CN1203288A - Duct element for spinning machine - Google Patents
Duct element for spinning machine Download PDFInfo
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- CN1203288A CN1203288A CN 98114928 CN98114928A CN1203288A CN 1203288 A CN1203288 A CN 1203288A CN 98114928 CN98114928 CN 98114928 CN 98114928 A CN98114928 A CN 98114928A CN 1203288 A CN1203288 A CN 1203288A
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Abstract
The invention is to simplify the connecting operation of a duct and prevent from making torsion in connecting state and deviation amount in longitudinal direction larger to such extent as to interfere installation to adequate position of flute. This duct 1 is divided into a first constituent piece 2 constituting the bottom wall and a second constituent piece constituting other wall face. In the first constituent piece 2, notch parts 5a and 5b from which superposing part of the duct 1 and folding and bending part 2b of the corresponding part, and end face of folding part 2b corresponding to the notching parts 5a and 5b becomes positioning part in the longitudinal direction in the case the mutual connection of the ducts. The duct 1 is formed in taper-like shape so that the cross section gradually becomes larger from a first end part toward a second end part.
Description
The present invention relates to a kind of duct element, this duct element constitutes the part of a kind of path assembly, and this path assembly is for using in the frame that is equipped with a pneumatic clearer such as a kind of high-count fine spining machine or analog.
Generally, frame (being also referred to as fine spining machine) is equipped with a pneumatic clearer, is used for positively catching the fine hair of being exported by a drafting unit when broken end, splits to prevent the yarn that this fine hair influences unfriendly except those yarns that suffer broken end (broken yarn) split.In order to understand the present invention better, at first will describe its prior art in detail.Figure 12 is the view that a known pneumatic clearer is shown.Referring to Figure 12, each pneumatic clearer all comprises a path assembly 31 and a groove 33, this path assembly 31 is provided with to such an extent that go up and extend at the longitudinal direction of the frame direction of this plan (that is perpendicular to), and groove 33 is connected on this path assembly 31 by an air intake duct 32.Each path assembly 31 is connected on the suction box (not shown), and this suction box is arranged on the place, an end of frame.On the other hand, this groove 33 is provided with by the bottom roller 34 along a front and comprises some air entries, and these suction inlets form in the position corresponding to the yarn path, is used for each yarn partly is directed to separately roll from a drawing-off.Also know a kind of single injector formula pneumatic clearer, wherein each suction nozzle is replaced this groove corresponding to each yarn path respectively.
Generally, for the ease of the transportation and the assembling of a frame, the Rack Body of this frame is made many rack units that separate, each rack unit all has a predetermined length.Then, these rack units are transported to the spinning workshop in guest room, so that be assembled into a frame by these rack units are grouped together.For this reason, will need seven or eight duct elements to build a path assembly, this path component placement is at a side place of a frame of a frame, and this frame is all laid 200 yarns in each side and splited.However, still be high for transporting the required expense of these duct elements, because their volume is very big.In these cases, Japanese Unexamined Patent Publication No N0.9-5 3766 (JP-A-9-53766) proposes a kind of body structure that is used for a kind of duct element of frame, it has identical shaped plane by many and divides member to constitute, these identical shaped planes divide member to form by a kind of slab material being cut into appropriate size and shape, so that these minutes members can be piled up mutually to reduce cost of transportation.
As well-known in this technology, the frame of a frame is very long.Therefore, when the form manufacturing that all has certain-length (about 2 meters) with many each part of duct element be used for this frame the path assembly so that its when transportation a large amount of duct elements must be connected with each other.When being inserted in therebetween connecting elements by use when the interconnective method of each duct element is fit to, except must the preparation connecting elements, also require the troublesome work that each duct element and connecting elements are assembled together.Therefore, the cost of installation duct element increases widely.
On the other hand, if each is all made and has uniform wall thickness with each duct element, then have a kind of pyramidal structure by each duct element is formed, and with the smaller diameter portion of a duct element be assembled to an adjacent duct element than the work that makes sure each duct element of ease of assembly of the interconnective method of each duct element in the major diameter part.Yet, (see Figure 12 and 13) as previously mentioned, because each duct element of this path assembly all is equipped with the spill mating part 37b that extends in a longitudinal direction, so its wall thickness increases in this spill mating part 37b zone.Therefore, the smaller diameter portion of a duct element is assembled to partly causing than major diameter of adjacent duct element has a very big masterpiece to be used on this spill mating part in the intermeshing zone of each duct element, and it also causes torsion in each duct element.Even the torsion in each pass element has a very little magnitude, but in the path assembly that is made of a large amount of duct elements, it is very big that torsion just becomes.As a result, this part that utilize that air intake duct 32 is connected to groove 33 on the path assembly 31 can depart from a predetermined desirable position.
And, making the interconnective method of each duct element if use than in the major diameter part by what the smaller diameter portion with a duct element was assembled to an adjacent duct element, the characteristic when then suitably locating the path assembly is in a longitudinal direction met difficulty.More precisely, when a large amount of duct elements interconnect when departing from the longitudinal direction increased by above-mentioned assembly manipulation, the position that utilizes air intake duct 32 to be connected to the groove 33 on the path assembly 31 will move apart this predetermined desirable position.
Situation according to above-mentioned this technology, an object of the present invention is to provide a kind of duct element that improves structure that has, this duct element is fit to by using a large amount of this duct element manufacturings to be used for the path assembly of a pneumatic clearer of a frame, and can make things convenient for work or process related when these paths are connected to each other, and avoid one in the assembly of path torsion and vertically depart from a kind of like this degree that reaches so that when suitably groove in location or air current spray nozzle, do not fluctuate basically.
Because above-mentioned and other purpose will become clearly when describing, so provide a kind of duct element with an empty van shape according to general aspect of the present invention, it is configured for the part of a path assembly of a frame, thereby wherein be assembled in the second end of another adjacent duct element by the first end with a set duct element many duct elements is interconnected to constitute the path assembly.This duct element comprises a pair of minute member, and they are corresponding to the two halves of this case shape duct element.Each divides member to equip each mating part at relative place, both sides with respect to a plane, this plane is passed a center of this duct element basically and is extended, and intersect basically with two ends of this duct element with being orthogonal, can air hermetic engage when each minute, member used together with box lunch, and each localization part is used for length adjustment to the predetermined amount with overlap, and this overlap is that the first end at a duct element forms when being assembled to the second end of another duct element in the vertical.
Adopt said structure, then by meshing its mating part two branch member engages are made a duct element with hollow case shape form together, they are bubble-tight during with the work of convenient path.Each duct element interconnects by the second end that the first end with a duct element inserts another duct element.Between interconnective each duct element vertically on the length of the overlap that forms utilize localization part to adjust to a predetermined amount.When each duct element interconnects, because respectively cooperating the plane is to form with respect to a plane at relative place, both sides, this plane is passed the center extension of duct element basically and is intersected basically with the two ends of this duct element with being orthogonal, even so a power works at each office, auxiliary section torsional mode of a duct element, two duct elements have been offset torsion each other, have therefore avoided the torsion in the assembly of path.
In implementing a kind of optimal way of the present invention, each mating part can form with respect to a plane with being mutually symmetrical, and a center extension of duct element is passed on this plane basically, and intersects orthogonally basically with the two ends of this duct element.
By said structure, duct element and path assembly can be resisted torsion more reliably.
In implementing another preferred form of the present invention, this duct element can so be arranged, so that be divided into first fen member and second fen member that constitutes another wall or a plurality of walls that constitutes a diapire.
Adopt above-mentioned duct element structure, then being convenient to form each mating part is symmetrical with respect to this plane, and a center extension of duct element is passed on this plane, and intersects orthogonally with its two ends.
In implementing another other preferred embodiment of the present invention, each mating part of first fen member can the place, both sides of this first fen member vertically on form with the form of roughly U-shaped sweep with groove, therefore comprise that each mating part of second fen member of front and rear wall base section can insert therein.
Adopt above-mentioned duct element structure, then each end portion of second fen member is positioned in the opposite of each mating part of first fen member, and is assembled on first member from above with this second member.
In implementing an optimal way that also has of the present invention, two kinds of branch members are bonded together with two end portions that are press fit into first fen second fen member in the member sweep.
Therefore, the air-tightness of each mating part or joint be can guarantee, bending or joint filling operation carried out in these first and second minutes after the member and not be used in assembling.
In implementing the present invention further optimization mode, each minute the mating part of member can form with this shape so that can by with the direction of longitudinal direction quadrature of another minute member on move one of them divide member make each minute member engages together.
Because first and second fens members can engage together by simply one of them being divided member to shift to another minute member, institute becomes more convenient so that assemble the work of duct element.
In implementing another further preferred embodiment of the present invention, each localization part forms formed overlap when this part mating part interconnects corresponding to each duct element by removing a part of mating part.Therefore, each localization part can be easy to form.In addition because when connecting duct element the localization part of the adjacent duct element of the end of duct element contact, so the length of this overlap is limited to a predetermined amount.
In implementing an also further optimal way of the present invention, when each duct element being interconnected when making the path assembly, this part of a duct element that is mounted to another duct element end at least forms the tapering with a gradual change on the downstream direction of air-flow.
Therefore, interconnecting of each duct element become easily and can transport fine hair or analog reposefully, and can not catch or capture them in the office, junction surface in the assembly of path.
In addition, according to another aspect of the present invention, provide a case shape path assembly, it is made by many above-mentioned duct elements are interconnected.
Only be the preferred embodiment explanation of getting as an example below reading in conjunction with the drawings, will be more readily understood purpose, characteristics and the attendant advantages of above-mentioned other of the present invention.
Declarative procedure carries out with reference to accompanying drawing, wherein:
Fig. 1 is the perspective cutaway view, according to a kind of duct element structure of first embodiment of the invention;
Fig. 2 is the perspective view that each duct element that assembles of the present invention is shown;
Fig. 3 (a) is the partial elevation view that each duct element that is in the state of interconnecting is shown;
Fig. 3 (b) is the bottom plan view that the part of each duct element that is in the state of interconnecting is shown;
Fig. 4 is the schematic diagram that each duct element that is in the state of interconnecting is shown;
Fig. 5 is the side view according to a kind of duct element of an alternative embodiment of the invention;
Fig. 6 is the side view according to a kind of duct element of another embodiment of the present invention;
Fig. 7 is the side view according to a kind of duct element of another embodiment of the present invention;
Fig. 8 is the side view according to a kind of duct element of a further embodiment of the present invention;
Fig. 9 is the side view according to a kind of duct element of another further embodiment of the present invention;
Figure 10 is the side view according to a kind of duct element of another further embodiment of the present invention;
Figure 11 (a) is the schematic diagram that illustrates according to a kind of connection status of each duct element of an alternative embodiment of the invention;
Figure 11 (b) is the schematic diagram that illustrates according to a kind of connection status of each duct element of a further embodiment of the present invention;
Figure 12 is that side view cuts open in the office that a kind of structure of known pneumatic clearer is shown;
Figure 13 is the side view that a kind of traditional duct element is shown.
Describe each preferred embodiment of the present invention in detail now with reference to accompanying drawing.In the following description, same label is represented same or corresponding parts.In addition in the following description, should also be understood that some terms are as " left side ", " right side ", " top ", " end ", " preceding ", " back "." case shape ", " diameter " and similar terms all provide word easily, rather than constitute determinate term.Embodiment 1
Now, referring to Fig. 1-4, will describe one first embodiment of the present invention.As illustrated in fig. 1 and 2, each duct element 1 is made of a pair of minute member 2 and 3, and it is one is the shape of the sleeve pipe or the hollow case of pentagon section basically.Each all constitutes by for example crooked metallic plate with about 1mm thickness in the branch member 2 and 3, wherein first and second fens members 2 and 3 form and have this shape, make this duct element 1 quilt along a plane in two, extend to intersect orthogonally with its two ends on this plane.Duct element 1 has about 2 meters length, and is processed into taper, so that its area of section increases towards second end (left end as shown in Figure 2) gradually from first end (right-hand member as shown in Figure 2).Therefore, according to present embodiment, when the path assembly that is made of many duct elements of assembling was installed in the frame, first end of each above-mentioned duct element all was positioned at the place, downstream of air-flow, and second end all is positioned at the upstream side place of this air-flow.Difference between the diameter dimension of first and second ends of duct element 1 is basically corresponding to first fen member 2 and second fen member 3 the two wall thickness sum.As an example, if duct element locates to have the height of a diameter dimension such as 200mm at first end (right-hand member among Fig. 2), then diameter dimension or the height of locating at second end (left end among Fig. 2) will be about 202mm, as shown in Figure 4.
End part (first fen member) 2 comprises a plate part 2a, and this plate part 2a constitutes a diapire of duct element 1.Each vertical side along this plate part 2a forms a bow part 2b.More precisely, each bow partly being curved or fold, is the groove 2c of U-shaped so that form one basically, is used to hold a bottom margin part of this hood-like member 3.
Hood-like member (second fen member) 3 is made up of an antetheca 1a, roof 1c of an air intake duct fixation wall 1b and a rear wall 1d, and it forms continuously by crooked metallic plate.More precisely, antetheca 1a and rear wall 1d extend parallel to each other, and have end portion separately, and they form in one plane, and this plane is arranged essentially parallel to roof 1c and extends.Air intake duct fixation wall 1b is formed has through hole 4, is used for fixing there an air intake duct (not shown).According to the type of used pneumatic clearer, that is groove-shaped or single injector type, many such through holes with suitable dimension 4 can be set.That is to say duct element 1 energy and a groove-shaped pneumatic clearer or the coupling together of a single injector type pneumatic clearer.
Referring to Fig. 1, end part (first fen member) 5 is equipped with breach 5a and 5b at its place, two ends respectively, and the material that they remove recess sweep 2b by part forms.Be used separately as localization part 6 by each end face that forms the bow part 2b that breach 5a and 5b produced.Part base plate 2a remains between the breach 5b at the second end place that is arranged at aforementioned duct element 1, and this part base plate 2a so forms, so that its width reduces gradually towards this second extreme direction.When minute member 2 and 3 was bonded together, as shown in Figure 2, the lower end convex part 3a of the front and back of hood-like member (second element) 3 was protruding from the bow part 2b of end part (first fen member) 2 respectively.
Below, explanation will turn to the assembling of the assembly and a path assembly of above-mentioned duct element 1.When assembling duct element 1, end part (first fen member) 2 and hood-like member (second fen member) 3 are so disposed, so that two lower end convex part 3a of hood-like member 3 are positioned in the opposite of the groove 2c of end part 2, this hood-like member 3 is pressed from top to bottom thereon.As a result, two lower end convex part 3a of this hood-like member 3 are inserted into respectively among the groove 2c, and will divide member 2 and 3 to be fixed together.
On the other hand, to make a path assembly in order interconnecting, the first end part (having reduced diameter parts) of a duct element 1 to be inserted the second end part (than the major diameter part) of another duct element 1 by the duct element 1 that will form like this.In this case, as what in Fig. 3 (a) and 3 (b), can see, antetheca 1a, air intake duct fixation wall 1b, the roof 1c that duct element 1 is partly located at its first end, rear wall 1d and diapire are positioned in the inside of antetheca 1a, air intake duct fixation wall 1b, roof 1c, rear wall 1d and the diapire of another duct element 1 respectively.
Because hood-like member (second fen member) 3 is provided with the sweep of stack on its thickness direction, so the first end of a duct element 1 partly can be assembled in the second end part of another duct element 1 without any tangible difficulty.On the other hand, end part (first fen member) instrument has the bow part that is superimposed upon on its thickness direction.Therefore, if bow part 2b extends across the whole length of second fen member 2, then this bow part 2b is that the second end that the first end of a duct element 1 partly inserts another duct element 1 partly is provided with an obstacle.Yet as if the duct element of using according to this situation 1, two duct elements 1 that are joined together are equipped with breach 5a and 5b respectively in the place of the part that is connected to each other corresponding to each duct element.Because the bow part 2b at these part places has been cancelled, so work as by the large-diameter portion timesharing that diameter parts inserts another duct element that reduces with a duct element 1, the bow part 2b of end part 2 does not place obstacles.
In addition, when a duct element 1 inserts in another duct element 1, two lower end convex part 3a that are positioned at the hood-like member (second fen member) 3 that first end (downstream) of a duct element 1 locates are pressed in respectively on the localization part 6, this localization part is located to form at second end (upstream side) of the end of another duct element 1 part (first fen member) 2, and two the lower end convex part 3a of hood-like member 3 that are positioned at the second end place of a duct element 1 are pressed in respectively on the localization part 6, and this localization part 6 forms at the first end place of the end of another duct element 1 part 2.Like this, the length of overlap or part can be limited to a predetermined amount on the longitudinal direction of interconnective duct element 1.
The structure of above-mentioned duct element is enjoyed many advantages, now the effect of these advantages will be described below.
(a) when inserting another path by the diameter parts that reduces with a duct element
Partly many duct element 1 telescopiforms being interconnected of element than major diameter,
Thereby utilizing each mating part of engagement (lower end convex part 3a and bow
Each has when assembling a path assembly after the duct element of taper, in this path
Each mating part that superposes in the thickness of element 1 is mutual superposition not.Therefore, because
A power is not that torsion-type acts on this duct element 1, so avoided each single
Torsion in the individual duct element, thereby also avoided torsion in the assembly of path.
(b) when duct element 1 interconnects, owing to be arranged on the two ends of duct element 1
The effect of the localization part 6 at place, so on the longitudinal direction of duct element 1
The length in overlap or zone can be limited to a predetermined amount, and avoids
Deviation on the longitudinal direction of interconnective duct element even as big as the harm
The desirable location that hinders groove or air current spray nozzle.
(c) can be by only a mating part (lower end convex part 3a) being assembled to
Carry out path unit very simply in another mating part (bow part 2b)
The assembling of part 1.And, divide the thickness of 3a less than recessed even work as the lower end male portion
The width of shape groove 2c, and in lower end convex part 3a and bow part
Between the 2b when gapped, when applying a negative pressure from a vacuum source (not shown)
When to the assembly of path, antetheca 1a and rear wall 1d being pushed inward, also can make the lower end protruding
Shape part 3a is pressed on the bow part 2b, and therefore can guarantee airtight
The property.
(d) when by duct element 1 inserted another duct element than small end
When big end connected many duct elements 1, localization part 6 can pass through from spill
Divide when making up on the thickness direction of duct element 1 not mutual superposition.
(e) because duct element 1 by as first fen member 2 and second fen member of end part
3 constitute, and this first fen member 2 forms diapire, and second fen member 3 forms the river in Zhejiang Province
So other wall of road element is with wherein the middle shape of antetheca 1a and rear wall 1b
Become the structure of mating part to compare, can make the inner wall surface of duct element 1 flat
, and the tack rag and the fiber that are used for flying upward remain on the middle change of path assembly
Get very difficult.
(f) because their structure that taper is arranged makes interconnecting of each duct element very square
Just.
(g) because being formed, an end of duct element 1 has one towards this path group
So the tapering that the downstream direction of part reduces gradually is when mutual with each duct element
Connection can be carried fine hair or analog when constituting the path assembly reposefully, and
Can not be booked in the office, junction surface in the assembly of path or capture.
The invention is not restricted to the foregoing description, but also can as described belowly implement.Embodiment 2
One second embodiment of the present invention is illustrated with reference to Fig. 5.According to this second embodiment, below not inserting second fen member under the situation of convex part 3a, with having is that integrally formed each bow part 2b of first fen member (end part) of U-shaped cross-section can so form basically, so that the width gap at the top section place of this bow part 2b is less than the thickness of lower end convex part 3a, and then lower end convex part 2a is press fit among the bow part 2b.In this case because each lower end convex partly inserts among each concave portions 2b, so can with first minute member (end part) 2 and second minutes member (hood-like member) 3 be bonded together really with a kind of air tight manner.Embodiment 3
As shown in Figure 6, replace this structure, wherein the structure of each mating part is such, is about to each convex of lower end and partly inserts among the groove 2c, when convex surface inwards is the surface face to face, at place, the both sides slidingtype formation counterpart 2d of first fen member 2.On the other hand, partly locate to form counterpart 3b, so that can be respectively and the mating part 2d engagement of first fen member at each rear surface of second fen member 3.Also according to the structure of present embodiment, in two parts that each counterpart 2d is removed in the end portion office of first fen member 2, the zone of these parts their stacks when connecting each duct element 1.In this case, two mating part 2d and 3b demonstrate elasticity, and first minute member (end part) 2 and second minutes member (hood-like member) 3 can by with this second minute member (hood-like member) be pressed onto assembling simply on first fen member (end part) 2 from above.Among counterpart 2d and the 3b each can also form towards outer convex surface, and they have identical with structure shown in Fig. 6 basically effect.Embodiment 4
Each mating part not necessarily is limited to respect to a shape that the plane is symmetrical, and a center extension of duct element 1 is passed on this plane basically, and intersects orthogonally basically with the two ends of duct element 1.That is to say, extend at center passing duct element basically with respect to one, and the place, both sides, opposite on a plane of intersecting orthogonally basically with the duct element two ends, dissimilar mating parts can be disposed.Fig. 7 illustrates the structure according to a kind of duct element of the fourth embodiment of the present invention.As what can see in the figure, first minute member (end part) 2 be equipped with a bow part 2b at a side place corresponding to antetheca 1a, at the opposite side place corresponding to rear wall 1d, form a kind of counterpart 2d simultaneously, this rear wall 1d representative is towards the convex arc surface of lining.On the other hand, form a lower end convex part 3a and sentence a kind of complementary curved arch shape at second fen member (hood-like member) antetheca 1a place of 3 and form a counterpart 3b at an one lower part, so as can with first minute member (end part) mating part 2d mesh.Also according to the structure of this embodiment, a part of removing each bow part 2b and counterpart 2d, these parts in two end portion offices of first fen member 2 respectively when connecting duct element 1, the area of their stacks.Duct element structure according to present embodiment obtains the advantageous effects identical with first embodiment.Embodiment 5
Each mating part not necessarily must be arranged on the place, both sides of diapire.They can be arranged on the top side and the place, bottom side of duct element 1.For example, as what can see, comprise first fen member 10 and second fen member 11 according to the duct element of this embodiment in Fig. 8, they comprise antetheca 1a, air intake duct fixation wall 1b, roof 1c and diapire 1e.Top side and place, bottom side at first fen member 10 form each sweep 10b, and this sweep 10b has groove, is used to hold the counterpart 11a of second fen member 11.Also according to the structure of this embodiment, remove the part of each the sweep 10b that forms at first fen member 10 place in two end portion offices of first fen member 10, the area of these parts their stacks when connecting each duct element 1.Structure according to the duct element of present embodiment obtains the advantageous effects identical with first embodiment.Embodiment 6
The present invention not only can obtain to use to the path assembly that is installed in two cross side places of a frame, and the path assembly that vertically is installed in a frame central place is also obtained to use.For example, Fig. 9 illustrates a duct element 1 with hexagonal cross-section, as what seen in the figure, two top sides at first fen member 7 of bottom form each sweep 7b respectively, this sweep 7b has groove 7a, be used to hold each mating part 8a of second fen member 8, and the counterpart 8a that locates in two bottom sides of second fen member 8 stretches out flatly.According to the structure of this embodiment of the present invention, the area an of part of removing each sweep 7b of this first fen member 7, these parts their stacks when connecting each duct element in two end portion offices of first fen member 7.In the present embodiment, first fen member 7 and second fen member 8 can be assemblied in the other side's inside mutually, thereby these minutes members can be packed effectively.Therefore, packing and cost of transportation can advantageously reduce.
A kind of modification as present embodiment, the counterpart 8a that is arranged on second fen each place, bottom side of member can so form downward extension, and can forming groove 7a, the sweep 7b of first fen member 7 is orientated downwards, so that hold upwardly extending counterpart 8a therein.Embodiment 7
Figure 10 illustrates a kind of duct element according to one the 7th embodiment of the present invention.Be used for first and second fens member engages each mating part together not necessarily must be arranged on the outside of this duct element.It can provide each partition part in the inside of each duct element equally, as shown in Figure 10.More precisely, each end portion of second fen member 3 is to curve inwardly, and forming each curved male part 3c, and spill mating part 9a forms at the place, both sides of first fen member 9.In this case, each spill mating part 9a does not have gap, under the situation of each mating part mutual superposition each duct element is coupled together.Therefore, when many taper duct elements being interconnected when being used to finish a path assembly, a power can work, and produces torsion with the position of each mating part or junction surface mutual superposition on its thickness direction in each single duct element.Yet, because each mating part or junction surface form with respect to a plane with being mutually symmetrical, a center extension and crossing orthogonally with two end faces of duct element of duct element is passed on this plane basically, so the power that acts on each duct element is cancelled out each other, thereby can avoid torsion in each duct element, and therefore avoided the torsion in the assembly of path.Under duct element structure situation according to this embodiment of the present invention, the longitudinal length of the overlap that forms in the time of positioner must be set be used to be limited in each duct element and separately interconnect.As this positioner, for example a brake component can form near this duct element outer surface the duct element smaller diameter end.
Many characteristics of the present invention and advantage are conspicuous from top detailed description, therefore plan to comprise that by appended claim all belong to these characteristics and the advantage of practicalness of the present invention and scope.In addition,, be easy to carry out many modifications and combination, so do not plan the present invention is restricted to above-mentioned exact configuration and operation because concerning those professionals of this technology.
As an example, duct element 1 of the present invention is not limited in any specific shape or geometric configuration.Major requirement is that duct element is hollow case or cannula-like form, and the second end that each duct element can partly insert another duct element by the first end with a set duct element partly interconnects, to constitute the path assembly.Like this, not necessarily require duct element to make taper, so that its cross-sectional area increases to second end gradually from its first end, as long as can satisfy above-mentioned requirements.As an example, duct element can be made awl in its office, both ends, and the intermediate portion has constant cross-sectional area, as shown in Figure 11 (a).On the other hand, the mid portion of duct element can be made taper, and its two end portions formation has constant cross-sectional area, as shown in Figure 11 (b).Much less, the length of duct element 1 can be shorter than or be longer than 2 meters.Application of the present invention is not limited to be used for a kind of duct element and path assembly of ring type frame.Technology of the present invention can be applicable to the path assembly used for various flier frames and other type frame frame equally.In addition, in duct element structure shown in Figure 6, each counterpart 2d and counterpart 3b can so form, so that show a kind of spring action, and this duct element can be by carrying out second fen member simply from being pressed onto first fen member.
Therefore, all suitable modifications and equivalent measure can be got back to and belong within the spirit and scope of the present invention.
Claims (9)
1. the duct element of a hollow case shape shape, it is configured for an a kind of part of path assembly of frame, wherein partly being assembled in the second end part of another adjacent duct element by one of them the first end with described each duct element interconnects many described each duct element, thereby constitute described path assembly, this duct element comprises:
The branch member (2 of a pair of two segmentations corresponding to described case shape duct element, 3), member (2 in described minute, 3) be equipped with mating part (2b, 3a) respectively at place, relative both sides with respect to a plane, this plane is passed a center of described duct element basically and is extended, and intersect orthogonally basically with the two ends of described duct element so that described minute member air hermetic is bonded together by described mating part (2a, 3b) is meshing with each other under user mode; With
Localization part (6), in assembling during described duct element, the length of an overlap that forms when being used for that one of them first end of described each duct element partly is assembled to the second end part of another duct element is transferred to a predetermined amount.
2. one kind according to the described duct element that is used for a frame of claim 1, it is characterized in that described each mating part (2b, 3a) form symmetrically with respect to a plane, a center extension and crossing orthogonally with the two ends of described duct element (1) of described duct element (1) is passed on this plane basically.
3. one kind according to the described duct element that is used for a frame of claim 1, it is characterized in that described duct element (1) is divided into one and constitutes first fen member (2) of a diapire and second fen member (3) of a formation another one wall or a plurality of walls.
4. one kind according to the described duct element that is used for a frame of claim 3, each mating part that it is characterized in that described first minute member respectively this first minute member (1) both sides sentence and have groove the form of U-shaped sweep (2b) of (2c) forms in the vertical; Described second minute member (3) each mating part constitute by the end portion (3a) of an antetheca (1a) and a rear wall (1d) respectively, they can insert described first minute member (2) the groove (2c) of U-shaped sweep (2b) in.
5. one kind according to the described duct element that is used for a frame of claim 4, it is characterized in that described second minute member (3) two end portions (3a) be press fit into respectively described first minute member (2) sweep (2b) in situation under, two branch members (2,3) are bonded together to form a duct element.
6. one kind according to the described duct element that is used for a frame of claim 1, it is characterized in that described minute member (2,3) mating part (2b, 3a) forms this shape, so that described minute member (2,3) the two can by one with described minute member (2,3) the direction of longitudinal direction quadrature in described minute member one moved with respect to another and be bonded together.
One kind require according to aforesaid right in any described duct element that is used for a frame, it is characterized in that this overlap forms with the described localization part of removing corresponding to the described mating part of overlap of that part of formation (6) when a duct element (1) telescopiform inserts another duct element.
One kind require according to aforesaid right in any described duct element that is used for a frame, it is characterized in that described duct element (1) is tapered in the vertical, so that described duct element (1) has an end sections and the larger-diameter end sections than minor diameter; Described path assembly inserts the described of another duct element by the described smaller diameter portion telescopiform with a duct element and partly constitutes than major diameter, and the end sections than minor diameter of described each duct element is positioned in the downstream of a fluid stream of described path assembly.
9. the path assembly of a hollow case shape form that is used for a frame is by being interconnected to constitute as one of them described many duct element (1) of claim 1-8.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP16442097A JPH1112861A (en) | 1997-06-20 | 1997-06-20 | Duct for spinning machine |
JP164420/97 | 1997-06-20 |
Publications (2)
Publication Number | Publication Date |
---|---|
CN1203288A true CN1203288A (en) | 1998-12-30 |
CN1272489C CN1272489C (en) | 2006-08-30 |
Family
ID=15792814
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN 98114928 Expired - Fee Related CN1272489C (en) | 1997-06-20 | 1998-06-19 | Duct element for spinning machine |
Country Status (2)
Country | Link |
---|---|
JP (1) | JPH1112861A (en) |
CN (1) | CN1272489C (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102094266A (en) * | 2009-12-09 | 2011-06-15 | 株式会社丰田自动织机 | Air suction pipe for yarn strip bundling device for spinning device and method for manufacturing the same |
CN105798116A (en) * | 2016-04-25 | 2016-07-27 | 常州市布迪拉纺机设备有限公司 | Manufacturing method of negative pressure pipe in four-roller compact spinning drafting device |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102139821A (en) * | 2011-01-27 | 2011-08-03 | 上海交通大学 | Variable cross-section diversion air duct for automatic bobbin winder |
-
1997
- 1997-06-20 JP JP16442097A patent/JPH1112861A/en active Pending
-
1998
- 1998-06-19 CN CN 98114928 patent/CN1272489C/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102094266A (en) * | 2009-12-09 | 2011-06-15 | 株式会社丰田自动织机 | Air suction pipe for yarn strip bundling device for spinning device and method for manufacturing the same |
CN102094266B (en) * | 2009-12-09 | 2012-09-05 | 株式会社丰田自动织机 | Air suction pipe for yarn strip bundling device for spinning device and method for manufacturing the same |
CN105798116A (en) * | 2016-04-25 | 2016-07-27 | 常州市布迪拉纺机设备有限公司 | Manufacturing method of negative pressure pipe in four-roller compact spinning drafting device |
Also Published As
Publication number | Publication date |
---|---|
CN1272489C (en) | 2006-08-30 |
JPH1112861A (en) | 1999-01-19 |
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