CN106894178A - Fabric dyeing apparatus with gas supply mechanism - Google Patents
Fabric dyeing apparatus with gas supply mechanism Download PDFInfo
- Publication number
- CN106894178A CN106894178A CN201710228771.XA CN201710228771A CN106894178A CN 106894178 A CN106894178 A CN 106894178A CN 201710228771 A CN201710228771 A CN 201710228771A CN 106894178 A CN106894178 A CN 106894178A
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- Prior art keywords
- dyeing
- conveyer belt
- printing
- outlet
- drain pipe
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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
- D06B21/00—Successive treatments of textile materials by liquids, gases or vapours
- D06B21/02—Successive treatments of textile materials by liquids, gases or vapours the treatments being performed in a single container
-
- 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
- D06B1/00—Applying liquids, gases or vapours onto textile materials to effect treatment, e.g. washing, dyeing, bleaching, sizing or impregnating
- D06B1/02—Applying liquids, gases or vapours onto textile materials to effect treatment, e.g. washing, dyeing, bleaching, sizing or impregnating by spraying or projecting
-
- 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
- D06B15/00—Removing liquids, gases or vapours from textile materials in association with treatment of the materials by liquids, gases or vapours
- D06B15/09—Removing liquids, gases or vapours from textile materials in association with treatment of the materials by liquids, gases or vapours by jets of gases
-
- 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
- D06B23/00—Component parts, details, or accessories of apparatus or machines, specially adapted for the treating of textile materials, not restricted to a particular kind of apparatus, provided for in groups D06B1/00 - D06B21/00
-
- 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
- D06B23/00—Component parts, details, or accessories of apparatus or machines, specially adapted for the treating of textile materials, not restricted to a particular kind of apparatus, provided for in groups D06B1/00 - D06B21/00
- D06B23/14—Containers, e.g. vats
- D06B23/18—Sealing arrangements
-
- 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
- D06B23/00—Component parts, details, or accessories of apparatus or machines, specially adapted for the treating of textile materials, not restricted to a particular kind of apparatus, provided for in groups D06B1/00 - D06B21/00
- D06B23/20—Arrangements of apparatus for treating processing-liquids, -gases or -vapours, e.g. purification, filtration, distillation
-
- 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
- D06B23/00—Component parts, details, or accessories of apparatus or machines, specially adapted for the treating of textile materials, not restricted to a particular kind of apparatus, provided for in groups D06B1/00 - D06B21/00
- D06B23/20—Arrangements of apparatus for treating processing-liquids, -gases or -vapours, e.g. purification, filtration, distillation
- D06B23/205—Arrangements of apparatus for treating processing-liquids, -gases or -vapours, e.g. purification, filtration, distillation for adding or mixing constituents of the treating material
-
- 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
- D06B23/00—Component parts, details, or accessories of apparatus or machines, specially adapted for the treating of textile materials, not restricted to a particular kind of apparatus, provided for in groups D06B1/00 - D06B21/00
- D06B23/20—Arrangements of apparatus for treating processing-liquids, -gases or -vapours, e.g. purification, filtration, distillation
- D06B23/22—Arrangements of apparatus for treating processing-liquids, -gases or -vapours, e.g. purification, filtration, distillation for heating
Abstract
The invention provides a kind of fabric dyeing apparatus with gas supply mechanism, belong to field of mechanical technique.It solves the problems, such as that existing garment material spraying dyeing and printing device efficiency is not good.The dyeing apparatus of this fabric include printing and dyeing room and are laterally disposed in the indoor conveyer belt of printing and dyeing, conveyer belt top is provided with drain pipe, drain pipe is provided with shower nozzle, conveyer belt top is additionally provided with gas outlet, printing and dyeing interior is additionally provided with hot gas can be delivered in gas outlet gas supply mechanism and can drive drain pipe along the actuator of the length direction alternating translational of conveyer belt, conveyer belt lower section is provided with deep bead, running through on the upper and lower two side of conveyer belt has some passages, printing and dyeing outside is provided with agitator tank, agitator tank top is provided with the right side of inlet and the agitator tank and is provided with liquid outlet, drawing liquid machine is fixed between agitator tank and printing and dyeing room, drawing liquid machine import is connected with liquid outlet, the outlet of drawing liquid machine is by a connector in a tubular form and drain pipe inner space.This fabric dyeing apparatus with gas supply mechanism has the advantages that efficiency high.
Description
Technical field
The invention belongs to field of mechanical technique, it is related to a kind of fabric dyeing apparatus with gas supply mechanism.
Background technology
A kind of dyeing apparatus of existing fabric garment material spraying dyeing and printing device [Shen as disclosed in Chinese patent storehouse
Please number:201520022141.3;Authorization Notice No.:CN204570238U] include stir chamber, the stir chamber left side is provided with a left side
Support column, the left support post left lower is provided with left motor;Left side is provided with motor teeter column in the stir chamber, described
Motor teeter column left part is connected through left support post bottom with left motor right side, and helical-blade is provided with the motor teeter column
Piece;Right part is provided with teeter column in the stir chamber, multiple paddles is connected with the teeter column, in the teeter column top
Between be connected with motor shaft, the motor shaft top is connected with bottom right motor, and the bottom right motor is arranged on stir chamber top;It is described
Stir chamber upper right is provided with drawing liquid machine, and the drawing liquid machine bottom is connected with feed tube, and the feed tube bottom was connected with
Filter, the filter is arranged on stir chamber bottom right, and the drawing liquid machine top is connected with arc drain pipe;The stir chamber
Upper left-hand is connected with blanking chamber, and blanking chamber top is connected with recovery chamber, is provided between the recovery chamber and blanking chamber
Loading plate, the loading plate top is provided with support chamber, and support chamber left part is connected with left support post upper right, the branch
Support chamber right part is provided with right support post, described loading plate or so and is connected with left support post right side central and right support post bottom respectively
It is fixed;The left support post top is provided with left disk roller, and the right support post bottom is provided with right disk roller, the left disk roller and the right side
Garment material is provided between disk roller, the garment material upper left-hand is provided with storage cavity, and the storage cavity bottom is connected with
Multiple sparge pipes, the storage cavity top is connected with out liquid vertical tube, it is described go out liquid riser upper portions fixed with support chamber inner upper,
It is described go out liquid vertical tube right side be connected with out liquid transverse tube, it is described go out liquid transverse tube right part it is left with arc drain pipe through right support post top
Side connects;The garment material upper right is provided with heating chamber, and the heating chamber middle setting has heating plate, the heating chamber
Top is connected with connecting plate, and the connecting plate right side is fixedly connected with right support post left lower.
Above-mentioned dyeing and printing device has two:1st, the position of shower nozzle is to maintain static, and causes the quality of printing and dyeing not good;
2nd, the fabric after printing and dyeing is dried by heating plate only, drying efficiency is not high.
The content of the invention
The purpose of the present invention is directed to existing technology and there is above mentioned problem, it is proposed that a kind of printing and dyeing of fabric set
Standby, the technical problem of solution is how to improve the quality and efficiency of printing and dyeing.
The purpose of the present invention can be realized by following technical proposal:Fabric dyeing apparatus with gas supply mechanism, bag
Include printing and dyeing room and be laterally disposed in the indoor conveyer belt of printing and dyeing, conveyer belt is respectively arranged on the left side and the right side emptying roller and coiled strip roller, its
Be characterised by, conveyer belt top is provided with the drain pipe of straight tube-like, and length bearing of trend and the conveyer belt of drain pipe width
Bearing of trend is consistent, and the two ends of described drain pipe are closed, the drain pipe be provided with it is some uniform along its length and
With the shower nozzle of its inner space, each shower nozzle is just right with conveyer belt;Gas outlet is additionally provided with directly over conveyer belt, gas outlet is solid
It is scheduled on printing and dyeing indoor, drain pipe is located between gas outlet and conveyer belt, the axial direction of gas outlet and the length bearing of trend of conveyer belt
Perpendicular, the madial wall of the gas outlet is that circular conical surface and its diameter gradually increase downwards, and described printing and dyeing interior is additionally provided with can
Gas supply mechanism that hot gas is delivered in gas outlet and drain pipe can be driven along the drive of the length direction alternating translational of conveyer belt
Moving part, be provided with below described conveyer belt in bowl-type and with gas outlet just to deep bead, it is indoor that deep bead is fixed on printing and dyeing
And its is opening up, through there is some passages on the two side up and down of described conveyer belt, positioned at some logical of the same side
Stomata is uniform along the length direction of conveyer belt;Described printing and dyeing outside is provided with agitator tank, and inlet is provided with the top of agitator tank
And liquid outlet is provided with the right side of the agitator tank, and drawing liquid machine is fixed between agitator tank and printing and dyeing room, the import of drawing liquid machine is by pipe
Road is connected with described liquid outlet, and drawing liquid machine the outlet inner space that passes through a connector in a tubular form and drain pipe, institute
Agitating paddle is provided with the agitator tank stated, and agitator tank outside is provided with the motor that agitating paddle can be driven to rotate.
During installation, it is wound on emptying roller without the fabric of printing and dyeing, fabric one end is by conveyer belt and is wound on coiled strip roller,
Get up with by the fabric retracting after printing and dyeing.
It is as follows using process:Dyestuff is entered into agitator tank through inlet, and under the stirring of agitating paddle, dyestuff is filled
Divide and stir evenly;Dyestuff after being sufficiently stirred for sequentially passes through pipeline, drawing liquid machine, connector, drain pipe under the extraction of drawing liquid machine
And sprayed on the fabric placed on the conveyor belt eventually through shower nozzle;Actuator drives drain pipe along the length direction of conveyer belt
Movement is moved together so as to drive multiple shower nozzles to follow, so that the fabric being placed on conveyer belt can obtain complete spraying,
In actual spraying process, actuator can drive shower nozzle back and forth, to improve the uniformity of spraying;After spraying is finished, air feeder
Structure works to hot gas is injected in gas outlet, to be injected into the hot gas in gas outlet in the presence of gas outlet inwall taper to surrounding
Diffusion, so that whole piece can obtain the drying of hot gas to improve the quality of spraying by the fabric of spraying within the same time;By
Countless air-vents are densely covered with thereon in fabric so that be ejected into the hot gas on fabric through air-vent, the through hole positioned at both sides
Gas is entered into deep bead, and in the presence of deep bead inwall, hot gas is returned by original path and is injected in fabric again
On, thus increase fabric within the same time with the amount of hot air impingement, then accelerate fabric drying rate come improve printing and dyeing effect
Rate;After drying is finished, under the collective effect of coiled strip roller and conveyer belt, will be removed simultaneously from conveyer belt by the fabric after printing and dyeing
Around being located on coiled strip roller, now, the fabric being wound on emptying roller can discharge one section of fabric on the conveyor belt, so that work of entirely printing and dyeing
Sequence is re-started.
It is under the stirring of agitating paddle, stir dye is uniform, so as to effectively solve dyestuff because density occurs in long-term precipitation
Uneven problem, then ensures the fixing that the quality and dyestuff of dyeing are attached on fabric.By setting gas outlet
Inwall is that circular conical surface and its diameter gradually increase downwards, makes the hot gas in gas outlet in the presence of gas outlet inwall taper to four
Week diffusion, so that whole piece can obtain the drying of hot gas by the fabric of spraying within the same time, to ensure the often place of fabric
Multipotency accesses preferably drying to improve the quality of spraying.By the downside of conveyer belt set in bowl-type deep bead with
And setting makes the passage of deep bead inner chamber and gas outlet inner space on the conveyor belt, can so use in gas outlet and spray
Hot gas moved back and forth between deep bead and gas outlet increase fabric within the same time with the amount of hot air impingement, then
Accelerate the drying rate of fabric to improve printing and dyeing efficiency.
In the above-mentioned fabric dyeing apparatus with gas supply mechanism, described agitator tank includes being made up of insulation material
Casing, and the top and bottom of casing are open, are removably fixed with the open top of casing and bottom on casing respectively
The sealing plate one and sealing plate two of the open closing in portion, described sealing plate two are made from a material that be thermally conductive, described sealing plate two
Bottom is provided with groove, and electrical heating wire layer one is fixed with groove.
By setting electrical heating wire layer one in the sealing plate two being made from a material that be thermally conductive, make what electrical heating wire layer one was produced
Heat transfer carries out appropriate heating in casing with to dyestuff, so as to increase the activity of dyestuff, then improves this dyeing apparatus
Printing quality.By setting the casing being made up of insulation material, can effectively by casing and external environs, so as to enter
One step accelerates the speed that dye activity rises, further to strengthen the printing and dyeing efficiency of this dyeing apparatus.
In the above-mentioned fabric dyeing apparatus with gas supply mechanism, described motor is fixed on sealing plate one, institute
The middle part of the sealing plate one stated vertically is provided with through hole, and the upper end of described agitating paddle passes through in direct rod shape and the upper end and leads to
Kong Bingyu motors are connected, and the side wall of described agitating paddle is provided with annular slot, and sealing ring one, and sealing are provided with annular slot
The lateral wall of circle one offsets with the inwall of described through hole.
Reliable sealing is formed in the presence of sealing ring one, between the side wall and the inwall of through hole of agitating paddle to prevent
Hot gas in casing is let out by the connecting sewing between agitating paddle and sealing plate, so that strengthening the printing and dyeing of this dyeing apparatus
The purpose stabilization of efficiency is realized.
In the above-mentioned fabric dyeing apparatus with gas supply mechanism, described sealing ring one includes support ring one and set
Sealing ring one in support ring one, and support ring one and sealing ring one are integral type structure, the axial direction of described sealing ring one
Length less than support ring one axial length, sealing ring one have two and along support ring one axial direction distribution, two sealing rings one it
Between form one annular in shape and for storing the oil storage tank one of lubricant grease, the cross section of each sealing ring one is triangular in shape, and
The lateral wall of sealing ring one offsets with the madial wall of through hole.
Sealing ring one is offseted by cross section sealing ring one triangular in shape with the madial wall of through hole, can effectively be reduced close
Seal one and the contact area of sealing plate one, so as to reduce the effect that sealing ring one is tucked into required applying when in through hole
Power, so as to reduce sealing ring one when sealing ring one is in pretightning force suffered when in through hole to reduce agitating paddle rotation be subject to
Abrasion, can not only so improve the life-span of sealing ring one, and can extend agitating paddle side wall and through hole inwall it
Between form time of reliable sealing and improve the job stability of this dyeing apparatus.
Secondly, the interior filling lubricant grease of oil storage tank one by being formed between two sealing rings one, both can be to sealing ring
One is lubricated to extend the life-span of sealing ring one with the contact position of through-hole wall, and the sealing effect of sealing ring one can be strengthened again
Really (grease inherently has the function of isolation air), make the purpose of the operating efficiency of raising this dyeing apparatus more real
It is existing.
In the above-mentioned fabric dyeing apparatus with gas supply mechanism, the bottom wall of described groove and sealing plate two
Bottom surface is plane, and described electrical heating wire layer one is rounded, and upper surface and the groove of electrical heating wire layer one bottom wall phase
Recline, through the air admission hole having with the inner space of groove on four the week side of boss walls of described sealing plate two.
During installation, agitator tank is placed on mounting surface by sealing plate two, and now, the bottom surface of sealing plate two is fitted with mounting surface
Sealing is formed, the job stability of electrical heating wire layer one is improved to play preferable protective effect to electrical heating wire layer one, from
And make temperature stabilization in casing and rapidly rise to improve the operating efficiency of this dyeing apparatus.When actually used, wherein one
Individual air admission hole stretches out for the cable of heater strip layer one of powering, and other air admission holes are used for air inlet and exhaust.
In the above-mentioned fabric dyeing apparatus with gas supply mechanism, it is equipped with the top and bottom of described casing and is in
The seal groove of ring-type, is equipped with Gask-O-Seal one in two seal grooves, positioned at the both ends of the surface difference of the Gask-O-Seal one at top
Bottom wall with sealing plate one and corresponding seal groove offsets, positioned at bottom Gask-O-Seal one both ends of the surface respectively with sealing plate
Two and the bottom wall of corresponding seal groove offset.
In the presence of Gask-O-Seal one, reliability is respectively formed between sealing plate one and casing and sealing plate two and casing
Sealing, so as to effectively ensure the job stability of this dyeing apparatus.
In the above-mentioned fabric dyeing apparatus with gas supply mechanism, the top of described agitator tank is convex with being cylindrical in shape
The connecting portion for going out, and the inner chamber of connecting portion connects with inlet, is arranged on described connecting portion and is fixed with into fluid cylinder, enters fluid cylinder
Madial wall and the lateral wall of connecting portion between form sealing, and the roof of the lower surface and agitator tank for entering fluid cylinder mutually reclines, institute
That states the enter sandwich that fluid cylinder is internal iron sheet, middle part heat preservation rock and outside iron sheet composition, and positioned at the iron sheet of inner side
Locating slot annular in shape is offered on upper surface, tubular electrical heating wire layer two is plugged and be fixed with locating slot, it is described
The upper end for entering fluid cylinder is fixed with the cover plate for closing the notch of locating slot, the lateral wall for entering fluid cylinder be provided with locating slot
The steam vent of chamber connection, and the cable of electrical heating wire layer two passes through steam vent, described connecting portion to be made from a material that be thermally conductive.
By entering in fluid cylinder to set electrical heating wire layer two, make the heat transfer that electrical heating wire layer two is produced to entering fluid cylinder
It is interior, appropriate heating is carried out with to dyestuff, can not only so avoid dyestuff from being bonded at and liquid passage was blocked on fluid cylinder inwall, and
The activity of dyestuff can be increased to improve the printing quality of this dyeing apparatus.Because heat preservation rock has stronger heat insulation effect,
Enter the sandwich that fluid cylinder wraps up heat preservation rock using interior external iron sheet, in the case where ensuring into fluid cylinder in itself intensity, again can
Strengthen the heat-insulating property into fluid cylinder to accelerate the speed of raising dye activity;Secondly, by setting inwall and connection into fluid cylinder
The bottom wall of formation sealing and the lower surface and sealing plate two of entering fluid cylinder mutually reclines to be formed and seals both between the outer wall in portion
Under collective effect, connecting portion is completely encapsulated in into fluid cylinder, is distributed so as to be prevented effectively from into the hot gas in fluid cylinder, so as to enter
One step is accelerated to improve the speed of dye activity, to improve the printing and dyeing efficiency of this dyeing apparatus.
Have in the above-mentioned fabric dyeing apparatus with gas supply mechanism, on the described madial wall for entering fluid cylinder is in ring
The shoulder block of shape, this enters fluid cylinder interpolation rounded screen pack, and screen pack is conllinear with the central axis for entering both fluid cylinders, and filtering
Network folder is between shoulder block and the upper surface of connecting portion.
By entering to set screen pack in fluid cylinder, the contaminant filter that will can have both contained in dyestuff out improves this print
The quality of dye;The speed of dyestuff flowing can be slowed down again to extend the time that dyestuff is heated, make dyestuff obtain more fully adding
Heat, to ensure that dyestuff possesses stronger activity.
In the above-mentioned fabric dyeing apparatus with gas supply mechanism, described enters fluid cylinder and connecting portion by screw thread knot
Structure is mutually fixed.
Helicitic texture inherently possesses stronger sealing;Meanwhile, realize being detachably fixed into fluid cylinder and connecting portion again, from
And facilitate the cleaning or replacing of screen pack.
Alternatively, in the above-mentioned fabric dyeing apparatus with gas supply mechanism, described connecting portion
Lateral wall and the madial wall for entering fluid cylinder are the face of cylinder and both mutually recline and form sealing.
Connecting portion mutually reclines to realize sealing with fluid cylinder is entered by respective side wall, i.e., above-mentioned sealing needs not rely on it
His parts, have the advantages that simple structure, easy to assembly;Meanwhile, using above-mentioned structure, it is possible to reduce electrical heating wire layer two
Accelerate to improve the speed of dye activity with the distance between feed liquor tube inner chamber, to improve the printing and dyeing efficiency of this dyeing apparatus.
In the above-mentioned fabric dyeing apparatus with gas supply mechanism, the roof of described agitator tank is provided with annularly
Link slot one, be provided with Gask-O-Seal two in link slot one, and Gask-O-Seal two two ends respectively with the bottom of link slot one
Wall offsets with the lower surface for entering fluid cylinder.
In the presence of Gask-O-Seal two, enter between fluid cylinder and agitator tank and form reliable sealing, can so enter one
Step reduces connecting portion inside and the extraneous chance for exchanging, and the purpose stabilization for making quickening improve dye activity is realized increasing this print
The printing and dyeing efficiency of dyeing equipment.
In the above-mentioned fabric dyeing apparatus with gas supply mechanism, described fluid cylinder upper end of entering is provided with funnel, described
Funnel include it is tubular go out liquid portion, go out liquid portion and be inserted in into fluid cylinder and both are fixed together by helicitic texture.
By setting funnel, improve and dyestuff is injected into the convenience in fluid cylinder.
In the above-mentioned fabric dyeing apparatus with gas supply mechanism, described connector includes being placed in printing and dyeing interior
Feed tube and connecting tube, feed tube and connecting tube in straight tube-like and both length bearing of trends with the length of conveyer belt
Bearing of trend is consistent, and the right-hand member of connecting tube is sealed with drain pipe to be fixed, and the inner chamber of connecting tube is connected with the inner chamber of drain pipe
Logical, the left end of described connecting tube is enclosed within feed tube, and connecting tube being capable of sliding axially along feed tube, described feed tube
Left end stretch out printing and dyeing room and with the outlet of drawing liquid machine, the right-hand member lateral wall of described feed tube is provided with company annular in shape
Sealing ring two is provided with access slot two, link slot two, and the lateral wall of sealing ring two and the madial wall of connecting tube offset, described company
Adapter and feed tube are the sandwich of internal iron sheet, middle part heat preservation rock and outside iron sheet composition.
When using, the dyestuff extracted out through drawing liquid machine flows successively through feed tube, connecting tube and is flowed into drain pipe and finally leads to
Cross shower nozzle ejection;Then actuator work drives drain pipe to move and make connecting tube follow drain pipe to move together, to ensure stream
Entering the dyestuff in connecting tube can enter into drain pipe, have the advantages that simple structure, good operating stability.
Connecting tube and feed tube are the sandwich that interior external iron sheet wraps up heat preservation rock, are ensuring connecting tube and feed tube
On the premise of possessing higher-strength, both are made to possess stronger heat-insulating property again, so as to reduce heat of the dyestuff in course of conveying
Amount loss, with the further quality for strengthening printing and dyeing.
In the above-mentioned fabric dyeing apparatus with gas supply mechanism, described sealing ring two includes support ring two and set
Sealing ring two in support ring two, and support ring two and sealing ring two are integral type structure, the axial direction of described sealing ring two
Length less than support ring two axial length, sealing ring two have two and along support ring two axial direction distribution, two sealing rings two it
Between form one annular in shape and for storing the oil storage tank two of lubricant grease, the cross section of each sealing ring two is triangular in shape, and
The lateral wall of sealing ring two offsets with the madial wall of connecting tube.
Sealing ring two is offseted by cross section sealing ring two triangular in shape with the madial wall of connecting tube, can effectively be reduced
The contact area of sealing ring two and connecting tube, so as to reduce the effect that sealing ring two is tucked into required applying when in connecting tube
Power, so as to reduce sealing ring two when sealing ring two is in pretightning force suffered when in connecting tube to reduce connecting tube movement receive
The abrasion arrived, can not only so improve the life-span of sealing ring two, and can extend between connecting tube and feed tube formed can
The time of the sealing leaned on improves the job stability of this dyeing apparatus.
In the above-mentioned fabric dyeing apparatus with gas supply mechanism, the left end madial wall of described connecting tube is provided with
0 shape circle one is provided with link slot three annular in shape, link slot three, and the inner peripheral surface of 0 shape circle one offsets with the lateral wall of feed tube.
Under the common cooperation of 0 shape circle and sealing ring two, to form two seals between connecting tube and feed tube, so
The sealing connected between connecting tube and feed tube can further be strengthened, thereby further ensure that the work of this dyeing apparatus is steady
It is qualitative.
Have in the above-mentioned fabric dyeing apparatus with gas supply mechanism, on the side wall of described drain pipe and be cylindrical in shape
The sleeved part of protrusion, and inner chamber and the drain pipe of sleeved part inner space, the right-hand member of described connecting tube is enclosed within sleeved part,
And both are mutually fixed by helicitic texture.
Using above-mentioned structure, the assembling of drain pipe and connecting tube is not only facilitated, and helicitic texture can use liquid
Certain sealing is formed between pipe and connecting tube, there is simple structure.
In the above-mentioned fabric dyeing apparatus with gas supply mechanism, have on the right-hand member madial wall of described connecting tube
Annular convex shoulder, annular convex shoulder is coaxial with connecting tube, is reclined on the right side of described annular convex shoulder and is fixed with and be annular in shape close
Packing three, and the right side of sealing gasket three and the end face of sleeved part closely against.
Reliable sealing is formed in the presence of sealing gasket three, between connecting tube and sleeved part, is originally set further to improve
Standby job stability.
In the above-mentioned fabric dyeing apparatus with gas supply mechanism, described gas supply mechanism includes L-shaped air inlet
The indoor pressure fan of printing and dyeing is managed and is fixed on, described air inlet pipe includes the outlet portion being vertically arranged and horizontally disposed air inlet
Portion, has the gas transmission portion for being cylindrical in shape protrusion on the upper surface of described gas outlet, described outlet portion plugs and is fixed on gas transmission
Sealing is formed by 0 shape circle two in portion, and between outlet portion and gas transmission portion, described intake section connects with the air outlet of pressure fan
Logical, the madial wall of the intake section is provided with step annular in shape, and rounded electrical heating wire layer three, and electrical heating are provided with step
The central axis of silk layer three is conllinear with the central axis of intake section, and described electrical heating wire layer three is by rounded shell and bag
The carbon fiber exothermic wire composition in shell is rolled in, described shell mutually fixes with intake section, the left and right both ends of the surface of described shell
On be respectively equipped with venthole and air admission hole with the inner space of shell, and venthole and air admission hole have several.
During drying, air exhauster is blown in intake section, and wind is entered into shell and and carbon fiber exothermic wire by air admission hole
Contact becomes hot blast, and then hot blast is entered in outlet portion by venthole and discharged eventually through gas outlet, to dry fabric.
In the above-mentioned fabric dyeing apparatus with gas supply mechanism, through there is screw thread on the side wall of described intake section
Kong Yi, screwed hole one has several and along the circumferential uniform of intake section, and the lateral wall of described shell is provided with screwed hole two, spiral shell
The quantity of pit two is identical with screwed hole one and position corresponds, and bolt is bolted with the screwed hole one described in each, and
The end of bolt is screwed onto in corresponding screwed hole two.
Using above-mentioned structure, to realize that electrical heating wire layer three is detachably fixed with air inlet pipe, enable electrical heating wire layer three
It is enough individually to be changed, to reduce the cost produced by replacing electrical heating wire layer three.
In the above-mentioned fabric dyeing apparatus with gas supply mechanism, the lateral wall of described shell is provided with annularly
Link slot four, and the link slot four is located between bolt and pressure fan, and 0 shape circle three, and 0 shape are provided with described link slot four
The outer peripheral face of circle three offsets with the inwall of described step.
Reliable sealing is formed in the presence of 0 shape circle three, between shell and air inlet pipe, the wind for producing pressure fan is complete
Electrical heating wire layer three is flowed through, to improve the heat of the hot blast contacted with fabric, so as to improve drying rate, this printing and dyeing is then improved
The operating efficiency of equipment.
In the above-mentioned fabric dyeing apparatus with gas supply mechanism, described outlet portion passes through helicitic texture and gas transmission
Portion is mutually fixed, and the lateral wall in described outlet portion is provided with link slot five annular in shape, and 0 shape circle two is located in link slot five, and 0
The outer peripheral face of shape circle two offsets with the madial wall in gas transmission portion.
Helicitic texture inherently carries sealing effectiveness, in the presence of plus 0 shape circle two, makes between outlet portion and gas transmission portion
Formed and strengthen big sealing, heating is discharged and is ejected on fabric by gas outlet completely, so as to effectively accelerate the speed of drying
Degree, then improves the operating efficiency of this dyeing apparatus.
Compared with prior art, this fabric dyeing apparatus with gas supply mechanism has advantages below:
1st, it is under the stirring of agitating paddle, stir dye is uniform, so as to effectively solve dyestuff because long-term precipitation appearance is close
The uneven problem of degree, then ensures the fixing that the quality and dyestuff of dyeing are attached on fabric.
2nd, it is that circular conical surface and its diameter gradually increase downwards by setting the inwall of gas outlet, the hot gas in gas outlet is existed
Spread to surrounding in the presence of gas outlet inwall taper, so that whole piece can obtain heat by the fabric of spraying within the same time
The drying of gas, accesses preferably drying to improve the quality of spraying with the often place multipotency for ensuring fabric.
3rd, by the downside of conveyer belt set in bowl-type deep bead and on the conveyor belt set make deep bead inner chamber
With the passage of gas outlet inner space, the hot gas sprayed in gas outlet can be so used past between deep bead and gas outlet
It is multiple mobile come increase fabric within the same time with the amount of hot air impingement, then accelerate the drying rate of fabric to improve printing and dyeing
Efficiency.
Brief description of the drawings
Fig. 1 is the structural representation of the fabric dyeing apparatus with gas supply mechanism.
Fig. 2 is the mplifying structure schematic diagram at A in Fig. 1.
Fig. 3 is the mplifying structure schematic diagram at B in Fig. 1.
Fig. 4 is the mplifying structure schematic diagram at C in Fig. 1.
Fig. 5 is the mplifying structure schematic diagram at D in Fig. 1.
Fig. 6 is the mplifying structure schematic diagram at E in Fig. 1.
Fig. 7 is the mplifying structure schematic diagram at F in Fig. 1.
Fig. 8 is the mplifying structure schematic diagram at G in Fig. 1.
Fig. 9 is the attachment structure schematic diagram of drain pipe and shower nozzle.
In figure, 1, printing and dyeing room;1a, door-plate;1b, chute;2nd, conveyer belt;2a, passage;3rd, emptying roller;4th, coiled strip roller;5、
Drain pipe;5a, sleeved part;6th, shower nozzle;7th, gas outlet;7a, gas transmission portion;8th, actuator;9th, deep bead;10th, agitator tank;10a, enter
Liquid mouthful;10b, liquid outlet;10c, casing;10d, sealing plate one;10d1, connecting portion;10e, sealing plate two;11st, drawing liquid machine;12、
Motor;13rd, conveying roller;14th, fabric guide roll;15th, connecting plate;16th, air inlet pipe;17th, pressure fan;18th, 0 shape circle two;19th, electrical heating wire
Layer three;19a, shell;19a1, air admission hole;19a2, venthole;19b, carbon fiber exothermic wire;20th, bolt;21st, 0 shape circle three;22、
Connecting rod;23rd, pipeline;24th, feed tube;25th, connecting tube;25a, annular convex shoulder;26th, sealing gasket three;27th, sealing ring two;27a、
Support ring two;27b, sealing ring two;28th, 0 shape circle one;29th, Gask-O-Seal one;30th, electrical heating wire layer one;31st, power supply;32、
Switch one;33rd, controller one;34th, agitating paddle;35th, sealing ring one;35a, support ring one;35b, sealing ring 1;36th, feed liquor
Cylinder;37th, electrical heating wire layer two;38th, cover plate;39th, two are switched;40th, temperature sensor two;41st, controller two;42nd, screen pack;
43rd, Gask-O-Seal two;44th, funnel;45th, temperature sensor one.
Specific embodiment
The following is specific embodiment of the invention and with reference to accompanying drawing, technical scheme is further described,
But the present invention is not limited to these embodiments.
As shown in Figures 1 to 9, this fabric dyeing apparatus with gas supply mechanism is by room 1, the conveyer belt 2, emptying roller of printing and dyeing
3rd, coiled strip roller 4, drain pipe 5, shower nozzle 6, gas outlet 7, gas supply mechanism, actuator 8, deep bead 9, agitator tank 10, drawing liquid machine 11, electricity
Machine 12, connector etc. is constituted.
Wherein, the printing and dyeing side of room 1 is provided with the doorway for operating personnel's turnover, and door-plate 1a is hinged with doorway.Printing and dyeing room 1
Interior axial direction is fixed with two conveying rollers 13, and the position of two conveying roller 13 is just right, and wherein one electric rotating machine 12 of conveying roller 13 and
One is connected (not shown).Conveyer belt 2 is horizontally installed in printing and dyeing room 1, and the conveyer belt 2 makes rotation around being located on two conveying rollers 13
The driving conveying belt 2 of motor 12 1 is moved.
Emptying roller 3 and coiled strip roller 4 are respectively arranged on the left and right sides of conveyer belt 2.Emptying roller 3 and the equal axial restraint of coiled strip roller 4
In printing and dyeing room 1, and coiled strip roller 4 is connected (not shown) with an electric rotating machine 12 2, to realize the active retracting of coiled strip roller 4 by dye
Fabric after color.Further illustrate, fabric guide roll 14 be equipped between coiled strip roller 4 and conveyer belt 2 and emptying roller 3 and conveyer belt 2,
Two fabric guide rolls 14 are axially fixed in printing and dyeing room 1, to improve the stability of fabric conveying.
Drain pipe 5 is closed in straight tube-like, and the two ends of the drain pipe 5.Drain pipe 5 is located in printing and dyeing room 1 and is located at defeated
Send the top of band 2.As shown in Fig. 1 and Fig. 9, the length bearing of trend of drain pipe 5 is consistent with the width bearing of trend of conveyer belt 2,
The downside of the drain pipe 5 is provided with the shower nozzle 6 with its inner space, shower nozzle 6 have several and it is equal along the length direction of drain pipe 5
Cloth, now, each shower nozzle 6 is just right with conveyer belt 2.Actuator 8 is fixed in printing and dyeing room 1, and the actuator 8 can drive out
Liquid pipe 5 along conveyer belt 2 length direction alternating translational, effectively to increase the spraying range of dyestuff.In the present embodiment, actuator
8 is that cylinder or oil cylinder are possible, and actuator 8 is mutually fixed by one piece of connecting plate 15 with the roof of printing and dyeing room 1;Printing and dyeing room
1 rear wall is provided with the chute 1b of strip, the length bearing of trend of chute 1b and the length bearing of trend phase of conveyer belt 2
Unanimously, and the rear end of drain pipe 5 is inserted in chute 1b, play preferable guide effect with the movement to drain pipe 5 to improve dye
Expect the stability of sprinkling.
As described in Figure 1, the surface of conveyer belt 2 is provided with tubular gas outlet 7, and the gas outlet 7 is fixed on by support
In printing and dyeing room 1, and now, drain pipe 5 is located between gas outlet 7 and conveyer belt 2.Further illustrate, the axis of gas outlet 7 extends
Direction is perpendicular with the length bearing of trend of conveyer belt 2;The madial wall of gas outlet 7 is that circular conical surface and its diameter gradually increase downwards
Greatly, area is distributed with increase hot blast.Gas supply mechanism is in printing and dyeing room 1, and can be delivered to out for hot gas by the gas supply mechanism
In inflator 7.
Specifically, as shown in Fig. 1, Fig. 6 and Fig. 7, gas supply mechanism includes L-shaped air inlet pipe 16 and is fixed on printing and dyeing room
Pressure fan 17 in 1.Wherein, air inlet pipe 16 includes the outlet portion that is vertically arranged and horizontally disposed intake section, and intake section and
Outlet portion is integral type structure.There is the gas transmission portion 7a for being cylindrical in shape protrusion, gas transmission portion 7a and gas outlet on the upper surface of gas outlet 7
7 is coaxial and both are integral type structure.As shown in figure 1, outlet portion plugs and is fixed in gas transmission portion 7a, and outlet portion and gas transmission
Sealing is formed by 0 shape circle 2 18 between portion 7a.In the present embodiment, outlet portion is detachable with gas transmission portion 7a by helicitic texture
Fixed, the lateral wall in outlet portion is provided with link slot five annular in shape, and 0 shape circle 2 18 is located in link slot five, and 0 shape circle 2 18
Outer peripheral face offseted with the madial wall of gas transmission portion 7a, so as to form reliable sealing between outlet portion and gas transmission portion 7a.It is natural, it is defeated
Gas portion 7a and outlet portion are fixed together also possible by way of welding.
Pressure fan 17 is mutually fixed located at the top of actuator 8 and with above-mentioned connecting plate 15;Intake section goes out with pressure fan 17
Air port is connected, and the wind that pressure fan 17 is manufactured is incorporated into air inlet pipe 16.The madial wall of intake section is provided with platform annular in shape
Rank, is provided with rounded electrical heating wire layer 3 19 in step, and central axis and the intake section of electrical heating wire layer 3 19 center
Axis collinear.As shown in figure 1, electrical heating wire layer 3 19 is by rounded shell 19a and the carbon fiber being wrapped in shell 19a
Heating wire 19b is constituted.Wherein, shell 19a is mutually fixed with intake section;It is respectively equipped with shell 19a or so both ends of the surface and shell 19a
Inner space venthole 19a2 and air admission hole 19a1, and venthole 19a2 and air admission hole 19a1 have several.In this reality
Apply in example, through there is screwed hole one on the side wall of intake section, screwed hole one there are several and along the circumferential uniform of intake section.Shell
The lateral wall of 19a is provided with screwed hole two, and the quantity of screwed hole two is identical with screwed hole one and position corresponds.Each screw thread
Bolt 20 is bolted with hole one, and the end of bolt 20 is screwed onto in corresponding screwed hole two, by electrical heating wire layer 3 19
It is removably positioned in step, so stably gas can not only be heated, but also electrical heating wire layer can be realized
3 19 are individually replaced.Further illustrate, the lateral wall of shell 19a is provided with link slot four annular in shape, and the link slot four
Between bolt 20 and pressure fan 17.Be provided with 0 shape circle 3 21 in link slot four, and 0 shape circle 3 21 outer peripheral face and step
Inwall offsets, so that the wind that pressure fan 17 is produced flows completely through electrical heating wire layer 3 19.
As shown in figure 1, the lower section of conveyer belt 2 is provided with bowl-shape deep bead 9, and deep bead 9 is opening up.Deep bead
Be provided with connecting rod 22 vertically between 9 and the printing and dyeing bottom wall of room 1, the two ends of connecting rod 22 respectively with the bottom wall and deep bead 9 of printing and dyeing room 1
Bottom wall mutually fix, by deep bead 9 be stably positioned in printing and dyeing room 1 in.As shown in figure 8, on the two side up and down of conveyer belt 2
Through there is some passage 2a, and some passage 2a positioned at the same side uniform along the length direction of conveyer belt 2, so that from
The hot gas of discharge can be flowed in deep bead 9 by passage 2a in gas outlet 7, and in the presence of deep bead 9, backspace again
Onto conveyer belt 2.
Agitator tank 10 is placed in outside printing and dyeing room 1, and the top of agitator tank 10 is provided with inlet 10a and its right side is provided with liquid outlet
10b.Between agitator tank 10 and printing and dyeing room 1, the import of the drawing liquid machine 11 is connected drawing liquid machine 11 by pipeline 23 with liquid outlet 10b
It is logical, and drawing liquid machine 11 the outlet inner space that passes through a connector in a tubular form and drain pipe 5.In the present embodiment, as schemed
1st, shown in Fig. 4 and Fig. 5, connector includes the feed tube 24 and connecting tube 25, feed tube 24 and connecting tube that are placed in printing and dyeing in room 1
The 25 length bearing of trend in straight tube-like and both length bearing of trends with conveyer belt 2 is consistent.
Connecting tube 25 is located between feed tube 24 and drain pipe 5, wherein, the right-hand member of connecting tube 25 is solid with the sealing of drain pipe 5
Calmly, and now, the inner chamber of connecting tube 25 and the intracavity inter-connection of drain pipe 5.Specifically, have on the side wall of drain pipe 5 and be in
The sleeved part 5a of tubular protrusion, sleeved part 5a and drain pipe 5 are integral type structure, and sleeved part 5a inner chamber and drain pipe 5
Inner space.The right-hand member of connecting tube 25 is enclosed within sleeved part 5a, and both are mutually fixed by helicitic texture.Further illustrate, even
There is annular convex shoulder 25a on the right-hand member madial wall of adapter 25, and annular convex shoulder 25a is coaxial with connecting tube 25.Annular convex shoulder 25a's
Sealing gasket 3 26 annular in shape is reclined and is fixed with right side, and the right side of sealing gasket 3 26 is tight with the end face of sleeved part 5a
It is closely connected to lean on, effectively to ensure the sealing that connecting tube 25 and sleeved part 5a are connected.
As shown in figure 4, the left end of connecting tube 25 is enclosed within feed tube 24, and connecting tube 25 can be along the axial direction of feed tube 24
Slide.The left end of feed tube 24 stretch out printing and dyeing room 1 and with the outlet of drawing liquid machine 11.Set on the right-hand member lateral wall of feed tube 24
Have a link slot two annular in shape, be provided with sealing ring 2 27 in link slot two, and sealing ring 2 27 lateral wall and connecting tube 25
Madial wall offsets, to ensure during connecting tube 25 is slided, the effect of connecting tube 25 and feed tube 24 in sealing ring 2 27
Under remain sealing be connected.Further illustrate, sealing ring 2 27 includes the 27a of support ring two and is enclosed within the 27a of support ring two
The 27b of sealing ring two, and the 27a of the support ring two and 27b of sealing ring two is integral type structure.The axial length of the 27b of sealing ring two is less than
The axial length of the 27a of support ring two, the 27b of sealing ring two has two and along the axial direction distribution of the 27a of support ring two, two sealing rings two
Form one annular in shape and for storing the oil storage tank two of lubricant grease between 27b, the cross section of each sealing ring two 27b is in three
It is angular, and the lateral wall of the 27b of sealing ring two offsets with the madial wall of connecting tube 25.Using above-mentioned structure, can not only improve
The life-span of sealing ring 2 27, and the time for forming reliable sealing can be extended between connecting tube 25 and feed tube 24.
Further optimization, the left end madial wall of connecting tube 25 is provided with link slot three annular in shape, link slot three and is provided with 0
Shape circle 1, and the inner peripheral surface of 0 shape circle 1 offsets with the lateral wall of feed tube 24, further to strengthen connecting tube 25 and feed liquor
The reliability of sealing is formed between pipe 24.Connecting tube 25 and feed tube 24 are internal iron sheet, middle part heat preservation rock and outside iron
The sandwich of skin composition.
As shown in Figures 2 and 3, agitator tank 10 includes the casing 10c being made up of insulation material, and insulation material selects extrusion molding
One kind in styrofoam, composite wood is possible.Casing 10c has inner chamber, and the top and bottom of casing 10c open
Mouthful.It is removably fixed with the 10d of sealing plate one of the open closing of the open top of casing 10c and bottom on casing 10c respectively
With the 10e of sealing plate two, i.e., now, inlet 10a is located on the 10d of sealing plate one, and liquid outlet 10b is located on casing 10c.Wherein,
The 10e of sealing plate two and the 10d of sealing plate one are made from a material that be thermally conductive, and Heat Conduction Material can select stainless steel or copper.In this implementation
In example, the 10d of sealing plate one and the 10e of sealing plate two are detachably fixed by screw with casing 10c;The top and bottom of casing 10c
Portion is equipped with seal groove annular in shape, and Gask-O-Seal 1 is equipped with two seal grooves, positioned at the Gask-O-Seal one at top
Bottom wall of 29 both ends of the surface respectively with the 10d of sealing plate one and corresponding seal groove offsets, positioned at the Gask-O-Seal 1 of bottom
Bottom wall of the both ends of the surface respectively with the 10e of sealing plate two and corresponding seal groove offset so that the 10d of sealing plate one and casing 10c with
And reliable sealing is respectively formed between the 10e of sealing plate two and casing 10c.
The bottom of the 10e of sealing plate two is provided with groove, and electrical heating wire layer 1 is fixed with groove.Specifically, electrical heating
Silk layer 1 is rounded, and it is made up of rounded housing one and the heating wire in housing.As shown in figure 3, groove
The bottom surface of bottom wall and the 10e of sealing plate two is plane, and one 30 upper surface of electrical heating wire layer mutually reclines with the bottom wall of groove, and
Housing one is fixed by way of bonding with the 10e phases of sealing plate two, so as to electrical heating wire layer 1 is stably positioned in into groove
It is interior.Through the air admission hole 19a1 having with the inner space of groove on the four the week side of boss walls of the 10e of sealing plate two, and actually used
When, one of air admission hole 19a1 stretches out for the cable of heater strip layer 1 of powering, and other air admission holes 19a1 is used for air inlet
And exhaust.The cable of electrical heating wire layer 1 is connected with power supply 31, and electrical heating wire layer 1 is controlled by switch 1
With the break-make of power supply 31.Casing 10c outsides are fixed with by the temperature sensor 1 being arranged in casing 10c come controlling switch
The controller 1 of one 32 folding, by the temperature control in casing 10c within the specific limits.
Agitating paddle 34 is provided with agitator tank 10, and the outside of agitator tank 10 is provided with the motor that agitating paddle 34 can be driven to rotate
12.Specifically, as depicted in figs. 1 and 2, vertically in casing 10c, motor 12 is fixed on the 10d of sealing plate one to agitating paddle 34
On.The middle part of the 10d of sealing plate one is vertically provided with through hole, agitating paddle 34 upper end is in direct rod shape and the upper end passes through through hole
And be connected with motor 12.The side wall of agitating paddle 34 is provided with annular slot, and sealing ring 1, and sealing ring are provided with annular slot
One 35 lateral wall offsets with the inwall of through hole, so as to form reliable close between the side wall and the inwall of through hole of agitating paddle 34
Envelope.Further illustrate, sealing ring 1 includes the 35a of the support ring one and 35b of sealing ring one being enclosed within the 35a of support ring one, and branch
The 35a of the pushing out ring one and 35b of sealing ring one is integral type structure.Axial direction of the axial length of the 35b of sealing ring one less than the 35a of support ring one
Length, the 35b of sealing ring one has two and along the axial direction distribution of the 35a of support ring one, one is formed between the 35b of two sealing ring one annular in shape
And for storing the oil storage tank one of lubricant grease, the cross section of each sealing ring one 35b is triangular in shape, and the 35b of sealing ring one
Lateral wall offseted with the madial wall of through hole.
As shown in Fig. 2 the top of the 10d of sealing plate one has is cylindrical in shape the connecting portion 10d1 of protrusion, connecting portion 10d1 and close
The 10d of shrouding one is integral type structure, and the inner chamber of connecting portion 10d1 connects with inlet 10a.It is arranged on connecting portion 10d1 and solid
Surely have into fluid cylinder 36, enter and sealing is formed between the madial wall of fluid cylinder 36 and the lateral wall of connecting portion 10d1, and enter under fluid cylinder 36
End face mutually reclines with the roof of the 10d of sealing plate one.In the present embodiment, enter fluid cylinder 36 and connecting portion 10d1 passes through helicitic texture phase
Fixed, helicitic texture inherently possesses stronger sealing;Meanwhile, realize again detachably solid into fluid cylinder 36 and connecting portion 10d1
It is fixed.It is natural, using " lateral wall of connecting portion 10d1 is the face of cylinder with the madial wall for entering fluid cylinder 36 and both mutually recline and are formed
Sealing " this technical scheme can equally realize connecting portion 10d1 and enter fluid cylinder 36 seal be connected.
Further illustrate, enter the sandwich that fluid cylinder 36 is internal iron sheet, middle part heat preservation rock and outside iron sheet composition.Position
In locating slot annular in shape is offered on the upper surface of the iron sheet of inner side, tubular electrical heating is plugged and is fixed with locating slot
Silk layer 2 37, and electrical heating wire layer 2 37 is made up of housing two and the heating wire being wrapped in housing two.Enter the upper of fluid cylinder 36
End is fixed with the cover plate 38 for closing the notch of locating slot, and the lateral wall for entering fluid cylinder 36 is provided with and the inner space of locating slot
Steam vent, and electrical heating wire layer 2 37 cable through steam vent and being connected with above-mentioned power supply 31.Power supply 31 and electrical heating
The switch 2 39 of both break-makes of control is provided between silk layer 2 37, is entered and is fixed with fluid cylinder 36 by being arranged on into fluid cylinder 36
Temperature sensor 2 40 carrys out the controller 2 41 of the folding of controlling switch 2 39, and the temperature control that will enter in fluid cylinder 36 is certain
In the range of.
As shown in Fig. 2 enter have shoulder block annular in shape on the madial wall of fluid cylinder 36, and shoulder block is with to enter fluid cylinder 36 coaxial.Enter
Rounded screen pack 42 is inserted with fluid cylinder 36, screen pack 42 is conllinear with the central axis for entering both fluid cylinders 36, and screen pack 42
It is sandwiched between the upper surface of shoulder block and connecting portion 10d1, filtering is played a part of with to dyestuff.Set on the roof of the 10d of sealing plate one
Have a link slot one annular in shape, be provided with Gask-O-Seal 2 43 in link slot one, and Gask-O-Seal 2 43 two ends respectively with
The bottom wall of link slot one offsets with the lower surface for entering fluid cylinder 36.Enter the upper end of fluid cylinder 36 and be provided with funnel 44, funnel 44 includes being cylindrical in shape
Go out liquid portion, go out liquid portion and be inserted in into fluid cylinder 36 and both are fixed together by helicitic texture, dyestuff is injected with improve
To the convenience entered in fluid cylinder 36.
During installation, it is wound on emptying roller 3 without the fabric of printing and dyeing, fabric one end is by conveyer belt 2 and is wound on coiled strip roller 4
On, the fabric retracting after printing and dyeing is got up.
It is as follows using process:Dyestuff is entered into agitator tank 10 through entering fluid cylinder 36, connecting portion 10d1 and inlet 10a, and
Under the stirring of agitating paddle 34, dyestuff is fully stirred evenly;In whipping process, the work of electrical heating wire layer 1 is carried out to dyestuff
Heat to improve the activity of dyestuff.Dyestuff after being sufficiently stirred for sequentially passes through pipeline 23 under the extraction of drawing liquid machine 11, takes out
Liquid machine 11, feed tube 24, connecting tube 25 and drain pipe 5 simultaneously spray to the fabric being placed on conveyer belt 2 eventually through shower nozzle 6
On;Actuator 8 drives drain pipe 5 to be moved together so as to drive multiple shower nozzles 6 to follow along the length direction movement of conveyer belt 2, with
The fabric being placed on conveyer belt 2 is set to obtain complete spraying, in actual spraying process, actuator 8 can drive shower nozzle 6 past
It is multiple multiple, to improve the uniformity of spraying;After spraying is finished, gas supply mechanism works, to hot gas is injected in gas outlet 7, to be injected into
Hot gas in gas outlet 7 spreads in the presence of the inwall taper of gas outlet 7 to surrounding, so that whole piece can by the fabric of spraying
The drying of hot gas is obtained within the same time to improve the quality of spraying;It is densely covered with countless air-vents thereon due to fabric,
So that the hot gas being ejected on fabric is entered into deep bead 9 through air-vent, the through hole gas positioned at both sides, and in deep bead 9
In the presence of wall, hot gas is returned by original path and is injected on fabric again, thus increase fabric within the same time and
The amount of hot air impingement, then accelerates the drying rate of fabric to improve printing and dyeing efficiency;After drying is finished, in coiled strip roller 4 and conveying
Under collective effect with 2, will be removed from conveyer belt 2 by the fabric after printing and dyeing and around being located on coiled strip roller 4, now, be wound on
Fabric on emptying roller 3 can discharge one section of fabric on conveyer belt 2, so that whole dyeing process is re-started.
Embodiment two
The present embodiment two is essentially identical with the structure and principle of embodiment one, and different place is:Actuator 8 is soft
Pipe, and flexible pipe two ends outlet respectively with drawing liquid machine 11 and the inner space of drain pipe 5.
Embodiment three
The present embodiment three is essentially identical with the structure and principle of embodiment one, and different place is:Gas supply mechanism is
Warm-air drier, and the air outlet of warm-air drier connected by air supply pipe with gas outlet 7.
Specific embodiment described herein is only to the spiritual explanation for example of the present invention.Technology neck belonging to of the invention
The technical staff in domain can be made various modifications or supplement to described specific embodiment or be replaced using similar mode
Generation, but without departing from spirit of the invention or surmount scope defined in appended claims.
Claims (8)
1. the fabric dyeing apparatus with gas supply mechanism, including the printing and dyeing room conveyer belt indoor with printing and dyeing are laterally disposed in, conveying
Band is respectively arranged on the left side and the right side emptying roller and coiled strip roller, it is characterised in that conveyer belt top is provided with the drain pipe of straight tube-like,
And the length bearing of trend of drain pipe is consistent with the width bearing of trend of conveyer belt, the two ends of described drain pipe are closed,
The drain pipe be provided with it is some uniform along its length and with the shower nozzle of its inner space, each shower nozzle with conveyer belt just
It is right;Be additionally provided with gas outlet directly over conveyer belt, it is indoor that gas outlet is fixed on printing and dyeing, drain pipe be located at gas outlet and conveyer belt it
Between, the axial direction of gas outlet is perpendicular with the length bearing of trend of conveyer belt, and the madial wall of the gas outlet is circular conical surface and its diameter
Gradually increase downwards, described printing and dyeing interior is additionally provided with hot gas can be delivered in gas outlet gas supply mechanism and can drive
Drain pipe is provided with bowl-type and and outlet along the actuator of the length direction alternating translational of conveyer belt below described conveyer belt
Cylinder just to deep bead, deep bead is fixed on that printing and dyeing are indoor and its is opening up, on the two side up and down of described conveyer belt
Through there is some passages, some passages positioned at the same side are uniform along the length direction of conveyer belt;Described printing and dyeing are outdoor
Side is provided with agitator tank, is provided with the top of agitator tank and liquid outlet is provided with the right side of inlet and the agitator tank, agitator tank and printing and dyeing room
Between be fixed with drawing liquid machine, the import of drawing liquid machine is connected by pipeline with described liquid outlet, and drawing liquid machine outlet pass through one
Connector in a tubular form and the inner space of drain pipe, are provided with agitating paddle in described agitator tank, and agitator tank outside is provided with
The motor that agitating paddle can be driven to rotate;Described gas supply mechanism includes L-shaped air inlet pipe and is fixed on the indoor air-supply of printing and dyeing
Machine, described air inlet pipe includes the outlet portion being vertically arranged and horizontally disposed intake section, on the upper surface of described gas outlet
With the gas transmission portion for being cylindrical in shape protrusion, described outlet portion plugs and is fixed in gas transmission portion, and between outlet portion and gas transmission portion
Formed by 0 shape circle two and sealed, described intake section is connected with the air outlet of pressure fan, and the madial wall of the intake section is provided with and is in
The step of ring-type, is provided with rounded electrical heating wire layer three in step, and electrical heating wire layer three central axis and intake section
Central axis is conllinear, and described electrical heating wire layer three is by rounded shell and the carbon fiber exothermic wire group being wrapped in shell
Into described shell is mutually fixed with intake section, and the inner space with shell is respectively equipped with the left and right both ends of the surface of described shell
Venthole and air admission hole, and venthole and air admission hole have several;Running through on the side wall of described intake section has screwed hole
One, screwed hole one has several and along the circumferential uniform of intake section, and the lateral wall of described shell is provided with screwed hole two, screw thread
The quantity in hole two is identical with screwed hole one and position corresponds, and bolt, and spiral shell are bolted with the screwed hole one described in each
The end of bolt is screwed onto in corresponding screwed hole two.
2. fabric dyeing apparatus with gas supply mechanism according to claim 1, it is characterised in that described agitator tank
Including the casing being made up of insulation material, and the top and bottom of casing are open, are removably fixed with case on casing respectively
The sealing plate one and sealing plate two of the open closing of the open top of body and bottom, described sealing plate two is by Heat Conduction Material system
Into the bottom of described sealing plate two is provided with groove, and electrical heating wire layer one is fixed with groove.
3. fabric dyeing apparatus with gas supply mechanism according to claim 2, it is characterised in that described motor is consolidated
It is scheduled on sealing plate one, the middle part of described sealing plate one is vertically provided with through hole, and the upper end of described agitating paddle is in straight
The shaft-like and upper end is connected through through hole and with motor, and the side wall of described agitating paddle is provided with annular slot, in annular slot
Sealing ring one is provided with, and the lateral wall of sealing ring one offsets with the inwall of described through hole.
4. fabric dyeing apparatus with gas supply mechanism according to claim 1, it is characterised in that described sealing ring
One includes support ring one and the sealing ring one being enclosed within support ring one, and support ring one and sealing ring one are integral type structure, institute
The axial length of the sealing ring one stated is less than the axial length of support ring one, and sealing ring one has two and along the axial direction of support ring one
Distribution, forms one annular in shape and for storing the oil storage tank one of lubricant grease, the horizontal stroke of each sealing ring one between two sealing rings one
Section is triangular in shape, and the lateral wall of sealing ring one offsets with the madial wall of through hole.
5. fabric dyeing apparatus with gas supply mechanism according to claim 1, it is characterised in that described agitator tank
Top have and be cylindrical in shape the connecting portion of protrusion, and the inner chamber of connecting portion connects with inlet, is arranged simultaneously on described connecting portion
It is fixed with into fluid cylinder, enters and sealing is formed between the madial wall of fluid cylinder and the lateral wall of connecting portion, and enter the lower surface of fluid cylinder and stir
The roof for mixing case mutually reclines, and described enters the sandwich that fluid cylinder is internal iron sheet, middle part heat preservation rock and outside iron sheet composition,
And locating slot annular in shape is offered on the upper surface of the iron sheet of inner side, tubular electricity is plugged and is fixed with locating slot
Heater strip layer two, the described upper end for entering fluid cylinder is fixed with the cover plate for closing the notch of locating slot, and this enters the lateral wall of fluid cylinder
The steam vent with the inner space of locating slot is provided with, and the cable of electrical heating wire layer two passes through steam vent, described connection
Portion is made from a material that be thermally conductive.
6. fabric dyeing apparatus with gas supply mechanism according to claim 5, it is characterised in that described enters fluid cylinder
Madial wall on there is shoulder block annular in shape, this enters fluid cylinder interpolation a rounded screen pack, screen pack and enters both fluid cylinders
Central axis is conllinear, and screen pack is sandwiched between shoulder block and the upper surface of connecting portion.
7. fabric dyeing apparatus with gas supply mechanism according to claim 1, it is characterised in that described connector
Including being placed in the indoor feed tube of printing and dyeing and connecting tube, feed tube and connecting tube are in straight tube-like and both length extension sides
Consistent to the length bearing of trend with conveyer belt, the right-hand member of connecting tube is sealed with drain pipe and fixed, and connecting tube inner chamber
With the intracavity inter-connection of drain pipe, the left end of described connecting tube is enclosed within feed tube, and connecting tube can be along the axle of feed tube
To slip, the left end of described feed tube stretch out printing and dyeing room and with the outlet of drawing liquid machine, outside the right-hand member of described feed tube
Side wall is provided with link slot two annular in shape, is provided with sealing ring two in link slot two, and sealing ring two lateral wall and connecting tube
Madial wall offset, described connecting tube and feed tube is the folder of internal iron sheet, middle part heat preservation rock and outside iron sheet composition
Rotating fields.
8. fabric dyeing apparatus with gas supply mechanism according to claim 7, it is characterised in that described connecting tube
Left end madial wall be provided with link slot three annular in shape, be provided with 0 shape circle one in link slot three, and the inner peripheral surface of 0 shape circle one with
The lateral wall of feed tube offsets.
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Also Published As
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CN105803709A (en) | 2016-07-27 |
CN107034612A (en) | 2017-08-11 |
CN106894178B (en) | 2018-11-13 |
CN107034612B (en) | 2019-06-28 |
CN105803709B (en) | 2018-01-26 |
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