CN1990938A - Sizing machine - Google Patents

Abstract

The present invention relates to a sizing machine that performs sizing by passing warp threads to which sizing solution has been applied through a pair of cylindrical squeeze rollers, thereby squeezing the sizing solution from the warp threads by means of squeezing effect of the squeeze rollers. The sizing machine includes a cylindrical size supplying device. The size supplying device supplies sizing solution either to a circumferential surface of the roller that is located above the warp threads passing through between the pair of rollers or to an upper side of the warp threads located upstream of the rollers. The size supplying device has discharge holes for discharging the sizing solution. Each discharge hole is formed as a slit that extends along an axial direction of the size supplying device.

Description

Sizing machines

Technical field

The present invention relates to a kind of Sizing machines, this machine makes the warp thread that has applied slurries pass a pair of compression roller, by the squeezing effect of compression roller slurries is pushed to come out and finish starching from warp thread thus.

Background technology

Traditionally, the Sizing machines of known type all is that warp thread is immersed in the sizing groove that is called as stock tank, make then warp thread between a pair of compression roller through being squeezed so that slurries are pushed from warp thread.In this Sizing machines, because the slurries in the stock tank stick on the warp thread, so the quantity of slurries reduces, stock tank need replenish slurries.When the liquid surface at slurries formed serous coat, this film also can stick on the warp thread.Transfer to stoving process if adhered to the warp thread of serous coat, to such an extent as to serous coat will hardening make adjacent warp thread bonding mutually under this condition.When separating, the warp thread bonding by serous coat may disconnect.Therefore, need avoid the formation of this serous coat.

Publication number is that the Japan of No.6-34394 has verified with novel and discloses a kind of equipment that prevents that this serous coat from forming.This equipment makes the slurries overflow therefore to form flowing of slurries at liquid surface to replenish slurries greater than the speed of taking out slurries from stock tank in stock tank thus.Yet, the stagnation of slurries may take place in the vertical wall of stock tank and the liquid surface zone of immersing the slurries between the bottom squeeze roller in the slurries.These parts stagnating may form serous coat.

Publication number is the Japan of No.1-22380 a kind of equipment that comprises top spare roll and bottom applicator roll of having examined patent disclosure.This equipment imposes on slurries on the warp thread of process between spare roll and applicator roll.In this equipment, coating roll contacts with the circumferential surface of bottom applicator roll, and the slurries nozzle is sprayed onto slurries on the circumferential surface of coating roll.The slurries that are deposited on the coating roll circumferential surface are transferred on the circumferential surface of bottom applicator roll.After transferring on the circumferential surface of bottom applicator roll, on the extruded threads between the circumferential surface of the circumferential surface of bottom applicator roll and top spare roll, slurries are deposited on the warp thread.Because this structure does not need stock tank, the Japan that is unlike in publication number and is No.6-34394 has verified with disclosed sizing equipment in novel such, therefore can not cause in the liquid surface of slurries because stagnate the problem of bringing.

Yet, examined in the patent in the disclosed equipment with the structure on the circumferential surface of the slurries that are deposited on the circumferential surface of coating roll being transferred to the bottom applicator roll in the Japan that as publication number is No.1-22380, be difficult to the slurries of suitable quantity are supplied with the bottom applicator roll equably, that is to say, be difficult to warp thread is applied equably the slurries of suitable quantity.

Summary of the invention

Therefore, the object of the present invention is to provide a kind of Sizing machines, it can apply the slurries of right quantity equably to warp thread.

According to an aspect of the present invention, provide a kind of Sizing machines, it makes the warp thread that has applied slurries pass a pair of compression roller, by the squeezing effect of compression roller slurries is pushed to come out and finish starching from warp thread thus.This Sizing machines comprises columniform slurries feed element, and it is located at slurries or supply the circumferential surface of roller of the top of the warp thread that passes between a pair of compression roller, perhaps supplies with to be positioned at this upside to the warp thread of compression roller upstream.

Description of drawings

Fig. 1 is a schematic diagram, has shown Sizing machines according to an embodiment of the invention;

Fig. 2 A is the longitudinal cross-section view that shows the slurries supply arrangement;

Fig. 2 B is the side cross-sectional view that shows the slurries supply arrangement; And

Fig. 3 is the plane that shows the slurries supply arrangement.

The specific embodiment

With reference now to accompanying drawing, 1-3 introduces one embodiment of the present of invention.At first, introduce Sizing machines 1.

As shown in Figure 1, this Sizing machines 1 has the stock tank 11 that is used for temporarily storing slurries N.Heating tube 12 is arranged in this stock tank 11.The steam of predetermined temperature infeeds the inside of this heating tube 12 from steam supply source 13.The steam that supplies to heating tube 12 inside heats slurries N in stock tank 11, so that slurries N can hardening.Adjusting is fed to the quantity and the temperature of the steam of heating tube 12 from steam supply source 13, so that the temperature of slurries N is in the temperature range that needs, such as being between 90-95 ℃ that comprises end points in the stock tank 11.

This stock tank 11 is connected on the slurries source of supply 14, and the latter stores the slurries N that will be fed to this stock tank 11.The amount of slurries N in stock tank 11 descends or is lower than some, and this slurries source of supply 14 is supplied with this stock tank 11 with slurries N.Especially, this slurries source of supply 14 is connected to stock tank 11 by valve 15.This valve 15 is controlled by controller C.This controller C is connected on the liquid level sensor 16 of horizontal plane of the liquid level N1 that is used for detecting slurries N in the stock tank 11.This controller C receives the information from the horizontal plane of the liquid level of liquid level sensor 16, and the opening of coming control valve 15 based on the horizontal plane information of this liquid level.Especially, when the horizontal plane of the liquid level N1 of the slurries N in this stock tank 11 drops to when being lower than predetermined level, this controller C control valve 15 is opened.Thus, from slurries source of supply 14 slurries N is infeeded stock tank 11.

The horizontal plane of the liquid level N1 of slurries N in stock tank 11 arrives or surpasses predetermined horizontal plane, and controller C control valve 15 is closed.Therefore, stop supply from the slurries N of slurries source of supply 14.The horizontal plane of the liquid level N1 of slurries N remains on certain scope thus in the stock tank 11.

Carrier pipe 17 is connected on the diapire 111 of this stock tank 11.These carrier pipe 17 branches become first arm 171 and second arm 172.This first arm 171 is connected to the first slurries supply arrangement 21, and this second arm 172 is connected to the second slurries supply arrangement 22.This slurries supply arrangement 21,22 all is columniform (tubular).Carrier pipe 17 has pump 18 between the component of the diapire 111 of stock tank 11 and first arm 171 and second arm 172.This pump 18 is pressed into this first slurries supply arrangement 21 and the second slurries supply arrangement 22 by carrier pipe 17 with the slurries N in the stock tank 11.

As Fig. 2 A, 2B and shown in Figure 3, all be formed with tap 24 on the circumferential wall of each in first, second slurries supply arrangement 21,22.After being pressed into this slurries supply arrangement 21,22, these slurries N discharges from tap 24.These slurries N is pressed into the inside of each slurries supply arrangement 21,22 by the two ends longitudinally (as the left end and the right-hand member of Fig. 3 demonstration) of this slurries supply arrangement 21,22.

First compression roller of a pair of vertical placement to 31,32 be positioned at this first slurries supply arrangement 21 under.This first compression roller is to the 31, the 32nd, and is columniform and extend along vertical (axially) of this first slurries supply arrangement 21.This first compression roller 31 is placed on the top of first compression roller 32.

Second compression roller of a pair of vertical placement to 33,34 be positioned at this second slurries supply arrangement 22 under.This second compression roller is to the 33, the 34th, and is columniform and extend along vertical (axially) of this second slurries supply arrangement 22.This second compression roller 33 is placed on the top of second compression roller 34.

Shown in Fig. 1 and Fig. 2 A, the tap 24 of each slurries supply arrangement 21,22 all is in scope S1, the S2, this scope when vertically seeing from the top of upper compressive roller 31,33 to descending one 1/4 cycle.That is to say, the tap 24 of each slurries supply arrangement 21,22, when vertically seeing, be in from the top 312 of respective press roll 31,33,332 in the scope of the position of leaving 312,332 1 1/4 cycles of this top place along direction of rotation R1 (border K1, the K2 between first circle and second circle just).

Should be to first compression roller 31,32 and should each forms warp thread piece to all tightly pushing a large amount of warp thread T to second compression roller 33,34.Just, a large amount of warp thread T are formed between this first compression roller 31,32 and the thread layer that passes between this second compression roller 33,34.These upper compressive roller 31,33 controlled direction rotations (counterclockwise) along arrow R1, these bottom compression roller 32,34 controlled direction rotations (clockwise) along arrow Q1.

The circumferential surface 321 of the circumferential surface 311 of top first compression roller 31 and bottom first compression roller 32 is keeping H1 place, position extruding warp thread T, and wherein circumferential surface 311,321 is keeping H1 place, position relative.The transfer path of warp thread T extends at the tangent line that keeps H1 place, position along the circumferential surface 311,321 of compression roller 31,32.The circumferential surface 341 of the circumferential surface 331 of top second compression roller 33 and bottom second compression roller 34 is keeping H2 place, position extruding warp thread T, and wherein circumferential surface 331,341 is keeping H2 place, position relative.The transfer path of warp thread T extends at the tangent line that keeps H2 place, position along the circumferential surface 331,341 of compression roller 33,34.

Slurries receiver 35 be positioned at compression roller 31,32,33,34 under.The diapire 351 of this slurries receiver 35 is to lower recess.This diapire 351 is in and compression roller 32,34 discontiguous positions.Recovery tube 36 is connected to the foot of diapire 351.This recovery tube 36 extends to the stock tank 11 that is positioned at these slurries receiver 35 belows.The horizontal plane that is fed to the liquid level of the slurries N this stock tank 11 from slurries source of supply 14 is lower than this slurries receiver 35.

Next, introduce the method that slurries N is imposed on warp thread T.

Compression roller 31,32,33,34 begins rotation when pump 18 is activated, and the slurries N in the stock tank 11 is pressed into this slurries supply arrangement 21,22 by pump 18.The flowing velocity that supplies to the slurries N in the slurries supply arrangement 21,22 can easily be regulated, and for example regulates by the rotary speed of regulating pump 18.

After being pressed into this slurries supply arrangement 21,22 as the slurries feed element, slurries N is discharged into the outside by tap 24.The slurries N that discharges by tap 24 infeeds among scope S1, the S2 in 1/4 cycle of sinking of this upper compressive roller 31,33.Descend scope S3, the S4 of sinking half period (as shown in Figure 1) of this compression roller 31,33 of the liquid film of slurries N.These slurries N is deposited on the warp thread T that keeps position H1, H2 place.A part that keeps H1 place, position to be deposited on the slurries N on the warp thread T is squeezed out warp thread T by compression roller 31,32.A part that keeps H2 place, position to be deposited on the slurries N on the warp thread T is squeezed out warp thread T by compression roller 33,34.

The slurries N that squeezes out warp thread T falls in scope U1, the U2 in 1/2 cycle of sinking of bottom compression roller 32,34.Just, as shown in Figure 1, the slurries N that is squeezed out warp thread T falls to the foot 322,342 of the circumferential surface 321,341 of compression roller 32,34 from keeping position H1, H2.When 32,34 rotations of bottom compression roller, the interior slurries N of scope U1, U2 that falls into 1/2 cycle of sinking of bottom compression roller 32,34 is moved toward maintenance position H1, H2.Slurries N is deposited on the warp thread T then.By this way, slurries N is deposited on the upper surface and lower surface of warp thread T.Therefore, compare with the conventional art of only applying slurries for warp thread T by the bottom compression roller, the permeability that imposes on the slurries N of warp thread T strengthens.

A part that falls into the slurries N in scope U1, the U2 in 1/2 cycle of sinking of bottom compression roller 32,34 is dropped on the inner wall surface 352 of diapire 351 of slurries receiver 35.Slurries N on this inner wall surface 352 can not be deposited on the bottom compression roller 32,34.Just, bottom compression roller 32,34 can not pick up the slurries N that drops on the inner wall surface 352.The inner wall surface 352 of the diapire 351 of slurries receiver 35, it is positioned at discord compression roller 32,34 contacted positions, bottom, is used for receiving the slurries N that drips from compression roller 31-34 as receiving the position.In operating process, just under any operating condition, this inner wall surface 352 always is in discord compression roller 32,34 contacted positions.In other words, always this inner wall surface 352 is positioned at discord compression roller 32,34 contacted positions, no matter the running speed of this Sizing machines 1 is how, just no matter the peripheral speed of this compression roller 31-34 how.These slurries N that falls on the inner wall surface 352 of slurries receiver 35 is recovered and turns back to stock tank 11 by recovery tube 36.

These slurries N that is recovered and turns back to stock tank 11 is admitted to slurries supply arrangement 21,22 again by pump 18.This stock tank 11, carrier pipe 17 and pump 18 play the effect of back-flow component, are used for the slurries N that slurries receiver 35 receives is transported to slurries supply arrangement 21,22.After passing between this second compression roller 33,34, warp thread T is dried by the baker (not shown), reels by coiling position (not shown) then.

The tap 24 that forms has the shape that allows slurries N evenly to supply with warp thread T.Introduce this tap 24 now.

As shown in Figure 3, this tap 24 is formed on each slurries supply arrangement 21,22, extend along vertical (axially) of slurries supply arrangement 21,22, just, vertical (axially) of compression roller 31-34.Each tap 24 forms one to have along the slit than long side surface of the longitudinal extension of slurries supply arrangement 21,22.And each tap 24 has the uniform width width of the direction longitudinally of tap 24 (in other words, perpendicular to) along the circumferencial direction of slurries supply arrangement 21,22.Just, each tap 24 all has the shape of slit (rectangle), its in plane along the longitudinal extension of slurries supply arrangement 21,22.

Coupling part 25 is arranged in each tap 24 with predetermined spacing (being 25mm in this embodiment).This coupling part 25 remains on uniform numerical value with the width of tap 24 (along the width of the circumferencial direction of this slurries feeding mechanism 21,22).Just, if each tap 24 is replaced by the continuous slit along the longitudinal extension of slurries supply arrangement 21,22, then because form the physical property of the material of this slurries supply arrangement 21,22, the width of this slit can remain on uniform numerical value hardly.Yet by coupling part 25 is provided, the internal stress that can avoid the slurries in the slurries supply arrangement 21,22 to produce changes the width of each tap 24.Along slurries supply arrangement 21,22 longitudinally the length of each coupling part 25 be significantly smaller than spacing between the coupling part 25 (being 25mm in this embodiment).In this embodiment, along slurries supply arrangement 21,22 longitudinally the length of each coupling part 25 are 2mm.

In addition, each in the slurries supply arrangement 21,22 all has two taps 24 along the circumferential direction arranging.

As shown in Figure 3, all arrange vertically replacing of each slurries supply arrangement 21,22 with respect to the coupling part 25 of other tap 24 coupling part 25 of each tap 24.Just, with respect to each slurries supply arrangement 21,22 vertically, 25 positions that are provided with tap 24 are not provided with coupling part 25 in other tap 24 in the coupling part.In other words, coupling part 25 is so arranged, so that in any longitudinally given area along each slurries supply arrangement 21,22, wherein tap 24 extends along this zone, and at least one position that is used to discharge slurries N is arranged on circumference.So, all sites longitudinally along each slurries supply arrangement 21,22 all discharges slurries N.

This slurries supply arrangement 21,22 is so arranged, so that this tap 24 is parallel to the longitudinal extension of compression roller 31,32,33,34.Just, tap 24 is set, makes described vertical direction of advance perpendicular to warp thread T.Each tap 24 in length longitudinally all greater than the width of the yarn sheet that forms by a large amount of arrangement warp thread T.

Introduce the function of tap 24 now.

Be pressed into after the slurries supply arrangement 21,22, slurries N is discharged into the outside from slurries tap 24.This tap 24 extends axially along slurries supply arrangement 21,22, and the width of tap 24 keeps by coupling part 25.Therefore, the slurries N that discharges from tap 24 forms the film with uniform thickness.

Coupling part 25 vertically is arranged alternately in two taps 24 each slurries supply arrangement 21,22.The length of the coupling part longitudinally 25 of each slurries supply arrangement 21,22 is very short.Each slurries supply arrangement 21,22 longitudinally roughly discharges slurries N thus equably.This has been avoided slurries N to be supplied with warp thread T unevenly.Just, avoided slurries N cracking.

This embodiment has the following advantages.

(1) because tap 24 is along the extending axially of slurries supply arrangement 21,22, therefore the amount of the slurries N that discharges from tap 24 axially is uniform along this slurries supply arrangement 21,22 (and this compression roller 31-34).So warp thread T is evenly applied slurries N.Because this slurries supply arrangement 21,22 is supplied with the circumferential surface 311,331 of the compression roller 31,33 be positioned at warp thread T top with slurries N, warp thread T is applied in an amount of slurries N.Therefore, an amount of slurries N is evenly supplied with warp thread T.

By slurries supply arrangement 21,22 slurries N is fed to the circumferential surface of compression roller 31,33 and slurries N is imposed on warp thread T.Compare with warp thread is immersed in the slurries that are stored in traditional stock tank, this warp thread T is not easy to fracture.This is that the concentration of slurries and viscosity may change based on the position of warp thread, and the deposition of slurries may change thus because if slurries are applied in to warp thread by dipping warp thread in the slurries in being stored in stock tank.Opposite, because slurries N is evenly imposed on the circumferential surface 311,331 of compression roller 31,33 from slurries supply arrangement 21,22, slurries N imposes on warp thread T then, and the deposition of slurries N remains on favourable numerical value.When warp thread was submerged in the slurries that are stored in the stock tank, the reason why deposition can change was considered to be to be difficult to suitably control the deposition of slurries.

Opposite, the amount that is deposited on the slurries N on the warp thread T in the present embodiment can be regulated by the supply that changes the slurries N in the slurries supply arrangement 21,22.And the structure of tap 24 allows slurries N evenly to be imposed on warp thread T.The deposition of slurries N on the warp thread T is set to favourable and uniform level thus.Can generate the yarn of fracture thus hardly.

Being used for correctly setting the slurry flow rate that is applied to the slurries N on the warp thread T can easily regulate, for example by regulating the rotating speed of pump 18.And because slurries N is deposited on the upper surface and lower surface of warp thread T, the permeability that enters the slurries N of warp thread T is improved.The tubercle zone that this has increased in the middle of the fiber that forms warp thread T has reduced the quantity of broken yarn in the loom thus.

Each all has coupling part 25 in (2) the first and second slurries supply arrangements 21,22, and its width with tap 24 remains on uniform numerical value.The width of avoiding this tap 24 is owing to the internal stress that generates in the slurries supply arrangement 21,22 is changed.Therefore, each slurries supply arrangement 21 is all along the slurries N that vertically discharges all amount of tap 24.

(3) each slurries supply arrangement 21,22 vertically, the coupling part 25 of each tap 24 all is arranged alternately with respect to the coupling part 25 of other tap 24.Just, each coupling part 25 in a tap 24 vertically all is positioned at same position this slurries supply arrangement 21,22, as any coupling part in other tap 24.Thus, all parts longitudinally along each slurries supply arrangement 21,22 can discharge slurries N.Thereby each slurries supply arrangement 21,22 longitudinally roughly discharges slurries N uniformly.

(4) scope S1, the S2 in 1/4 cycle of sinking are positioned on the upper compressive roller 31,33, and it descends warp thread when compression roller 31,33 rotations.Slurries N from slurries supply arrangement 21,22 is received scope S1, the S2 in 1/4 cycle of sinking of warp thread decline by this.The slurries N that scope S1, the S2 in 1/4 cycle of sinking receives is keeping arriving warp thread T reliably near position H1, the H2.Scope S1, the S2 in 1/4 cycle of sinking helps the slurries from the right quantity of slurries supply arrangement 21,22 are applied on the warp thread T.

(5) warp thread T is held in and keeps H1 place, position, and the circumferential surface 311 of last compression roller 31 is relative herein with the circumferential surface 321 of following compression roller 32.Warp thread T also is held in and keeps H2 place, position, and the circumferential surface 331 of last compression roller 33 is relative herein with the circumferential surface 341 of following compression roller 34.The transfer path of warp thread T extends along the tangent line of the circumferential surface 311,321 that keeps H1 place, position, and extends along the tangent line of the circumferential surface 331,341 that keeps H2 place, position.Just, warp thread T does not pass with not being bent and keeps position H1, H2.This structure makes warp thread T can pass maintenance position H1, H2 and need not crooked warp thread T simultaneously, to reduce the quantity of warp thread T crooked position, alleviates thus because crooked infringement to warp thread T.

(6) the slurries N that falls into slurries receiver 35 can not rest on slurries receiver 35, but flows to stock tank 11.Compare with the stock tank (slurries case) in the prior art, this slurries receiver 35 that does not store slurries N has simple more structure.And the amount of the slurries of use has also reduced.

(7) in traditional Sizing machines, when Sizing machines must stop, warp thread being immersed in the slurries of stock tank, just, so that warp thread stops when mobile, slurries can hardening near the maintenance position of a pair of compression roller when the rotation that stops compression roller.This can form the vestige of hard stock liquid.Opposite, in this embodiment, when Sizing machines is shut down, can be by prevent to keep the slurries N hardening of position H1, H2 from slurries supply arrangement 21,22 slurries without interruption.Therefore, Sizing machines downtime can be greater than the downtime in the prior art.This has improved the security such as the process of broken yarn method.

The embodiment of above-mentioned introduction can followingly revise.

In the above-described embodiments, slurries receiver 35 be positioned at compression roller 31-34 under.Yet, this slurries receiver can, stock tank 11 can be positioned at compression roller 31-34 under.In this case, stop to be fed to slurries N the stock tank 11, so that the horizontal plane of the liquid level of slurries N need further be lower than compression roller 32,34 down with setting in the stock tank, so that compression roller 32,34 can not dip in and do not get slurries N down from slurries source of supply 14.In this case, liquid level N1 plays the function that receives the position.

In the embodiment that shows, single pump 18 is used for slurries N is pressed into this first slurries supply arrangement 21 and this second slurries supply arrangement 22.Yet, also can provide two pumps 18 so that each pump 18 all is used to slurries N is pressed among in the slurries supply arrangement 21,22 one.In this structure, by changing the rotary speed of each pump 18, be supplied to first compression roller to the amount of 31,32 slurries N and be supplied to second compression roller can independently control to the amount of 33,34 slurries N corresponding to one of them slurries supply arrangement 21,22.In other words, be supplied to first compression roller can be different from the amount of second compression roller that be supplied to 33,34 slurries N to the amount of 31,32 slurries N.This has further improved the deposition of slurries N.

In the embodiment that shows, the circumferential surface 311,331 of the compression roller 31,33 on the top of slurries N supply compression roller 31,32,33,34.Yet slurries N also can supply with the upper surface of warp thread T in the position of last compression roller 31,33 upstreams.

Show Sizing machines 1 among the embodiment have first compression roller to 31,32 and second compression roller to 33,34.Yet this maybe should can omit second compression roller 33,34 first compression roller 31,32.

In the embodiment that shows, each slurries supply arrangement 21,22 all has two taps 24.Yet the quantity of tap 24 can change over any number.For example, tap can be 1, perhaps can be 3 or more.

In the embodiment that shows, each slurries supply arrangement 21,22 all has coupling part 25, remains on uniform numerical value with the width with tap 24.Yet,, can provide coupling part 25 as long as keep the width of tap 24.

In the embodiment that shows, the coupling part 25 in each tap 24 all is arranged alternately with respect to the coupling part 25 in the adjacent tap 24.Yet the position of coupling part 25 can change, as long as along in each slurries supply arrangement 21,22 any longitudinally given area, wherein tap 24 provides at least one position that is used to discharge slurries N along these area arrangement on circumference.

In the embodiment that shows, each slurries supply arrangement 21,22 can have the via hole that is used to discharge slurries N.Each via hole all is positioned at same axial location, be positioned at one of them coupling part 25 near.Via hole makes that undelivered a certain amount of slurries N is released owing to the existence of coupling part 25.So the thickness of the film of the slurries N that is discharged by slurries supply arrangement 21,22 is more even.

In the embodiment that shows, slurries supply arrangement 21,22 is set, so that vertically (the slurries supply arrangement 21,22 axially) of tap 24 is perpendicular to the direction of advance of warp thread T.Yet as long as tap 24 extends the whole width of the yarn sheet of a large amount of warp thread T that cover arrangement, this tap 24 can favour the direction of advance of warp thread T and extend.

Claims (9)

1, a kind of Sizing machines, this machine make the warp thread (T) that has applied slurries (N) pass the compression roller (31-34) of a pair of cylindricality, by the squeezing effect of compression roller (31-34) slurries are pushed to come out and finish starching from warp thread (T) thus, and this Sizing machines comprises:

Columniform slurries feed element (21,22), it is with slurries (N) or supply with and to be located at this circumferential surface to the roller (31,33) of the top of the warp thread that passes between the compression roller (31-34), perhaps supply with and be positioned at this upside the warp thread (T) of compression roller (31-34) upstream

This Sizing machines is characterised in that slurries feed element (21,22) has the tap (24) that is used for discharging slurries (N), and this tap (24) forms along the axially extended slit of this slurries feed element (21,22).

2, Sizing machines as claimed in claim 1 is characterized in that, the direction that the direction of advance of tap (24) edge and warp thread (T) intersects is extended.

3, Sizing machines as claimed in claim 1 or 2 is characterized in that, the width of this tap (24) is vertical perpendicular to it, and this tap (24) longitudinally has uniform width.

4, as each described Sizing machines among the claim 1-3, it is characterized in that, the width of this tap (24) is vertical perpendicular to it, wherein has coupling part (25) in this tap (24), and this coupling part (25) remain on uniform numerical value with the width of tap (24).

5, Sizing machines as claimed in claim 4, it is characterized in that, this tap is arranged on perpendicular to one in a plurality of taps (24) on the direction longitudinally, the relative slurries feed element (21 in this coupling part (25) in a tap wherein, 22) axially, be arranged in and at least one different position, coupling part (25) of other tap.

6, Sizing machines as claimed in claim 1 is characterized in that, this slurries feed element (21 is set, 22), so that slurries (N) are fed in the scope of circumferential surface of compression roller (31,33), this scope from the top to leave the position in 1/4 cycle, top along direction of rotation.

7, as each described Sizing machines among the claim 1-6, it is characterized in that, slurries receiver (35) is positioned at this below to compression roller (31-34), to receive from these slurries (N) that compression roller (31-34) is fallen, this slurries receiver (35) compression roller position contacting under discord has slurries and receives position (352).

8, Sizing machines as claimed in claim 7 is characterized in that, this slurries receiver (35) is configured to not be used for storing slurries (N), so that slurries (N) fall into the stock tank (11) that is arranged in slurries receiver (35) below.

As each described Sizing machines among the claim 1-8, it is characterized in that 9, the transfer path of warp thread (T) is defined as extending along the tangent line at the circumferential surface position of the compression roller that keeps warp thread (T).

Images