CN117049217B - Continuous conveyor for denitration processing - Google Patents

Abstract

The invention provides a continuous conveyor for denitration processing, which relates to the technical field of conveying devices and comprises the following components: a case; the box body is provided with a conveying part; two fixing seats for installing the box are arranged on the box, and a collecting hopper for collecting the separated denitration agent after conveying is arranged in the box. Because of being provided with the heating pipe in the collection seat, can realize the quick drying of likepowder denitration agent then, the collection seat continues to remove left this moment, collection seat left side one end downward sloping when the connecting rod on the collection seat removes orbital crooked position, because of the right side position of collecting the fill in the collection seat this moment, the likepowder denitration agent in the collection seat can carry to the collection fill in, finally, the transport has been accomplished, the easy damp of likepowder denitration agent when depositing has been solved at present, and then the caking easily, direct transport to processing equipment this moment is bound to influence the performance of its effect, and then the problem of denitration quality has been influenced.

Description

Continuous conveyor for denitration processing

Technical Field

The invention relates to the technical field of conveying devices, in particular to a continuous conveyor for denitration processing.

Background

The powdered denitration agent is required to be used in the denitration processing process, the powdered denitration agent is required to be conveyed to processing equipment in the processing process, but the powdered denitration agent is easy to wet when being stored at present, and then is easy to agglomerate, and the effect of the powdered denitration agent is affected by the fact that the powdered denitration agent is directly conveyed to the processing equipment, and the denitration quality is affected.

Disclosure of Invention

In view of the above, the invention provides a continuous conveyor for denitration processing, which solves the problems that the existing powdery denitration agent is easy to wet during storage and then easy to agglomerate, and the effect of the powdery denitration agent is affected by direct conveying to processing equipment, so that the denitration quality is affected.

The purpose and the efficacy of the continuous conveyor for denitration processing are achieved by the following specific technical means:

the invention provides a continuous conveyor for denitration processing, which specifically comprises the following components: a case;

the box body is provided with a conveying part; two fixing seats for installing the box are arranged on the box, and a collecting hopper for collecting the separated denitration agent after conveying is arranged in the box.

Preferably, the conveying part comprises a conveying box, rollers, first bulges, friction wheels and conveying pipes, the conveying box is fixed on the box body, the rollers are rotatably arranged on the conveying box in a linear array shape, the outer wall of each roller is welded with the first bulges in an annular array shape, and the first bulges are of a conical structure.

Preferably, each roller is provided with a gear, and friction wheels on two adjacent rollers are meshed with each other.

Preferably, a first screening part is arranged in the conveying box;

the first screening part comprises a first base, a first spring rod, a first screen seat and a second bulge, wherein the first base comprises two rectangular rods, four first spring rods are welded on the first base, one ends above the four first spring rods are fixed with the bottom of the first screen seat, the first screen seat is of a back-shaped structure, an iron screen is fixed on the first screen seat, and the first screen seat is positioned below the rolling shaft.

Preferably, the conveying box is provided with a crushing part;

the crushing part consists of a motor, a threaded rod, a wooden mounting seat and cleaning teeth, wherein the motor is fixed on the right end face of the conveying box, and the threaded rod is arranged on a rotating shaft of the motor;

the threaded rod is in threaded connection with a wooden installation seat, cleaning teeth are arranged on the bottom end surface of the wooden installation seat in a linear array manner, and the cleaning teeth are in contact with the iron net on the first screen seat; the top end face of the wooden mounting seat is contacted with the bottom end face of the outer wall of the friction wheel.

Preferably, the top end of the first screen seat is welded with a second bulge in a rectangular array shape, the second bulge is in a semi-cylindrical structure, a continuous elastic contact state is formed between the second bulge and the cleaning teeth when the cleaning teeth move, when the powdery denitration agent is required to be conveyed, the powdery denitration agent is firstly conveyed to the roller, the denitration agent collides with the roller and the first bulge at the moment, the caking in the powdery denitration agent can be initially crushed, then the motor is controlled to rotate in the forward direction and the reverse direction, when the motor rotates in the forward direction and the reverse direction, the wooden mounting seat and the cleaning teeth are in a left-right reciprocating motion state under the driving of the threaded rod, and when the cleaning teeth reciprocate, the caking in the powdery denitration agent can be crushed again through the cleaning teeth;

meanwhile, when the cleaning teeth move, the cleaning teeth are in continuous elastic contact with the second protrusions, the first screen seat is in a continuous vibration state, and crushing and screening efficiency of the powdery denitration agent can be improved;

meanwhile, because the top end surface of the wooden mounting seat is in contact with the bottom end surface of the outer wall of the friction wheel, when the wooden mounting seat moves left and right, the friction wheel and the rolling shaft are in a reciprocating rotation state under the friction action of the wooden mounting seat, and when the rolling shaft rotates in a reciprocating manner, the powdery denitration agent can be crushed again through the first bulge.

Preferably, a second screening portion is installed in the case;

the second screening part comprises funnel, second pedestal, second spring beam, second screen cloth seat, apron, pivot, delivery plate and through-hole, and the funnel is fixed on the box, and the funnel internal fixation has the second pedestal, and two second spring beams are installed to second pedestal top face, and two second spring beam top one ends all are fixed with second screen cloth seat bottom face, installs the iron mesh on the second screen cloth seat.

Preferably, a cover plate is arranged on the funnel;

the rotating shaft is rotationally connected to the box body through the connecting plate, the conveying plate is welded on the rotating shaft and is of a circular plate-shaped structure, a through hole is formed in the conveying plate, and the through hole is of a circular hole-shaped structure.

Preferably, the conveyer pipe has been welded to conveyer box below one end, and the conveyer pipe is circular tubular structure, conveyer pipe below one end and conveyer plate top face contact, and conveyer pipe internal diameter equals with the through-hole external diameter, and the conveyer plate is following rotation state when the pivot reciprocal rotation, and the conveyer plate is reciprocal rotation state this moment, and when the conveyer plate reciprocal rotation, the through-hole is intermittent type with the conveyer pipe and aligns the state this moment, and the powdered additive in the conveyer box can intermittent type formula enter into in the funnel this moment, enters into in the funnel powdered additive at first and the contact of second screen cloth seat realize preliminary screening, then carries downwards through the funnel.

Preferably, the drying part is arranged on the box body;

the drying part comprises electric cylinder, connector, collection seat, connecting rod, track and installation arm, and electric cylinder is fixed at the box inner wall right-hand member face, and the welding of the end that stretches out of box has a connector, rotates on the connector to be connected with and collects the seat.

Preferably, a track is fixed on the box body;

two connecting rods are welded on the collecting seat and are connected in the track in a sliding manner, and the middle part of the track is inclined;

the collecting seat is of a rectangular box-shaped structure, a heating pipe is arranged in the collecting seat, a gap exists between the bottom end face of the inner wall of the collecting seat and one end below the funnel, the height of the gap is 1cm, and the collecting seat is located at the right side of the collecting hopper.

Preferably, a mounting arm is welded on the connecting head, a tooth row is fixed on the mounting arm and meshed with a gear arranged at one end below the rotating shaft, when the powdery denitration agent is required to be conveyed, the electric cylinder is controlled to reciprocate and stretch, when the electric cylinder reciprocates and stretches, the collecting seat is in a left-right reciprocating motion state, at the moment, a gap is reserved between the bottom end surface of the inner wall of the collecting seat and one end below the funnel, the height of the gap is 1cm, the collecting seat is positioned at the right side of the collecting hopper, when the collecting seat moves leftwards, the screened powdery denitration agent in the funnel is flatly paved in the collecting seat, at the moment, the rapid drying of the powdery denitration agent can be realized due to the heating pipe arranged in the collecting seat, at the moment, the collecting seat continues to move leftwards, and when the connecting rod on the collecting seat moves to the bending position of the track, the left side end of the collecting seat inclines downwards, at the moment, the powdery denitration agent in the collecting seat can be conveyed into the collecting hopper due to the right side of the collecting hopper, and finally conveying is completed;

meanwhile, because the gear on the mounting arm is meshed with the gear mounted at one end below the rotating shaft, when the electric cylinder moves left and right, the powdery denitration agent in the conveying box can intermittently enter the hopper through the through hole, and at the moment, the continuous conveying of the powdery denitration agent is realized, and the powdery denitration agent is ensured to be paved on the collecting seat for heating and drying in the leftward moving process.

The beneficial effects are that:

the device comprises a conveying part, a first screening part and a crushing part, wherein the conveying part, the first screening part and the crushing part are arranged, firstly, when powdery denitration agents are required to be conveyed, the powdery denitration agents are firstly conveyed to a roller, the denitration agents collide with the roller and a first bulge, caking in the powdery denitration agents can be primarily crushed at the moment, then a motor is controlled to rotate forwards and reversely, when the motor rotates forwards and reversely, a wooden mounting seat and cleaning teeth are driven by a threaded rod to be in a left-right reciprocating motion state, and when the cleaning teeth reciprocate, caking in the powdery denitration agents can be crushed again through the cleaning teeth; secondly, when the cleaning teeth move, the cleaning teeth are in continuous elastic contact with the second protrusions, the first screen seat is in a continuous vibration state, and crushing and screening efficiency of the powdery denitration agent can be improved; thirdly, because the top end surface of the wooden mounting seat is contacted with the bottom end surface of the outer wall of the friction wheel, when the wooden mounting seat moves left and right, the friction wheel and the rolling shaft are in a reciprocating rotation state under the friction action of the wooden mounting seat, when the rolling shaft rotates in a reciprocating manner, the powdery denitration agent can be crushed again through the first bulge, multiple crushing and vibration screening of the powdery denitration agent caking can be realized in the conveying process, and the conveying quality of the powdery denitration agent is ensured.

The device comprises a first screening part, a second screening part, a drying part, a first screen seat, a second screen seat, a conveying plate and a through hole, wherein the second screen part and the drying part are arranged; secondly, because the bottom end surface of the conveying plate is welded with spherical bulges in an annular array shape, the spherical bulges are elastically contacted with the stress rod, and when the conveying plate rotates, the second screen seat is in a continuous vibration state under the extrusion of the spherical bulges, so that the screening effect is improved; thirdly, when the powdery denitration agent is required to be conveyed, controlling the electric cylinder to reciprocate, when the electric cylinder reciprocates and stretches, the collecting seat is in a left-right reciprocating motion state, at the moment, a gap exists between the bottom end face of the inner wall of the collecting seat and one end below the funnel, the height of the gap is 1cm, the collecting seat is positioned at the right side of the collecting bucket, when the collecting seat moves leftwards, the screened powdery denitration agent in the funnel can be paved in the collecting seat, at the moment, the heating pipe is arranged in the collecting seat, rapid drying of the powdery denitration agent can be realized, at the moment, the collecting seat continues to move leftwards, and when the connecting rod on the collecting seat moves to the bending position of the track, one end of the left side of the collecting seat is inclined downwards, at the moment, the powdery denitration agent in the collecting seat can be conveyed into the collecting bucket due to the right side of the collecting seat, and finally conveying is completed; fourth, because of the gear engagement of tooth row and pivot below one end installation on the installation arm, then when electronic jar left and right sides removes, the likepowder denitration agent in the conveyer box can enter into the funnel through the through-hole department intermittent type formula, the continuous transport of likepowder denitration agent has been realized this moment, guaranteed that likepowder denitration agent can be through the tiling in the in-process that removes left on the collection seat heating and drying, can realize the tiling of likepowder denitration agent in the transportation process, can improve the heating and drying of likepowder denitration agent through the tiling after, and can realize vibrations screening once more, guaranteed that likepowder denitration agent carries to the collection in the bucket and have not agglomerated, and be in dry state.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

fig. 1 is an isometric view of a schematic structure of a continuous conveyor for denitration processing according to the present invention.

Fig. 2 is a schematic view of an axial structure of a continuous conveyor for denitration processing according to the present invention, partially cut away.

Fig. 3 is a schematic diagram of the front view of fig. 2 according to the present invention.

Fig. 4 is an enlarged schematic view of the structure of fig. 3 at a in accordance with the present invention.

Fig. 5 is a schematic view of the conveying section, the first screening section and the crushing section of the present invention in a front view, in section.

Fig. 6 is an enlarged schematic view of the structure of fig. 5B according to the present invention.

Fig. 7 is a schematic diagram of an isometric view of a dryer section of the present invention.

Fig. 8 is a schematic front view of the funnel and collection seat of the present invention.

Fig. 9 is an enlarged schematic view of the structure of fig. 8 at C according to the present invention.

Fig. 10 is an isometric view of a portion of a second screening portion of the present invention.

List of reference numerals:

1. a case; 101. a fixing seat; 102. a collection bucket; 2. a conveying section; 201. a delivery box; 202. a roller; 203. a first protrusion; 204. a friction wheel; 205. a delivery tube; 3. a first screening section; 301. a first base; 302. a first spring lever; 303. a first screen seat; 304. a second protrusion; 4. a crushing section; 401. a motor; 402. a threaded rod; 403. a wooden mounting base; 404. cleaning teeth; 5. a second screening section; 501. a funnel; 502. a second seat body; 503. a second spring rod; 504. a second screen seat; 505. a cover plate; 506. a rotating shaft; 507. a conveying plate; 508. a through hole; 509. a force-bearing rod; 510. spherical protrusions; 6. a drying section; 601. an electric cylinder; 602. a connector; 603. a collection seat; 604. a connecting rod; 605. a track; 606. and (5) mounting the arm.

Detailed Description

In order to make the objects, aspects and advantages of the technical solution of the present invention more clear, the technical solution of the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings of the specific embodiment of the present invention. Unless otherwise indicated, terms used herein have the meaning common in the art. Like reference numerals in the drawings denote like parts.

Embodiment one:

please refer to fig. 1 to 10:

the invention proposes a continuous conveyor for denitration processing, comprising: a case 1;

the box body 1 is provided with a conveying part 2; two fixing seats 101 for installing the box body 1 are arranged on the box body 1, and a collecting hopper 102 for collecting the separated denitration agent after conveying is arranged in the box body 1.

Wherein, conveying part 2 comprises delivery casing 201, roller 202, first protruding 203, friction wheel 204 and conveyer pipe 205, and delivery casing 201 is fixed on box 1, rotates in linear array form on the delivery casing 201 and installs roller 202, all is annular array form welding on the outer wall of every roller 202 and has first protruding 203, and first protruding 203 is the toper structure.

Wherein, a gear is arranged on each roller 202, and friction wheels 204 on two adjacent rollers 202 are meshed with each other.

Wherein the first screening portion 3 is installed in the transport box 201;

the first screening part 3 is composed of a first base 301, a first spring rod 302, a first screen seat 303 and a second protrusion 304, wherein the first base 301 is composed of two rectangular rods, four first spring rods 302 are welded on the first base 301, one ends above the four first spring rods 302 are fixed with the bottom of the first screen seat 303, the first screen seat 303 is of a zigzag structure, an iron screen is fixed on the first screen seat 303, and the first screen seat 303 is located below the rolling shaft 202.

Wherein the crushing section 4 is mounted on the transport box 201;

the crushing part 4 consists of a motor 401, a threaded rod 402, a wooden mounting seat 403 and cleaning teeth 404, wherein the motor 401 is fixed on the right end face of the conveying box 201, and the threaded rod 402 is arranged on the rotating shaft of the motor 401;

the threaded rod 402 is in threaded connection with a wooden mounting seat 403, cleaning teeth 404 are arranged on the bottom end surface of the wooden mounting seat 403 in a linear array, and the cleaning teeth 404 are in contact with the iron net on the first screen seat 303; the top end surface of the wooden mounting seat 403 is contacted with the bottom end surface of the outer wall of the friction wheel 204.

The top end of the first screen seat 303 is welded with a second protrusion 304 in a rectangular array shape, the second protrusion 304 is in a semi-cylindrical structure, a cleaning tooth 404 is in continuous elastic contact with the second protrusion 304 when moving, when the powdery denitration agent needs to be conveyed, the powdery denitration agent is firstly conveyed to the roller 202, the denitration agent collides with the roller 202 and the first protrusion 203 at the moment, the caking in the powdery denitration agent can be primarily crushed at the moment, then the motor 401 is controlled to rotate in the forward direction and the reverse direction, when the motor 401 rotates in the forward direction and the reverse direction, the wooden mounting seat 403 and the cleaning tooth 404 are in a left-right reciprocating motion state under the driving of the threaded rod 402, and when the cleaning tooth 404 reciprocates, the caking in the powdery denitration agent can be crushed again through the cleaning tooth 404;

meanwhile, when the cleaning teeth 404 move, the cleaning teeth are in continuous elastic contact with the second protrusions 304, and the first screen seat 303 is in a continuous vibration state, so that the crushing and screening efficiency of the powdery denitration agent can be improved;

meanwhile, because the top end surface of the wooden mounting seat 403 contacts with the bottom end surface of the outer wall of the friction wheel 204, when the wooden mounting seat 403 moves left and right, the friction wheel 204 and the roller 202 are in a reciprocating rotation state under the friction action of the wooden mounting seat 403, and when the roller 202 rotates reciprocally, the powdery denitration agent can be crushed again through the first protrusion 203.

Embodiment two:

on the basis of the first embodiment, as shown in fig. 2, the method further includes: a second screening section 5; a second screening part 5 is arranged in the box body 1;

the second screening part 5 comprises a funnel 501, a second base 502, second spring rods 503, a second screen seat 504, a cover plate 505, a rotating shaft 506, a conveying plate 507, a through hole 508, a stress rod 509 and a spherical bulge 510, wherein the funnel 501 is fixed on the box 1, the second base 502 is fixed in the funnel 501, two second spring rods 503 are arranged on the top end surface of the second base 502, one end above the two second spring rods 503 is fixed with the bottom end surface of the second screen seat 504, and an iron net is arranged on the second screen seat 504.

Wherein, a cover plate 505 is arranged on the funnel 501;

the rotating shaft 506 is rotatably connected to the box body 1 through a connecting plate, the rotating shaft 506 is welded with a conveying plate 507, the conveying plate 507 is of a circular plate-shaped structure, a through hole 508 is formed in the conveying plate 507, and the through hole 508 is of a circular hole-shaped structure.

Wherein, a conveying pipe 205 is welded at one end below the conveying box 201, the conveying pipe 205 is in a circular tubular structure, one end below the conveying pipe 205 is in contact with the top end surface of a conveying plate 507, the inner diameter of the conveying pipe 205 is equal to the outer diameter of a through hole 508, a stress rod 509 is welded on a second screen seat 504, the bottom end of the conveying plate 507 is welded with a spherical bulge 510 in an annular array shape, the spherical bulge 510 is elastically contacted with the stress rod 509, when the rotating shaft 506 rotates reciprocally, the conveying plate 507 is in a following rotation state, at this moment, the conveying plate 507 is in a reciprocal rotation state, when the conveying plate 507 rotates reciprocally, at this moment, the through hole 508 and the conveying pipe 205 are in an intermittent alignment state, at this moment, the powdery additive in the conveying box 201 intermittently enters the funnel 501, and firstly contacts with a second screen seat 504 to realize preliminary screening, and then is conveyed downwards through the funnel 501;

meanwhile, because the bottom end of the conveying plate 507 is welded with the spherical protrusions 510 in an annular array shape, the spherical protrusions 510 are in elastic contact with the stress rod 509, when the conveying plate 507 rotates, the second screen seat 504 is in a continuous vibration state under the extrusion of the spherical protrusions 510, and the screening effect is improved.

Embodiment III:

on the basis of the second embodiment, as shown in fig. 2 and fig. 7, the method further includes: a drying part 6, the drying part 6 is arranged on the box body 1;

the drying part 6 comprises an electric cylinder 601, a connector 602, a collecting seat 603, a connecting rod 604, a track 605 and a mounting arm 606, wherein the electric cylinder 601 is fixed on the right end face of the inner wall of the box body 1, the connector 602 is welded at the extending end of the box body 1, and the collecting seat 603 is rotatably connected on the connector 602.

Wherein, a track 605 is fixed on the box 1;

two connecting rods 604 are welded on the collecting seat 603, the two connecting rods 604 are connected in the track 605 in a sliding way, and the middle part of the track 605 is inclined;

the collecting seat 603 is of a rectangular box-shaped structure, a heating pipe is arranged in the collecting seat 603, a gap exists between the bottom end face of the inner wall of the collecting seat 603 and one end below the funnel 501, the height of the gap is 1cm, and the collecting seat 603 is located at the right side of the collecting hopper 102.

The mounting arm 606 is welded on the connector 602, a tooth row is fixed on the mounting arm 606, the tooth row is meshed with a gear arranged at one end below the rotating shaft 506, when the powdery denitration agent is required to be conveyed, the electric cylinder 601 is controlled to reciprocate, when the electric cylinder 601 reciprocates, the collecting seat 603 is in a left-right reciprocating motion state, at the moment, a gap is reserved between the bottom end face of the inner wall of the collecting seat 603 and one end below the funnel 501, the height of the gap is 1cm, the collecting seat 603 is positioned at the right side of the collecting hopper 102, when the collecting seat 603 moves leftwards, the screened powdery denitration agent in the funnel 501 is paved in the collecting seat 603, at the moment, quick drying of the powdery denitration agent can be realized due to the fact that a heating pipe is arranged in the collecting seat 603, at the moment, the collecting seat 603 continues to move leftwards, and when the connecting rod 604 on the collecting seat 603 moves to the bending position of the track 605, at the moment, the left side end of the collecting seat 603 inclines downwards, and the powdery denitration agent in the collecting seat 603 can be conveyed into the collecting hopper 102 due to the right side of the collecting hopper 102, and finally conveying is completed;

meanwhile, as the gear row on the mounting arm 606 is meshed with the gear arranged at one end below the rotating shaft 506, when the electric cylinder 601 moves left and right, the powdery denitration agent in the conveying box 201 intermittently enters the hopper 501 through the through hole 508, so that the powdery denitration agent is continuously conveyed, and the powdery denitration agent is enabled to be spread on the collecting seat 603 for heating and drying in the leftward moving process.

Specific use and action of the embodiment:

when the powdery denitration agent is required to be conveyed, firstly conveying the powdery denitration agent to the roller 202, at the moment, the denitration agent collides with the roller 202 and the first protrusion 203, at the moment, the caking in the powdery denitration agent can be primarily crushed, then the motor 401 is controlled to rotate in the forward direction and the reverse direction, when the motor 401 rotates in the forward direction and the reverse direction, the wooden mounting seat 403 and the cleaning teeth 404 are in a left-right reciprocating motion state under the driving of the threaded rod 402, and when the cleaning teeth 404 reciprocate, the caking in the powdery denitration agent can be crushed again through the cleaning teeth 404;

meanwhile, when the cleaning teeth 404 move, the cleaning teeth are in continuous elastic contact with the second protrusions 304, and the first screen seat 303 is in a continuous vibration state, so that the crushing and screening efficiency of the powdery denitration agent can be improved;

meanwhile, as the top end surface of the wooden mounting seat 403 is in contact with the bottom end surface of the outer wall of the friction wheel 204, when the wooden mounting seat 403 moves left and right, the friction wheel 204 and the roller 202 are in a reciprocating rotation state under the friction action of the wooden mounting seat 403, and when the roller 202 rotates in a reciprocating manner, the powdery denitration agent can be crushed again through the first bulge 203;

when the rotating shaft 506 rotates reciprocally, the conveying plate 507 is in a following rotation state, the conveying plate 507 is in a reciprocal rotation state, when the conveying plate 507 rotates reciprocally, the through hole 508 and the conveying pipe 205 are in an intermittent alignment state, the powdery additive in the conveying box 201 can enter the funnel 501 intermittently, the powdery additive enters the funnel 501 firstly contacts with the second screen seat 504 to realize preliminary screening, and then is conveyed downwards through the funnel 501;

meanwhile, because the bottom end of the conveying plate 507 is welded with the spherical protrusions 510 in an annular array shape, the spherical protrusions 510 are elastically contacted with the stress rod 509, when the conveying plate 507 rotates, the second screen seat 504 is in a continuous vibration state under the extrusion of the spherical protrusions 510, so that the screening effect is improved;

when the powder denitration agent needs to be conveyed, the electric cylinder 601 is controlled to reciprocate, when the electric cylinder 601 reciprocates and stretches, the collecting seat 603 is in a left-right reciprocating motion state, at the moment, a gap exists between the bottom end face of the inner wall of the collecting seat 603 and one end below the funnel 501, the height of the gap is 1cm, the collecting seat 603 is positioned at the right side of the collecting hopper 102, when the collecting seat 603 moves leftwards, the screened powder denitration agent in the funnel 501 can be paved in the collecting seat 603, at the moment, the collecting seat 603 is internally provided with a heating pipe, rapid drying of the powder denitration agent can be realized, at the moment, the collecting seat 603 continuously moves leftwards, and when the connecting rod 604 on the collecting seat 603 moves to the bending position of the track 605, the left side end of the collecting seat 603 inclines downwards, at the moment, the collecting seat 603 is positioned at the right side of the collecting hopper 102, the powder denitration agent in the collecting seat 603 can be conveyed into the collecting hopper 102, and finally conveying is completed.

Meanwhile, as the gear row on the mounting arm 606 is meshed with the gear arranged at one end below the rotating shaft 506, when the electric cylinder 601 moves left and right, the powdery denitration agent in the conveying box 201 intermittently enters the hopper 501 through the through hole 508, so that the powdery denitration agent is continuously conveyed, and the powdery denitration agent is enabled to be spread on the collecting seat 603 for heating and drying in the leftward moving process.

Claims (1)

1. A continuous conveyer for denitration processing, its characterized in that includes: a case (1); the conveying part (2) is arranged on the box body (1); two fixing seats (101) for installing the box body (1) are arranged on the box body (1), and a collecting hopper (102) for collecting the separated denitration agent after conveying is arranged in the box body (1); the conveying part (2) consists of a conveying box (201), rollers (202), first bulges (203), friction wheels (204) and conveying pipes (205), wherein the conveying box (201) is fixed on the box body (1), the rollers (202) are rotatably arranged on the conveying box (201) in a linear array manner, the first bulges (203) are welded on the outer wall of each roller (202) in an annular array manner, and the first bulges (203) are of a conical structure; each roller (202) is provided with a gear, and friction wheels (204) on two adjacent rollers (202) are meshed with each other;

a first screening part (3) is arranged in the conveying box (201);

the first screening part (3) consists of a first base body (301), a first spring rod (302), a first screen seat (303) and a second bulge (304), wherein the first base body (301) consists of two rectangular rods, four first spring rods (302) are welded on the first base body (301), one ends above the four first spring rods (302) are fixed with the bottom of the first screen seat (303), the first screen seat (303) is of a zigzag structure, an iron screen is fixed on the first screen seat (303), and the first screen seat (303) is positioned below the rolling shaft (202);

the conveying box (201) is provided with a crushing part (4);

the crushing part (4) consists of a motor (401), a threaded rod (402), a wooden mounting seat (403) and cleaning teeth (404), wherein the motor (401) is fixed on the right end face of the conveying box (201), and the threaded rod (402) is arranged on a rotating shaft of the motor (401);

the threaded rod (402) is in threaded connection with a wooden mounting seat (403), cleaning teeth (404) are arranged on the bottom end surface of the wooden mounting seat (403) in a linear array, and the cleaning teeth (404) are in contact with the iron net on the first screen seat (303); the top end surface of the wooden mounting seat (403) is contacted with the bottom end surface of the outer wall of the friction wheel (204);

the top end of the first screen seat (303) is welded with second bulges (304) in a rectangular array shape, the second bulges (304) are of a semi-cylindrical structure, and when the cleaning teeth (404) move, the cleaning teeth are in continuous elastic contact with the second bulges (304);

a second screening part (5) is arranged in the box body (1);

the second screening part (5) consists of a funnel (501), a second seat body (502), second spring rods (503), a second screen seat (504), a cover plate (505), a rotating shaft (506), a conveying plate (507), a through hole (508), a stress rod (509) and a spherical bulge (510), wherein the funnel (501) is fixed on the box body (1), the second seat body (502) is fixed in the funnel (501), two second spring rods (503) are arranged on the top end surface of the second seat body (502), one ends above the two second spring rods (503) are fixed with the bottom end surface of the second screen seat (504), and an iron net is arranged on the second screen seat (504);

a cover plate (505) is arranged on the funnel (501);

the rotating shaft (506) is rotationally connected to the box body (1) through a connecting plate, a conveying plate (507) is welded on the rotating shaft (506), the conveying plate (507) is of a circular plate-shaped structure, a through hole (508) is formed in the conveying plate (507), and the through hole (508) is of a circular hole-shaped structure;

a conveying pipe (205) is welded at one end below the conveying box (201), the conveying pipe (205) is of a round tubular structure, one end below the conveying pipe (205) is in contact with the top end surface of the conveying plate (507), and the inner diameter of the conveying pipe (205) is equal to the outer diameter of the through hole (508); a stress rod (509) is welded on the second screen seat (504), spherical protrusions (510) are welded on the bottom end of the conveying plate (507) in an annular array shape, and the spherical protrusions (510) are elastically contacted with the stress rod (509);

a drying part (6) is arranged on the box body (1);

the drying part (6) consists of an electric cylinder (601), a connector (602), a collecting seat (603), a connecting rod (604), a track (605) and a mounting arm (606), wherein the electric cylinder (601) is fixed on the right end face of the inner wall of the box body (1), the extending end of the box body (1) is welded with the connector (602), and the collecting seat (603) is rotationally connected on the connector (602);

a track (605) is fixed on the box body (1);

two connecting rods (604) are welded on the collecting seat (603), the two connecting rods (604) are connected in the track (605) in a sliding way, and the middle part of the track (605) is inclined;

the collecting seat (603) is of a rectangular box-shaped structure, a heating pipe is arranged in the collecting seat (603), a gap exists between the bottom end surface of the inner wall of the collecting seat (603) and one end below the funnel (501), the height of the gap is 1cm, and the collecting seat (603) is positioned on the right side of the collecting hopper (102);

a mounting arm (606) is welded on the connector (602), and a tooth row is fixed on the mounting arm (606) and meshed with a gear arranged at one end below the rotating shaft (506).