JPH02444Y2 - - Google Patents
Info
- Publication number
- JPH02444Y2 JPH02444Y2 JP14576285U JP14576285U JPH02444Y2 JP H02444 Y2 JPH02444 Y2 JP H02444Y2 JP 14576285 U JP14576285 U JP 14576285U JP 14576285 U JP14576285 U JP 14576285U JP H02444 Y2 JPH02444 Y2 JP H02444Y2
- Authority
- JP
- Japan
- Prior art keywords
- shaft
- small
- winding
- small frame
- frame
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
Links
- 238000004804 winding Methods 0.000 claims description 39
- 230000005540 biological transmission Effects 0.000 description 4
- 238000010586 diagram Methods 0.000 description 4
- 230000008878 coupling Effects 0.000 description 3
- 238000010168 coupling process Methods 0.000 description 3
- 238000005859 coupling reaction Methods 0.000 description 3
- 229910000897 Babbitt (metal) Inorganic materials 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 239000012209 synthetic fiber Substances 0.000 description 1
- 229920002994 synthetic fiber Polymers 0.000 description 1
Landscapes
- Spinning Or Twisting Of Yarns (AREA)
Description
【考案の詳細な説明】
[産業上の利用分野]
本考案は繰糸機の小枠の回転駆動装置に関す
る。[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a rotational drive device for a small frame of a reeling machine.
[従来技術]
周知の如く生糸を繭から繰糸する繰糸機は1セ
ツトが多数台例えば400緒程度で構成され、200緒
づつが背中合せに配置され、それらの多数の繰糸
機の周囲を給繭器が移動したから、必要な繭を各
繰糸機に供給するようになつている。繰糸された
生糸を巻取る小枠は片側に一列に並んでおり、そ
の駆動軸は共通の一本のものが用いられている。
通常は、この小枠の駆動軸は20釡を1ユニツトと
して順次に連結されている。したがつて1セツト
の小枠の回転数はすべて同じである。[Prior Art] As is well known, one set of silk reeling machines for reeling raw silk from cocoons is made up of many units, for example, about 400 threads, each set of 200 threads are arranged back to back, and a cocoon feeder is installed around the large number of silk reeling machines. Since the machine has moved, the necessary cocoons are supplied to each reeling machine. The small frames for winding the reeled raw silk are lined up in a row on one side, and a single common drive shaft is used.
Normally, the drive shafts of these small frames are connected in sequence, with 20 pots as one unit. Therefore, the number of rotations of all the small frames in one set is the same.
近時生糸の多様化の要望に答え、繰糸された糸
の太さのものが種々生産されるようになつた。例
えば通常の生糸の30デニール前後であるが、150
デニール以上のものも必要とし、さらに比較的に
太い化繊糸との混合糸も要望されている。小枠に
巻取られる糸が太くなるほど、(a)乾燥しにくくな
り、(b)給繭能力が不足するので、小枠の回転速度
を低下させ単位時間当りの接緒粒付回数を実質的
に同じにしなければならない。 In response to the recent demand for diversification of raw silk, reeled yarn of various thicknesses has come to be produced. For example, normal raw silk is around 30 denier, but 150 denier
There is also a need for yarns of denier or higher, and there is also a demand for yarns mixed with relatively thick synthetic fiber yarns. As the thread wound around the small frame becomes thicker, (a) it becomes more difficult to dry, and (b) the cocoon feeding capacity becomes insufficient. Therefore, the rotation speed of the small frame is reduced to effectively reduce the number of times of cocooning per unit time. must be the same.
しかしながら、従来技術によれば1セツトのす
べての小枠の回転数が同一であるために、1セツ
トで繰糸される糸の太さはある範囲内に制限され
てしまう。そのために、部分的に太い糸又は細い
糸を生産しようとしても、例えば400緒、1セツ
トのすべての繰糸機全部の糸の太さが一定である
ために、比較的に特定の糸を少量生産したい場合
に、1セツト全部を小時間運転するか、又は1部
のユニツトのみで繰糸し、他のユニツトを遊ばし
ておかねばならない。そのようなことは作業能率
上極めて不都合である。 However, according to the prior art, since the number of revolutions of all the small frames in one set is the same, the thickness of the yarn reeled in one set is limited within a certain range. For this reason, even if you try to produce partially thick or thin threads, for example, 400 threads, the thread thickness of all reeling machines in one set is constant, so relatively specific threads can be produced in small quantities. If desired, the entire set must be operated for a short period of time, or only one unit may be used to reel, leaving the other units idle. Such a situation is extremely inconvenient in terms of work efficiency.
[考案の目的]
したがつて本考案の目的は、1セツトの繰糸機
中で小枠の回転数を異ならしめることのできる小
枠の回転駆動装置を提供するにある。[Object of the invention] Accordingly, an object of the present invention is to provide a rotation drive device for a small frame that can vary the number of revolutions of the small frame in one set of reeling machine.
[考案の構成]
本考案によれば、接緒器で接緒された生糸を集
緒器、ケンネルによつて糸条に形成する装置と互
いに異なる回転数を有する一対の駆動軸からの動
力を小枠ボツクスを介して平行に配置した一対の
小枠巻取り軸にそれぞれ伝達し、小枠巻取り軸に
取付けた巻取り小枠で糸条を巻取る装置を備えた
自動繰糸機において、小枠巻取り軸を軸方向に分
割し、各分割軸を小枠ボツクスに連動するととも
に、特定の分割軸を他の駆動軸に連結可能に構成
してある。[Structure of the invention] According to the invention, a device for forming raw silk spliced by a splicing machine into threads using a splicing machine and a kennel, and a pair of drive shafts having different rotational speeds are used. In an automatic reeling machine equipped with a device that transmits information to a pair of small frame winding shafts arranged in parallel via a small frame box, and winds the yarn with a small winding frame attached to the small frame winding shaft. The frame winding shaft is divided in the axial direction, each divided shaft is interlocked with a small frame box, and a specific divided shaft can be connected to other drive shafts.
[考案の作用効果]
本考案の小枠の回転駆動装置は、以上のよう
に、小枠巻取り軸を軸方向に分割して、各分割軸
をそれぞれ小枠ボツクスに連結したから、それぞ
れの分割軸を独自に駆動できるとともに、接続金
具によつて隣接する軸を同時に駆動するから、任
意のブロツクの小枠に異なる回転数を与えること
ができるものである。[Operation and Effect of the Invention] As described above, the small frame rotation drive device of the present invention divides the small frame winding shaft in the axial direction and connects each divided shaft to the small frame box. Since the divided shafts can be driven independently and adjacent shafts can be simultaneously driven using the connecting fittings, different rotational speeds can be given to the small frames of any given block.
[実施例]
以下、図面を参照して本考案の実施例を説明す
る。[Example] Hereinafter, an example of the present invention will be described with reference to the drawings.
第1図は本考案を適用する自動繰糸機の説明図
であつて、第1図右側に示される繭補充給繭機1
から供給される繭2から採取される生糸aは接緒
器3、集緒器4を介して集緒され、さらに鼓車5
により駆動されるケンネル6によつてより掛けさ
れて生糸Sとなり、繊度感知機7等を通過してB
釡側の巻取り小枠10に巻取られる。 FIG. 1 is an explanatory diagram of an automatic reeling machine to which the present invention is applied, and the cocoon replenishment and cocoon feeding machine 1 shown on the right side of FIG.
The raw silk a collected from the cocoons 2 supplied from the
The kennel 6 driven by
It is wound up on a small winding frame 10 on the hook side.
同様に、第1図の左側に示すA釡側において
も、繭2からの生糸は接緒器3、集緒器4によつ
て集緒され、ケンネル6でより掛けされて生糸S
となり、A釡側の巻取り小枠20により巻取られ
る。すなわち、B釡側の巻取り小枠10は小枠巻
取り軸13により支持されていて、この小枠巻取
り軸13は小枠ボツクス12を介してB主軸11
からチエーン14、中間チエーンホイル15等に
よつて駆動される。 Similarly, on the A pot side shown on the left side of FIG.
Then, it is wound up by the winding small frame 20 on the A pot side. That is, the small winding frame 10 on the B hook side is supported by the small frame winding shaft 13, and this small frame winding shaft 13 is connected to the B main shaft 11 via the small frame box 12.
The motor is driven by a chain 14, an intermediate chain wheel 15, and the like.
同様にA釡側の巻取り小枠20も小枠巻取り軸
23に支えられていて、この小枠巻取り軸23は
A主軸21からチエーン24を介して駆動される
小枠ボツクス22の動力によつて回動する。従つ
てA主軸21とB主軸11の回転数をかえること
によつて、A釡側の巻取り小枠と、B釡側の巻取
り小枠の巻取り速度をかえることができる。 Similarly, the small winding frame 20 on the A pot side is supported by a small frame winding shaft 23, and this small frame winding shaft 23 is powered by the small frame box 22, which is driven from the A main shaft 21 via a chain 24. It rotates by. Therefore, by changing the rotational speed of the A spindle 21 and the B spindle 11, the winding speed of the winding frame on the A hook side and the winding frame on the B hook side can be changed.
小枠巻取り軸の駆動機構は第2図に示すような
ものであつて、原動機25で駆動される変速機2
6の出力はチエーン27を介してA主軸21に伝
達される。 The drive mechanism for the small frame winding shaft is as shown in FIG.
The output of No. 6 is transmitted to the A main shaft 21 via the chain 27.
A主軸21の回転はチエーン24を介して小枠
ボツクス22に伝達され着脱式の軸受金具30に
よつてA釡側の小枠巻取り軸23を駆動する。 The rotation of the A main shaft 21 is transmitted to the small frame box 22 via the chain 24, and a removable bearing fitting 30 drives the small frame winding shaft 23 on the A hook side.
そして本考案の小枠巻取り軸23は、第3図に
も示すように、接続金具40と自由回転継手45
とによつて順次接続されている。この接続金具4
0は軸継手の一種であつて、一方の軸23aに凹
部41を有する金具を取付け、他方の軸23bに
凸部42をもつ金具を取付けることで軸の回転力
を伝達することができるものである。すなわち接
続金具40を接続しておけば、左軸23aと右軸
23bは一体となつて回転する。そしてこの接続
金具で連結された左軸と右軸の軸端に取付けた軸
受金具を選択的に小枠ボツクスのいずれか一方に
接続することによつて異なる回転数を巻取り軸に
与えることができる。 The small frame winding shaft 23 of the present invention has a connecting fitting 40 and a free rotation joint 45, as shown in FIG.
and are connected sequentially. This connection fitting 4
0 is a type of shaft coupling, in which a fitting having a concave portion 41 is attached to one shaft 23a, and a fitting having a convex portion 42 is attached to the other shaft 23b, thereby making it possible to transmit the rotational force of the shaft. be. That is, if the connecting fitting 40 is connected, the left shaft 23a and the right shaft 23b rotate as one. By selectively connecting the bearing fittings attached to the shaft ends of the left and right shafts connected by this connecting fitting to either one of the small frame boxes, different rotational speeds can be applied to the winding shaft. can.
具体的には、小枠ボツクス22aによつて左軸
23aを駆動し、別の小枠ボツクス22bによつ
て軸受金具30bを介して右軸23bを駆動す
る。そして、小枠ボツクス22b側には、小枠ボ
ツクス22aとは異なる回転数を与える。回転数
の変速機構としては、第2図の右側に示すよう
に、例えばA主軸21の端部に平歯車35を取付
け、この歯車に噛合う歯車36で変速機37を駆
動し、その出力をB主軸11に伝達することで、
A主軸21とB主軸11の回転数を変速すること
ができる。そしてこの変速した回転数を歯車機構
38によつて小枠ボツクス22bに伝達すること
で所期の目的を達成できる。 Specifically, the left shaft 23a is driven by the small frame box 22a, and the right shaft 23b is driven by another small frame box 22b via the bearing fitting 30b. The small frame box 22b side is given a different rotation speed from that of the small frame box 22a. As shown on the right side of FIG. 2, as a rotational speed change mechanism, for example, a spur gear 35 is attached to the end of the A main shaft 21, and a gear 36 that meshes with this gear drives a transmission 37, and its output is By transmitting it to the B main shaft 11,
The rotational speed of the A main shaft 21 and the B main shaft 11 can be changed. By transmitting this changed rotational speed to the small frame box 22b through the gear mechanism 38, the desired purpose can be achieved.
なお、上述した説明は、第2図におけるA釡側
の小枠巻取り軸23の図で最も左側のブロツクに
おいて巻取り軸の接続金具を用いてB主軸の回転
数を与えた場合を説明したが、第2図の右端側の
B釡側の巻取り軸13a,13bをA主軸21に
取付けた歯車50と、これに噛合うA釡側の中間
歯車16との伝達機構を用いて、この部分のみの
小枠をA主軸により駆動させることもできる。な
お、小枠巻取り軸の接続回転が不要な部分の軸継
手には左右の軸が任意に回転する継手45で連結
していけばよい。 The above explanation is based on the case where the rotation speed of the B main spindle is given using the connection fitting of the winding shaft in the leftmost block of the small frame winding shaft 23 on the A pot side in FIG. 2. However, this can be achieved by using a transmission mechanism consisting of a gear 50 in which the winding shafts 13a and 13b on the B hook side on the right end side in FIG. It is also possible to drive only the small frame of the part by the A main shaft. Incidentally, the left and right shafts may be connected to shaft joints in portions where the small frame winding shaft does not need to be rotated by a joint 45 that allows the left and right shafts to rotate arbitrarily.
[まとめ]
本考案は以上のように、自動繰糸機において、
糸条を巻取る巻取り小枠を駆動する小枠巻取り軸
をブロツク内で複数個に分割し、各部分巻取り軸
を小枠ボツクスからの駆動力によつて巻取り駆動
するとともに、必要に応じて任意の部分巻取り軸
を他の駆動軸に接続して変速させることができる
ものである。[Summary] As described above, the present invention can be used in an automatic reeling machine.
The small frame winding shaft that drives the small winding frame that winds the yarn is divided into multiple parts within the block, and each partial winding shaft is driven to wind by the driving force from the small frame box, and the winding shaft is driven as necessary. Depending on the situation, any partial winding shaft can be connected to other drive shafts to change the speed.
第1図は本考案を適用する自動繰糸機の説明
図、第2図は巻取り軸の駆動機構を示す説明図、
第3図は本考案の接続金具を有する小枠巻取り軸
の説明図である。
3……接緒器、4……集緒器、6……ケンネ
ル、10,20……巻取り小枠、11……B主
軸、21……A主軸、12,22……小枠ボツク
ス、13,23……小枠巻取り軸、30a,30
b……軸受金具、26……A変速機、37……B
変速機、40……接続金具、45……回転自在継
手。
Fig. 1 is an explanatory diagram of an automatic reeling machine to which the present invention is applied, Fig. 2 is an explanatory diagram showing the drive mechanism of the winding shaft,
FIG. 3 is an explanatory diagram of a small frame winding shaft having a connecting fitting according to the present invention. 3... Coupling device, 4... Coupling device, 6... Kennel, 10, 20... Small winding frame, 11... B main spindle, 21... A main spindle, 12, 22... Small frame box, 13, 23...Small frame winding shaft, 30a, 30
b...bearing metal fitting, 26...A transmission, 37...B
Transmission, 40... Connection fitting, 45... Rotating universal joint.
Claims (1)
よつて糸条に形成する装置と互いに異なる回転数
を有する一対の駆動軸からの動力を小枠ボツクス
を介して平行に配置した一対の小枠巻取り軸にそ
れぞれ伝達し、小枠巻取り軸に取付けた巻取り小
枠で糸条を巻取る装置を備えた自動繰糸機におい
て、小枠巻取り軸を軸方向に分割し、各分割軸を
小枠ボツクスに連動するとともに、特定の分割軸
を他の駆動軸に連結可能に構成して成る自動繰糸
機の小枠の回転駆動装置。 A device that forms the raw silk spliced with a splicing machine into threads using a splicing machine and a kennel, and a pair of drive shafts that are arranged in parallel with each other via a small box. In an automatic thread reeling machine equipped with a device for transmitting information to each of the small frame winding shafts and winding the yarn with a small winding frame attached to the small frame winding shaft, the small frame winding shaft is divided in the axial direction, A rotation drive device for a small frame of an automatic reeling machine, which is configured such that each dividing shaft is interlocked with a small frame box, and a specific dividing shaft is connectable to another drive shaft.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP14576285U JPH02444Y2 (en) | 1985-09-26 | 1985-09-26 |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP14576285U JPH02444Y2 (en) | 1985-09-26 | 1985-09-26 |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS6255577U JPS6255577U (en) | 1987-04-06 |
| JPH02444Y2 true JPH02444Y2 (en) | 1990-01-08 |
Family
ID=31057596
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP14576285U Expired JPH02444Y2 (en) | 1985-09-26 | 1985-09-26 |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH02444Y2 (en) |
-
1985
- 1985-09-26 JP JP14576285U patent/JPH02444Y2/ja not_active Expired
Also Published As
| Publication number | Publication date |
|---|---|
| JPS6255577U (en) | 1987-04-06 |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| GB1595219A (en) | Method of controlling the feed of yarn and device therefor | |
| JPH02444Y2 (en) | ||
| JPH02445Y2 (en) | ||
| EP1125877A1 (en) | Winding head and its use | |
| US5133512A (en) | Lap winder for producing laps from slivers | |
| US2484179A (en) | Wire rope manufacturing machine | |
| US4894982A (en) | Twisting machine particularly for twisted threads | |
| US4222221A (en) | Winding machine with multitwist spindle | |
| JPS61245318A (en) | Unit for making special yarns | |
| JPH0457774B2 (en) | ||
| JPS6014764Y2 (en) | Sliver unevenness control device in a drawing machine with multiple deliveries | |
| US2895284A (en) | Synthetic fiber spinning machine drive | |
| JPS622198Y2 (en) | ||
| JP2529272B2 (en) | Self-acting spinning machine | |
| US1524456A (en) | Driving apparatus for spinning, doubling, and twisting machinery | |
| RU2018557C1 (en) | Drive for changeable unwinding of bobbin holder and accurate setting of frame of basket-type twisting machine | |
| JPS5919735Y2 (en) | Transmission device in drawing machine | |
| JPH0450324A (en) | Driving device of fiber machine | |
| EP1125878A2 (en) | Winding head and its use | |
| DE7815652U1 (en) | DEVICE FOR REGULATING THE SPOOLING SPEED OF THREAD REELS | |
| JPH0541729B2 (en) | ||
| JPS5846529Y2 (en) | Filament coil winding device | |
| US3158981A (en) | High speed stranding machines | |
| KR100341547B1 (en) | Processing device for shuttle yarn binding of winding machine | |
| US1691337A (en) | Stranding machine |