CN116534457A

CN116534457A - Special two board ash discharging valves that turn over of useless transportation of danger

Info

Publication number: CN116534457A
Application number: CN202310775845.7A
Authority: CN
Inventors: 王建军; 王春雷; 刘昕; 刘利锋; 张波; 张维银
Original assignee: Linyi Zhonglian Cement Co ltd
Current assignee: Linyi Zhonglian Cement Co ltd
Priority date: 2023-06-28
Filing date: 2023-06-28
Publication date: 2023-08-04
Anticipated expiration: 2043-06-28
Also published as: CN116534457B

Abstract

The utility model discloses a double-turning plate ash valve special for hazardous waste conveying, which relates to the technical field of hazardous waste treatment equipment and comprises a valve body; the rotating mechanism comprises a first rotating shaft, a first turning plate, a second rotating shaft, a second turning plate, an arc-shaped block and a driving assembly, wherein the first rotating shaft is rotationally connected to the top of one side in the valve body, the second rotating shaft is rotationally connected to the bottom of the other side in the valve body, and the first turning plate is fixedly connected to the first rotating shaft.

Description

Special two board ash discharging valves that turn over of useless transportation of danger

Technical Field

The utility model relates to the technical field of hazardous waste treatment equipment, in particular to a double-turning plate ash valve special for hazardous waste conveying.

Background

In the process of incineration treatment of dangerous wastes, a double-turning plate ash discharge valve is needed to finish discharging the combustion ash under the condition of keeping a sealing state. The existing double-turning plate ash discharge valve utilizes the balance of the weight of accumulated ash on a heavy hammer and a valve plate to control the dust discharge amount, when the heavy hammer falls down and recovers, the turning plate and the valve port are easy to collide, the two are easy to damage, and the tightness of the double-turning plate ash discharge valve is affected.

The utility model has been disclosed in China with the application number CN201921543173.2 and turned over the ash valve in the specialized pair of board of turning over of the dangers and waste, it sets up and realizes the independent open and shut control of two valve plates through motor, differential mechanism, interlock assembly, the interlock structure that differential mechanism and interlock assembly form of this way is comparatively complicated, is unfavorable for improving the stability of two boards of turning over long-time work.

Disclosure of Invention

The utility model provides a special double-turning plate ash valve for dangerous waste conveying, and aims to solve the problems that a linkage structure formed by a differential mechanism and a linkage assembly in the prior art is complex, and the stability of long-time working of two turning plates is not improved.

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

a kind of danger is useless to carry the specialized double flap ash valve, including:

a valve body;

the rotary mechanism comprises a first rotating shaft, a first turning plate, a second rotating shaft, a second turning plate, arc-shaped blocks and a driving assembly, wherein the first rotating shaft is rotationally connected to the top of one side in the valve body, the second rotating shaft is rotationally connected to the bottom of the other side in the valve body, the first turning plate is fixedly connected to the first rotating shaft, the second turning plate is fixedly connected to the second rotating shaft, two arc-shaped blocks are fixedly connected to the valve body, the first turning plate and the second turning plate are in one-to-one correspondence with the two arc-shaped blocks and are in sealing and rotating fit, one end of the first rotating shaft and one end of the second rotating shaft are in sealing penetration with the valve body and are connected with the driving assembly, and the driving assembly is connected to the outer side of the valve body;

the torsion assembly is arranged on the outer side of the valve body, two rotating grooves are formed in the outer side of the valve body, the first rotating shaft and the second rotating shaft penetrate through one end of the valve body in a sealing mode to extend into the two rotating grooves in a one-to-one correspondence mode, the torsion assembly is connected in the rotating grooves, and the two torsion assemblies are connected with the first rotating shaft and the second rotating shaft in a one-to-one correspondence mode.

Preferably, the first turning plate and the second turning plate are both in a horizontal state initially, wherein the bottoms of the two arc-shaped blocks are flush with the bottoms of the corresponding first turning plate and second turning plate, and the distance between the first turning plate and the second turning plate is larger than the distance between the top and the bottom of the arc-shaped blocks.

Preferably, the drive assembly comprises a drive motor, a rotating gear and a transmission belt, wherein the drive motor is arranged on the outer side of the valve body, the output end of the drive motor is fixedly connected with a first rotating shaft in a coaxial mode, the first rotating shaft and one end, extending out of the rotating groove, of a second rotating shaft are fixedly connected with the rotating gear in a coaxial mode, and the two rotating gears are sleeved with the same transmission belt.

Preferably, the torsion subassembly includes adjusting ring, torsional spring and piezoelectric sensor, the adjusting ring joint is in the rotation groove, two equal fixedly connected with torsional spring between adjusting ring and first pivot and the second pivot, install piezoelectric sensor on the torsional spring, piezoelectric sensor and driving motor electric connection.

Preferably, the adjusting ring periphery side fixedly connected with a plurality of spacing, a plurality of spacing grooves have been seted up to the rotation groove inner periphery side, and is a plurality of spacing is in circular array distribution on the adjusting ring with the adjusting ring centre of a circle as the centre of a circle, a plurality of spacing and a plurality of spacing groove one-to-one joint cooperation.

Preferably, the first board that turns over with the second turns over the board internal connection has spacing subassembly, spacing subassembly includes sliding block, reset spring, first magnet, second magnet and dog, first board that turns over with the second turns over and all has seted up the sliding chamber in being close to arc piece one end, sliding connection has the sliding block in the sliding chamber, fixedly connected with reset spring between sliding block and the sliding chamber, the sliding block is embedded to have first magnet, the embedded second magnet that has of arc piece bottom, first magnet is relative with second magnet synonym magnetic pole, arc piece top fixedly connected with dog, arc piece one side extension is kept away from to the dog is inside the valve body.

Preferably, the top and the bottom of the sliding block are both rotationally connected with a shifting block, supporting springs are fixedly connected between the two sides of the shifting block and the sliding block, a plurality of shifting grooves are formed in the top and the bottom of the sliding cavity, and the shifting block is in clearance fit with the shifting grooves.

Preferably, the first magnet adopts a permanent magnet, the second magnet adopts an electromagnet, and a copper plate is fixedly connected in the stop block.

Compared with the prior art, the utility model has the following beneficial effects:

according to the utility model, the rotating mechanism is arranged, the first turning plate and the second turning plate are linked together through the transmission belt, the rotating gear, the first rotating shaft and the second rotating shaft, and the arc-shaped blocks are matched, so that when the first turning plate rotates downwards to be separated from contact with the corresponding arc-shaped blocks, the second turning plate rotates upwards to still keep sealing contact with the corresponding arc-shaped blocks, and the aim of transferring ashes from the first turning plate to the second turning plate under the condition of keeping the sealing state of the valve body is fulfilled; when the second turning plate rotates downwards to separate from the contact of the corresponding arc blocks, the first turning plate rotates upwards to keep the sealing contact of the corresponding arc blocks, the aim that ash is transferred from the second turning plate to the bottom of the valve body under the sealing state of the valve body is fulfilled, the ash discharging operation under the sealing state of the valve body is fulfilled, the cost is saved compared with the prior art in which two groups of driving mechanisms are adopted to control the two turning plates to work, and the method is simpler and more stable compared with the method in which a driving motor, a differential mechanism and a linkage assembly are adopted.

2. According to the utility model, the limit assembly is arranged, the magnetic attraction effect of the second magnet on the first magnet is utilized to form a magnetic locking effect on the first turning plate and the second turning plate, so that the stability of the first turning plate and the second turning plate when bearing ash is improved, meanwhile, when the first turning plate and the second turning plate rotate, the first magnet is separated from the second magnet, the sliding block reciprocates in the sliding cavity under the elastic force of the reset spring, and the shifting block and the shifting groove are matched to form a vibration effect on the first turning plate and the second turning plate, so that the ash is effectively prevented from being detained on the turning plate, and the ash discharging efficiency is improved; meanwhile, the first magnet is matched with the copper plate in the stop block, and when the turning plate rotates to be close to the stop block, a rapid buffering effect is formed on the turning plate, so that the turning plate and the stop block are effectively prevented from being impacted.

Drawings

FIG. 1 is a schematic view of the internal structure of a valve body according to the present utility model;

FIG. 2 is an enlarged schematic view of portion A of FIG. 1;

FIG. 3 is a schematic rear view of the valve body of the present utility model;

FIG. 4 is an enlarged schematic view of portion B of FIG. 3;

FIG. 5 is a schematic view showing the ash transfer from the first flap to the second flap;

fig. 6 is a schematic view showing the ash transfer from the second turning plate to the bottom of the valve body.

In the figure: the valve comprises a valve body 1, a first rotating shaft 2, a first turning plate 3, a second rotating shaft 4, a second turning plate 5, an arc-shaped block 6, a driving motor 7, a rotating gear 8, a driving belt 9, a rotating groove 10, an adjusting ring 11, a limiting strip 12, a limiting groove 13, a torsion spring 14, a piezoelectric sensor 15, a sliding cavity 16, a sliding block 17, a return spring 18, a first magnet 19, a second magnet 20, a stop block 21, a shifting block 22, a supporting spring 23, a shifting groove 24 and a copper plate 25.

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. 1-4, a dual flap ash valve dedicated for hazardous waste transport, comprising:

the valve body 1, the top of the valve body 1 communicates with the bottom of the device that burns to produce ashes, and the bottom of the valve body 1 communicates with the ash collecting device.

The rotary mechanism comprises a first rotary shaft 2, a first turning plate 3, a second rotary shaft 4, a second turning plate 5, arc-shaped blocks 6 and a driving assembly, wherein the first rotary shaft 2 is rotationally connected to the top of one side in the valve body 1, the second rotary shaft 4 is rotationally connected to the bottom of the other side in the valve body 1, the first turning plate 3 is fixedly connected to the first rotary shaft 2, the second turning plate 5 is fixedly connected to the second rotary shaft 4, two arc-shaped blocks 6 are fixedly connected to the valve body 1, the first turning plate 3 and the second turning plate 5 are in one-to-one correspondence with the two arc-shaped blocks 6 and are in sealing and rotating fit, one ends of the first rotary shaft 2 and the second rotary shaft 4 are in sealing penetration with the valve body 1 and are connected with the driving assembly, and the driving assembly is connected to the outer side of the valve body 1; the driving assembly comprises a driving motor 7, a rotating gear 8 and a driving belt 9, wherein the driving motor 7 is arranged on the outer side of the valve body 1, the output end of the driving motor 7 is fixedly connected with the first rotating shaft 2 coaxially, one end of the first rotating shaft 2 and one end of the second rotating shaft 4, which extends out of the rotating groove 10, are fixedly connected with the rotating gear 8 coaxially, the two rotating gears 8 are sleeved with the same driving belt 9, the first turning plate 3 and the second turning plate 5 are linked together through the driving belt 9, the arc-shaped block 6 is matched, when the first turning plate 3 and the second turning plate 5 rotate simultaneously, one of the arc-shaped blocks and the valve body 1 generate a gap, the other of the arc-shaped blocks and the valve body 1 are kept sealed, and the discharging operation in the sealing state of the valve body 1 is completed.

The torsion subassembly, the valve body 1 outside is provided with two and rotates groove 10, and first pivot 2 and second pivot 4 seal run through valve body 1 one end one-to-one and stretch into two and rotate inslot 10, and torsion subassembly connects in rotating groove 10, and two torsion subassemblies one-to-one are connected with first pivot 2 and second pivot 4.

The first turning plate 3 and the second turning plate 5 are both in a horizontal state initially, wherein the bottoms of the two arc-shaped blocks 6 are flush with the bottoms of the corresponding first turning plate 3 and second turning plate 5, the distance between the first turning plate 3 and the second turning plate 5 is larger than the distance between the top and the bottom of the arc-shaped blocks 6, and interference is avoided when the first turning plate 3 and the second turning plate 5 rotate.

The torsion subassembly includes adjusting ring 11, torsional spring 14 and piezoelectric sensor 15, adjusting ring 11 joint is in rotating groove 10, equal fixedly connected with torsional spring 14 between two adjusting rings 11 and first pivot 2 and the second pivot 4, install piezoelectric sensor 15 on the torsional spring 14, piezoelectric sensor 15 and driving motor 7 electric connection, piezoelectric sensor 15 adopts prior art for detect torsional spring 14's deformation and produce corresponding piezoelectric signal, piezoelectric sensor 15 and driving motor 7 all with controller electric connection, the controller is installed on valve body 1, the controller is used for receiving piezoelectric sensor 15's piezoelectric signal, and control driving motor 7's operating condition.

The regulating ring 11 periphery side fixedly connected with a plurality of spacing 12, a plurality of spacing 13 have been seted up to the rotation groove 10 inner periphery side, a plurality of spacing 12 are in circular array distribution on regulating ring 11 with regulating ring 11 centre of a circle as the centre of a circle, a plurality of spacing 12 and a plurality of spacing 13 one-to-one joint cooperation, take out the regulating ring 11 and rotate the groove 10, rotate regulating ring 11, make corresponding spacing 12 insert in the rotation groove 10 along with regulating ring 11 rotation back corresponding to spacing 13 again, thereby can change the relative rotation position of regulating ring 11 and first pivot 2 or second pivot 4, and then change torsional spring 14's initial elasticity, conveniently cooperate piezoelectric sensor 15 to form different supports and detection effect to first board 3 and second board 5, so as to form periodic treatment effect to the ashes of different weights.

The first turning plate 3 and the second turning plate 5 are internally connected with a limiting component, the limiting component comprises a sliding block 17, a reset spring 18, a first magnet 19, a second magnet 20 and a stop block 21, the sliding cavities 16 are formed in one ends, close to the arc-shaped blocks 6, of the first turning plate 3 and the second turning plate 5, the sliding blocks 17 are connected in a sliding mode in the sliding cavities 16, the reset spring 18 is fixedly connected between the sliding blocks 17 and the sliding cavities 16, the first magnet 19 is embedded in the sliding blocks 17, the second magnet 20 is embedded in the bottom of the arc-shaped blocks 6, the first magnet 19 is opposite to the second magnet 20 in different-name magnetic poles, the stop block 21 is fixedly connected to the top of the arc-shaped blocks 6, one side, far away from the arc-shaped blocks 6, of the stop block 21 extends to the inside of the valve body 1, the second magnet 20 forms a magnetic attraction effect on the first magnet 19, forms a magnetic locking effect on the first turning plate 3 and the second turning plate 5, and stability of the first turning plate 3 and the second turning plate 5 when bearing ash is improved.

The top and the bottom of the sliding block 17 are all rotationally connected with a shifting block 22, a supporting spring 23 is fixedly connected between two sides of the shifting block 22 and the sliding block 17, a plurality of shifting grooves 24 are formed in the top and the bottom of the sliding cavity 16, the shifting block 22 is in clearance fit with the shifting grooves 24, and when the sliding block 17 reciprocates under the action of the elastic force of the reset spring 18, the shifting block 22 continuously compresses the supporting springs 23 on two sides and impacts the clearance between the adjacent shifting grooves 24, so that a turning plate generates a vibration effect, and the discharging efficiency is improved.

The first magnet 19 adopts a permanent magnet, the second magnet 20 adopts an electromagnet, the electromagnet is electrically connected with a controller, and the controller controls the on-off of the electromagnet, so that a vibration effect is formed on a non-rotating turning plate, the stacking height of ash on the turning plate is reduced, and the volume of the valve body 1 is conveniently reduced under the condition of maintaining the ash treatment effect; the copper plate 25 is fixedly connected in the baffle block 21, and when the first magnet 19 rotates along with the turning plate to be close to the copper plate 25, the first magnet 19 receives resistance under the electromagnetic induction action, so that the turning plate and the baffle block 21 are effectively prevented from being impacted, and the turning plate and the baffle block 21 are protected.

Referring to fig. 5, when the ash is deposited on the first turning plate 3 to a certain weight, the elastic force of the torsion spring 14 and the magnetic attraction of the second magnet 20 to the first magnet 19 are overcome, the first turning plate 3 is driven to slightly rotate downwards, the piezoelectric sensor 15 corresponding to the first turning plate 3 detects the deformation of the torsion spring 14 and sends a piezoelectric signal to the driving motor 7, the driving motor 7 works, the output end drives the first rotating shaft 2 to rotate, and drives the second rotating shaft 4 to rotate through the driving belt 9 and the rotating gear 8, so that the ash on the first turning plate 3 downwards rotates to be separated from the contact with the corresponding arc block 6, the ash on the first turning plate 3 downwards falls from the gap between the first turning plate 3 and the valve body 1, meanwhile, the second turning plate 5 upwards rotates to keep the contact with the corresponding arc block 6, the sealing property of the valve body 1 is kept through the second turning plate 5 and the arc block 6, the ash falls on the second turning plate 5, and the purpose that the ash is transferred from the first turning plate 3 to the second turning plate 5 under the sealing state of the valve body 1 is completed;

referring to fig. 1 and 6, after ash transfer is completed, the output end of the driving motor 7 reversely rotates to restore an initial state and continues reversely rotating, at the moment, the second turning plate 5 firstly rotates downwards to restore the initial state and then continues to rotate downwards to separate from the corresponding arc-shaped block 6, so that ash falls from the gap between the second turning plate 5 and the valve body 1, the first turning plate 3 firstly rotates upwards to restore sealing contact with the corresponding arc-shaped block 6, and then continues to rotate upwards to maintain sealing contact with the corresponding arc-shaped block 6, and the sealing effect on the valve body 1 is maintained when the second turning plate 5 dumps ash;

after the ash is poured, the output end of the driving motor 7 rotates forward to restore to an initial state, so that the next ash removing operation is convenient.

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 person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims

1. The utility model provides a special two board ash valves that turn over of dangerously useless transport which characterized in that includes:

a valve body (1);

the rotary mechanism comprises a first rotating shaft (2), a first turning plate (3), a second rotating shaft (4), a second turning plate (5), arc blocks (6) and a driving assembly, wherein the first rotating shaft (2) is rotationally connected to the top of one side in the valve body (1), the second rotating shaft (4) is rotationally connected to the bottom of the other side in the valve body (1), the first turning plate (3) is fixedly connected to the first rotating shaft (2), the second turning plate (5) is fixedly connected to the second rotating shaft (4), two arc blocks (6) are fixedly connected to the valve body (1), the first turning plate (3) and the second turning plate (5) are in one-to-one and sealed rotation fit with the two arc blocks (6), one end of the first rotating shaft (2) and one end of the second rotating shaft (4) are sealed to penetrate through the valve body (1) and are connected with the driving assembly, and the driving assembly is connected to the outer side of the valve body (1);

the torsion assembly is arranged on the outer side of the valve body (1), two rotating grooves (10) are formed in the outer side of the valve body (1), the first rotating shaft (2) and the second rotating shaft (4) penetrate through one end of the valve body (1) in a sealing mode and extend into the two rotating grooves (10) in a one-to-one mode, the torsion assembly is connected in the rotating grooves (10), and the two torsion assemblies are connected with the first rotating shaft (2) and the second rotating shaft (4) in a one-to-one mode.

2. The dual flap ash valve for hazardous waste transport of claim 1, wherein:

the first turning plate (3) and the second turning plate (5) are in a horizontal state initially, wherein the bottoms of the two arc-shaped blocks (6) are flush with the bottoms of the corresponding first turning plate (3) and second turning plate (5), and the distance between the first turning plate (3) and the second turning plate (5) is larger than the distance between the tops and the bottoms of the arc-shaped blocks (6).

3. The dual flap ash valve for hazardous waste transport of claim 1, wherein:

the driving assembly comprises a driving motor (7), a rotating gear (8) and a transmission belt (9), wherein the driving motor (7) is arranged on the outer side of the valve body (1), the output end of the driving motor (7) is fixedly connected with the first rotating shaft (2) coaxially, the first rotating shaft (2) and one end of the second rotating shaft (4) extending out of the rotating groove (10) are fixedly connected with the rotating gear (8) coaxially, and the same transmission belt (9) is sleeved on the rotating gear (8).

4. The dual flap ash valve for hazardous waste transport of claim 1, wherein:

the torsion assembly comprises an adjusting ring (11), torsion springs (14) and piezoelectric sensors (15), wherein the adjusting ring (11) is clamped in a rotating groove (10), the torsion springs (14) are fixedly connected between the adjusting ring (11) and the first rotating shaft (2) and between the adjusting ring and the second rotating shaft (4), the piezoelectric sensors (15) are arranged on the torsion springs (14), and the piezoelectric sensors (15) are electrically connected with a driving motor (7).

5. The dual flap ash valve for hazardous waste transport of claim 4, wherein:

the adjusting ring (11) is fixedly connected with a plurality of limiting strips (12) on the outer periphery side, a plurality of limiting grooves (13) are formed in the inner periphery side of the rotating groove (10), the limiting strips (12) are distributed on the adjusting ring (11) in a circular array by taking the circle center of the adjusting ring (11) as the circle center, and the limiting strips (12) are matched with the limiting grooves (13) in a one-to-one correspondence clamping mode.

6. The dual flap ash valve for hazardous waste transport of claim 1, wherein:

the utility model discloses a valve body, including first board (3) and second board (5) are turned over, first board (3) with second board (5) are connected with spacing subassembly, spacing subassembly includes sliding block (17), reset spring (18), first magnet (19), second magnet (20) and dog (21), first board (3) with sliding chamber (16) have all been seted up in second board (5) are close to arc piece (6) one end, sliding chamber (16) sliding connection has sliding block (17), fixedly connected with reset spring (18) between sliding block (17) and sliding chamber (16), sliding block (17) are embedded to have first magnet (19), arc piece (6) bottom are embedded to have second magnet (20), first magnet (19) are opposite with second magnet (20) different name magnetic pole, arc piece (6) top fixedly connected with dog (21), arc piece (6) are kept away from one side extension of valve body (21) to inside (1).

7. The dual flap ash valve for hazardous waste transport of claim 6, wherein:

the top and the bottom of sliding block (17) are all rotated and are connected with plectrum (22), fixedly connected with supporting spring (23) between plectrum (22) both sides and sliding block (17), a plurality of plectrum grooves (24) have all been seted up to top and bottom in sliding chamber (16), plectrum (22) and plectrum groove (24) clearance fit.

8. The dual flap ash valve for hazardous waste transport of claim 6, wherein:

the first magnet (19) adopts a permanent magnet, the second magnet (20) adopts an electromagnet, and a copper plate (25) is fixedly connected in the stop block (21).