CN105648660A - Web forming machine for high-speed hot rolling mill for nonwoven fabrics - Google Patents

Abstract

The invention relates to a web forming machine for a high-speed hot rolling mill for nonwoven fabrics. The web forming machine comprises a web curtain, wherein the web curtain is arranged below a spinning device and is driven to rotate by a conveying mechanism; the web forming machine for the high-speed hot rolling mill for the nonwoven fabrics further comprises a swinging mechanism; the swinging mechanism drives the web curtain to perform side-to-side reciprocating movement or side-to-side swinging below the spinning device; the swinging mechanism drives the web curtain to swing in a first direction and the conveying mechanism drives the web curtain to rotate in a second direction, wherein the first direction and the second direction are perpendicular to each other. The web forming machine for the high-speed hot rolling mill for the nonwoven fabrics, provided by the invention, can control the web curtain to perform side-to-side reciprocating movement or side-to-side swinging, so that filaments ejected from the spinning device fall on the web curtain and then form a spiral shape or a similar shape; after falling on the web curtain, the filaments are relatively oblique to a transverse direction and a longitudinal direction of the web curtain; a cotton web obtained after web forming is uniform in the transverse direction and the longitudinal direction, thereby effectively improving the web strength ratio of machine direction to cross direction of the nonwoven fabric.

Description

Non-weaving cloth high speed hot-rolling mill lapper

Technical field

The present invention relates to a kind of non-weaving cloth high speed hot-rolling mill lapper.

Background technology

Spun-bonded non-woven is to utilize synthetic fiber spinning principle, makes the laid one-tenth net of continuous filament yarn in polymer spinning process, and filament web is reinforced through needle point method, spun lacing method, chemical adhesion method, calendar bonding process or hot blast adhesion method and formed non-weaving cloth. Spun-bond process production technology can adapt to different types of high polymer, technological process is short, and versatile and flexible, technology maturation, high in technological content, automaticity is high, and spinning speed is doubled and redoubled, fiber strength is greatly improved, and fiber is more and more thinner, become net spee increasingly faster, become net uniformity also to become better and better.

On spun-bonded non-woven production line, tow pendulum is formed web by yarn swaying machine by long filament under high velocity air drawing-off on the lace curtaining of lapper, and flows to the reinforcing modular system in rear road, obtains on-woven product, and on-woven product is non-woven fabrics, non-woven mat etc. such as. Tow is put more uniform on lace curtaining, and the surface quality of the non-woven fabrics of output and mechanical property are more good.

But, owing to long filament remains the condition of high temperature also prepattern when by yarn swaying machine, therefore long filament has part and is bonded at yarn swaying machine outlet, causes yarn swaying machine outlet obstruction. And, owing to long filament is when the condition of high temperature falls, by the swing of yarn swaying machine, easily it is interweaved together with adjacent long filament, cause web layout out-of-flatness, owing to whether uniform the thickness of the web after becoming net is, sizing is produced impact, finally the concordance of the grammes per square metre of nonwoven products is produced impact.

Summary of the invention

The technical problem to be solved in the present invention is: for the deficiency overcoming existing spun-bonded non-woven to produce, and the present invention provides a kind of non-weaving cloth high speed hot-rolling mill lapper.

The technical solution adopted for the present invention to solve the technical problems is: a kind of non-weaving cloth high speed hot-rolling mill lapper, including lace curtaining, described lace curtaining is arranged on below a spinning appts, and lace curtaining drives it to rotate by a conveying mechanism, described non-weaving cloth high speed hot-rolling mill lapper also includes a swing mechanism, described swing mechanism drives described lace curtaining at the lower section bilateral reciprocation of spinning appts or to swing, and described swing mechanism drives the swaying direction of lace curtaining to drive the rotation direction of lace curtaining to be mutually perpendicular to described conveying mechanism.Wherein, the track of bilateral reciprocation is a line segment, and the track swung is a camber line.

Described lace curtaining is cycloconveyor belt, and described conveying mechanism includes a drive roll and several live-roller, and described lace curtaining rotates around described drive roll and live-roller.

Described swing mechanism drives described lace curtaining and conveying mechanism synchronous hunting.

Described swing mechanism is bar-link drive, including motor, first connecting rod, second connecting rod and pushing part, one end of described first connecting rod and motor output shaft are fixed, the other end of first connecting rod is hinged with one end of second connecting rod, the other end of described second connecting rod is hinged with described pushing part, and the right position of described pushing part and described lace curtaining is relatively fixed.

Described lace curtaining and conveying mechanism are fixed on a base, and described pushing part drives described base to move back and forth.

Described swing mechanism is cam drive mechanism, including motor, cam and pushing part, described motor drives described cam rotation, and one end of described pushing part is relatively fixed against the right position of the outline of described cam, the other end of described pushing part and described lace curtaining.

Described swing mechanism is gear-rack drive mechanism, and including gear, tooth bar and motor, described motor drives described pinion rotation, and described tooth bar is connected with described gear drive, and described tooth bar and described lace curtaining right position are relatively fixed.

The invention has the beneficial effects as follows, the non-weaving cloth high speed hot-rolling mill lapper of the present invention, lace curtaining bilateral reciprocation can be controlled or swing, long filament from spinning appts ejection is dropped on and after lace curtaining, forms helical form or similar helical form, long filament drops on after on lace curtaining and the horizontal and vertical equal relative tilt of lace curtaining, become the web after net uniform at vertical and horizontal, be effectively improved the vertically and horizontally powerful ratio of non-weaving cloth.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the present invention is further described.

Fig. 1 is the structural representation of the non-weaving cloth high speed hot-rolling mill lapper optimum embodiment of the present invention.

Fig. 2 is that long filament drops on the structural representation forming web on the non-weaving cloth high speed hot-rolling mill lapper of the present invention.

In Fig. 1 and Fig. 2: 1, lace curtaining, 2, spinning appts, 3, drive roll, 4, live-roller, 5, swing mechanism, 6, base, 7, hot-rolling mill roll, 8, web.

Fig. 3 is the structural representation of the first swing mechanism in the non-weaving cloth high speed hot-rolling mill lapper of the present invention.

In Fig. 3: 51a, first connecting rod, 52a, second connecting rod, 53a, pushing part, 6, base.

Fig. 4 is the structural representation of the second swing mechanism in the non-weaving cloth high speed hot-rolling mill lapper of the present invention.

In Fig. 4: 51b, cam, 52b, pushing part, 6, base.

Fig. 5 is the structural representation of the third swing mechanism in the non-weaving cloth high speed hot-rolling mill lapper of the present invention.

In Fig. 5: 51c, motor, 52c, gear, 53c, tooth bar, 6, base.

Fig. 6 is the structural representation of the 4th kind of swing mechanism in the non-weaving cloth high speed hot-rolling mill lapper of the present invention.

In Fig. 6: 51d, gear, 52d, tooth bar, 6, base.

Detailed description of the invention

In conjunction with the accompanying drawings, the present invention is further detailed explanation. These accompanying drawings are the schematic diagram of simplification, and the basic structure of the present invention is only described in a schematic way, and therefore it only shows the composition relevant with the present invention.

As shown in Figure 1-2, a kind of non-weaving cloth high speed hot-rolling mill lapper of the present invention, including lace curtaining 1 and a swing mechanism 5, described lace curtaining 1 is arranged on below a spinning appts 2, and lace curtaining 1 drives it to rotate by a conveying mechanism, described lace curtaining 1 is cycloconveyor belt, and described conveying mechanism includes a drive roll 3 and several live-roller 4, and described lace curtaining 1 rotates around described drive roll 3 and live-roller 4.

Described swing mechanism 5 drives described lace curtaining 1 at the lower section bilateral reciprocation of spinning appts 2. Described swing mechanism 5 drives the swaying direction of lace curtaining 1 to drive the rotation direction of lace curtaining 1 to be mutually perpendicular to described conveying mechanism, and swing mechanism 5 drives described lace curtaining 1 and conveying mechanism synchronous hunting. Certainly, in order to drive lace curtaining 1 make bilateral reciprocation or swing better, it is also possible to arrange horizontal track, the movement locus of restriction lace curtaining 1. In Fig. 1, arrow show conveying mechanism and drives the rotation direction of lace curtaining 1, and swing mechanism 5 drives the swaying direction of lace curtaining 1 inwardly outside for being perpendicular to paper. In Fig. 2, swing mechanism 5 drives the swaying direction of lace curtaining 1 to be the left and right directions shown in arrow.

As shown in Figure 1, non-weaving cloth high speed hot-rolling mill includes spinning appts 2, lapper and hot-rolling mill roll 7, long filament sprays from spinning appts 2, tow is dropped on formation web 8 on the lace curtaining 1 of lapper, and flow to the reinforcing modular system in rear road, instant heating rolling mill roll 7, obtains on-woven product, and on-woven product is non-woven fabrics, non-woven mat etc. such as. Due to lace curtaining 1 bilateral reciprocation or swing, long filament from spinning appts 2 ejection is dropped on and after lace curtaining 1, forms helical form or similar helical form, as shown in Figure 2, long filament drops on after on lace curtaining 1 and the horizontal and vertical equal relative tilt of lace curtaining 1, become the web 8 after net uniform at vertical and horizontal, be effectively improved the vertically and horizontally powerful ratio of non-weaving cloth.

The structure of swing mechanism 5 has a variety of, can be four kinds of structures as seen in figures 3-6, certainly can also is that other reciprocating mechanism or swing mechanism, such as can also is that and driven vibration by eccentric, then the movement locus of lace curtaining 1 and conveying mechanism is limited by guide rail so that reciprocal about lace curtaining 1 and conveying mechanism. Specifically, the swing mechanism 5 of the present invention can be following several:

As shown in Figure 3, described swing mechanism 5 is bar-link drive, including motor, first connecting rod 51a, second connecting rod 52a and pushing part 53a, one end of first connecting rod 51a and motor output shaft are fixed, the other end of first connecting rod 51a is hinged with one end of second connecting rod 52a, the other end of second connecting rod 52a is hinged with pushing part 53a, and the right position of pushing part 53a and lace curtaining 1 is relatively fixed. Lace curtaining 1 and conveying mechanism are fixed on a base 6, and pushing part 53a drives base 6 to move back and forth.

As shown in Figure 4, described swing mechanism 5 is cam drive mechanism, and including motor, cam 51b and pushing part 52b, motor drives described cam 51b to rotate, one end of pushing part 52b is relatively fixed against the right position of the outline of described cam 51b, the other end of pushing part 52b and described lace curtaining 1. It may be that lace curtaining 1 and conveying mechanism are fixed on a base 6, pushing part 52b drives base 6 to move back and forth.

As shown in Figure 5, described swing mechanism 5 is gear-rack drive mechanism, and including gear 52c, tooth bar 53c and motor 51c, described motor 51c drives described gear 52c to rotate, described tooth bar 53c and described gear 52c is in transmission connection, and described tooth bar 53c and described lace curtaining 1 right position are relatively fixed. It may be that lace curtaining 1 and conveying mechanism are fixed on a base 6, tooth bar 53c drives base 6 to move back and forth. Wherein, motor 51c rotates and reverse alternate rotation, to realize the reciprocating motion of tooth bar 53c.

As shown in Figure 6, described swing mechanism 5 is gear-rack drive mechanism, and including gear 51d, tooth bar 52d and motor, described motor drives described gear 51d to rotate, described tooth bar 52d and described gear 51d is in transmission connection, and described tooth bar 52d and described lace curtaining 1 right position are relatively fixed.Described tooth bar 52d includes the upper rack that is oppositely arranged and lower tooth bar, and described gear 51d is between upper rack and lower tooth bar. Gear 51d rotates a circle, and wherein half-turn drives upper rack to move right, and additionally half-turn drives lower tooth bar to be moved to the left. It may be that lace curtaining 1 and conveying mechanism are fixed on a base 6, upper rack and the lower tooth bar of tooth bar 52d are structure as a whole, and tooth bar 52d drives base 6 to move back and forth.

With the above-mentioned desirable embodiment according to the present invention for enlightenment, by above-mentioned description, relevant staff in the scope not necessarily departing from this invention technological thought, can carry out various change and amendment completely. The technical scope of this invention is not limited to the content in description, it is necessary to determine its technical scope according to right.

Claims (7)

1. a non-weaving cloth high speed hot-rolling mill lapper, including lace curtaining (1), described lace curtaining (1) is arranged on a spinning appts (2) lower section, and lace curtaining (1) drives it to rotate by a conveying mechanism, it is characterized in that: also include a swing mechanism (5), described swing mechanism (5) drives described lace curtaining (1) at the lower section bilateral reciprocation of spinning appts (2), and described swing mechanism (5) drives the swaying direction of lace curtaining (1) to drive the rotation direction of lace curtaining (1) to be mutually perpendicular to described conveying mechanism.

2. non-weaving cloth high speed hot-rolling mill lapper as claimed in claim 1, it is characterized in that: described lace curtaining (1) is cycloconveyor belt, described conveying mechanism includes a drive roll (3) and several live-roller (4), and described lace curtaining (1) rotates around described drive roll (3) and live-roller (4).

3. non-weaving cloth high speed hot-rolling mill lapper as claimed in claim 1, it is characterised in that: described swing mechanism (5) drives described lace curtaining (1) and conveying mechanism synchronous hunting.

4. non-weaving cloth high speed hot-rolling mill lapper as claimed in claim 1, it is characterized in that: described swing mechanism (5) is bar-link drive, including motor, first connecting rod (51a), second connecting rod (52a) and pushing part (53a), one end of described first connecting rod (51a) and motor output shaft are fixed, the other end of first connecting rod (51a) is hinged with one end of second connecting rod (52a), the other end of described second connecting rod (52a) is hinged with described pushing part (53a), the right position of described pushing part (53a) and described lace curtaining (1) is relatively fixed.

5. non-weaving cloth high speed hot-rolling mill lapper as claimed in claim 4, it is characterized in that: described lace curtaining (1) and conveying mechanism are fixed on a base (6), described pushing part (53a) drives described base (6) to move back and forth.

6. non-weaving cloth high speed hot-rolling mill lapper as claimed in claim 1, it is characterized in that: described swing mechanism (5) is cam drive mechanism, including motor, cam (51b) and pushing part (52b), described motor drives described cam (51b) to rotate, one end of described pushing part (52b) is relatively fixed against the right position of the outline of described cam (51b), the other end of described pushing part (52b) and described lace curtaining (1).

7. non-weaving cloth high speed hot-rolling mill lapper as claimed in claim 1, it is characterized in that: described swing mechanism (5) is gear-rack drive mechanism, including gear (52c, 51d), tooth bar (53c, 52d) with motor (51c), described motor (51c) drives described gear (52c, 51d) rotate, described tooth bar (53c, 52d) it is in transmission connection with described gear (52c), described tooth bar (53c, 52d) and described lace curtaining (1) right position are relatively fixed.