CN214086203U - Aluminum slag ball waste material lifting machine - Google Patents

Abstract

The utility model relates to an aluminium slag ball waste material lifting machine belongs to waste recycling equipment field, and its technical scheme main points are including the box, set up the conveyer belt in the box, be located the discharge gate on box upper portion and be located the feed inlet of box lower part, and the conveyer belt rotates and is connected with transmission roller and lower transmission roller, goes up and is connected with the motor on the transmission roller, and fixedly connected with a plurality of hoppers that connect on the conveyer belt, connect the material of hopper to personally submit circular-arcly, and the side seals. This application has all falls to connect hopper opening part top within range waste material all can fall to connect the hopper in, the in-process waste material of conveying can not drop yet, finally makes the waste material that gets into the box by the effect of high efficiency recovery.

Description

Aluminum slag ball waste material lifting machine

Technical Field

The application relates to the field of waste recycling equipment, in particular to an aluminum slag ball waste hoister.

Background

The bucket elevator is used for lifting the supplied materials from a low position to a high position, the supplied materials are automatically and continuously operated and conveyed upwards after being put into the receiving hopper through the vibration table, and the bucket elevator is suitable for conveying granular and small blocky materials without grinding performance and with small grinding performance, such as powder, coal, cement, stones, sand, clay, ore and the like.

The existing Chinese patent with reference to publication number CN203428389U discloses a lifter for recycling recovered waste materials, which comprises a transmission belt, a lifter box body, an upper belt pulley, a motor, a discharge port and a lower belt pulley, wherein the motor is arranged outside the lifter box body; the discharge port is arranged at the upper part of the elevator box body, and the feed port is arranged at the bottom of the elevator box body; the upper belt pulley and the lower belt pulley are arranged in the elevator box body; the motor is connected with the upper belt pulley; the upper belt pulley is connected with the lower belt pulley through a transmission belt. When the waste material processing device is used, waste materials generated in the production process are filled in from the feeding hole, the motor is started to drive the upper belt pulley to rotate, the upper belt pulley drives the transmission belt to be linked with the lower belt pulley, the waste materials at the feeding hole are shoveled by the baffle on the transmission belt and are discharged from the discharging hole at the upper part of the box body of the elevator through transmission, and the waste materials are sent to equipment through the transmission belt to be processed and reused.

In view of the above-mentioned related art, the inventor believes that there is a defect that the waste material falls down to the baffle, the amount of the waste material received by the baffle is small, and it cannot be guaranteed that the waste material does not fall down when the baffle moves along with the belt.

SUMMERY OF THE UTILITY MODEL

In order to promote the ability that the baffle received waste material and transported the waste material, this application provides an aluminium slag ball waste material lifting machine.

The application provides an aluminium slag ball waste material lifting machine adopts following technical scheme:

the utility model provides an aluminium slag ball waste material lifting machine, includes the box, sets up the conveyer belt in the box, is located the discharge gate on box upper portion and is located the feed inlet of box lower part, and the conveyer belt rotates and is connected with transmission roller and lower transmission roller, goes up and is connected with the motor on the transmission roller, and fixedly connected with a plurality of hoppers that connect on the conveyer belt, connect the material of hopper to personally submit circular-arcly, and the side seals.

Through adopting above-mentioned technical scheme, connect the design that the material face was circular-arc to connect the hopper for after the waste material from the feed inlet whereabouts to connect the hopper, all fall to connect hopper opening part top within range waste material all can fall to connect in the hopper, and connect the in-process waste material of hopper conveying on the conveyer belt also can not drop, finally make the waste material that gets into the box by efficient recovery.

Optionally, a plurality of flitches are hinged to the conveyer belt, and the flitches and the receiving hoppers are distributed at intervals.

By adopting the technical scheme, the material receiving hopper rotates to one side of the discharge port along with the conveyor belt, on one hand, the material receiving hopper can automatically turn over and hit the bottom of the material receiving hopper below the material receiving plate, so that waste slag in the material receiving hopper enters the discharge port; on the other hand, the flitch upset back, for the tilt state, the flitch top connect the waste material in the hopper also can drop to the flitch to get into the discharge gate along with the flitch.

Optionally, the two sides of the flitch are fixedly connected with inclined baffles, and one end of each inclined baffle faces away from the opening of the receiving hopper.

Through adopting above-mentioned technical scheme, the setting of baffle for when the flitch top connect the waste material whereabouts to the flitch in the hopper, can not splash out the flitch, make all waste materials of whereabouts on the flitch finally all can following the discharge gate that falls.

Optionally, a soft pad is fixedly connected to the external material surface of the material receiving hopper.

Through adopting above-mentioned technical scheme, the setting of cushion for hit after the flitch upset and hit when connecing the hopper, can not hit the power too big because of hitting for a long time, and destroy the shape that connects the hopper.

Optionally, be connected with the tensioning assembly on the box, the tensioning assembly includes tensioning rod, tensioning piece and threaded rod, and tensioning rod one end is rotated with lower driving roller one end and is connected, and the tensioning rod other end and tensioning piece fixed connection, the tensioning piece is penetrated to the threaded rod, and with tensioning piece threaded connection, the threaded rod deviates from tensioning rod one end and box fixed connection.

Through adopting above-mentioned technical scheme, tensioning assembly's setting for when the staff rotated the threaded rod, the tensioning rod can reciprocate on the threaded rod along with the tensioning piece, thereby has adjusted the distance between lower driving roller and the last driving roller, makes the in-process that connects the hopper to turn over and turn over down on freely, can not touch the box.

Optionally, a fixing block penetrates through the threaded rod and is in threaded connection with the fixing block, and the fixing block is located below the tensioning block and is abutted to the tensioning block.

Through adopting above-mentioned technical scheme, the setting of fixed block for after the distance of tensioning piece on the threaded rod is adjusted, utilize the fixed block to further fix the relative position of tensioning piece and threaded rod, thereby make the fixed position of driving roller more stable down, the conveying of conveyer belt is more stable.

Optionally, the box body is provided with an observation port, and an observation window hinged to the box body is arranged in the observation port.

Through adopting above-mentioned technical scheme, the setting of observation window, the staff of being convenient for observes the inside rotation condition of box through the observation window, and the staff of also being convenient for clears up the remaining waste material in box bottom, keeps the normal rotation that connects the hopper.

Optionally, an inclined tension spring is arranged between one side of the observation window close to the inside of the box body and the box body, and two ends of the tension spring are fixedly connected with the observation window and the box body respectively.

Through adopting above-mentioned technical scheme, the setting of extension spring for the staff has gone on cleaning work back pulling open the observation window, and the observation window can self-closing because the pulling force effect of extension spring avoids forgetting to close the observation window because the staff, and leads to outside air current to get into in the box, influences the transmission of powder waste material.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the material receiving surface is designed into an arc-shaped material receiving hopper, so that all waste materials falling into the upper range of the opening of the material receiving hopper can fall into the material receiving hopper, the waste materials can not fall in the conveying process, and finally the waste materials entering the box body are efficiently recycled;

2. due to the arrangement of the material plates, on one hand, the bottom of the receiving hopper is hit, so that waste slag in the receiving hopper enters the discharge hole; on the other hand, the waste materials in the receiving hopper above the material plate can also fall to the material plate and enter the discharge hole along with the material plate;

3. the setting of tensioning assembly for the staff has adjusted the distance between transmission roller and the last transmission roller down, makes the in-process that connects the hopper and turn over down on the top, and the upset is free, can not touch the box.

Drawings

FIG. 1 is a schematic structural diagram of the present application;

FIG. 2 is a schematic diagram of a conveyor belt intended to show the tensioning assembly;

fig. 3 is an enlarged view at a in fig. 2.

Reference numerals: 1. a box body; 11. a discharge port; 12. a discharge hopper; 13. a feed inlet; 14. a feed hopper; 2. a conveyor belt; 21. an upper driving roller; 22. a lower driving roller; 23. a motor; 3. a receiving hopper; 31. a soft cushion; 4. a material plate; 41. a baffle plate; 5. a tension assembly; 51. a tension rod; 52. a tensioning block; 53. a threaded rod; 54. a fixed block; 6. a viewing port; 61. an observation window; 62. a tension spring; 63. a handle.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses an aluminum slag ball waste material lifting machine. Referring to fig. 1, an aluminum slag ball waste elevator comprises a box body 1, a conveyor belt 2 located in the box body 1 and a receiving hopper 3 fixedly connected to the conveyor belt 2, wherein a feed inlet 13 and a discharge outlet 11 are formed in the box body 1, the feed inlet 13 is located in the lower portion of the box body 1, and the discharge outlet 11 is located in the upper portion of the box body 1.

The waste material is at first got into box 1 from feed inlet 13, and the whereabouts is on connecing hopper 3, connects hopper 3 to carry the waste material and when conveyer belt 2 removed the top to conveyer belt 2, connects hopper 3 reversal, and the opening is down, and the waste material in connecing hopper 3 all falls to discharge gate 11, is exported the reuse again.

Referring to fig. 2, the box body 1 is rectangular and has a hollow interior, the box body 1 is vertically arranged, a discharge port 11 is formed in the upper portion of the box body 1, and a discharge hopper 12 fixedly connected with the box body 1 is arranged in the discharge port 11; a feed inlet 13 is formed in the lower part of the box body 1, and a feed hopper 14 fixedly connected with the box body 1 is arranged in the feed inlet 13; an observation port 6 is formed in the lower part of the box body 1, the observation port 6 is positioned on one side, away from the feed hopper 14, of the box body 1, an observation window 61 hinged with the box body 1 is arranged in the observation port 6, two inclined tension springs 62 are arranged between the observation window 61 and the box body 1, the top ends of the two tension springs 62 are fixedly connected with one side, close to the box body 1, of the observation window 61, and the bottom ends of the two tension springs are fixedly connected with the inner bottom wall of the box body 1; a handle 63 is fixedly connected to the outside of the observation window 61.

The waste material falls from the feed hopper 14 to the receiving hopper 3 through the feed inlet 13, and after being transmitted by the conveyor belt 2, the waste material slides out of the discharge hopper 12 through the discharge outlet 11; the operating conditions of conveyer belt 2 in the box 1 is observed to staff's accessible observation window 61, if box 1 bottom waste material has piled up, influences conveyer belt 2 operation, and the staff can hold handle 63, pulls open and rotates observation window 61, and the clearance waste material finishes, and two extension springs 62 are automatic with observation window 61 pulling and closed.

Referring to fig. 2, the conveyor belt 2 is vertically arranged in the box body 1, and is connected with an upper transmission roller 21 and a lower transmission roller 22 for driving the conveyor belt 2 to rotate, the upper transmission roller 21 is positioned above the conveyor belt, the lower transmission roller 22 is positioned below the conveyor belt, the upper transmission roller 21 is fixedly connected with a motor 23, and the motor 23 is fixedly connected with the outer wall of the box body 1; the lower driving roller 22 is connected with a tensioning assembly 5, and the box body 1 is respectively provided with openings for the lower driving roller 22 to move up and down at the central shaft position close to the two ends of the lower driving roller 22.

Referring to fig. 2, the two groups of tensioning assemblies 5 are arranged, the two groups of tensioning assemblies 5 are respectively located at two ends of the lower transmission roller 22, each tensioning assembly 5 comprises a tensioning rod 51, a tensioning block 52 and a threaded rod 53, the tensioning rods 51 are vertically arranged and located at the outer side of the box body 1, the lower end of each tensioning rod 51 is rotatably connected with one end of the lower transmission roller 22, and the upper end of each tensioning rod is fixedly connected with the horizontally arranged tensioning block 52; the threaded rod 53 is vertically arranged, is positioned on the outer side of the box body 1 and is rotationally connected with the box body 1, the length direction of the threaded rod 53 is the same as that of the tensioning rod 51, and the threaded rod 53 penetrates through the tensioning block 52 and is in threaded connection with the tensioning block 52; the fixed block 54 is positioned below the tensioning block 52, the threaded rod 53 penetrates through the fixed block 54 and is in threaded connection with the fixed block 54, and the top surface of the fixed block 54 is abutted to the bottom surface of the tensioning block 52.

The staff first rotates two threaded rods 53, thereby drive tensioning block 52 and tensioning rod 51 and move on threaded rod 53, the position that will drive roller 22 down sets up the back, screw up fixed block 54, further the position of fixed tensioning rod 51 on threaded rod 53, thereby the position of drive roller 22 under the fixed, then starter motor 23, drive roller 21 rotates on the electronic drive, it drives conveyer belt 2 and rotates to go up drive roller 21, drive roller 22 rotates under conveyer belt 2 drives, the steady rotation of final conveyer belt 2.

Referring to fig. 3, a plurality of horizontal receiving hoppers 3 are arranged on a conveyor belt 2, the receiving surfaces of the receiving hoppers 3 are arc-shaped and are sealed on the side surfaces, the length of each receiving hopper 3 is equal to the width of the conveyor belt 2, the receiving hoppers 3 are equidistantly distributed on the conveyor belt 2, one sides of the receiving hoppers 3, which are far away from the sealing surfaces, are fixedly connected with the conveyor belt 2, and the outer sides of the receiving surfaces of the receiving hoppers 3 are fixedly connected with a cushion 31; be provided with a plurality of flitches 4 on the conveyer belt 2, a plurality of flitches 4 even distribution connect between hopper 3 two, and articulated with conveyer belt 2, two baffles 41 of flitch 4 both sides fixedly connected with, two baffles 41 all incline to set up, and the free end is located and deviates from opening one side.

Along with the rotation of conveyer belt 2, connect hopper 3 and flitch 4 also to rotate, connect hopper 3 to rotate when 2 tops of conveyer belt, connect hopper 3 and flitch 4 upset, be located the flitch 4 that connects hopper 3 top when the upset, hit and connect hopper 3 bottom, connect the waste material whereabouts in the hopper 3 to connect on the flitch 4 of hopper 3 below to along with flitch 4 whereabouts to go out hopper 12.

The implementation principle of the aluminum slag ball waste elevator in the embodiment of the application is as follows: firstly, a worker rotates the two threaded rods 53 to drive the tensioning block 52 and the tensioning rod 51 to move on the threaded rods 53, and after the position of the lower driving roller 22 is determined, the fixing block 54 is screwed down; then starting a motor 23, electrically driving an upper transmission roller 21 to rotate, and driving the conveyor belt 2 and a lower transmission roller 22 to rotate by the rotation of the upper transmission roller 21; waste material gets into feed inlet 13 from feeder hopper 14 to fall to connecing hopper 3, conveyer belt 2 drives and connects hopper 3 and flitch 4 to rotate, connects when hopper 3 rotates 2 tops of conveyer belt, connects hopper 3 and flitch 4 upset, is located flitch 4 that connects hopper 3 top and hits and hit and connect hopper 3 bottom, connects the waste material whereabouts in hopper 3 to connect on flitch 4 of hopper 3 below, and falls to play hopper 12 along with flitch 4.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an aluminium slag ball waste material lifting machine, includes box (1), sets up conveyer belt (2) in box (1), is located discharge gate (11) on box (1) upper portion and is located feed inlet (13) of box (1) lower part, and conveyer belt (2) rotate and are connected with transmission roller (21) and lower transmission roller (22), go up and are connected with motor (23), its characterized in that on transmission roller (21): a plurality of material receiving hoppers (3) are fixedly connected to the conveyor belt (2), the material receiving surfaces of the material receiving hoppers (3) are arc-shaped, and the side edges of the material receiving hoppers are sealed.

2. The aluminum shot waste elevator as set forth in claim 1, wherein: the conveyer belt (2) is hinged with a plurality of material plates (4), and the material plates (4) and the material receiving hoppers (3) are distributed at intervals.

3. The aluminum shot waste elevator as set forth in claim 2, wherein: the two sides of the material plate (4) are fixedly connected with inclined baffle plates (41), and one end of each inclined plate faces away from the opening of the material receiving hopper (3).

4. The aluminum shot waste elevator as set forth in claim 1, wherein: the external material surface of the material receiving hopper (3) is fixedly connected with a soft pad (31).

5. The aluminum shot waste elevator as set forth in claim 1, wherein: be connected with tensioning assembly (5) on box (1), tensioning assembly (5) include tensioning rod (51), tensioning piece (52) and threaded rod (53), and tensioning rod (51) one end is rotated with driving roller (22) one end down and is connected, and tensioning rod (51) other end and tensioning piece (52) fixed connection, threaded rod (53) are worn and are penetrated tensioning piece (52), and with tensioning piece (52) threaded connection, and threaded rod (53) deviate from tensioning rod (51) one end and box (1) fixed connection.

6. The aluminum shot waste elevator as set forth in claim 5, wherein: the threaded rod (53) is provided with a fixing block (54) in a penetrating mode and is in threaded connection with the fixing block (54), and the fixing block (54) is located below the tensioning block (52) and is abutted to the tensioning block (52).

7. The aluminum shot waste elevator as set forth in claim 1, wherein: an observation port (6) is formed in the box body (1), and an observation window (61) hinged with the box body (1) is arranged in the observation port (6).

8. The aluminum shot waste elevator as set forth in claim 7, wherein: an inclined tension spring (62) is arranged between one side of the observation window (61) close to the inside of the box body (1) and the box body (1), and two ends of the tension spring (62) are fixedly connected with the observation window (61) and the box body (1) respectively.

Images