CN204150790U - A kind of yarn cylinder kinetic energy deposit structure - Google Patents

Abstract

The utility model provides a kind of yarn cylinder kinetic energy to lay in structure, comprise the hollow roller of carrying yarn cylinder, the outside face of described hollow roller is periphery the clamping component of fixed yarn cylinder, the axial line of described hollow roller is provided with the axle drive shaft that driver drives rotates, described hollow roller is flexibly connected with described axle drive shaft, liquid working substance is full of in described hollow roller, on axle drive shaft in described hollow roller, uniform ring is furnished with the radial blade arranged, on described hollow roller inwall, uniform ring is furnished with the rotating shaft axially arranged, described rotating shaft drives synchronous axial system by drive member, described rotating shaft is provided with turnover panel, under the opening and draw in of turnover panel described in the utility model can make described hollow roller be operated in rotation and nonrotating state, the loading of whole yarn cylinder and depart from described hollow roller, all need not stop yarn cylinder up-coiler, and hollow roller just forms the lightest part of whole driving yarn barrel structure quality, therefore kinetic energy rejection is very little.

Description

A kind of yarn cylinder kinetic energy deposit structure

Technical field

The utility model relates to weaving manufacturing equipment field, especially, is the kinetic energy deposit structure of a kind of yarn cylinder winding.

Background technology

Weaving loom is twisted with the fingers many vegetable fibres and is spun into line or yarn together, and these lines or yarn can be used to be made into cloth.The yarn that spinning is formed needs to adopt bobbin to carry out being wound into ingot, yarn is as the primary product of textile industry, its demand is very high, therefore the use amount of the bobbin of winding yarn is also very large, what wind2 was in a row bang into wind2 reels to yarn, the propulsive effort needed is very large, after bobbin completes winding, all need to suspend wind2 more to renew yarn cylinder, in the operation changed, the time-out of wind2 all needs to use corresponding brake gear to brake, and causes whole device kinetic energy to waste larger.

Utility model content

In order to solve the problem, the purpose of this utility model is to provide a kind of yarn cylinder kinetic energy to lay in structure, and this yarn cylinder kinetic energy deposit structure can store the kinetic energy of yarn cylinder winding-structure.

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

This yarn cylinder kinetic energy deposit structure comprises the hollow roller of carrying yarn cylinder, the outside face of described hollow roller is periphery the clamping component of fixed yarn cylinder, the axial line of described hollow roller is provided with the axle drive shaft that driver drives rotates, described hollow roller is flexibly connected with described axle drive shaft, liquid working substance is full of in described hollow roller, on axle drive shaft in described hollow roller, uniform ring is furnished with the radial blade arranged, on described hollow roller inwall, uniform ring is furnished with the rotating shaft axially arranged, described rotating shaft drives synchronous axial system by drive member, described rotating shaft is provided with turnover panel, described turnover panel is consistent relative to the eccentric angle of described hollow roller.

As preferably, the inwall of described hollow roller is provided with the cavity adapting to described turnover panel.

As preferably, described drive member comprises the first magnet be arranged in described turnover panel and the second magnet be arranged in described axle drive shaft, and described second magnet is that the switchable magnet coil of polarity is formed.

As preferably, described clamping component comprises the drop in leaf be periphery outside described hollow roller, described drop in leaf is synchronized with the movement, and described drop in leaf is connected with the rotating shaft power of described turnover panel, and described turnover panel and described drop in leaf synchronously leave and the wall of described hollow roller of fitting.

The utility model has the advantage of:

Liquid working substance described in vane drive on described axle drive shaft rotates.The driving that the opening of described turnover panel can make described hollow roller be subject to liquid working substance to rotate, and then yarn cylinder can be driven, the gathering of described turnover panel can make described hollow roller not be subject to the driving of liquid working substance rotation, described hollow roller can be made to stop, and then making yarn cylinder depart from described hollow roller, the loading of whole yarn cylinder and disengaging, all need not stop yarn cylinder up-coiler, and hollow roller just forms the lightest part of whole driving yarn barrel structure quality, therefore kinetic energy rejection is very little.

Accompanying drawing explanation

Fig. 1 is the structural representation that this yarn cylinder kinetic energy lays in when structure turnover panel is opened.

Structural representation when Fig. 2 is the turnover panel gathering of this yarn cylinder kinetic energy deposit structure.

Detailed description of the invention

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

Consult Fig. 1, in the present embodiment, this yarn cylinder kinetic energy deposit structure comprises the hollow roller 100 of carrying yarn cylinder, the outside face of described hollow roller 100 is periphery the clamping component of fixed yarn cylinder, the axial line of described hollow roller 100 is provided with the axle drive shaft 200 that driver drives rotates, described hollow roller 100 is flexibly connected with described axle drive shaft 200, liquid working substance is full of in described hollow roller 100, on axle drive shaft 200 in described hollow roller 100, uniform ring is furnished with the radial blade 210 arranged, on described hollow roller 100 inwall, uniform ring is furnished with the rotating shaft axially arranged, described rotating shaft drives synchronous axial system by drive member, described rotating shaft is provided with turnover panel 120, described turnover panel 120 is consistent relative to the eccentric angle of described hollow roller 100.

Described clamping component can adopt this traditional clamp structure of the air bag of expansion type.Blade 210 on described axle drive shaft 200 drives described liquid working substance to rotate.

Above-mentioned yarn cylinder kinetic energy deposit structure, the inwall of described hollow roller 100 is provided with the cavity adapting to described turnover panel 120, and described turnover panel is ploughing under in described cavity, and described hollow roller 100 can not be subject to the propulsive effort of described turnover panel 120.

Above-mentioned yarn cylinder kinetic energy deposit structure, described drive member comprises the first magnet be arranged in described turnover panel 120 and the second magnet be arranged in described axle drive shaft 200, described second magnet is that the switchable magnet coil of polarity is formed, described second magnet and described first magnet Magnetic Phase inverse time, described turnover panel 120 is attracting with described axle drive shaft 200, described turnover panel 120 is opened and is exposed described cavity, described turnover panel 120 is subject to the promotion of working fluid working medium, and then drive described hollow roller 100 to rotate, described hollow roller 100 rotates and yarn cylinder can be driven to rotate, when described second magnet is identical with described first magnet poles, described turnover panel 120 repels each other with described axle drive shaft 200, described turnover panel 120 draws in and enters described cavity, described turnover panel 120 is no longer subject to the promotion of working fluid working medium, described hollow roller 100 stops operating, the yarn cylinder reeled can be unloaded.

Above-mentioned yarn cylinder kinetic energy deposit structure, described clamping component comprises the drop in leaf 110 be periphery outside described hollow roller 100, described drop in leaf 110 is synchronized with the movement, described drop in leaf 110 is connected with the rotating shaft power of described turnover panel 120, described turnover panel 120 and described drop in leaf 110 synchronously leave and the wall of described hollow roller 100 of fitting, the change of described second magnet polarity can control opening and drawing in, simplified structure of described turnover panel 120 and described drop in leaf 110 simultaneously.

The principle of work of above-mentioned yarn cylinder kinetic energy deposit structure and method:

Consult Fig. 1 and Fig. 2, when yarn cylinder needs to reel, yarn jacket casing enters described hollow roller 100, the second magnet in described axle drive shaft 200 is contrary with the first magnet magnetic in described turnover panel 120, described turnover panel 120 is subject to the attraction of described second magnet, described turnover panel 120 is opened and is exposed described cavity, described turnover panel 120 is subject to the promotion of working fluid working medium, and then drive described hollow roller 100 to rotate, described hollow roller 100 rotates and yarn cylinder can be driven to rotate, after yarn cylinder has reeled, the polarity controlling described second magnet is identical with described first magnet polarity, described turnover panel 120 repels each other with described axle drive shaft 200, described turnover panel 120 draws in and enters described cavity, described turnover panel 120 is no longer subject to the promotion of working fluid working medium, described hollow roller 100 stops operating, the yarn cylinder reeled can be unloaded.

Describedly be 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 done, equivalent replacement, improvement etc., all should be included in protection domain of the present utility model.

Claims (4)

1. a yarn cylinder kinetic energy deposit structure, it is characterized in that: the hollow roller (100) comprising carrying yarn cylinder, the outside face of described hollow roller (100) is periphery the clamping component of fixed yarn cylinder, the axial line of described hollow roller (100) is provided with the axle drive shaft (200) that driver drives rotates, described hollow roller (100) is flexibly connected with described axle drive shaft (200), liquid working substance is full of in described hollow roller (100), the upper uniform ring of axle drive shaft (200) in described hollow roller (100) is furnished with the radial blade (210) arranged, on described hollow roller (100) inwall, uniform ring is furnished with the rotating shaft axially arranged, described rotating shaft drives synchronous axial system by drive member, described rotating shaft is provided with turnover panel (120), described turnover panel (120) is consistent relative to the eccentric angle of described hollow roller (100).

2. yarn cylinder kinetic energy deposit structure according to claim 1, is characterized in that: the inwall of described hollow roller (100) is provided with the cavity adapting to described turnover panel (120).

3. yarn cylinder kinetic energy deposit structure according to claim 1, it is characterized in that: described drive member comprises the first magnet be arranged in described turnover panel (120) and the second magnet be arranged in described axle drive shaft (200), described second magnet is that the switchable magnet coil of polarity is formed.

4. the yarn cylinder kinetic energy deposit structure according to claim 1 or 2 or 3, it is characterized in that: described clamping component comprises the drop in leaf (110) be periphery in described hollow roller (100) outside, described drop in leaf (110) is synchronized with the movement, described drop in leaf (110) is connected with the rotating shaft power of described turnover panel (120), and described turnover panel (120) and described drop in leaf (110) synchronously leave and the wall of described hollow roller (100) of fitting.