CN220689083U - Incinerator garbage conveying supporting structure - Google Patents

Abstract

The utility model relates to the technical field of garbage incineration, in particular to a garbage conveying supporting structure of an incinerator, which comprises an incinerator body and a garbage pushing mechanism, wherein the garbage pushing mechanism comprises a plurality of pushing plates which are positioned in the incinerator body and distributed in a stepped mode, each pushing plate is horizontally and slidingly connected with the incinerator body, the bottom of each pushing plate is connected with a first transmission rod, the middle of each first transmission rod is rotationally connected with the incinerator body through a rotating piece, the bottom of each first transmission rod extends to the outside of the incinerator body, a reciprocating transmission mechanism capable of driving the corresponding first transmission rod to rotate around the rotating piece is arranged outside the incinerator body, and the moving directions of the adjacent pushing plates are opposite. Compared with the traditional fire grate, the device can enable garbage to be conveyed downwards faster under the same pushing stroke, and the structure of the device positioned in the hearth is provided with the pushing plate and the partial first transmission rod, so that the reciprocating transmission mechanism can be better protected, and the service life is longer.

Description

Incinerator garbage conveying supporting structure

Technical Field

The utility model relates to the technical field of garbage incineration, in particular to a garbage conveying supporting structure of an incinerator.

Background

A garbage incinerator, also called a garbage incineration facility, is an apparatus for treating solid waste. It burns the waste into ash and flue gas at high temperature, thereby reducing the volume of the waste and converting it into heat energy.

Solid garbage needs to be burned in a hearth of an incinerator during garbage incineration, in order to enable the garbage to be burned more thoroughly, a fire grate structure capable of being gradually conveyed is generally arranged in the hearth, so that the garbage is burned step by step, the fire grate structure in the prior art is generally of a step structure with dynamic and static, and the efficiency of conveying the garbage by the structure is lower.

Disclosure of Invention

The utility model aims to solve the defect that the prior art has a grate structure which is generally a dynamic-static ladder structure and has lower garbage conveying efficiency, and provides a garbage conveying support structure of an incinerator.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides an incinerator rubbish conveying bearing structure, includes furnace body, rubbish pushing mechanism includes a plurality of push plates that are located the furnace body and cascaded distribution, every push plate all with furnace body horizontal sliding connection, push plate bottom is connected with first transfer line, first transfer line middle part is rotated with the furnace body through the rotating member and is connected, first transfer line bottom extends to the furnace body outside, furnace body externally mounted has can drive first transfer line is around rotating member pivoted reciprocal drive mechanism, adjacent the direction of motion of push plate is opposite.

The reciprocating transmission mechanism comprises a second transmission rod capable of reciprocating in the horizontal direction, a reciprocating power source for driving the second transmission rod to move, and a cylindrical gear part fixedly connected to the bottom end of the first transmission rod and coaxially arranged with the rotating part, wherein first racks and second racks which are alternately distributed are fixedly connected to the second transmission rod, two adjacent first transmission rods are defined to be a first rod piece and a second rod piece respectively, the cylindrical gear part at the bottom end of the first rod piece is directly meshed with the first racks for transmission, and the cylindrical gear part at the bottom end of the second rod piece is connected with the second racks for transmission through a gear part connected with the furnace body in a rotating mode.

The reciprocating power source is a power telescopic cylinder or a crank sliding block mechanism.

The push plate comprises a horizontal plate and a vertical plate positioned on one side below the horizontal plate, the bottom end of the vertical plate is tangent to the horizontal plate of the adjacent push plate, sliding plates extend from two ends of the horizontal plate, and the sliding plates are slidably connected in horizontal sliding grooves formed in the inner wall of the furnace body.

The push plate bottom rigid coupling has the connecting axle, waist type hole has been seted up to first transfer line top, the connecting axle movable mounting is in the waist type hole.

The garbage conveying and supporting structure of the incinerator has the beneficial effects that: the device drives the first transmission rod to swing back and forth around the rotating piece through the reciprocating transmission mechanism, so that the pushing plate reciprocates in the horizontal direction, and the moving directions of the adjacent pushing plates are opposite.

Drawings

FIG. 1 is a schematic diagram of an assembly structure of a push plate and a first transmission rod of the present utility model;

FIG. 2 is a schematic view of the structure of the reciprocating transmission mechanism inside the furnace body.

In the figure: furnace body 1, connecting axle 2, waist type hole 3, first transfer line 4, rotor 5, cylindrical gear portion 6, first rack 7, reciprocating power source 8, second transfer line 9, second rack 10, gear 11, horizontal plate 12, vertical plate 13, horizontal spout 14, slide 15, push plate 16, reciprocating drive mechanism 17.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1-2, a garbage conveying supporting structure of an incinerator comprises a furnace body 1 and a garbage pushing mechanism, wherein the garbage pushing mechanism comprises a plurality of pushing plates 16 which are located in the furnace body 1 and distributed in a stepped mode, each pushing plate 16 is horizontally and slidably connected with the furnace body 1, a first transmission rod 4 is connected to the bottom of each pushing plate 16, the middle of each first transmission rod 4 is rotationally connected with the furnace body 1 through a rotating piece 5, the bottom end of each first transmission rod 4 extends to the outside of the furnace body 1, a reciprocating transmission mechanism 17 capable of driving the corresponding first transmission rod 4 to rotate around the rotating piece 5 is installed outside the furnace body 1, and the moving directions of adjacent pushing plates 16 are opposite.

Referring to fig. 1, the pushing plates 16 of the device are distributed stepwise, solid garbage falls to a higher pushing plate 16 from a material leakage hole above, the reciprocating transmission mechanism 17 drives the first transmission rod 4 to reciprocate around the rotating piece 5, so that the pushing plates 16 reciprocate in the horizontal direction, and the moving directions of the adjacent pushing plates 16 are opposite, as the pushing plates 16 of the device can reciprocate, and the moving directions of the adjacent pushing plates 16 are opposite, compared with a traditional grate, the device can enable garbage to be conveyed downwards faster under the same pushing stroke, and the structure of the device inside a hearth only has the pushing plates 16 and part of the first transmission rod 4, so that the reciprocating transmission mechanism can be better protected, and the service life is longer.

As one embodiment of the reciprocating transmission mechanism, the reciprocating transmission mechanism 17 comprises a second transmission rod 9 capable of reciprocating in the horizontal direction, a reciprocating power source 8 driving the second transmission rod 9 to move, and a cylindrical gear part 6 fixedly connected at the bottom end of the first transmission rod 4 and coaxially arranged with the rotating member 5, wherein the second transmission rod 9 is fixedly connected with first racks 7 and second racks 10 which are alternately distributed, two adjacent first transmission rods 4 are defined as a first rod piece and a second rod piece respectively, the cylindrical gear part 6 at the bottom end of the first rod piece is directly meshed with the first racks 7 for transmission, the cylindrical gear part 6 at the bottom end of the second rod piece is connected with the second racks 10 for transmission through a gear piece 11 rotationally connected with the furnace body 1, and referring to fig. 2, the reciprocating power source 8 drives the second transmission rod 9 to reciprocate in the horizontal direction, and the first transmission rod 4 is made to reciprocate around the rotating member 5 through meshed transmission of the gear racks, and the function of changing the swinging direction of the first transmission rod 4 is realized by utilizing the gear piece 11, so that the adjacent pushing plates 16 are reversely reciprocated.

Specifically, the reciprocating power source 8 is a power telescopic cylinder or a crank block mechanism.

As one implementation mode of the pushing plate, the pushing plate 16 comprises a horizontal plate 12 and a vertical plate 13 positioned on one side below the horizontal plate 12, the bottom end of the vertical plate 13 is tangential to the horizontal plate 12 of the adjacent pushing plate 16, sliding plates 15 extend from two ends of the horizontal plate 12, the sliding plates 15 are slidably connected in horizontal sliding grooves 14 arranged on the inner wall of the furnace body 1, and the pushing plate 16 can horizontally reciprocate in the furnace body through the cooperation of the sliding plates 15 and the horizontal sliding grooves 14.

In order to prevent the occurrence of the mechanical clamping condition, the bottom of the pushing plate 16 is fixedly connected with a connecting shaft 2, a waist-shaped hole 3 is formed in the top end of the first transmission rod 4, and the connecting shaft 2 is movably arranged in the waist-shaped hole 3.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any technical solution, conception and design obtained by equivalent substitution or modification of the technical solution and the inventive concept thereof by those skilled in the art within the scope of the present utility model should be covered in the scope of the present utility model.

Claims (5)

1. The utility model provides an incinerator rubbish conveying bearing structure, includes furnace body (1), rubbish push mechanism, a serial communication port, rubbish push mechanism includes push plate (16) that a plurality of is located furnace body (1) and ladder formula distribution, every push plate (16) all with furnace body (1) horizontal sliding connection, push plate (16) bottom is connected with first transfer line (4), first transfer line (4) middle part is through rotating piece (5) and furnace body (1) swivelling joint, first transfer line (4) bottom extends to furnace body (1) outside, furnace body (1) externally mounted has can drive first transfer line (4) are around rotating piece (5) pivoted reciprocal drive mechanism (17), adjacent the direction of motion of push plate (16) is opposite.

2. The garbage conveying support structure of the incinerator according to claim 1, wherein the reciprocating transmission mechanism (17) comprises a second transmission rod (9) capable of reciprocating in the horizontal direction, a reciprocating power source (8) driving the second transmission rod (9) to move, and a cylindrical gear part (6) fixedly connected to the bottom end of the first transmission rod (4) and coaxially arranged with the rotating part (5), first racks (7) and second racks (10) which are alternately distributed are fixedly connected to the second transmission rod (9), the adjacent two first transmission rods (4) are defined to be a first rod piece and a second rod piece respectively, the cylindrical gear part (6) at the bottom end of the first rod piece is directly meshed with the first racks (7) for transmission, and the cylindrical gear part (6) at the bottom end of the second rod piece is connected with the second racks (10) for transmission through a gear part (11) rotationally connected with the incinerator body (1).

3. A waste transport support structure for an incinerator according to claim 2, wherein the reciprocating power source (8) is a power telescopic cylinder or a crank block mechanism.

4. A incinerator refuse transfer support structure according to any one of claims 1-3, characterized in that the pushing plate (16) comprises a horizontal plate (12), a vertical plate (13) located at one side below the horizontal plate (12), the bottom end of the vertical plate (13) is tangential to the horizontal plate (12) of the adjacent pushing plate (16), sliding plates (15) extend from two ends of the horizontal plate (12), and the sliding plates (15) are slidably connected in horizontal sliding grooves (14) formed in the inner wall of the furnace body (1).

5. A garbage conveying support structure of an incinerator according to any one of claims 1-3, wherein a connecting shaft (2) is fixedly connected to the bottom of the pushing plate (16), a waist-shaped hole (3) is formed in the top end of the first transmission rod (4), and the connecting shaft (2) is movably installed in the waist-shaped hole (3).