CN106049015A

CN106049015A - Treatment device for cylindrical fabric

Info

Publication number: CN106049015A
Application number: CN201610427412.2A
Authority: CN
Inventors: 王键强
Original assignee: ZHEJIANG HUAER TEXTILE TECHNOLOGY Co Ltd
Current assignee: ZHEJIANG HUAER TEXTILE TECHNOLOGY Co Ltd
Priority date: 2016-06-15
Filing date: 2016-06-15
Publication date: 2016-10-26
Anticipated expiration: 2036-06-15
Also published as: CN106049015B

Abstract

The embodiment of the invention provides a treatment device for a cylindrical fabric. The treatment device comprises a transport pipeline, a center pipe, a fan, a center pipe control mechanism and a spray pipe structure, wherein a first airflow passage and a second airflow passage are formed inside and outside the center pipe, the center pipe control mechanism is used for controlling the center pipe to move forward and backward, the moving range of an air inlet of the center pipe at least comprises all of or part of the transport pipeline at a first airflow outlet of the spray pipe structure, and a first airflow passage adjusting mechanism for adjusting the airflow intensity in the first airflow passage is arranged at an air outlet of the center pipe or inside the first airflow passage. The center pipe is arranged in the transport pipeline, the airflow in the airflow passages is controlled via the center pipe control mechanism and the first airflow passage adjusting mechanism, the cylindrical fabric is operated by means of the airflow in the transport pipeline, and some treatment operations are accomplished when the cylindrical fabric is transported out from the transport pipeline, so that the production procedures are simplified.

Description

The processing means of tubular woven fabric

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, control machine for forming the blower fan of air-flow and central canal in described transmission pipeline Structure,

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,

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 central canal controlling organization is used for controlling described central canal and moves before and after described transmission channel Dynamic, the moving range of the air inlet of central canal at least includes the whole of described first flow outlet portion Transmission pipeline or fractional transmission pipeline,

At the air outlet of described central canal or inside described first gas channel, it is provided with use In adjusting the first gas channel guiding mechanism of current rate in 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 central canal control structure and the air-flow control to gas channel of the first gas channel guiding mechanism System, it is achieved that by air-flow tubular woven fabric carried out operation process in transmission pipeline, thus Tubular woven fabric, when this transmission pipeline exports, has been completed that some process operation, thus simplifies life Produce operation.

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 one of structural representation of processing means of tubular woven fabric of the embodiment of the present invention four.

Figure 11 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 12 is one of structural representation of processing means of tubular woven fabric of the embodiment of the present invention five.

Figure 13 is the two of the structural representation of the processing means of the tubular woven fabric of the embodiment of the present invention five.

Figure 14 is one of structural representation of processing means of tubular woven fabric of the embodiment of the present invention six.

Figure 15 is the two of the structural representation of the processing means of the tubular woven fabric of the embodiment of the present invention six.

Figure 16 is the three of the structural representation of the processing means of the tubular woven fabric of the embodiment of the present invention six.

Figure 17 is the four of the structural representation of the processing means of the tubular woven fabric of the embodiment of the present invention six.

Figure 18 is one of structural representation of processing means of tubular woven fabric of the embodiment of the present invention seven.

Figure 19 is the two of the structural representation of the processing means of the tubular woven fabric of the embodiment of the present invention seven.

Drawing reference numeral illustrates: tubular woven fabric 1；Transmission pipeline 2；Central canal 3；Blower fan 4；Baffle plate Mechanism 5；First catch mechanism 6；First block mechanism 7；Second block mechanism 8；Second catch Mechanism 9；First gas channel 21；Second gas channel 22；3rd gas channel 23；Jet pipe is tied Structure 25；First airstream inlet section 251；First flow outlet portion 252；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.

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 blower fan 4 and the first airflow control mechanism (not shown) of air-flow, wherein, center The gas channel being internally formed of pipe 3 is the first gas channel 21, the outer wall of central canal 3 and transmission The gas channel that the inwall of pipeline 2 is formed is the second gas channel 22, does not has the part of central canal 3 Gas channel can be defined as the 3rd gas channel 23.First airflow control mechanism is for control the One gas channel 21 and/or the current rate of the second gas channel 22, by the first gas channel 21 And/or second air-flow of gas channel 22, it is possible to realize the different operation of tubular woven fabric is processed, Such as, by reasonably controlling the inside and outside turning operation that can realize as wanted realization in prior art, Or realize tubular woven fabric is carried out certain stretching, compression or other shaping operation, concrete The structure that operation can provide based on the embodiment of the present invention, and by the first airflow control mechanism to gas The control flexibly of stream realizes.The embodiment of the present invention will focus on inside and outside turned over by tubular woven fabric The process operation turned is described in detail 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 is it suffices that in the case of a blower fan, tubular woven fabric 1 can It is enclosed within normally on central canal 3 rather than is taken directly in central canal 3.Owing to tubular is knitted Thing 1 is in time arriving at central canal 3, already at the state in motion, based on himself Motional inertia, can keep original state to move forward, at the first gas channel 21 and the second gas In the case of the current rate of the 22 of circulation road is roughly the same, tubular woven fabric 1 can keep original fortune Dynamic state, continues the forward to transmission channel 2, is enclosed within central canal 3, the most preferably, Central canal 3 and transmission channel 2 are the most vertically arranged, so by action of gravity, it is possible to make tubular Fabric 1 is 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 first airflow control mechanism is for controlling the first gas channel 21 and/or the second air-flow The current rate of passage 22, to realize following operating state: as in figure 2 it is shown, central canal 3 from One end of tubular woven fabric 1 penetrates the first distance, then as it is shown on figure 3, another of tubular woven fabric 1 End is sucked by the air inlet of central canal 3, and the most as shown in Figure 4, tubular woven fabric 1 enters center Pipe 3 transmits, after by central canal 3, exports transmission pipeline 2 from the air outlet of central canal 3 In.

In above-mentioned processing means, by arranging central canal in transmission channel, and by the first air-flow The controlling organization gas flow optimized to the gas channel inside and outside central canal, 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 air inlet of central canal 3 is (in figure The superposed mouth of pipe is air inlet) it is arranged in the first flow outlet portion 252 or close to The position of one flow outlet portion 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.

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 9, it is the processing means of tubular woven fabric of the embodiment of the present invention three Structural representation, the first airflow control mechanism in previous embodiment is carried out further by the present embodiment Ground exemplary illustration, the present embodiment the first airflow control mechanism may include that centrally disposed pipe 3 Outer wall and/or transmission pipeline 2 inwall on airflow-resistive mechanism, this airflow-resistive mechanism is used for closing Close or hinder the airflow of the second gas channel 22.Wherein, the concrete form of airflow-resistive mechanism Baffle mechanism 5 on the outer wall that can include being arranged at central canal 3 and/or transmission pipeline 2 inwall.

Specifically, above-mentioned baffle mechanism 5 can use following structure: its one end is rotatably fixed On the outer wall and/or transmission pipeline 2 inwall of central canal 3, (in figure, exemplary showing is fixed on Situation on the outer wall of central canal), and baffle mechanism 5 has and is roughly parallel to central canal 3 axis Primary importance (as shown in Figure 7) and one end of baffle mechanism 5 snap in transmission pipeline 2 The second position (as shown in Figure 8) on the outer wall of wall and/or central canal 3, baffle mechanism 5 can be Move between primary importance and the second position.

By the baffle mechanism 5 movement between above-mentioned primary importance and the second position, it is possible to control The current rate of the second gas channel 22, so that the first gas channel 21 and the second gas channel Air-flow difference is produced, when the air-flow of the first gas channel 21 and the second gas channel 22 is strong between 22 When spending substantially uniform (baffle mechanism is near primary importance), tubular woven fabric 1 can normally along Transmission pipeline 2 transmits downwards, and is enclosed within the outside of central canal 3, when the gas of the second gas channel 22 When intensity of flow is less than the current rate of the first gas channel 21, it is possible to achieve tubular woven fabric 1 is sucked To central canal 3, and further the first gas channel 21 from central canal 3 transmits.In reality In the application of border, can be according to actual tubular woven fabric and the feature of surrounding, Reasonable adjustment two Current rate between individual gas channel is poor (difference of the suction of generation), to realize tubular woven fabric Suck, the difference of concrete current rate, can be as it is shown in figure 9, baffle mechanism 5 be adjusted to Certain position and realize.The most preferably, when needs suck tubular woven fabric, the most directly Connect and baffle mechanism 5 is adjusted to the second position, thus close the second gas channel so that tubular is knitted Thing, only by the suction of the first gas channel in central canal, enters in central canal.

Further, baffle mechanism 5 can include multiple the arranged around the outer wall of central canal 3 Flap baffle plate and/or the multiple second lamellar baffle plates arranged along transmission pipeline 2 inwall.General feelings Under condition, central canal 3 and transmission channel 2 are cylindrical shape, the first lamellar baffle plate and the second lamellar Baffle plate can be fan-shaped, can fill up by splicing and combining or partly fill up the second gas channel i.e. Can.Baffle mechanism is consisted of the second lamellar baffle plate of multiple separation, it is possible to preferably at annular The second gas channel in move, thus preferably carry out gas flow optimized.

The action of baffle mechanism can trigger at least through following two mode:

1) by the motion triggers of tubular woven fabric itself: baffle mechanism 5 is arranged at distance center pipe First distance of the air inlet of 3, and make the initial position of baffle mechanism 5 be set to and central canal The outer wall of 3 is the first angle, when tubular woven fabric 1 transmits to the first distance, and tubular woven fabric can lead to Excess pressure acts on baffle mechanism, and the angle between baffle mechanism and the outer wall of central canal is increased Greatly, thus cause the second gas channel current rate reduce even zero so that tubular is knitted The other end of thing is inhaled in the first gas channel.

Use this kind of mode to be advantageous in that, need not additionally increase testing agency and Electronic Control knot Structures etc., the air-flow change relying on tubular woven fabric self to complete gas channel controls so that overall knot Structure is more simplified, and cost is relatively low.This kind of mode is the most perpendicular at central canal 3 and transmission channel 2 Best results in the case of arranging, because baffle plate machine can preferably be triggered by action of gravity The motion of structure.

2) testing agency and controlling organization is coordinated to complete the control to gas channel: the first gas flow optimized Mechanism can also include Fabric Detection device and blocking mechanism controller.

Wherein, Fabric Detection device, for detecting the tubular woven fabric relative position with central canal.Fabric Detector can be realized passing through pressure sensing by non-contact sensors such as such as photoelectric detectors The touch sensor such as device or travel switch realizes.

Blocking mechanism controller, for the relative position detected according to Fabric Detection device, controls gas Flow resistance retaining device performs to close or hinder the operation of the airflow of the second gas channel.Further, Blocking mechanism controller can be specifically for: when Fabric Detection device detects that tubular woven fabric has been inserted in After the first distance predetermined on central canal, control airflow-resistive mechanism and close or hinder the second air-flow to lead to The airflow in road；When Fabric Detection device detects that tubular woven fabric is inhaled into the most in whole or in part After the first gas channel, control the airflow-resistive mechanism releases airflow to the second gas channel Closedown or obstruction.Wherein, this blocking mechanism controller can electrically connect with Fabric Detection device or Wireless connections etc..

The first above-mentioned distance can as the case may be depending on, can select at tubular woven fabric is big Length when part has been enclosed within central canal is set as the first distance (four of such as tubular woven fabric / tri-), so that it is guaranteed that tubular woven fabric can the most inside and outside overturn.

Embodiment four

As shown in Figure 10 and Figure 11, it is the processing means of tubular woven fabric of the embodiment of the present invention four Structural representation, the processing means of the present embodiment includes: for transmitting the transmission of tubular woven fabric 1 Pipeline 2, be arranged at the central canal 3 among transmission pipeline 2, in transmission pipeline 2 formed gas The blower fan 4 of stream and central canal controlling organization.

Being partially provided with nozzle structure 25 at transmission pipeline 2, nozzle structure 25 has passage gradually The first flow outlet portion 252 that the first airstream inlet section 251 reduced and passage are gradually increased.

Central canal 3 be internally formed the first gas channel 21, the outer wall of central canal 3 and transmission pipeline The inwall of 2 forms the second gas channel 22.Wherein, the concrete structure of central canal 3 can use State the exemplary structure shown in embodiment two.

Central canal controlling organization moves forward and backward along transmission channel 2 for control centre's pipe 3, center The moving range of the air inlet of pipe 3 at least includes whole transfer tubes of the first flow outlet portion 252 Road or fractional transmission pipeline.This central canal 3 i.e. moves to the first flow outlet portion 252 to I haven't seen you for ages, Owing to the structure of jet pipe is along being diminishing from the point of view of the rightabout of air-flow, therefore, towards this When first flow outlet portion 252 moves, the current rate of the second gas channel 22 can be caused to reduce, When direction away from this first flow outlet portion 252 is moved on the contrary, the second air-flow can be caused The current rate of passage 22 increases, additionally, during central canal 3 moves, due to central canal 3 air inlets own and internal cross-sectional area the most do not change, the gas of the first gas channel 21 There is not significant change in intensity of flow.Based on this situation, the first gas channel 21 and second can be caused Form more significantly current rate difference between gas channel 22, and this species diversity can along with in The movement of heart pipe 3 changes a lot, and difference and the change of this air-flow also result in generation Suction changes, such that it is able to tubular woven fabric is produced certain effect, thus it is possible to vary tubular is knitted The form of thing or kinestate etc..

Specifically, for realizing the turning operation of tubular woven fabric, central canal controlling organization It is mainly used in being moved forward and backward along transmission channel by control centre's pipe, makes central canal from tubular woven fabric One end penetrate the first distance, then the other end of tubular woven fabric is sucked by the air inlet of central canal, And after making tubular woven fabric pass through central canal, export transmission pipeline from the air outlet of central canal.

Wherein, above-mentioned central canal controlling organization may include that Fabric Detection device, knits for detection The relative position of thing and central canal, specifically, Fabric Detection device can be by such as photoelectric detector etc. Non-contact sensor realizes passing through the touch sensor such as pressure transducer or travel switch Realize；First central canal controller, for relative position being detected according to Fabric Detection device, controls The movement of central canal.This first central canal controller can electrically connect or wireless with Fabric Detection device Connect.

In embodiment, for form or the change of kinestate of tubular woven fabric, mainly rely on The motor control of central canal is realized.Wherein, for realize grasping the upset of tubular woven fabric For work, the first central canal controller can realize especially by following control operation, central canal Controlled motor process can include following two processes:

One of process: when Fabric Detection device detects that tubular woven fabric 1 has been enclosed within central canal 3 After one distance, control centre's pipe moves second distance towards nozzle structure 25 direction, and central canal 3 moves Position before Dong can as shown in Figure 10, and the position after moving can be as shown in figure 11.

Wherein, the exemplary illustration that the first above-mentioned distance is referred in embodiment three is determined, Depending on above-mentioned second distance can also be according to practical situation, main principle be move to second away from From rear, it is possible to ensure that the air-flow produced between the first gas channel 21 and the second gas channel 22 is inhaled The difference of power enables to tubular woven fabric 1 and is inhaled in the first gas channel 21, as second distance Extreme position can centered by the air inlet of pipe move to the first airstream inlet section of nozzle structure 251 and first flow outlet portion 252 intersection or transition portion, when the air intake of central canal 3 When mouth moves to this extreme position, the current rate in the second gas channel 22 is minimum, and suction is also It is minimum, so that the air-flow between the first gas channel 21 and the second gas channel 22 is inhaled Power difference is maximum.

After the control completing one of said process operates, tubular woven fabric is by whole or in part It is drawn among the first gas channel of central canal.

Needing exist for explanation, the nozzle structure 25 of the embodiment of the present invention can use from the first gas Inflow entrance part 251 is directly changed to the structure of the first flow outlet portion 252, i.e. nozzle structure The sectional area of 25 is first gradually reduced and is gradually increased centre the most again and does not has transition portion.It addition, jet pipe Structure 25 can also use to have and be connected to the first airstream inlet section 251 and the first air stream outlet portion The structure of the transition portion between points 252, the sectional area of this transition portion does not changes, but this mistake Cross part and be difficult to long.

The two of process: when Fabric Detection device detects that tubular woven fabric is inhaled into the most in whole or in part After the first gas channel 21, original position return by control centre's pipe.

After completing the control of two of said process operation, during tubular woven fabric is fully imbibed into The first gas channel in heart pipe is transmitted, or exports rear from central canal air outlet In continuous transmission pipeline.

The most preferably, the sectional area of the air inlet of central canal 3 cuts more than the minimum of nozzle structure 25 Area, such is designed to so that when central canal moves towards nozzle structure 25, it is possible to make The current rate of the second gas channel 22 reduces more obvious, and there is an extreme position can Make the current rate vanishing of the second gas channel 22 such that it is able to advantageously in tubular woven fabric Inside and outside turning operation.

Additionally, as above-described embodiment, transmission pipeline 2 and central canal 3 are the most vertically arranged, So can advantageously in the transmission of tubular woven fabric 1, and can assist real by gravity itself Existing certain operations etc..

Embodiment five

As shown in Figure 12 and Figure 13, it is the processing means of tubular woven fabric of the embodiment of the present invention five Structural representation, the difference of the present embodiment and embodiment one is second gas of the present embodiment Flow control mechanism is for carrying out gas flow optimized for the gas channel at the air outlet of central canal 3, i.e. The first gas channel and/or the current rate of the second gas channel near the air outlet of central canal 3 are entered Row controls to realize processing the different operation of tubular woven fabric 1.Such as, by reasonably controlling Can realize as prior art is wanted the inside and outside turning operation realized, or realize tubular woven fabric Carrying out certain stretching, compression or other shaping operation, concrete operation can be based on the present invention The structure that embodiment provides, and by airflow control mechanism, the control flexibly of air-flow is realized.This Inventive embodiments will focus on the operation of the process inside and outside to be overturn by tubular woven fabric carry out for example Describe in detail.

Furthermore, it is necessary to explanation is in the present embodiment, the gas channel master at the air outlet of central canal The flow area of the first gas channel that the air outlet of central canal to be referred to is corresponding and/or the second air-flow lead to The first gas that the plane at the annular peripheral frame place of the air outlet of the flow area in road, i.e. central canal is corresponding The flow area of circulation road and/or the flow area of the second gas channel.Air outlet due to central canal The flow area at place is the first gas channel and the original position of the second gas channel, to this part Gas channel is controlled can be more efficiently with accurately to the first gas channel and/or the second gas The current rate of circulation road is controlled, additionally, from the point of view of the transmission path of tubular woven fabric, this position Putting during tubular woven fabric is nested on central canal, the distance of distance tubular woven fabric is farthest, from Without stopping to tubular woven fabric.

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.

Further, in the present embodiment, the second airflow control mechanism can include for controlling the First stopcock mechanism of the switch of one gas channel 21 and/or for controlling the second gas channel Second stopcock mechanism of the switch of 22.By above-mentioned the first stopcock mechanism and/or first The single movement of stopcock mechanism or combinative movement, can be to the first gas channel 21 and/or second The current rate of gas channel 22 is controlled, so that the first gas channel and the second gas Current rate between circulation road produces difference, thus causes the suction to tubular woven fabric to produce difference, Such that it is able to tubular woven fabric is carried out various operation.

Specifically, by the first stopcock mechanism and the switch motion of the second stopcock mechanism, The first gas channel 21 in central canal 3 and the second gas channel 22 can be carried out opening and closing operations, Such as, before, the first air-flow is made to lead to when tubular woven fabric 1 is not enclosed within the first distance on central canal 3 Road 21 is closed the second gas channel 22 and is opened, and such tubular woven fabric 1 is mainly led to by the second air-flow The suction in road 22 such that it is able to be enclosed within more swimmingly on central canal 3, and when tubular woven fabric set On central canal 3 after first distance, then the first gas channel 21 is made to open the second gas channel 22 Close so that tubular woven fabric 1 is mainly by the suction of the first gas channel 21, thus tubular is knitted One end not also being enclosed within central canal of thing is drawn in central canal, thus realizes inside and outside rotary movement.

Additionally, the second airflow control mechanism can also specifically include the air outlet of centrally disposed pipe 3 The first catch mechanism 6 that can rotate along the cross section at gas channel place at place, the first catch mechanism 6 Center of rotation be arranged on the air outlet of central canal 3.In view of the first gas channel 21 and the second gas Circulation road 22 be the cross section of coaxial configuration and gas channel the most in one plane, by air-out Mouth cross section, place arranges the first catch mechanism 6, it is possible to switch neatly the first gas channel 21 He Second gas channel 22 is controlled, as shown in FIG., owing to the center of rotation of catch is arranged on out At air port, most of rotation process of the first catch mechanism 6 can cause one of them gas channel Current rate increases and the current rate of another gas channel reduces, it is possible to by a block machine Structure controls two gas channels, and the suction of the first gas channel and the second gas channel changes It is contrary, contributes to producing bigger pressure differential at short notice, thus beneficially tubular woven fabric Inside and outside turning operation.

Further, the first catch mechanism 6 can include multiple laminated structure, multiple laminated structures Can rotate between the first turned position and the second turned position, in the first rotational position, many Individual laminated structure covers the air outlet of central canal 3, in the second rotational position, multiple laminated structures At least partly cover the second gas channel 22.

Additionally, similar to the above embodiments, the action of the first catch mechanism 6 can pass through detector Coordinating controller to trigger, specifically, the second airflow control mechanism can also include:

Fabric Detection device, for detecting the tubular woven fabric relative position with central canal；

First catch mechanics controller, for relative position being detected according to Fabric Detection device, controls The rotation of the first catch mechanism.

Wherein, the concrete control operation performed by the first catch mechanics controller can be:

When Fabric Detection device detects that tubular woven fabric 1 has been enclosed within central canal 3 after first distance, Control the first catch mechanism 6 open the first gas channel 21 and at least partly cover the second gas channel 22；

When Fabric Detection device detects that tubular woven fabric 1 is inhaled into the first gas the most in whole or in part After circulation road 21, control the first catch mechanism 6 and cover the first gas channel 21 and open the second gas Circulation road 22.

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.

Embodiment six

As shown in Figure 14 to Figure 17, it is the processing means of tubular woven fabric of the embodiment of the present invention six Structural representation, the present embodiment is with the difference of embodiment one: the 3rd of the present embodiment Airflow control mechanism is for controlling the current rate of the second gas channel 22.The present embodiment the 3rd air-flow Controlling organization may include that the first block mechanism 7 on centrally disposed pipe 3 outer wall and arranges The second block mechanism 8 on transmission channel 2 inwall, the first block mechanism 7 and the second block mechanism The relative position of 8 is variable.Above-mentioned first block mechanism 7 and the relative motion of the second block mechanism 8 Can realize at least through following two mode:

(1) as shown in Figure 14 and Figure 15, the first block mechanism and/or the second block mechanism self can With movement:

First block mechanism 7 can be along central canal 3 is movable and/or the second block mechanism 8 can edge Transmission channel 2 to move forward and backward, and the first block mechanism 7 and the second block mechanism 8 can be First relative position (as shown in Figure 15) position relative with second (as shown in Figure 14) it Between carry out relative motion.Such as: can be at the outer wall of central canal 3 and the inwall of transmission channel 2 On chute is set, the first block mechanism 7 and the second block mechanism 8 are respectively slidably installed On the outer wall of central canal 3 and the inwall of transmission channel 2.

In above-mentioned first relative position, the first block mechanism 7 and the second block mechanism 8 at least portion (shown in Figure 15, property illustrates that situation is for completely obscures second point to cover the second gas channel 22 Gas channel 22), in the second relative position, the first block mechanism 7 and the second block mechanism 8 make Second gas channel 22 at least partly turns on (as shown in figure 14), in above-mentioned first relative position The current rate of the second corresponding gas channel 22 is less than second gas corresponding in the second relative position The current rate of circulation road 22.

By the first block mechanism 7 with the second block mechanism 8 in above-mentioned first relative position and Two moving relative to position, it is possible to control the current rate of the second gas channel 22, so that first The difference producing current rate between gas channel 21 and the second gas channel 22 changes., when When one block mechanism 7 is near the second relative position with the second block mechanism 8, the second air-flow leads to Current rate in road 22 is the strongest, with the current rate in the first gas channel and the first gas channel In current rate difference little, therefore, tubular woven fabric 1 can normally along transmission pipeline 2 to Lower transmission, and it is enclosed within the outside of central canal 3, when the first block mechanism 7 and the second block mechanism 8 When being in primary importance, when the current rate of the second gas channel 22 diminishes, the first air-flow is caused to lead to Obvious current rate is produced poor, such that it is able to realization will between road 21 and the second gas channel 22 Tubular woven fabric 1 is sucked in central canal 3, and the first gas channel from central canal 3 further Transmit in 21.In actual applications, can be according to actual tubular woven fabric and the spy of surrounding Point, the current rate between two gas channels of Reasonable adjustment is poor (difference of the suction of generation), with Realize the suction of tubular woven fabric, the difference of concrete current rate, can be by the first block mechanism 7 It is adjusted to certain relative position with the second block mechanism 8 and realizes.The most preferably, When needs suck tubular woven fabric, directly by the first block mechanism and the second block institutional adjustment to such as Shown in Figure 15 first position relatively, thus close the second gas channel so that tubular woven fabric is only subject to The suction of the first gas channel in central canal, enters in central canal.

Additionally, the 3rd airflow control mechanism can also include that Fabric Detection device and block mechanism control Device.

Block mechanism controller, for relative position being detected according to Fabric Detection device, controls first Block mechanism and the second block mechanism carry out phase between the first relative position and the second relative position To motion.This blocking mechanism controller can electrically connect with Fabric Detection device or wireless connections etc..

Above-mentioned block mechanism controller specifically for: when Fabric Detection device detects that tubular woven fabric is After being enclosed within central canal the first distance, control the first block mechanism and the second block mechanism from second Position relatively moves to the first relative position.When Fabric Detection device detects that tubular woven fabric is whole Or after part is inhaled into the first gas channel, control the first block mechanism and the second block machine Structure returns to the second relative position.

The first above-mentioned distance can as the case may be depending on, can select at tubular woven fabric is big Length when part has been enclosed within central canal is set as the first distance (four of such as tubular woven fabric / tri-), so that it is guaranteed that tubular woven fabric can the most inside and outside overturn.(2) such as Figure 16 and Figure 17 Shown in, the first block mechanism and the second block mechanism maintain static self, by the shifting of central canal Dynamic drive the first block mechanism 7 moves:

First block mechanism 7 is fixedly installed on central canal 3 outer wall, and the second block mechanism 8 is fixed Being arranged on transmission channel 2 inwall, central canal 3 can move forward and backward along transmission channel 2, from And drive the first block 7 to move.

Specifically, nozzle structure 25, nozzle structure 25 can be provided with in the local of transmission pipeline 2 There is diminishing first airstream inlet section 251 of passage and the first air-flow that passage is gradually increased Exit portion 252, the moving range of the air inlet of central canal 3 at least includes the first flow outlet portion Whole transmission pipelines 2 of 252 or fractional transmission pipeline 2, at the mobile model of the air inlet of central canal 3 In enclosing, when the air inlet of central canal 3 moves near the 3rd of the first airstream inlet section 251 During position (as shown in figure 17), the first block mechanism 7 and the second block mechanism 8 are in the first phase To position, when the air inlet of central canal 3 moves to farthest away from the of the first airstream inlet section 251 During four positions, the first block mechanism 7 is in the second relative position (such as figure with the second block mechanism 8 Shown in 16), in the first relative position, the first block mechanism 7 and the second block mechanism 8 at least portion Divide and cover the second gas channel 22, in the second relative position, the first block mechanism 7 and second gear Block mechanism 8 makes the second gas channel 22 at least partly turn on, the first relative position corresponding The current rate of two gas channels 22 is less than second gas channel 22 corresponding in the second relative position Current rate.

Additionally, the 3rd airflow control mechanism can also include Fabric Detection device and the second center management and control Device processed.

Second central canal controller, for detecting relative position according to Fabric Detection device, in control Moving between the 3rd position and the 4th position of heart pipe.This blocking mechanism controller can be with fabric Detector electrical connection or wireless connections etc..

Above-mentioned second central canal controller can be specifically for: when Fabric Detection device detects that tubular is knitted Thing has been enclosed within central canal after the first distance, and control centre's pipe moves to the 3rd position.Work as fabric After detector detects that tubular woven fabric is inhaled into the first gas channel the most in whole or in part, control Central canal processed moves to the 4th position.

Additionally, above-mentioned central canal 3 can include opening part 31, pipe body part 32 and pipe afterbody Points 33, the pipeline of opening part 31 from one end of pipe body part 32 to the air inlet of central canal 3 by The taper type of tapered little formation opening part 31, the pipeline of pipe afterbody door 33 is from pipe body part 32 The other end is gradually reduced the taper type forming pipe portion 33 to the air outlet of central canal 3.

Embodiment seven

As shown in Figure 18 and Figure 19, it is the processing means of tubular woven fabric of the embodiment of the present invention five Structural representation.The processing means of the present embodiment includes: for transmitting the transmission of tubular woven fabric 1 Pipeline 2, be arranged at the central canal 3 among transmission pipeline 2, in transmission pipeline 2 formed gas The blower fan 4 of stream and central canal controlling organization.

Central canal 3 be internally formed the first gas channel 21, the outer wall of central canal and transmission pipeline 2 Inwall form the second gas channel 22.

Central canal controlling organization moves forward and backward along transmission channel 2 for control centre's pipe 3, center The moving range of the air inlet of pipe 3 at least includes whole transfer tubes of the first flow outlet portion 252 Road 22 or fractional transmission pipeline 22, and at the air outlet of central canal 3 or the first air-flow lead to Road 21 is internal, is provided with for adjusting the first air-flow of current rate in the first gas channel 21 logical Road guiding mechanism.

Wherein, the first gas channel guiding mechanism specifically for the air outlet for central canal 3 at Gas channel carries out gas flow optimized.First gas channel guiding mechanism is equally used for controlling the first air-flow The current rate of passage 21, to realize processing the different operation of tubular woven fabric 1.Such as, logical Cross and reasonably control can realize as prior art is wanted the inside and outside turning operation realized, or real Tubular woven fabric now carries out certain stretching, compression or other shaping operation, and concrete operation can With the structure provided based on the embodiment of the present invention, and by the first gas channel guiding mechanism to air-flow Control flexibly realize.The embodiment of the present invention will focus on inside and outside overturn by tubular woven fabric Process operation be described in detail for example.

Wherein, above-mentioned first gas channel guiding mechanism can be included at the air outlet of central canal 3 Being provided with the second catch mechanism 9, the center of rotation of the second catch mechanism 9 is arranged at going out of central canal 3 On air port.The throughput at air outlet can be controlled by the rotation of the second catch mechanism 9, thus Control the current rate of the first gas channel.Second catch mechanism 9 is completely enclosed firmly as shown in figure 18 The air outlet of central canal 3, so that the current rate in the first gas channel is zero, and such as schemes Shown in 19, the second catch mechanism 9 is in full open position, so that in the first gas channel Current rate maximum.By the second catch mechanism 9 in two shown in Figure 18 and Figure 19 position Between motion, the current rate in the first gas channel can be adjusted.

Wherein, above-mentioned central canal controlling organization may include that Fabric Detection device, is used for detecting cylinder The relative position of shape fabric and central canal, specifically, Fabric Detection device can be by such as Photoelectric Detection The non-contact sensors such as device realize to be passed by the contact such as pressure transducer or travel switch Sensor realizes；First central canal controller, for relative position being detected according to Fabric Detection device, The movement of control centre's pipe.This first central canal controller can electrically connect with Fabric Detection device or Wireless connections etc..Above-mentioned processing means can also include: the first gas channel guiding mechanism controller, For relative position being detected according to Fabric Detection device, control the first gas channel guiding mechanism and adjust Current rate in first gas channel.This first gas channel guiding mechanism controller can be with fabric Detector electrical connection or wireless connections etc..

In the present embodiment, for form or the change of kinestate of tubular woven fabric, mainly depend on Lean on the motor control to central canal and the first gas channel guiding mechanism to gas in the first gas channel The adjustment of intensity of flow realizes.Wherein, for realizing the turning operation of tubular woven fabric, First central canal controller and the first gas channel guiding mechanism can be especially by controlling behaviour as follows Making to realize, concrete control situation is as follows:

First central canal controller controls as follows: when Fabric Detection device detects tubular woven fabric 1 After being enclosed within central canal 3 first distance, the first central canal controller control centre pipe 3 towards Second distance is moved in nozzle structure 25 direction.Position before central canal 3 moves can be such as Figure 18 Shown in, the position after moving can be as shown in figure 19.When Fabric Detection device detects tubular woven fabric After all leaving the first gas channel 21, the first central canal controller control centre pipe 3 is return in situ Put.

Correspondingly, the first gas channel guiding mechanism controller controls as follows when Fabric Detection device After detecting that tubular woven fabric 1 has been enclosed within central canal 3 first distance, control the first gas channel 21 guiding mechanisms increase the current rate in the first gas channel 21；When Fabric Detection device detects cylinder After shape fabric 1 all leaves the first gas channel 21, control the first gas channel guiding mechanism and reduce Current rate in first gas channel 21.

Wherein, the air-flow of the second corresponding after central canal 3 moves second distance gas channel 22 is strong Degree is in the current rate of the second gas channel 22 corresponding to original position less than central canal.

By joining of the first above-mentioned central canal controller and the first gas channel guiding mechanism controller Close and control, it is possible to more favorably accomplish the operation of upset tubular woven fabric.

Wherein, the exemplary illustration that the first above-mentioned distance is referred in embodiment three is determined, Depending on above-mentioned second distance can also be according to practical situation, main principle be move to second away from From rear, it is possible to ensure that the air-flow produced between the first gas channel 21 and the second gas channel 22 is inhaled The difference of power enables to tubular woven fabric 1 and is inhaled in the first gas channel 21, as second distance Extreme position can centered by the air inlet of pipe 3 move to the first air flow inlet of nozzle structure 25 Part 251 and the intersection of the first flow outlet portion 252 or transition portion, when central canal 3 Air inlet when moving to this extreme position, the current rate in the second gas channel 22 is minimum, Suction is also minimum, so that between the first gas channel 21 and the second gas channel 22 Air-flow suction difference is maximum.

The most preferably, the sectional area of the air inlet of central canal 3 cuts more than the minimum of nozzle structure 25 Area, such is designed to so that when central canal 3 moves towards nozzle structure 25, it is possible to make The current rate obtaining the second gas channel 22 reduces more obvious, and there is an extreme position energy Enough make the current rate vanishing of the second gas channel 22 such that it is able to advantageously knit in tubular The inside and outside turning operation of thing 1.

It should be noted that above-mentioned central canal 3 can include opening part 31 and pipe body part 32, The pipeline of opening part 31 is gradually reduced from one end of pipe body part 32 to the air inlet of central canal 3 Forming taper type, the air outlet of central canal 3 is arranged at the other end of pipe body part 32.

As the another kind of optional embodiment of above-mentioned central canal, central canal 3 includes opening part 31, pipe body part 32 and pipe portion 33, the pipeline of opening part 31 is from pipe body part 32 One end is gradually reduced the taper type forming opening part 31, pipe afterbody door to the air inlet of central canal 3 The pipeline of 33 is gradually reduced formation pipe tail from the other end of pipe body part 32 to the air outlet of central canal 3 The taper type of part 33.

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.

Last it is noted that various embodiments above is only in order to illustrate technical scheme, and Non-to its restriction；Although the present invention being described in detail with reference to foregoing embodiments, ability The those of ordinary skill in territory is it is understood that it still can be to the technology described in foregoing embodiments Scheme is modified, or the most some or all of technical characteristic is carried out equivalent；And this A little amendments or replacement, do not make the essence of appropriate technical solution depart from various embodiments of the present invention technology The scope of scheme.

Claims

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 is formed blower fan and the central canal controlling organization of air-flow,

Processing means the most according to claim 1, it is characterised in that described central canal controls Mechanism includes:

Fabric Detection device, for detecting the described tubular woven fabric relative position with described central canal；

First central canal controller, for relative position being detected according to described Fabric Detection device, control Make the movement of described central canal；

Described processing means also includes:

First gas channel guiding mechanism controller, for detecting phase according to described Fabric Detection device To position, control described first gas channel guiding mechanism and adjust air-flow in described first gas channel Intensity.

Processing means the most according to claim 2, it is characterised in that described first central canal Controller specifically for:

When described Fabric Detection device detects that described tubular woven fabric has been enclosed within described central canal first After Ju Li, described first central canal controller controls described central canal towards described nozzle structure direction Mobile second distance；When described Fabric Detection device detects that described tubular woven fabric all leaves described After one gas channel, described first central canal controller controls described central canal and returns original position；

Described first gas channel guiding mechanism controller specifically for:

When described Fabric Detection device detects that described tubular woven fabric has been enclosed within described central canal first After Ju Li, control described first gas channel guiding mechanism and increase the gas in described first gas channel Intensity of flow；When described Fabric Detection device detects that described tubular woven fabric all leaves described first air-flow After passage, control described first gas channel guiding mechanism and reduce the gas in described first gas channel Intensity of flow.

Processing means the most according to claim 3, it is characterised in that mobile described second Current rate apart from the second gas channel of rear correspondence is in described original position less than described central canal The current rate of the second corresponding gas channel.

Processing means the most according to claim 1, it is characterised in that entering of described central canal The sectional area in air port is more than the minimum sectional area of described nozzle structure.

Processing means the most according to claim 1, it is characterised in that the first gas channel is adjusted Complete machine structure is included at the air outlet of described central canal and is provided with the second catch mechanism, described second gear The center of rotation of sheet mechanism is arranged on the air outlet of described central canal.

Processing means the most according to claim 1, it is characterised in that

Described central canal includes opening part and pipe body part, and the pipeline of described opening part is from described One end of pipe body part is gradually reduced formation taper type, described center to the air inlet of described central canal The air outlet of pipe 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 and Described central canal is vertically arranged.