CN207815913U - Aramid fiber drying unit - Google Patents

Abstract

The utility model belongs to aramid fiber production technical field, and in particular to aramid fiber drying unit, including shell, cover top portion is equipped with hot gas path, hot gas path is connected to multiple hot gas nozzles, and hot gas nozzle is mounted on the inner wall of shell, and the top of shell is equipped with multiple offgas outlets；The both ends of shell are respectively equipped with circular through-hole, and through-hole is respectively as into silk mouth and filament mouth；Circular sheet rubber is installed, sheet rubber is symmetrically divided into multiple sectors centered on the center of circle in through-hole；Horizontal sliding rail is equipped between two through-holes, sliding rail is equipped with sliding block, is provided with pin hole on sliding block, and the center of circle of pin hole center and sheet rubber is in the same horizontal line；Sliding block is high-temperature resistant rubber material；Further include filament-perforating needle, the diameter of filament-perforating needle is not less than the aperture of pin hole.The utility model device is simple in structure, whole more to seal, and provided with sliding block for wearing silk, adds a process that need not open shell, reduces the loss of shell endogenous pyrogen, saved the energy.

Description

Aramid fiber drying unit

Technical field

The utility model belongs to aramid fiber production technical field, and in particular to a kind of aramid fiber drying unit.

Background technology

It is a kind of high performance organic fiber that aramid fiber, which is also known as aromatic polyamide fibre, has high-strength and high-modulus, resistance to height Temperature, light specific gravity, shock resistance, endurance, chemical stability be good, low bulk, low heat conduction the advantages that, therefore in aerospace field It is applied the reinforcing material of composite material, however aramid fiber surface has comparable inertia, the combination between resin base material Property is poor, needs to handle aramid fiber surface, to improve its adhesive property.In surface treatment process, need to carry out clear It washes, needs to dry after cleaning.Traditional drying is all that fiber passes through hot-air seasoning, and due to being continuous operation, aramid fiber does not stop Disengaging, therefore equipment poor sealing causes the waste of the energy.

Utility model content

In view of the above technical problems, the utility model provides a kind of energy-efficient aramid fiber drying unit.

Specific technical solution is：

Aramid fiber drying unit, including shell, the cover top portion are equipped with hot gas path, and hot gas path connection is multiple Hot gas nozzle, the hot gas nozzle are mounted on the inner wall of shell, and the top of shell is equipped with multiple offgas outlets；Described is outer The both ends of shell are respectively equipped with circular through-hole, and through-hole is respectively as into silk mouth and filament mouth；Circle is installed in the through-hole Sheet rubber, the sheet rubber is symmetrically divided into multiple sectors centered on the center of circle；It is equipped between through-hole described in two Horizontal sliding rail, the sliding rail are equipped with sliding block, are provided with pin hole on the sliding block, the pin hole center and sheet rubber The center of circle is in the same horizontal line；The sliding block is high-temperature resistant rubber material；Further include filament-perforating needle, the diameter of the filament-perforating needle Not less than the aperture of pin hole.

Further, the lower half of the symmetrical distribution of the hot gas nozzle inside the housing, and export towards two Connecting line where a through-hole.

Preferably, the pin hole shape on the sliding block is horizontal positioned conical cavity, and larger one end is towards into silk Mouthful, smaller one end is towards filament mouth.

Specifically, the sliding rail is the guide rail of two arcs, it is symmetrically installed below through-hole, is stayed between two guide rails There are gap, the hot gas nozzle to be located at the gap location between two guide rails；The sliding block is cylinder, and horizontal is mounted on On guide rail.

Aramid fiber drying unit provided by the utility model, device structure is simple, whole more to seal, and is provided with sliding block For wearing silk, adds a process that need not open shell, reduce the loss of shell endogenous pyrogen, saved the energy.

Description of the drawings

Fig. 1 is the longitudinal profile structure schematic of the utility model；

Fig. 2 is the cross-sectional profile structural schematic diagram of the utility model；

Fig. 3 is the cross-sectional profile structural schematic diagram with sliding block of the utility model.

Specific implementation mode

Below by embodiment combination attached drawing, the utility model will be further described.

As depicted in figs. 1 and 2, aramid fiber drying unit, including shell 1,1 top of shell are equipped with hot gas path 4, hot gas path 4 is connected to multiple hot gas nozzles 3, and the hot gas nozzle 3 is mounted on the inner wall of shell 1, and the top of shell 1 is set There are multiple offgas outlets 2；

The both ends of the shell 1 are respectively equipped with circular through-hole, and through-hole is respectively as into silk mouth and filament mouth；Described Circular sheet rubber 5 is installed, the sheet rubber 5 is symmetrically divided into multiple sectors centered on the center of circle in through-hole；Two Horizontal sliding rail 6 is equipped between the through-hole, the sliding rail 6 is equipped with sliding block 7, pin hole 8 is provided on the sliding block 7, The center of circle at 8 center of pin hole and sheet rubber 5 is in the same horizontal line；The sliding block 7 is high-temperature resistant rubber material；Also wrap Filament-perforating needle is included, the diameter of the filament-perforating needle is not less than the aperture of pin hole 8.

The structure of filament-perforating needle is as common sewing needle structure, and there is needle point in one end, and the other end is equipped with the other eye of needle, for wearing Silk.

The fiber dried is needed to be put on filament-perforating needle, then filament-perforating needle enters from into silk mouth, through on sliding block 7, due to rubbing Power is wiped, sliding block 7 is sleeved on filament-perforating needle, promotes filament-perforating needle, band movable slider 7 to be slided on sliding rail 6, sliding block 7 and filament-perforating needle move together Filament mouth is moved, filament-perforating needle is firmly then passed through into sliding block 7, filament-perforating needle is extracted from filament mouth, removes filament-perforating needle.It is this to wear silk Method, can filament-perforating needle quickly be passed through into shell 1, and shell 1 can reduce the damage of heat with the design of opposing seal It loses.The through-hole at both ends is blocked by sheet rubber 5.

The symmetrical lower half being distributed in inside shell 1 of the hot gas nozzle 3, and export towards two through-hole institutes Connecting line.The aramid fiber that hot gas is risen bottom-up between through-hole is dried.

As shown in figures 1 and 3,8 shape of pin hole on the sliding block 7 is horizontal positioned conical cavity, larger one End is towards into silk mouth, and smaller one end is towards filament mouth.Conical cavity is primarily to prevent cannot between filament-perforating needle and pin hole 8 Form enough frictional force.

The sliding rail 6 is the guide rail of two arcs, is symmetrically installed below through-hole, and there are skies between two guide rails Gap；The sliding block 7 is cylinder, and horizontal is mounted on guide rail, between the hot gas nozzle 3 is located between two guide rails At gap.Sliding block 6 is not interfere with each other mutually with hot gas nozzle 3.

Specific embodiment described herein is given an example to the design of the utility model.The utility model institute Belonging to those skilled in the art can make various modifications or additions to the described embodiments or using similar Mode substitute, but without departing from the spirit of the present application or beyond the scope of the appended claims.

Claims (4)

1. aramid fiber drying unit, including shell, the cover top portion is equipped with hot gas path, and hot gas path is connected to multiple heat Gas nozzle, the hot gas nozzle are mounted on the inner wall of shell, and the top of shell is equipped with multiple offgas outlets；

It is characterized in that, the both ends of the shell are respectively equipped with circular through-hole, through-hole is respectively as into silk mouth and filament mouth； Circular sheet rubber is installed, the sheet rubber is symmetrically divided into multiple sectors centered on the center of circle in the through-hole； Horizontal sliding rail is equipped between through-hole described in two, the sliding rail is equipped with sliding block, is provided with pin hole on the sliding block, institute The center of circle at the pin hole center and sheet rubber stated is in the same horizontal line；The sliding block is high-temperature resistant rubber material；Further include wearing Silk needle, the diameter of the filament-perforating needle are not less than the aperture of pin hole.

2. aramid fiber drying unit according to claim 1, which is characterized in that symmetrical point of the hot gas nozzle The lower half of cloth inside the housing, and export towards the connecting line where two through-holes.

3. aramid fiber drying unit according to claim 1, which is characterized in that the pin hole shape on the sliding block is Horizontal positioned conical cavity, larger one end is towards into silk mouth, and smaller one end is towards filament mouth.

4. aramid fiber drying unit according to claim 1, which is characterized in that the sliding rail is leading for two arcs Rail is symmetrically installed below through-hole, and there are gaps, the hot gas nozzle to be located between two guide rails between two guide rails Gap location；The sliding block is cylinder, and horizontal is mounted on guide rail.