CN112484048A - Feeding device for high-temperature treatment of solid waste - Google Patents

Abstract

The invention relates to a feeding device, in particular to a feeding device for high-temperature treatment of solid wastes. The invention provides a feeding device for high-temperature treatment of solid waste, which can prevent workers from being scalded without the need of the workers to approach a high-temperature furnace to carry out feeding work of the solid waste. A feeding device for high-temperature treatment of solid waste comprises: two bases are arranged, and a reinforcing frame is connected to one side of each base; the reinforcing frame is provided with a placing component; the dumping mechanism is arranged on the placing component; and the driving mechanism is arranged on the base on one side and is in transmission connection with the dumping mechanism. The driving mechanism can drive the dumping mechanism to work, the solid waste can be dumped onto the placing component through the dumping mechanism, and the solid waste slides into the high-temperature furnace through the placing component, so that the aims of not needing a worker to approach the high-temperature furnace to throw in the solid waste and preventing the worker from being scalded are fulfilled.

Description

Feeding device for high-temperature treatment of solid waste

Technical Field

The invention relates to a feeding device, in particular to a feeding device for high-temperature treatment of solid wastes.

Background

The solid waste produced in human daily life and production is large in discharge amount, complex and various in components, polluting, resource and social, and needs harmless, resource, reduction and socialization treatment, the treatment method widely applied at present is sanitary landfill, high-temperature composting and incineration, the high-temperature composting and incineration of the solid waste generally puts the solid waste into a high-temperature furnace, the solid waste is generally shoveled into the high-temperature furnace by a shovel manually at present, in the process, a worker needs to stand at a position close to the high-temperature furnace for operation, and the worker can be in an environment with high temperature for a long time, so that the body health is not facilitated, and the worker is easily scalded in the working process.

Therefore, it is necessary to develop a feeding device for high-temperature treatment of solid waste, which can prevent workers from being scalded without the need of the workers to approach the high-temperature furnace to perform the feeding work of the solid waste.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects that workers need to stand at a position close to a high-temperature furnace to carry out solid waste feeding work and are easily scalded in the working process of the workers, and the technical problem to be solved is to provide a feeding device for high-temperature treatment of solid waste, which does not need the workers to approach the high-temperature furnace to carry out the solid waste feeding work and can prevent the workers from being scalded.

(2) Technical scheme

In order to solve the above technical problems, the present invention provides a feeding device for high temperature treatment of solid waste, comprising: two bases are arranged, and a reinforcing frame is connected to one side of each base; the reinforcing frame is provided with a placing component; the dumping mechanism is arranged on the placing component; and the driving mechanism is arranged on the base on one side and is in transmission connection with the dumping mechanism.

Preferably, the placement assembly comprises: the reinforcing frame is connected with a first slotted guide rail frame, and the first slotted guide rail frame is connected with the base; one side of the first slotted guide rail bracket at one side is connected with a second slotted guide rail bracket; the supporting rods are connected between the first slotted guide rail frames; and the feeding frame is connected between the first slotted guide rail frames.

Preferably, the pouring mechanism comprises: the sliding bottom plate is connected with the connecting seat; the connecting seat is rotatably connected with the storage box, and a volute spiral spring is connected between the storage box and the connecting seat; the connecting frames are connected to the two sides of the storage box, and the connecting frame on one side is connected with the second slotted guide rail frame in a sliding mode; the two sides of the storage box are both connected with the fan-shaped blocks; and the other side of the first slotted guide rail frame is connected with a jacking block rod, and the jacking block rod is matched with the fan-shaped block.

Preferably, the drive mechanism comprises: a servo motor is arranged on a base on one side; the other side of the first slotted guide rail frame on the other side is connected with a fixed support frame, the fixed support frame is rotatably connected with two belt pulleys, and the belt pulley on one side is connected with an output shaft of a servo motor; the flat belt is wound between the belt pulleys, and the connecting frame at the other side is connected with the flat belt.

Preferably, the heat insulation plate mechanism is further included, and the heat insulation plate mechanism comprises: the device comprises a grooving guide frame, a feeding frame, a first movable plate, a second movable plate and a control device, wherein both sides of the feeding frame are connected with the grooving guide frame; the end part of the first movable plate is connected with a fixed pull rod; the transmission shaft is connected with the rotary type of the other side of the feeding frame, a reel is connected to the transmission shaft, a steel cable is connected to the reel, and the tail end of the steel cable is connected with the fixed pull rod.

Preferably, the device further comprises a linkage mechanism, wherein the linkage mechanism comprises: the upper part of one side of the first slotted guide rail frame at one side is rotatably connected with a transmission gear shaft; the transmission belt set is connected among the transmission gear shaft, the slotting guide frame at one side and the transmission shaft and is rotatably connected with the slotting guide frame at one side; the second slotted guide rail frame is connected with a guide rail frame, the guide rail frame is internally connected with a rack frame in a sliding manner, and the rack frame is matched with the transmission gear shaft; the rack is connected with a connecting block, and the connecting block is connected with a connecting frame on one side.

Preferably, the mobile assembly is further included, and the mobile assembly includes: the mounting bracket, both sides on the base all are connected with the mounting bracket, are connected with high adjusting screw through threaded connection's mode on the mounting bracket, are connected with the truckle on the high adjusting screw.

Preferably, one side of the magazine is open-ended.

(3) Advantageous effects

1. Can drive through actuating mechanism and empty the mechanism and carry out work, can empty solid waste to placing the subassembly through empting the mechanism on, solid waste is thereupon through placing subassembly landing to the high temperature furnace in to realized need not the workman and be close to the high temperature furnace and carry out solid waste input work, can prevent that the workman from being scalded the purpose.

2. Through the cooperation of link gear and heat insulating board mechanism, can make solid waste smooth and easy, quick landing to the high temperature furnace in, can improve work efficiency.

3. The movable assembly can be moved conveniently, quickly and labor-saving.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a third perspective view of the present invention.

Fig. 4 is a schematic diagram of a fourth three-dimensional structure according to the present invention.

Fig. 5 is an enlarged view of part a of the present invention.

The labels in the figures are: 1-a base, 2-a reinforcing frame, 3-a placement component, 31-a first slotted guide rail frame, 32-a second slotted guide rail frame, 33-a support rod, 34-a feeding frame, 4-a dumping mechanism, 41-a sliding bottom plate, 42-a sliding rod, 43-a connecting seat, 44-a volute spring, 45-a storage box, 46-a connecting frame, 47-a sector, 48-a top block rod, 5-a driving mechanism, 51-a servo motor, 52-a fixed support frame, 53-a belt pulley, 54-a flat belt, 6-a heat insulation plate mechanism, 61-a slotted guide frame, 62-a first movable plate, 63-a second movable plate, 64-a fixed pull rod, 65-a transmission shaft, 66-a reel, 67-a steel cable and 7-a linkage mechanism, 71-transmission belt group, 72-transmission gear shaft, 73-rack frame, 74-guide track frame, 75-connecting block, 8-moving assembly, 81-mounting frame, 82-height adjusting screw rod and 83-caster.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

The utility model provides a solid waste high temperature treatment is with throwing material device, as shown in fig. 1-5, including base 1, reinforcing frame 2, place the subassembly 3, empty mechanism 4 and actuating mechanism 5, base 1 is equipped with two, and the top right side of base 1 is connected with reinforcing frame 2, is equipped with on the reinforcing frame 2 and places subassembly 3, is equipped with on placing subassembly 3 and empties mechanism 4, and the top of front side base 1 is equipped with actuating mechanism 5, and actuating mechanism 5 is connected with empting the 4 transmissions of mechanism.

The placing component 3 comprises a first slotted guide rail frame 31, a second slotted guide rail frame 32, supporting rods 33 and a feeding frame 34, the right part of the reinforcing frame 2 is connected with the first slotted guide rail frame 31, the bottom of the first slotted guide rail frame 31 is connected with the top of the base 1, the rear side face of the first slotted guide rail frame 31 on the rear side is connected with the second slotted guide rail frame 32, two supporting rods 33 are connected between the left side faces of the two first slotted guide rail frames 31, and the feeding frame 34 is connected between the tops of the two first slotted guide rail frames 31.

Dumping mechanism 4 is including sliding bottom plate 41, slide bar 42, connecting seat 43, volute spiral spring 44, storage box 45, link 46, segment 47 and kicking block pole 48, sliding connection has slide bar 42 in first slotted guide rail frame 31, be connected with sliding bottom plate 41 between two slide bars 42, sliding bottom plate 41 top left side is connected with connecting seat 43, rotating connection has storage box 45 on connecting seat 43, be connected with volute spiral spring 44 between storage box 45 and the connecting seat 43, storage box 45's leading flank and trailing flank all are connected with link 46, trailing flank link 46 and second slotted guide rail frame 32 sliding connection, storage box 45's front and back both sides all are connected with segment 47, the right flank upper portion of first slotted guide rail frame 31 is connected with kicking block pole 48, kicking block pole 48 and the cooperation of segment 47.

The driving mechanism 5 comprises a servo motor 51, a fixed support frame 52, belt pulleys 53 and a flat belt 54, the servo motor 51 is installed on the right front side of the top of the front side base 1, the front side surface of the front side first slotted guide rail frame 31 is connected with the fixed support frame 52, the fixed support frame 52 is connected with the two belt pulleys 53 in a rotating mode, the lower side belt pulley 53 is connected with an output shaft of the servo motor 51, the flat belt 54 is wound between the two belt pulleys 53, and the front side connecting frame 46 is connected with the flat belt 54.

When solid waste is to be put into the high-temperature furnace, the device can be used, firstly, the solid waste is shoveled into the storage box 45, after a proper amount of solid waste is filled in the storage box 45, the device is pushed to move to be close to the high-temperature furnace, then, the servo motor 51 is started to enable the belt pulley 53 on the lower side to rotate, the flat belt 54 rotates along with the flat belt, the storage box 45 can be enabled to move upwards through the connecting frame 46 on the front side by rotating the flat belt 54, the storage box 45 moves upwards to drive the components on the storage box and the solid waste in the storage box to move upwards, when the sector 47 moves upwards to be in contact with the top block rod 48, the sector 47 can rotate under the action of the top block rod 48, the sector 47 rotates to drive the storage box 45 to rotate to dump the solid waste onto the material dumping frame 34, the scroll spring 44 compresses along with the solid waste, the solid waste slides into the high-temperature furnace through the material dumping frame 34, after the solid waste in, the servo motor 51 is controlled to enable the belt pulley 53 on the lower side to rotate reversely, so that the material storage box 45 can move downwards to reset, then the servo motor 51 can be switched off, and when the sector 47 moves downwards to be separated from the ejector block rod 48, the material storage box 45 can rotate reversely to reset under the action of the scroll spring 44; the solid waste throwing operation can be repeatedly carried out by repeating the operations, workers do not need to approach the high-temperature furnace to carry out the solid waste throwing operation, and the workers can be prevented from being scalded; so this device can drive through actuating mechanism 5 and empty mechanism 4 and carry out work, can empty solid waste to placing on subassembly 3 through empting mechanism 4, solid waste is thereupon through placing 3 landing of subassembly to the high temperature furnace in to realized need not the workman and be close to the high temperature furnace and carry out solid waste input work, can prevent that the workman from being scalded the purpose.

Example 2

On the basis of embodiment 1, as shown in fig. 1 to 4, the heat insulation plate mechanism 6 is further included, the heat insulation plate mechanism 6 includes slotted guide frames 61, a first movable plate 62, a second movable plate 63, fixed pull rods 64, a transmission shaft 65, reels 66 and a steel cable 67, the slotted guide frames 61 are connected to the front and rear sides of the top of the feeding frame 34, the first movable plate 62 is rotatably connected between the left portions of the two slotted guide frames 61, the second movable plate 63 is rotatably connected to the right side of the first movable plate 62, the second movable plate 63 is slidably connected to the slotted guide frames 61, the fixed pull rod 64 is connected to the right side of the top of the first movable plate 62, the transmission shaft 65 is rotatably connected to the left portion of the feeding frame 34, the reels 66 are connected to the transmission shaft 65, the steel cable 67 is connected to the reels 66, and the tail.

The transmission mechanism comprises a transmission belt group 71, a transmission gear shaft 72, a rack frame 73, a guide rail frame 74 and a connecting block 75, wherein the upper part of the rear side surface of the rear side first slotted guide frame 31 is rotatably connected with the transmission gear shaft 72, the rear side slotted guide frame 61 and the transmission shaft 65 are connected with the transmission belt group 71 in a rotating mode, the transmission belt group 71 is rotatably connected with the rear side slotted guide frame 61, the second slotted guide frame 32 is connected with the guide rail frame 74, the guide rail frame 74 is internally and slidably connected with the rack frame 73, the rack frame 73 is matched with the transmission gear shaft 72, the lower part of the right side surface of the rack frame 73 is connected with the connecting block 75, and the connecting block 75 is connected with the rear side connecting frame 46.

The storage box 45 rotates to dump the solid waste onto the first movable plate 62 and the second movable plate 63, the rear connecting frame 46 moves upwards to drive the rack 73 to move upwards through the connecting block 75, when the rack 73 moves upwards to be engaged with the transmission gear shaft 72, the rack 73 moves upwards to drive the transmission gear shaft 72 to rotate, the transmission gear shaft 72 rotates to enable the transmission shaft 65 to rotate through the transmission belt set 71, the transmission shaft 65 rotates to drive the reel 66 to rotate, the reel 66 rotates to retract the steel cable 67, the first movable plate 62 and the second movable plate 63 can be folded upwards through the steel cable 67 and the fixed pull rod 64, so that the first movable plate 62 and the second movable plate 63 can be in an inclined state, the solid waste on the first movable plate 62 and the second movable plate 63 can smoothly and rapidly slide down into the high temperature furnace when the rack 73 moves downwards, therefore, the reel 66 can rotate reversely to release the steel cable 67, the first movable plate 62 and the second movable plate 63 are opened and reset downwards under the action of gravity, so that the solid waste can smoothly and quickly slide into the high-temperature furnace through the cooperation of the linkage mechanism 7 and the heat insulation plate mechanism 6, and the working efficiency can be improved.

Example 3

On the basis of embodiment 2, as shown in fig. 1 and 3, the mobile assembly 8 is further included, the mobile assembly 8 includes an installation frame 81, a height adjusting screw 82 and a caster 83, the installation frame 81 is connected to the left side and the right side of the top of the base 1, the height adjusting screw 82 is connected to the installation frame 81 in a threaded connection mode, and the caster 83 is connected to the bottom of the height adjusting screw 82.

When the device is moved, the height adjusting screw 82 can be rotated to enable the caster 83 to move downwards, then the device can be pushed to move, the device can be conveniently, quickly and laborsaving moved through the caster 83, and after the device is moved to a proper position, the height adjusting screw 82 is rotated reversely to enable the caster 83 to move upwards to reset, so that the device can be prevented from moving or shaking by itself; this device can be conveniently, swiftly, laborsaving removed through removing subassembly 8 like this.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (8)

1. The utility model provides a solid waste high temperature treatment is with throwing material device which characterized in that includes:

two bases (1) are arranged, and one side of each base is connected with a reinforcing frame (2);

the reinforcing frame (2) is provided with a placing component (3);

the dumping mechanism (4) is arranged on the placing component (3);

the driving mechanism (5) is arranged on the base (1) on one side of the driving mechanism (5), and the driving mechanism (5) is in transmission connection with the dumping mechanism (4).

2. The charging device for high-temperature treatment of solid waste according to claim 1, wherein the placing component (3) comprises:

the reinforcing frame (2) is connected with a first slotted guide rail frame (31), and the first slotted guide rail frame (31) is connected with the base (1);

one side of the first slotted guide rail bracket (31) at one side is connected with a second slotted guide rail bracket (32);

the supporting rods (33) are connected between the first slotted guide rail brackets (31);

the feeding frame (34) is connected between the first slotted guide rail frame (31).

3. The charging device for high-temperature treatment of solid waste according to claim 2, wherein the dumping mechanism (4) comprises:

the sliding guide rail bracket comprises sliding bottom plates (41), sliding rods (42) are connected in the first slotted guide rail bracket (31) in a sliding mode, the sliding bottom plates (41) are connected among the sliding rods (42), and connecting seats (43) are connected on the sliding bottom plates (41);

the connecting base (43) is rotatably connected with the storage box (45), and a volute spiral spring (44) is connected between the storage box (45) and the connecting base (43);

the connecting frames (46) are connected to the two sides of the storage box (45), and the connecting frame (46) on one side is connected with the second slotted guide rail frame (32) in a sliding mode;

the fan-shaped blocks (47) are connected to both sides of the storage box (45);

the other side of the first slotted guide rail frame (31) is connected with a top block rod (48), and the top block rod (48) is matched with the fan-shaped block (47).

4. The charging device for high-temperature treatment of solid waste according to claim 3, wherein the driving mechanism (5) comprises:

a servo motor (51), wherein the servo motor (51) is arranged on the base (1) on one side;

the other side of the first slotted guide rail frame (31) on the other side is connected with the fixed support frame (52), the fixed support frame (52) is rotatably connected with two belt pulleys (53), and the belt pulley (53) on one side is connected with an output shaft of the servo motor (51);

a flat belt (54) is wound between the belt pulleys (53), and the other side connecting frame (46) is connected with the flat belt (54).

5. The charging device for high-temperature treatment of solid waste according to claim 4, further comprising a heat insulation plate mechanism (6), wherein the heat insulation plate mechanism (6) comprises:

the automatic feeding device comprises slotting guide frames (61), wherein the slotting guide frames (61) are connected to two sides of a feeding frame (34), a first movable plate (62) is rotatably connected between the slotting guide frames (61), a second movable plate (63) is rotatably connected to one side of the first movable plate (62), and the second movable plate (63) is slidably connected with the slotting guide frames (61);

the end part of the first movable plate (62) is connected with a fixed pull rod (64);

the transmission shaft (65) is rotatably connected to the other side of the feeding frame (34), a winding wheel (66) is connected to the transmission shaft (65), a steel cable (67) is connected to the winding wheel (66), and the tail end of the steel cable (67) is connected with the fixed pull rod (64).

6. The feeding device for high-temperature solid waste treatment according to claim 5, further comprising a linkage mechanism (7), wherein the linkage mechanism (7) comprises:

the upper part of one side of the first slotted guide rail bracket (31) on one side of the transmission gear shaft (72) is rotatably connected with the transmission gear shaft (72);

the transmission belt set (71) is connected among the transmission gear shaft (72), the one-side slotting guide frame (61) and the transmission shaft (65), and the transmission belt set (71) is rotatably connected with the one-side slotting guide frame (61);

the guide rail bracket (74) is connected to the second slotted guide rail bracket (32), the rack bracket (73) is connected to the guide rail bracket (74) in a sliding mode, and the rack bracket (73) is matched with the transmission gear shaft (72);

the rack is characterized in that the rack is provided with a connecting block (75), the rack frame (73) is connected with the connecting block (75), and the connecting block (75) is connected with the connecting frame (46) on one side.

7. The feeding device for high-temperature solid waste treatment according to claim 6, further comprising a moving assembly (8), wherein the moving assembly (8) comprises:

mounting bracket (81), both sides on base (1) all are connected with mounting bracket (81), are connected with high adjusting screw (82) through threaded connection's mode on mounting bracket (81), are connected with truckle (83) on high adjusting screw (82).

8. The feeding device for the high-temperature treatment of the solid waste according to claim 3, wherein one side of the storage box (45) is open.

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