CN113578771A - Vertical multifunctional solid waste photoelectric separator - Google Patents

Abstract

The invention discloses a vertical multifunctional solid waste photoelectric separator which comprises a feeder, a conveyor sealing box, a multi-stage separation mechanism, a bottom discharging section and a bottom material chute, wherein the feeder is fixed at one end of the upper side of the conveyor sealing box, the other end of the upper side of the conveyor sealing box is provided with an air outlet, the conveyor is horizontally arranged in the conveyor sealing box, the multi-stage separation mechanism is sequentially arranged at the lower side of a discharge port of the conveyor sealing box from top to bottom, the upper end of the bottom discharging section is connected with an outlet of the lowest side separation mechanism, a discharge port at the lower end of the bottom discharging section is connected with the bottom material chute, and the lower end of the bottom discharging section is provided with an air inlet. The invention can sort out various products at one time aiming at materials with complex components, and can carry out up-and-down combination and splicing according to requirements so as to achieve the purpose of sorting various products.

Description

Vertical multifunctional solid waste photoelectric separator

Technical Field

The invention relates to a sorting machine, in particular to a vertical multifunctional solid waste photoelectric sorting machine, belonging to the field of solid waste sorting.

Background

At present, photoelectric sorting machines are widely applied to the field of sorting of various materials, such as the fields of solid waste, mineral sorting, fruit sorting and the like. The traditional photoelectric sorting machine generally adopts a rubber belt conveyor to throw out materials, and then uses a compressed hollow body to sort the materials.

The invention patent with the publication number of CN103920648A is disclosed by the Chinese intellectual property office 2014, 07, 16, and is named as a multistage photoelectric separator for mineral separation, which comprises the following contents: the invention discloses a multistage photoelectric separator for mineral separation, which comprises a conveying device, a signal acquisition device and a pneumatic separation device, wherein the pneumatic separation device at least comprises two groups of pneumatic separation components which are sequentially arranged at intervals along the periphery of an ore falling path, each pneumatic separation component comprises air nozzles which are arranged along the width direction of the conveying device, a control unit analyzes and processes signals acquired by the signal acquisition device and regulates and controls each pneumatic separation component to separate ores, and material troughs for collecting the separated ores are respectively arranged on the lower sides of the pneumatic separation components. Utilize the multistage photoelectric separator for ore dressing of above-mentioned structure, it can be effectual become tertiary or more multistage ore deposit material with the ore material screening, can effectively solve the influence of ore deposit dirt, steam to ore screening precision simultaneously to and solve the problem that the ore material caused conveyor to damage easily. The patent mainly has the following defects: if more than or equal to 4 products need to be sorted out, the throwing distance of the materials needs to be prolonged; because when the belt conveyor is adopted to horizontally cast the ores, the casting distance is very limited, and the realization difficulty is higher. Therefore, the invention has obvious defects when more than or equal to 4 products need to be sorted out.

The chinese intellectual property office 2019, 04, 30.h discloses a utility model patent with publication number CN208800417U, entitled "a mixed garbage photoelectric separator", which includes the following contents: the utility model provides a- -mixed rubbish photoelectric separation machine, including the feeding section of thick bamboo that the slope set up, be provided with the conveyer belt in the feeding section of thick bamboo, the bottom bilateral symmetry of feeding section of thick bamboo is provided with the photoelectricity chamber, be provided with the spectrum appearance in every photoelectricity intracavity, the detection end of spectrum appearance is just to the light-passing board, the lower extreme of conveyer belt is located the light-passing board and is located the region, the below in two photoelectricity chambers is provided with the separation box, the separation box is inside to be provided with selects separately the chamber, selects separately the chamber and communicates with each other with the feeding section of thick bamboo, the lower part in separation chamber is provided with a plurality of sorting channels, one side that is located the separation chamber in the separation box is provided with sorting mechanism, sorting mechanism's front end is provided with a plurality of air nozzles. The patent mainly has the following defects: this patent mainly adopts the high-pressure air of different pressures to select separately various materials, when selecting separately to the material of the same material of different masses, adopts high-pressure air to blow when selecting, because the distance that blows off differs, therefore the probability of the mismatch of material is higher, therefore the sorting precision of this patent is lower.

According to the technical scheme, the traditional photoelectric sorting machine generally adopts a rubber belt conveyor to throw out materials, and then uses a compressed hollow body to sort the materials. Because the distance for horizontally projecting the materials by adopting the rubber belt conveyor is limited, the quantity of the products sorted by a single photoelectric sorting machine is less. A conventional single photoelectric sorting machine can only sort out 2-3 products generally, and the number of the product types is small; and for the materials with complex components and more light floating impurities, the light floating impurities in the materials need to be removed in advance so as not to influence the sorting precision of the equipment. If more than or equal to 4 products need to be sorted, a partition plate needs to be added on the photoelectric sorting machine, a material returning rubber belt conveyor needs to be added, or a plurality of photoelectric sorting machines are used in series. Both methods have the defects of large quantity of equipment, difficult arrangement and large occupied area.

Disclosure of Invention

The invention aims to solve the technical problem of providing a vertical multifunctional solid waste photoelectric separator which can separate various products at one time and has high separation efficiency.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

the utility model provides a vertical multi-functional solid useless photoelectricity sorter which characterized in that: contain feed mechanism, multistage sorting mechanism, bottom discharge section and bed charge chute, multistage sorting mechanism sets gradually under by last at feed mechanism's discharge gate downside, and bottom discharge section upper end and downside sorting mechanism exit linkage, bottom discharge section lower extreme discharge gate are connected with the bed charge chute, and bottom discharge section lower extreme is opened there is the air intake.

Further, feed mechanism contains batcher, conveyer and conveyer seal box, and the batcher is fixed in conveyer seal box upside one end, and the conveyer seal box upside other end is provided with the air outlet, and the conveyer level sets up in the conveyer seal box, and multistage sorting mechanism sets gradually the discharge gate downside at the conveyer seal box from top to bottom.

Further, sorting mechanism contains the separation charging conduit, centralized control storehouse, first chute, the second chute, the camera, the glass partition plate, air nozzle combination and light source, and the separation charging conduit sets up along vertical direction, and the upper end of separation charging conduit is the feed inlet, and the lower extreme of separation charging conduit is the blown down tank, and one side of separation charging conduit is provided with the separation mouth and is connected with first chute one end, and the first chute other end downward sloping is connected with second chute one end, and the opposite side at the separation charging conduit is fixed in centralized control storehouse, the camera, air nozzle combination and light source setting are in centralized control storehouse.

Furthermore, a first gate is arranged at the connecting part of the first chute and the second chute, the second chute is a V-shaped chute, one side of the second chute connected with the first chute is positioned on the same straight line with the first chute, the other side of the second chute is arranged along the vertical direction, and the end part of the other end of the second chute is provided with a second gate.

Furthermore, the camera is fixed on the upper side of the centralized control bin, the shooting direction of the camera is matched with the length direction of the first chute, the light source is fixed on the lower side of the centralized control bin and is arranged in an upward inclined mode, a light background plate is arranged on the inner wall of the sorting charging chute corresponding to the light source irradiation direction, the sorting charging chute and the centralized control bin are connected, through holes are formed in the positions corresponding to the camera and the light source respectively, a glass partition plate is fixed in the through holes, and an air nozzle is combined and arranged between the camera and the light source and along the horizontal direction.

Further, a first material level sensor is arranged on the side face of the upper end of the second chute.

Further, the feeder contains batcher body, hopper and baffle box, and the batcher body sets up and batcher body one end upside feed inlet and hopper discharge gate fixed connection along the horizontal direction, and the batcher body other end passes through flexible coupling mechanism and baffle box access connection, and the baffle box sets up and the export of baffle box lower extreme is fixed on conveyer seal box upside feed inlet along vertical direction.

Furthermore, the flexible connection mechanism comprises a flexible rubber plate, a pressing plate and a bolt, screw holes matched with each other are formed in the inlet edge of the material guide groove, the edge of the flexible rubber plate and the pressing plate, and the pressing plate and the flexible rubber plate are sequentially pressed at the inlet edge of the material guide groove from top to bottom and are locked and fixed through the bolt.

Further, the bottom discharge section contains discharge section box and grid plate, and the upside one end of discharge section box is provided with the feed inlet, and the downside one end of discharge section box is provided with the toper air intake, and the grid plate slope sets up and fixes in discharge section box, and the grid plate is located the upside of toper air intake, and the downside other end of discharge section box is provided with the discharge gate.

Further, the bed charge chute is arranged along the vertical direction, the upper end of the bed charge chute is connected with the discharge port of the discharge section box, a third gate is arranged at the upper end of the bed charge chute, a fourth gate is arranged at the lower end of the bed charge chute, and a second material level sensor is arranged on the side face of the upper end of the bed charge chute.

Compared with the prior art, the invention has the following advantages and effects: the vertical multifunctional solid waste photoelectric separator can sort out various products at one time aiming at materials with complex components, and can be combined and spliced up and down according to requirements so as to achieve the purpose of sorting various products, the product structure is simple, and the combination mode can be flexibly adjusted; the invention has the function of impurity removal, and has high separation efficiency and small floor area.

Drawings

Fig. 1 is a schematic diagram of a vertical multifunctional solid waste photoelectric separator of the invention.

Fig. 2 is a schematic view of the sorting mechanism of the present invention.

FIG. 3 is a schematic view of the feeder and conveyor seal box of the present invention.

Fig. 4 is a schematic view of the flexible connection mechanism of the present invention.

Figure 5 is a schematic view of the bottom discharge section and the primer chute of the present invention.

Detailed Description

To elaborate on technical solutions adopted by the present invention to achieve predetermined technical objects, the technical solutions 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, it is obvious that the described embodiments are only partial embodiments of the present invention, not all embodiments, and technical means or technical features in the embodiments of the present invention may be replaced without creative efforts, and the present invention will be described in detail below with reference to the drawings and in conjunction with the embodiments.

As shown in figure 1, the vertical multifunctional solid waste photoelectric separator comprises a feeder 1, a conveyor 2, a conveyor sealing box 3, a multi-stage separation mechanism 4, a bottom discharging section 5 and a backing material chute 6, wherein the feeder 1 is fixed at one end of the upper side of the conveyor sealing box 3, an air outlet 7 is formed in the other end of the upper side of the conveyor sealing box 3, the conveyor 2 is horizontally arranged in the conveyor sealing box 3, the multi-stage separation mechanism 4 is sequentially arranged at the lower side of a discharging port of the conveyor sealing box 3 from top to bottom, the upper end of the bottom discharging section 5 is connected with an outlet of the lowest side separation mechanism 4, a discharging port at the lower end of the bottom discharging section 5 is connected with the backing material chute 6, and an air inlet 8 is formed at the lower end of the bottom discharging section 5. The solid wastes are conveyed to the conveyor 2 in the conveyor sealing box 3 through the feeder, then conveyed to the feed inlet of the multi-stage sorting mechanism 4 through the conveyor 2 and fall down, after entering the sorting mechanism 4 of the corresponding stage, the sorting mechanism sorts the corresponding materials, and finally the materials fall into the backing material chute 6 from the bottom discharging section. Air intake 8 connects outside fan and bloies, thereby bloies from the downside directly upwards blow the light waste material that wafts in will giving up directly blows off from air outlet 7, realizes the edulcoration, also decelerates the material of whereabouts to multistage sorting mechanism 4 simultaneously to improve the rate of accuracy that the photoelectricity was selected separately.

As shown in fig. 2, sorting mechanism 4 contains sorting chute 9, centralized control storehouse 10, first chute 11, second chute 12, camera 13, glass partition 14, air nozzle combination 15 and light source 16, sorting chute 9 sets up along vertical direction, the upper end of sorting chute 9 is the feed inlet, the lower extreme of sorting chute 9 is the blown down tank, one side of sorting chute 9 is provided with the sorting mouth and is connected with first chute 11 one end, first chute 11 other end downward sloping is connected with second chute 12 one end, centralized control storehouse 10 is fixed at the opposite side of sorting chute 9, camera 13, air nozzle combination 15 and light source 16 set up in centralized control storehouse 10. The camera 13 is used for collecting image information of the material and transmitting the signal to the signal processing and controlling device, so that the color and the material of the material can be identified. The air nozzle assembly 15 is connected with the compressed air system and the signal processing and control device, when the signal processing and control device identifies corresponding materials, an action instruction is sent to the air nozzle assembly 15, nozzles at corresponding positions are opened, and the materials are blown into the first chute 11 by compressed air, so that the materials are sorted.

The connecting part of the first chute 11 and the second chute 12 is provided with a first gate 17, the second chute 12 is a V-shaped chute, one side of the second chute 12 connected with the first chute 11 is positioned on the same straight line with the first chute 11, the other side of the second chute 12 is arranged along the vertical direction, and the end part of the other end of the second chute 12 is provided with a second gate 18.

The camera 13 is fixed at the upside of centralized control storehouse 10 and the direction of making a video recording matches with first chute 11 length direction, light source 16 is fixed at the centralized control storehouse 10 downside and tilt up sets up, it has light background board 19 to be provided with on the corresponding light source 16 direction of illumination inner wall of separation charging chute 9 inner wall, separation charging chute 9 is connected the face with centralized control storehouse 10 and is opened the through-hole respectively at corresponding camera 13 and light source 16 position, glass partition 14 is fixed in the through-hole, air nozzle combination 15 sets up between camera 13 and light source 16 and sets up along the horizontal direction. The upper end side of the second chute 12 is provided with a first level sensor 20. When the photoelectric sorting machine works, the second gate 18 is closed, the first valve 17 is opened, the sorting mechanism corresponding to the hierarchy blows corresponding materials into the first chute 11 and enters the second chute 12 for storage, when the first material level sensor 20 detects a material level signal, the second gate 18 is controlled to be opened, the first gate 17 is closed, and at the moment, the materials in the second chute 12 are discharged and collected. The glass partition plate 14 is detachably fixed in the through hole, a clamping groove matched with the partition plate 14 is formed in the edge of the through hole, and the glass partition plate 14 is arranged in the clamping groove in a sliding mode.

As shown in fig. 3, the feeder 1 includes a feeder body 21, a hopper 22 and a material guide chute 23, the feeder body 21 is arranged along the horizontal direction, the upper side feed inlet of one end of the feeder body 21 is fixedly connected with the discharge outlet of the hopper 22, the other end of the feeder body 21 is connected with the material guide chute 23 through a flexible connection mechanism, the material guide chute 23 is arranged along the vertical direction, and the lower end outlet of the material guide chute 23 is fixed on the upper side feed inlet of the conveyor sealing box 3. As shown in fig. 4, the flexible connection mechanism includes a flexible rubber plate 24, a pressing plate 25 and a bolt 26, screw holes matched with each other are formed on the inlet edge of the material guiding chute 23, the edge of the flexible rubber plate 24 and the pressing plate 25, and the pressing plate 25 and the flexible rubber plate 24 are sequentially pressed on the inlet edge of the material guiding chute 23 from top to bottom and are locked and fixed by the bolt 26.

As shown in fig. 5, the bottom discharge section 5 comprises a discharge section box 27 and an air distribution plate 28, the aperture of the air hole on the air distribution plate 28 is greater than or equal to 5mm, a feed inlet is arranged at one end of the upper side of the discharge section box 27, a conical air inlet is arranged at one end of the lower side of the discharge section box 27, the air distribution plate is inclined 28 and fixed in the discharge section box 27, and the inclination angle of the air distribution plate is 25-75 °. The air distribution plate 28 is positioned at the upper side of the conical air inlet, and the other end of the lower side of the discharging section box body 27 is provided with a discharging hole. The bed charge chute 6 is arranged along the vertical direction, the upper end of the bed charge chute is connected with the discharge hole of the discharge section box 27, the upper end of the bed charge chute is provided with a third gate 29, the lower end of the bed charge chute 6 is provided with a fourth gate 30, and the side surface of the upper end of the bed charge chute 6 is provided with a second material level sensor 31. When the device works, the fourth gate 30 is closed, the third gate 29 is opened, when the bottom materials reach the position of the second material level sensor 31, the fourth gate 30 is opened, and the third gate 29 is closed to discharge and collect the bottom materials.

The vertical multifunctional solid waste photoelectric separator can sort out various products at one time aiming at materials with complex components, and can be combined and spliced up and down according to requirements so as to achieve the purpose of sorting various products, the product structure is simple, and the combination mode can be flexibly adjusted; the invention has the function of impurity removal, and has high separation efficiency and small floor area.

Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a vertical multi-functional solid useless photoelectricity sorter which characterized in that: contain feed mechanism, multistage sorting mechanism, bottom discharge section and bed charge chute, multistage sorting mechanism sets gradually under by last at feed mechanism's discharge gate downside, and bottom discharge section upper end and downside sorting mechanism exit linkage, bottom discharge section lower extreme discharge gate are connected with the bed charge chute, and bottom discharge section lower extreme is opened there is the air intake.

2. The vertical multifunctional solid waste photoelectric separator according to claim 1, characterized in that: the feeding mechanism comprises a feeding machine, a conveyor and a conveyor sealing box, the feeding machine is fixed at one end of the upper side of the conveyor sealing box, an air outlet is formed in the other end of the upper side of the conveyor sealing box, the conveyor is horizontally arranged in the conveyor sealing box, and the multi-stage sorting mechanism is sequentially arranged on the lower side of a discharge port of the conveyor sealing box from top to bottom.

3. The vertical multifunctional solid waste photoelectric separator according to claim 1, characterized in that: sorting mechanism contains the separation charging conduit, the centralized control storehouse, first chute, the second chute, the camera, the glass baffle, air nozzle combination and light source, the separation charging conduit sets up along vertical direction, the upper end of separation charging conduit is the feed inlet, the lower extreme of separation charging conduit is the blown down tank, one side of separation charging conduit is provided with the separation mouth and is connected with first chute one end, first chute other end downward sloping is connected with second chute one end, the opposite side at separation charging conduit is fixed in the centralized control storehouse, the camera, air nozzle combination and light source setting are in the centralized control storehouse.

4. The vertical multifunctional solid waste photoelectric separator according to claim 3, characterized in that: the first chute and the second chute are connected through a first gate, the second chute is a V-shaped chute, one side of the second chute, which is connected with the first chute, is located on the same straight line with the first chute, the other side of the second chute is arranged along the vertical direction, and the end part of the other end of the second chute is provided with a second gate.

5. The vertical multifunctional solid waste photoelectric separator according to claim 3, characterized in that: the camera is fixed on the upper side of the centralized control bin, the shooting direction is matched with the length direction of the first chute, the light source is fixed on the lower side of the centralized control bin and is arranged in an upward inclined mode, a light background plate is arranged on the inner wall, corresponding to the light source irradiation direction, of the inner wall of the sorting blanking groove, the sorting blanking groove and the centralized control bin are connected, through holes are formed in the positions, corresponding to the camera and the light source, of the connection face of the sorting blanking groove and the centralized control bin respectively, a glass partition plate is fixed in the through holes, and an air nozzle combination is arranged between the camera and the light source and is arranged in the horizontal direction.

6. The vertical multifunctional solid waste photoelectric separator according to claim 3, characterized in that: and a first material level sensor is arranged on the side surface of the upper end of the second chute.

7. The vertical multifunctional solid waste photoelectric separator according to claim 1, characterized in that: the feeder contains batcher body, hopper and baffle box, and the batcher body sets up and feeder body one end upside feed inlet and hopper discharge gate fixed connection along the horizontal direction, and the batcher body other end passes through flexible coupling mechanism and baffle box access connection, and the baffle box sets up and the export of baffle box lower extreme is fixed on conveyer seal box upside feed inlet along vertical direction.

8. The vertical multifunctional solid waste photoelectric separator according to claim 7, characterized in that: the flexible connection mechanism comprises a flexible rubber plate, a pressing plate and a bolt, screw holes matched with each other are formed in the edge of the inlet of the material guide groove, the edge of the flexible rubber plate and the pressing plate, and the pressing plate and the flexible rubber plate are sequentially pressed from top to bottom at the edge of the inlet of the material guide groove and are locked and fixed through the bolt.

9. The vertical multifunctional solid waste photoelectric separator according to claim 1, characterized in that: the bottom discharge section contains discharge section box and grid plate, and the upside one end of discharge section box is provided with the feed inlet, and the downside one end of discharge section box is provided with the toper air intake, and grid plate slope sets up and fixes in discharge section box, and the grid plate is located the upside of toper air intake, and the downside other end of discharge section box is provided with the discharge gate.

10. The vertical multifunctional solid waste photoelectric separator as claimed in claim 9, wherein: the bed charge chute sets up and the upper end of bed charge chute is connected with the discharge gate of unloading the section box along vertical direction, and the upper end of bed charge chute is provided with the third gate, and the lower extreme of bed charge chute is provided with the fourth gate, and the upper end side of bed charge chute is provided with second level sensor.

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