CN203999977U - A kind of anti-jamming card wire structure - Google Patents

Abstract

The utility model provides a kind of anti-jamming card wire structure, comprise card wire and needle stand, described card wire is hinged on described needle stand, described needle stand limits described card wire vertically swinging to the horizontal line of sliver transmission direction one side, on described card wire, be provided with magnet, what described magnet one side coordinated is provided with solenoid, described solenoid attracts the magnet on described card wire to make card wire keep vertical, one side of described card wire is provided with the described card wire of induction the sensor component swinging occurs under plumbness, described in described sensor component control, the power supply of solenoid opens and closes, in the utility model, card wire is subject to after the active force of sliver fast knot, described sensor component disconnects the power supply of described induction coil, described card wire is moved to by fast knot, because card wire is disconnected power supply at a moment shaking, therefore, the active force that card wire is subject to fast knot is very little, prevent that sliver is pulled off.

Description

A kind of anti-jamming card wire structure

Affiliated technical field

The utility model relates to textile machine apparatus field, especially, is a kind of for comb and parallel cotton fibers prior to spinning anti-jamming card wire structure mechanically.

Background technology

Comb and parallel cotton fibers prior to spinning is to utilize cover-plate type or roller type carding machine, by dial motion, is filament state little flock combing, further removes impurity and not spinnable staple fibre, makes that fiber is parallel to be stretched, and finally makes sliver dish and enters in bar cylinder.After Blowing-carding Unit processing, in lap or loose wool, fiber is loose cotton piece, flock state more, and contain 40%～50% impurity, wherein majority is fiber impurity tiny, that adhesiveness is stronger (seed as broken in band fiber, mote, soft seed epidermis, cotton knot etc.), so fibre bundle thoroughly must be resolved into single fiber, removing remains in fine impurities wherein, the composition fiber that makes respectively to distribute cotton is fully mixed under filament state, makes uniform sliver to meet the requirement of later process.

Carding machine mainly relies on card wire to carry out combing to flock, flock at the uniform velocity passes through card wire under the driving of coiler device, because the fibrous septum of flock itself is less, what therefore the diameter of card wire also did is relatively thin, and flock is in the time that entirety is passed through card wire, if the subregional fiber knotting of generating unit, flock also can be by force through combing needle, the now knotting in flock can aggravate, and further break cotton fiber, produce a large amount of staple fibres, and flock also can be torn, frangibility card wire when more serious, and traditional card wire buffer structure cannot make card wire recover active state completely the very first time.

Utility model content

In order to address the above problem, the purpose of this utility model is to provide a kind of anti-jamming card wire structure, and the sliver that this anti-jamming card wire structure can prevent card wire and knotting is stuck.

The utility model solves the technical scheme that its technical problem adopts:

This anti-jamming card wire structure comprises card wire and needle stand, described card wire is hinged on described needle stand, described needle stand limits described card wire vertically swinging to the horizontal line of sliver transmission direction one side, on described card wire, be provided with magnet, what described magnet one side coordinated is provided with solenoid, described solenoid attracts the magnet on described card wire to make card wire keep vertical, one side of described card wire is provided with the described card wire of induction the sensor component swinging occurs under plumbness, the power supply of solenoid switching described in described sensor component control.

As preferably, the root negative side of described card wire extends into rocking arm, and described magnet is set in described rocking arm, and described induction coil arranges corresponding described magnet and be arranged on transmission direction one side of sliver.

As preferably, described solenoid is electrically connected with a current inductor, and described current inductor forms described sensor component.

As preferably, on described needle stand, be provided with the storage hole of the described card wire that coordinates lodging.

The advantage of utility model is:

If sliver produces the fast knot that can not get loose, fast knot pulls described card wire to overcome the attraction of described induction coil to described magnet, due to magnet and the variation of described induction coil occurrence positions, therefore the magnetic field of magnet reacts on described induction coil, the electric current of described induction coil changes, described current inductor senses described curent change, disconnect the power supply of described induction coil, described card wire is moved to by fast knot, because card wire is disconnected power supply at a moment shaking, therefore, the active force that card wire is subject to fast knot is very little, prevents that sliver is pulled off.

Brief description of the drawings

Fig. 1 is the structural representation of this anti-jamming card wire structure card wire plumbness.

Fig. 2 is the structural representation of this anti-jamming card wire structure card wire lodging state.

Detailed description of the invention

Below in conjunction with drawings and Examples, the utility model is further illustrated:

In the present embodiment, consult Fig. 1 and Fig. 2, this anti-jamming card wire structure comprises card wire 200 and needle stand 100, described card wire 200 is hinged on described needle stand 100, described needle stand 100 limits described card wire 200 vertically swinging to the horizontal line of sliver 10 transmission direction one sides, on described card wire 200, be provided with magnet 220, what described magnet 220 1 sides coordinated is provided with solenoid 300, described solenoid 300 attracts the magnet 220 on described card wire 200 to make card wire 200 keep vertical, one side of described card wire 200 is provided with the described card wire 200 of induction the sensor component swinging occurs under plumbness, described in described sensor component control, the power supply of solenoid 300 opens and closes.

Above-mentioned anti-jamming card wire structure, the root negative side of described card wire 200 extends into rocking arm 210, described rocking arm 210 is interior arranges described magnet 220, described induction coil 300 arranges corresponding described magnet 220 and is arranged on transmission direction one side of sliver 10, make induction coil 300 be positioned at described needle stand 100, prevent from affecting the transmission of sliver 10.

Above-mentioned anti-jamming card wire structure, described solenoid 300 is electrically connected with a current inductor, described current inductor forms described sensor component, if sliver 10 produces the fast knot that can not get loose, fast knot pulls described card wire 200 to overcome the attraction of described induction coil 300 to described magnet 220, because magnet 220 and described induction coil 300 occurrence positions change, therefore the magnetic field of magnet 220 reacts on described induction coil 300, the electric current of described induction coil 300 changes, described current inductor senses described curent change, disconnect the power supply of described induction coil 300, described card wire 200 is moved to by fast knot.

Above-mentioned anti-jamming card wire structure, the storage that is provided with the described card wire 200 that coordinates lodging on described needle stand 100 cheats 110, prevents that the card wire 200 of lodging from affecting the transmission of sliver 10.

The foregoing is only preferred embodiment of the present utility model, not in order to limit the utility model, all within spirit of the present utility model and principle, any amendment of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims (4)

1. an anti-jamming card wire structure, comprise card wire (200) and needle stand (100), it is characterized in that: described card wire (200) is hinged on described needle stand (100), described needle stand (100) limits described card wire (200) vertically to swinging in the horizontal line of sliver (10) transmission direction one side, on described card wire (200), be provided with magnet (220), what described magnet (220) one sides coordinated is provided with solenoid (300), described solenoid (300) attracts the magnet (220) on described card wire (200) to make card wire (200) keep vertical, one side of described card wire (200) is provided with the described card wire of induction (200) sensor component swinging occurs under plumbness, described in described sensor component control, the power supply of solenoid (300) opens and closes.

2. anti-jamming card wire structure according to claim 1, it is characterized in that: the root negative side of described card wire (200) extends into rocking arm (210), described magnet (220) is set in described rocking arm (210), and described induction coil (300) arranges corresponding described magnet (220) and is arranged on transmission direction one side of sliver (10).

3. anti-jamming card wire structure according to claim 1, is characterized in that: described solenoid (300) is electrically connected with a current inductor, and described current inductor forms described sensor component.

4. anti-jamming card wire structure according to claim 1, is characterized in that: the storage hole (110) that is provided with the described card wire (200) that coordinates lodging on described needle stand (100).