CN102133825B - Heat transfer production process of silk socks - Google Patents
Heat transfer production process of silk socks Download PDFInfo
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- CN102133825B CN102133825B CN2011100337577A CN201110033757A CN102133825B CN 102133825 B CN102133825 B CN 102133825B CN 2011100337577 A CN2011100337577 A CN 2011100337577A CN 201110033757 A CN201110033757 A CN 201110033757A CN 102133825 B CN102133825 B CN 102133825B
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- hot
- socks
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- transfer film
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- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06B—TREATING TEXTILE MATERIALS USING LIQUIDS, GASES OR VAPOURS
- D06B11/00—Treatment of selected parts of textile materials, e.g. partial dyeing
- D06B11/0076—Transfer-treating
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- Chemical & Material Sciences (AREA)
- Materials Engineering (AREA)
- Textile Engineering (AREA)
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Abstract
The invention discloses a heat transfer production process of silk socks, relating to the field of mark heat transfer in the production process of silk socks. For solving the problem of heat transfer incapability of thin and high-temperature-unresisting textiles, such as silk socks, and the like, the operation initialization position of the machine is divided into the configuration of three different process parameters, i.e. a transfer part, a preheating part and acting time and pressure, and through the design, the heat transfer production process has the advantages of continuous production and the heat transfer production on thin and high-temperature-unresisting textiles.
Description
Technical field:
The present invention relates to the hot transfer printing of sign field in the silk stocking production process.
Background technology:
Hot transfer printing is a kind of widely used printing technology, and at first this technique be imprinted on film surface in advance with pattern, and we claim this film with pattern transferring transfer film; Again by heat transfer machine process (heating pressurization) with pattern transfer exquisite on transfer film at product surface, after moulding, ink lay and product surface are molten is integrated, true to nature beautiful, greatly improves the class of product.Caloric transfer printing technology is applied to various ABS, PP, plastic cement, timber, the product surfaces such as coating metal, T-shirt is arranged, but because hot transfer printing temperature is high, the object that requires to be printed can be high temperature resistant.In the T-shirt operating position be now: hot transfer printing temperature is generally at 180 ℃, and in transfer process, action time need to be at 8-15 seconds; This temperature and action time are frivolous and textile non-refractory can't be used for silk stocking etc., the invention provides a kind of heat transfer production process of silk socks, solve that silk stocking etc. are frivolous and textile non-refractory can not use the problem of hot transfer printing.I searched at patent database, and the patent of hot transfer printing is a lot, but can solve not having of the frivolous and hot transfer printing of non-refractory fabric such as silk stocking.
Summary of the invention:
The present invention can not use the problem of hot transfer printing for the textile of the frivolous non-refractories such as solution silk stocking, has proposed a kind of heat transfer production process of silk socks.
technical scheme of the present invention is: a kind of heat transfer production process of silk socks, for the production of machine comprise transfer section and regenerator section, transfer section: transfer film (1) is wound on transfer film unwinding rack (2), transfer film (1) is walked around hot cylinder (3) surface, the pressure of contact roller (5) makes transfer film (1) the smooth surface that is close to hot cylinder (3), transfer film (1) arrives on counterdie rolling frame (4) in counterdie (13) rolling remaining after pattern transfer, (3 heat by inside hot cylinder, temperature constant is at 150 positive and negative 2 degrees centigrade, rotary drum cleaning brush (6) cleans hot cylinder (3) surface in hot cylinder (3) rotation process.
regenerator section has: movable pedestal (7) is arranged on track (8), and can slide along track (8), support (9) is arranged on movable pedestal (7), pre-hot jacket socks pipe (10) is arranged on support (9), pre-hot jacket socks pipe (10) can be around the rotation of the own center of circle, pre-hot jacket socks pipe (10) is heated by inside, temperature constant is at 80 positive and negative 2 degrees centigrade, spring back seat (12) is fixed on the ground, spring (11) is arranged between spring back seat (12) and movable pedestal (7), spring (11) is pushed movable pedestal (7) to hot cylinder (3) direction along track (8), make the pressure of hot cylinder (3) and pre-hot jacket socks pipe (10) greater than 1 kilogram.
Socks are enclosed within downwards on pre-hot jacket socks pipe (10) from the top from the preheating original position, the temperature of pre-hot jacket socks pipe (10) is 80 positive and negative 2 degrees centigrade, support (9) rotates around movable pedestal (7), pre-hot jacket socks pipe (10) is turned to the position that contacts with hot cylinder (3) with socks, the temperature of hot cylinder (3) is 150 positive and negative 2 degrees centigrade, socks contact with transfer film (1) and are compacted, pause for 3 seconds, complete hot transfer printing; After completing hot transfer printing, hot cylinder (3) rotates, driving transfer film (1) unreels from transfer film unwinding rack (2), transfer film (1) forwards next pattern position to, with later counterdie (13) rolling on counterdie rolling frame (4), support (9) rotates around movable base (7), and the socks that transfer printing is good produce transfer position under the drive of pre-hot jacket socks pipe (10), and the workman takes off socks and gets final product.
the machine operation initializes to arrange and is divided into transfer section, three different technological parameter settings of regenerator section and action time and pressure: one, transfer section: hot cylinder (3) rotation time is 6 seconds, the time of staying is 3 seconds, that is to say that often completing a hot transfer printing total time is 9 seconds, hot cylinder (3) heats by inside, temperature constant is at 150 positive and negative 2 degrees centigrade, hot cylinder (3) rotates, driving transfer film (1) unreels from transfer film unwinding rack (2), the power that unreels due to transfer film (1) comes self-heating cylinder (3), therefore transfer film (1) is followed hot cylinder (3) and is unreeled and pause, two, regenerator section: support (9) rotation time is 6 seconds, and the time of staying is 3 seconds, that is to say that often completing a hot transfer printing total time is 9 seconds, and pre-hot jacket socks pipe (10) is heated by inside, and temperature constant is at 80 positive and negative 2 degrees centigrade, because the external diameter of hot cylinder (3) and the external diameter of support (9) vary in size, so the rotating speed of setting separately is different, but the key that arranges is that mated both each circulation timeis, when both pausing each time, hot cylinder (3) and pre-hot jacket socks pipe (10) are just in time aimed at, pause and start simultaneously after 3 seconds, hot cylinder (3) and pre-hot jacket socks pipe (10) are just in time aimed at, so circulation, rotation time is 6 seconds, makes on the one hand the transfer film (1) can preheating on hot cylinder (3) surface, on the other hand, makes the socks also can preheating and pressing on the surface of pre-hot jacket socks pipe (10), three, action time and pressure: hot cylinder (3) and pre-hot jacket socks pipe (10) are just in time aimed at and pause simultaneously when pausing each time, and pause is 3 seconds, and pressure is greater than 1 kilogram.Each like this through 9 seconds, just can complete the printing process of socks; Interval between the pattern that is transferred on the transfer film also circumferential surface rotation distance coupling with hot cylinder (3) is just passable.
Design like this has advantages of continuous production and carries out hot transfer printing and produce on the textile of frivolous non-refractory.
Description of drawings:
Fig. 1 is top view of the present invention.
Fig. 2 is front view of the present invention.
The specific embodiment:
Following boldface type is partly the technique setting, is namely the application's specific implementation method, and the non-black-body word is the production operation, is used for aid illustration.
The key of this machine be work that an original step is completed in two steps, in advance the silk stocking that need transfer printing are carried out preheating, complete removing the moisture content on silk stocking surfaces and the regenerator section that is operated in of pressing transfer surface, and make the socks temperature that raises in advance, in the transfer process of coming being right after, can shorten the transfer printing time and reduce hot bowl temperature, thereby completing hot transfer printing in the situation that do not damage socks.
Referring to accompanying drawing, the present embodiment is by transfer section, regenerator section and action time and stress structure:
Transfer section: transfer film 1 is wound on transfer film unwinding rack 2, transfer film 1 is walked around hot cylinder 3 surfaces, hot cylinder 3 can rotate along the direction of arrow in figure, the pressure of contact roller 5 makes the transfer film 1 smooth surface that is close to hot cylinder 3, transfer film 1 in counterdie 13 rollings remaining after pattern transfer to counterdie rolling frame 4, hot cylinder 3 heats by inside, and temperature constant is at 150 positive and negative 2 degrees centigrade, and rotary drum cleaning brush 6 cleans hot cylinder 3 surfaces in hot cylinder 3 rotation processes.
regenerator section has: movable pedestal 7 is arranged on track 8, and can slide along track 8, support 9 is arranged on movable pedestal 7, support 9 can rotate along the direction of arrow in figure around movable pedestal 7, pre-hot jacket socks pipe 10 is arranged on support 9, pre-hot jacket socks pipe 10 can be around the rotation of the own center of circle, pre-hot jacket socks pipe 10 is heated by inside, temperature constant is at 80 positive and negative 2 degrees centigrade, spring back seat 12 is fixed on the ground, spring 11 is arranged between spring back seat 12 and movable pedestal 7, spring 11 is pushed movable pedestal 7 to hot cylinder 3 directions along track 8, make the pressure of hot cylinder 3 and pre-hot jacket socks pipe 10 greater than 1 kilogram.
Socks are enclosed within downwards on pre-hot jacket socks pipe (10) from the top from the preheating original position, the temperature of pre-hot jacket socks pipe 10 is 80 positive and negative 2 degrees centigrade, support 9 rotates around movable pedestal 7, pre-hot jacket socks pipe 10 is turned to the position that contacts with hot cylinder 3 with socks, the temperature of hot cylinder 3 is 150 positive and negative 2 degrees centigrade, socks contact with transfer film 1 and are compacted, pause for 3 seconds, complete hot transfer printing; After completing hot transfer printing, hot cylinder 3 rotates, driving transfer film 1 unreels from transfer film unwinding rack 2, transfer film 1 forwards next pattern position to, with later 13 rollings of counterdie on counterdie rolling frame 4, support 9 rotates around movable base 7, and the socks that transfer printing is good produce transfer position under the drive of pre-hot jacket socks pipe 10, and the workman takes off socks and gets final product.
Machine operation initializes to arrange and is divided into three different technological parameter settings of transfer section, regenerator section and action time and pressure: one, transfer section: hot cylinder 3 rotation times are 6 seconds, the time of staying is 3 seconds, that is to say that often completing a hot transfer printing total time is 9 seconds, hot cylinder 3 heats by inside, temperature constant is at 150 positive and negative 2 degrees centigrade, hot cylinder 3 rotates, driving transfer film 1 unreels from transfer film unwinding rack 2, the power that unreels due to transfer film 1 comes self-heating cylinder 3, unreels and pauses therefore transfer film 1 is followed hot cylinder 3; Two, regenerator section: support 9 rotation times are 6 seconds, and the time of staying is 3 seconds, that is to say that often completing a hot transfer printing total time is 9 seconds, and pre-hot jacket socks pipe 10 is heated by inside, and temperature constant is at 80 positive and negative 2 degrees centigrade; Because the external diameter of hot cylinder 3 and the external diameter of support 9 vary in size, so the rotating speed of setting separately is different, but the key that arranges is that mated both each circulation timeis, when both pausing each time, hot cylinder 3 and pre-hot jacket socks pipe 10 are just in time aimed at, pause and start simultaneously after 3 seconds, hot cylinder 3 and pre-hot jacket socks pipe 10 are just in time aimed at, so circulation; Rotation time is 6 seconds, makes on the one hand the transfer film 1 can preheating on hot cylinder 3 surfaces, on the other hand, makes the socks also can preheating and pressing on the surface of pre-hot jacket socks pipe 10; Three, action time and pressure: hot cylinder 3 and pre-hot jacket socks pipe 10 are just in time aimed at and pause simultaneously when pausing each time, and pause is 3 seconds, and pressure is greater than 1 kilogram.Each like this through 9 seconds, just can complete the printing process of socks; Interval between the pattern that is transferred on the transfer film also circumferential surface rotation distance coupling with hot cylinder 3 is just passable.
Claims (1)
1. heat transfer production process of silk socks, it is characterized in that: for the production of machine comprise transfer section and regenerator section, transfer section: transfer film (1) is wound on transfer film unwinding rack (2), transfer film (1) is walked around hot cylinder (3) surface, the pressure of contact roller (5) makes transfer film (1) the smooth surface that is close to hot cylinder (3), transfer film (1) arrives on counterdie rolling frame (4) in counterdie (13) rolling remaining after pattern transfer, hot cylinder (3) heats by inside, temperature constant is at 150 positive and negative 2 degrees centigrade, rotary drum cleaning brush (6) cleans hot cylinder (3) surface in hot cylinder (3) rotation process,
regenerator section has: movable pedestal (7) is arranged on track (8), and can slide along track (8), support (9) is arranged on movable pedestal (7), pre-hot jacket socks pipe (10) is arranged on support (9), pre-hot jacket socks pipe (10) can be around own axis rotation, pre-hot jacket socks pipe (10) is heated by inside, temperature constant is at 80 positive and negative 2 degrees centigrade, spring back seat (12) is fixed on the ground, spring (11) is arranged between spring back seat (12) and movable pedestal (7), spring (11) is pushed movable pedestal (7) to hot cylinder (3) direction along track (8), make the pressure of hot cylinder (3) and pre-hot jacket socks pipe (10) greater than 1 kilogram,
Socks are enclosed within downwards on pre-hot jacket socks pipe (10) from the top in the preheating original position, the temperature of pre-hot jacket socks pipe (10) is 80 positive and negative 2 degrees centigrade, support (9) rotates around movable pedestal (7), pre-hot jacket socks pipe (10) is turned to the position that contacts with hot cylinder (3) with socks, the temperature of hot cylinder (3) is 150 positive and negative 2 degrees centigrade, socks contact with transfer film (1) and are compacted, pause for 3 seconds, complete hot transfer printing; After completing hot transfer printing, hot cylinder (3) rotates, driving transfer film (1) unreels from transfer film unwinding rack (2), transfer film (1) forwards next pattern position to, with later counterdie (13) rolling on counterdie rolling frame (4), support (9) rotates around movable base (7), and the socks that transfer printing is good produce transfer position under the drive of pre-hot jacket socks pipe (10), and the workman takes off socks and gets final product;
the machine operation initializes to arrange and is divided into transfer section, three different technological parameter settings of regenerator section and action time and pressure: one, transfer section: hot cylinder (3) rotation time is 6 seconds, the time of staying is 3 seconds, that is to say that often completing a hot transfer printing total time is 9 seconds, hot cylinder (3) heats by inside, temperature constant is at 150 positive and negative 2 degrees centigrade, hot cylinder (3) rotates, driving transfer film (1) unreels from transfer film unwinding rack (2), the power that unreels due to transfer film (1) comes self-heating cylinder (3), therefore transfer film (1) is followed hot cylinder (3) and is unreeled and pause, two, regenerator section: support (9) rotation time is 6 seconds, and the time of staying is 3 seconds, that is to say that often completing a hot transfer printing total time is 9 seconds, and pre-hot jacket socks pipe (10) is heated by inside, and temperature constant is at 80 positive and negative 2 degrees centigrade, because the external diameter of hot cylinder (3) and the external diameter of support (9) vary in size, so the rotating speed of setting separately is different, but the key that arranges is that mated both each circulation timeis, when both pausing each time, hot cylinder (3) and pre-hot jacket socks pipe (10) are just in time aimed at, pause and start simultaneously after 3 seconds, hot cylinder (3) and pre-hot jacket socks pipe (10) are just in time aimed at, so circulation, three, action time and pressure: hot cylinder (3) and pre-hot jacket socks pipe (10) are just in time aimed at and pause simultaneously when pausing each time, and pause is 3 seconds, and pressure is greater than 1 kilogram, each like this through 9 seconds, just can complete the printing process of socks, interval between the pattern that is transferred on the transfer film also circumferential surface rotation distance coupling with hot cylinder (3) is just passable.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2011100337577A CN102133825B (en) | 2011-01-31 | 2011-01-31 | Heat transfer production process of silk socks |
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CN2011100337577A CN102133825B (en) | 2011-01-31 | 2011-01-31 | Heat transfer production process of silk socks |
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CN102133825A CN102133825A (en) | 2011-07-27 |
CN102133825B true CN102133825B (en) | 2013-06-12 |
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CN2011100337577A Expired - Fee Related CN102133825B (en) | 2011-01-31 | 2011-01-31 | Heat transfer production process of silk socks |
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US9321257B2 (en) * | 2013-04-04 | 2016-04-26 | Nike, Inc. | Cylinder with recessed portions for holding tubular articles for printing |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1408941A (en) * | 2001-09-13 | 2003-04-09 | 冯礼彪 | Multicolor multip-pattern transfer printing socks and its dyeing and printing process |
TWM370495U (en) * | 2009-06-06 | 2009-12-11 | Hua-Kung Chao | A transfer printing structure of a seamless sock tube |
TW201016151A (en) * | 2008-10-20 | 2010-05-01 | Hua-Kung Chao | High adhesion tetolon socks pattern printing method |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS51123384A (en) * | 1975-04-21 | 1976-10-28 | Naado Kenkiyuushiyo Kk | Printing method of socks |
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2011
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Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1408941A (en) * | 2001-09-13 | 2003-04-09 | 冯礼彪 | Multicolor multip-pattern transfer printing socks and its dyeing and printing process |
TW201016151A (en) * | 2008-10-20 | 2010-05-01 | Hua-Kung Chao | High adhesion tetolon socks pattern printing method |
TWM370495U (en) * | 2009-06-06 | 2009-12-11 | Hua-Kung Chao | A transfer printing structure of a seamless sock tube |
Non-Patent Citations (5)
Title |
---|
JP昭51-123384A 1976.10.28 |
热转印在织物印花中的应用;齐成;《网印工业》;20070831;全文 * |
热转印技术;闫素斋;《丝网印刷》;20010630;全文 * |
闫素斋.热转印技术.《丝网印刷》.2001,全文. |
齐成.热转印在织物印花中的应用.《网印工业》.2007,全文. |
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