CN106435877B - Weaving loom and the method that sucking air is used on weaving loom station - Google Patents
Weaving loom and the method that sucking air is used on weaving loom station Download PDFInfo
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- CN106435877B CN106435877B CN201610824297.2A CN201610824297A CN106435877B CN 106435877 B CN106435877 B CN 106435877B CN 201610824297 A CN201610824297 A CN 201610824297A CN 106435877 B CN106435877 B CN 106435877B
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- weaving loom
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- exhaust passage
- intake passage
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- D—TEXTILES; PAPER
- D01—NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
- D01H—SPINNING OR TWISTING
- D01H11/00—Arrangements for confining or removing dust, fly or the like
- D01H11/005—Arrangements for confining or removing dust, fly or the like with blowing and/or suction devices
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- Mechanical Engineering (AREA)
- Textile Engineering (AREA)
- Looms (AREA)
- Spinning Or Twisting Of Yarns (AREA)
Abstract
The method of sucking air is used the present invention relates to a kind of weaving loom and on weaving loom station, the weaving loom (1) has multiple stations (4), and the station is separately equipped with the air intake passage (10) at least one air intake passage mouth (12).Air intake passage mouth (12) be arranged in station (4) for sucking in the region of fibre-bearing air, wherein air intake passage (10) can be applied negative pressure to suck air.Sucking air can be guided by the filter element (8) for filtering sucking air to exhaust passage (14), to send out filtered air.Exhaust passage (14) can be applied superpressure, to send out filtered air via at least one exhaust passage mouth (16).Weaving loom (1) is characterized in that at least one exhaust passage mouth (16) leads to the closed cavity for being associated with the functional unit of single station (4) or multiple stations (4).
Description
Technical field
The present invention relates to a kind of weaving loom with multiple stations, it is each configured with at least one air intake passage mouth
Air intake passage, which is arranged in the station area for sucking fibre-bearing air.Air intake passage can be applied
For sucking the negative pressure of air, wherein the air being inhaled into can be conducted through the mistake filtering element for being arranged for air filtering
Part reaches exhaust passage, which can be applied superpressure, so as to by filtered air via at least one exhaust passage
Mouth is sent out.
Background technique
Such weaving loom is known, and with RING SPINNING disclosed in DE102009036409A1 and DE102005051502A1
It is described for yarn machine.
In the known ring spinner, fibre-bearing air is by being arranged in the drafting system region of ring spinner
In suction pipe siphon away.For this purpose, providing negative pressure source, negative pressure source setting (is sucked away for filtering via suction pipe in filter element
Air) the airway side deviated from the suction pipe.Negative pressure source is arranged in the exhaust passage for being plugged with filter element.It is including negative
The side of potential source, exhaust passage open design, thus filtered air can either directly or indirectly pass through air handling system
It exports in the spinning space to around ring spinner.
The similar sucking and work principle of filter of fibre-bearing air is disclosed by document DE102008058518A1.By document institute
The ring spinner known includes multiple sucking tie points, is arranged in the lower section of the lower outlet roller of drafting system.Suck tie point
It is connected to gas collection pipe, sucking tie point is introduced by the gas collection pipe negative pressure.Gas collection pipe is (intermediate also in the direction of the air flow
Have filter element) it is attached to negative pressure source.It sucks from negative pressure source and is drawn in spinning space through filter device filtered air.
The common trait of the known spinning machine is that fibre-bearing air can be sucked out in station pre-position.So
And fiber dust or other yarn treatment elements that station is influenced comprising aerial pollution particle cannot be prevented in this way
Or the functional unit of one or more stations, and (wherein there is no suckings) is had a negative impact to their function.
Summary of the invention
Therefore it is an object of the invention to propose the weaving loom and method of a kind of avoidable prior art disadvantage.
The purpose weaving loom according to the present invention realizes that, with multiple stations, station, which is each configured with, to be had at least
The air intake passage of one air intake passage mouth, air intake passage mouth are arranged in the station area for sucking fibre-bearing air.Air-breathing
Channel can be applied the negative pressure for sucking air, and the air can be guided by the filter element for filtering sucking air
To exhaust passage, which can be applied superpressure, to send out filtered air from least one exhaust passage mouth.
The weaving loom may, for example, be the spinning machine with multiple spinning stations, and each spinning station forms a station.?
In the region of each station, the air intake passage mouth of at least one air intake passage is arranged to siphon away fibrous air.Each
Station can configure an individual air intake passage, and sucking air is guided independently of other air intake passages to a filter element.
Alternatively, air intake passage can be associated with more than one station, wherein air intake passage has at least one in each station area
For siphoning away the air intake passage mouth of fibrous air.A common air intake passage is consequently formed in air intake passage.
Air intake passage is configured to be applied negative pressure, to suck fibre-bearing air.Air intake passage is arranged therebetween
Exhaust passage is attached in the case where filter element.Exhaust passage is configured to be applied superpressure, for sending out air.By mistake
Filtering element, the draw air supplied from air intake passage can be filtered, wherein filtered air can be directed to exhaust passage
In, to send out filtered air via at least one exhaust passage mouth.
The weaving loom having been mentioned is characterized in that at least one exhaust passage mouth leads to and is associated with single station or multiple stations
Functional unit closed cavity.
Functional unit may, for example, be electronic unit, seem the control device of station.In addition, as an example, belt channel
It can be arranged to the functional unit of single station.The functional unit for being associated with multiple stations can be step rail or ring rail (ring
Rail riser guide) or the driving device that can be for while driving multiple spindles.Closed cavity may, for example, be by
The inner cavity that shell surrounds.Therefore, the static superpressure that restriction can be generated in closed cavity can be avoided greatly by static superpressure
Fiber dust or impurity particle pass through the other openings for leading to closed cavity or gap and enter.
Preferably, at least one another exhaust passage mouth is arranged with the certain distance range away from yarn treatment element,
Filtered air is provided in the distance range to apply compressed air for the yarn treatment element of one of station.
Exhaust passage mouth is corresponded to the pass according to producible superpressure multiple apart from institute herein with the setting of a distance range
The exhaust passage mouth of restriction and the distance between the yarn treatment element attached, wherein the yarn treatment element attached can have needle
The air pressure of restriction or the air velocity of restriction, i.e. compressed air to property are applied by exhaust passage mouth, so that yarn treatment
Element can at least without fiber dust keep or complete yarn treatment function by the compressed air of supply.In addition, at yarn
The temperature of reason element can be controlled.Here, the characteristics of yarn treatment element is, have to material to be produced on station pre-
Fixed influence.For example, it can be the element of spinning or winding module, such as spinning apparatus, waxing attachment, Yarn lateral-movement device
Or bobbin driving device.In a preferred way, yarn treatment element is ring spinning, wire loop, the element of drafting system or shearing
Device.
Preferably, exhaust passage mouth is made of nozzle.It is further preferred that nozzle is alternatively disposed on exhaust passage.By
This can more strongly apply compressed air, without will affect the air-flow in exhaust passage and/or can be adjusted as needed.
It is further preferred that at least one air intake passage mouth and/or exhaust passage mouth can by connecting line and air intake passage or
Exhaust passage connection.Air inlet each in this way or gas outlet or opening can be arranged in the defined position on spinning station as needed.
In a preferred manner, the temperature control component for the air-flow that has an impact, the temperature control component is arranged in temperature control equipment
Protrude into air-flow or limit air-flow.By such control device, the temperature of yarn treatment element or functional unit can control.Furthermore
Preferably, temperature sensor is set in yarn treatment element or functional unit region or thereon, for detecting yarn treatment member
The temperature of the temperature or its surrounding air of part or functional unit, the temperature sensor are attached to control device.Control device can example
Such as it is made of the individual station control unit or central control unit of weaving loom.
According to preferred embodiment, at least one air intake passage mouth is arranged close to the yarn travel path of station.In this way with can
By ground, mode ensure that the absorption of the fibrous material in yarn travel path region.It is this to be arranged close to correspond to air intake passage
Such distance mouthful between yarn travel path, that is, enable loose fibrous material in this region logical by air-breathing
The inspiratory flow at road junction is captured, and is inhaled into air intake passage mouth.Especially, at least one air intake passage mouth is arranged in station
In region, wherein also allowing for possible yarn breakage.
The distance accordingly chosen depends on the air pressure being subject in corresponding air-breathing and exhaust passage.Therefore, air intake passage mouth and
Exhaust passage mouth considers the distance, and may be designed as can be according to corresponding adjustable negative pressure or superpressure variable adjustment.
In a manner of preferably, it is displaceable that each opening, which separately designs,.
It is further preferably that weaving loom includes conductive gas, conductive gas has the air intake passage being interconnected with air intake passage
Mouthful, the exhaust passage mouth interconnected with exhaust passage and for connecting air intake passage mouth and exhaust passage mouth with guiding air
Intermediate air guide channel.Conductive gas is to form the transition of the air-flow from air intake passage to exhaust passage.
Preferably, conductive gas is designed as alternatively.Therefore, pass through the determination of conductive gas and/or at least one its opening
Configuration at least suitably affects the air-flow of guidance to exhaust passage.
In a manner of preferably, air inlet and air outlet are designed as missing one another on air guide channel, so that at one
The central axes of their perpendicular bisector and air guide channel intersect in different positions in perspective plane.It therefore, is air guide channel
Limited area (disengaging for gas) is established respectively.A certain number of air inlets are provided when necessary in respective region and are gone out
Port.
Further preferably conductive gas is designed as being made of the first and second chamber portions, wherein the first chamber portion
Including air inlet, the second chamber portion includes gas outlet.First and second chamber portions are preferably able to releasedly mutually interconnect
It connects or is connected to each other.The configuration is particularly advantageous to especially influence the ability of air-flow.
In a preferred manner, filter element is arranged in air guide channel.In this case, conductive gas and filter element shape
At a structural unit, it is set as being replaced jointly.Additionally or alternatively, the filter element provided can be single in air guide channel
Solely replacement.
In addition, conductive gas, which is preferably included, (is crossed filtering element for collecting and removing for connecting collecting fiber material container
Part capture fibrous material) connector.The connector is arranged to, and so that collecting fiber material container is collected or is captured and passed through
The fibrous material of filtering element release.Such as filter element is surrounded by connector completely in perspective plane, is parallel to including connection
The plane of mouth.
Conductive gas together with filter element it is a variety of it is possible configuration so that in addition to filter element section space-efficient arrangement other than,
Also there is simple, influential effect on the air-flow generated in air intake passage and exhaust passage.
According to further preferred embodiment, weaving loom includes the negative pressure generator with impeller, is arranged in from air inlet
It extends in the part of exhaust passage mouth.Negative pressure generator for example can be the common fan in getter device.Leaf
Wheel is designed to, and during operation, different pressure ratios is generated in the two sides of impeller, and wherein the side of impeller is limited to generate negative
The suction side of pressure, the other side of impeller are limited to generate superpressure on the pressure side.Impeller is further preferably designed to, rotates impeller
Variation on direction while causing suction side and variation or exchange on the pressure side.Therefore, air-flow caused by impeller can be passed through
It is directed toward on the pressure side from suction side.In an advantageous manner, preferably become by the pulse type variation on impeller direction of rotation or for a long time
Change, such as under the service mode of station, can advantageously clear up filter element without disassembly the latter.For on direction of rotation
Variation, pulse type variation or change in long term in rotation speed also to cleaning filter element advantageously.
Direction of rotation and/or rotation speed for regulation and control impeller, negative pressure generator may be coupled to control unit.
In this way, it can control and adjust the intensity of air-flow and therefore control and adjust suction side (such as in air intake passage)
The negative pressure being subject to, and superpressure on the pressure side (such as in the intake channel).Preferably, negative pressure generator is attached to relative stations
Driver, such as spindle-driving and driven by the latter.The difference to be driven of station is driven by common driving device
Component, driving device needed for making it possible to efficiently use station.For example, for the driving negative pressure generation in spindle driving operating
Device, conductive gas may be arranged on spindle-driving.
According to preferred embodiment, weaving loom includes distributor, is had at least in the distributor upstream arrangement in the direction of the air flow
Two associated discharge passways, for correctly supplying air.Distributor is designed to, and exhaust that make to be attached or connected is logical
Road junction can at least be applied a certain amount of air-flow and/or air velocity, and air-flow and/or air velocity also preferably pass through distributor
Change.For this purpose, distributor can advantageously have capping or valve or similar machine in the gas supply path to each exhaust passage mouth
Structure can correspondingly control and/or regulate supplied air-flow by it.
Related aspect according to the method for the present invention, above-mentioned target are real by the method with eighth aspect present invention feature
It is existing.This method can be executed especially with according to the weaving loom of aforementioned any preferred embodiment.This method includes that the first step is being spun
Air is sucked on loom station;Second step guidance sucking air passes through filter element.The characteristics of this method, is that it includes third
It walks the yarn treatment element in filtered air supply to one of station under superpressure, or is supplied to and is associated with individually
Or in the closed cavity of the function element of multiple stations.
The method and weaving loom of it is proposed realize the effective use to the unused air being sent before, the sky
Gas is drawn on the station of weaving loom and is then filtered.Therefore, especially make the yarn treatment element for influencing yarn qualities
Or functional unit can reliably avoid damage to contact scar particle (such as fiber dust and similar substance).
Further features and advantages of the invention define in the following description of the preferred embodiment of the present invention, referring to diagram
And attached drawing, and material particular of the invention is shown in the claims.Single feature can be in them individually or at this
It is used in any combination in the preferred embodiment of invention.
Detailed description of the invention
The preferred embodiment of the present invention is explained in detail below referring to attached drawing.
It is following:
Fig. 1 shows the schematic diagram of the weaving loom according to one embodiment;
Fig. 2 shows the schematic diagram of the principle of sucking air is used on the station according to the weaving loom of one embodiment;
And
Fig. 3 shows the flow chart of the sucking air application method at the station of weaving loom shown in FIG. 1.
Reference signs list
1 weaving loom
2 parts
4 stations
Outlet roller on 5
6 lower outlet rollers
7 axis
8 filter elements
10 air intake passages
12 air intake passage mouths
14 exhaust passages
16 exhaust passage mouths
18 connecting lines
20 conductive gas
22 first chamber portions
23 air inlets
24 second chamber portions
25 gas outlets
26 air guide channels
28 connectors
30 collecting fiber material containers
40 negative pressure generators
42 impellers
44 drive shafts
The part A
100 use the method for sucking air
The step of 110 sucking air
The step of 120 guidance air
The step of 130 supply air
Specific embodiment
In being described below of the preferred embodiment of the present invention, same or like appended drawing reference is used for similar work in different figures
Element, wherein the element does not describe again here.
Fig. 1 shows a kind of schematic diagram of the weaving loom 1 according to embodiment.Weaving loom 1 is the ring with multiple spinning stations 4
Ingot spinning machine, wherein each spinning station limits a station.Spinning station 4 is arranged opposite to each other in the longitudinal direction side of ring spinner 1
And it is divided into 4 parts 2 with identical quantity spinning station 4.According to another preferred embodiment, at least two parts 2 can have
There is the spinning station 4 of quantity different from each other.Each spinning station 4 is equipped with schematic by upper outlet roller 5 and lower outlet roller 6 in Fig. 1
Shown in drafting system, multiple lower outlet rollers 6 of one of part 2 can be driven by same axis 7.In corresponding outlet roller 6
Arranged beneath has air intake passage mouth 12.These air intake passage mouths 12 are connected to the same suction that can be applied negative pressure in the part
Gas channel 10.Air intake passage 10 is passed through conductive gas 20, and filter element 8 is housed in conductive gas.Conductive gas 20 is separate in filter element 8
The exhaust passage 14 that can be applied superpressure is connected on the side of air intake passage 10.Exhaust passage 14 is directed back into corresponding spinning
Stand 4 region, and there is exhaust passage mouth 16 for sending out air in the region at each spinning station 4.Each exhaust passage mouth
16 are designed to nozzle-like, to accelerate the flowing of air to be sent.
The binding mode of structure shown in FIG. 1 cooperates Fig. 2 to be further explained.
Fig. 2 shows according to the use principle for sucking air at a kind of station of the weaving loom 1 of embodiment.Fig. 2 signal
Property shows the further preferred embodiment of conductive gas 20, different from Fig. 1, is attached to the second air intake passage 10, wherein
Each air intake passage 10 is passed through the air inlet 23 of the first chamber portion 22 of conductive gas 20.One in shown two air intake passages 10
A air intake passage for example can be common air intake passage 10 as shown in Figure 1.Another air intake passage 10 can lead to other
Air intake passage 12, the other air intake passage can be arranged in the region different from the draft zone at station 4 of spinning.It can connect
A possibility that quantity of air intake passage 10 and exhaust passage 14 to conductive gas 20 need not be confined to shown in Fig. 1 and Fig. 2 and describe.
In the region at one or more spinning stations 4, it is possible to provide, can for drawing the other air intake passage mouth 12 of fibre-bearing air
At least one conductive gas 20 is connected to by individual or common air intake passage 10.This is also suitable for having phase with corresponding manner
A certain number of exhaust passages of the exhaust passage mouth of pass.
It include the second chamber portion 24 by the conductive gas 20 that Fig. 2 is illustrated, the second chamber portion is with releasable
Mode is connected to the first chamber portion 22 and the gas outlet 25 including being connected to exhaust passage 14.Exhaust passage 14 includes four rows
Gas passway 16 passes through connecting line 18 respectively and is arranged in the different piece at one or more spinning stations 4.Such as wherein one
A exhaust passage mouth 16 may be provided in belt passage area, and another exhaust passage mouth 16 may be provided at riser guide region, again
Another exhaust passage mouth 16 may be provided in drafting system region and last exhaust passage mouth 16 may be provided at ring spinning area
In domain.This, which is arranged such that, targetedly blows to corresponding yarn treatment element or functional unit, to avoid damage to it
The pollution particle or fibrous material of property.According to unshowned preferred embodiment, connect between connecting line 18 and exhaust passage 14
It is connected to air distributor, there is capping or valve, by them, can be changed for air mass flow and/or air velocity
Ground control supplies the air of each connecting line 18.In this way, different yarn treatment elements or functional unit can be quasi-
Really apply compressed air.For example, one or the other connecting line 18 can pass through by the baffle of corresponding connecting line 18
Distributor is excluded from gas supply.In addition, supplying the air mass flow of corresponding connecting line 18 (for applying compressed air) can arrange
Superpressure state is adjusted in gas channel 14.
In conductive gas 20, filter element 8 is fixed on the part A that gas outlet 25 is extended to from air inlet 23, this crosses filtering element
Part 8 intersects with the region of air inlet 23 coniformly and extends through connector 28, which is formed in the first chamber portion
22 side away from the second cavity 24.Connector 28 has covering on the perspective plane of plane of the opening for being parallel to connector 28
The opening width of the coniform filter element 8.By connector 28, conductive gas 20 is attached to collecting fiber material container 30,
Middle filter element 8 is passed through in collecting fiber material container 30.Collecting fiber material container 30 is sealed in a side seal of connector 28
Close conductive gas 20.The inner cavity of conductive gas 20 and collecting fiber material container 30 is to form connection air inlet 23 and gas outlet 25
Air guide channel 26.
Conductive gas 20 is provided with the impeller 42 of the fan 40 constituted as negative pressure generator.The impeller 42 and filter element
8 filter bottom is oppositely disposed in the part A.Impeller 42 can be driven in rotation by drive shaft 44.Drive shaft 44
The shaft of impeller 42 is formed, and extends through the end opposite with interface 28 even is preferably implemented of conductive gas 20 from impeller 42.It drives
Moving axis 44 is attached to the spindle-driving at spinning station 4 according to preferred embodiment.According to another example, fan 40 may include independent
Driver.However, negative pressure generator 40 is preferably attached to spinning station 4 by actuation techniques to reduce cost and installation space
The driving device of upper offer.
Negative pressure generator 40 bring into operation or the rotation of impeller 42 forms the air-flow of orientation in the channel, the air-flow is in leaf
The suction side of wheel 42 generates negative pressure, and in the on the pressure side generation superpressure of impeller 42.Negative pressure generator 40 can be designed and drive into,
Enable air intake passage 10 to be applied negative pressure and exhaust passage 14 can be applied superpressure.Preferably, negative pressure generator 40 can be set
It meter and drives at so that overturning sucking and on the pressure side in a manner of similar pulse or for a long time.Such as it can be at spinning station 4
During maintenance, filter element is made to avoid adhering to the fibrous material for being captured and being collected by collecting fiber material container in this way
Or pollution particle.Therefore, filter element 8 can be cleared up simply and rapidly.
Negative pressure is applied to air intake passage 10 by known way, air is inhaled from the perimeter around air intake passage mouth 12
Enter, and through the guidance of air intake passage 10 into conductive gas 20.In this way, it is associated with the area of the component of air intake passage mouth 12
Domain can avoid loose fibrous material.
Filtering element 8 is directed over via the fibre-bearing air of air intake passage 10 supplied to conductive gas 20.Filter element 8
Conical design combined filtering element 8 is in the cloth towards the covering for widening air inlet 23 on the direction of collecting fiber material container 30
It sets, makes it possible to guide fibre-bearing air by filter element 8 in large area.In addition, the undulation degree filtered through filter element 8
Material can be captured by collecting fiber material container 30.
Gas outlet 25, which is guided through, using superpressure through impeller 42 across the filtered air of filter element 8 enters exhaust
Passway 14, and sent out through exhaust passage mouth 16.Therefore the yarn treatment element or functional unit of exhaust passage mouth 16 are associated with
Compressed air can be applied.By compressed air is applied, preferably clears up processing element or functional unit or it is made to avoid fiber
Material or pollution particle.Furthermore, it is possible to carry out temperature control to relative yarn processing element or functional unit.In this regard, according to excellent
Embodiment is selected, temperature-adjusting device is provided with temperature control component, can influence air flue accurately to adjust and be guided air
Temperature.Alternatively or additionally, according to further preferred embodiment, at least one exhaust passage mouth leads to the function at spinning station 4
The inner cavity of energy unit surrounded by shell, to generate static superpressure in the housing.Therefore the static state for reliably generating restriction is super
Pressure, for preventing pollution particle or fibrous material from entering in shell.Moreover, inner cavity can be cooled, for example controlled on shell
The shell (it is generally equipped with heat-generating electronic elements) of device processed has the effect of particularly advantageous.
Passed through shown in Fig. 3 using the above-mentioned of sucking air using principle at the spinning station 4 of weaving loom 1 shown in Fig. 1
Application method 100 (for using sucking air) flow chart be illustrated.Method 100 includes the first step at least one spinning
110 air are drawn on yarn station 4,120 sucking air of second step guidance passes through filter element 8.In addition, method 100 includes third step
By filtered air supply 130 to the yarn treatment element of one of station 4 under superpressure, or supplied to being associated with one
In the closed cavity of the functional unit of single station or multiple stations 4.
Embodiment shown in described and figure is by way of example only.Different embodiments can mutually complete combination or about
Single feature is combined with each other.Embodiment can also be supplemented by the feature of additional embodiment.
If an embodiment includes "and/or" to be associated with fisrt feature and second feature, this shows according to an embodiment party
The embodiment of formula had both included fisrt feature or including second feature, and according to another embodiment only include fisrt feature or
Only include second feature.
Claims (12)
1. a kind of weaving loom (1), which has multiple stations (4), and the multiple station, which has been separately equipped with, has at least one
The air intake passage (10) of a air intake passage mouth (12), at least one described air intake passage mouth are arranged in being used for for the station (4)
It sucks in the region of fibre-bearing air, wherein the air intake passage (10) can be applied negative pressure to suck air, the air
It can be by the way that for filtering filter element (8) guidance for being inhaled into air to exhaust passage (14), which can be applied
Add superpressure with by filtered air via at least one exhaust passage mouth (16) send out, which is characterized in that it is described at least one
Exhaust passage mouth (16) leads to the closed cavity for being associated with the functional unit of single station (4) or multiple stations (4).
2. weaving loom (1) according to claim 1, which is characterized in that at least one exhaust passage mouth (16) is by nozzle structure
At.
3. weaving loom (1) according to claim 1 or 2, which is characterized in that be equipped with conductive gas (20), which has
The air inlet (23) that is connected to the air intake passage (10), the exhaust outlet (25) being connected to the exhaust passage (14) and air guide
The air inlet (23) and the exhaust outlet (25) are connected with each other by channel (26), the air guide channel in a manner of guiding air.
4. weaving loom (1) according to claim 3, which is characterized in that the conductive gas (20) has for connecting fiber
The connector (28) of material collection vessel (30), to collect the fibrous material captured by the filter element (8).
5. weaving loom (1) according to claim 3, which is characterized in that it includes the air inlet that the conductive gas (20), which has,
First chamber portion (22) of mouthful (23) and the second chamber portion (24) including the exhaust outlet (25), wherein first sky
Cavity segment (22) and second chamber portion (24) can be connected with each other or releasably be connected with each other.
6. weaving loom (1) according to claim 3, which is characterized in that the weaving loom (1) includes having impeller (42)
Negative pressure generator (40), the impeller are arranged in from the part (A) that the air inlet (23) extends to the exhaust outlet (25).
7. weaving loom (1) according to claim 1, which is characterized in that the weaving loom (1) has distributor, the distribution
Device is equipped at least two relevant exhaust passage mouths (16) in upstream on air feed direction, accurately to supply air.
8. weaving loom (1) according to claim 1, which is characterized in that at least one other exhaust passage mouth (16) with
Certain distance range arrangement away from yarn treatment element, provides filtered air in the distance range to be one of them
The yarn treatment element of the station (4) applies compressed air.
9. weaving loom (1) according to claim 1, which is characterized in that at least one exhaust passage mouth (16) is by that can replace
The nozzle changed is constituted.
10. weaving loom (1) according to claim 3, which is characterized in that the filter element (8) is to guide the side of air
Formula is arranged in the air guide channel (26).
11. a kind of method (100) for using sucking air on the station (4) of weaving loom (1), wherein the method (100) is wrapped
Include: the first step sucks (110) air on station (4);Second step, the air that guidance (120) is inhaled into pass through filter element
(8), which is characterized in that the method (100) includes third step, i.e., by filtered air supply (130) to list under superpressure
In the closed cavity of a station (4) or multiple stations (4).
12. according to the method for claim 11 (100), which is characterized in that the weaving loom is according to claim 1 in 10
Described in any item weaving looms (1).
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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DE102015010520.5 | 2015-08-13 | ||
DE102015010520.5A DE102015010520A1 (en) | 2015-08-13 | 2015-08-13 | Textile machine and method for using exhaust air at workstations of textile machines |
Publications (2)
Publication Number | Publication Date |
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CN106435877A CN106435877A (en) | 2017-02-22 |
CN106435877B true CN106435877B (en) | 2019-02-22 |
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Application Number | Title | Priority Date | Filing Date |
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CN201610824297.2A Active CN106435877B (en) | 2015-08-13 | 2016-08-11 | Weaving loom and the method that sucking air is used on weaving loom station |
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CN (1) | CN106435877B (en) |
DE (1) | DE102015010520A1 (en) |
IT (1) | IT201600082091A1 (en) |
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DE102018112620A1 (en) * | 2018-05-25 | 2019-11-28 | Maschinenfabrik Rieter Ag | Textile machine with a cooling arrangement |
CN113018998B (en) * | 2018-07-04 | 2022-09-23 | 芜湖新世纪净化器材有限责任公司 | Operation method of dust adsorption device special for wire-wound filter element |
DE102019110731A1 (en) * | 2019-04-25 | 2020-10-29 | Saurer Intelligent Technology AG | Suction channel end part, manufacturing process and drafting system comprising such a suction channel end part |
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DE10347691A1 (en) * | 2003-10-14 | 2005-05-19 | Sohler-Neuenhauser Gmbh & Co. Kg | Cleaning device for textile machines |
DE102005051502B4 (en) | 2005-10-26 | 2007-07-26 | Saurer Gmbh & Co. Kg | Thread breakage extraction system of a ring spinning machine |
CN201058776Y (en) * | 2007-06-22 | 2008-05-14 | 山东岱银纺织集团股份有限公司 | Self-walking type groove drum pressure-vacuum apparatus |
CN201254627Y (en) * | 2008-07-25 | 2009-06-10 | 天津宏大纺织机械有限公司 | Multi-hole blasting cleaning device for fly frame |
DE102008058518B4 (en) | 2008-11-21 | 2017-10-26 | Adient Luxembourg Holding S.à.r.l. | Connecting means and clip between a handle and an unlocking means of a vehicle seat |
CN101591825B (en) * | 2009-06-02 | 2013-04-24 | 杭州中亚布艺有限公司 | Dust collector special for yarn machine and dust collection method thereof |
DE102009036409A1 (en) | 2009-08-06 | 2011-02-10 | Oerlikon Textile Gmbh & Co. Kg | Ring spinning machine |
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2015
- 2015-08-13 DE DE102015010520.5A patent/DE102015010520A1/en active Pending
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2016
- 2016-08-04 IT IT102016000082091A patent/IT201600082091A1/en unknown
- 2016-08-11 CN CN201610824297.2A patent/CN106435877B/en active Active
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IT201600082091A1 (en) | 2018-02-04 |
DE102015010520A1 (en) | 2017-02-16 |
CN106435877A (en) | 2017-02-22 |
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