CN113955454A - A transmission device, slurry dispersing system for slurry dispersing system - Google Patents

Abstract

The application discloses slurry dispersing system and transmission device thereof. The transmission device includes: the material conveying mechanism is used for receiving the papermaking raw materials; the sensing mechanism is arranged adjacent to the material conveying mechanism and used for identifying the type of the papermaking raw material; the classifying mechanism is arranged corresponding to the discharge end of the material conveying mechanism and is in communication connection with the sensing mechanism, and the classifying mechanism is used for receiving the papermaking raw materials conveyed from the discharge end of the material conveying mechanism and conveying the different types of papermaking raw materials to different transfer stations respectively; first transfer mechanism and second transfer mechanism correspond two respectively and transport the station setting to be arranged in being used for receiving the papermaking raw materials in two transport stations respectively. The scheme can improve the pulp dispersing efficiency.

Description

A transmission device, slurry dispersing system for slurry dispersing system

Technical Field

The application belongs to the technical field of papermaking equipment, especially relates to a transmission device, slurry dispersing system for slurry dispersing system.

Background

In the paper making process, paper pulp is a basic raw material for paper making, and is a fibrous substance prepared by taking certain plants as raw materials and performing different processing methods. Among them, a short fiber slurry can be generally obtained from a hardwood papermaking raw material; long fiber slurries are typically obtained from softwood fiber papermaking stocks. Short fibers in the short fiber slurry can improve the flexibility of the finished paper, and long fibers in the long fiber slurry can improve the toughness of the finished paper. The long and short fiber pulp is proportioned and mixed, so that the finished paper has the required flexibility.

In the prior art, when coniferous fiber papermaking raw materials and broadleaf fiber papermaking raw materials come, the long and short fiber pulp is easily mixed by cutting with one outsourcing cutting line.

Disclosure of Invention

The application provides a transmission device for a slurry dispersing system and the slurry dispersing system, which are used for solving the technical problems.

In order to solve the technical problem, the application adopts a technical scheme that: there is provided a transfer device for a slurry dispersing system, the transfer device comprising:

the material conveying mechanism is used for receiving papermaking raw materials;

the sensing mechanism is arranged adjacent to the material conveying mechanism and used for identifying the type of the papermaking raw material;

the classifying mechanism is arranged corresponding to the discharge end of the material conveying mechanism and is in communication connection with the sensing mechanism, and the classifying mechanism is used for receiving the papermaking raw materials conveyed from the discharge end of the material conveying mechanism and conveying the different types of papermaking raw materials to different transfer stations respectively; and

first transport mechanism and second transport mechanism correspond two respectively transport the station setting to be arranged in receiving two respectively transport in the station papermaking raw materials.

Optionally, the material conveying mechanism comprises a first material conveying mechanism and a second material conveying mechanism, the discharge ends of the first material conveying mechanism and the second material conveying mechanism face towards the classifying mechanism, and the first material conveying mechanism and the second material conveying mechanism are used for receiving the papermaking raw materials and will face towards the classifying mechanism for transportation.

Optionally, the material conveying mechanism further comprises a first turntable; the discharge end of the first material conveying mechanism and the discharge end of the second material conveying mechanism face towards the first rotary table, a conveying belt is arranged on the first rotary table, and the feeding end of the conveying belt is in butt joint with the discharge ends of the first material conveying mechanism and the second material conveying mechanism respectively through rotation of the first rotary table.

Optionally, the number of said sensing mechanisms is at least two; the two induction mechanisms are respectively arranged adjacent to the first material conveying mechanism and the second material conveying mechanism so as to respectively identify the papermaking raw materials on the first material conveying mechanism and the second material conveying mechanism.

Optionally, the sorting mechanism includes a transfer device and a guide rail, the transfer device is movably mounted on the guide rail, and the transfer device is movable relative to the guide rail to be respectively butted with the discharge ends of the first material conveying mechanism and the second material conveying mechanism.

Optionally, the conveying device further comprises a processing and conveying mechanism and a first shearing mechanism, wherein an input end of the processing and conveying mechanism is arranged corresponding to a discharge end of the material conveying mechanism, and is used for receiving the papermaking raw materials and conveying the papermaking raw materials towards the sorting mechanism;

the first shearing mechanism is arranged adjacent to the processing and conveying mechanism and is used for shearing the papermaking raw materials on the processing and conveying mechanism.

Optionally, first shearing mechanism keeps away from material conveying mechanism's discharge end one side still is equipped with and divides the buttress device, divide the buttress device to be used for will shearing after the operation papermaking raw materials put in proper order on handling conveying mechanism.

Optionally, a position adjusting device is further arranged on one side of the first shearing mechanism, which is far away from the discharging end of the material conveying mechanism;

the position adjusting device is used for adjusting the position of the papermaking raw material on the processing and conveying mechanism.

Optionally, a second shearing mechanism is further arranged on one side, away from the first shearing mechanism, of the position adjusting device, and the second shearing mechanism is used for further shearing the papermaking raw materials passing through the position adjusting device on the processing and conveying mechanism.

Optionally, the transmission device further comprises an abnormality detection mechanism;

the abnormality detection mechanism is used for detecting abnormality of the papermaking raw material which is sheared by the second shearing mechanism.

The beneficial effect of this application is: the scheme of this application discerns the type of papermaking raw materials through adopting response mechanism to adopt the paper making raw materials's that the sorting mechanism will receive from material transmission mechanism's papermaking raw materials and transmit respectively to the transportation station that corresponds first transport mechanism and second transport mechanism according to the type of the papermaking raw materials that response mechanism discerned, thereby can realize adopting one set of transmission device to transmit respectively the papermaking raw materials of different grade type. And the conveying efficiency of different papermaking raw materials can be improved, the whole size of the conveying device can be reduced, and the setting space is reduced.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without inventive efforts, wherein:

fig. 1 is a schematic structural diagram of an embodiment of a transmission device provided in the present application;

FIG. 2 is a schematic structural diagram of an embodiment of a slurry dispersing system provided in the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that if directional indications (such as up, down, left, right, front, and back … …) are referred to in the embodiments of the present application, the directional indications are only used to explain the relative positional relationship between the components, the movement situation, and the like in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description of "first", "second", etc. in the embodiments of the present application, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present application.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a transmission device according to an embodiment of the present disclosure.

The conveying device 10, the material conveying mechanism 110, the sensing mechanism 120, the sorting mechanism 130, the first transfer mechanism 140 and the second transfer mechanism 150.

The material conveying mechanism 110 may be a conveyor belt or other devices, and may be configured to receive and convey paper making raw materials. The sensing mechanism 120 is arranged adjacent to the material conveying mechanism 110 and is used for identifying the type of the papermaking raw material; the sorting mechanism 130 is arranged corresponding to the discharge end of the material conveying mechanism 110 and is in communication connection with the sensing mechanism 120, and the sorting mechanism 130 is used for receiving the papermaking raw materials conveyed from the discharge end of the material conveying mechanism 110 and conveying the papermaking raw materials of different types to different transfer stations respectively; the first transfer mechanism 140 and the second transfer mechanism 150 are respectively disposed corresponding to two different transfer stations for respectively receiving the paper making raw materials in the two transfer stations.

Therefore, according to the scheme of the embodiment, the sensing mechanism 120 is adopted to identify the type of the paper making raw material, and the sorting mechanism 130 is adopted to respectively transfer the paper making raw material received from the material transfer mechanism 110 to the transfer stations corresponding to the first transfer mechanism 140 and the second transfer mechanism 150 according to the type of the paper making raw material identified by the sensing mechanism 120, so that different types of paper making raw materials can be respectively transferred by using one set of transfer device 10. The efficiency of the transfer of different paper making stock can be improved, and the overall size of the transfer device 10 can be reduced, reducing the installation space.

The number of the material conveying mechanisms 110 may be one or at least two, and when the number of the material conveying mechanisms 110 is two, the material conveying mechanism 110 may include a first material conveying mechanism 111 and a second material conveying mechanism 112.

The first material transfer mechanism 111 and the second material transfer mechanism 112 are disposed adjacent to each other, and the first transfer mechanism 140 and the second transfer mechanism 150 are disposed adjacent to each other. The first material conveying mechanism 111 and the second material conveying mechanism 112 are arranged on one side of the feeding end of the sorting mechanism 130; the first transfer mechanism 140 and the second transfer mechanism 150 are disposed on the discharge end side of the sorting mechanism 130.

Therefore, the papermaking raw materials conveyed by the first material conveying mechanism 111 and the second material conveying mechanism 112 can be transferred to the first transfer mechanism 140 or the second transfer mechanism 150 through the sorting mechanism 130, and then the papermaking raw materials are conveyed to the corresponding pulp dispersing mechanisms through the first transfer mechanism 140 and the second transfer mechanism 150 for pulp dispersing treatment.

The sorting mechanism 130 can transfer the paper making material received from the first material transfer mechanism 111 to the first transfer mechanism 140, and can transfer the paper making material received from the second material transfer mechanism 112 to the second transfer mechanism 150.

Further, in this embodiment, the first material conveying mechanism 111 and the second material conveying mechanism 112 may be conveying devices having conveying belts, and the conveying directions of the conveying belts on the first material conveying mechanism 111 and the second material conveying mechanism 112 may be arranged in parallel, or in other embodiment modes, the conveying directions of the conveying belts on the first material conveying mechanism 111 and the second material conveying mechanism 112 may be arranged in an intersecting manner, for example, may be arranged perpendicularly.

Further, in this embodiment, the discharging ends of the first material conveying mechanism 111 and the second material conveying mechanism 112 may be disposed at intervals and both disposed toward the sorting mechanism 130.

Alternatively, the discharge ends of the first material conveying mechanism 111 and the second material conveying mechanism 112 may also converge with the first rotating disc 113, and the first rotating disc 113 may receive the papermaking raw materials conveyed by the discharge ends of the first material conveying mechanism 111 and the second material conveying mechanism 112.

When the transmission directions of the transmission belts on the first material transmission mechanism 111 and the second material transmission mechanism 112 are arranged in an intersecting manner, the first turntable 113 can drive the papermaking raw material to rotate when receiving the papermaking raw material on any one of the first material transmission mechanism 111 and the second material transmission mechanism 112, so that the orientation of the papermaking raw material is adjusted.

In this embodiment, the paper stock may be hardwood fiber pulp (long fiber stock) or softwood fiber pulp (short fiber stock), wherein the paper stock is typically baled for transportation prior to pulp preparation.

Wherein, each pack of paper making raw material can be provided with a corresponding identification label, and the identification label can contain the type information (long fiber raw material or short fiber raw material) of the paper making raw material; the sensing mechanism 120 can then identify the type of the package of paper stock by detecting the identification tag.

Alternatively, in other embodiments, the sensing mechanism 120 may also directly identify the paper stock, and thus the type of paper stock. For example, the sensing mechanism 120 can include a sampling assembly that can sample the paper stock and a sensing device that can identify and detect a sample obtained by the sampling assembly to determine the type of the paper stock.

In the above embodiment, the number of the material conveying mechanisms 110 is two, and further, in other embodiments, the number of the material conveying mechanisms 110 may be three or more. That is, the material transfer mechanism 110 may further include a third material transfer mechanism, a fourth material transfer mechanism, and the like.

In which, a third material transmission mechanism is added as an example. The third material transfer mechanism may also receive paper stock and may transfer the paper stock to the sorting mechanism 130; the sorting mechanism 130 may transfer the paper making material received from the first material transfer mechanism 111 to the first transfer mechanism 140, and may transfer the paper making material received from the second material transfer mechanism 112 to the second transfer mechanism 150; and the sorting mechanism 130 may transfer the papermaking raw material conveyed by the third material transfer mechanism to the first transfer mechanism 140 or the second transfer mechanism 150. By adding the third material conveying mechanism, the conveying ports of the paper making raw materials for conveying to the sorting mechanism 130 can be increased, and the conveying and processing efficiency of the paper making raw materials can be improved.

Further, in this embodiment, when the number of the material conveying mechanisms 110 is at least two, each material conveying mechanism 110 may be correspondingly provided with at least one sensing mechanism 120. Specifically, as shown in the figure, when the material conveying mechanism 110 includes a first material conveying mechanism 111 and a second material conveying mechanism 112, at least one sensing mechanism 120 may be disposed adjacent to the first material conveying mechanism 111; similarly, at least one sensing mechanism 120 may be located adjacent to the second material transfer mechanism 112.

Alternatively, in other embodiments, the sensing mechanism 120 may be one and disposed between the first material transfer mechanism 111 and the second material transfer mechanism 112, so that the type of the paper making material transferred on both the first material transfer mechanism 111 and the second material transfer mechanism 112 can be identified.

Further, in this embodiment, after the sensing mechanism 120 completes the type identification of all the paper making raw materials, the identification result may be transmitted to the sorting mechanism 130.

Wherein the sorting mechanism 130 comprises a transfer device 131 and a guide rail 132. Wherein the guide rail 132 may be disposed through a plurality of transfer stations; the transfer device 131 can be mounted on the guide rail 132 and can move along the guide rail 132, wherein the transfer device 131 can receive the paper making raw material transmitted from the discharging end of the material transmission mechanism 110, and then can transport the paper making raw material to different transfer stations along the guide rail 132.

Further, sorting mechanism 130 may also include a control component (not shown) that may be configured to be communicatively coupled to sensing mechanism 120. The control component may control the transfer device 131 to transfer the paper stock to a transfer station corresponding to the type of paper stock based on the type of paper stock identified by the sensing mechanism 120.

Further, the first transfer mechanism 140 and the second transfer mechanism 150 may be respectively disposed corresponding to two different transfer stations, and the first transfer mechanism 140 and the second transfer mechanism 150 may be respectively and correspondingly used for transferring the long fiber raw material and the short fiber raw material. After the first transfer mechanism 140 and the second transfer mechanism 150 receive the paper making raw material, the paper making raw material may be respectively transmitted to the pulp dispersing mechanisms corresponding to the paper making raw material for crushing and dispersing pulp. Thereby enabling the papermaking stock to form a papermaking slurry.

Therefore, according to the scheme of the application, the types of the papermaking raw materials are identified, then the papermaking raw materials of different types are respectively transmitted to the transfer stations corresponding to the types of the papermaking raw materials through the transfer device 131, and then the papermaking raw materials are transmitted to the pulp dispersing mechanism corresponding to the types of the papermaking raw materials through the first transfer mechanism 140 or the second transfer mechanism 150 to be crushed and dispersed. Therefore, different types of papermaking raw materials can be transmitted through one set of transmission system, and different types of papermaking pulp can be formed by automatically classifying the different papermaking raw materials.

Wherein, optionally, the control assembly may be a control box, or the control assembly may also be integrated on the transfer device 131, that is, the control assembly may be installed on the transfer device 131 and move synchronously with the transfer device. And the control assembly may also control the direction and speed of movement, etc. of the conveyor 131.

Further, in this embodiment, in order to facilitate transportation of the paper making raw material, the paper making raw material needs to be packaged. Wherein, the paper making raw material is usually bound and fixed by iron wires and the like. Therefore, a shearing mechanism may be provided before the pulp is dispersed in the paper making material, and the binding member such as the wire may be sheared by the shearing mechanism. So as to disperse the packed paper making raw materials, thereby facilitating the subsequent pulp dispersing operation.

Referring further to fig. 1, the transfer device 10 further includes a processing and transferring mechanism 160 and a first cutting mechanism 170.

The processing and conveying mechanism 160 may be connected to the material output end of the material conveying mechanism 110, so as to convey the paper making material conveyed by the material conveying mechanism 110 toward the sorting mechanism 130. The first cutting mechanism 170 may be disposed adjacent to the processing conveyor 160 so as to be used for cutting the papermaking stock conveyed on the processing conveyor 160. Specifically, the steel wires and the like packaged on the papermaking raw materials can be cut off, so that the papermaking raw materials in a large package can be dispersed and processed into a plurality of small packages. So as to be convenient for carrying and slurry dispersing treatment in the subsequent process.

In this embodiment, the paper making raw material of the big bag is dispersedly processed into a plurality of small bags, and the stack separating device can be used for operation.

Specifically, transmission device 10 can also include a device 171 that divides a pile, wherein, divide the same adjacent processing transmission device 160 setting of pile device 171, and set up and cut mechanism 170 at first and keep away from material transmission device 110's discharge end one side, divide pile device 171 can cut off the back at first cutting mechanism 170 with packing such as the packing iron wire in the paper stock outside, the paper stock dispersion of bale is handled into a plurality of parcel, then, can place the paper stock of a plurality of parcel respectively on processing transmission device 160 in proper order, thereby can be through handling the paper stock of transmission device 160 with a plurality of parcel, transmit to sortation mechanism 130 in proper order.

Optionally, after the paper making raw materials of the big packets are dispersedly processed into a plurality of small packets and the paper making raw materials of the small packets are respectively placed on the processing and conveying mechanism 160, the position of the paper making raw materials of each small packet on the processing and conveying mechanism 160 can be adjusted by the position adjusting device 172, so that the paper making raw materials of the small packets can be conveniently positioned during subsequent conveying.

Further, in the paper making material, it is common to pack the dispersed paper making material into small packets by using a packing member such as an iron wire, and then pack the paper making material of the small packets into big packets by further using a packing member such as an iron wire. In such papermaking raw materials, it is necessary to cut a packing material such as iron wire for packing a small package of papermaking raw materials before the pulp spreading operation.

Therefore, the paper making stock of the small package can be cut by providing the second cutting mechanism 173. Here, the second cutting mechanism 173 may also be disposed adjacent to the process transport mechanism 160 and may be disposed on a side of the position adjustment device 172 away from the first cutting mechanism 170.

Optionally, after the second shearing mechanism 173 finishes shearing the paper making raw material of the small packet, the anomaly detection mechanism 174 may detect the paper making raw material of the small packet, so as to determine whether the bales such as iron wires on the paper making raw material of the small packet are completely sheared.

If the packaging members such as the iron wires and the like on the paper making raw materials of the small packets are judged to be completely cut off, the paper making raw materials of the small packets can be further conveyed to the sorting mechanism 130 for subsequent transferring operation; if the packaging pieces such as the iron wires and the like on the paper making raw materials of the small bags are judged not to be completely cut off, the paper making raw materials of the small bags can be conveyed to the abnormal processing station 180, and the paper making raw materials are further cut off in a manual or mechanical processing mode. The processed small packets of paper making stock are then further transported to a sorting mechanism 130 for subsequent transfer operations.

Optionally, each of the first shearing mechanism 170 and the second shearing mechanism 173 may further include a waste recycling device, and the waste recycling device may recycle bales such as cut wires. Wherein, the waste recovery device can be a winding device which can enable the cut iron wires and other packing pieces to be wound thereon for recovery. Or the packing piece such as iron wire can be grabbed by a manipulator and the like and then be pulled out and recovered.

Further, this application still provides a pulp dispersing system, and this pulp dispersing system can be used for cutting the papermaking raw materials of packing into the papermaking raw materials of parcel, and then can carry out the pulp dispersing operation with the papermaking raw materials of parcel to process papermaking raw materials into required papermaking thick liquid.

Referring to fig. 2, fig. 2 is a schematic structural diagram of an embodiment of a slurry dispersing system provided in the present application.

Wherein the slurry dispersing system 20 may comprise a transfer device 10 as described hereinbefore. The slurry dispersing system 20 further includes a slurry dispersing device, which may include a first slurry dispersing device 210 and a second slurry dispersing device 220.

The first pulp dispersing device 210 is configured to receive the paper making raw material transmitted by the first transfer mechanism 140, and perform pulp dispersing operation on the paper making raw material; the second dispersing device 220 is used for receiving the paper making raw material transferred by the second transfer mechanism 150 and performing dispersing operation on the paper making raw material.

In one embodiment, the first transfer mechanism 140 can be used for transferring long-fiber papermaking raw materials, and the first dispersing device 210 can receive the long-fiber papermaking raw materials transferred by the first transfer mechanism 140 and disperse the long-fiber papermaking raw materials to form long-fiber papermaking slurry; the second transfer mechanism 150 can be used for transferring the short fiber papermaking raw material, and the second pulp dispersing device 220 can receive the short fiber papermaking raw material transferred by the second transfer mechanism 150 and perform pulp dispersing treatment on the short fiber papermaking raw material, so as to form short fiber papermaking pulp.

In summary, those skilled in the art can easily understand that the beneficial effects of the present application are: the scheme of this application discerns the type of papermaking raw materials through adopting response mechanism to adopt the paper making raw materials's that the sorting mechanism will receive from material transmission mechanism's papermaking raw materials and transmit respectively to the transportation station that corresponds first transport mechanism and second transport mechanism according to the type of the papermaking raw materials that response mechanism discerned, thereby can realize adopting one set of transmission device to transmit respectively the papermaking raw materials of different grade type. And the conveying efficiency of different papermaking raw materials can be improved, the whole size of the conveying device can be reduced, and the setting space is reduced.

The above embodiments are merely examples, and not intended to limit the scope of the present disclosure, and all modifications, equivalents, and flow charts using the contents of the specification and drawings of the present disclosure, or their direct or indirect application to other related arts, are included in the scope of the present disclosure.

Claims (11)

1. A transfer device for a slurry dispersing system, the transfer device comprising:

the material conveying mechanism is used for receiving papermaking raw materials;

the sensing mechanism is arranged adjacent to the material conveying mechanism and used for identifying the type of the papermaking raw material;

the classifying mechanism is arranged corresponding to the discharge end of the material conveying mechanism and is in communication connection with the sensing mechanism, and the classifying mechanism is used for receiving the papermaking raw materials conveyed from the discharge end of the material conveying mechanism and conveying the different types of papermaking raw materials to different transfer stations respectively; and

first transport mechanism and second transport mechanism correspond two respectively transport the station setting to be arranged in receiving two respectively transport in the station papermaking raw materials.

2. Transmission device according to claim 1,

the material conveying mechanism comprises a first material conveying mechanism and a second material conveying mechanism, the first material conveying mechanism and the discharge end of the second material conveying mechanism face towards the classifying mechanism, the first material conveying mechanism and the second material conveying mechanism are used for receiving the papermaking raw materials, and the papermaking raw materials face towards the classifying mechanism for transportation.

3. Transmission device according to claim 2,

the material conveying mechanism further comprises a first rotating disc; the discharge end of the first material conveying mechanism and the discharge end of the second material conveying mechanism face towards the first rotary table, a conveying belt is arranged on the first rotary table, and the feeding end of the conveying belt is in butt joint with the discharge ends of the first material conveying mechanism and the second material conveying mechanism respectively through rotation of the first rotary table.

4. Transmission device according to claim 2,

the number of the induction mechanisms is at least two; the two induction mechanisms are respectively arranged adjacent to the first material conveying mechanism and the second material conveying mechanism so as to respectively identify the papermaking raw materials on the first material conveying mechanism and the second material conveying mechanism.

5. Transmission device according to claim 2,

the classification mechanism comprises a transfer device and a guide rail, wherein the transfer device is movably arranged on the guide rail and is movably butted with the discharge ends of the first material conveying mechanism and the second material conveying mechanism respectively through relative movement of the guide rail.

6. Transmission device according to any of claims 1 to 4,

the conveying device further comprises a processing and conveying mechanism and a first shearing mechanism, wherein the input end of the processing and conveying mechanism is arranged corresponding to the discharge end of the material conveying mechanism and used for receiving the papermaking raw materials and conveying the papermaking raw materials towards the classifying mechanism;

the first shearing mechanism is arranged adjacent to the processing and conveying mechanism and is used for shearing the papermaking raw materials on the processing and conveying mechanism.

7. Transmission device according to claim 6,

first shearing mechanism keeps away from material conveying mechanism's discharge end one side still is equipped with and divides the buttress device, divide the buttress device to be used for will shearing after the operation papermaking raw materials put in proper order on handling conveying mechanism.

8. Transmission device according to claim 6,

a position adjusting device is further arranged on one side of the first shearing mechanism, which is far away from the discharging end of the material conveying mechanism;

the position adjusting device is used for adjusting the position of the papermaking raw material on the processing and conveying mechanism.

9. Transmission device according to claim 8,

and a second shearing mechanism is further arranged on one side, away from the first shearing mechanism, of the position adjusting device and used for further shearing the papermaking raw materials passing through the position adjusting device on the processing and conveying mechanism.

10. The transport apparatus according to claim 9, characterized in that the transport apparatus further comprises an abnormality detection mechanism;

the abnormality detection mechanism is used for detecting abnormality of the papermaking raw material which is sheared by the second shearing mechanism.

11. A dispersing system comprising a transfer device according to any of claims 1-10 and first and second dispersing devices;

the first pulp dispersing device is used for receiving the papermaking raw material transmitted by the first transfer mechanism and dispersing the papermaking raw material;

the second slurry dispersing device is used for receiving the papermaking raw materials transmitted by the second transfer mechanism and performing slurry dispersing operation on the papermaking raw materials.

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