CN219897916U

CN219897916U - Wood pulp ES fiber mixing equipment

Info

Publication number: CN219897916U
Application number: CN202223355221.XU
Authority: CN
Inventors: 林笛; 黄雨昕
Original assignee: Quanzhou Hanwei Machinery Manufacturing Co Ltd
Current assignee: Quanzhou Hanwei Machinery Manufacturing Co Ltd
Priority date: 2022-12-13
Filing date: 2022-12-13
Publication date: 2023-10-27
Anticipated expiration: 2032-12-13

Abstract

The utility model relates to the field of disposable sanitary product production, and provides wood pulp ES fiber mixing equipment which is mainly used for producing a core body, and comprises a wood pulp frame, a wood pulp grinder connected with the wood pulp frame, a high polymer forming bin connected with the wood pulp grinder, fiber grinding equipment connected with the high polymer forming bin, a transfer wheel arranged at the bottom of the high polymer forming bin, a first conveying mechanism for conveying a first non-woven fabric, a second conveying mechanism for conveying a second non-woven fabric, a composite roller mechanism and a thermosetting device, wherein the composite roller mechanism can combine the first non-woven fabric, an absorber and the second non-woven fabric into the core body, and the core body sequentially passes through the composite roller mechanism and the thermosetting device. The valve port in the macromolecule forming bin can be controlled to control the blanking speed of the macromolecule forming bin and the valve port, wood pulp and ES fiber can be mixed according to a specific proportion, and a core with superior performance can be obtained. The technical problem that wood paddles and ES fibers are difficult to mix according to a specific proportion is solved.

Description

Wood pulp ES fiber mixing equipment

Technical Field

The utility model relates to the field of disposable sanitary article production, in particular to wood pulp ES fiber mixing equipment.

Background

Chinese patent application No.: 201921592832.1A polymer particle feeding device comprises a feed opening, a storage container, a feed container and a feed metering and conveying mechanism, wherein the feed metering and conveying mechanism is positioned at the bottom of the feed container; the feeding metering and conveying mechanism comprises a blanking roller assembly, a driving mechanism and an adjusting assembly; the blanking roller assembly comprises a blanking roller, a driving shaft and a connecting sleeve. The blanking rollers are at least two, are arranged in the axial direction of the driving shaft, any two adjacent blanking rollers are detachably arranged on the driving shaft through respective connecting sleeves, and any two adjacent blanking rollers are arranged in parallel. The conventional polymer feeding device has difficulty in mixing wood pulp and ES fibers in a specific ratio due to process limitations.

Disclosure of Invention

Accordingly, in view of the above problems, the present utility model provides a wood pulp ES fiber mixing apparatus. The technical problem that wood paddles and ES fibers are difficult to mix according to a specific proportion is solved.

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

the utility model provides a wood pulp ES fiber mixing apparatus, its mainly used produces the core, including the wood pulp frame, connect in the wood pulp grinder of wood pulp frame, connect in the polymer shaping storehouse of wood pulp grinder, connect in the fiber crushing apparatus in polymer shaping storehouse, locate the transfer wheel in polymer shaping storehouse bottom, carry the first conveying mechanism of first non-woven fabrics, carry the second conveying mechanism of second non-woven fabrics, compound roller mechanism, thermosetting device, compound roller mechanism can be with first non-woven fabrics, absorber, second non-woven fabrics complex into the core, the core passes through compound roller mechanism, thermosetting device in proper order.

Further:

the embossing roller is arranged at the rear part of the thermosetting device.

The winding mechanism is arranged at the rear part of the thermosetting device.

The device further comprises a compacting roller, wherein the compacting roller is positioned between the composite roller mechanism and the thermosetting device.

The high polymer forming bin is provided with two blanking channels, the fiber crushing equipment and the wood pulp crusher are respectively connected to the corresponding blanking channels, the blanking channels are provided with a plurality of blanking openings, and the blanking openings are provided with blanking valves.

And a plurality of blowing devices are arranged on the inner wall of the macromolecule forming bin and are positioned below the two discharging channels.

The blanking channel is parallel to the axial direction of the transfer wheel, the blowing devices are provided with at least one row, each row of blowing devices is parallel to the axial direction of the transfer wheel, and when the blowing devices are two rows, the two rows of blowing devices are oppositely arranged.

The blowing direction of the blowing device is inclined downwards.

The two blanking channels are flush.

By adopting the technical scheme, the utility model has the beneficial effects that:

the wood pulp grinder disclosed by the utility model is used for grinding wood pulp into fiber, the ES fibers are ground by the fiber grinding equipment and then mixed in the high-polymer forming bin, the valve ports in the high-polymer forming bin can be controlled to control the discharging speed of the high-polymer forming bin and the ES fibers, and the wood pulp and the ES fibers can be mixed according to a specific proportion, so that the core with excellent performance is obtained. Further, the embossing roll presses the material out of the desired pattern. Further, the winding mechanism is used for completing winding of the molded core body, and the device can continuously wind without reducing or stopping. Further, the compaction roller may compact the core to provide a stronger bond between the ES fibers and the wood pulp. Furthermore, the blanking valve can control different blanking speeds of wood pulp and ES fibers, so that the wood pulp and the ES fibers at different positions are mixed in different proportions, and a core with better performance is obtained. Further, the arrangement of the blowing device enables the wood pulp and the ES fibers to be mixed more fully. Further, the blowing direction of the blowing device is inclined downwards, so that wood pulp and ES fibers are prevented from being blown into the blowing device, and the speeds of the wood pulp and the ES fibers are accelerated.

Drawings

FIG. 1 is a schematic view of a mixing apparatus according to an embodiment;

FIG. 2 is a schematic view showing a partial structure of a mixing apparatus according to an embodiment;

FIG. 3 is a schematic view of a polymer molding bin according to an embodiment;

FIG. 4 is a schematic view of a wood pulp frame according to an embodiment;

FIG. 5 is a schematic structural view of a core;

fig. 6 is a schematic structural diagram of a polymer molding bin according to the second embodiment.

Fig. 7 is a schematic view of another view angle structure of the polymer molding bin according to the second embodiment.

Detailed Description

The utility model will now be further described with reference to the drawings and detailed description.

Embodiment one:

referring to fig. 1 to 5, the present embodiment provides a wood pulp ES fiber mixing apparatus, which is mainly used for producing a core 13, and includes a wood pulp frame 1, a wood pulp grinder 2 connected to the wood pulp frame 1, a polymer forming bin 3 connected to the wood pulp grinder 2, a fiber grinding apparatus 4 connected to the polymer forming bin 3, a transfer wheel 5 disposed at the bottom of the polymer forming bin 3, a first conveying mechanism 6 for conveying a first nonwoven fabric, a second conveying mechanism 7 for conveying a second nonwoven fabric, a composite roller mechanism 8, and a thermosetting device 10, wherein the composite roller mechanism 8 is capable of compounding the first nonwoven fabric, an absorber, and the second nonwoven fabric into a core 13, and the core 13 sequentially passes through the composite roller mechanism 8 and the thermosetting device 10. Also included is an embossing roller 13 located at the rear of the heat setting device 10. And a winding mechanism 12 arranged at the rear part of the thermosetting device 10. A compacting roller 9 is also included, said compacting roller 9 being located between said composite roller mechanism 8 and said thermosetting means 10.

The embossing roller 11 and the winding mechanism 12 may have other structures, which are known structures, and are specifically set according to circumstances.

The polymer forming bin 3, the fiber crushing device 4 and the wood pulp crusher 2 are of known structures, and are not described in detail herein.

The composite roller mechanism 8 and the thermosetting device 10 may have other structures, and are well known structures, and are specifically set according to circumstances.

The first embodiment works as follows:

the wood pulp grinder 2 grinds wood pulp into fiber shape, after the fiber grinding device 4 grinds ES fiber, wood pulp and ES fiber mix in the polymer shaping storehouse 3, can mix wood pulp and ES fiber according to specific proportion, compound first non-woven fabrics, the absorber, the second non-woven fabrics in compound roller mechanism 8 department and become core 13, enter compaction roller 9 back and compact core 13, make ES fiber and wood pulp combine more firm, later get into embossing roller 11, accomplish by winding mechanism 12 rolling after the required flower pattern of extrusion.

Embodiment two:

referring to fig. 1 to 7, the main difference between the second embodiment and the first embodiment is that: the second embodiment is characterized in that two blanking channels 31 are arranged on the polymer molding bin 3, the fiber crushing device 4 and the wood pulp crusher 2 are respectively connected to the corresponding blanking channels 31, a plurality of blanking openings 32 are arranged on the blanking channels 31, and blanking valves 33 are arranged on the blanking openings 32. A plurality of blowing devices 34 are arranged on the inner wall of the macromolecule forming bin 3, and the blowing devices 34 are positioned below the two discharging channels 31. The discharging channel 31 is parallel to the axial direction of the transfer wheel 5, the blowing devices 34 are provided with at least one row, each row of blowing devices 34 is parallel to the axial direction of the transfer wheel 5, and when the blowing devices 34 are arranged in two rows, the two rows of blowing devices 34 are oppositely arranged. The blowing direction of the blowing device 34 is inclined downward. The two blanking channels 31 are flush.

The number of the feed openings 32 may be one, two or more, and the number is specifically set according to circumstances.

The number of the above-mentioned blanking valves 33 may be one, two or more, and is particularly set according to circumstances.

The blowing device 34 may be provided in one, two or more, or may not be provided, and this structure may not provide good mixing effect of wood pulp and ES fibers, and may be provided according to circumstances.

The blowing direction of the blowing device 34 may be parallel, and may be set according to circumstances.

The two discharging passages 31 may also be arranged obliquely, in particular according to the situation.

The working mode of the second embodiment is as follows:

when the absorbent material is introduced into the discharging channel 31, the discharging valve 33 can control different discharging speeds of wood pulp and ES fibers, the air blowing device 34 is arranged to enable the wood pulp and the ES fibers to be fully mixed, and the wood pulp and the ES fibers can be controlled to be mixed according to different proportions, so that the core 13 with better performance is obtained.

While the utility model has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims

1. A wood pulp ES fiber mixing apparatus, primarily for producing a core, characterized in that: including wood pulp frame, connect in wood pulp grinder of wood pulp frame, connect in the polymer shaping storehouse of wood pulp grinder, connect in the fiber crushing equipment in polymer shaping storehouse, locate the transfer wheel in polymer shaping storehouse bottom, carry the first conveying mechanism of first non-woven fabrics, carry the second conveying mechanism of second non-woven fabrics, compound roller mechanism, thermosetting device, compound roller mechanism can be with first non-woven fabrics, absorber, second non-woven fabrics complex into the core, the core passes through compound roller mechanism, thermosetting device in proper order.

2. The wood pulp ES fiber mixing apparatus of claim 1 wherein: the embossing roller is arranged at the rear part of the thermosetting device.

3. The wood pulp ES fiber mixing apparatus of claim 1 wherein: the winding mechanism is arranged at the rear part of the thermosetting device.

4. The wood pulp ES fiber mixing apparatus of claim 1 wherein: the device further comprises a compacting roller, wherein the compacting roller is positioned between the composite roller mechanism and the thermosetting device.

5. A wood pulp ES fiber mixing apparatus according to any one of claims 1 to 4, wherein: the high polymer forming bin is provided with two blanking channels, the fiber crushing equipment and the wood pulp crusher are respectively connected to the corresponding blanking channels, the blanking channels are provided with a plurality of blanking openings, and the blanking openings are provided with blanking valves.

6. The wood pulp ES fiber mixing apparatus of claim 5 wherein: and a plurality of blowing devices are arranged on the inner wall of the macromolecule forming bin and are positioned below the two discharging channels.

7. The wood pulp ES fiber mixing apparatus of claim 6 wherein: the blanking channel is parallel to the axial direction of the transfer wheel, the blowing devices are provided with at least one row, each row of blowing devices is parallel to the axial direction of the transfer wheel, and when the blowing devices are two rows, the two rows of blowing devices are oppositely arranged.

8. The wood pulp ES fiber mixing apparatus of claim 7 wherein: the blowing direction of the blowing device is inclined downwards.

9. The wood pulp ES fiber mixing apparatus of claim 5 wherein: the two blanking channels are flush.