CN209636495U - Creel and sizing mechanism - Google Patents

Abstract

The utility model relates to a kind of creel and sizing mechanisms.The creel includes rack and opposite the first supporting element and the second supporting element in the rack, the quantity of first supporting element and the quantity of second supporting element are multiple, at least one described first supporting element and at least one described second supporting element are rotationally connected with the rack, multiple first supporting elements surround the first area Ka She jointly, multiple second supporting elements surround the second area Ka She jointly, and the both ends of warp beam can be respectively clamped into the area first Ka She and the area second Ka She.Above-mentioned creel, it is only necessary to which axis operation can be completed in a worker, easy to operate, saves time power, effectively improves production efficiency.In addition, above-mentioned creel can also be reduced in warp beam rotation process, creel is to the resistance of warp beam, and to realize, auxiliary warp is rotated during unwinding yarn, and yarn is avoided to break.

Description

Creel and sizing mechanism

Technical field

The utility model relates to technical field of textile equipment, more particularly to a kind of creel and sizing mechanism.

Background technique

Sizing is the important production process together before woven fabric, sizing yield number constrain the production capacity of woven fabric.Carry out Before sizing, need for warp beam to be hung on creel.Traditional upper axis method is two worker's cooperations, wherein a worker operation is hung Warp beam is hung to above creel by machine, and another worker holds the side disk of warp beam wherein one end, by warp beam central spindle towards the card at the end Then the collet of position alignment creel one end sticks into collet.The worker of operation loop wheel machine again drops to warp beam parallel with collet Position, another worker hold the side disk of the warp beam other end again, and the detent at warp beam central spindle towards the end is sticked into the creel other end Collet in, finally both ends collet is locked, that is, completes once upper axis operation.As it can be seen that traditional upper axis method operation is very multiple It is miscellaneous, it is time-consuming and laborious, seriously affect production efficiency.In addition, traditional creel is in warp beam rotation process to the resistance of warp beam It is larger, it is easy to cause yarn to break in sizing process.

Utility model content

Based on this, it is necessary to it is complicated for operation for axis method on traditional creel, it is time-consuming and laborious, and rotated in warp beam The problem larger to the resistance of warp beam in journey, it is easy to operate to provide a kind of upper axis, saves time power, and right in warp beam rotation process The small creel of the resistance of warp beam.

Specific technical solution is as follows:

A kind of creel, the first supporting element and the second supporting element including rack and relatively in the rack, The quantity of first supporting element and the quantity of second supporting element be it is multiple, at least one described first supporting element with And at least one described second supporting element is rotationally connected with the rack, multiple first supporting elements surround first jointly The area Ka She, multiple second supporting elements surround the second area Ka She jointly, and the both ends of warp beam can be respectively clamped into first card If area and the area second Ka She.

The quantity of first supporting element is two in one of the embodiments, between two first supporting elements Interval form the area first Ka She, the minimum range at the interval between two first supporting elements is less than the warp beam Diameter, the included angle that the line and horizontal plane of two first supporting elements are formed are 0~α, when two first supports When the line of part and the angle of horizontal plane are α, the warp beam can be caught in the area first Ka She；

And/or the quantity of second supporting element is two, described in the interval formation between two second supporting elements Second area Ka She, the minimum range at the interval between two second supporting elements is less than the diameter of the warp beam, described in two The included angle that the line and horizontal plane of second supporting element are formed is 0~α, when the line and level of two second supporting elements When the angle in face is α, the warp beam can be caught in the area second Ka She.

Two first supporting elements are located at sustained height in one of the embodiments,；And/or two described second Support member is located at sustained height.

The quantity of first supporting element is at least three in one of the embodiments, each first supporting element The area first Ka She is surrounded jointly, and the minimum interval between the first supporting element described in two of them is straight no more than the warp beam Diameter, and this two first supporting elements are located at sustained height h, the height of first supporting element of other quantity is respectively less than h, When the end of the warp beam is located at the area the first Ka She, each first supporting element is engaged with the warp beam；

And/or the quantity of second supporting element is at least three, each second supporting element surrounds described the jointly Two areas Ka She, the minimum interval between the second supporting element described in two of them are not more than the diameter of the warp beam, and two institutes It states the second supporting element and is located at sustained height h, the height of second supporting element of other quantity is respectively less than h, when the warp beam When end is located at the area the second Ka She, each second supporting element is engaged with the warp beam.

First supporting element has the first roller bearing in one of the embodiments, and first roller bearing is rotatably connected In the rack, each first roller bearing surrounds the area first Ka She jointly；Second supporting element has the second roller bearing, Second roller bearing is rotationally connected with the rack, and each second roller bearing surrounds the area second Ka She jointly.

The outer peripheral surface of the outer peripheral surface of first roller bearing and/or second roller bearing is equipped in one of the embodiments, Cushion collar.

Each first supporting element and/or each second supporting element are rotatable in one of the embodiments, It is connected to the rack.

The creel further includes the locating part in the rack, the locating part in one of the embodiments, For being limited to the warp beam.

One end of the locating part is fixed on the rack in one of the embodiments, the locating part it is another End is removably connected to the rack, and the locating part can be wound around in the warp beam to limit to the warp beam.

The utility model additionally provides a kind of sizing mechanism.

Specific technical solution is as follows:

A kind of sizing mechanism, including warp beam, quetsch, wrap-up and above-mentioned creel, the one of the warp beam End is arranged in the first area Ka She that multiple first supporting elements of the creel surround jointly, and the other end of the warp beam is arranged in The second area Ka She that multiple second supporting elements of the creel surround jointly, the quetsch are used for in the warp beam Yarn carries out starching, and the wrap-up is for winding the sizing obtained after starching.

Compared with prior art, the utility model has the following beneficial effects:

Above-mentioned creel is opposite on the rack to be equipped with the first supporting element and the second supporting element, and multiple first supporting elements are total With the first area Ka She is surrounded, multiple second supporting elements surround the second area Ka She jointly.Upper axis behaviour is being carried out to above-mentioned creel When making, worker is sling warp beam by operation loop wheel machine, and the both ends of warp beam are respectively aligned to the first area Ka She and the second area Ka She Upper axis operation is completed once in slowly decentralization afterwards.Therefore above-mentioned creel, it is only necessary to which axis operation, behaviour can be completed in a worker Make simply, to save time power, effectively improve production efficiency.In addition, at least one first supporting element and at least one second support Part is rotationally connected with the setting of rack, can reduce creel in warp beam rotation process to the resistance of warp beam, to realize in yarn Auxiliary warp rotates during line unwinding, and yarn is avoided to break.

In above-mentioned creel, the outer peripheral surface of the outer peripheral surface of the first roller bearing and second roller bearing is equipped with cushion collar. The setting of cushion collar can reduce impact of the warp beam when placing to the first roller bearing and the second roller bearing, and prolonged mechanical uses the longevity Life.

It further include locating part in above-mentioned creel.Locating part is for limiting warp beam to prevent warp beam from rotating It is slipped in journey.Further, one end of locating part is fixed in rack, and the other end of locating part is removably connected to rack, limit Position part can be sheathed in warp beam to limit to warp beam.Locating part is sheathed on the setting in warp beam to be limited to warp beam Limitation warp beam that can be more stable, prevents warp beam from slipping during rotation, and one end of locating part is fixed in rack Setting can prevent locating part from losing.

In above-mentioned creel, each first supporting element and/or each second supporting element are rotationally connected with rack, energy Enough being slidably matched traditional warp beam to be promoted to and be rotatably assorted are further reduced in warp beam rotation process creel to warp beam Resistance avoids yarn from breaking.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of creel described in an embodiment；

Fig. 2 is the partial side view of creel shown in FIG. 1；

Fig. 3 is the face the A-A ' schematic cross-section of creel shown in Fig. 2.

Description of symbols

10, creel；100, rack；200, the first supporting element；210, first connecting rod；220, the first roller bearing；300, Two supporting elements；310, the second connecting rod；320, the second roller bearing；400, locating part；500, the first locating piece；600, the second positioning Part；700, connector；20, warp beam；21, central spindle；22, side disk.

Specific embodiment

The utility model is more fully retouched below with reference to relevant drawings for the ease of understanding the utility model, It states.The preferred embodiment of the utility model is given in attached drawing.But the utility model can come in many different forms in fact It is existing, however it is not limited to embodiment described herein.On the contrary, purpose of providing these embodiments is makes public affairs to the utility model The understanding for opening content is more thorough and comprehensive.

It should be noted that it can directly on the other element when element is referred to as " being fixed on " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.

Unless otherwise defined, all technical and scientific terms used herein are led with the technology for belonging to the utility model The normally understood meaning of the technical staff in domain is identical.Terminology used in the description of the utility model herein only be The purpose of description specific embodiment, it is not intended that in limitation the utility model.Term as used herein "and/or" includes Any and all combinations of one or more related listed items.

An embodiment of the present invention is related to a kind of sizing mechanism.Above-mentioned sizing mechanism include warp beam 20, quetsch, Wrap-up and creel 10.

Shown in Figure 1, above-mentioned creel 10 includes rack 100 and opposite first for being set to 100 both ends of rack Support member 200 and the second supporting element 300.The quantity of first supporting element 200 and the quantity of the second supporting element 300 are multiple. At least one first supporting element 200 and at least one second supporting element 300 are rotationally connected with rack 100.Multiple first Supporting element 200 surrounds the first area Ka She jointly, and multiple second supporting elements 300 surround the second area Ka She, the both ends of warp beam 20 jointly The first area Ka She and the second area Ka She can be respectively clamped into.

Warp beam 20 includes central spindle 21 and two side disks 22 being sheathed in central spindle 21.The both ends of central spindle 21 protrude from respectively Two side disks 22.

21 one end of central spindle of warp beam 20 is arranged in the first area Ka She, and 21 other end of central spindle of warp beam 20 is arranged in the second card and sets Area.Quetsch is used to carry out starching to the yarn in warp beam 20, and wrap-up is for receiving the sizing obtained after starching Volume.

In a specific example, the quantity of the first supporting element 200 and the quantity of the second supporting element 300 are equal and multiple First supporting element 200 is corresponded with multiple second supporting elements 300.Above-mentioned setting can make the both ends uniform force of warp beam 20, Improve stability of the warp beam 20 on creel 10.

It can be appreciated that the quantity of the first supporting element 200 and the quantity of the second supporting element 300 may each be two, three, four It is a etc..

Specifically, when the quantity of the first supporting element 200 is two, the interval between two the first supporting elements 200 is formed First area Ka She.The minimum range at the interval between two the first supporting elements 200 is less than the diameter of warp beam 20.Two first supports The included angle that the line of part 200 and horizontal plane are formed is 0~α, when the line of two the first supporting elements 200 and the folder of horizontal plane When angle is α, warp beam 20 can be caught in the first area Ka She.When the line of two the first supporting elements 200 and the angle of horizontal plane are greater than α When, warp beam can not be caught in the first area Ka She.Namely α is critical angle, when the line and horizontal plane of two the first supporting elements 200 When angle is α, warp beam 20 can be caught in the first area Ka She, and warp beam 20 is not fallen out.When two the first supporting elements 200 line with When the angle of horizontal plane is greater than α, warp beam 20 can not be caught in the first area Ka She.And/or when the quantity of the second supporting element 300 is two When, the interval between two the second supporting elements 300 forms the second area Ka She.Interval between two the second supporting elements 300 is most Small distance is less than the diameter of warp beam 20.The included angle that the line and horizontal plane of two the second supporting elements 300 are formed is 0~α, when When the line of two the second supporting elements 300 and the angle of horizontal plane are α, warp beam 20 can be caught in the second area Ka She.When two When the line of two supporting elements 300 and the angle of horizontal plane are greater than α, warp beam can not be caught in the second area Ka She.Namely α is critical angle Degree, when the angle of the line of two the second supporting elements 300 and horizontal plane is α, warp beam 20 can be caught in the second area Ka She, warp beam 20 do not fall out.When the angle of the line of two the second supporting elements 300 and horizontal plane is greater than α, warp beam 20 can not be caught in second The area Ka She.

Preferably, two the first supporting elements 200 are located at sustained height.And/or two the second supporting elements 300 be located at it is same One height.At this point, warp beam 20 be caught in it is the most stable in the first area Ka She and/or the second area Ka She.

When the quantity of the first supporting element 200 is at least three, each first supporting element 200 surrounds the first card jointly and sets Area.Minimum interval between the first supporting element of two of them 200 is not more than the diameter of warp beam 20, and two first supporting elements 200 are located at sustained height h, and the height of the first supporting element 200 of other quantity is respectively less than h.When the end of warp beam 20 is located at first When the area Ka She, each first supporting element 200 is engaged with warp beam 20.And/or when the quantity of the second supporting element 300 is at least At three, each second supporting element 300 surrounds the second area Ka She jointly.Between minimum between the second supporting element of two of them 300 Every the diameter for being not more than warp beam 20, and this two the second supporting elements 300 are located at sustained height h, the second supporting element of other quantity 300 height is respectively less than h.When the end of warp beam 20 is located at the second area Ka She, each second supporting element 300 is connect with warp beam 20 Touching cooperation.

Referring to fig. 2 and shown in Fig. 3, in the present embodiment, the quantity of the quantity of the first supporting element 200 and the second supporting element 300 It is three.Three the first supporting elements 200 are distributed in triangular form, and each first supporting element 200 is located at each of triangle On angle.Minimum spacing of the first supporting element of two of them 200 side by side and between two the first supporting elements 200 is less than the straight of warp beam 20 Diameter.Another first supporting element 200 is located at the lower section of above-mentioned two first supporting element 200 and is located at above-mentioned two first supporting element Between 200 on the perpendicular bisector of line.Three the second supporting elements 300 are distributed in triangular form, and each second supporting element 300 is distinguished On each angle of triangle.The second supporting element of two of them 300 is side by side and between the minimum between two the second supporting elements 300 Away from the diameter for being less than warp beam 20.Another second supporting element 300 is located at the lower section of above-mentioned two second supporting element 300 and is located at upper It states between two the second supporting elements 300 on the perpendicular bisector of line.Three the second supporting elements 300 and three the first supporting elements 200 correspond.

Preferably, each first supporting element 200 and/or each second supporting element 300 are rotationally connected with rack 100. Above-mentioned setting being slidably matched traditional warp beam 20 to be promoted to and be rotatably assorted, be further reduced in 20 rotation process of warp beam Creel 10 avoids yarn from breaking the resistance of warp beam 20.

In a specific example, multiple first supporting elements 200 form one group of support group with multiple second supporting elements 300 Part.Rack 100 is equipped with multiple groups support component.The setting that rack 100 is equipped with multiple groups support component can be realized while place Multiple warp beams 20.When carrying out sizing using the creel 10, starching can be carried out to the yarn in multiple warp beams 20 simultaneously.

Further, multiple groups support component is at least divided into two rows.The each group support component of every row is both connected to rack 100 On sustained height, the support component between two adjacent rows is located at different height.Above-mentioned setting further increases creel 10 20 capacity of warp beam.

Shown in Figure 2, in a specific example, the first supporting element 200 has the first roller bearing 220.First roller bearing 220 It is rotationally connected with rack 100.Each first roller bearing 220 surrounds the first area Ka She jointly.Second supporting element 300 has the second rolling Axis 320.Second roller bearing 320 is rotationally connected with rack 100.Each second roller bearing 320 surrounds the second area Ka She jointly.It is preferred that Ground, the length of the distance between the first roller bearing 220 and second roller bearing 320 between two side disks 22 of warp beam 20 are adapted.On Stating setting enables two side disks 22 of warp beam 20 to be caught between the first roller bearing 220 and the second roller bearing 320, prevents warp beam 20 from existing It is slipped in rotation process.

Further, the first supporting element 200 also has first connecting rod 210.First connecting rod 210 is set in rack 100, First roller bearing 220 is rotationally connected with first connecting rod 210.Second supporting element 300 also has the second connecting rod 310.Second connects Extension bar 310 is set in rack 100, and the second roller bearing 320 is rotationally connected with the second connecting rod 310.Specifically, the first roller bearing 220 And second roller bearing 320 may each be bearing.

In a specific example, the second supporting element 300 is identical as the first supporting element 200.Above-mentioned setting is so that first The first area Ka She that support member 200 surrounds jointly is identical with the second area Ka She that the second supporting element 300 surrounds jointly, further Improve stability of the warp beam 20 on creel 10.

Preferably, the outer peripheral surface of the outer peripheral surface of the first roller bearing 220 and/or the second roller bearing 320 is equipped with cushion collar.Cushion collar The impact that warp beam 20 be can reduce when placing to the first roller bearing 220 and/or the second roller bearing 320 is set, and prolonged mechanical uses the longevity Life.

Shown in Figure 3, in a specific example, creel 10 further includes the locating part 400 in rack 100. Locating part 400 is for limiting warp beam 20.The setting of locating part 400 can be used in limiting warp beam 20, to prevent Warp beam 20 slips during rotation.

Preferably, one end of locating part 400 is fixed in rack 100, and the other end of locating part 400 is removably connected to machine Frame 100.Locating part 400 can be wound around in warp beam 20 to limit to warp beam 20.Locating part 400 be sheathed in warp beam 20 with The setting limited to warp beam 20 more stable can limit warp beam 20, further prevent warp beam 20 in rotation process Middle slippage, and the setting that one end of locating part 400 is fixed in rack can prevent locating part 400 from losing.Optionally, locating part 400 can be brake ribbon.

Shown in Figure 1, in a specific example, creel 10 further includes that opposite first in rack 100 is determined Position part 500 and the second locating piece 600.Multiple first supporting elements 200 are each provided on the first locating piece 500.Multiple second supports Part 300 is each provided on the second locating piece 600.The setting of first locating piece 500 and the second locating piece 600 is conducive in creel 10 The first supporting element 200 and the second supporting element 300 are positioned in production process, avoid the first supporting element 200 and second Relative position deviation between support member 300 is excessive.

Further, creel 10 further includes the connector on the first locating piece 500 and/or the second locating piece 600 700.The quantity of each first locating piece 500 or the connector 700 on each second locating piece 600 is two.Locating part 400 One end be fixed on one of connector 700, the other end detachable connection of locating part 400 is in another connector 700.

Preferably, the opposite both ends for being set to the first locating piece 500 of two connectors 700 or the both ends of the second locating piece 600. It is further preferred that two connectors 700 are in the position height on the first locating piece 500 lower than in multiple first supporting elements 200 The first supporting element 200 in extreme higher position height.Position height of two connectors 700 on the second locating piece 600 is lower than The second supporting element 300 of extreme higher position height is in multiple second supporting elements 300.Above-mentioned setting enables locating part 700 Put on the spot completely one end of warp beam 20 not position and warp beam 20 in the first area Ka She the other end not in the second area Ka She Position, it is further provided the stability in 20 rotation process of warp beam.

Above-mentioned creel 10 is opposite equipped with the first supporting element 200 and the second supporting element 300 in rack 100, multiple First supporting element 200 surrounds the first area Ka She jointly, and multiple second supporting elements 300 surround the second area Ka She jointly.To above-mentioned Creel 10 carry out axis operation when, worker by operate loop wheel machine warp beam 20 is sling, the both ends of warp beam 20 are respectively aligned to It is slowly transferred behind first area Ka She and the second area Ka She, that is, completes once upper axis operation.Therefore above-mentioned creel 10, it is only necessary to one Axis operation can be completed in a worker, easy to operate, saves time power, effectively improves production efficiency.In addition, at least one first Support member 200 and at least one second supporting element 300 are rotationally connected with the setting of rack 100, can reduce the rotation of warp beam 20 Creel 10 is to the resistance of warp beam 20 in the process, and to realize, auxiliary warp 20 is rotated during unwinding yarn, avoids yarn disconnected Line.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But it cannot be understood as the limitations to utility model patent range.It should be pointed out that for the common skill of this field For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The protection scope of the utility model.Therefore, the scope of protection shall be subject to the appended claims for the utility model patent.

Claims (10)

1. a kind of creel, which is characterized in that including rack and opposite the first supporting element in the rack and the The quantity of two supporting elements, the quantity of first supporting element and second supporting element be it is multiple, at least one described One supporting element and at least one described second supporting element are rotationally connected with the rack, and multiple first supporting elements are total With the first area Ka She is surrounded, multiple second supporting elements surround the second area Ka She jointly, and the both ends of warp beam can be respectively clamped into The area first Ka She and the area second Ka She.

2. creel according to claim 1, which is characterized in that the quantity of first supporting element is two, two institutes It states the interval between the first supporting element and forms the area first Ka She, the most narrow spacing at the interval between two first supporting elements From the diameter for being less than the warp beam, the included angle that the line and horizontal plane of two first supporting elements are formed is 0~α, when When the line of two first supporting elements and the angle of horizontal plane are α, the warp beam can be caught in the area first Ka She；

And/or the quantity of second supporting element is two, the interval between two second supporting elements forms described second The area Ka She, the minimum range at the interval between two second supporting elements are less than the diameter of the warp beam, and two described second The included angle that the line of supporting element and horizontal plane are formed is 0~α, when the line and horizontal plane of two second supporting elements When angle is α, the warp beam can be caught in the area second Ka She.

3. creel according to claim 2, which is characterized in that two first supporting elements are located at sustained height；With/ Or two second supporting elements are located at sustained height.

4. creel according to claim 1, which is characterized in that the quantity of first supporting element is at least three, respectively A first supporting element surrounds the area first Ka She jointly, and the minimum interval between the first supporting element described in two of them is not Greater than the diameter of the warp beam, and this two first supporting elements are located at sustained height h, first support of other quantity The height of part is respectively less than h, and when the end of the warp beam is located at the area the first Ka She, each first supporting element is and institute Warp beam is stated to be engaged；

And/or the quantity of second supporting element is at least three, each second supporting element surrounds second card jointly If area, minimum interval between the second supporting element described in two of them is not more than the diameter of the warp beam, and this two described the Two supporting elements are located at sustained height h, and the height of second supporting element of other quantity is respectively less than h, when the end of the warp beam When positioned at the area the second Ka She, each second supporting element is engaged with the warp beam.

5. creel described in any one according to claim 1~4, which is characterized in that first supporting element has first Roller bearing, first roller bearing are rotationally connected with the rack, and each first roller bearing surrounds the area first Ka She jointly； Second supporting element has the second roller bearing, and second roller bearing is rotationally connected with the rack, each second roller bearing The area second Ka She is surrounded jointly.

6. creel according to claim 5, which is characterized in that the outer peripheral surface of first roller bearing and/or described second The outer peripheral surface of roller bearing is equipped with cushion collar.

7. creel described in any one according to claim 1~4, which is characterized in that each first supporting element and/or Each second supporting element is rotationally connected with the rack.

8. creel described in any one according to claim 1~4, which is characterized in that the creel further includes being set to institute The locating part in rack is stated, the locating part is for limiting the warp beam.

9. creel according to claim 8, which is characterized in that one end of the locating part is fixed on the rack, The other end of the locating part is removably connected to the rack, and the locating part can be wound around in the warp beam to described Warp beam is limited.

10. a kind of sizing mechanism, which is characterized in that any including warp beam, quetsch, wrap-up and claim 1~9 Creel described in one, multiple first supporting elements that one end of the warp beam is arranged in the creel surround jointly first The area Ka She, the other end of the warp beam are arranged in the second area Ka She that multiple second supporting elements of the creel surround jointly, The quetsch is used to carry out the yarn in the warp beam starching, and the wrap-up is used for the sizing obtained after starching It is wound.