CN106120287A - The processing means of tubular woven fabric - Google Patents
The processing means of tubular woven fabric Download PDFInfo
- Publication number
- CN106120287A CN106120287A CN201610429173.4A CN201610429173A CN106120287A CN 106120287 A CN106120287 A CN 106120287A CN 201610429173 A CN201610429173 A CN 201610429173A CN 106120287 A CN106120287 A CN 106120287A
- Authority
- CN
- China
- Prior art keywords
- gas channel
- central canal
- woven fabric
- blower fan
- tubular woven
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Classifications
-
- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06G—MECHANICAL OR PRESSURE CLEANING OF CARPETS, RUGS, SACKS, HIDES, OR OTHER SKIN OR TEXTILE ARTICLES OR FABRICS; TURNING INSIDE-OUT FLEXIBLE TUBULAR OR OTHER HOLLOW ARTICLES
- D06G3/00—Turning inside-out flexible tubular or other hollow articles
- D06G3/04—Turning inside-out flexible tubular or other hollow articles pneumatically
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Textile Engineering (AREA)
- Woven Fabrics (AREA)
Abstract
Embodiments provide the processing means of a kind of tubular woven fabric, comprising: for transmitting the transmission pipeline of tubular woven fabric, being arranged at the central canal among transmission pipeline, for forming the first blower fan of primary air in transmission pipeline and for forming the second blower fan of secondary air in transmission pipeline, central canal be internally formed the first gas channel, the outer wall of central canal and the inwall of transmission pipeline form the second gas channel, second blower fan passes through the 5th gas channel and the first gas channel UNICOM, for being controlled the current rate of the first gas channel by secondary air.The embodiment of the present invention is by arranging central canal in transmission channel, and by second blower fan gas flow optimized to the gas channel in central canal, achieve and by air-flow, tubular woven fabric is carried out operation process in transmission pipeline, thus when tubular woven fabric exports from this transmission pipeline, have been completed that some process operation such that it is able to simplify production process.
Description
Technical field
The present embodiments relate to a kind of processing means, particularly relate to the process dress of a kind of tubular woven fabric
Put.
Background technology
In circle braiding apparatus, the tubular woven fabric formed through circle braiding is through special transfer tube
Road transmits to outfan, and the major impetus that tubular woven fabric transmits in the duct is dependent on air-flow, defeated
Go out to hold adnexa to set up blower fan, sucking-off air-flow from transmission pipeline, thus formed from weaving machinery part
To the air flow of output port, tubular woven fabric can be exported to outfan by this plume moving air flow.
Tubular woven fabric is needed under many circumstances before next process, by this tubular woven fabric
Inside and outside face overturns, and as a example by socks, when making socks by circle weaving, first knits out
One columnar socks cylinder, needs afterwards to overturn the inside and outside face of socks cylinder, enters
The stitching that row socks are anterior, overturns the inside and outside face of socks the most again, so that before socks
The inside being partially in socks that portion is sewed up, the outward appearance outside socks is smooth.
Inventor realize the present invention during, find prior art have following defects that
In prior art, the operation process for tubular woven fabric is all from transmission pipeline at tubular woven fabric
After middle output, relying on workman to have been manually done, such operating efficiency is the lowest and needs one specially
The operation of door processes.
Summary of the invention
The purpose of the embodiment of the present invention is to provide the processing means of a kind of tubular woven fabric, enabling
In transmission pipeline, by air-flow, tubular woven fabric is carried out operation process.
To achieve these goals, embodiments provide the processing means of a kind of tubular woven fabric,
Comprising: for transmitting the transmission pipeline of described tubular woven fabric, being arranged among described transmission pipeline
Central canal, for forming the first blower fan of primary air in described transmission pipeline and in institute
State the second blower fan forming secondary air in transmission pipeline, described central canal be internally formed the first gas
Circulation road, the outer wall of described central canal forms the second gas channel with the inwall of described transmission pipeline,
Described second blower fan is by the 5th gas channel and described first gas channel UNICOM, for by institute
State secondary air and control the current rate of described first gas channel.
The processing means of the tubular woven fabric of the embodiment of the present invention, by arranging central canal in transmission channel,
And by second blower fan gas flow optimized to the gas channel within central canal, it is achieved that at transfer tube
Road carries out operation process by air-flow to tubular woven fabric, thus at tubular woven fabric from this transfer tube
During road output, have been completed that some process operation such that it is able to simplify production process.
Described above is only the general introduction of technical solution of the present invention, in order to better understand the present invention
Technological means, and can be practiced according to the content of description, and the present invention's be upper in order to allow
State and can become apparent with other objects, features and advantages, below especially exemplified by the concrete reality of the present invention
Execute mode.
Accompanying drawing explanation
Fig. 1 is one of structural representation of processing means of tubular woven fabric of the embodiment of the present invention one.
Fig. 2 is the two of the structural representation of the processing means of the tubular woven fabric of the embodiment of the present invention one.
Fig. 3 is the three of the structural representation of the processing means of the tubular woven fabric of the embodiment of the present invention one.
Fig. 4 is the four of the structural representation of the processing means of the tubular woven fabric of the embodiment of the present invention one.
Fig. 5 is one of structural representation of processing means of tubular woven fabric of the embodiment of the present invention two.
Fig. 6 is the two of the structural representation of the processing means of the tubular woven fabric of the embodiment of the present invention two.
Fig. 7 is one of structural representation of processing means of tubular woven fabric of the embodiment of the present invention three.
Fig. 8 is the two of the structural representation of the processing means of the tubular woven fabric of the embodiment of the present invention three.
Fig. 9 is the three of the structural representation of the processing means of the tubular woven fabric of the embodiment of the present invention three.
Figure 10 is the four of the structural representation of the processing means of the tubular woven fabric of the embodiment of the present invention three.
Figure 11 is one of structural representation of processing means of tubular woven fabric of the embodiment of the present invention four.
Figure 12 is the two of the structural representation of the processing means of the tubular woven fabric of the embodiment of the present invention four.
Figure 13 is the three of the structural representation of the processing means of the tubular woven fabric of the embodiment of the present invention four.
Figure 14 is the four of the structural representation of the processing means of the tubular woven fabric of the embodiment of the present invention four.
Drawing reference numeral illustrates: tubular woven fabric 1;Transmission pipeline 2;Central canal 3;First blower fan 4;
Second blower fan 5;First gas channel 21;Second gas channel 22;3rd gas channel 23;The
Four gas channels 24;Nozzle structure 25;First airstream inlet section 251;First air stream outlet portion
Divide 252;5th gas channel 26;Opening part 31;Pipe body part 32;Pipe portion 33.
Detailed description of the invention
It is more fully described the exemplary embodiment of the disclosure below with reference to accompanying drawings.Although it is attached
Figure shows the exemplary embodiment of the disclosure, it being understood, however, that can be with various shapes
Formula realizes the disclosure and should not limited by embodiments set forth here.On the contrary, it is provided that these
Embodiment is able to be best understood from the disclosure, and can be by the scope of the present disclosure
Complete conveys to those skilled in the art.
It should be noted that the direction of the arrow indication in Fig. 1 to Figure 14 represents corresponding air flow
The direction of flowing.
Embodiment one
As it is shown in figure 1, the structure of the processing means of the tubular woven fabric that it is the embodiment of the present invention one
One of schematic diagram, as it is shown in figure 1, this processing means generally comprises for transmitting tubular woven fabric 1
Transmission pipeline 2, be arranged at the central canal 3 among transmission pipeline 2, in transmission pipeline 2
Form the first blower fan 4 of primary air and for forming the second of secondary air in transmission pipeline 2
Blower fan 5, wherein, the gas channel being internally formed of central canal 3 is the first gas channel 21, in
The outer wall of heart pipe 3 is the second gas channel 22 with the gas channel of the inwall formation of transmission pipeline 2,
The gas channel not having the part of central canal 3 can be defined as the 3rd gas channel 23.Second blower fan
5 for controlling the first gas channel 21 and/or air-flow of the second gas channel 22 by secondary air
Intensity, is changed by the air-flow of the first gas channel 21 and/or the second gas channel 22, it is possible to real
The now different operation to tubular woven fabric processes, and such as, can be realized as existing by reasonably control
There is in technology the inside and outside turning operation wanting to realize, or realize tubular woven fabric is carried out certain drawing
Stretching, compress or other shaping operation, concrete operation can provide based on the embodiment of the present invention
Structure, and by the second blower fan, the control flexibly of air-flow is realized.The embodiment of the present invention is incited somebody to action
Weight is described in detail with the process operation inside and outside overturn by tubular woven fabric for example.
Wherein, it will be appreciated by those skilled in the art that in actual applications, the size of central canal 3
Tubular woven fabric 1 should be able to be made to be enclosed within the outside of this central canal 3, and also tubular can be allowed to knit
Thing 1 passes through from the inside of central canal 3 after being inhaled into.Additionally, the first gas channel 21 and the second gas
The size of the 22 of circulation road it suffices that in the case of only the first blower fan 4, tubular woven fabric
1 can be enclosed within central canal 3 rather than is taken directly in central canal 3 normally.Due to cylinder
1, shape fabric is in time arriving at central canal 3, already at the state in motion, based on it certainly
The motional inertia of body, can keep original state to move forward, at the first gas channel 21 and
In the case of the current rate of the 22 of two gas channels is roughly the same, tubular woven fabric 1 can keep original
Kinestate, continue, to the forward of transmission channel 2, to be enclosed within central canal 3, the most excellent
Selection of land, central canal 3 and transmission channel 2 are the most vertically arranged, so by action of gravity, it is possible to make
Obtain tubular woven fabric 1 to be preferably enclosed within central canal 3.
The processing means of the tubular woven fabric of the embodiment of the present invention rationale here is that: by knitting in tubular
In the transmission channel of thing, arrange and can penetrate into the center tubular woven fabric from one end of tubular woven fabric
Pipe, and by the control of the air-flow of gas channel inside and outside central canal, by the other end of tubular woven fabric
It is drawn into the inside of central canal, then exports from the air outlet of central canal, thus realize tubular woven fabric
Upset.
Specifically, the second blower fan 5 is for by the secondary air (size by control secondary air
With direction etc.) control the first gas channel 21 and/or current rate of the second gas channel 22, with
Realize following operating state: as in figure 2 it is shown, central canal 3 penetrates from one end of tubular woven fabric 1
First distance L1, then as it is shown on figure 3, the other end of tubular woven fabric 1 is by the air intake of central canal 3
Mouth sucks, and the most as shown in Figure 4, tubular woven fabric 1 enters in central canal 3 and transmits, and is passing through
After central canal 3, export transmission pipeline 2 from the air outlet of central canal 3.
In above-mentioned processing means, by arranging central canal in transmission channel, and by the second blower fan
Gas flow optimized to central canal gas channel internally and/or externally, it is achieved that in the biography of tubular woven fabric
Carry out turning over socks action during defeated, thus when tubular woven fabric exports from this transmission pipeline, it becomes possible to
Directly start the operation of next operation, save operator's turning operation.
Embodiment two
As it is shown in figure 5, the structure of the processing means of the tubular woven fabric that it is the embodiment of the present invention two is shown
One of being intended to, on the basis of above-described embodiment one, the present embodiment sets in the local of transmission pipeline 2
Being equipped with nozzle structure 25, this nozzle structure 25 has diminishing first airstream inlet section of passage
251 and the first flow outlet portion 252 of being gradually increased of passage, the entrance of central canal 3 (position in figure
The mouth of pipe in top is entrance) it is arranged in the first flow outlet portion 252 or close to the first gas
The position of flow export part 252.
By this nozzle structure, it is possible to forming air-flow as shown by arrows in FIG., wherein, air-flow exists
Compressed by nozzle structure at the first airstream inlet section 251, then at the first flow outlet portion 252
Can spray rapidly to both sides, when tubular woven fabric 1 is by the first flow outlet portion 252 of jet pipe
Time, can be strutted to surrounding by the effect of air-flow, so that dehiscing of being more prone to of tubular woven fabric
And be enclosed within the central canal 3 being arranged in the first flow outlet portion 252.
Needing exist for explanation, nozzle structure 25 can use from the first airstream inlet section 251
Directly be changed to the sectional area of the structure of the first flow outlet portion 252, i.e. nozzle structure 25 first by
The tapered little centre that is gradually increased the most again does not has transition stage.It addition, nozzle structure 25 can also be adopted
With having the mistake being connected between the first airstream inlet section 251 and the first flow outlet portion 252
Crossing the structure of part, the sectional area of this transition portion does not changes, but this crosses part and is difficult to long.
Additionally, central canal 3 can specifically include opening part 31 and pipe body part 32, opening part
The pipeline of 31 is gradually reduced formation frustum from one end of pipe body part 32 to the air inlet of central canal 3
Shape, the air outlet of central canal 3 is arranged at the other end of pipe body part 32.The opening part of taper type
Can be advantageously in penetrating in tubular woven fabric.
It addition, as shown in Figure 6, central canal 3 can include opening part 31, pipe body part 32 with
And pipe portion 33, opening part 31 and pipe portion 33 are all in taper type, i.e. opening part 31
Pipeline be gradually reduced formation opening part from one end of pipe body part 32 to the air inlet of central canal 3
The taper type of 31, the pipeline of pipe portion 33 from the other end of pipe body part 32 to central canal 3
Air outlet is gradually reduced the taper type forming pipe portion 33.Such structure is except having above-mentioned figure
Outside the advantage of the structure shown in 5, owing to opening part 31 and pipe portion 33 are both with respect to pipe shaft
Part 32 reduces, and therefore, causes the current rate of the first gas channel can be significantly less than the second gas
The current rate of circulation road, thus in normal state, socks are enclosed within central canal more easily,
Without being inhaled into.
It should be noted that the structure of central canal 3 and nozzle structure 25 can individually use also
Can be applied in combination, in the case of it is used alone, all be capable of beneficially tubular woven fabric set
Effect on central canal, in the case of being applied in combination, better.
Embodiment three
As shown in Figure 7 to 10, it is the processing means of tubular woven fabric of the embodiment of the present invention three
Structural representation, the second blower fan in previous embodiment is carried out the most exemplary by the present embodiment
Illustrating, second blower fan 5 of the present embodiment is by the 4th gas channel 24 and the second gas channel 22
UNICOM.Wherein, the 4th gas channel 24 could be arranged to the angle of the positive direction with primary air and is less than
90 degree, the most as shown in FIG., the 4th gas channel 24 sets up, with the pros of primary air
To angle less than 90 degree.
Specifically, the outer wall of transmission channel 2 offers the 4th gas channel through hole is installed, the
The position that four gas channels install through hole is corresponding with the pipe portion 33 of central canal 3.4th air-flow leads to
The one end in road 24 is arranged on the 4th gas channel and installs in through hole, another of the 4th gas channel 24
End is connected with the entry/exit air port of the second blower fan 5.Second blower fan 5 is selected can either sucking-off secondary air
The blower fan of secondary air can be passed through again so that the second blower fan can either be inhaled in the second gas channel
Go out secondary air and can be passed through secondary air in the second gas channel again.
By the second blower fan sucking-off secondary air and the switching being passed through secondary air, it is possible to control second
The current rate of gas channel 22 so that the first gas channel 21 and the second gas channel 22 it
Between produce current rate difference, it is possible to by the control of blower fan is controlled this air-flow further
The size of strength difference, when the current rate of the first gas channel 21 and the second gas channel 22 is big
When causing consistent or when the second gas channel 22 is more than the current rate (the of the first gas channel 21
Two blower fans are in sucking-off secondary air) time, tubular woven fabric 1 can normally along transmission pipeline 2 to
Lower transmission, and be enclosed within the outside of central canal 3, when the current rate of the second gas channel 22 is less than the
During current rate (the second blower fan is in and is passed through secondary air) of one gas channel 21, it is possible to achieve
Tubular woven fabric 1 is sucked in central canal 3, and the first air-flow from central canal 3 leads to further
Road 21 transmits.
In actual applications, can close according to actual tubular woven fabric and the feature of surrounding
Reason adjusts the current rate poor (difference of the suction of generation) between two gas channels, to realize cylinder
The suction of shape fabric, the difference of concrete current rate, can be by adjusting the wind speed of the second blower fan
And realize.The most preferably, when needs suck tubular woven fabric, directly by second
Blower fan is adjusted to be passed through the state of secondary air, the wind speed of the second blower fan can be adjusted to maximum simultaneously,
Thus hinder the airflow in the second gas channel so that in the central canal that tubular woven fabric is subject to
The suction of the first gas channel, more than the thrust in the second gas channel, enters in central canal.
Additionally, the action of the second blower fan can coordinate controller to trigger by detector, tool
Body ground, the processing means of the tubular woven fabric of the embodiment of the present invention can also include:
Fabric Detection device, for detecting the tubular woven fabric relative position with central canal.Fabric Detection device
Can by the non-contact sensor such as such as photoelectric detector realize can also by pressure transducer or
The touch sensors such as travel switch realize.
Controller of fan, for the relative position detected according to Fabric Detection device, controls the second wind
Machine operates.This controller of fan can electrically connect with Fabric Detection device or wireless connections etc..
Wherein, the concrete control operation performed by controller of fan can include following several control feelings
At least one or multiple combination in shape:
One of situation:
As it is shown in fig. 7, one can be arranged at the first flow outlet portion 252 of nozzle structure 25
Fabric Detection device, when Fabric Detection device detects that tubular woven fabric 1 (specifically can be with tubular woven fabric 1
Bottom is as the criterion) distance of distance center pipe 3 less than second distance L2 time, control the second blower fan 5
From the second outside sucking-off secondary air of gas channel 22, to increase the suction in the second gas channel 22
Power so that tubular woven fabric 1 can be enclosed within central canal 3 more easily.
The two of situation:
As shown in Figure 8, another Fabric Detection device (detecting distance L1 can be set on central canal
Can also be completed by a Fabric Detection device with the Fabric Detection device of distance L2, it is also possible to by two
The Fabric Detection device of split completes), in Fabric Detection device detects that tubular woven fabric 1 has been enclosed within
On heart pipe after the first distance L1, control the second blower fan 5 and be passed through auxiliary in the second gas channel 22
Air-flow, to reduce the suction in the second gas channel 22, wherein, the 4th gas channel 24 and
The distance of the air inlet of the positional distance central canal 3 of two gas channel 22 UNICOMs is more than or equal to first
Distance L1.
The three of situation:
As shown in Fig. 9 and Figure 10, when Fabric Detection device detect tubular woven fabric 1 all or
After person's part is inhaled into the first gas channel 21, controls the second blower fan 5 and stop being passed through secondary air.
Wherein, the first above-mentioned distance can as the case may be depending on, can select to knit in tubular
The length when major part of thing has been enclosed within central canal is set as the first distance, and (such as tubular is knitted
3/4ths of thing), so that it is guaranteed that tubular woven fabric can the most inside and outside overturn.Above-mentioned second distance
Depending on can also be according to practical situation, can select the first flow outlet portion of nozzle structure with in
Length between heart pipe is set as second distance.
It addition, as above-described embodiment, transmission pipeline 2 and central canal 3 are the most vertically arranged.
Embodiment four
As shown in Figure 11 to 14, it is the processing means of tubular woven fabric of the embodiment of the present invention four
Structural representation, the difference of the present embodiment and embodiment three is that the second blower fan 5 is by the
Five gas channel 26 and the first gas channel 21 UNICOMs, for controlling the gas of the first gas channel 21
Intensity of flow.Wherein, the 5th gas channel 26 and the angle of the positive direction of primary air are less than 90 degree.
Specifically, the outer wall of central canal 3 offers the 5th gas channel through hole is installed, passing
Offer through hole on the outer wall of defeated passage 2, the 5th gas channel install through hole be positioned proximate to center
The pipe portion 33 of pipe 3.One end of 5th gas channel 26 is arranged on the 5th air-flow through through hole and leads to
Road is installed in through hole, and the other end of the 5th gas channel 26 and the entry/exit air port of the second blower fan 5 connect.
Second blower fan is selected and can either can be passed through again the blower fan of secondary air by sucking-off secondary air so that the
Two blower fans can either sucking-off secondary air again can be in the first gas channel in the first gas channel
It is passed through secondary air.
Wherein, what the concrete structure of central canal can use shown in above-described embodiment two is exemplary
Structure.Additionally, as described by above-described embodiment two, can also set in the local of transmission pipeline 2
Being equipped with nozzle structure 25, wherein, concrete structure and the central canal 3 of nozzle structure 25 are tied with jet pipe
The position relationship of structure 25 can consistent as illustrated by embodiment two.
By the second blower fan sucking-off secondary air and the switching being passed through secondary air, it is possible to control first
The current rate of gas channel 21 so that the first gas channel 21 and the second gas channel 22 it
Between produce air-flow difference, it is possible to by the control of blower fan is controlled this current rate further
The size of difference.Specifically, strong when the air-flow of the first gas channel 21 and the second gas channel 22
When spending substantially uniform or when the second gas channel 22 is more than the current rate of the first gas channel 21
(as shown in figure 11, the second blower fan is in the state being passed through secondary air in the first gas channel)
Time, tubular woven fabric 1 can transmit downwards along transmission pipeline 2, and be enclosed within central canal 3 normally
Outside, when the current rate of the second gas channel 22 is less than the current rate of the first gas channel 21
(as shown in Figures 12 and 13, the second blower fan is in sucking-off secondary air from the first gas channel
State) time, it is possible to achieve tubular woven fabric 1 is sucked in central canal 3, and further from center
The first gas channel 21 in pipe 3 transmits.
In actual applications, can close according to actual tubular woven fabric and the feature of surrounding
Reason adjusts the current rate poor (difference of the suction of generation) between two gas channels, to realize cylinder
The suction of shape fabric, the difference of concrete current rate, can be by adjusting the wind speed of the second blower fan
And realize.The most preferably, when needs suck tubular woven fabric, directly by second
Blower fan is adjusted to the state of sucking-off secondary air, the wind speed of the second blower fan can be adjusted to maximum simultaneously,
Thus increase the airflow in the first gas channel so that in the central canal that tubular woven fabric is subject to
The suction of the first gas channel, more than the thrust in the second gas channel, enters in central canal.
Additionally, similar to the above embodiments, the action of the second blower fan can coordinate control by detector
Device processed triggers, and specifically, the processing means of the tubular woven fabric of the embodiment of the present invention is all right
Including:
Fabric Detection device, for detecting the tubular woven fabric relative position with central canal.Fabric Detection device
Can by the non-contact sensor such as such as photoelectric detector realize can also by pressure transducer or
The touch sensors such as travel switch realize.
Controller of fan, for the relative position detected according to Fabric Detection device, controls the second wind
Machine operates.This controller of fan can electrically connect with Fabric Detection device or wireless connections etc..
Wherein, the concrete control operation performed by controller of fan can include following several control feelings
At least one or multiple combination in shape:
One of situation:
As shown in figure 11, the distance of tubular woven fabric 1 distance center pipe 3 is detected when Fabric Detection device
During less than second distance L2, control the second blower fan 5 and be passed through secondary air to the first gas channel 21,
To reduce the suction in the first gas channel 21 so that tubular woven fabric 1 can be enclosed within more easily
On central canal 3.
The two of situation:
As shown in Figure 12 and Figure 13, in Fabric Detection device detects that tubular woven fabric 1 has been enclosed within
On heart pipe 3 after first distance L1, control the sucking-off from the first gas channel 21 of the second blower fan 5 auxiliary
Help air-flow, to increase the suction in the first gas channel 21, tubular woven fabric 1 sucked in central canal,
Wherein, the positional distance central canal 3 of the 5th gas channel 26 and the first gas channel 21 UNICOM
The distance of air inlet is more than or equal to the first distance L1.
The three of situation:
As shown in Figure 13 and Figure 14, when Fabric Detection device detects that tubular woven fabric 1 is whole
Or after part is inhaled into the first gas channel 21, controls the second blower fan 5 and stop sucking-off auxiliary gas
Stream, dependence primary air can be successfully by tubular woven fabric sucking-off.
Additionally, the tool of the nozzle structure in central canal, transmission pipeline and passage in the present embodiment
Body structure all can use the example arrangement in foregoing individual embodiments, does not repeats them here.
It should be noted that the concrete structure of all parts in each embodiment above all can root
The application demand on border carries out flexible combination factually, is not limiting as the word with the embodiment of the present invention and describes.
Furthermore, it is necessary to explanation, the tubular woven fabric of each embodiment above-mentioned can correspond to socks,
The cylindrical part such as ankle guard, elbow support, trousers lower limb, skirt, jacket are graded.
It addition, close on the side of the first blower fan in transmission channel to be provided with tubular woven fabric delivery outlet,
It is provided with baffle plate on tubular woven fabric delivery outlet.When not having tubular woven fabric to export, baffle plate passes through spring
Axle is buckled on tubular woven fabric delivery outlet so that tubular woven fabric delivery outlet is closed;When there being cylinder
When shape fabric needs output, baffle plate is depressed by the action of gravity of tubular woven fabric, tubular woven fabric
Export from tubular woven fabric equipped at outlet port;Subsequently, baffle plate by the Elastic buttom of spring shaft at tubular woven fabric
On delivery outlet.
It is last it is noted that various embodiments above is only in order to illustrate technical scheme,
It is not intended to limit;Although the present invention being described in detail with reference to foregoing embodiments,
It will be understood by those within the art that: foregoing embodiments still can be remembered by it
The technical scheme carried is modified, or carries out the most some or all of technical characteristic
With replacing;And these amendments or replacement, do not make the essence of appropriate technical solution depart from this
Invent the scope of each embodiment technical scheme.
Claims (10)
1. the processing means of a tubular woven fabric, it is characterised in that including: be used for transmitting described cylinder
The transmission pipeline of shape fabric, it is arranged at the central canal among described transmission pipeline, in described biography
Defeated pipeline forms the first blower fan of primary air and for forming auxiliary gas in described transmission pipeline
Second blower fan of stream,
Described central canal be internally formed the first gas channel, the outer wall of described central canal and described biography
The inwall of defeated pipeline forms the second gas channel,
Described second blower fan, by the 5th gas channel and described first gas channel UNICOM, is used for leading to
Cross described secondary air and control the current rate of described first gas channel.
Processing means the most according to claim 1, it is characterised in that also include:
Fabric Detection device, for detecting the described tubular woven fabric relative position with described central canal;
Controller of fan, for the described relative position detected according to described Fabric Detection device, control
Make described second blower fan operating.
Processing means the most according to claim 2, it is characterised in that knit described in described basis
The described relative position that analyte detection device detects, controls described second blower fan operating and includes:
When described Fabric Detection device detects that described tubular woven fabric has been enclosed within described central canal first
After Ju Li, control described second blower fan sucking-off secondary air from described first gas channel, to increase
Adding the suction in the first gas channel, wherein, described 5th gas channel leads to described first air-flow
The distance of the air inlet of central canal described in the positional distance of road UNICOM more than or equal to described first away from
From.
Processing means the most according to claim 2, it is characterised in that knit described in described basis
The described relative position that analyte detection device detects, controls described second blower fan operating and includes:
When described Fabric Detection device detects that described tubular woven fabric is less than apart from the distance of described central canal
During second distance, control described second blower fan and be passed through secondary air to described first gas channel, with
Reduce the suction in described first gas channel;
When described Fabric Detection device detects that described tubular woven fabric has been enclosed within described central canal first
After Ju Li, control described second blower fan sucking-off secondary air from described first gas channel, to increase
Adding the suction in the first gas channel, wherein, described 5th gas channel leads to described first air-flow
The distance of the air inlet of central canal described in the positional distance of road UNICOM more than or equal to described first away from
From.
5. according to the processing means described in claim 3 or 4, it is characterised in that described according to institute
State the described relative position that Fabric Detection device detects, control described second blower fan operating and also include:
When described Fabric Detection device detects that described tubular woven fabric is inhaled into the most in whole or in part
After described first gas channel, control described second blower fan and stop secondary air described in sucking-off.
Processing means the most according to claim 1, it is characterised in that described 5th air-flow leads to
Road is less than 90 degree with the angle of the positive direction of described primary air.
Processing means the most according to claim 1, it is characterised in that
At the nozzle structure that is partially provided with of described transmission pipeline, described nozzle structure have passage by
The first flow outlet portion that tapered the first little airstream inlet section and passage are gradually increased,
The air inlet of the air inlet central canal of described central canal is arranged at described first flow outlet portion
In or close to the position of described first flow outlet portion.
Processing means the most according to claim 1, it is characterised in that described central canal includes
Opening part and pipe body part, the pipeline of described opening part from one end of described pipe body part to institute
The air inlet of the air inlet central canal stating central canal is gradually reduced formation taper type, described central canal
Air outlet is arranged at the other end of described pipe body part.
Processing means the most according to claim 1, it is characterised in that described central canal includes
Opening part, pipe body part and pipe portion, the pipeline of described opening part is from described pipe shaft portion
The one end divided is gradually reduced the taper type forming opening part to the air inlet of described central canal, described
The pipeline of pipe afterbody door gradually contracts to the air outlet of described central canal from the other end of described pipe body part
The taper type of little formation pipe portion.
Processing means the most according to claim 1, it is characterised in that described transmission pipeline
Vertically arranged with described central canal.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610429173.4A CN106120287A (en) | 2016-06-15 | 2016-06-15 | The processing means of tubular woven fabric |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610429173.4A CN106120287A (en) | 2016-06-15 | 2016-06-15 | The processing means of tubular woven fabric |
Publications (1)
Publication Number | Publication Date |
---|---|
CN106120287A true CN106120287A (en) | 2016-11-16 |
Family
ID=57469688
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201610429173.4A Pending CN106120287A (en) | 2016-06-15 | 2016-06-15 | The processing means of tubular woven fabric |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN106120287A (en) |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5235825A (en) * | 1991-07-31 | 1993-08-17 | Francesco Turini | Pneumatic suction apparatus for tensioning, reversing and conveying away a tubular knitted article |
CN201176500Y (en) * | 2008-01-25 | 2009-01-07 | 浙江金恒数控科技股份有限公司 | Automatic stocking turner of computer stocking machine |
CN202380317U (en) * | 2011-12-22 | 2012-08-15 | 张伟军 | Airflow-based automatic stocking turning device |
CN204000384U (en) * | 2014-06-03 | 2014-12-10 | 刘国强 | A kind of semi-automatic hosiery machine that turns over |
CN204491286U (en) * | 2015-03-17 | 2015-07-22 | 浙江华尔纺织科技有限公司 | The automatic stocking turner of footwear machine |
-
2016
- 2016-06-15 CN CN201610429173.4A patent/CN106120287A/en active Pending
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5235825A (en) * | 1991-07-31 | 1993-08-17 | Francesco Turini | Pneumatic suction apparatus for tensioning, reversing and conveying away a tubular knitted article |
CN201176500Y (en) * | 2008-01-25 | 2009-01-07 | 浙江金恒数控科技股份有限公司 | Automatic stocking turner of computer stocking machine |
CN202380317U (en) * | 2011-12-22 | 2012-08-15 | 张伟军 | Airflow-based automatic stocking turning device |
CN204000384U (en) * | 2014-06-03 | 2014-12-10 | 刘国强 | A kind of semi-automatic hosiery machine that turns over |
CN204491286U (en) * | 2015-03-17 | 2015-07-22 | 浙江华尔纺织科技有限公司 | The automatic stocking turner of footwear machine |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN106049016A (en) | Treatment device for cylindrical fabric | |
CN104456893B (en) | Air conditioner air outlet structure | |
CN204491286U (en) | The automatic stocking turner of footwear machine | |
JP3220232U (en) | Rain clothing air conditioning system | |
CN106120287A (en) | The processing means of tubular woven fabric | |
CN104489079B (en) | Paving shines paddy machine | |
CN103673006B (en) | There is the smog elimination device of Wo 2008055837 and air guiding device | |
CN106049019B (en) | The processing unit of tubular woven fabric | |
CN106049015A (en) | Treatment device for cylindrical fabric | |
CN106049020A (en) | Treatment device for cylindrical fabric | |
CN106049018A (en) | Treatment device for cylindrical fabric | |
CN106049017B (en) | The processing unit of tubular woven fabric | |
WO2015021739A1 (en) | Air door controlling structure of corrugated roller | |
CN106939893A (en) | Fan component | |
CN206828742U (en) | A kind of yarn dust suction covering device | |
CN104093992B (en) | Vacuum grabbing device and the method being used for running vacuum grabbing device | |
CN107310736A (en) | A kind of carrier-borne aircraft landing accessory system | |
CN207452309U (en) | A kind of multistage injection air-flow auxiliary device for thinning of electrostatic spinning | |
CN104489080B (en) | Paddy machine | |
CN107108143A (en) | For the device for allowing narrow annular material to pass through standard fabric compacting machine to be processed | |
CN209079707U (en) | A kind of child safety seat | |
CN106556225B (en) | Drying system | |
CN206325338U (en) | A kind of follow dust-removing Airshower chamber | |
CN205170812U (en) | Make bent room | |
CN108214521B (en) | Can autonomous even contact power soft robot |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
WD01 | Invention patent application deemed withdrawn after publication | ||
WD01 | Invention patent application deemed withdrawn after publication |
Application publication date: 20161116 |