CN208070880U - Material-transporting system and sintering machine including the material-transporting system - Google Patents

Abstract

The utility model is related to sintering machine technical fields, and in particular to a kind of material-transporting system and the sintering machine including the material-transporting system.The utility model aims to solve the problem that the solvent being delivered in the prior art through material-transporting system in batch mixer digests insufficient problem.For this purpose, the utility model provides a kind of material-transporting system, material-transporting system includes：Material conveyor, the upper surface of material conveyor are provided with the conveyer belt of conveying material；Stirring structure, stirring structure include at least one stirring convex structure opposite with the conveying direction of conveyer belt, and the both sides of at least one stirring convex structure are inclined outwardly along the conveying direction of conveyer belt, and stirring convex structure is arranged close to the upper surface of conveyer belt.The utility model in material-transporting system by being arranged stirring structure, and stirring structure can carry out stirring during material-transporting system is by solvent delivery to batch mixer to solvent, so that the solvent in transport system can fully digest.

Description

Material-transporting system and sintering machine including the material-transporting system

Technical field

The utility model is related to sintering machine technical fields, and in particular to a kind of material-transporting system and be conveyed including the material The sintering machine of system.

Background technology

This part provide be only with the relevant background information of the disclosure, be not necessarily the prior art.

Sintering machine is suitable for the sintering work of large-scale iron and steel industry sintering plant, can be by heterogeneity, varigrained concentrate Powder, rich ore powder sintering are blocking, and partially remove the objectionable impurities such as sulphur, phosphorus contained in ore.Sintering machine is generally mainly by dispensing System, mixing and granulation system, material-transporting system and sintering host composition, when sintering work starts, loading machine first will be molten Solvent in agent feed bin and concentrate powder, rich ore powder, fuel, the materials such as return mine are packed into matching for feed proportioning system by material-transporting system Expect in the feed bin of room, the above mixed material is sent to wide belt after ratio mixes as required and matched by the barrel feeder in proportioning room feed bin On material machine, mixed material is transported to mixing and granulation system by belt proportioning machine, the cylindrical mixer in mixing and granulation system will be with Upper mixed material be made after mixing account for 75% 3-8mm pellet shapes mixed materials, mixing and granulation system again mixes pellet shapes It closes material to be delivered in sintering host, sintering host sinters pellet shapes mixture into block structure.

Above-mentioned sintering process in theory can be blocking by heterogeneity, varigrained concentrate powder, rich ore powder sintering, and The objectionable impurities such as sulphur, phosphorus contained in ore are partially removed, still, there are some drawbacks in actual application, are such as being incited somebody to action When solvent in solvent feed bin is packed by material-transporting system in the proportioning room feed bin of feed proportioning system, since solvent cannot be abundant Digestion eventually leads to a large amount of mixing to influence the mixing granulation effect of proportioning room feed bin and cylindrical mixer to mixed material Material cannot be mixed thoroughly and be made pellet shapes mixed material, and the mixed material not being mixed thoroughly is delivered to sintering master After in machine, the granularity and poor air permeability of non-uniform mixed material are mixed, causes the yield of sinter to reduce, sintering process is made to give birth to Production index and environmental index do not reach requirement.

Utility model content

The purpose of this utility model is to propose one kind for improving material-transporting system in view of the above shortcomings of the prior art The material-transporting system of middle solvent digestive efficiency, to improve the efficiency of sintering host sintered compound material.The purpose be by with What lower technical solution was realized.

The first aspect of the utility model provides a kind of material-transporting system, and material-transporting system includes：Material conveys Machine, the upper surface of material conveyor are provided with the conveyer belt of conveying material；Stirring structure, stirring structure include defeated with conveyer belt Send at least one stirring convex structure that direction is opposite, the conveying direction of the both sides of at least one stirring convex structure along conveyer belt It is inclined outwardly, and stirring convex structure is arranged close to the upper surface of conveyer belt.

Preferably, stirring structure further includes the first mounting plate, and the first mounting plate is fixed in the rack of material conveyor, and It is horizontally set at the top of conveyer belt, the top of at least one stirring convex structure is set to the first mounting plate in face of conveyer belt The lower part of the side of conveying direction, at least one stirring convex structure is arranged close to the upper surface of conveyer belt.

Preferably, at least one stirring convex structure includes the first material rotating plate and the second material rotating plate, the first material rotating plate and the Two material rotating plates are connected on one side, and the first material rotating plate and the second material rotating plate are inclined outwardly along the conveying direction of conveyer belt.

Preferably, material-transporting system further includes：First sprinkler head, the first sprinkler head along conveyer belt conveying direction with turn over Material convex structure is located along the same line, and the first sprinkler head is located at along the conveying direction of conveyer belt under stirring convex structure Trip.

Preferably, material-transporting system further includes：Material structure is closed, closes and expects that structure includes being located at along the conveying direction of conveyer belt At least one conjunction flitch component at least one stirring convex structure downstream, at least one conveying for closing flitch component along conveyer belt Direction slopes inwardly, and at least one flitch component that closes is arranged close to the upper surface of conveyer belt.

Preferably, it further includes the second mounting plate to close material structure, and the second mounting plate is fixed in the rack of material conveyor, and It is horizontally set at the top of conveyer belt, at least one top for closing flitch component is set to the second mounting plate back to the defeated of conveyer belt The side in direction, at least one lower part for closing flitch component is sent to be arranged close to the upper surface of conveyer belt.

Preferably, closing flitch component includes：First closes flitch, and the first conjunction flitch is lean-in along the conveying direction of conveyer belt Tiltedly；Second closes flitch, and second, which closes flitch, slopes inwardly along the conveying direction of conveyer belt and close flitch relative to conveyer belt with first Center line be symmetrical arranged.

Preferably, material-transporting system further includes：Second sprinkler head, the second sprinkler head along conveyer belt conveying direction with turn over Material convex structure is located along the same line, and the second sprinkler head is located at the upper of stirring convex structure along the conveying direction of conveyer belt Trip.

The second aspect of the utility model additionally provides a kind of sintering machine, wherein sintering machine includes：Solvent feed bin, solvent Feed bin is used to provide solvent for sintering machine；Material-transporting system, material-transporting system connect with solvent feed bin and along transport systems Conveying direction be located at the downstream of solvent feed bin, for conveying the solvent flowed out from solvent feed bin, wherein material-transporting system For the material-transporting system of the utility model first aspect；Batch mixer, batch mixer are connect and defeated along material with material-transporting system The downstream for sending the conveying direction of system to be located at material-transporting system, the solvent for being delivered to material-transporting system in batch mixer And material carries out mixing granulation processing；It is sintered host, sintering host connect with batch mixer, is used for the mixture in batch mixer Material sintering is blocking.

It will be appreciated to those of skill in the art that in the technical solution of the utility model, by material delivery system Stirring structure is set in system, stirring can be carried out during material-transporting system is by solvent delivery to batch mixer, to improve The mixing uniformity of solvent is to make solvent fully digest, to improve the sintering effect that sintering host is sintered the mixed materials such as solvent Rate.Specifically, stirring structure includes at least one stirring convex structure opposite with the conveying direction of conveyer belt, stirring convex structure The both sides of part are inclined outwardly along the conveying direction of conveyer belt, and stirring convex structure is arranged close to the upper surface of conveyer belt, therefore, When the solvent on conveyer belt passes through stirring convex structure, stirring convex structure shifts the solvent on conveyer belt onto stirring convex structure The purpose that stirring is carried out to solvent on conveyer belt is realized, so that the solvent on conveyer belt fully digests in the both sides of part.

Further, the material-transporting system of the utility model further includes closing material structure, and it includes along conveyer belt to close material structure Conveying direction be located at least one conjunction flitch component at least one stirring convex structure downstream, at least one conjunction flitch component Conveying direction along conveyer belt slopes inwardly, and closes flitch component and be arranged close to the upper surface of conveyer belt, therefore, when on conveyer belt Solvent by stirring convex structure stirring transport to close material structure position when, close material structure by conveyer belt solvent close Hold together leveling, postdigestive solvent embedment bottom is subjected to isothermal holding.

Description of the drawings

By reading the detailed description of hereafter preferred embodiment, various other advantages and benefit are common for this field Technical staff will become clear.Attached drawing only for the purpose of illustrating preferred embodiments, and is not considered as to this practicality Novel limitation.And throughout the drawings, the same reference numbers will be used to refer to the same parts.In the accompanying drawings：

Fig. 1 is the vertical view of the material-transporting system of the utility model one embodiment.

Fig. 2 is the side view of material-transporting system shown in Fig. 1.

Wherein, 10, solvent feed bin；20, material conveyor；21, conveyer belt；22, stirring convex structure；221, it first turns over Flitch；222, the second material rotating plate；23, the first sprinkler head；24, flitch component is closed；241, first flitch is closed；242, second material is closed Plate；25, the second sprinkler head；26, the first mounting plate；27, the second mounting plate；28, support plate；29, side plate.

Specific implementation mode

The illustrative embodiments of the disclosure are more fully described below with reference to accompanying drawings.Although showing this public affairs in attached drawing The illustrative embodiments opened, it being understood, however, that may be realized in various forms the disclosure without the reality that should be illustrated here The mode of applying is limited.It is to be able to be best understood from the disclosure on the contrary, providing these embodiments, and can be by this public affairs The range opened completely is communicated to those skilled in the art.

It should be understood that term used herein merely for description particular example embodiment purpose, and have no intention into Row limitation.Unless the context clearly indicates otherwise, otherwise singulative " one " as used in the text, "one" and " described " Can also indicate to include plural form.Term " comprising ", " having " are inclusives, and therefore indicate stated feature, The presence of element and/or component, but be not precluded presence or add one or more of the other feature, component, assembly unit, and/or Combination thereof.

Although can multiple element, component, region, layer and/or portion be described using term first, second etc. in the text Section still these component, assembly units, region, layer and/or is limited by these terms than Duan Buying.These terms can only be used for One component, assembly unit, region, layer or section are distinguished with another region, layer or section.Unless context it is manifestly intended that Otherwise sequence or secondary is not implied that when the term and other numerical terms of such as " first ", " second " etc use in the text Sequence.Therefore, the first material rotating plate discussed below, the second material rotating plate title in the case where not departing from the introduction of example embodiment It can be interchanged.

For ease of description, an element as illustrated in the diagram can be described use space relativeness term in the text Either feature is relative to another element or the relationship of feature, these relativeness terms are, for example, " inside ", " outside ", " interior Side ", " outside ", " following ", " lower section ", " above ", " top " etc..This spatial correlation term is intended to include removing to retouch in figure The different direction of device in use or operation except the orientation painted.For example, if the device in figure is overturn, retouch State the element for " below other elements either feature " or " below other elements or feature " will then be orientated " Other elements are either above feature " or " above other elements or feature ".Therefore, exemplary term can " in ... lower section " To include in orientation upper and under.In addition device can be oriented and (be rotated by 90 ° or in other directions) and used herein Spatial correlation descriptor correspondingly explains.

Fig. 1 is the vertical view of the material-transporting system of the utility model one embodiment.

Fig. 2 is the side view of material-transporting system shown in Fig. 1.

As depicted in figs. 1 and 2, preferred embodiment according to the present utility model provides a kind of material-transporting system, material Transport system includes material conveyor 20 and the stirring structure that is set in 20 rack of material conveyor, wherein material conveyor 20 upper surface be provided with conveying material conveyer belt 21, stirring structure include it is opposite with the conveying direction of conveyer belt 21 at least The both sides of one stirring convex structure 22, at least one stirring convex structure 22 are inclined outwardly along the conveying direction of conveyer belt 21, And stirring convex structure 22 is arranged close to the upper surface of conveyer belt 21.The utility model is expanded on further by taking sintering machine as an example below The specific implementation mode and technique effect of material-transporting system, sintering machine is generally mainly by feed proportioning system, mixing and granulation system, object Expect transport system and sintering host composition, when sintering work starts, loading machine is first by the solvent and essence in solvent feed bin 10 Miberal powder, rich ore powder, fuel, the materials such as return mine are packed by material-transporting system 01 in the proportioning room feed bin of feed proportioning system, dispensing The above mixed material is sent to after ratio mixes on wide belt proportioning machine by the barrel feeder in the feed bin of room as required, is matched by belt Mixed material is transported to mixing and granulation system by material machine, and the cylindrical mixer in mixing and granulation system mixes the above mixed material equal Pellet shapes mixed material is made after even, then pellet shapes mixture is delivered in sintering host again, is sintered host by pellet shapes Mixture sinters block structure into case follow-up use.This sintering process exist in actual application it is defective, such as will When solvent in solvent feed bin 10 is packed by material-transporting system 01 in the proportioning room feed bin of feed proportioning system, since solvent cannot Fully digestion is eventually led to a large amount of to influence the mixing granulation effect of proportioning room feed bin and cylindrical mixer to mixed material Mixed material cannot be mixed thoroughly and be made pellet shapes mixed material, and the mixed material not being mixed thoroughly is delivered to burning After tying in host, the granularity and poor air permeability of non-uniform mixed material are mixed, causes the yield of sinter to reduce, makes agglomerant Skill production target and environmental index do not reach requirement, and in order to solve the above-mentioned technical problem, the utility model is in material-transporting system In be provided with stirring structure, when the solvent on conveyer belt 21 passes through stirring structure, the stirring convex structure 22 in stirring structure The both sides that mixed material on conveyer belt 21 is shifted onto to stirring convex structure 22 disappear to the solvent on conveyer belt 21 with realizing The purpose of change, enables solvent to be sufficiently mixed with material, improves the efficiency of sintering host sintered compound material.

With continued reference to Fig. 1 and Fig. 2, preferred embodiment according to the present utility model, stirring structure further includes the first mounting plate 26, the first mounting plate 26 is fixed in the rack of material conveyor 20, and is horizontally set at the top of conveyer belt 21, at least one The top of stirring convex structure 22 is set to the side that the first mounting plate 26 faces 21 conveying direction of conveyer belt, stirring convex structure 22 lower part is arranged close to the upper surface of conveyer belt 21.The utility model is consolidated stirring convex structure 22 by the first mounting plate 26 Surely designated position is arrived, the solvent push stirring convex structure 22 on conveyer belt 21 can be prevented, it is right to influence stirring convex structure 22 The stirring effect of solvent, meanwhile, it is simple, at low cost, easy in such a way that the first mounting plate 26 fixes stirring convex structure 22 It realizes, it is only necessary to increase by the first mounting plate 26 on having material-transporting system, it need not be to having material-transporting system Internal structure be transformed.Specifically, the both sides of 20 rack of conveyer are respectively arranged with two pieces of companies being vertically arranged The top of fishplate bar, two pieces of connecting plates is provided with two pieces of support plates 28, and two pieces of support plates 28 are provided in face of the side of conveyer belt 21 Along the side plate 29 of 21 conveying direction of conveyer belt, the first mounting plate 26 is set to the centre of two blocks of side plates 29, is located at conveyer belt 21 Top, then specifically, the length 400mm of support plate 28, width 200mm, thickness 10mm, the length 4500mm of two blocks of side plates are wide Spend 200mm, thickness 10mm, two blocks of side plates 29 be welded in support plate 28 and with 28 upper end keeping parallelism of support plate.

With continued reference to Fig. 1 and Fig. 2, preferred embodiment according to the present utility model, stirring convex structure 22 is turned over including first Flitch 221 and the second material rotating plate 222, the first material rotating plate 221 and the second material rotating plate 222 are connected on one side, and the first material rotating plate 221 Conveying direction with the second material rotating plate 222 along conveyer belt 21 is inclined outwardly.Due to the first material rotating plate 221 and the second material rotating plate 222 conveying direction along conveyer belt 21 is inclined outwardly, therefore, when the solvent on conveyer belt 21 passes through 221 He of the first material rotating plate When the second material rotating plate 222, the first material rotating plate 221 connect with the second material rotating plate 222 solvent at side can to the first material rotating plate 221 and The both sides of second material rotating plate 222 are moved, and the solvent at side is connect with the second material rotating plate 222 to the first material rotating plate 221 to realize Carry out the purpose of mechanical stirring.It should be noted that the stirring convex being made of the first material rotating plate 221 and the second material rotating plate 222 Component 22 is a preferred embodiment of the utility model, is not the limitation to the utility model stirring convex structure 22, For example, the stirring convex structure 22 of the utility model can also be to be opened by what the first material rotating plate 221 and the second material rotating plate 222 formed Mouth shape structure, protection domain of this adjustment without departing from the utility model stirring convex structure 22.

With continued reference to Fig. 1 and Fig. 2, preferred embodiment according to the present utility model, material-transporting system further includes：First water Nozzle 23, the first sprinkler head 23 are located along the same line along the conveying direction of conveyer belt 21 with stirring convex structure 22, and first Sprinkler head 23 is located at the downstream of stirring convex structure 22 along the conveying direction of conveyer belt.The utility model passes through in stirring convex structure The first sprinkler head 23 is arranged in the downstream of part 22, and the first sprinkler head 23 can be to the solvent by the mechanical stirring of stirring convex structure 22 Water spray processing is carried out, the water being sprayed onto in solvent can be such that solvent is fully digested, to improve the mixing effect of solvent and material Fruit.Specifically, after stirring convex structure 22 chips the solvent not digested fully, the solvent and the first sprinkler head chipped The 23 water reaction digestion sprayed.

With continued reference to Fig. 1 and Fig. 2, preferred embodiment according to the present utility model, in material-transporting system, conveyer belt 21 On solvent after the water spray of the mechanical stirring of stirring structure and the first sprinkler head 23, the solvent on conveyer belt 21 will appear heat The phenomenon that amount is lost in, influences the mixed effect of solvent and material, in order to be carried out to the solvent after the first sprinkler head 23 water spray Heat preservation, the utility model provide conjunction material structure, and the solvent on conveyer belt 21 can be carried out to close up flattening operation by closing material structure, The solvent embedment bottom after the first sprinkler head 23 is sprayed water is set to be kept the temperature, specifically, it includes closing flitch component to close material structure 24, the conveying direction for closing flitch component 24 along conveyer belt 21 slopes inwardly, and close flitch component 24 close to conveyer belt 21 upper table Face is arranged, when the solvent on conveyer belt 21 is by closing flitch component 24, due to closing the inclination of flitch component 24 and stirring structure Direction is on the contrary, therefore, leveling can be closed up again by the solvent that stirring structure is routed up by closing flitch component 24, and stirring structure is routed up Solvent embedment bottom kept the temperature.

With continued reference to Fig. 1 and Fig. 2, preferred embodiment according to the present utility model, it further includes the second mounting plate to close material structure 27, the second mounting plate 27 is fixed in the rack of material conveyor 20, and is horizontally set at the top of conveyer belt 21, at least one The top for closing flitch component 24 is set to the second mounting plate 27 back to the side of 21 conveying direction of conveyer belt, at least one conjunction flitch The lower part of component 24 is arranged close to the upper surface of conveyer belt 21.The utility model will close flitch component 24 by the second mounting plate 27 It fixed to designated position, can prevent the solvent push on conveyer belt 21 from closing flitch component 24, influence to close flitch component 24 to molten Leveling effect is closed up in agent, meanwhile, it is simple, at low cost, easy in such a way that the second mounting plate 27 is fixed and closes flitch component 24 It realizes, it is only necessary to increase by the second mounting plate 27 having in material-transporting system, it need not be to having material-transporting system Inside is transformed.Specifically, the second mounting plate 27 is set to the centre of two blocks of side plates 29, is located at the top of conveyer belt 21, side Plate 29 be welded in support plate 28 and with 28 upper end keeping parallelism of support plate.

With continued reference to Fig. 1 and Fig. 2, preferred embodiment according to the present utility model, it includes that the first conjunction is expected to close flitch component 24 Plate 241 and second closes flitch 242, and first closes flitch 241 slopes inwardly along the conveying direction of conveyer belt 21, and second closes flitch 242 Slope inwardly along the conveying direction of conveyer belt 21 and close flitch with first and is symmetrical arranged relative to the center line of conveyer belt.Due to first The inclined direction of flitch 241 and the first material rotating plate 221 is closed on the contrary, therefore, first closes flitch 241 can be by the first material rotating plate 221 The solvent routed up closes up leveling, similarly, the inclined direction that closes flitch 242 and the second material rotating plate 222 due to second on the contrary, because This, the solvent that the second material rotating plate 222 is routed up can be closed up leveling by the second conjunction flitch 242, closed flitch component 24 and closed by first Flitch 241 and second closes flitch 242 and the solvent that stirring convex structure 22 is overturn is closed up leveling again, makes by the first sprinkler head Solvent embedment bottom after 23 water sprays is kept the temperature.It should be noted that closing flitch 241 and second by first closes 242 groups of flitch At a preferred embodiment for closing the only the utility model of flitch component 24, be not that flitch component 24 is closed to the utility model Limitation, for example, the conjunction flitch component 24 of the utility model can also be to close the conjunction flitch component 24 that forms of flitch by three pieces, this The protection domain of flitch component 24 is closed in kind adjustment without departing from the utility model.

With continued reference to Fig. 1 and Fig. 2, preferred embodiment according to the present utility model, material-transporting system further includes the second water Nozzle 25, the second sprinkler head 25 are located along the same line along the conveying direction of conveyer belt 21 with stirring convex structure 22, and second Sprinkler head 25 is located at the upstream of stirring convex structure 22 along the conveying direction of conveyer belt.The utility model passes through in stirring convex structure The second sprinkler head 25 is arranged in the upstream of part 22, and the second sprinkler head 25 can carry out the solvent top transferred out from solvent feed bin 10 Water spray, the solvent on top is reacted with water and is digested.

Finally, second aspect according to the present utility model additionally provides a kind of sintering machine, wherein sintering machine includes：Solvent Feed bin, solvent feed bin are used to provide solvent for sintering machine；Material-transporting system, material-transporting system is connect with solvent feed bin and edge The conveying direction of material-transporting system is located at solvent feed bin downstream, for conveying the solvent flowed out from solvent feed bin, wherein object Expect that transport system is the material-transporting system of the utility model first aspect；Batch mixer, batch mixer are connect with material-transporting system And it is located at material-transporting system downstream along the conveying direction of material-transporting system, for being delivered to batch mixer to material-transporting system In solvent and material carry out mixing granulation processing；It is sintered host, sintering host is connect with batch mixer, and being used for will be in batch mixer Mixed material sintering it is blocking.Since the sintering machine of the utility model includes the material-transporting system of the utility model, this The sintering machine of utility model has all technique effects of the utility model material-transporting system, and details are not described herein.

The preferable specific implementation mode of the above, only the utility model, but the scope of protection of the utility model is not It is confined to this, any one skilled in the art within the technical scope disclosed by the utility model, can readily occur in Change or replacement, should be covered within the scope of the utility model.Therefore, the scope of protection of the utility model should be with Subject to the scope of the claims.

Claims (9)

1. a kind of material-transporting system, which is characterized in that the material-transporting system includes：

Material conveyor, the upper surface of the material conveyor are provided with the conveyer belt of conveying material；

Stirring structure, the stirring structure include at least one stirring convex structure opposite with the conveying direction of the conveyer belt The both sides of part, at least one stirring convex structure are inclined outwardly along the conveying direction of the conveyer belt, and the stirring is convex Shape component is arranged close to the upper surface of the conveyer belt.

2. material-transporting system according to claim 1, which is characterized in that the stirring structure further includes the first installation Plate, first mounting plate is fixed in the rack of the material conveyor, and is horizontally set at the top of the conveyer belt, institute The top for stating at least one stirring convex structure is set to first mounting plate faces the conveying direction of the conveyer belt one The lower part of side, at least one stirring convex structure is arranged close to the upper surface of the conveyer belt.

3. material-transporting system according to claim 2, which is characterized in that at least one stirring convex structure includes First material rotating plate and the second material rotating plate, first material rotating plate is connected on one side with second material rotating plate, and described first turns over The conveying direction of flitch and second material rotating plate along the conveyer belt is inclined outwardly.

4. material-transporting system according to claim 3, which is characterized in that the material-transporting system further includes：

First sprinkler head, first sprinkler head are located at same along conveying direction and the stirring convex structure of the conveyer belt On straight line, and first sprinkler head is located at the downstream of the stirring convex structure along the conveying direction of the conveyer belt.

5. material-transporting system according to claim 4, which is characterized in that the material-transporting system further includes：

Material structure is closed, described close expects that structure includes being located at least one stirring convex structure along the conveying direction of the conveyer belt At least one conjunction flitch component in part downstream, at least one conjunction flitch component are lean-in along the conveying direction of the conveyer belt Tiltedly, and at least one flitch component that closes is arranged close to the upper surface of the conveyer belt.

6. material-transporting system according to claim 5, which is characterized in that the conjunction material structure further includes the second installation Plate, second mounting plate is fixed in the rack of the material conveyor, and is horizontally set at the top of the conveyer belt, institute The side that at least one top for closing flitch component is set to conveying direction of second mounting plate back to the conveyer belt is stated, At least one lower part for closing flitch component is arranged close to the upper surface of the conveyer belt.

7. material-transporting system according to claim 6, which is characterized in that the conjunction flitch component includes：

First closes flitch, and described first closes flitch slopes inwardly along the conveying direction of the conveyer belt；

Second closes flitch, and described second, which closes flitch, slopes inwardly along the conveying direction of the conveyer belt and close flitch with described first Center line relative to the conveyer belt is symmetrical arranged.

8. material-transporting system according to claim 7, which is characterized in that the material-transporting system further includes：

Second sprinkler head, second sprinkler head are located at same along conveying direction and the stirring convex structure of the conveyer belt On straight line, and second sprinkler head is located at the upstream of the stirring convex structure along the conveying direction of the conveyer belt.

9. a kind of sintering machine, which is characterized in that the sintering machine includes：

Solvent feed bin, the solvent feed bin are used to provide solvent for the sintering machine；

Material-transporting system, the material-transporting system connect with the solvent feed bin and along the conveying directions of the transport system Positioned at the downstream of the solvent feed bin, for conveying the solvent flowed out from the solvent feed bin, wherein the material delivery system System is material-transporting system described in any item of the claim 1 to 8；

Batch mixer, the batch mixer connect with the material-transporting system and are located at along the conveying direction of the material-transporting system The downstream of the material-transporting system, solvent and material for being delivered to the material-transporting system in the batch mixer Carry out mixing granulation processing；

It is sintered host, the sintering host is connect with the batch mixer, for sintering the mixed material in the batch mixer into Block.