WO2015164577A1 | 2015-10-29 | |||
WO2015145341A1 | 2015-10-01 | |||
WO2015071862A1 | 2015-05-21 |
CN101328681A | 2008-12-24 | |||
GB207211A | 1923-11-19 | |||
US6092399A | 2000-07-25 | |||
TR201605835U |
CLAIMS 1. It performs washing, bleaching and effecting processes in textile products by rubbing method, and composed of at least one chassis group (2), which supports the entirety of the respective mechanical and electrical parts to be placed in the internal volume, and which is formed by fixing to each other a plurality of profiles in the shape of a quadrangular prism, at least one vessel (3) located on the inside of the chassis assembly (2) and having a rotational movement, in the form of a cylinder and having a plurality of fixing points for mechanically and electrically operated parts thereon, - the vessel (3) having an integral structure with the cylindrical structure; with the electric parts on the chassis assembly (2), the parts of the fabric which are placed inside the vessel (3) by turning it around its own axis; at least one ring group (4) providing a wiping, abrading, regional bleaching and / or worn effect with the aid of a plurality of elements located on the cylindrical surface, at least one fixture consisting of a plurality of auxiliary parts for preventing the ring group (4) placed in the vessel (3) from coming out of the region where it is seated, acting as a base for both the vessel (3) and the ring group (4) the gear group (5) and a machine characterized in that it comprises a machine (1) characterized by at least one lid group (6) closing the vessel (3) and the inner ring group (4) with liquid and airtight support both from the base (2) ). 2. A machine (1) as in Claim 1, characterized in that a chassis group (1), at least one chassis (21), at least one cover seal (22) located on the chassis (2), at least two cover connection lines (23) extending outwardly from the base (21) a plurality of cover closure pistons 24 used on the chassis 21 for closing the lid assembly 6 and at least one reservoir 25 housed in the lower part of the chassis 21 in which the chemicals are stored, at least one electric panel (27), at least one tank pump (27), at least one electric panel (28), at least one hydraulic unit (29) and at least one water pump 210) 3. A machine (1) as in any one of claims 1 or 2, characterized in that the chassis assembly (3) rests on at least four legs, which raise the base part slightly from the ground, preventing vibrations caused by all the parts on it. 41 A machine (1) as in any one of claims, characterized in that vessel (3), at least one vessel lower part (31), a plurality of lower support wheels (32) located on the vessel lower part, at least one vessel top (31) forming a hollow cylindrical structure by combining with the vessel lower part (31) at least one gear unit 34 located on the vessel upper part 33, at least one gear unit 35 located on the vessel upper part 33, at least one gear unit 34 located on the vessel upper part 33, at least one reducer shaft and coupling (36), at least one reduction coupling (37) located on the vessel upper part (33) and used in connection with the vessel upper part of the reducer, at least one vessel at least one vessel drain valve (39) located on the vessel upper part (33), at least one water inlet (310) located on the vessel upper part (33), at least one water inlet , at least one steam inlet (311) located on the bottom of the vessel (31), at least one chemical inlet (313) for the gear (312) and the lower support wheel (32) and the reduction gear (345). 5. A machine (1) as in claims 4, characterized in that at least one wheel bearing ring (321), at least two wheel bearing flanges (322) located opposite each other in the wheel bearing ring (321), at least one wheel bearing (327), at least one wheel bearing (323), at least one wheel bearing cover (324), at least one wheel (325), at least one wheel mounting curve (326), a plurality of wheel mounting portions (327), a wheel shaft (328), at least one wheel bearing (329) and at least one wheel sealing fence (3210). 6. A machine (1) as in any one of claims 4 or 5; characterized in that at least one bearing ring (341), at least two bearing flanges (342) opposed to each other in the bearing ring (341), at least one bearing ring (342) disposed on the bearing flange (342), (344) disposed on the bearing (343), at least one gear gear (345) moving between the bearing flanges (342), at least one mounting curve (346), a plurality of at least one gear member shaft 348 includes at least one bearing 349 and at least one sealing member 3410 located between the bearing (343) and the bearing cover (344). 7. A machine (1) as in any one of claims 4 to 6, characterized in that by a vessel (3) formed by fixing the vessel top part (33) and the vessel bottom part (31) symmetrical to each other. 8. A plurality of cylinder assemblies 42 extending between the two ring gear assemblies 41 and at least two ring gear assemblies 41 mutually connected to each other by at least one ring stretching member 412 and movable on the ring gear assembly 41, (1) as claimed in any one of the preceding claims, characterized by a ring group (4) comprising at least one ring (4). 9. A machine (1) as in claim 8, characterized in that at least two gear ring plates (411), at least one ring tension member (412) connecting the two gear ring plates, at least one wheel ring insert (413), at least one wheel ring (415) located on the outer side of the gear ring plate (416) is connected to the plurality of cylinder mounting bush pivots (416) connected to the cylinders forming the cylinder assembly (42), at least one gear and cylinder fitting, and at least one mounting pin shield plate (418). 10. A machine (1) as in claim 8 or 9, characterized in that at least one cylinder tube 421 includes at least one patterning tube 422 disposed on the cylinder tube 421, at least one cylinder mounting sleeve 423 disposed at one end of the cylinder tube 421, at least one cylinder tube 421, ) characterized by the cylinder assembly (42) comprising at least one cylinder mounting and fixed threaded connection sleeve (424) at the other end, not located on the cylinder mounting sleeve (423). 11. A machine (1) as in claim 10, characterized in that a cylinder mounting shell (11) includes at least one cylinder shell (4231), at least one ball bearing (4232), at least one assembly (4233), at least one seal fixed member 4234, at least one seal moving member (4235). 12. A machine (1) as in claim 10 or 11, characterized in that a cylindrical assembly and fixed threaded connection sleeve (12) includes at least one cylinder bush (4241), at least one bearing (4242), at least one assembly washer (4243), at least one seal fixed member (4244), at least one (4245) and a gear gear (4246) on at least one fixed gear. 13. A machine (1) as in claim 8 to 12, characterized in that a ring group (13) consists of a set of ring gear teeth (41) and a roller set (4) which are formed by the combination of a plurality of moving parts having a wide width structure on the inside of the vessel (3). 14. A machine (1) as in any of the claims above, characterized in that a fixed gear set (5), which is fixed on the chassis group (2), comprises at least one water jet (51), at least one jet connector (52), at least one fixed gear (53), at least one jet hose (56), at least one cylinder mounting cover (57), and at least one connecting member (55) used in connection with the fixed gear (53) includes a small rear mounting door (58). 15. A machine (1) as in any of the claims above, characterized in that a door group (6) is subjected to washing, bleaching and local abrasion on the surveillance door (61), which can be opened and closed on the at least one door (61) and the chassis (2), at least one loading door assembly (62) onto which the fabric is loaded. 16. A machine (1) as in claim 15, characterized in that a surveillance door (16) comprises at least one housing door (611), at least one lamp (612), at least one connecting shaft (613), at least one cover door (614), at least one glass (615), at least one locking aperture (61). 17. A machine (1) as in claim 15 or 16, characterized in that a loading cover assembly (17) includes at least one sealing member (621), at least one cover opening (622), at least one sleeve carrying member (623), at least one piston closing member (624), at least one sprayer (625), at least one inner shield (626), at least one jet hose (627), at least one jet (628) and at least one jet connector (629). |
Technical Field
The present invention relates to a machine which performs the various processes such as washing, bleaching, effecting and regional abrasion of textile products produced especially from denim fabrics by means of rubbing, less polluting the environment during application using less clean water and chemicals by removing the use of pumice stone.
Previous Technique Nowadays, different designs, practices or trends are emerging each year in the fashion industry, but the wear-seen clothes that can appeal to people of all ages are still being produced. The textile sector, which has a wear appearance, now uses jeans and / or denim fabrics intensively. Denim fabrics; are usually produced from yarns such as cotton, polyester, nylon, viscose. Denim fabrics are preferred by a large majority with an active lifestyle because they are more resistant to external factors than other fabric types. The classic style denim clothes produced using the unique blue color dyes of denim fabrics now benefit both from the colors outside of blue and through various washing and / or bleaching processes that add an effect that is worn by the owner for years, have a wear appearance. Many applications and methods have been developed to create a wear look and / or effect on the denim fabric.
The process of giving effect on the denim fabric is gathered in two main groups as dry processes performed when the fabric is dry and / or raw and wet processes applied to the fabric wet. The general method applied in wet processes is to put the pieces of fabric to be bleached and / or effected into a rotating drum having water, perlite, pumice stone inside. Then rotating the rotating drum, the abrasive materials in the drum, namely perlite and pumice stones, abrade the surface of the fabric. In this method, which is used domestically and abroad, the machine manufacturers place the materials with abrasive properties in a fixed form on the inner drum of the related machine. However, the regional bleaching and attrition processes on the fabric surface made by the machines using this method take a very long time and do not see much demand because the desired quality can not be obtained. Perlite and pumice stones are placed into the machine to be 1 to 2 cm or 2 to 4 cm in size. When bleaching occurs, the perlite and pumice stones rub against each other and become about 70% to 80% of the powder. During this process, the pumice and perlite stones are rubbed against the stainless surfaces in the drum, so the heavy metal oxides mix in the water in the drum. Bleached fabric pieces in the drum, that is, denim and derivative fabrics, which are cellulose based cotton fabric, easily absorb dust and metal oxides in the drum. Rinsing is repeatedly carried out to remove the metal oxide dust hsleeveful to human health, which is absorbed into the fabric parts, from the fabric. Even after repeated rinsing operations, heavy metal powders in the respective fabric parts can be cleaned, can not be totally dismissed. It is seen irritation on the skin of those wearing clothes made from these fabric pieces. The pumice and perlite powders remaining in the machine after bleaching are given to the waste water channels of the cities by some unchecked firms and cause the waste water channels to be blocked. In addition, wastes and chemical substances from these channels cause pollution of seas, rivers and ground waters. Corporations which are institutional and supervised collect these wastes and send them to other firms for price and they face great costs.
The bleaching, effecting and regional wearing processes performed with pumice stone and perlite takes a very long time and the production coveracity of the related enterprise is also very low. After the treatment with pumice stone and perlite, the lifespan of the fabrics produced with bleached and / or effected fabrics decreases, and various chemicals are also used to prevent the fabrics from being repaired or faded. When 2400-3200 m3 of pumice stone and perlite or pumice dust are used per year in an operation that does this with 10 machines, 250,000 to 300,000 m3 of clean water are needed. In addition, the land surface becomes ineffective as the pits and pearl stones and perlite are pitched on the land where they are removed from the nature. However, due to the low volume of pumice and pearlite, the transport and storage costs of transporting the affected area to the relevant production facility adversely affect the producers. Another negative cost for the producers is that pumice stone and perlite are removed from the reservoir and used in the machine, and the pumice stone shrinking after use causes the perlite dust to be discharged from the related machine, resulting in cost of both time and labor. Ponza stone and perlite increase the repair and maintenance costs of the machines due to the deformations that occur in the machine due to the friction of the bleaching machines to the inner drum and the weight of the machine to the rotating parts of the machine. The reason for this is that the pumice stone and perlite are porous and the water absorption rate is high during the evacuation process, resulting in clean water usage and high cost. Because of all these negative reasons, there is a need for a machine which performs the bleaching and effect imparting processes in the textile products by rubbing method without using pumice stone and perlite powder.
The present invention relates to the utility model TR200902163, which is known in the state of the art, and refers to a rotary drum construction to be used in textile washing and grinding machines. In this present invention, the inner drum, which moves circularly in the outer drum, refers to a variety of abrasive materials disposed on the inner surface at equal distances from one another and which will give the fabric parts a bleach and / or a regional effect. Thus, as a result of rotation of the textile material placed in the rotating drum, the textile materials are subjected to bleaching by means of abrasives on the surface of the drum.
In the case of the known utility model TR201601999, which is the subject of a utility model application, it is mentioned that a washing machine coverable of performing bleaching and / or effecting operations with its own abrasive drum without having to use the pumice stone. The special materials on the surface of the abrasive drum in question; less corrosive, medium-corrosive or high-abrasive. In addition, these special abrasive materials have the ability to be disassembled and attached to the surface of the drum referred to in the meeting to perform different effects and bleaching levels. Thus, pumice stones are subjected to bleaching and / or effect imparting in denim jeans in a short time without the need for chemical abrasive collection. Short Description of Invention
The object of the present invention is to realize a machine which performs washing, bleaching, effect imparting and regional attrition processes on textile products produced from denim and / or denim cloth by rubbing without using pumice stone and perlite dust.
The other object of the invention is to realize a machine which removes the cost of buying pumice stone and perlite powder because pumice stone and perlite dust are not used.
Another object of the invention is to realize a machine which prevents the destruction of agricultural land during the extraction of pumice and perlite tobacco, since pumice stone and perlite dust are not used. Another object of the invention is to realize a machine which reduces the production cost by preventing the use of chemical materials which must be used together with these products since pumice stone and perlite dust are not used.
Another object of the invention is to realize a machine which prevents the transportation cost of the pumice stone and the perlite powder which are removed during the procurement process because the pumice stone and perlite dust are not used.
The other object of the invention is to realize a machine which prevents the extra storage cost that the pumice stone and perlite powder will bring to the producer in the process of storing the pumice stone and pearlite dust because the pumice stone and perlite dust are not used.
Another object of the invention is to realize a machine which prevents pumice and perlite dusts and heavy metal oxides from causing irritation on the skin, which has a negative effect on human health, since pumice and perlite dust are not used.
Another object of the invention is to realize a machine which reduces the production cost by preventing the use of chemical materials which must be used together with these products since pumice stone and perlite dust are not used.
The other object of the invention is to realize a machine which prevents the cost of disposal of waste materials, which is caused by pumice stone and perlite powders, because it is not used pumice stone and perlite dust.
Another object of the invention is to realize a machine which does not cause clogging of the waste water channels in order to use pumice stone and perlite dust during production. Another object of the invention is to realize a machine which protects nature and prevents pollution of seas, rivers and ground waters because pumice stone and perlite dust are not used during production. Another object of the invention is to realize a machine which increases the production coveracity three times by the number of workers working by reducing the duration of operations by 50% to 70% compared to operations using pumice stone and perlite dust. Another object of the invention is to realize a machine which saves electricity by shortening the period of operations performed on the machine by 50% to 70% according to the operations using pumice stone and perlite dust.
Another object of the invention is to realize a machine which does not require the use of chemicals applied to the fabric during processing because the pumice stone and perlite dust are not used during the production and thus prolongs the service life of the fabrics produced from the unprocessed fabrics,
Another object of the invention is to realize a machine in which the repair and maintenance costs are reduced since pumice stone and perlite dust are not used during production.
The other object of the invention is to realize a machine which reduces the chemical costs of the enterprises by 50% and reduces the waste treatment costs of the post-processing institutional firms so that the compulsory chemicals used with pumice stone and perlite dust during production will not be used.
Another object of the invention is to realize a machine that reduces the chemical costs of the enterprises by 50% and prevents non-institutional firms from polluting the nature after the process so that no compulsory chemicals used with pumice stone and perlite dust are used during production.
Detailed Description of Invention
To achieve the purpose of the present invention, a machine for rinsing, bleaching and effecting processes by rubbing method is shown in the attached form, Fig. 1 is a perspective view of a machine which performs washing, bleaching and effecting processes by rubbing.
Fig. 2 is a view of a machine which performs washing, bleaching and effecting processes by rubbing.
Fig. 3 is a separate perspective view of a machine door and a surveillance door making the washing, bleaching and effecting processes by rubbing.
Fig. 4 is a separate perspective view of a machine door making the washing, bleaching and effecting processes by rubbing.
Fig. 5 is a separate perspective view of a machine door making the washing, bleaching and effecting processes by rubbing. Fig. 6 is a perspective view of a detailed, cross-sectional view of the loading door of a machine making rinsing, bleaching and effecting operations by rubbing.
Fig. 7 is a separate perspective view of a machine loading door making the washing, bleaching and effecting processes by rubbing. Fig. 8 is a detailed perspective view of a machine vessel making the washing, bleaching and effecting processes by rubbing.
Fig. 9 is an exploded perspective view of a machine vessel making the washing, bleaching and effecting processes by rubbing.
Fig. 10 is a detailed perspective view of a machine lower support wheel on the vessel making the washing, bleaching and effecting processes by rubbing.
Fig. 11 is an exploded view of the lower support wheel in the vessel section of a machine which performs washing, bleaching and effecting operations by rubbing.
Fig. 12 is a perspective view of the gear wheel gear in the vessel section of a machine which performs washing, bleaching and effecting operations by rubbing method.
Fig. 13 is an exploded perspective view of the gear wheel gear in the vessel section of a machine which performs washing, bleaching and effecting operations by rubbing method.
Fig. 14 is a perspective view of a ring section in a machine making rinsing, bleaching and effecting operations by rubbing method.
Fig. 15 is a perspective view of a ring gear and cylinder in ring section in a machine making rinsing, bleaching and effecting operations by rubbing method.
Fig. 16 is a detailed perspective view of the ring gear of a machine which performs washing, bleaching and effecting operations by rubbing method. Fig. 17 is an exploded perspective view of the ring gear of a machine which performs washing, bleaching and effecting operations by rubbing method.
Fig. 18 is a perspective view of the cylinder part in the ring section of a machine making the washing, bleaching and effect imparting processes by the rubbing method.
Fig. 19 is an exploded perspective view of the cylinder part in the ring section of a machine for performing washing, bleaching and effecting operations by rubbing method.
Fig. 20 is an exploded perspective view of the cylinder mounting shell of the cylinder in the ring section of a machine which performs washing, bleaching and effecting operations by rubbing.
Fig. 21 is an exploded perspective view of the cylinder assembly and fixed threaded connection sleeve of the cylinder in the ring section of a machine for performing washing, bleaching and effecting operations by rubbing.
Fig. 22 is a detailed perspective view of the chassis section of a machine making rinsing, bleaching and effect imparting processes by rubbing method.
Fig. 23 is an exploded perspective view of the chassis section of a machine making rinsing, bleaching and effect imparting processes by rubbing method.
Fig. 24 is a perspective view of a fixed gear portion of a machine making rinsing, bleaching and effecting operations by rubbing.
Fig. 25 is an exploded perspective view of a fixed gear portion of a machine making rinsing, bleaching and effecting operations by rubbing. Fig. 26 is a perspective view of a a vessel lower part and lower support wheels in the machine making the washing, bleaching and effecting processes by rubbing.
Fig. 27 is a perspective view of the ring gear, the vessel lower part and the lower support part of a machine, which makes the inventive washing, bleaching and effecting processes by rubbing.
Fig. 28 is a perspective view of the lower support wheel, ring gear, reducer shaft and coupling, reduction gear, reducer coupling gear reducer gear reducer, which are mounted on the machine upper and lower parts of the machine by means of rubbing, washing and bleaching of the invention.
Fig. 29 is another perspective view of a mac2hine vessel making the washing, bleaching and effecting processes by rubbing.
Fig. 30 is a detailed perspective view of the fixed gear on the drum of a machine making the washing, bleaching and effecting processes by rubbing method.
Fig. 31 is a perspective and detailed perspective view of the state in which the fixed gear is engaged with the gear reducer gear and the lower support wheel in a machine making the washing, bleaching and effect imparting operations by rubbing method.
Figure 32 is a perspective view of the reducer threaded connection receptacles and the lower support wheel connection receptacles in the vessel in a machine making the inventive washing, bleaching and effect imparting processes by rubbing.
Parts included in the figures are individually enumerated and their equivalents were provided below. Machine
Chassis Group
21. Chassis
22. Cover Sealing Seal
23. Door Link Arm
24. Door Closing Piston
25. Depot
26. Control Board
27. Warehouse pump
28. Electric panel
29. Hydraulic Unit
210. Water pump
Boiler
31. Boiler Bottom Part
32. Lower Support Wheel
321. Wheel Bearing Ring
322. Wheel Bearing Flange
323. Wheel Bed
324. Wheel Bearing Cover
325. Wheel
326. Wheel Assembly Curve
327. Wheel Mounting Bracket
328. Wheel Shaft
329. Wheel Bearing
3210. Wheel Sealing Seal
33. Boiler Upper Piece
34. Reducer Gear Group
341. Bearing Ring
342. Bearing Flange
343. Bed 344. Bed Cover
345. Reducer Gear
346. Mounting Curve
347. Mounting Bracket
348. Reducer Gear Shaft
349. Bearing
3410. Sealing Seal
35. Reducer
36. Reducer Shaft and Coupling
37. Reducer Connector
38. Boiler inlet valve
39. Boiler Drain Valve
310. Water inlet
311. Steam Entry
312. Chemical Entry
313. Connection socket
Ring Group
41. Ring Gear Team
411. Gear Ring Plate
412. Ring Tension Part
413. Wheel Ring Inset Part
414. Connector
415. Wheel Ring
416. Cylinder Assembly Hive Pin
417. Gear and Cylinder Connector
418. Mounting Pin Modesty Part
42. Cylinder Set
421. Cylinder Pipe
422. Tiling Pipe
423. Cylinder Mounting Bracket 4231. Cylinder Sleeve
4232. Bearing
4233. Mounting washer
4234. Stuffing Fixed Part
4235. Stuffing Moving Part
424. Cylinder Assembly and Fixed Threaded Connection Sleeve
4241. Cylinder Sleeve
4242. Bearing
4243. Mounting washer
4244. Stuffing Fixed Part
4245. Stuffing Moving Part
4246. Gear Turning on Fixed Gear
Fixed Gear Group
51. Water jet
52. Water jet Connector
53. Fixed Gear
54. Fixed Gear Spacing
55. Connector
56. Water jet Hose
57. Cylinder Assembly Cover
58. Rear Mounting Cover
Cover Group
61. Surveillance Cover
611. Enclosure Cover
612. Lamp
613. Connecting Shaft
614. Cover Outer Track
615. Glass
616. Locking Apparatus
62. Loading Cover Kit 621. Sealing Seal
622. Cover Opening Arm
623. Arm Carrying Part
624. Piston Closure Slot
625. Loading Cover
626. Internal Protection Part
627. Water jet Hose
628. Water jet
629. Water jet Connector
The machine (1) in the present invention, which carries out processes of washing, bleaching and effecting in textile products by rubbing method; contains:
at least one chassis group (2), which supports the entirety of the respective mechanical and electrical parts to be placed in the internal volume, and which is formed by fixing to each other a plurality of profiles in the shape of a quadrangular prism,
at least one vessel (3) located on the inside of the chassis assembly (2) and having a rotational movement, in the form of a cylinder and having a plurality of fixing points for mechanically and electrically operated parts thereon,
- the vessel (3) having an integral structure with the cylindrical structure; with the electric parts on the chassis assembly (2), the parts of the fabric which are placed inside the vessel (3) by turning it around its own axis; at least one ring group (4) providing a wiping, abrading, regional bleaching and / or worn effect with the aid of a plurality of elements located on the cylindrical surface, at least one fixture consisting of a plurality of auxiliary parts for preventing the ring group (4) placed in the vessel (3) from coming out of the region where it is seated, acting as a base for both the vessel (3) and the ring group (4) the gear group (5) and
- at least one door group (6) which covers the vessel (3) and the inner ring group (4) with liquid and airtight sealing both by the support of vessel (3) and by the chassis group (2).
In the machine (1) in present invention;, chassis group (1), at least one chassis (21), at least one cover seal (22) located on the chassis (2), at least two cover connection lines (23) extending outwardly from the base (21) a plurality of cover closure pistons 24 used on the chassis 21 for closing the lid assembly 6 and at least one reservoir 25 housed in the lower part of the chassis 21 in which the chemicals are stored, at least one electric panel (27), at least one tank pump (27), at least one electric panel (28), at least one hydraulic unit (29) and at least one water pump 210)
In the preferred embodiment of the invention, the chassis assembly (2) rests on at least four legs, which raise the base part slightly from the ground, preventing vibrations caused by all the parts on it. In the preferred embodiment of the invention, the chassis assembly (2) contains two electrical panels (27) in the top region. In the preferred embodiment of the present invention, the chassis (2) contains a reservoir (25), four water pumps (210), and a hydraulic unit (29), which contain four chemical enzymes on the base region. In the preferred embodiment of the invention, the chassis assembly (2) comprises various aspects of the processing of the fabric placed in the ring assembly (4) in the front face region, such as information of chemical enzymes transferred into the ring assembly (4); and a control panel (26) in the imaging unit. In the machine of the present invention, the chassis assembly (2) further comprises two door link sleeve (23), one cover sealing seal (23) and four cover closing pistons (24).
In the machine (1) of the present invention, vessel (3), at least one vessel lower part (31), a plurality of lower support wheels (32) located on the vessel lower part, at least one vessel top (31) forming a hollow cylindrical structure by combining with the vessel lower part (31) at least one gear unit 34 located on the vessel upper part 33, at least one gear unit 35 located on the vessel upper part 33, at least one gear unit 34 located on the vessel upper part 33, at least one reducer shaft and coupling (36), at least one reduction coupling (37) located on the vessel upper part (33) and used in connection with the vessel upper part of the reducer, at least one vessel at least one vessel drain valve (39) located on the vessel upper part (33), at least one water inlet (310) located on the vessel upper part (33), at least one water inlet , at least one steam inlet (311) located on the bottom of the vessel (31), at least one chemical inlet (313) for the gear (312) and the lower support wheel (32) and the reduction gear (345).
In the preferred embodiment of the invention, the lower support wheel (32) includes at least one wheel bearing ring (321), at least two wheel bearing flanges (322) located opposite each other in the wheel bearing ring (321), at least one wheel bearing (327), at least one wheel bearing (323), at least one wheel bearing cover (324), at least one wheel (325), at least one wheel mounting curve (326), a plurality of wheel mounting portions (327), a wheel shaft (328), at least one wheel bearing (329) and at least one wheel sealing fence (3210).
In the preferred embodiment of the present invention, the gear gear group (34) includes at least one bearing ring (341), at least two bearing flanges (342) opposed to each other in the bearing ring (341), at least one bearing ring (342) disposed on the bearing flange (342), (344) disposed on the bearing (343), at least one gear gear (345) moving between the bearing flanges (342), at least one mounting curve (346), a plurality of at least one gear member shaft 348 includes at least one bearing 349 and at least one sealing member 3410 located between the bearing (343) and the bearing cover (344).
In a preferred embodiment of the invention, the vessel (3) is formed by fixing the vessel top part (31) and the vessel top part (33) symmetrically with each other. In the preferred embodiment of the invention, the vessel (3) is provided on the vessel lower part (33) forming the lower part; four sub support groups 32 supporting the ring group 4 and three chemical entrances 312. In the preferred embodiment of the invention, the lower support group (32) having the vessel (3); the wheel mounting flange 322, the wheel bed 323, the wheel bearing cover 324, the wheel 325, the wheel mounting curve 326, the wheel mounting member 327, the wheel shaft 328, the wheel mounting flange 322, ), the wheel bearing (329), and the wheel sealing fence (3210). In the preferred embodiment of the invention, the vessel (3) is provided on the upper part (33) which it has; one gearbox gear set 34, one gearbox 35, one gearbox shaft and coupling 36, two gearbox connector 37, one vessel inlet valve 38, one vessel discharge valve 39), two steam inlets (311) and two water inlets (310). In the preferred embodiment of the invention, the vessel (3) has a gearbox end assembly (34); (341), bearing flange (342), bearing (343), bearing cover (344), reducer gear gear (345), mounting curve (346), mounting member
(347), reducer gear shaft (348) 349) and sealing felts (3410).
The ring group (4) of the machine (1) comprises at least two ring gear assemblies (41) and two ring gear assemblies (41) which are mutually connected by at least one ring stretch member and which are arranged on the ring gear assembly (41) comprises a plurality of cylinder assemblies (42) which can move. In the preferred embodiment, the ring gear assembly (41) includes at least two gear ring plates (411), at least one ring tension member (412) connecting the two gear ring plates, at least one wheel ring insert (413), at least one wheel ring (415) located on the outer side of the gear ring plate (416) is connected to the plurality of cylinder mounting bush pivots (416) connected to the cylinders forming the cylinder assembly (42), at least one gear and cylinder fitting, and at least one mounting pin shield plate (418).
In the machine (1), the cylinder assembly (42) comprises at least one cylinder tube (421), at least one pattern tube (422) located on the cylinder tube (421), at least one pattern tube (422) located at one end of the cylinder tube (421), a cylinder mounting sleeve (423) includes at least one cylinder mounting and fixed gear coupling sleeve (424) at the other end of the cylinder bore (421) that is not located on the cylinder mounting sleeve (423). The cylinder mounting shell (423) includes at least one cylinder shell (4231), at least one ball bearing (4232), at least one assembly (4233), at least one seal fixed member 4234, at least one seal moving member (4235). The cylindrical assembly and fixed threaded connection sleeve (424) includes at least one cylinder bush (4241), at least one bearing (4242), at least one assembly washer (4243), at least one seal fixed member (4244), at least one (4245) and a gear gear (4246) on at least one fixed gear.
In the preferred embodiment of the invention, the ring group (4) consists of a set of ring gear teeth (41) and a cylinder set (42) which are formed by the combination of a plurality of moving parts having a wide width structure on the inside of the vessel (3). In the preferred embodiment of the invention, the ring gear assembly (41); two ring gears (414), two wheel rings (415), a plurality of cylinder mounting bushes (416), and a plurality of ring gears (418), the two ring gears (415), many cylinder mounting shells (416) and cylinder connecting pieces (417), and two mounting pin holders (418), which are assembled in a planned manner with each other. In the preferred embodiment of the present invention, the cylinder set (42) completely covers the region between the ring side members (412) of the ring gear assembly 41, i.e., the ring members (412). In the preferred embodiment of the present invention, the cylinder set (42) comprises a plurality of patterning tubes (422), a cylindrical mounting sleeve (423), and a cylindrical mounting sleeve (422) and a fixed gear connection sleeve (424). In the preferred embodiment of the present invention, the cylinder mounting sleeve (423) comprises the cylinder bushing (4231), the bearing (4232), the mounting bead (4233), the stuffing fixed member (4234), and the stuffing moving member (4235). In the preferred embodiment of the present invention, the cylinder mounting shell and fixed gear linking shell (424) are composed of cylinder shell (4241), bearing (4242), mounting washer (4241), stuffing fixed part (4244), stuffing moving part (4245) and gear rotating on fixed gear (4246).
In the preferred embodiment of the present invention, the fixed gear set (5), which is fixed on the chassis group (2), comprises at least one water jet (51), at least one jet connector (52), at least one fixed gear (53), at least one jet hose (56), at least one cylinder mounting cover (57), and at least one connecting member (55) used in connection with the fixed gear (53) includes a small rear mounting door (58).
In the machine (1) of the present invention, the door group (6) is subjected to washing, bleaching and local abrasion on the surveillance door (61), which can be opened and closed on the at least one door (61) and the chassis (2), at least one loading door assembly (62) onto which the fabric is loaded. The surveillance door (61) comprises at least one housing door (611), at least one lamp (612), at least one connecting shaft (613), at least one cover door (614), at least one glass (615), at least one locking aperture (616). In the preferred embodiment, the loading cover assembly (62) includes at least one sealing member (621), at least one cover opening (622), at least one sleeve carrying member (623), at least one piston closing member (624), at least one sprayer (625), at least one inner shield (626), at least one jet hose (627), at least one jet (628) and at least one jet connector (629).
The ring gear assembly (41) is positioned on the four lower wheels (32) mounted on the bottom part (31) of the machine (1) of the present invention which performs the various operations such as effecting and regional wear by means of the nibbing method and accordingly the vessel upper part (33) rotate the ring gears (41) by means of the reducer (35). The rubbing operation is performed by providing the rotation of the cylinder set (43) mounted on the ring gears (41) in the direction opposite to the ring gear set (41) by means of the fixed gear group (5) located behind the chassis group (2) of the machine (1).
The invention is coverable of developing a wide variety of applications of a machine (1) which performs washing, bleaching and effecting processes by rubbing method, the invention being not limited to the examples disclosed herein, it is essentially as claimed.