CN217342415U - Mineral sorting adjustable recovery bin - Google Patents

Abstract

The application discloses an adjustable recovery bin for mineral separation, which comprises a shell, wherein a recovery bin chamber for receiving materials is arranged in the shell; the material conveying belt is arranged in the shell and is used for throwing the materials from the discharging end along the horizontal material throwing direction; the blowing piece is positioned between the material conveying belt discharging end and the recovery bin and is used for blowing unqualified waste materials; install adjustable baffle in the casing, adjustable baffle is in a parallel with the level and throws the material direction and slide and install on the casing, adjustable baffle will retrieve the bin and cut apart into product storehouse and waste material storehouse. This application has played technical scheme can adapt to the material transport speed of difference, and the effect is selected separately to effectual assurance, general utility nature preferred.

Description

Mineral sorting adjustable recovery bin

Technical Field

The application relates to the field of assembly type building components, in particular to an adjustable recovery bin for mineral separation.

Background

The recycling bin is a necessary structure of mineral processing equipment and is generally divided into a product bin and a waste bin, materials are subjected to image recognition and are conveyed to the discharge end along the material conveying direction, and then the injection mechanism performs injection on unqualified materials, so that the qualified materials and the unqualified materials can fall into corresponding bin positions. However, if the limit of the bin position is not accurate, the sorted materials do not accurately fall into the corresponding recovery bins, and the sorting effect is affected.

However, the belt running speed of the mineral processing equipment can be changed according to different production requirements, so that the horizontal material throwing speed of the material at the discharge end is changed, and the running track of the material after leaving the discharge end is different. The horizontal material throwing speed is high, the falling point of the material is far away under the driving of inertia, the belt speed is low, and the falling point of the material is relatively close.

The existing recovery bin is usually designed for the operation speed of an adjustable recovery bin for mineral separation, and when the movement speed of a material changes, the parabolic movement track of the material changes: when the moving speed is fast, even finished products which are not subjected to the blowing operation can mistakenly fall into a waste bin at the rear part; when the moving speed is slow, the waste products subjected to the blowing operation may fall into the front product bin, so that the actual sorting effect is affected.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that the recovery bin in the prior art is poor in adaptability and easy to sort out mistakenly when the movement speed of the material changes,

the application provides a mineral is selected separately adjustable recovery storehouse adopts following scheme:

an adjustable recovery bin for mineral separation comprises a shell, wherein a recovery bin chamber for receiving materials is arranged in the shell;

the material conveying belt is arranged in the shell and is used for throwing the materials from the discharging end along the horizontal material throwing direction;

the blowing piece is positioned between the material outlet end of the material conveying belt and the recovery bin and is used for blowing unqualified waste materials;

install adjustable baffle in the casing, adjustable baffle is in a parallel with the level and throws the material direction and slide and install on the casing, adjustable baffle will retrieve the bin and cut apart into product storehouse and waste material storehouse.

Through adopting above-mentioned scheme, through being provided with adjustable baffle that can adjust in the horizontal material direction of throwing to can adjust product storehouse and waste bin stable position. Among the traditional technical scheme, the size in product storehouse and waste product storehouse is fixed usually, however, under the operating mode of difference, the required fortune material speed of material is different, and the speed that the material was thrown the material from the discharge end is different promptly to lead to the material probably to fall into wrong bin, lead to sorting effect relatively poor. In the technical scheme, the recovery bin is divided into the product bin and the waste bin through the adjustable baffle, and the position of the adjustable baffle can be adjusted, so that the proportion of the product bin and the waste bin in the recovery bin is adjusted, and when the material conveying speed is high, the adjustable baffle is adjusted towards the direction far away from the material conveying belt, so that the proportion of the product bin is increased; when the material conveying speed is low, the adjustable baffle is adjusted towards the direction close to the material conveying belt, so that the occupation ratio of the product bin is reduced; thereby can adapt to different fortune material speeds, showing promotion this adjustable recovery storehouse adaptation performance.

Optionally, the adjustable baffle has a sliding seat, a sliding rail parallel to the horizontal material throwing direction is arranged on the shell, and the sliding seat is slidably mounted on the sliding rail.

Through adopting above-mentioned scheme, slide through the seat that slides and install the mode on the slide rail for the slide rail has played the effect of direction to the seat that slides, and the seat that slides is comparatively stable in the ascending motion of horizontal throwing material side, thereby the effectual adjustable baffle motion stability of having guaranteed.

Optionally, the material throwing device further comprises a locking piece, the locking piece is connected with the adjustable baffle, a sliding groove parallel to the horizontal material throwing direction is formed in the shell, and the locking piece is installed in the sliding groove in a sliding mode.

Through adopting above-mentioned scheme, through being provided with the lock piece, adjustable baffle links to each other with the lock piece for adjustable baffle moves thereupon when the lock piece motion, and the lock piece slides and installs in the spout, further leads the motion of adjustable baffle, and then has promoted the motion stability of adjustable baffle.

Optionally, the locking piece includes locking bolt and is used for the laminating the gliding shifting board of casing, it is just right to have seted up on the shifting board the locking hole of spout, locking bolt wears to establish simultaneously in locking hole and the spout, the locking piece can be with through locking bolt the shifting board clamp is installed on the casing.

Through adopting above-mentioned scheme, will slide the board and lock with the casing through the locking bolt to make the locking board can unscrew and slide in the spout, drive adjustable baffle and adjust. Also can be through the mode that locking bolt screwed up for the mounting of sliding plate lock is on this casing, thereby guarantees that adjustable baffle can remain stable after adjusting and finishing. The bolt screwing mode is convenient, and the stability after adjustment can be guaranteed.

Optionally, the adjustable baffle further comprises an inclined plate, and the inclined plate extends from the sliding seat to the conveyor belt in an inclined manner.

By adopting the scheme, the adjustable baffle has a certain inclination angle; in the traditional technical scheme, the baffle is usually vertically arranged, and only how to divide the chambers is considered; however, because the material is by the discharge end back of throwing, is the parabola trajectory motion, in this kind of technical scheme, some originally should get into in the waste bin and be close to the waste material of fortune material area one end, can be blockked by the baffle and fall into the product storehouse, lead to selecting separately the effect relatively poor. Among this application technical scheme, the hang plate is extended to the slope of fortune material area by sliding the seat, can effectually reduce to this material that gets into in the waste bin and be close to fortune material area one end and block to the separation effect in this adjustable recovery storehouse of promotion that can show.

Optionally, a connecting plate is arranged on the sliding plate, an arc-shaped turning part is arranged between the sliding seat and the inclined plate, and the connecting plate is attached to the arc-shaped turning part.

By adopting the above scheme, be provided with the connecting plate on the shifting board, and the arc turning portion of this connecting plate laminating and adjustable baffle to play the supporting role of preferred to arc turning portion, make the hang plate of slope can obtain effectual support, promoted adjustable baffle's stability. And when the adjustable baffle is adjusted, the movement of the sliding plate can drive the connecting plate to apply force to the adjustable files, and the force applied to the adjustable baffle is balanced and the movement is stable due to the fact that the connecting plate is attached to the arc-shaped turning part.

Optionally, a material baffle plate for preventing the materials from being thrown out of the recovery bin is arranged on the inner wall of the shell, and the material baffle plate extends to the upper side of the material conveying belt on one side, far away from the material conveying belt, of the recovery bin.

Through adopting above-mentioned scheme, be provided with the striker plate, and this striker plate extends to retrieve the bin by fortune material area top and keeps away from one side in fortune material area can effectually prevent that the material from flying out to outside retrieving the bin to the stability of retrieving the material has been guaranteed.

Optionally, the striker plate has an arc buffering surface, and the arc buffering surface is towards the recovery bin is buckled.

Through adopting above-mentioned scheme, construct the striker plate for buckling to the arc of retrieving the bin for faster material collision after the arc buffering face, can fall into the waste bin at rear along the arc buffering face, certain cushioning effect has been played to the material to curved structure, has also reduced the striker plate and has received the range of assaulting and vibrations, has played certain protection effect.

To sum up, this application includes at least following beneficial technological effect:

1. the adaptability and the universality are better: through being provided with adjustable baffle that can adjust in the horizontal material direction of throwing to can adjust product storehouse and waste bin stable position. Among the traditional technical scheme, the size in product storehouse and waste product storehouse is fixed usually, however, under the operating mode of difference, the required fortune material speed of material is different, and the speed that the material was thrown the material from the discharge end is different promptly to lead to the material probably to fall into wrong bin, lead to sorting effect relatively poor. In the technical scheme, the recovery bin is divided into the product bin and the waste bin through the adjustable baffle, and the position of the adjustable baffle can be adjusted, so that the proportion of the product bin and the waste bin in the recovery bin is adjusted, and when the material conveying speed is high, the adjustable baffle is adjusted towards the direction far away from the material conveying belt, so that the proportion of the product bin is increased; when the material conveying speed is low, the adjustable baffle is adjusted towards the direction close to the material conveying belt, so that the occupation ratio of the product bin is reduced; therefore, the adjustable recovery bin can be adapted to different material conveying speeds, and the adaptation performance of the adjustable recovery bin is obviously improved;

2. the separation effect and the separation precision are better: so that the adjustable baffle has a certain inclination angle; in the traditional technical scheme, the baffle is usually vertically arranged, and only how to divide the chambers is considered; however, because the material is by the discharge end back of throwing, is the parabola trajectory motion, in this kind of technical scheme, some originally should get into in the waste bin and be close to the waste material of fortune material area one end, can be blockked by the baffle and fall into the product storehouse, lead to selecting separately the effect relatively poor. In the technical scheme, the inclined plate extends towards the conveying belt in an inclined manner from the sliding seat, so that material blocking at one end, close to the conveying belt, of the waste material bin can be effectively reduced, and the sorting effect of the adjustable recycling bin can be remarkably improved;

3. buffering and damping: construct the striker plate for buckling to the arc of retrieving the bin for faster material collision can fall into the waste bin at rear along arc buffering face after the arc buffering face, and curved structure has played certain cushioning effect to the material, has also reduced the striker plate and has received the impact and the range of vibrations, has played certain protection effect.

Drawings

FIG. 1 is a schematic view of an overall structure of a side plate hidden from view to show an internal structure of a housing according to an embodiment of the present invention;

FIG. 2 is an enlarged view of the position A of the adjustable baffle plate according to the embodiment of the present application;

fig. 3 is a partial schematic view of the striker plate and the side plate according to the embodiment of the present application.

Description of reference numerals:

1. a housing; 11. a recovery bin; 111. a product bin; 112. a waste bin; 12. an adjustable baffle; 121. a sliding seat; 122. an inclined plate; 13. a side plate; 131. a connecting plate; 132. a chute; 14. a slide rail; 15. a striker plate; 151. an arc-shaped buffer surface;

2. a material conveying belt; 21. a discharge end;

3. a blowing member; 31. an air jet;

4. a locking member; 41. a slide plate; 411. a locking hole; 42. and locking the bolt.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

The embodiment of the application discloses mineral is selected separately and is retrieved storehouse adjustable.

Referring to fig. 1 and 2, an adjustable recovery bin for mineral separation comprises: casing 1, transport area 2 and jetting piece 3, transport area 2 all install in casing 1 inside with jetting piece 3, and jetting piece 3 is located 2 discharge end 21 below in transport area to the unqualified waste material jetting on the transport area 2. The shell 1 is also internally provided with a recovery bin 11 and an adjustable baffle 12, wherein the recovery bin 11 is positioned at one side of the blowing piece 3 far away from the material conveying belt 2, so that the material thrown out from the discharging end 21 of the material conveying belt 2 enters the recovery bin 11 after being selectively blown above the blowing piece 3. The adjustable baffle 12 is slidably mounted on the housing 1 along the horizontal material throwing direction to divide the recovery chamber 11 into a product bin 111 and a waste bin 112, the un-injected product is thrown into the product bin 111 close to the carrier tape 2, and the injected material is thrown into the waste bin 112 far away from the carrier tape 2.

Referring to fig. 1 and 2, the inside of the casing 1 is a hollow structure, in the embodiment of the present application, the material conveying belt 2 is arranged along the horizontal direction, the material conveying belt 2 is located in the middle of the casing 1, and the recovery bin 11 is located at the bottom of the casing 1, so that the material can be thrown out from the material discharging end 21 along the horizontal throwing direction and falls into the recovery bin 11 in a parabolic motion. In the embodiment of the present application, the bottom of the housing 1 has a bottom plate to carry the material, and the bottom plate is not shown in the drawings; in other embodiments, a material receiving box is connected to the bottom of the housing 1 to receive the material falling into the recovery compartment 11.

Referring to fig. 1 and 2, two sides of the horizontal material throwing direction on the housing 1 are respectively provided with a sliding rail 14, the adjustable baffle 12 includes a sliding seat 121, the sliding rail 14 has an upward bearing surface, correspondingly, the sliding seat 121 has a downward sliding surface, the sliding seat 121 is simultaneously erected on the two sliding rails 14, so that the sliding surface is attached to the bearing surface, and the sliding seat 121 drives the adjustable baffle 12 to move on the sliding rails 14 along the horizontal material throwing direction.

Referring to fig. 1 and 2, the housing 1 further includes two side plates 13 located on two sides of the horizontal material throwing direction, the recovery bin 11 is located between the two side plates 13, and with the sliding of the adjustable baffle 12, the proportion of the product bin 111 and the waste bin 112 in the recovery bin 11 is adjusted to adapt to the material throwing speed of the material conveying belt 2 under different working conditions.

Referring to fig. 1 and 2, the adjustable baffle 12 further includes an inclined plate 122 connected to the high end of the sliding seat 121, and the inclined plate 122 extends from the sliding seat 121 to the position of the discharge end 21 of the material conveying belt 2 to adapt to the parabolic movement locus of the material. The connection between the inclined plate 122 and the high end of the sliding seat 121 forms an arc-shaped turning part, which is bent toward the product bin 111.

Referring to fig. 1 and 3, the adjustable material throwing device further comprises a locking member 4 for adjusting whether the adjustable baffle 12 moves, the locking member 4 comprises a locking bolt 42 and a sliding plate 41 attached to the side plate 13 of the housing 1 to slide, correspondingly, two sliding grooves 132 parallel to the horizontal material throwing direction are arranged in parallel on each side plate 13, a locking hole 411 is arranged on the sliding plate 41, and the locking bolt 42 is simultaneously inserted into the locking hole 411 and the sliding groove 132. Specifically, the nut of the sliding slot 132 penetrating through the locking bolt 42 is pressed against one end of the locking hole 411 facing the product bin 111, and the nut adapted to the locking bolt 42 is pressed against one end side plate 13 of the sliding slot 132 far away from the product bin 111, so that the locking bolt 42 can cooperate with the nut to clamp and lock the sliding plate 41 on the side plate 13. It should be noted that when the position of the adjustable stop 12 needs to be adjusted, the bolt and nut on the locking member 4 need only be loosened.

Referring to fig. 1 and 3, a connecting plate 131 is fixedly mounted on the sliding plate 41, the connecting plate 131 is bent toward the product bin 111, the bending radian of the connecting plate 131 is adapted to the arc-shaped turning part, and the connecting plate 131 is fixedly mounted at the arc-shaped turning part through bolts, so that the adjustable baffle 12 can follow the locking member 4 and stably support the adjustable baffle 12. It should be noted that the number of the connecting plates 131 is two, each sliding plate 41 has one connecting plate 131, and each connecting plate 131 is disposed at a position on the arc-shaped turning portion close to the corresponding side plate 13.

Referring to fig. 1 and 3, in the embodiment of the present application, the blowing member 3 has an air nozzle 31 for blowing the material thrown out from the discharge end 21, the air nozzle 31 is located below the discharge end 21, and the air nozzle 31 follows a parabolic trajectory of the material in an obliquely upward direction, so that when the unqualified waste material passes above the air nozzle 31, the air nozzle 31 provides an obliquely upward boosting force to the unqualified waste material, so that the waste material is thrown into the waste bin 112.

Referring to fig. 1 and 3, a striker plate 15 for preventing the material from being thrown out of the recovery bin 11 is installed on the inner wall of the housing 1, specifically, one end of the striker plate 15 is fixedly installed on the housing 1 above the material conveying belt 2, the other end of the striker plate extends towards one side of the recovery bin 11 far away from the material conveying belt 2, the striker plate 15 is bent towards the recovery bin 11, and the two opposite ends of the striker plate 15 are respectively connected with the two side plates 13. So that the striker plate 15 has an arc-shaped buffer surface 151 facing the recovery bin 11, and the material with higher speed can enter a waste material groove far away from the material conveying belt 2 along the striker plate 15 after being thrown and collided with the striker plate 15, so as to prevent the material from flying out of the recovery bin 11.

The implementation principle of this application embodiment mineral separation adjustable recovery storehouse does: the material flies out along the horizontal material throwing direction through the material discharging end 21 of the material conveying belt 2, the qualified product falls into the product bin 111 in the recovery bin 11, and the unqualified waste material falls into the waste bin 112 behind the unqualified waste material by the aid of the air flow boosting force generated by the air jet 31 when passing through the injection member 3. The adjustable baffle 12 can slide in the recovery bin 11 to adjust the position so as to change the proportion of the recovery bin occupied by the product bin 111 and the waste bin 112, thereby adapting to the working conditions of different material throwing speeds of the conveyor belt 2.

The embodiments of the present disclosure are all preferred embodiments of the present disclosure, and the protection scope of the present disclosure is not limited thereby, wherein like parts are designated by like reference numerals. Therefore, the method comprises the following steps: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. An adjustable recovery bin for mineral separation, comprising:

a housing (1), said housing (1) having internally a recovery bin (11) for receiving material;

the material conveying belt (2) is arranged in the shell (1) and is used for throwing the materials out from the material discharging end (21) along the horizontal material throwing direction;

the blowing piece (3) is positioned between the discharge end (21) of the material conveying belt (2) and the recovery bin (11) and is used for blowing unqualified waste materials;

install adjustable baffle (12) in casing (1), adjustable baffle (12) are on the casing (1) of being on a parallel with the horizontal direction of throwing the material and slide and install, adjustable baffle (12) will retrieve bin (11) and cut apart into product storehouse (111) and waste material storehouse (112).

2. The mineral separation adjustable recovery bin according to claim 1, wherein the adjustable baffle (12) is provided with a sliding seat (121), the shell (1) is provided with a sliding rail (14) parallel to the horizontal material throwing direction, and the sliding seat (121) is slidably mounted on the sliding rail (14).

3. The mineral separation adjustable recovery bin according to claim 2, further comprising a locking member (4), wherein the locking member (4) is connected with the adjustable baffle (12), a sliding groove (132) parallel to the horizontal throwing direction is formed in the casing (1), and the locking member (4) is slidably mounted in the sliding groove (132).

4. The mineral separation adjustable recovery bin according to claim 3, wherein the locking piece (4) comprises a locking bolt (42) and a sliding plate (41) attached to the shell (1) in a sliding mode, the sliding plate (41) is provided with a locking hole (411) opposite to the sliding groove (132), the locking bolt (42) penetrates through the locking hole (411) and the sliding groove (132) simultaneously, and the locking piece (4) can clamp and install the sliding plate (41) on the shell (1) through the locking bolt (42).

5. The adjustable mineral separation recovery bin according to claim 4, wherein the adjustable baffle (12) further comprises an inclined plate (122), and the inclined plate (122) extends from the sliding seat (121) to the conveyor belt (2) in an inclined manner.

6. The adjustable recovery bin for mineral separation according to claim 5, wherein the sliding plate (41) is provided with a connecting plate (131), an arc-shaped turning part is arranged between the sliding seat (121) and the inclined plate (122), and the connecting plate (131) is attached to the arc-shaped turning part.

7. The adjustable mineral separation recovery bin according to claim 1, wherein a material baffle (15) for preventing materials from being thrown out of the recovery bin (11) is installed on the inner wall of the shell (1), and the material baffle (15) extends from the upper side of the material conveying belt (2) to one side, away from the material conveying belt (2), of the recovery bin (11).

8. The adjustable mineral separation recovery bin according to claim 7, wherein the striker plate (15) is provided with an arc-shaped buffer surface (151), and the arc-shaped buffer surface (151) is bent towards the recovery bin (11).

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