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Patent Searching and Data


Title:
WHARVE CLEANING MECHANISM
Document Type and Number:
WIPO Patent Application WO/2020/112042
Kind Code:
A1
Abstract:
Invention relates to a cleaning mechanism which can be installed onto a textile machine (100) containing spindles (110) whereon winding materials in form of yarns are wound, primarily rotating around a vertical axis (y) and winding materials are wound and under windings can occur in wharve part (111) or formed on a textile machine (100).

Inventors:
ÇİĞDEM MEHMET EMIN (TR)
GELİR BUKET ÇINAR (TR)
ÇALIŞIR SERDAR (TR)
Application Number:
PCT/TR2019/050062
Publication Date:
June 04, 2020
Filing Date:
January 31, 2019
Export Citation:
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Assignee:
YUENSA YUENLUE SANAYI VE TICARET ANONIM SIRKETI (TR)
International Classes:
D01H11/00
Foreign References:
US3312051A1967-04-04
US5311732A1994-05-17
EP0251397A21988-01-07
US3263407A1966-08-02
US4133168A1979-01-09
Attorney, Agent or Firm:
DESTEK PATENT, INC. (TR)
Download PDF:
Claims:
CLAIMS

1. A cleaning mechanism which can be installed onto a textile machine (100) containing spindles (1 10) whereon winding materials in form of yarns are wound, primarily rotating around a vertical axis (y) and winding materials are wound and under windings can occur in wharve part (11 1 ) or formed on a textile machine (100), characterized by comprising a cleaning apparatus (200) for clearing said under windings and a rail member (210) extending mainly along a horizontal axis (x), enabling movement of said cleaning apparatus (200) on said machine (100) from one end to the other, wherein said cleaning apparatus (200) consists of a blade (220) of a structure capable to cut under windings during movement on rail member (210) and a rail connection part (250) of a structure capable to move along said rail member.

2. A mechanism according to claim 1 , wherein said textile machine is ring type yarn spinning machine.

3. A mechanism according to claim 1 or claim 2 wherein said winding material is raw material used in short staple fiber or long staple fiber (wool and similar).

4. A mechanism according to one of previous claims wherein said blade (220) is of circular structure.

5. A mechanism according to one of previous claims wherein said blade (220) comprises of at least a cutting edge (221 ) in circular form.

6. A mechanism according to claim 4 or claim 5 wherein said blade (220) is in form of dough cutting knife or pizza cutting knife.

7. A mechanism according to one of previous claims wherein said cleaning apparatus (200) comprises of a blade connection part (230) providing connection to the blade (220).

8. A mechanism according to one of previous claims wherein said rail connection part (250) is of L-structure form.

9. A mechanism according to claim 8 wherein said rail connection part (250) comprises of an extension (251 ) fixing the cleaning apparatus (200) along the rail member (210).

10. A mechanism according to one of previous claims characterized by comprising an adjustment part (260) enabling adaptation of the cleaning apparatus (200) to various textile machines (100).

11. A mechanism according to claim 10, characterized by comprising adjustment spaces located on said adjustment part (260) and rail connection part (250) and allowing fixing by use of connection members after alignment in order to adjust size of cleaning apparatus (200).

12. A mechanism according to one of previous claims characterized by comprising a handle (240) providing grasp of cleaning apparatus (200) by hand on the rail member (210).

13. A mechanism according to one of previous claims wherein said blade (220) is made from steel material.

Description:
Wharve Cleaning Mechanism

The Related Art

Invention relates to a cleaning mechanism to clean yarn windings forming in wharve of textile machines.

Invention particularly relates to a cleaning mechanism to clean yarn windings forming in wharve of ring type yarn spinning machines.

Background of the Invention

Today ring type yarn spinning machines are used in yarn spinning system. Final step in short and long staple fiber is to thin the fly from fly frame by draw and to obtain yarn of size and strength appropriate for place of use and to wind onto bobbins. This process is made at ring type yarn spinning machines. Fly from fly frame is thinned by draw at ring type yarn spinning machines, the fly bundles given the thinness adequate for yarn manufacture are twisted and gained strength. Yarn manufactured in this way are wound onto bobbins and made into cops.

Ring yarn spinning system is a continued yarn spinning and winding onto bobbins. This system has more than one yarn winding part called spindle. Spindles are located in bearing in neck and bottom of the machine.

Main yarn spinning member is spindle. Yarn passes through rotating yarn and hooks after leaving output rollers and spun and wound onto bobbins rotating on spindle. When cops are filled at ring machines, winding frame goes down and winds part of yarn onto reserve part, that is, wharve. Yarn spinning at ring machines is a continued process and thus the wound yarn should not break and the wound yarn should remain connected to a point. Since this connection point is the wharve, yarn winding occurs at wharve. For that reason, yarn windings should be cleaned safely after each frame lowering for ensuring work continuation. Blade is used for this cleaning process in current applications. Blade is touched the spindle with control of operators. Wharve gets worn during said application and work accidents are encountered since the application is dangerous. In said work accidents cutting injuries are experienced in hand and fingers of operators using blades. In addition, this operation is a process required to be conducted at least six times a day.

Patent numbered US 4,208,865 discloses yarn clearer mounted adjacent to spindle mechanism and a clearing method. When said clearer is actuated under windings forming in spindle bottom are separated into yarns by compressed air blowing. The method and said apparatus has a complex structure and is of high cost because of compressed air use. Moreover, it is inadequate to clean the yarn windings. Additionally, flying fibers may collect in the machine in time.

New apparatus is needed for clearing the under windings formed in wharve safely and also preventing damage to spindles located on ring type yarn spinning machines.

As a result, due to above described disadvantages and inadequacy of existing solutions it has been necessary to make development in the related art.

Brief Description of the Invention

The present invention relates to cleaning mechanism meeting the needs mentioned above, eliminating all disadvantages and providing some additional advantages.

Main purpose of the invention is to provide a cleaning mechanism providing safe cleaning of yarn windings collected in wharve of yarn spinning machines.

Another purpose of the invention is to provide a cleaning mechanism providing safe cleaning of yarn windings collected in wharve of yarn spinning machines without causing any damage to spindles. A further purpose of the invention is to provide a cleaning mechanism providing simple and efficient cleaning of yarn windings collected in wharve of yarn spinning machines.

Another purpose of the invention is to provide cleaning of yarn windings collected in wharve of yarn spinning machines by use of a low-cost method.

In order to achieve the above mentioned purposes, a cleaning mechanism which can be installed onto a textile machine containing spindles whereon winding materials in form of yarns are wound, primarily rotating around a vertical axis and winding materials are wound and under windings occur in the bottom part thereof, or formed on a textile machine, and which consists of a cleaning apparatus for clearing said under windings and installed to said machine, primarily extending along horizontal axis, and a rail member whereon said cleaning apparatus can move from beginning to end. Cleaning apparatus disclosed hereunder consists of a blade having a structure capable to cut under windings during movement on the rail system and a structure capable to move along said rail member.

The structural and characteristics features of the invention and all advantages will be understood better in detailed descriptions with the figures given below and with reference to the figures, and therefore, the assessment should be made taking into account the said figures and detailed explanations.

Brief Description of the Drawings

Figure 1 is cross-section view of a textile machine having cleaning mechanism of the invention installed thereon.

Figure 2 is a general view of cleaning apparatus of the invention.

Description of References

100 Textile machine

1 10 Spindle

1 1 1 Wharve part 120 Ring rail

200 Cleaning apparatus

210 Rail member

220 Blade

221 Cutting edge

230 Blade connection part

240 Handle

250 Rail connection part

251 Extension

260 Adjustment part

L Length of textile machine and/or ring rail

x Horizontal axis

y Vertical axis

Detailed Description of the Invention

In this detailed description, the cleaning mechanism of the invention has been described in a manner not forming any restrictive effect and only for purpose of better understanding of the matter.

The invention is a cleaning mechanism for clearing the under windings occurring in wharve parts (1 1 1 ) where winding is conducted during continued winding of winding material onto bobbins or rollers in yarn form.

Figure 1 shows a textile machine consisting of spindles (110) primarily capable to rotate around vertical axis (y) and cleaning apparatus (200) of the invention installed onto said textile machine (100). The textile machine (100) preferably has a ring rail (120) and is fixed to a series of spindle (110) ring rail (120). Spindles (1 10) extend along horizontal axis (x) mainly along the length (L) of textile machine

(100). Said textile machine (100) is preferably a ring type yarn spinning machines. During operation of the textile machine (100), yarn to be wound onto each spindle (1 10) is thinned by draw cylinders and wound onto bobbins or rollers to perform yarn winding operation. Ring spinning tube or bobbins are inserted to spindles (110). Spindles (1 10) are driven by spindle drives and thus rotated. Thus, winding material is wound onto bobbins or rollers in yarn form. Winding material is raw material used in short staple fiber (cotton and similar) or long staple fiber (wool and similar). After completion of ring spinning tube or bobbins winding operation, spindles (1 10) is replaced with a new and empty ring spinning tube or bobbins. Winding material is wound in undesired manner in wharve parts (1 1 1 ) and under windings may occur. Said under windings should be cut and removed from textile machine (100).

A rail member (210) is installed onto textile machine (100). Said rail member (210) primarily extends along horizontal axis (x). Cleaning apparatus (200) disclosed hereunder can move on rail member (210). Said rail member (210) is preferably mounted to ring rail (120) of textile machine (100) in bottom part of spindle (1 10). The rail member (210) extends along length (L) of ring rail (120). For instance, a rail member (210) of about 22 meters long is installed to a textile machine (100) having a ring rail (120) of 22 meters long. Cleaning apparatus (200) is installed on said rail member (210) to perform cleaning operation.

With reference to figure 2, cleaning apparatus (200) of the invention comprises a blade (220). Said blade (220) is contacted to wharve parts (1 1 1 ) and under windings are cut and cleaned. Said blade (220) has a circular structure. Accordingly, said blade consists of at least a cutting edge (221 ) in circular form Thus while cleaning apparatus (200) moves on rail member (210), the blade (220) rotates in wharve parts (1 1 1 ) where it contacts spindles (1 10) and thus performs cutting operation. Circular edges (221 ) of the blade (220) are formed in a manner to cut under windings.

The blade (220) is preferably made in dough cutting knife or pizza cutting knife form. In other words, it is of a structure sensitive as a dough cutting knife (220) and not damaging the point where it is used. Thus, issue of wearing of wharve parts (1 1 1 ) is eliminated. Among preferred material of blade is steel.

Cleaning apparatus (200) comprises of a blade connection part (230) providing connection of blade (220) to cleaning apparatus (200).

Cleaning apparatus (200) comprises of a handle (240). Said handle (240) is the part eliminating direct contact of operator using cleaning apparatus (200) to blade (220) and grasped by hand. Cleaning apparatus (220) can be moved on rail member (210) by hand by use of handle (240). Operator can move the cleaning apparatus (200) from beginning to end of textile machine (100) by use of handle (240) on the rail member (210) when cleaning wharve parts (1 1 1 ). Thus because of no direct contact to blade (220), work accidents of hands and arms cutting are prevented.

Cleaning apparatus (200) also comprises a rail connection part (250). Said rail connection part (250) provides placement of cleaning apparatus (200) onto textile machine (100) along the machine (200) and movement thereof along the rail member (210). Rail connection part (250) is preferably of L-structured form. Thus, cleaning apparatus (200) sits onto rail member (210) and can move in better balanced way. Rail connection part (250) of L-structured form may also contain an extension (251 ) fixing the cleaning apparatus (200) along the rail member (210).

Cleaning apparatus (200) comprises of an adjustment part (260). Said adjustment part (260) provides adjustment of size between blade (220) and rail connection part (250) for matching cleaning apparatus (200) to various textile machines (100). Thus, cleaning apparatus (200) can be adjusted for textile machines (100) of various sizes. Adjustment part (260) and rail connection part (250) have adjustment spaces. Said adjustment spaces enable adjustment of cleaning mechanism (200) to match wharve part (1 1 1 ) according to size of textile machine (100). After alignment of adjustment spaces on adjustment part (260) and rail connection part (250), size adjustment is made by means of connection members such as bolt, nut etc. Thus, cleaning apparatus (200) can be adjusted and adaptation to various textile machines (100).

Cleaning apparatus (100) disclosed hereunder can be used in textile machines of various types and sizes, preferably in yarn spinning machines, more preferably in ring type yarn spinning machines.