CN205088458U - Air knife structure for hot -blast design of pile fabric - Google Patents

Air knife structure for hot -blast design of pile fabric Download PDF

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Publication number
CN205088458U
CN205088458U CN201520838068.7U CN201520838068U CN205088458U CN 205088458 U CN205088458 U CN 205088458U CN 201520838068 U CN201520838068 U CN 201520838068U CN 205088458 U CN205088458 U CN 205088458U
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guide duct
wind
air
guiding tube
pair
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CN201520838068.7U
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徐均涛
蒋建良
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Changshu City Qunying Knitting Manufacturing Co Ltd
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Changshu City Qunying Knitting Manufacturing Co Ltd
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Abstract

The utility model provides an air knife structure for hot -blast design of pile fabric, belongs to needle fabric aftertreatment machinery technical field. Including the guide duct, its wind -guiding lumen comprises upper and lower cavity jointly, and the shape of cross section that goes up the cavity is trapezoidally, and the shape of cross section of lower cavity is rectangle or square, before the guide duct lateral wall left and right end or behind the guide duct the left and right end of lateral wall respectively establish the guide duct air intake, establish the guide duct exhaust vent on the guide duct roof, a pair of wind -guiding lumen port shrouding is at a pair of wind -guiding lumen port shrouding each fixed guide duct adjustment axle sleeve of one side back to the wind -guiding lumen, a pair of air knife piece is equipped with air knife piece adjustment fixed orifices at this length direction interval to the air knife piece, and the length direction's of a pair of air knife piece upper portion leans out the guide duct roof and forms the air outlet with the state that forms the splayed. Save the energy consumption of fan, save material, convenient preparation, the width of control air outlet changes the size of air output, satisfies the hot -blast design technological requirement to barren pile fabric.

Description

The air knife structure of fuzz fabric hot-air sizing
Technical field
The utility model belongs to pin textiles Final finishing field of mechanical technique, is specifically related to the air knife structure of a kind of fuzz fabric hot-air sizing.
Background technology
In the finishing process that prior art is produced at fuzz fabric, combing machine for fur, natural lustre finishing machine, gassing frame or other similar equipment are mainly used to the mode that the lint of fabric face is shaped, but facts have proved and often show by the lint of the fabric after such device processes the phenomenon lodged to side, industry is referred to as hair down or suitable hair.Hair down (along the hair) phenomenon that lint is toppled over towards a direction and shown can have a strong impact on feel and the sight effect of fabric, because lint makes feel harder to a lateral deviation, thus cause the product specification of fuzz fabric to promote, advantage in the competition in market is difficult to show especially, and especially lint lodging also can affect the warmth retention property of fabric and gas permeability etc.
Chinese utility model patent Authorization Notice No. CN2450239Y recommends the shaping modular system of a kind of lint hair side, steam jet is fixed on brush place and is fixedly connected with shaped device high-temperature steam room by this equipment, this technical scheme is comparatively suitable for shaping to the lint flower pattern of fuzz fabric, to prevent random hair, make flower pattern clear, well arranged and there is innervation, thus specific aim is stronger, be difficult to the sizing of the fuzz fabric without design be converted to routine, because this device is except complex structure, sizing mode shows as contact sizing (capable see Instructions Page 2 1-7), contact sizing very easily makes lint generation topple over phenomenon.
The device of the improvement COAT PRINTING knitted cloth feel that Chinese invention patent Authorization Notice No. CN138031C provides is in fact a kind of setting machine preventing knitted cloth from shrinking, by feeding unit, heat setting device and folding coiling device are formed, its operation principle is: by feeding unit, COAT PRINTING cloth is introduced heat setting device after deflector roll is led and shrinkproof liquid bath dips shrinkproof liquid, knitted cloth goes out after heat setting device by folding coiling device clot (description the 4th page of countdown line 3-5 page of the 13rd row), visible, patent formula make knitted cloth soft by means of shrinkproof liquid again by shaping equipment to dipping shrinkproof liquid after sizing and obtain, more particularly, solve the problem avoiding knitted cloth to shrink, do not relate to the technology enlightenment how preventing lint from collapsing to side.
" fuzz fabric hot-air setting machine " that invention patent mandate notification number CN101654853B introduces eliminates the deficiency of aforementioned CN2450239Y and CN1138031C, can effectively avoid lint to collapse and use and make fuzz fabric show excellent flexibility, sight property, warmth retention property and gas permeability.
But, there is following shortcoming in the air heat injection equipment that above-mentioned CN101654853B adopts: one, because high-temperature hot air needs just to be able to successively spray from the hot-air spout (i.e. air outlet) of air flue plate after the first hot-air tap hole on interface, the first air jet pipe, the first flow distribution plate, the second air jet pipe and the second hot-air tap hole, thus high-temperature hot air flow path is long and resistance large, is unfavorable for reducing to cause power consumption large for carrying the power of the blower fan of high-temperature hot air; They are two years old, because the first air jet pipe is made up of rectangular tube or square tube, the second air jet pipe is made up of (first, second air jet pipe forms guide duct) laddertron, and is bonded to each other by first, second air jet pipe as integrative-structure corresponding up and down, thus not only material usage is large, and processing trouble; Its three, because wind blade (patent claims air flue plate) according to needing to regulate, thus can not exist fastidious property to the hot air shaping technique of the villous surface of the high fuzz fabric of different grammes per square metre, differing texture and/or different hair.In view of this, be necessary to be improved, technical scheme described below produces under this background.
Summary of the invention
Task of the present utility model be to provide a kind of contribute to significantly shortening high-temperature hot air path and reduce resistance and use and save fan energy consumption, be conducive to significantly simplifying the structure of guide duct and use to save material and conveniently manufacture and be of value to the air knife structure met the fuzz fabric hot-air sizing that the width adjustment of air outlet requires is used according to adjusting to wind blade.
Task of the present utility model has been come like this, a kind of air knife structure of fuzz fabric hot-air sizing, comprise a guide duct, the wind-guiding tube chamber of this guide duct is made up of jointly the upper chamber on top and the lower chambers of bottom, the shape of cross section of upper chamber is trapezoidal, and the shape of cross section of lower chambers is rectangular or square, a guide duct air inlet communicated with lower chambers is respectively offered in the position corresponding to lower chambers at the left end of the guide duct front side wall of guide duct and right-hand member or at the left end of guide duct rear wall and right-hand member, spaced apartly on the guide duct roof of guide duct be provided with the guide duct exhaust vent communicated with upper chamber, a pair wind-guiding tube chamber port shrouding, this is fixed the wherein one piece of position of left accent and the left end end face of described guide duct that wind-guiding tube chamber port shrouding is corresponding to described wind-guiding tube chamber in wind-guiding tube chamber port shrouding, and the position of right accent that another piece of wind-guiding tube chamber port shrouding in a pair wind-guiding tube chamber port shrouding is corresponding to wind-guiding tube chamber is fixed with the right-hand member end face of described guide duct, and be respectively fixed with a guide duct with horizontal boom state at a pair wind-guiding tube chamber port shrouding back to the side of wind-guiding tube chamber and adjust axle sleeve, the wind blade that a pair length and position equal with the length of described guide duct corresponds to each other, at this, respectively with space state, wind blade adjustment fixing hole is offered to the length direction of wind blade, wherein one piece of wind blade in a pair wind blade is fixed by described wind blade adjustment fixing hole and described guide duct front side wall, and another piece of wind blade in a pair wind blade is fixed by wind blade adjustment fixing hole and described guide duct rear wall equally, the top of the length direction of a pair wind blade leans out described guide duct roof to form splay state and is formed with an air outlet.
In a specific embodiment of the present utility model, the inwall of the wind-guiding tube chamber of described guide duct is configured with port shrouding screw fixing feet, a pair described wind-guiding tube chamber port shrouding is fixed by port shrouding screw and port shrouding screw fixing feet.
In another specific embodiment of the present utility model, described port shrouding screw fixing feet is configured with port shrouding screw holddown groove, described port shrouding screw and port shrouding screw holddown groove are fixed.
In another specific embodiment of the present utility model, a rapid chamber of air is formed between described air outlet and described guide duct roof, described guide duct exhaust vent communicates with the rapid chamber of this air, and the rapid chamber of this air left accent and right accent closed by a pair described wind-guiding tube chamber port shrouding.
In another specific embodiment of the present utility model, the shape of cross section in the rapid chamber of described air is triangular in shape.
Also have in a specific embodiment of the present utility model, described guide duct exhaust vent is rectangular opening, square hole or circular port.
More of the present utility model and in a specific embodiment, described wind blade adjustment fixing hole is slotted eye and the short side direction being parallel to a pair wind blade is offered.
In an of the present utility model and then specific embodiment, described guide duct adjustment axle sleeve offers axle sleeve fixing screw hole.
Of the present utility model again more and in a specific embodiment, described guide duct is extruded aluminium.
One of technique effect of the technical scheme that the utility model provides, can draw by the guide duct exhaust vent directly on guide duct roof owing to introducing the intraluminal high temperature air of wind-guiding by guide duct air inlet in a state of use, thus significantly shorten the path of high temperature air and reduce resistance, being saved the energy consumption of blower fan; Two, due to wind-guiding tube chamber by each other without separate upper and lower chamber jointly form, thus both can save material, can conveniently make again; Three, owing to having offered wind blade adjustment fixing hole on a pair wind blade, thus can adjust fixing hole by means of wind blade and the upper-lower position of a pair wind blade be used the width controlling air outlet according to adjusting, and change the size of air output, meet the hot air shaping technological requirement to not fuzz fabric.
Accompanying drawing explanation
Fig. 1 is example structure figure of the present utility model.
Fig. 2 is the cross sectional representation of Fig. 1.
Detailed description of the invention
In order to enable the auditor of Patent Office especially the public clearly understand technical spirit of the present utility model and beneficial effect, applicant will elaborate below by way of example, but not all the restriction to the utility model scheme to the description of embodiment, any according to being only pro forma but not substantial equivalent transformation and all should being considered as the technical solution of the utility model category done by the utility model design.
Everyly in the following description relate to upper and lower, left and right, the concept of front and rear is all that object is to facilitate public understanding, thus can not be understood as being particularly limited to the technical scheme that the utility model provides for the location status shown in Fig. 1.
Refer to Fig. 1 and Fig. 2, give the guide duct 1 be made up of extruded aluminium, the wind-guiding tube chamber 11 of this guide duct 1 is made up of jointly the upper chamber 111 on top and the lower chambers 112 of bottom, the shape of cross section of upper chamber 111 is trapezoidal, and the shape of cross section of lower chambers 112 (also can be rectangle in square, i.e. rectangle), a guide duct air inlet 12 communicated with lower chambers 112 is respectively offered in the position corresponding to lower chambers 112 at the left end of the guide duct front side wall of guide duct 1 and right-hand member, spaced apartly on the guide duct roof 13 of guide duct 1 be provided with the guide duct exhaust vent 131 communicated with upper chamber 111, give a pair wind-guiding tube chamber port shrouding 2, this is fixed the position of left accent and the left end end face of guide duct 1 that the wherein one piece front side of the state shown in Fig. 1 (one piece) wind-guiding tube chamber port shrouding is corresponding to aforementioned wind-guiding tube chamber 11 in wind-guiding tube chamber port shrouding 2, and another piece in a pair wind-guiding tube chamber port shrouding 2 rear side of the state shown in Fig. 1 (a piece) position of right accent and the right-hand member end face of guide duct 1 that wind-guiding tube chamber port shrouding is corresponding to wind-guiding tube chamber 11 are fixed, and be respectively fixed with a guide duct adjustment axle sleeve 21 with horizontal boom state at a pair wind-guiding tube chamber port shrouding 2 back to the side of wind-guiding tube chamber 11, give the wind blade 3 that a pair length and position equal with the length of aforementioned guide duct 1 corresponds to each other, at this, respectively with space state, wind blade adjustment fixing hole 31 is offered to the length direction of wind blade 3, wherein one piece of wind blade in a pair wind blade 3 is fixed in the position corresponding to wind blade adjustment fixing hole 31 and the front side wall screw 14 be opened on the guide duct front side wall of guide duct 1 by wind blade hold-down screw 32, and another piece of wind blade in a pair wind blade 3 is fixed with the rear wall screw 15 be opened on guide duct rear wall in the position corresponding to wind blade adjustment fixing hole 31 by wind blade hold-down screw 32 equally, the top of the length direction of a pair wind blade 3 leans out guide duct roof 13 to form splay state and is configured with an air outlet 4.
According to professional general knowledge, such as by known to the reading of the aforementioned CN101654853B as prior art, the state shown in the utility model Fig. 1 and Fig. 2 has converted 180 ° just with actual using state, specifically, in a state of use, air outlet 4 towards under.Aforesaid guide duct air inlet 12 is for connection and fixed interface, and the high temperature air through heat blower heating introduces wind-guiding tube chamber 11 by pipeline through interface; Aforesaid guide duct adjustment axle sleeve 21, for being connected with lowering or hoisting gear, can be fully understood by the reading to CN101654853B this.
In addition, if aforesaid guide duct air inlet 12 is transferred on the guide duct rear wall of guide duct 1, so certainly belongs to equivalence change and still belong to technical connotation category disclosed in the utility model.
The inwall of the wind-guiding tube chamber 11 of aforementioned guide duct 1 is configured with port shrouding screw fixing feet 113 along leading with the length direction of my tube chamber 11, and aforesaid a pair wind-guiding tube chamber port shrouding 2 is being fixed corresponding to the position of the screw hole 23 be opened on airduct chamber port shrouding 2 and port shrouding screw fixing feet 113 by port shrouding screw 22.
Preferably, in aforesaid port shrouding screw fixing feet 113 and along the length direction of port shrouding screw fixing feet 113, be configured with port shrouding screw holddown groove 1131, aforesaid port shrouding screw 22 is fixed with port shrouding screw holddown groove 1131.
Shown in Fig. 1 and Fig. 2, a rapid chamber 5 of air is formed between aforesaid air outlet 4 and aforementioned guide duct roof 13, aforesaid guide duct exhaust vent 131 communicates with the rapid chamber 5 of this air, and the left accent of 5 of the rapid chamber of this air and right accent are closed by aforesaid a pair wind-guiding tube chamber port shrouding 2.
Preferably, the shape of cross section in the rapid chamber of aforementioned air 5 is triangular in shape.
In the present embodiment, namely aforesaid guide duct exhaust vent 131 is rectangle hole for rectangular opening, but, also can be square hole or circular port.
Aforesaid wind blade adjustment fixing hole 31 is slotted eye and the short side direction being parallel to a pair wind blade 3 is offered.
Aforesaid guide duct adjustment axle sleeve 21 offers axle sleeve fixing screw hole 211, when guide duct being adjusted axle sleeve 21 and being connected with the lowering or hoisting gear mentioned above, the connection spindle nose of lowering or hoisting gear is inserted in the axle sleeve hole 212 of guide duct adjustment axle sleeve 21, guide duct 1 upper and lower displacement is made, to change the distance between air outlet 4 and fuzz fabric by the lifting of lowering or hoisting gear.
Because operation principle of the present utility model is understood by the reading to CN101654853B, thus applicant repeats no more.
In sum, technical solutions of the utility model overcome the shortcoming in prior art, complete invention task, have cashed the technique effect referred in superincumbent technique effect hurdle faithfully.

Claims (9)

1. a kind of air knife structure of fuzz fabric hot-air sizing, it is characterized in that comprising a guide duct (1), the wind-guiding tube chamber (11) of this guide duct (1) is made up of jointly the upper chamber (111) on top and the lower chambers (112) of bottom, the shape of cross section of upper chamber (111) is trapezoidal, and the shape of cross section of lower chambers (112) is rectangular or square, a guide duct air inlet (12) communicated with lower chambers (112) is respectively offered in the position corresponding to lower chambers (112) at the left end of the guide duct front side wall of guide duct (1) and right-hand member or at the left end of guide duct rear wall and right-hand member, spaced apartly be provided with the guide duct exhaust vent (131) communicated with upper chamber (111) the guide duct roof (13) of guide duct (1) is upper, a pair wind-guiding tube chamber port shrouding (2), this is fixed the wherein one piece of position of left accent and the left end end face of described guide duct (1) that wind-guiding tube chamber port shrouding is corresponding to described wind-guiding tube chamber (11) in wind-guiding tube chamber port shrouding (2), and the position of right accent and the right-hand member end face of described guide duct (1) that another piece of wind-guiding tube chamber port shrouding is corresponding to wind-guiding tube chamber (11) in a pair wind-guiding tube chamber port shrouding (2) is fixed, and be respectively fixed with guide duct adjustment axle sleeve (21) with horizontal boom state a pair wind-guiding tube chamber port shrouding (2) back to the side of wind-guiding tube chamber (11), the wind blade (3) that a pair length and position equal with the length of described guide duct (1) corresponds to each other, at this, respectively with space state, wind blade adjustment fixing hole (31) is offered to the length direction of wind blade (3), wherein one piece of wind blade in a pair wind blade (3) is fixed with described guide duct front side wall by described wind blade adjustment fixing hole (31), and another piece of wind blade in a pair wind blade (3) adjusts fixing hole (31) by wind blade equally and described guide duct rear wall is fixed, the top of the length direction of a pair wind blade (3) leans out described guide duct roof (13) to form splay state and is formed with an air outlet (4).
2. the air knife structure of fuzz fabric hot-air sizing according to claim 1, it is characterized in that being configured with port shrouding screw fixing feet (113) on the inwall of the wind-guiding tube chamber (11) of described guide duct (1), a pair described wind-guiding tube chamber port shrouding (2) is fixed by port shrouding screw (22) and port shrouding screw fixing feet (113).
3. the air knife structure of fuzz fabric hot-air sizing according to claim 2, it is characterized in that being configured with port shrouding screw holddown groove (1131) on described port shrouding screw fixing feet (113), described port shrouding screw (22) is fixed with port shrouding screw holddown groove (1131).
4. the air knife structure of fuzz fabric hot-air sizing according to claim 1, it is characterized in that being formed with a rapid chamber of air (5) between described air outlet (4) and described guide duct roof (13), described guide duct exhaust vent (131) communicates with the rapid chamber of this air (5), and the left accent of (5) in the rapid chamber of this air and right accent are closed by a pair described wind-guiding tube chamber port shrouding (2).
5. the air knife structure of fuzz fabric hot-air sizing according to claim 4, is characterized in that the shape of cross section in the rapid chamber of described air (5) is triangular in shape.
6. the air knife structure of the fuzz fabric hot-air sizing according to claim 1 or 4, is characterized in that described guide duct exhaust vent (131) is rectangular opening, square hole or circular port.
7. the air knife structure of fuzz fabric hot-air according to claim 1 sizing, it is characterized in that described wind blade adjustment fixing hole (31) for slotted eye and the short side direction being parallel to a pair wind blade (3) offer.
8. the air knife structure of fuzz fabric hot-air sizing according to claim 1, is characterized in that offering axle sleeve fixing screw hole (211) on described guide duct adjustment axle sleeve (21).
9. the air knife structure of fuzz fabric hot-air sizing according to claim 1 and 2, is characterized in that described guide duct (1) is extruded aluminium.
CN201520838068.7U 2015-10-27 2015-10-27 Air knife structure for hot -blast design of pile fabric Active CN205088458U (en)

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Application Number Priority Date Filing Date Title
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Publication Number Publication Date
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105239303A (en) * 2015-10-27 2016-01-13 常熟市群英针织制造有限责任公司 Air-knife structure for hot-air setting of plush fabric

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105239303A (en) * 2015-10-27 2016-01-13 常熟市群英针织制造有限责任公司 Air-knife structure for hot-air setting of plush fabric

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