positioned below the sensor, the sensor is rotatably connected to the upper part of the fixed base, and the discharging device is arranged above the sensor.

Furthermore, a feed opening is arranged above the feeder, a larger opening is formed in the upper end of the feed opening, the lower part of the feed opening is connected with the feeder, light source lamp tubes are fixedly connected to the lower part of the feeder, five light source lamp tubes are arranged in total, three light source lamp tubes are fixedly connected to the outer side of the lower part of the feeder, and two light source lamp tubes are fixed to the inner side of the lower part of the feeder.

Further, sensor rear both sides fixedly connected with rotates the connector, rotates between the connector and is connected with the rotation connecting block on the unable adjustment base, sensor the place ahead fixedly connected with inductive probe.

Further, the injection separation execution part comprises a pressure air pump, a pressure air pipe and an air gun, the pressure air pump is arranged below the injection separation execution part and fixedly connected to the fixed base, the pressure air pump is fixedly connected to the pressure air pipe, the pressure air pipe penetrates through an air pipe opening in the injection platform, and the air gun is fixedly connected to the front of the pressure air pipe.

Furthermore, four fixing pillars are fixedly connected to the upper portion of the fixing base, the fixing pillars are supporting structures on the fixing base, a spraying table is fixedly connected to the upper portion of the fixing pillars, an air gun on a spraying separation execution component is fixed to the spraying table, an air pipe opening is formed in the spraying table, the air gun on the spraying separation execution component is fixed to the spraying table, a light sensing table is fixedly connected to the upper portion of the spraying table, a sensor is rotatably connected to the light sensing table, a rotating connecting block is fixedly connected to the light sensing table, and two ends of the rotating connecting block are rotatably connected with two rotating connectors on the sensor respectively.

Further, the feed bin includes qualified storehouse, different look storehouse, baffle and gets the bin gate, qualified storehouse the place ahead is provided with different look storehouse, and qualified storehouse is located under the glassware, different look storehouse top fixedly connected with baffle, qualified storehouse is located under the glassware, all be provided with on qualified storehouse and the different look storehouse and get the bin gate.

The utility model has the following beneficial effects:

1. the utility model solves the problem that the existing blanking structure for removing the rice heterochromous grains often causes inaccurate sensing detection of a sensor due to insufficient brightness of a light source, so that the rice separation quality is poor.

2. The utility model solves the existing problems by arranging the different color bin and the baffle, the baffle is fixedly connected above the different color bin, the baffle is inclined, when the different color rice is sprayed above the different color bin by the air gun from the horizontal direction, the different color rice impacts on the baffle and then is refracted to vertically fall into the different color bin.

Of course, it is not necessary for any product in which the utility model is practiced to achieve all of the above-described advantages at the same time.

Drawings

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

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the blanking device of the present invention;

FIG. 3 is a schematic diagram of the sensor of the present invention;

FIG. 4 is a schematic view showing the structure of an ejection separation actuator according to the present invention;

FIG. 5 is a schematic structural view of a fixing base according to the present invention;

fig. 6 is a schematic structural diagram of the storage bin of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

100. a blanking device; 101. a feeding port; 102. a light source lamp tube; 200. a sensor; 201. rotating the connector; 202. an inductive probe; 300. an ejection separation performing part; 301. a pressure air pump; 302. a pressure air pipe; 303. an air gun; 400. a fixed base; 401. fixing a strut; 402. a spray station; 403. an air pipe opening; 404. a light sensing table; 405. rotating the connecting block; 500. a storage bin; 501. qualified bins; 502. a color-changing bin; 503. a baffle plate; 504. a material taking door.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-6, the present invention relates to a discharging structure for removing abnormal color grains from rice, which comprises a feeder 100, a sensor 200, a spray separation performing part 300, a fixed base 400 and a bin 500, wherein the bin 500 is disposed in front of the fixed base 400, the bin 500 is disposed under the feeder 100 and is used for collecting qualified rice and abnormal color rice after separation, the spray separation performing part 300 is fixedly connected to the fixed base 400, the spray separation performing part 300 is disposed under the sensor 200 and is used for spraying the abnormal color rice grains sensed by the sensor 200, the sensor 200 is rotatably connected to the upper portion of the fixed base 400, the sensor 200 is used for sensing and detecting the abnormal color rice in the rice, the feeder 100 is disposed above the sensor 200, and the rice without removing the abnormal color grains enters the device from the feeder 100.

As shown in fig. 1 and 2, a feed opening 101 is arranged above the feeder 100, a larger opening is arranged at the upper end of the feed opening 101, the lower part of the feed opening 101 is connected with the feeder 100, rice without removing the abnormal color particles is poured into the feeder 100 from the feed opening 101, a light source lamp tube 102 is fixedly connected below the feeder 100, five light source lamp tubes 102 are arranged in total, three light source lamp tubes 102 are fixedly connected to the outer side of the lower part of the feeder 100, two light source lamp tubes 102 are fixed to the inner side of the lower part of the feeder 100, an induction probe 202 on the sensor 200 is arranged between the two light source lamp tubes 102 on the inner side, and the multi-angle light source of the five light source lamp tubes 102 irradiates, so that the induction probe 202 can sense and detect the abnormal color rice particles more effectively.

As shown in fig. 1 and 3, the two sides of the rear of the sensor 200 are fixedly connected with the rotary connectors 201, the rotary connectors 201 are rotatably connected with the rotary connecting blocks 405 on the fixed base 400, the sensor 200 is rotatably connected to the light sensing table 404 on the fixed base 400 through the rotary connectors 201 so as to stably work above the sensor, the front of the sensor 200 is fixedly connected with the sensing probe 202, and the sensing probe 202 is used for sensing and detecting the different-color rice particles coming from the feeder 100 so as to transmit the information to the jet separation executing component 300, so that the sensor immediately reacts to jet the different-color particles in the rice.

As shown in fig. 1 and 4, the injection separation performing component 300 includes a pressure air pump 301, a pressure air pipe 302 and an air gun 303, the pressure air pump 301 is disposed below the injection separation performing component 300, the pressure air pump 301 is fixedly connected to the fixing base 400, so that the injection separation performing component 300 stably operates on the fixing base 400, the pressure air pump 301 is fixedly connected to the pressure air pipe 302, the pressure air pipe 302 passes through an air pipe opening 403 on the injection platform 402, so that the air gun 303 is fixed to the injection platform 402 to operate, the air gun 303 is fixedly connected in front of the pressure air pipe 302, after receiving a signal of a different color particle, the injection separation performing component 300 makes the pressure air pump 301 drive the pressure air pipe 302 to draw external air, and the compressed air gun 303 is transmitted to the air gun 303 to be injected, and the different color particle in the rice is injected into a different color bin 502 in the bin 500.

As shown in fig. 1 and 5, four fixed pillars 401 are fixedly connected above the fixed base 400, the fixed pillars 401 are a supporting structure on the fixed base 400 and are used for supporting the upper structure, a spraying platform 402 is fixedly connected above the fixed pillars 401, an air gun 303 on the spraying separation executing component 300 is fixed on the spraying platform 402, the air gun 303 is stably operated above the fixed pillars 401, an air pipe opening 403 is arranged on the spraying platform 402, a pressure air pipe 302 on the spraying separation executing component 300 is fixedly connected in the air pipe opening 403, the pressure air pipe 302 passes through the air pipe opening 403 on the spraying platform 402, the air gun 303 is fixed on the spraying platform 402 to operate, a light sensing platform 404 is fixedly connected above the spraying platform 402, the light sensing platform 404 is rotatably connected with the sensor 200, the fixed base 400 enables the sensor 200 to stably operate above the light sensing platform 404 through the light sensing platform 404, a rotating connecting block 405 is fixedly connected on the light sensing platform 404, two ends of the rotary connecting block 405 are respectively connected with two rotary connectors 201 on the sensor 200 in a rotary manner, and the light sensing table 404 is connected with the sensor 200 in a rotary manner through the rotary connecting block 405.

As shown in fig. 1 and 6, the stock bin 500 comprises a qualified bin 501, a different color bin 502, a baffle 503 and a material taking door 504, the different color bin 502 is arranged in front of the qualified bin 501, the qualified bin 501 is positioned right below the feeder 100, qualified rice directly falls into the qualified bin 501, different color rice is sprayed into the different color bin 502 by an air gun 303, the baffle 503 is fixedly connected above the different color bin 502, the baffle 503 is inclined, when the different color rice is sprayed above the different color bin 502 by the air gun 303 from the horizontal direction, the different color rice impacts the baffle 503 and then is refracted to vertically fall into the different color bin 502, the material taking door 504 is arranged on the qualified bin 501 and the different color bin 502, the material taking door 504 is normally closed, and after the different color rice is separated, the material taking door 504 of the qualified bin 501 and the different color bin 502 can be opened, and the qualified rice and the different color rice can be taken out.

One specific application of this embodiment is: the utility model relates to a blanking structure for removing rice heterochrosis grains, wherein a blanking port 101 is arranged above a blanking device 100, the upper end of the blanking port 101 is provided with a larger opening, the lower part of the blanking port 101 is connected with the blanking device 100, rice without heterochrosis grains is poured into the blanking device 100 from the blanking port 101, a light source lamp tube 102 is fixedly connected below the blanking device 100, five light source lamp tubes 102 are arranged in total, three light source lamp tubes 102 are fixedly connected outside the lower part of the blanking device 100, two light source lamp tubes 102 are fixed inside the lower part of the blanking device 100, an induction probe 202 on a sensor 200 is arranged between the two light source lamp tubes 102 inside, and multi-angle light source irradiation of the five light source lamp tubes 102 enables the induction probe 202 to more effectively sense and detect the heterochrosis rice grains, the induction probe 202 on the sensor 200 senses and detects the heterochrosis grains from the blanking device 100 so as to transmit information to an injection separation executing part 300, the device is characterized in that the device immediately reacts to eject the heterochromatic particles in the rice, after receiving a signal of the heterochromatic particles, the ejection separation execution component 300 enables a pressure air pump 301 to drive a pressure air pipe 302 to extract external air, the air is compressed and transmitted to an air gun 303 and ejected by the air gun 303, the heterochromatic particles in the rice are ejected into a heterochromatic bin 502 in a bin 500, a qualified bin 501 is positioned under a feeder 100, qualified rice directly falls into a qualified bin 501, heterochromatic rice is ejected into the heterochromatic bin 502 by the air gun 303, a baffle 503 is fixedly connected above the heterochromatic bin 502, the baffle 503 is an inclined angle, when the heterochromatic rice is ejected above the heterochromatic bin 502 by the air gun 303 in the horizontal direction, the heterochromatic rice impacts on the baffle 503 and then refracts to vertically fall into the heterochromatic bin 502, after the heterochromatic rice is separated, a material taking door 504 of the qualified bin 501 and the heterochromatic bin 502 can be opened, qualified rice and heterochromatic rice are taken out.

The above are only preferred embodiments of the present invention, and the present invention is not limited thereto, and any modification, equivalent replacement, and improvement made to the technical solutions described in the above embodiments, and to some of the technical features thereof, are included in the scope of the present invention.

Claims (6)

1. The utility model provides a rice heterochrosis grain is clear away and is used blanking structure, includes glassware (100), sensor (200), sprays separation executive component (300), unable adjustment base (400) and feed bin (500), its characterized in that: the improved spraying and separating device is characterized in that a storage bin (500) is arranged in front of the fixing base (400), a spraying and separating executing component (300) is fixedly connected to the fixing base (400), a sensor (200) is rotatably connected to the upper side of the fixing base (400), and a discharging device (100) is arranged on the upper side of the sensor (200).

2. The blanking structure for removing the rice abnormal-color grains as claimed in claim 1, wherein a blanking opening (101) is arranged above the blanking device (100), and a light source lamp tube (102) is fixedly connected below the blanking device (100).

3. The blanking structure for removing the rice abnormal-color grains according to claim 1, wherein rotary connectors (201) are fixedly connected to two sides of the rear of the sensor (200), and an induction probe (202) is fixedly connected to the front of the sensor (200).

4. The blanking structure for removing the rice abnormal-color grains according to claim 1, wherein the injection separation executing component (300) comprises a pressure air pump (301), a pressure air pipe (302) and an air gun (303), the pressure air pump (301) is arranged below the injection separation executing component (300), the pressure air pipe (302) is fixedly connected to the pressure air pump (301), and the air gun (303) is fixedly connected to the front of the pressure air pipe (302).

5. The blanking structure for removing the rice abnormal-color grains as claimed in claim 1, wherein four fixing pillars (401) are fixedly connected above the fixing base (400), an injection platform (402) is fixedly connected above the fixing pillars (401), an air pipe opening (403) is arranged on the injection platform (402), a light sensing platform (404) is fixedly connected above the injection platform (402), and a rotating connecting block (405) is fixedly connected on the light sensing platform (404).

6. The blanking structure for removing the rice abnormal-color grains according to claim 1, wherein the stock bin (500) comprises a qualified bin (501), an abnormal-color bin (502), a baffle plate (503) and a material taking door (504), the abnormal-color bin (502) is arranged in front of the qualified bin (501), the baffle plate (503) is fixedly connected to the upper portion of the abnormal-color bin (502), and the material taking door (504) is arranged on each of the qualified bin (501) and the abnormal-color bin (502).

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