CN102616611B - Utilize the equipment of pressure gas and liquid bond braided wire or yarn and method and the device to described supply of equipment liquid - Google Patents

Abstract

The present invention relates to a kind of device for supplying liquid to the equipment utilizing pressure gas and liquid bond braided wire or yarn, comprise: link room, braided wire to be linked or the termination of yarn can insert wherein and at least one pipe ends of compressed gas supplying and liquid wherein; Introduce the valve of pressure gas, be provided with input port and at least one delivery port, also comprise: the cylinder-shaped body of inner hollow and be limited to wherein and be provided with the supply room of the input port being associated with fluid supply, and be limited to wherein and the input port being provided with at least one efferent being associated with described valve be associated with the collection and the blending box that pressure gas and liquid are fed to the output port of the pipeline linking room; Piston, is provided with to the chamber of opening, cylinder-shaped body inside, is contained in hermetically in cylinder-shaped body, axially movablely alternately controls between filling position and releasing position.The invention still further relates to the equipment utilizing pressure gas and liquid bond braided wire or yarn comprising this device.

Description

Utilize the equipment of pressure gas and liquid bond braided wire or yarn and method and the device to described supply of equipment liquid

Technical field

The present invention relates to a kind of device for supplying liquid to the equipment utilizing pressure gas and liquid bond braided wire or yarn.

The present invention relates to a kind of equipment and the method for the utilizing pressure gas and liquid bond braided wire or yarn that comprise this device for supplying liquid.

Background technology

Known weaving loom (particularly spiral filament forming machine or automatic coil winding machine) is provided with some workstations, each workstation is provided with the device for linking braided wire or yarn, be suitable in this device busy process when because of the unexpected damaged of faulty section or specially remove and interrupt or even interrupt due to the using up of spool of unwinding line or yarn from it when, recover its continuity.

This hookup mechanism (technical term is " machine of splicing ") realizes the pneumatic link of nothing knot of the termination of braided wire or yarn.In fact, they use pressure gas (being generally pressurized air), on the one hand as the mechanism treating link termination backtwisting by line or yarn, and on the one hand as the connect mechanism of the fiber of this termination that interweaves.

In these years, this hookup mechanism of three types merges, they are according to distinguishing over each other for the mechanism linked, and use according to the characteristic of the type of the fiber of line to be linked or yarn and yarn (such as, the type of yarn, number, termination quantity, the strand type of twisting with the fingers and degree).

In fact, the known multiple hookup mechanism as connect mechanism only uses the compound of pressurized air or hot compressed air or pressurized air and liquid (being generally water).

Particularly for the hookup mechanism of a rear type, it is generally used for linking fiber crops or cotton line or yarn, with help to improve the link obtained outward appearance and to the resistivity of tearing.

The major defect of this device utilizing pressurized air and water to link is, needs linking in room by the amount dispensing of the water together supplied with pressurized air exactly, to realize random connection operation.

In fact, on the one hand, the component of excessive water slug connected device introduced by pressurized air and the device (such as electronic control package) around these connected devices, As time goes on produce corrosion and damage phenomenon, and this just needs expensive maintenance and change to intervene.These phenomenons due to exist in working environment especially from the fiber of the line processed or yarn dust and worsen further.

On the other hand, a small amount of water can be not enough to the quality obtaining degree needed for tie line or yarn.

Propose kinds of schemes to help overcome these defects.

The first solution is the minimum water that dispensing is added in pressurized air, with formed be introduced into connected device after a while link room in compound.On this component that just can prevent connected device and around the aqueous dispersion on the device of connected device and deposition.

Such solution is described in DE3337895, and it provides the use of single valve, and this valve supplies pressurized air simultaneously and it added to the water of scheduled volume in link room.

Although which alleviates to the dispersion of water and deposit relevant corrosion and damage problem, the limitation of this scheme is, how are the line of no matter process or the type of yarn, all always and be added in pressurized air by the water of same predetermined amount consistently.But during the Change of types of online or yarn, the water of this scheduled volume may be excessive or deficiency, thus infringement links quality.

Thus, if to be added to the compressed-air actuated water yield need amendment, so just need to change whole valve, and with regard to spare components, manpower and intervention time equal cost incurred.

Alternately, more known schemes are arranged as follows: be arranged in linking room in sealably closed container before and during realization links, and are provided with for discharging the pipeline being added with the air excess being introduced into the water linking room during link operation.

Such scheme is such as described in IT1223431 or IT1316370.Connecting area and external environment condition are isolated by such scheme, thus prevent being added with the air of water and contact with the mechanical work of connected device or with other device around it; This allows the accurate ration being avoided using water to be supplied, and thus it can be determined by excessive, to process line or the yarn of any type.

Although effectively eliminate to the dispersion of the water on connected device and on its device and deposit relevant corrosion and the problem of damage, although and guarantee to realize durable joint, but this scheme also has some shortcomings, one of them has uneven outward appearance sometimes for joint, thus in cloth, produces defect.

This shortcoming comes from the following fact: when linking, line to be linked or the termination of yarn are fastened in closed container, and the length of this container can not be controlled always.

Summary of the invention

The object of the invention is to the shortcoming overcoming prior art.

Specifically, the object of the present invention is to provide a kind of for utilizing the device of the supply of equipment liquid of pressure gas and liquid bond braided wire or yarn and a kind of for utilizing the equipment of pressure gas and liquid bond braided wire or yarn, it allows to add certain liq amount to pressure gas, and this amount of liquid is variable and determine according to the volume of the pressure gas for linking and/or the type of braided wire to be linked or yarn.

Another object of the present invention is to provide a kind of device for supplying liquid to the equipment utilizing pressure gas and liquid bond braided wire or yarn and a kind of for utilizing the equipment of pressure gas and liquid bond braided wire or yarn, it can allow with simple and fast speed mode changes the amount of liquid added in pressure gas, and does not need expensive replacing intervention.

Another object of the present invention is to provide a kind of device for supplying liquid to the equipment utilizing pressure gas and liquid bond braided wire or yarn and a kind of for utilizing the equipment of pressure gas and liquid bond braided wire or yarn, it can allow the consumption of the liquid limited for linking operation.

Further object of the present invention is to provide a kind of device for supplying liquid to the equipment utilizing pressure gas and liquid bond braided wire or yarn, it is simple from the viewpoint of structure and structure, and it even can be easily installed the equipment for linking existing braided wire or yarn.

Another object of the present invention is to provide a kind of device for supplying liquid to the equipment utilizing pressure gas and liquid bond braided wire or yarn and a kind of for utilizing the equipment of pressure gas and liquid bond braided wire or yarn, it is simple especially, diverse in function, and with low cost.

These objects according to the present invention are summarized as claim 1 and 8 a kind of device for supplying liquid to the equipment utilizing pressure gas and liquid bond braided wire or yarn of typically by providing and a kind ofly to realize for utilizing the equipment of pressure gas and liquid bond braided wire or yarn.

These objects also realize for utilizing the method for pressure gas and liquid bond braided wire or yarn by summarizing as claim 16 a kind of.

Further feature is provided by dependent claims.

Accompanying drawing explanation

According to referring to the exemplary of accompanying drawing and nonrestrictive description, should be more obvious according to the device for supplying liquid to the equipment utilizing pressure gas and liquid bond braided wire or yarn of the present invention and the feature and advantage for the equipment and method that utilize pressure gas and liquid bond braided wire or yarn.Wherein:

Fig. 1 is for utilizing the block diagram of the equipment of pressure gas and liquid bond braided wire or yarn according to of the present invention;

Fig. 2 A and Fig. 2 B is the lateral plan of the equipment of the Fig. 1 not having sidepiece closure wall;

Fig. 3 is the front view of the equipment of Fig. 1;

Fig. 4 is the cross-sectional plane intercepted along the planar I V-IV of Fig. 3;

Fig. 5 A and Fig. 5 B illustrate be in two diverse locations according to of the present invention for the vertical section utilizing pressure gas to link the device of the supply of equipment liquid of braided wire or yarn;

Fig. 5 C illustrates the cross-sectional plane of the device of Fig. 5 A;

Fig. 6 A and Fig. 6 B illustrate have two heteroid according to of the present invention for the vertical section of alternate embodiment of device of supply of equipment liquid utilizing pressure gas and liquid bond braided wire or yarn;

Fig. 7 schematically shows a part for the automatic coil winding machine being provided with multiple workstation;

Fig. 8 schematically shows the workstation of the wire coiling machine of Fig. 7.

Detailed description of the invention

With reference to accompanying drawing, for being represented by Reference numeral 10 on the whole to the device utilizing the equipment 11 of pressure gas and liquid bond braided wire or yarn to supply liquid.

With reference to Fig. 7 and Fig. 8, that first it schematically show known type and be provided with the part of the automatic coil winding machine 200 of multiple workstation I to V.The computer-controlled electronic unit represented by Reference numeral 201 is on the whole arranged on the foremost of automatic coil winding machine 200, utilizes this computer-controlled electronic unit, can be set up for the control mechanism and parts thereof operating automatic coil winding machine 200 and distribute.

The each workstation schematically shown in Fig. 8 consists essentially of: spool 210, and line to be spooled or yarn get loose from this spool 210; Detecting device 202, term of art is " scrubber ", is suitable for controlling continuity and state, particularly controls increase or the fault section of the line got loose by the spool 210 or yarn that may occur, and is cut at the fault location detected; And reel 203, line or yarn are wound on reel 203 and reel 203 is rotated by cylinder or drum 204.

Each workstation is provided with equipment 11, when being ruptured or in order to when eliminating the interruption caused by the fault section detected by scrubber 202 and the cutting performed or when using up at spool 210 or change, equipment 11 is for linking the line or yarn that are just processing by unexpected.

Be respectively used to search and capture reel reach the standard grade or the termination of the termination of yarn and the bottom line of spool or yarn two of being introduced in equipment 11 swing and introduce arms 205 and 206 and cooperate with equipment 11, with two terminations of tie line or yarn.

Because automatic coil winding machine 200 and single workstation I to V are known type, thus hereinafter will be described no longer further.

Referring to figs. 1 through Fig. 3, be illustrated for the equipment 11 utilizing pressure gas (being generally air) and liquid (being generally water) to make two terminations of line or yarn link without knot.

Equipment 11 comprises matrix 12, is limited with the compartment V closed by the sidewall 13 (not shown in Figure 2) of removable type in this matrix 12.

Head 14 is fixed to the top of matrix 12, and head 14 is provided with and links room 15, is provided with longitudinal slit 16 at an upper portion thereof, and described longitudinal slit 16 is opened for being introduced wherein (Fig. 4) termination of line to be linked or yarn at opposite end.

Cover 17 is arranged on swing arm 18, and with after introducing wherein by the termination of line to be linked or yarn and before and during link operation, temporary enclosed links room 15.

Linking every one end place of room 15, thus compartment of terrain provide and be followed successively by: element 19, for the corresponding termination of clearance line or yarn; Preparation device 20, the line to be linked for pneumatic pretreatment or the termination of yarn; Extract bar 21, for the preparation device 20 of the termination of pretreated line or yarn from correspondence being extracted towards link room 15; Blocking device, described blocking device is provided with fixed part and movable part 23, enters link room 15 and from reel (reel) and the line of spool (volume) or the termination of yarn for locking; Cutter sweep, described cutter sweep is provided with fixed part 24 and movable part 25, for cutting the line of opposite end or the termination of yarn that leave the longitudinal slit 16 linking room 15; And reference and directing plate 26 (being represented by term " line separator " in this area), for introducing the termination linking line in room 15 or yarn, between the fixed part being suitable for the corresponding termination of line or yarn to constrain in blocking device and cutter sweep and movable part.

In the accompanying drawings, represented and be added with apostrophe by the Reference numeral corresponding with the like linking room 15 other end at the element of the appreciiable one end linking room 15 successively.

In compartment V, there is the drum cam group 27 be rotatably mounted, it passes through stepping and the electrical motor 28 of reversible rotates with both direction.Driving engine 28 is fixed from the outside to matrix 12, and it can utilize the electric pulse sent by electronic control unit 201 by remote boot server.

Drum cam group 27 comprises multiple cam rail, the motion of the removable parts of its each control convenience 11.

Specifically, with reference to Fig. 2 A and Fig. 2 B, drum cam group 27 comprises: the first cam rail 29, is positioned at head, utilizes cover 17 close and open the swing of the arm 18 linking room 15 for controlling; Second cam rail 30, for controlling at the link locking of one end, room 15 and the movable part 23 ', 25 ' of cutter sweep; 3rd cam rail 31, for controlling the valve (as mentioned below) introducing pressurized air 32; Four-cam track 33, is linking the locking of the other end and the movable part 23,25 of cutter sweep of room 15 for controlling; With the 5th last cam rail 34, for controlling the termination of line or yarn from preparation device 20 towards the bar 21 linking room 15 and extract.

For those skilled in the art can easily and directly understand, each cam rail of drum cam group 27 is crossed by corresponding cam follower, and these cam followers are correspondingly associated with the bar of the corresponding movable member for actuation device 11.

For the succinct reason described, because these elements (cam follower and actuating rod) shown in the drawings equally can by those skilled in the art easily and directly understand, therefore be described no longer in detail.

On the contrary, the connection between driving engine 28 and drum cam group 27 is the theme of the complementary patent application of the applicant.

As mentioned above, in compartment V, there is the valve for introducing pressurized air 32 of drawer type, supplying pressurized air from unshowned compressed air source to it by input port 35.

Be three-dimensional and three drawer distribution type for introducing the valve of pressurized air 32.Specifically, with reference to Fig. 4, except the passage for entering for pressurized air, valve also has: the first efferent 36, described first efferent 36 is connected to the passage 37 for supplying to device 20, and device 20 is for preparing the termination (not being shown specifically in the accompanying drawings) of line to be linked or yarn; With the second efferent 38, described second efferent 38 is arranged in matrix 12 by part and the connecting tube 39 that part is positioned at head 14 is connected to according to the device 10 for supplying liquid of the present invention.

Spool 40 for introducing the valve of pressurized air 32 can at midway location, move axially between first operating position and the second operating position, at midway location (shown in Fig. 4), first efferent 36 and the second efferent 38 unavailable, at the first operating position, first efferent 36 is placed as and is communicated with for supplying compressed-air actuated input port to preparation device 20 (with reference to Fig. 4, this position corresponds to the displacement to the right of spool 40), at the second operating position, second efferent 38 is placed as and is communicated with input port, described input port is used for supplying pressurized air and liquid to device 10 and by device 10 to link room 15.

The motion of spool 40 is controlled by actuating rod 41, and actuating rod 41 at one end has the Liang Ge ear engaged with the opposed end of spool 40 respectively, has the cam follower engaged slidably with the 3rd cam rail 31 of drum cam group 27 in opposite end.

Actuating rod 41 connects slidably along the guide rod that the longitudinal axis (not being shown specifically in the accompanying drawings) with drum cam group 27 is parallel.

As observable in Fig. 2 A, 2B and Fig. 4,3rd cam rail 31 has Liang Ge branch 31a and 31b be separated by island 31c, based on the direction of rotation being put on drum cam group 27 by driving engine 28, island 31c alternately and optionally control valve for introducing pressurized air 32 opening at the first operating position and the second operating position, so that pressurized air is introduced towards link room 15 thus towards preparation device 20 with towards device 10 respectively.

Distinguishing characteristics of the present invention is the device 10 for supplying liquid, and it is fixed to the top of the matrix 12 of equipment 11, near head 14.

Device 10 comprises the cylinder-shaped body 100 of inner hollow, and (wherein term " cylindrical " refers to the inner chamber of described main body, and have nothing to do with its outer shape), supply room 101 is positioned at cylinder-shaped body 100, supply room 101 is provided with input port 102, and input port 102 is associated with unshowned liquid (being generally water) source by connecting portion 103.In assembling and operation structure, supply room 101 is full of the water (liquid) supplied under gravity or under pressure always.

Collection and blending box 104 are positioned at cylinder-shaped body 100, near supply room 101, and separate hermetically with supply room 101.

Collection and blending box 104 are provided with the input port 105 for pressurized air (gas), and its second efferent 38 being associated with valve in assembled configuration is to introduce pressurized air 32 by connecting tube 39.Collection and blending box 104 are also provided with the output port 106 for pressurized air and water (liquid), and it is associated with pipeline 42 and links room 15 pressurized air and water to be fed in assembled configuration.

Input port 105 is opened with both output ports 106 always and is communicated with blending box 104 with collection.

In cylinder-shaped body 100, axially slidably and accommodate piston 107 hermetically, it is provided with the chamber 108 of opening in the inside of cylinder-shaped body 100, and described chamber 108 is made up of circular groove usually.

Piston 107 is alternately controlled between filling position and releasing position, at filling position, chamber 108 is contained in supply room 101, (Fig. 5 A) is filled by water this its, in releasing position, chamber 108 is contained in collection and blending box 104, discharge this its water (Fig. 5 B) wherein held, the number of times of the alternating movement of piston 107 between filling position and releasing position is equivalent to for collecting and collecting in blending box 104 bulking value being contained in the liquid in chamber 108 needed for the water of scheduled volume.

Specifically, piston 107 remains on filling position (Fig. 5 A) by spring 109 usually, and spring 109 operates between the adjacent wall in cylinder-shaped body 100 and the end of piston 107.

From this filling position, piston 107 moves to releasing position (Fig. 5 B) by the impetus power contrary with the application force of spring 109 be applied thereto, the impetus power that the pressurized air of such as being supplied by the accessory 110 being correspondingly connected to compressed air source (not shown) is applied.

When this impetus power stops, piston 107 turns back to filling position due to the antagonistic force of spring 109.

This alternating movement of piston 107 is controlled repeatedly, to be equivalent to the bulking value for needing the water be contained in chamber 108 collecting and collect in blending box 104 water of aequum.To collect and amount needed for blending box 104 is type according to the compressed-air actuated volume supplied by introducing valve 32 and pending line or yarn and limits in advance.

Only after collection and blending box 104 have been supplied the water of aequum, valve for introducing pressurized air 32 is moved to its second operating position, at this second operating position, pressurized air by introduce valve 32 the second efferent 38, to be introduced into collection and blending box 104 by connecting tube 39 and by the input port 105 of device 10.The pressurized air introduced thus runs through collection and blending box 104, thus aspirates the water yield be present in wherein.Pressurized air and the water aspirated thus leave the output port 106 of collection and blending box 104, and they are introduced into link room 15 by supply line 42.

The control of actuating of piston 107 can be electrodynamic type or electromagnetic type (such as passing through electromagnetic valve) or mechanical type.

In the preferred embodiment that Fig. 6 A and Fig. 6 B schematically shows, provide the mechanism of the volume for regulating chamber 108, chamber 108 can enter from device 10 outside, can be regulated the volume in chamber 108 by this mechanism, particularly, chamber 108 can be made to comprise the water of whole aequum.

Therefore, in this case, piston 107 only should perform once conveying and return of stroke between filling position and releasing position.

The mechanism that this embodiment is particularly useful for control plunger 107 is in mechanical situation.

In the embodiment that Fig. 6 A and Fig. 6 B illustrates, this regulating mechanism obtains by providing the post 107 of employing two longitudinal elements 107a and 107b, and longitudinal elements 107a and 107b such as utilizes spiral marking connection to link to each other at the axial adjustable ground of corresponding connecting end.These two one of longitudinal elements 107a and 107b (longitudinal elements 107b in the accompanying drawings) have the section 111 of cross-sectional plane reduction at connecting end, and this section 111 can be inserted into the respective seat portion 112 at the connecting end place being arranged in another longitudinal elements 107a.

Therefore, the part that chamber 108 is stretched out from respective seat portion 112 by the section 111 of the cross-sectional plane with reduction limits.

The end of the longitudinal elements 107b relative with the connecting end at another longitudinal elements 107a place has the joint element 113 for manipulate tools, and this manipulate tools inserts cylinder-shaped body 100 by the opening 114 being arranged in cylinder-shaped body 100.

In Fig. 6 A and Fig. 6 B, illustrate and be in two kinds of heteroid pistons 107, to regulate the volume in chamber 108.

Can observe, the device 10 for supplying liquid according to the present invention to be separated and independent of this valve 32 with for pressurized air being introduced the valve 32 linking room 15.

With reference to accompanying drawing, below describe according to of the present invention for the operation utilizing the equipment 11 of pressure gas and liquid bond line or yarn to supply the device 10 of liquid.

First, know line or the yarn processed type, particularly its liquid absorption capacity time, and knowing that being enough to needed for restriction performs the water yield linking operation by when introducing valve 32 pressurized air of supplying in the state that the volume linked in room 15 and its are supplied.

When limiting this amount, when device 10 by can electromagnetic type mechanical actuation by separately and discretely Long-distance Control, such as determine that stroke (stroke) amount equivalent of piston 107 is in the volume in chamber 108, the volume in chamber 108 needs the water supply of limited amount in the collection and blending box 104 of device 10.

On the contrary, if once conveying and return of stroke are actuated and/or only performed between filling position and releasing position to device 10 by mechanical control mechanism, so be provided for the mechanism of the volume in the chamber 108 of adjusting piston 107, this volume utilizes this mechanism to determine size according to the water yield determined.

During the operation of automatic coil winding machine 200, if the scrubber of workstation 202 sends line that expression just processing or yarn interrupts and/or irregular signal, then electronic control unit 201 sends a series of signal, for stopping reel 203, and be enough to be picked up by swing arm 205 for reel 203 release and time period needed for the length of the line of swing arm 205 insertion apparatus 11 puts upside down the motion of drum 204.Swing arm 206 picks up the termination of the line discharged by spool 210 simultaneously and is inserted into device 11.Specifically, two terminations of line to be linked or yarn are inserted in the longitudinal slit 16 linking room 15, and stretch out from the opposed end linking room 15.

Thus, a series of signal controls the rotation of driving engine 28, and the rotation of driving engine 28 starts the link cycle.

Cover 17 utilizes arm 18 to close, and arm 18 is controlled by the first cam rail 29 by corresponding actuating rod.

Locking at the opposed end place of link room 15 and cutter sweep are actuated by the bar (not shown) of correspondence, this bar is controlled by the second cam rail 30 and four-cam track 33, room 15 and from opposite sense (is namely linked to lock respectively to enter, from reel with from spool) line or yarn, and cutting is from the termination linking line that the opposed end of room 15 stretches out or yarn.

The cutting termination of line or yarn is introduced into preparation device 20 substantially to carry out pretreatment to it; For this purpose, the first opening operation position (wherein spool 40 moves right with reference to Fig. 2 A-2B and Fig. 4) is moved to, pressurized air to be introduced the passage 37 being used for supplying to preparation device 20 for introducing compressed-air actuated valve 32 by the branch 31a of corresponding actuating rod 41 and the 3rd cam rail 31.

Introduce valve 32 and then turn back to midway location.

The termination of pretreated line or yarn is extracted, until they cover predetermined length each other from preparation device 20 towards link room 15 by extraction bar 21 that the corresponding bar controlled by the 5th cam rail 34 is actuated substantially.

Move to its second opening operation position with before pressurized air being introduced and linking room 15 introducing the second branch 31b of valve 32 by actuating rod 41 and the 3rd cam rail 31, device 10 is actuated, to supply in the water yield of collecting and set in blending box 104.

This is actuated and in the random time of the previous steps in link cycle or even can occur outside the cycle, and it such as can submit to the signal that scrubber 202 is sent to electronic control unit 201.

In each conveying of piston 107 from filling position to releasing position and return of stroke (stroke), the water be included in wherein is sent to by chamber 108 to be collected and in blending box 104, discharges water, then turn back in continuous water-filled supply room 101 this its.

Piston 107 performs repeatedly stroke, is equivalent to the volume in the chamber 108 for obtaining needed for water requirement.

When the volume in chamber 108 is adjustable type and it has been adjusted to the water comprising limited amount, piston 107 only performs one stroke.Especially, if piston 107 is mechanically controlled, so above-mentioned situation will be there is.

When introducing valve 32 moves on to its second opening operation position (with reference to Fig. 2 A-2B and Fig. 4 left), then in the collection and blending box 104 of device 10, there is the water of limited amount.

The pressurized air flowed along connecting tube 39 enters collection and blending box 104, thus runs through blending box 104 and carry the water yield that extraction wherein exists.Thus to collect and the water of the pressurized air left of blending box 104 and extraction flows along supply line 42, from supply line 42, they are introduced into link room 15, to perform the operation of the termination for tie line or yarn.

Should be noted that for introduce compressed-air actuated valve 32 can such as by special electromagnetic valve by individually and remotely actuate.

Identical introducing valve 32 can be replaced by two different introducing valves, is respectively used to pressurized air be fed to preparation device 20 and link room 15, and such as by corresponding special electromagnetic valve by individually and may remotely actuate.

Significantly, when the latter, drum cam group 27 can be different from the drum cam group shown in accompanying drawing.

More than display is described, allow according to the device for supplying liquid provided by the invention, according to the type of available compressed-air actuated volume, compressed-air actuated current state and pending line or yarn, alternatively the water of specified rate is fed to the pressurized air introduced and link room 15, thus avoid supplying excessive water, these excessive water surrounding environment of stretching can damage the component of connected device and the device around it, or these water can require to use the container be sealed shut.Meanwhile, the device for supplying liquid according to the present invention allows for the line of pending every type or yarn supply institute water requirement, to obtain required resistibility and the link of quality.When limiting this amount, be in fact enough to revise the number of strokes (particularly such as by the situation of electromagnetic valve Long-distance Control) of piston 107 and/or the volume in its chamber 108.

For to utilizing the device of the supply of equipment liquid of pressure gas and liquid bond braided wire or yarn and comprising the equipment for utilizing pressure gas and liquid bond braided wire or yarn of this device for supplying liquid, be easy to carry out various modifications and variations, these modifications and variations all fall within the scope of the present invention; And all parts can be replaced by the element of technically equivalence.In practice, the material of all uses and size can change according to technical requirements.

Claims (16)

1. one kind for utilize pressure gas and liquid bond braided wire or yarn equipment (11) supply liquid device (10), comprise; Link room (15), braided wire to be linked or the termination of yarn can be inserted in described link room (15), and terminate in described link room (15) at least one pipeline (42) of compressed gas supplying and liquid; With the valve for introducing pressure gas (32), the described valve for introducing pressure gas is provided with for the input port of described pressure gas and at least one delivery port (38), and the feature of described device is, it comprises:

The cylinder-shaped body (100) of inner hollow, it can be associated with described connected device (11), supply room (101), it is limited in described cylinder-shaped body (100) and it is provided with the input port (102) that can be associated with fluid supply, collect and blending box (104), it is limited in described cylinder-shaped body (100), and it is provided with the output port (106) for pressure gas and liquid that can be associated with the described input port for described pressure gas (105) for introducing described at least one delivery port (38) of the valve of pressure gas (32) and can be associated with described pipeline (42) for pressure gas and liquid being fed to described link room (15), and piston (107), it is provided with the chamber (108) of opening to described cylinder-shaped body (100) inside, and it is contained in described cylinder-shaped body (100) hermetically, described piston (107) is axially movable alternately to be controlled between filling position and releasing position, at described filling position, described chamber (108) is contained in described supply room (101), said chamber filling liquid, in described releasing position, described chamber (108) is contained in described collection and blending box (104), said chamber (108) discharges the liquid be contained in wherein, described piston (107) number of times of movement between filling position and releasing position is equivalent to the quantity of the volume of liquid contained by described chamber (108) required for the liquid in order to collect scheduled volume in described collection and blending box (104).

2. device according to claim 1 (10), is characterized in that, described input port (105) is opened with described output port (106) always and is communicated with blending box (104) with described collection.

3. device according to claim 1 and 2 (10), is characterized in that, described chamber (108) are limited by circular groove.

4., according to the device (10) described in aforementioned claim 1-2, it is characterized in that, described device (10) comprises the mechanism of the volume for regulating described chamber (108).

5. device according to claim 4 (10), is characterized in that, described for regulating the mechanism of the volume in described chamber (108) can get at from the outside of described device.

6. device according to claim 5 (10), it is characterized in that, described piston (107) is divided into two longitudinal elements (107a, 107b), described two longitudinal elements link to each other at the axial adjustable ground of corresponding connecting end, the connecting end of one of wherein said two longitudinal elements (107b) has the section (111) of the cross-sectional plane of reduction, this section can insert the seat portion (112) of the correspondence of the connecting end of another (107a) being arranged in described two longitudinal elements, the part that described chamber (108) is stretched out from described seat portion (112) by the described section (111) with the cross-sectional plane of reduction limits.

7. device according to claim 6 (10), it is characterized in that, described two longitudinal elements (107a, 107b) be fixed to each other, one of them can be associated with the mechanism of the motion for actuating described piston (107), another has the joint element (113) for manipulate tools at the opposed end place of described connecting end, described manipulate tools can insert described cylinder-shaped body (100) by the opening (114) being arranged in its corresponding end.

8. one kind for utilizing the equipment (11) of pressure gas and liquid bond braided wire or yarn, comprise: matrix (12), link room (15) and be associated with this matrix (12), described link room (15) can be inserted in the termination to be linked of braided wire or yarn, for at least one pipeline (42) of compressed gas supplying and liquid, it is associated with described matrix (12), and it terminates in described link room (15), for introducing the valve of pressure gas (32), it is associated with described matrix (12), and it is provided with for the input port of described pressure gas and at least one delivery port (38), with the device (10) for supplying liquid, it is suitable for adding described liquid to described pressure gas before described pressure gas is incorporated into described link room (15), it is characterized in that, the described device (10) for supplying liquid comprising: the cylinder-shaped body (100) being associated with the inner hollow of described matrix (12), supply room (101), it is limited in described cylinder-shaped body (100), and it is provided with the input port (102) that can be associated with fluid supply, collect and blending box (104), it is limited in described cylinder-shaped body (100), and it is provided with the input port (105) for described pressure gas, for output port (106) and the piston (107) of pressure gas and liquid, described input port (105) is associated with described for introducing described at least one input port (38) of the valve of pressure gas (32), described output port (106) is associated with the described pipeline (42) for pressure gas and liquid being fed to described link room (15), described piston (107) is provided with the chamber (108) of opening to described cylinder-shaped body (100) inside, and it is contained in described cylinder-shaped body (100) hermetically, described piston (107) is axially movable alternately to be controlled between filling position and releasing position, at described filling position, described chamber (108) is contained in described supply room (101), said chamber filling liquid, in described releasing position, described chamber (108) is contained in described collection and blending box (104), said chamber discharges the liquid be contained in wherein, described piston (107) number of times of movement between filling position and releasing position is equivalent to the quantity of the volume of liquid contained by described chamber (108) required for the liquid in order to collect scheduled volume in described collection and blending box (104).

9. equipment according to claim 8 (11), is characterized in that, described input port (105) is opened with described output port (106) always and is communicated with blending box (104) with described collection.

10. equipment (11) according to claim 8 or claim 9, it is characterized in that, described chamber (108) are limited by circular groove.

11. equipment (11) described according to Claim 8 in-9, it is characterized in that, described equipment comprises the mechanism of the volume for regulating described chamber (108).

12. equipment according to claim 11 (11), is characterized in that, described for regulating the mechanism of the volume in described chamber (108) can enter from the outside of described device.

13. equipment according to claim 12 (11), it is characterized in that, described piston (107) is divided into two longitudinal elements (107a, 107b), described two longitudinal elements link to each other at the axial adjustable ground of corresponding connecting end, the connecting end of one of wherein said two longitudinal elements (107b) has the section (111) of the cross-sectional plane of reduction, this section can insert the seat portion (112) of the correspondence of the connecting end of another (107a) being arranged in described two longitudinal elements, the part that described chamber (108) is stretched out from described seat portion (112) by the described section (111) with the cross-sectional plane of reduction limits.

14. equipment according to claim 13 (11), it is characterized in that, described two longitudinal elements (107a, 107b) be fixed to each other, one of them can be associated with the mechanism of the motion for actuating described piston (107), another has the joint element (113) for manipulate tools at the opposed end place of described connecting end, described manipulate tools can insert described cylinder-shaped body (100) by the opening (114) being arranged in its corresponding end.

The equipment (11) described in one 15. according to Claim 8, in 9,12,14, is characterized in that, it comprises the mechanism of the motion of the described piston (107) for actuation mechanism, electronic, electric or electromagnetic type.

16. 1 kinds, for the method utilizing equipment described according to Claim 8 to 15 to link braided wire or yarn, comprising: the step termination of line described to be linked or yarn being introduced described link room (15), be used for supplying the described collection of the device (10) of liquid and blending box (104) described in being introduced by pressure gas by the described valve for introducing pressure gas (32) and introduced the step of described link room (15) thus by described supply line (42), it is characterized in that, described method comprises: before the step of described introducing pressure gas, by repeatedly actuating the described alternating movement of described piston (107) to be equivalent to the bulking value of the liquid comprised in the described chamber for obtaining needed for described amount, the liquid of scheduled volume is introduced in described collection and blending box (104).