CN210219793U - Transport mechanism in waste incineration power generation - Google Patents

Abstract

The utility model discloses a transport mechanism in waste incineration power generation, which relates to the technical field of environmental protection and waste treatment and is arranged on a frame, and comprises a material guide plate obliquely arranged on the frame, a material homogenizing assembly rotatably connected on the frame and positioned above the material guide plate, and a material conveying assembly arranged on the frame and used for conveying waste to an incinerator; defeated material subassembly sets up including the slope transportation frame in the frame, rotates the bull stick, the cover of connection at transportation frame both ends and establishes the gear at bull stick both ends, set up and establish the chain that meshes mutually with the gear on the gear along transportation frame length direction to and install the transport plate on the chain, the transport plate evenly sets up along chain length direction, just transportation frame peak is located stock guide minimum top. Through being provided with defeated material subassembly, refining subassembly and the stock guide of slope for the volume that control rubbish got into the burning furnace at every turn improves the quality of refuse combustion, reduces the manufacturing cost of enterprise.

Description

Transport mechanism in waste incineration power generation

Technical Field

The utility model relates to an environmental protection and refuse treatment's technical field, more specifically say, it relates to a transport mechanism in msw incineration electricity generation.

Background

In recent years, under the increasingly severe situation of the "city enclosed by garbage", the garbage incineration power generation has attracted high attention and attention of the nation as the best way of disposing domestic garbage in a way of reduction, harmlessness and reclamation.

The domestic garbage is periodically transported into a power plant by a garbage truck, and is automatically unloaded into a garbage pile after being measured by a wagon balance arranged in the plant area. During production operation, garbage is unloaded to a stokehold garbage hopper through a bridge type grab bucket crane, and then is arranged on a propelling mechanism, and the garbage is sent into an incinerator for incineration.

The main structure of the propulsion mechanism is as shown in fig. 1, the propulsion mechanism is arranged on a frame 100, and includes a material guide plate 110 arranged right below a stokehole garbage hopper, the material guide plate 110 is horizontally arranged, a material feeding plate 120 communicated with a material inlet of an incinerator is obliquely arranged at one end of the material guide plate 110, a propulsion plate 130 is arranged at the other end of the material guide plate 110, the propulsion plate 130 is connected with the material guide plate 110 in a sliding manner, an air cylinder 140 for propelling the propulsion plate 130 to move is arranged at one side of the propulsion plate 130 close to the end of the material guide plate 110, and a piston rod of the air cylinder 140 is connected with the propulsion plate.

During production operation, garbage is unloaded to the stokehole garbage hopper through the bridge type grab bucket crane in a rotating mode, then the garbage is discharged from a lower opening of the stokehole garbage hopper, the garbage is accumulated on the material guide plate arranged right below the stokehole garbage hopper, the air cylinder drives the pushing plate to move close to the incinerator along the length direction of the material guide plate in a timing mode, the garbage accumulated on the material guide plate is pushed into the material guide plate, and the garbage can automatically slide into the incinerator due to gravity to be incinerated.

The above prior art solutions have the following drawbacks: the air cylinder drives the pushing plate to move at regular time, and the garbage automatically falls onto the material guide plate from the stokehole garbage hopper due to gravity. And the garbage is unloaded to the stokehole garbage hopper through the bridge type grab bucket crane, so that the input amount of the garbage and the amount of the garbage accumulated on the material guide plate at each time cannot be controlled.

Piling up too much rubbish on the stock guide, can make the rubbish volume that gets into the burning furnace too much and cause the burning insufficient, influence the burning quality of rubbish for follow-up still to the incomplete rubbish of burning handles, causes follow-up work load to aggravate, or accumulational rubbish is less on the stock guide, does not have even, causes the certain waste of electric jar energy.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a transport mechanism in msw incineration electricity generation through the stock guide that is provided with defeated material subassembly, refining subassembly and slope for the volume that control rubbish entering at every turn burns burning furnace improves the quality of msw burning, reduces the manufacturing cost of enterprise.

In order to achieve the above purpose, the utility model provides a following technical scheme:

a transport mechanism in waste incineration power generation is arranged on a rack and comprises a guide plate, a material homogenizing assembly and a material conveying assembly, wherein the guide plate is obliquely arranged on the rack, the material homogenizing assembly is rotatably connected to the rack and is positioned above the guide plate, the material conveying assembly is arranged on the rack and is used for conveying waste to an incinerator, the guide plate is positioned below a waste hopper in front of the incinerator, the material homogenizing assembly is arranged close to the lowest point of the guide plate, and the material conveying assembly is positioned below the lowest point of the guide plate;

defeated material subassembly sets up including the slope transportation frame in the frame, rotates the bull stick, the cover of connection at transportation frame both ends and establishes the gear at bull stick both ends, set up and establish the chain that meshes mutually with the gear on the gear along transportation frame length direction to and install the transport plate on the chain, the transport plate evenly sets up along chain length direction, just transportation frame peak is located stock guide minimum top.

By adopting the technical scheme, during production and operation, garbage is rotationally unloaded to the stokehole garbage hopper through the bridge type grab bucket crane, then is discharged from the lower opening of the stokehole garbage hopper, and enters the material guide plate arranged right below the stokehole garbage hopper.

Because the guide plate is arranged obliquely, garbage can do downward movement close to the incinerator along the length direction of the guide plate due to dead weight, and then automatically slide down to enter the material homogenizing assembly for distributing materials.

The refining subassembly decomposes rubbish and is the rubbish that has certain degree of consistency of a small portion, for the rubbish volume that gets into the burning furnace at every turn has certain homogeneity, has realized the volume that control rubbish got into the burning furnace at every turn, guarantees that the rubbish that gets into at every turn can be by abundant burning, improves the quality of rubbish burning.

The material conveying component conveys the decomposed garbage into the incinerator for incineration.

Still be provided with first motor through the fix with screw on the transportation frame, the output shaft and arbitrary pivot pole coaxial coupling of first motor. When the output shaft of first motor drives the bull stick and rotates, the gear that sets up at the bull stick both ends rotates for rotate with gear engaged with chain, and make another bull stick also rotate because the transmission of chain, realize setting up the transport plate on the chain and move along chain length direction, be used for transporting the rubbish that the refining subassembly decomposed to the incinerator, carry out incineration disposal.

The utility model discloses further set up to: the transport plate is provided with the striker plate along its circumference, the striker plate with be formed with the chamber of placing that is used for placing rubbish between the transport plate, just it keeps away from the one end area of placing the board to place the chamber to be greater than and is close to the one end area of placing the board.

Through adopting above-mentioned technical scheme, because the transportation frame sets up to one side, when the rubbish that falls on the transportation board is too much, the friction of transportation board to rubbish is not enough, and rubbish can be because gravity reason downstream to drop, cause the mill's environment dirty, increase workman's clearance burden.

Be provided with the striker plate for block rubbish, prevent rubbish whereabouts, improve the transportation effect and the efficiency of rubbish.

Place the chamber and be the setting of falling the halfpace, increase the feed inlet of placing the chamber, make things convenient for rubbish to enter into and place the intracavity, improve the conveying effect and the efficiency of rubbish.

The utility model discloses further set up to: keep away from and burn burning furnace one side the striker plate top articulates there is the closed door, closed door more than or equal to place chamber upper surface area, just be provided with the adjusting part of control closed door inclination on the transport plate.

Through adopting above-mentioned technical scheme, rubbish can have certain viscidity owing to long-time placing and fermentation, consequently has some rubbish to adhere on transport plate and striker plate in the transportation. When the transport plate moves to the lower surface of the transport frame, garbage adhered to the transport plate and the material baffle plate falls down due to gravity, so that the environment of a factory is dirty, and the cleaning burden of workers is increased.

Be provided with closing door and adjusting part, can cover placing the chamber opening, prevent that rubbish from dropping, improve the conveying effect and the efficiency of improvement rubbish.

When the transport plate moves to the upper surface of the transport frame, the adjusting assembly controls the closing door to be opened, so that the garbage can be conveniently transported to the placing cavity by the material homogenizing assembly.

The utility model discloses further set up to: the adjusting component comprises an installation block arranged on the transport plate, an electric cylinder arranged on the installation block, a sliding block connected on the closing door in a sliding manner, a connecting rod with one end hinged to the sliding block and a connecting rod with the other end hinged to a piston rod of the electric cylinder.

Through adopting above-mentioned technical scheme, when closing the door, electric cylinder drive piston rod upward movement to drive connecting rod one end upward movement. Because the length of the connecting rod is fixed, when one end of the connecting rod moves upwards, the connecting rod can generate a component force for the sliding block to be far away from the electric cylinder along the length direction of the sliding groove, and can generate a component force for the closing door to be close to the placing cavity, so that the closing of the closing door is realized.

The utility model discloses further set up to: the closed door is provided with the groove of sliding along its length direction, the groove of sliding is provided with the spacing groove along its length direction, be provided with on the sliding block with the stopper of spacing groove looks adaptation, be provided with the gyro wheel on the stopper, the gyro wheel with the spacing groove is slided and is connected.

By adopting the technical scheme, the sliding track of the sliding block is limited, and the running stability of the sliding block is improved. Through being provided with the gyro wheel, change sliding friction between sliding block and the groove that slides into rolling friction, reduce the frictional force between sliding block and the groove that slides, improve the operation sensitivity that sliding block slided.

The utility model discloses further set up to: the refining assembly comprises a rotating shaft, a roller and a partition plate, the rotating shaft is rotatably connected to the rack, the roller is coaxially sleeved on the rotating shaft, the partition plate is arranged on the roller along the circumferential direction of the roller, the end part of the partition plate is in contact with the end part of the material guide plate and is vertically arranged, and a containing cavity for containing garbage is formed in the surface of the roller.

Through adopting above-mentioned technical scheme, when rubbish moved the place that refining subassembly and stock guide are connected, division board and the perpendicular butt of stock guide tip, rubbish is because gravity automatic entering holds the intracavity. Because the pivot rotates, can drive the cylinder and set up the division board rotation on the cylinder to the rubbish motion that the promotion held the intracavity transports rubbish to defeated material subassembly on.

The garbage that will gather originally together falls into the rubbish that has certain degree of consistency one share for the rubbish volume that gets into the burning furnace at every turn has certain homogeneity, has realized the volume that control rubbish got into the burning furnace at every turn, guarantees that the rubbish that gets into at every turn can be by abundant burning, improves the quality of rubbish burning.

The utility model discloses further set up to: the holding cavity is internally provided with a guide plate, the guide plate is arc-shaped and is protruded towards the roller, and two ends of the guide plate are connected to one ends of two adjacent partition plates, which are far away from the roller.

Through adopting above-mentioned technical scheme, because the cylinder is the cylinder setting, the division board sets up on the cylinder along cylinder circumference. Know according to the characteristic of cylinder and division board, can be formed with towards the sunken arc of cylinder in the centre that holds the chamber, can form towards the bellied arc of cylinder in the junction of cylinder and division board to there is some rubbish card in holding the intracavity, it is comparatively troublesome to lead to the clearance of follow-up refining subassembly.

And the more the rubbish is accumulated, the smaller the capacity of the accommodating cavity is caused, the quantity of the rubbish entering the incinerator at each time is reduced, and the incineration efficiency of the incinerator is influenced.

Be provided with the deflector for lead to rubbish, improve and hold the chamber and to the effect that holds of rubbish.

The utility model discloses further set up to: and blocking plates are arranged on two sides of the roller, the width of each blocking plate is equal to that of the corresponding partition plate, and the length of the roller is equal to that of the corresponding guide plate.

Through adopting above-mentioned technical scheme for block rubbish, prevent that the adhesion from holding the rubbish of intracavity because the rotation of cylinder, producing centrifugal force, and drop from the cylinder both sides, cause the mill's environment dirty, increase workman operation burden.

Meanwhile, the contact sealing performance between the roller and the material guide plate is improved, the garbage is prevented from falling from a gap between the roller and the material guide plate, the factory environment is dirty, and the cleaning burden of workers is increased.

The utility model discloses further set up to: the frame is also provided with a feeding plate which is obliquely arranged, the lowest point of the feeding plate is positioned at the feeding hole of the incinerator, the highest point of the feeding plate is positioned below the transportation frame, and the projection of the highest point of the transportation frame is positioned on the feeding plate and is far away from the highest point of the feeding plate.

Through adopting above-mentioned technical scheme, because the stock guide level that the level set up originally sets up, the difference in height between the feed inlet between stokehold rubbish hopper and the burning furnace should not be very big promptly, consequently when setting up the stock guide that the slope set up, the inclination of stock guide should not be big, unable fine messenger rubbish is because dead weight downstream.

Through the feeding plate, the inclination angle of the material guide plate can be increased, so that the garbage can move downwards due to self weight.

When rubbish moved to the stock guide tip, rubbish entered into and holds the intracavity, divides the material and enters into after the intracavity of placing, through the conveying of chain, transports rubbish to the feed plate upper end, improves the focus of rubbish, makes things convenient for rubbish to enter into the incinerator.

The height difference between the front garbage hopper and the feeding port of the incinerator does not need to be planned and reconstructed again, the enterprise cost is reduced, and the operation of workers is facilitated.

Compared with the prior art, the utility model has the advantages that:

1. the material conveying assembly, the material homogenizing assembly and the material guide plate are arranged to control the amount of garbage entering the incinerator each time, so that the garbage combustion quality is improved, and the production cost of an enterprise is reduced;

2. the garbage can be prevented from falling down by arranging the material baffle plate and the inverted step placement cavity formed between the material baffle plate and the conveying plate, and meanwhile, the garbage can conveniently enter the placement cavity, so that the conveying effect and efficiency of the garbage can be improved;

3. by arranging the closing door and the adjusting assembly, when the opening of the placing cavity faces downwards, the opening of the placing cavity can be covered, so that the garbage is prevented from falling down, the conveying effect and efficiency of the garbage are improved, when the opening of the placing cavity faces upwards, one end, far away from the conveying plate, of the closing door can be in contact with the lowest end of the material guide plate to guide and block the garbage, the garbage in the accommodating cavity can be conveniently accommodated into the placing cavity, and the conveying effect of the garbage is improved;

4. through being provided with the feed plate and defeated material subassembly, can increase the inclination of stock guide, and need not to plan again and rebuild the difference in height between stokehold refuse hopper and the burning furnace feed inlet, reduce the cost in business, make things convenient for workman's operation.

Drawings

FIG. 1 is a schematic diagram of a prior art structure;

FIG. 2 is a schematic structural view of the present invention;

fig. 3 is a schematic sectional structure of the present invention;

FIG. 4 is an enlarged view of section A of FIG. 3, showing primarily the closed door open;

FIG. 5 is an enlarged view of the portion B of FIG. 4;

FIG. 6 is an enlarged view of section C of FIG. 3, showing primarily the closed position of the closure door;

fig. 7 is an enlarged view of a portion D of fig. 3.

Reference numerals: 100. a frame; 110. a material guide plate; 120. a feeding plate; 130. a propulsion plate; 140. a cylinder; 210. a rotating shaft; 220. a drum; 230. a partition plate; 240. a second motor; 250. an accommodating chamber; 251. a guide plate; 260. a blocking plate; 300. a material conveying component; 310. a transport rack; 320. a rotating rod; 330. a gear; 340. a chain; 341. a mounting seat; 350. a transport plate; 360. a striker plate; 361. a placement chamber; 362. closing the door; 400. an adjustment assembly; 410. mounting blocks; 420. an electric cylinder; 430. a sliding block; 440. a connecting rod; 450. a sliding groove; 451. a limiting groove; 431. a limiting block; 432. and a roller.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

Referring to fig. 2 and 3, a transporting mechanism for waste incineration power generation, which is disposed on a frame 100, includes a material guide plate 110 obliquely disposed on the frame 100, a material homogenizing assembly rotatably connected to the frame 100 and disposed above the material guide plate 110, and a material transporting assembly 300 disposed on the frame 100 for transporting waste to an incinerator. In this embodiment, the material guiding plate 110 is welded on the rack 100 and is disposed below the stokehole garbage hopper, and a projection of the stokehole garbage hopper on the material guiding plate 110 is disposed below a highest point of the material guiding plate 110.

Referring to fig. 2 and 3, the refining assembly is disposed near the lowest point of the guide plate 110, and the feeding assembly 300 is disposed below the lowest point of the guide plate 110.

Referring to fig. 2 and 3, the feeding assembly 300 includes a transportation frame 310 disposed on the rack 100 by a screw, a rotating rod 320 rotatably connected to two ends of the transportation frame 310 by a bearing, a gear 330 coaxially sleeved on two ends of the rotating rod 320, a chain 340 disposed along a length direction of the transportation frame 310 and sleeved on the gear 330 to mesh with the gear 330, and a transportation plate 350 mounted on the chain 340. The transport plates 350 are uniformly arranged along the length direction of the chain 340, and the highest point of the transport frame 310 is located above the lowest point of the guide plate 110.

Referring to fig. 2 and 3, in the present embodiment, the chains 340 are uniformly provided with the mounting seats 341 along the length direction thereof, the mounting seats 341 on the two chains 340 are correspondingly arranged, and the mounting seats 341 are fixedly mounted on the chains 340 by screws. The transport plate 350 is fixed on the mounting base 341 by screws, and the mounting base 341 is located at the middle of two side edges of the transport plate 350.

The transport frame 310 is fixedly provided with a first motor through a screw, and an output shaft of the first motor is coaxially connected with any one of the rotating shafts 210.

Referring to fig. 2 and 3, the frame 100 is further welded with a feeding plate 120 disposed obliquely, the lowest point of the feeding plate 120 is located at the feeding port of the incinerator, the highest point is located below the transportation frame 310, and the projection of the highest point of the transportation frame 310 is located on the feeding plate 120 and is disposed away from the highest point of the feeding plate 120.

Referring to fig. 2 and 3, the transportation plate 350 is welded with a material baffle plate 360 along the circumferential direction thereof, a placing cavity 361 for placing garbage is formed between the material baffle plate 360 and the transportation plate 350, and the area of one end of the placing cavity 361 far away from the placing plate is larger than the area of one end close to the placing plate.

Referring to fig. 2 and 3, a closed door 362 is hinged to the top end of the striker plate 360 on the side far away from the incinerator, the area of the upper surface of the placing cavity 361 is larger than or equal to that of the closed door 362, and an adjusting assembly 400 for controlling the inclination angle of the closed door 362 is arranged on the transport plate 350.

Referring to fig. 3 and 4, the adjusting assembly 400 includes a mounting block 410 integrally provided on the transport plate 350, a sliding block 430 screwed on the closing door 362, and a connecting rod 440 having one end hinged to the sliding block 430, an electric cylinder 420 nailed on the mounting block 410, and a connecting rod 440 slidably connected to a piston rod of the electric cylinder 420 and having the other end hinged to the electric cylinder.

Referring to fig. 4 and 5, the closing door 362 is provided with a sliding groove 450 along a length direction thereof, and the sliding block 430 is slidably coupled to the sliding groove 450. And the two side walls of the sliding groove 450, which are in contact with the sliding block 430, are provided with a limiting groove 451 along the length direction thereof, the sliding block 430 is integrally provided with a limiting block 431 matched with the limiting groove 451, and the limiting block 431 is connected with the limiting groove 451 in a sliding manner. Meanwhile, the limiting block 431 is clamped with a roller 432, the roller 432 is connected with the limiting groove 451 in a sliding mode, friction between the sliding block 430 and the sliding groove 450 is reduced, and the sliding operation sensitivity of the sliding block 430 is improved.

Referring to fig. 3 and 4, in the present embodiment, when the transport plate 350 moves to the upper surface of the transport frame 310, one end of the closing door 362 away from the transport plate 350 contacts with the lowest end of the material guiding plate 110, and the projection of the end of the closing door 362 on the previous transport plate 350 is located on the next transport plate 350, so that the garbage in the accommodating chamber 250 can be conveniently moved into the placing chamber 361, and the transportation effect of the garbage can be improved.

Referring to fig. 3 and 6, when the transporting plate 350 moves to the lower surface of the transporting frame 310, the closing door 362 abuts against the upper surface of the placing cavity 361 to cover the opening of the placing cavity 361, so that the garbage is prevented from falling down, and the transporting effect and efficiency of the garbage are improved.

Referring to fig. 2 and 7, the refining assembly includes a rotating shaft 210 rotatably coupled to the frame 100 through a bearing, a drum 220 coaxially fitted over the rotating shaft 210, and a partition plate 230 disposed on the drum 220 along a circumferential direction thereof. The frame 100 is further provided with a second motor 240 fixed by screws, and an output shaft of the second motor 240 is coaxially connected with the rotating shaft 210 to drive the rotating shaft 210 to rotate. The end of the partition plate 230 vertically abuts against the end of the guide plate 110, and the partition plate 230 and the surface of the drum 220 form a receiving chamber 250 for receiving garbage.

Referring to fig. 2 and 7, a guide plate 251 is provided at the bottom of the receiving chamber 250 in an arc shape, and the arc shape is convexly provided toward the drum 220. In this embodiment, two ends of the guide plate 251 are respectively connected to one ends of two adjacent partition plates 230 far away from the drum 220, and are welded to the partition plates 230.

Referring to fig. 2 and 7, blocking plates 260 are welded to both sides of the drum 220, the width of the blocking plates 260 is equal to the width of the partition plate 230, and the length of the drum 220 is equal to the width of the material guide plate 110 and the material feed plate 120, so as to improve the contact sealing performance between the drum 220 and the material guide plate 110 and the material feed plate 120 and improve the garbage transportation effect.

The working process is as follows:

during production, the garbage is unloaded to the stokehole garbage hopper through the bridge type grab crane, and then is discharged from the lower opening of the stokehole garbage hopper, and the garbage enters the material guide plate 110 arranged right below the stokehole garbage hopper.

Since the guide plate 110 is inclined, the garbage moves downward along the length direction of the guide plate 110 near the incinerator due to its own weight.

When the garbage moves to the position where the refining assembly is connected with the material guide plate 110, the separation plate 230 is vertically abutted against the end of the material guide plate 110, and the garbage automatically enters the accommodating cavity 250 due to gravity. Then, the rotating shaft 210 rotates to drive the drum 220 and the partition plate 230 disposed on the drum 220 to rotate, so as to push the garbage in the accommodating chamber 250 to move, thereby conveying the garbage into the placing chamber 361.

When the output shaft of the first motor drives the rotating rod 320 to rotate, the gears 330 arranged at the two ends of the rotating rod 320 rotate, so that the chain 340 meshed with the gears 330 rotates, and the other rotating rod 320 also rotates due to the transmission of the chain 340, so that the conveying plate 350 arranged on the chain 340 moves along the length direction of the chain 340, the garbage decomposed by the refining component is conveyed onto the feeding plate 120, and finally the garbage moves close to the incinerator along the length direction of the feeding plate 120, and the incinerator incinerates the garbage.

When the transport plate 350 moves to the lower surface of the transport frame 310, the electric cylinder 420 drives the piston rod to move upward, thereby moving one end of the connecting rod 440 upward. Because the length of the connecting rod 440 is fixed, when one end of the connecting rod 440 moves upwards, the connecting rod 440 generates a component force to the sliding block 430 to make the sliding block move away from the electric cylinder 420 along the length direction of the sliding groove 450, and generates a component force to the closing door 362 to make the closing door 362 approach the placing cavity 361, so that the closing door 362 is closed to cover the opening of the placing cavity 361, the garbage is prevented from falling down, and the garbage transportation effect and efficiency are improved.

When the transport plate 350 moves to the upper surface of the transport frame 310, the electric cylinder 420 drives the piston rod to move downward, thereby moving one end of the connecting rod 440 downward. Since the length of the connecting rod 440 is constant, when one end of the connecting rod 440 moves downward, the connecting rod 440 applies a component force to the sliding block 430 to move it closer to the electric cylinder 420 along the length of the sliding slot 450, and applies a component force to the closing door 362 to move it away from the placing chamber 361, thereby opening the closing door 362.

And after the closed door 362 is opened, the projection of the end of the closed door 362 on the previous transport plate 350 is positioned on the next transport plate 350, so that the garbage in the accommodating cavity 250 can conveniently enter the placing cavity 361, and the garbage transporting effect is improved. Meanwhile, when the closing door 362 moves below the material guide plate 110, the end far away from the transport plate 350 contacts with the lowest end of the material guide plate 110 to guide and block the garbage, thereby improving the garbage transport effect.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (9)

1. A transport mechanism in waste incineration power generation is arranged on a rack (100) and is characterized by comprising a material guide plate (110) obliquely arranged on the rack (100), a material homogenizing assembly rotatably connected to the rack (100) and positioned above the material guide plate (110), and a material conveying assembly (300) arranged on the rack (100) and used for conveying waste to an incinerator, wherein the material guide plate (110) is positioned below a waste hopper in front of the incinerator, the material homogenizing assembly is arranged close to the lowest point of the material guide plate (110), and the material conveying assembly (300) is positioned below the lowest point of the material guide plate (110);

defeated material subassembly (300) including the slope set up transportation frame (310) on frame (100), rotate connecting bull stick (320) at transportation frame (310) both ends, establish gear (330) at bull stick (320) both ends, set up and establish chain (340) with gear (330) engaged with on gear (330) along transportation frame (310) length direction to and install transport plate (350) on chain (340), transport plate (350) evenly set up along chain (340) length direction, just transportation frame (310) peak is located guide plate (110) minimum top.

2. The transport mechanism in waste incineration power generation as claimed in claim 1, wherein the transport plate (350) is provided with a material baffle plate (360) along the circumferential direction thereof, a placing cavity (361) for placing waste is formed between the material baffle plate (360) and the transport plate (350), and the area of one end of the placing cavity (361) far away from the placing plate is larger than the area of one end of the placing cavity close to the placing plate.

3. The transportation mechanism in the power generation by burning garbage according to claim 2, wherein the top end of the striker plate (360) far away from the incinerator is hinged with a closing door (362), the closing door (362) is larger than or equal to the upper surface area of the placing cavity (361), and the transportation plate (350) is provided with an adjusting component (400) for controlling the inclination angle of the closing door (362).

4. A transporting mechanism in power generation by incineration of refuse, as per claim 3, characterized in that said adjusting component (400) includes a mounting block (410) arranged on the transporting plate (350), an electric cylinder (420) arranged on the mounting block (410), a sliding block (430) connected on the closing door (362) in a sliding way, and a connecting rod (440) hinged on the sliding block (430) at one end and a connecting rod (440) hinged on the piston rod of the electric cylinder (420) at the other end.

5. The transportation mechanism in the waste incineration power generation as claimed in claim 4, wherein the closing door (362) is provided with a sliding groove (450) along the length direction thereof, the sliding groove (450) is provided with a limiting groove (451) along the length direction thereof, the sliding block (430) is provided with a limiting block (431) matched with the limiting groove (451), the limiting block (431) is provided with a roller (432), and the roller (432) is connected with the limiting groove (451) in a sliding manner.

6. The transportation mechanism in the waste incineration power generation of claim 3, wherein the refining assembly comprises a rotating shaft (210) rotatably connected to the frame (100), a roller (220) coaxially sleeved on the rotating shaft (210), and a partition plate (230) arranged on the rotating shaft (220) along the circumferential direction of the roller (220), the end of the partition plate (230) is in contact with the end of the material guide plate (110) and is vertically arranged, and a containing cavity (250) for containing the waste is formed on the surfaces of the partition plate (230) and the roller (220).

7. A transport mechanism in power generation by incineration of garbage, according to claim 6, characterized in that a guide plate (251) is arranged in the containing cavity (250), the guide plate (251) is arranged in an arc shape, the arc shape is convex towards the roller (220), and two ends of the guide plate (251) are connected to one end of two adjacent partition plates (230) far away from the roller (220).

8. The transportation mechanism in the waste incineration power generation as claimed in claim 6, wherein blocking plates (260) are arranged on both sides of the drum (220), the width of the blocking plates (260) is equal to that of the separation plates (230), and the length of the drum (220) is equal to that of the guide plates (110).

9. The transportation mechanism in the power generation by burning garbage as claimed in claim 1, wherein the frame (100) is further provided with a feeding plate (120) disposed obliquely, the lowest point of the feeding plate (120) is located at the feeding port of the incinerator, the highest point of the feeding plate is located below the transportation frame (310), and the projection of the highest point of the transportation frame (310) is located on the feeding plate (120) and is disposed away from the highest point of the feeding plate (120).

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