CN208361547U - A kind of multiple-spindle winding machine - Google Patents
A kind of multiple-spindle winding machine Download PDFInfo
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- CN208361547U CN208361547U CN201820549702.9U CN201820549702U CN208361547U CN 208361547 U CN208361547 U CN 208361547U CN 201820549702 U CN201820549702 U CN 201820549702U CN 208361547 U CN208361547 U CN 208361547U
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Abstract
The utility model discloses a kind of multiple-spindle winding machines, comprising: a rack;Multiple single shaft coiling devices are arranged in the rack with the distribution mode of array;And it is multiple for drawing strands to the first directive wheel on each single shaft coiling device;Wherein, the single shaft coiling device includes a rotating shaft unit, one is arranged in the rack and connect with the rotating shaft unit straight spur unit for driving the rotating shaft unit to do straight reciprocating motion, and the coil rack for winding strands is fastened in the rotating shaft unit.The multiple-spindle winding machine can effectively improve winding efficiency, have the advantages that structure is simple, easy to use.
Description
Technical field
The utility model relates to coil winding machine technical field more particularly to multiple-spindle winding machines.
Background technique
Strands need to be wrapped in formation coil of wire product on coil rack after producing, facilitate storage, transport and go out
It sells.Coil winding machine currently on the market is mostly single shaft coiling machine, i.e., coil winding machine once can only one coil rack of winding, exist around
The problem of line low efficiency, therefore, it is necessary to study a kind of multiple-spindle winding machines.
Utility model content
Shortcoming present in view of the above technology, the utility model, which provides one kind, can effectively improve winding efficiency
Multiple-spindle winding machine.
The technical scheme adopted by the utility model to solve the technical problem is as follows: a kind of multiple-spindle winding machine, comprising: a machine
Frame;Multiple mutually independent single shaft coiling devices are arranged in the rack with the distribution mode of array;And it multiple is used for
Strands are drawn to the first directive wheel on each single shaft coiling device;Wherein, the single shaft coiling device includes one turn
Axle unit, one are arranged in the rack and connect with the rotating shaft unit for driving the rotating shaft unit to do linear reciprocation fortune
Dynamic straight spur unit is fastened with the coil rack for winding strands in the rotating shaft unit.
Preferably, the straight spur unit include one be fastened in the rack bottom plate, one by lead screw support base
The ball-screw that is arranged on the bottom plate, one be mounted on that on the bottom plate and output shaft is connect with the ball-screw first
Motor, it is a pair of by guide rail mounting plate be symmetricly set on the ball-screw two sides be used for the linear guide of guiding, one with it is described
The connecting plate that ball-screw is connected with the linear guide, wherein the nut of the connecting plate and the ball-screw and described
The sliding block of linear guide is fastenedly connected.
Preferably, the straight spur unit further includes a sensor module comprising is fastened on the guide rail mounting plate
Side wall on support, be fastened on the support guide rod, be fastened on the guide rod multiple sense bases, be arranged described
Sensor at the top of sense base and the sensing chip for being fastened on the connecting plate and being matched with the sensor, wherein institute
It states sensor to be arranged in a one-to-one correspondence with the sense base, the distribution arrangement of the distribution arrangement of the guide rod and the ball-screw is flat
Row.
Preferably, the rotating shaft unit include one be fastened on the connecting plate bearing block, one be arranged in the bearing
Shaft on seat is connect for driving the second motor of the shaft rotation, one to be set in institute with a side end of the shaft
It states in shaft and the sleeve and one being fastenedly connected with the bearing block is fastened on the coil rack in the shaft
Limit assembly, wherein the coil rack is set in the end side of the shaft, and one end of the sleeve is fastened on institute
It states the other end on bearing block, opposite and is provided with end cap, formed in the area segments matched in the shaft with the end cap
The shaft shoulder.
Preferably, the limit assembly includes that one first vertex of a cone being set in the shaft, one second vertex of a cone and one are fast
Shift circle, wherein first vertex of a cone and second vertex of a cone are located at the two sides of the coil rack, first vertex of a cone
It is limited by the shaft shoulder, the quick change retaining ring is located at the side of second vertex of a cone, when applying one on the quick change retaining ring
When a thrust towards second vertex of a cone, second vertex of a cone is along the shaft to the coil rack side slip to cause
The coil rack is clamped between first vertex of a cone and second vertex of a cone.
Preferably, the quick change retaining ring include one be set in the shaft axle sleeve, one be set in the shaft
And spring between second vertex of a cone and the axle sleeve, one be set in tapered sleeve on a side end of the axle sleeve and
One is set in the lasso on the tapered sleeve, wherein the lasso and the tapered sleeve are fastenedly connected, and one end of the lasso is unlimited
Mouth, the opposite other end are sealing surface, and the perforative through-hole of end side for the axle sleeve, institute are formed on the sealing surface
It states and is formed on the outer wall of axle sleeve so that the axle sleeve is limited in the lug in the lasso, the end side of the axle sleeve
Threaded hole is formed on side wall, and the adjusting spiral shell that may make the axle sleeve to be fastened in the shaft is provided in the threaded hole
Nail, the axle sleeve, which extends, is detachably provided with leader in the end side of the lasso.
Preferably, the single shaft coiling device further includes a setting in the rack and is located at the coil rack side
Stretching unit comprising one be fastened in the rack the first vertical plate, one be vertically set on by 3rd bearing it is described
The first mandrel in first vertical plate is fastened in the opposite both side ends of first mandrel and with described first
One first gear of mandrel rotation and a swing rod, one be fixed at the second vertical plate below first vertical plate,
One be vertically set in two vertical plate by fourth bearing the second mandrel, one be fastened on second mandrel
It is upper and be meshed with the first gear second gear, one be mounted on second mandrel for sensing described second
The inductor of the rotation angle of gear and one clump weight component on the swing rod is set, wherein first vertical plate
Bottom be fixedly installed the level board of a rotation angle for limiting the swing rod, the first gear and the swing rod divide
Not Wei Yu first vertical plate opposite two sides, rotation is provided with tensioning wheel on the swing rod, and the inductor passes through route
It is connect with control unit;The clump weight component includes a pair of link block being fastened on the swing rod, the connection link block
And a cross bar, the clump weight being slidably arranged on the cross bar and one above the swing rod are used for the clump weight
The regulation handle of fastening on the cross bar a, wherein spiral shell matched with the regulation handle is provided on the clump weight
Pit.
Preferably, the single shaft coiling device further includes a pinch roller unit comprising one is fixed on the sleeve
Pinch roller support, one be fastened on the support shaft of the pinch roller holder top, be arranged in the support shaft by second bearing
The pinch roller that a pair of of swing arm, one matched with the coil rack and were arranged in by pinch roller mandrel the swing arm end, wherein institute
It states support shaft and is parallel to the shaft setting.
Preferably, it is provided with a limit pin hole on the pinch roller support, activity is inserted with a limit in the limit pin hole
Pin shaft when coiling, the limit pin shaft is extracted out of described limit pin hole so that swing arm is fallen to cause the pinch roller and institute
The strands stated on coil rack offset, and after the completion of the coil rack coiling, the limit pin shaft is turned back to the limit
So that there are a spacing between the pinch roller and the coil rack in pin hole.
Preferably, the single shaft coiling device is arranged in the rack with the distribution mode of rectangular array, wherein described
The quantity of single shaft coiling device is set as 9, the single shaft coiling device divide into three groups of tops for being separately positioned on the rack,
Middle part and lower part, each group includes three single shaft coiling devices.
The utility model compared with prior art, the beneficial effect is that: multiple-spindle winding machine provided by the utility model, lead to
It crosses and multiple mutually independent single shaft coiling devices is set on the rack to realize multiaxis coiling strands simultaneously, can effectively improve
Winding efficiency has the advantages that structure is simple, easy to use;By the way that limit pin hole is arranged on pinch roller support, in limit pin hole
Interior activity plugs a limit pin shaft, when coiling, limit pin shaft is extracted out of limit pin hole so that swing arm is fallen to cause pinch roller
Offset with the strands on coil rack, after the completion of coil rack coiling, by limit pin shaft turn back to in limit pin hole so that pressure
There are a spacing between wheel and coil rack, so that coil rack of conveniently taking, has the advantages that structure is simple and convenient to operate;
Coil rack rotation is driven by the second motor, and then is realized on strands automatic winding to coil rack, is effectively raised
Production efficiency reduces labor intensity of workers;By setting straight spur unit can convenient regulating winding skeleton in level
Position on direction, so that strands are uniformly wound on coil rack;It can effectively be controlled by the way that sensor module is arranged
The displacement of coil rack processed in the horizontal direction, movement are accurate reliable;By be arranged stretching unit can adjust in real time to
It is wound to the tightness of the strands on coil rack, it is effective to improve so that strands are smoothly wound on coil rack
Strands around line mass;By be arranged pinch roller unit enable to strands to be closely wound on coil rack, ensure that around
The quality of line.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of multiple-spindle winding machine described in the utility model;
Fig. 2 is the schematic diagram of the section structure of the side-looking direction of multiple-spindle winding machine described in the utility model;
Fig. 3 is the structural schematic diagram of the single shaft coiling device of the utility model;
Fig. 4 is structural schematic diagram of the pinch roller unit of the single shaft coiling device of the utility model after planting limit pin shaft;
Fig. 5 is the cross-section structure signal of the straight spur unit in the direction A-A, rotating shaft unit and pinch roller unit in Fig. 3 and Fig. 4
Figure;
Fig. 6 is the structural schematic diagram in the direction B in Fig. 2;
Fig. 7 is the structural schematic diagram of the quick change retaining ring of the utility model;
Fig. 8 is the decomposition texture schematic diagram of the quick change retaining ring of the utility model;
Fig. 9 is the structural schematic diagram at the first visual angle of the stretching unit of the utility model;
Figure 10 is the structural schematic diagram at the second visual angle of the stretching unit of the utility model;
Figure 11 is structural schematic diagram of the stretching unit of the utility model after adding housing;
Figure 12 is the operation schematic diagram of multiple-spindle winding machine described in the utility model.
In figure: 10, straight spur unit;11, bottom plate;12, ball-screw;13, first motor;14, connecting plate;15, straight
Line guide rail;151, guide rail mounting plate;16, sensor module;161, support;162, guide rod;163, sense base;164, sensor;
165, sensing chip;20, rotating shaft unit;21, quick change retaining ring;211, handle;212, axle sleeve;213, lasso;214, tapered sleeve;215, bullet
Spring;22, bearing block;23, the second motor;24, shaft;25, sleeve;251, end cap;26, coil rack;27, first vertex of a cone;28,
Second vertex of a cone;30, pinch roller unit;31, pinch roller support;311, limit pin shaft;32, support shaft;33, swing arm;34, pinch roller;341,
Pinch roller mandrel;35, pin shaft is connected;40, rack;50, stretching unit;51, the first vertical plate;511, the first mandrel;512,
Level board;52, swing rod;53, first gear;54, second gear;55, the second vertical plate;551, the second mandrel;56, incude
Device;57, clump weight component;571, link block;572, cross bar;573, clump weight;574, regulation handle;58, tensioning wheel;581, solid
Centration axis;59, housing;60, control unit;70, the first directive wheel;71, the second directive wheel;72, third directive wheel;721, it opens
Mouthful.
Specific embodiment
The following describes the utility model in further detail with reference to the accompanying drawings, to enable those skilled in the art referring to explanation
Book text can be implemented accordingly.
As shown in Figures 1 to 5, the utility model provides a kind of multiple-spindle winding machine, comprising: a rack 40;It is multiple mutual
Independent single shaft coiling device is arranged in the rack 40 with the distribution mode of array;And it is multiple for leading strands
Lead to the first directive wheel 70 on each single shaft coiling device;Wherein, the single shaft coiling device includes a rotating shaft unit
20, one is arranged in the rack 40 and connect with the rotating shaft unit 20 for driving the rotating shaft unit 20 to do linear reciprocation
The straight spur unit 10 of movement is fastened with the coil rack 26 for winding strands in the rotating shaft unit 20.
As an embodiment of this programme, as shown in Figure 5 and Figure 6, the straight spur unit 10 is fastened on institute including one
It states the ball-screw 12, one that the bottom plate 11, one in rack 40 is arranged on the bottom plate 11 by lead screw support base and is mounted on institute
It is symmetrical by guide rail mounting plate 151 to state first motor 13, a pair that on bottom plate 11 and output shaft is connect with the ball-screw 12
Be arranged in 12 two sides of ball-screw for guiding linear guide 15, one and the ball-screw 12 and the linear guide
The connecting plate 14 of 15 connections, wherein the connecting plate 14 and the nut of the ball-screw 12 and the cunning of the linear guide 15
Block is fastenedly connected.
As an embodiment of this programme, as shown in Figure 5 and Figure 6, the straight spur unit 10 further includes a sensor
Component 16 comprising the support 161 that is fastened on the side wall of the guide rail mounting plate 151 is fastened on leading on the support 161
Bar 162, the multiple sense bases 163 being fastened on the guide rod 162, be arranged in the sensor 164 at 163 top of the sense base with
And the sensing chip 165 for being fastened on the connecting plate 14 and being matched with the sensor 164, wherein the sensor 164 with
The sense base 163 is arranged in a one-to-one correspondence, and the distribution arrangement of the distribution arrangement of the guide rod 162 and the ball-screw 12 is flat
Row.
As an embodiment of this programme, as shown in figure 5, the rotating shaft unit 20 is fastened on the connecting plate 14 including one
On bearing block 22, one be arranged on the bearing block 22 shaft 24, connect for driving with a side end of the shaft 24
The set that the second motor 23, one for rotating the shaft 24 is set in the shaft 24 and is fastenedly connected with the bearing block 22
Cylinder 25 and one makes the coil rack 26 be fastened on the limit assembly in the shaft 24, wherein the coil rack 26
It is set in the end side of the shaft 24, one end of the sleeve 25 is fastened on the bearing block 22, opposite another
One end is provided with end cap 251, forms the shaft shoulder in the area segments matched in the shaft 24 with the end cap 251.
As an embodiment of this programme, as shown in figure 5, the limit assembly includes one be set in the shaft 24
First vertex of a cone 27, one second vertex of a cone 28 and a quick change retaining ring 21, wherein first vertex of a cone 27 and second vertex of a cone 28 difference
Positioned at the two sides of the coil rack 26, first vertex of a cone 27 is limited by the shaft shoulder, and the quick change retaining ring 21 is located at institute
The side for stating second vertex of a cone 28, when applying the thrust towards second vertex of a cone 28 on the quick change retaining ring 21, institute
State second vertex of a cone 28 along the shaft 24 to 26 side slip of coil rack to cause the coil rack 26 to be clamped at
Between first vertex of a cone 27 and second vertex of a cone 28.
As an embodiment of this programme, as shown in Fig. 5, Fig. 7 and Fig. 8, the quick change retaining ring 21 is set in institute including one
State the axle sleeve 212, one in shaft 24 be set in the shaft 24 and be located at second vertex of a cone 28 and the axle sleeve 212 it
Between the tapered sleeve 214 that is set on a side end of the axle sleeve 212 of spring 215, one and one be set on the tapered sleeve 214
Lasso 213, wherein the lasso 213 and the tapered sleeve 214 are fastenedly connected, and one end of the lasso 213 is open ports, phase
To the other end be sealing surface, the perforative through-hole of end side for the axle sleeve 212 is formed on the sealing surface, it is described
Formed on the outer wall of axle sleeve 212 so that the axle sleeve 212 is limited in the lug in the lasso 213, the axle sleeve 212 it is another
Threaded hole is formed on the side wall of one side end, is provided in the threaded hole and the axle sleeve 212 may make to be fastened on described turn
Adjusting screw on axis 24, the axle sleeve 212, which extends, is detachably provided with leader in the end side of the lasso 213
211。
As an embodiment of this programme, as shown in Fig. 3, Fig. 4, Fig. 9, Figure 10, Figure 11, the single shaft coiling device is also wrapped
Include a stretching unit 50 for being arranged in the rack 40 and being located at 26 side of coil rack comprising one be fastened on it is described
The first vertical plate 51, one in rack 40 is vertically set on the first rotation heart in first vertical plate 51 by 3rd bearing
Axis 511 is fastened in the opposite both side ends of first mandrel 511 and with first mandrel 511 rotation
The second vertical plate 55, one that one first gear 53 and a swing rod 52, one are fixed at 51 lower section of the first vertical plate passes through
The second mandrel 551, one that fourth bearing is vertically set in two vertical plate 55 is fastened on second mandrel
The second gear 54, one being meshed on 551 and with the first gear 53 is mounted on second mandrel 551 for feeling
It surveys the inductor 56 of the rotation angle of the second gear 54 and one clump weight component 57 on the swing rod 52 is set,
In, the bottom of first vertical plate 51 is fixedly installed the level board 512 of a rotation angle for limiting the swing rod 52,
The first gear 53 and the swing rod 52 are located at the opposite two sides of first vertical plate 51, rotate on the swing rod 52
It is provided with tensioning wheel 58, the tensioning wheel 58 is arranged on the end of the swing rod 52 by stationary spindle 581, the fixed heart
Axis 581 is vertically set on the swing rod 52, and the inductor 56 is connect by route with control unit 60, in the process of coiling
In, when the strands on the coil rack 26 stretch tight tighter or more loose, strands are driven described by tensioning wheel 58
Swing rod 52 rotates, and the rotation of the swing rod 52 drives the first gear 53 to rotate, and the first gear 53 drives described in turn
Second gear 54 rotates, and the rotation angle of the second gear 54 sensed can be converted to signal biography by the inductor 56
Control unit is passed, the revolving speed of the first motor 13 and second motor 23 is adjusted by control unit, to realize line
Expect rate of tension adjusting, it is easy to operate, effectively raise strands around line mass;The clump weight component 57 includes a pair of tight
Gu on the swing rod 52 link block 571, the connection link block 571 and the cross bar 572 being located above the swing rod 52,
One clump weight 573 being slidably arranged on the cross bar 572 and one is for being fastened on the cross bar 572 for the clump weight 573
On regulation handle 574, wherein a threaded hole matched with the regulation handle 574 is provided on the clump weight 573;
By unscrewing the regulation handle 574, the clump weight 573 can slide under the stirring of external force on the cross bar 572, operation
When, the clump weight 573, which is slid onto, can be realized clump weight 573 by screwing the regulation handle 574 behind preset position
Positioning.
As an embodiment of this programme, as shown in figure 11, stretching unit 50 further includes a housing 59, and the housing 59 is tight
Gu the housing 59 can enclose the first gear 53, the second gear 54 and the inductor 56 in the rack 40
It is accidentally touched when if getting up to avoid worker operation, has ensured the personal safety of worker.
As an embodiment of this programme, as shown in Figures 3 to 5, the single shaft coiling device further includes a pinch roller unit
30 comprising a pinch roller support 31, one being fixed on the sleeve 25 is fastened on the branch at 31 top of pinch roller support
Support axis 32, a pair of of the swing arm 33, one being arranged in the support shaft 32 by second bearing are matched with the coil rack 26
And the pinch roller 34 of 33 end of swing arm is set by pinch roller mandrel 341, wherein the support shaft 32 is parallel to the shaft
24 settings.
As an embodiment of this programme, as shown in Figure 3 and Figure 4, it is provided with a limit pin hole on the pinch roller support 31,
Activity is inserted with a limit pin shaft 311 in the limit pin hole, when coiling, by the limit pin shaft 311 from the limit pin hole
It is interior to extract so that swing arm 33 is fallen to cause the pinch roller 34 to offset with the strands on the coil rack 26, when the coil bone
After the completion of 26 coiling of frame, by the limit pin shaft 311 turn back to in the limit pin hole so that the pinch roller 34 and the coil
There are a spacing between skeleton 26, in order to the coil rack 26 of taking.
As an embodiment of this programme, as shown in Figure 3 and Figure 4, the swing arm 33 includes one and the support shaft 32 company
The first straight-bar, one second straight-bar being connect with the pinch roller 34 connect, wherein first straight-bar and second straight-bar are solid
Fixed connection, and there are the angles at an obtuse angle between first straight-bar and second straight-bar.
As an embodiment of this programme, as shown in Figure 3 and Figure 4, a connection pin shaft is additionally provided between the swing arm 33
35, the connection pin shaft 35 is fastened in the swing arm 33.
As an embodiment of this programme, as shown in Figure 1, the single shaft coiling device is set with the distribution mode of rectangular array
It sets in the rack 40, wherein the quantity of the single shaft coiling device is set as 9, and the single shaft coiling device divides three into
Group is separately positioned on the upper, middle and lower of the rack 40, and each group includes three single shaft coiling devices.
As an embodiment of this programme, shown as shown in Figure 1, Figure 3 and Figure 4, the single shaft coiling device further includes one second
Directive wheel 71 and a third directive wheel 72, second directive wheel 71, the third directive wheel 72 and the tensioning wheel 58 are enclosed and are set
Triangle in an acute angle, the purpose being arranged in this way is: strands transmission is relatively stable reliable;In the utility model, the rack 40
On form the perforative opening 721 of guiding axis for the third directive wheel 72, the guiding axis of the third directive wheel 72 is fixed
It is arranged in the rack 40, the guiding axis of second directive wheel 71 is arranged through the pinch roller support 31, and described second
The guiding axis of directive wheel 71 is fixed in the rack 40.
The working principle of the multiple-spindle winding machine is as follows: as shown in figure 12, the utility model is nine axis coil winding machines, in use,
First the limit pin shaft 311 is inserted in the limit pin hole so that there are one between the pinch roller 34 and the coil rack 26
Spacing, in order to which the coil rack 26 is mounted in the shaft 24, after the coil rack 26 is installed, then will
The limit pin shaft 311 is extracted out of described limit pin hole so that swing arm 33 is fallen to cause the pinch roller 34 and the coil bone
Frame 26 offsets, and is then first then driven on the one ends wound of strands to the coil rack 26 by control unit 60 described
Second motor 23 and the first motor 13 rotate, and the rotary motion of second motor 23 and the first motor 13 makes line
Material volume is around to the coiling for completing strands on the coil rack 26, and in the winding process of strands, the stretching unit can be with
The tightness to be wound to the strands on coil rack is adjusted, in real time so that strands are smoothly wound to coil rack
On, effectively raise strands around line mass, the pinch roller unit enables to strands to be closely wound on coil rack,
It ensure that the quality of coiling.
Although the embodiments of the present invention have been disclosed as above, it is not limited in institute in specification and embodiments
Column use, it can be applied to various fields suitable for the present invention completely, for those skilled in the art, can
Easily realize other modification, therefore without departing from the general concept defined in the claims and the equivalent scope, this is practical
It is novel to be not limited to specific details and legend shown and described herein.
Claims (10)
1. a kind of multiple-spindle winding machine characterized by comprising
One rack (40);
Multiple mutually independent single shaft coiling devices are arranged on the rack (40) with the distribution mode of array;And
It is multiple to be used to draw strands to the first directive wheel (70) on each single shaft coiling device;
Wherein, the single shaft coiling device include a rotating shaft unit (20), one be arranged on the rack (40) and with described turn
Axle unit (20) connection is for driving the rotating shaft unit (20) to do the straight spur unit (10) of straight reciprocating motion, and described turn
The coil rack (26) for winding strands is fastened on axle unit (20).
2. multiple-spindle winding machine as described in claim 1, which is characterized in that the straight spur unit (10) is fastened on including one
Ball-screw (12) that bottom plate (11) on the rack (40), one are arranged on the bottom plate (11) by lead screw support base,
One is mounted on the first motor (13) that on the bottom plate (11) and output shaft is connect with the ball-screw (12), is a pair of by leading
Rail mounting plate (151) be symmetricly set on the ball-screw (12) two sides for guiding linear guide (15), one and the rolling
The connecting plate (14) of ballscrew (12) and the linear guide (15) connection, wherein the connecting plate (14) and the ball wire
The nut of thick stick (12) and the sliding block of the linear guide (15) are fastenedly connected.
3. multiple-spindle winding machine as claimed in claim 2, which is characterized in that the straight spur unit (10) further includes a sensing
Device assembly (16) comprising the support (161) that is fastened on the side wall of the guide rail mounting plate (151) is fastened on the support
(161) guide rod (162) on, is arranged in the sense base the multiple sense bases (163) being fastened on the guide rod (162)
(163) sensor (164) at the top of and the sense for being fastened on the connecting plate (14) and being matched with the sensor (164)
Answer piece (165), wherein the sensor (164) is arranged in a one-to-one correspondence with the sense base (163), point of the guide rod (162)
Cloth direction is parallel with the distribution arrangement of the ball-screw (12).
4. multiple-spindle winding machine as claimed in claim 2, which is characterized in that the rotating shaft unit (20) is fastened on described including one
Shaft (24) that bearing block (22) on connecting plate (14), one are arranged on the bearing block (22), with the shaft (24)
One side end connection for drive the shaft (24) rotate the second motor (23), one be set on the shaft (24) and with
The sleeve (25) and one that the bearing block (22) is fastenedly connected make the coil rack (26) be fastened on the shaft (24)
On limit assembly, wherein the coil rack (26) is set in the end side of the shaft (24), the sleeve
(25) one end is fastened on the bearing block (22), the opposite other end is provided with end cap (251), on the shaft (24) with
The shaft shoulder is formed in the area segments that the end cap (251) matches.
5. multiple-spindle winding machine as claimed in claim 4, which is characterized in that the limit assembly includes being set in the shaft
(24) one first vertex of a cone (27), one second vertex of a cone (28) and a quick change retaining ring (21) on, wherein first vertex of a cone (27) and
Second vertex of a cone (28) is located at the two sides of the coil rack (26), and first vertex of a cone (27) is limited by the shaft shoulder
Position, the quick change retaining ring (21) are located at the side of second vertex of a cone (28), when the application one on the quick change retaining ring (21)
Towards second vertex of a cone (28) thrust when, second vertex of a cone (28) is along the shaft (24) to the coil rack
(26) side slip with cause the coil rack (26) be clamped at first vertex of a cone (27) and second vertex of a cone (28) it
Between.
6. multiple-spindle winding machine as claimed in claim 5, which is characterized in that the quick change retaining ring (21) is set in described including one
Axle sleeve (212) in shaft (24), one are set on the shaft (24) and are located at second vertex of a cone (28) and the axis
Spring (215), a tapered sleeve (214) being set on a side end of the axle sleeve (212) and one between set (212) are arranged
Lasso (213) on the tapered sleeve (214), wherein the lasso (213) and the tapered sleeve (214) are fastenedly connected, the set
The one end for enclosing (213) is open ports, the opposite other end is sealing surface, is formed on the sealing surface for the axle sleeve (212)
The perforative through-hole of end side, form on the outer wall of the axle sleeve (212) so that the axle sleeve (212) be limited in it is described
Lug in lasso (213), forms threaded hole on the side wall of the end side of the axle sleeve (212), in the threaded hole
It is provided with the adjusting screw that may make the axle sleeve (212) to be fastened on the shaft (24), the axle sleeve (212) extends institute
It states and is detachably provided with leader (211) in the end side of lasso (213).
7. multiple-spindle winding machine as described in claim 1, which is characterized in that the single shaft coiling device further includes a setting in institute
State on rack (40) and be located at the stretching unit (50) of the coil rack (26) side comprising one is fastened on the rack
(40) the first vertical plate (51) on, one are vertically set on the first rotation on first vertical plate (51) by 3rd bearing
Mandrel (511) is fastened in the opposite both side ends of first mandrel (511) and with first mandrel
(511) first gear (53) and a swing rod (52) that rotate, one be fixed at below first vertical plate (51) the
Two vertical plates (55), one are vertically set on the second mandrel (551) on two vertical plate (55), one by fourth bearing
It is fastened on the second gear (54) being meshed on second mandrel (551) and with the first gear (53), an installation
For sensing the inductor (56) and one of the rotation angle of the second gear (54) on second mandrel (551)
The clump weight component (57) being arranged on the swing rod (52), wherein the bottom of first vertical plate (51) is fixedly installed
The level board (512) of the one rotation angle for limiting the swing rod (52), the first gear (53) and the swing rod (52)
The opposite two sides of first vertical plate (51) are located at, rotates and is provided with tensioning wheel (58) on the swing rod (52), it is described
Inductor (56) is connect by route with control unit (60);The clump weight component (57) includes that a pair is fastened on the swing rod
(52) link block (571), the connection link block (571) and the cross bar (572) being located above the swing rod (52), one on
The clump weight (573) being slidably arranged on the cross bar (572) and one is for being fastened on the cross bar for the clump weight (573)
(572) regulation handle (574) on, wherein be provided with one on the clump weight (573) and match with the regulation handle (574)
The threaded hole of conjunction.
8. multiple-spindle winding machine as claimed in claim 4, which is characterized in that the single shaft coiling device further includes a pinch roller unit
(30) comprising one be fixed on the sleeve (25) pinch roller support (31), one be fastened on the pinch roller support (31)
The support shaft (32) at top, be arranged by second bearing a pair of of swing arm (33) on the support shaft (32), one with the line
Ring framework (26) matches and the pinch roller (34) by pinch roller mandrel (341) setting in the swing arm (33) end, wherein described
Support shaft (32) is parallel to the shaft (24) setting.
9. multiple-spindle winding machine as claimed in claim 8, which is characterized in that be provided with a spacer pin on the pinch roller support (31)
Hole, activity is inserted with a limit pin shaft (311) in the limit pin hole, when coiling, by the limit pin shaft (311) from the limit
Position pin hole in extract so that swing arm (33) fall to cause the pinch roller (34) to offset with the strands on the coil rack (26),
After the completion of the coil rack (26) coiling, by the limit pin shaft (311) turn back to in the limit pin hole so that described
There are a spacing between pinch roller (34) and the coil rack (26).
10. multiple-spindle winding machine as described in claim 1, which is characterized in that the single shaft coiling device is with point of rectangular array
Mode for cloth is arranged on the rack (40), wherein the quantity of the single shaft coiling device is set as 9, the single shaft coiling
Device divides three groups of upper, middle and lowers for being separately positioned on the rack (40) into, each group include three it is described it is uniaxial around
Line apparatus.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108408476A (en) * | 2018-04-17 | 2018-08-17 | 川臻精密机械(苏州)有限公司 | A kind of multiple-spindle winding machine |
CN110054019A (en) * | 2019-04-11 | 2019-07-26 | 上海上电电机股份有限公司 | A kind of coil electromagnetism line is perpendicular around forming processing device |
-
2018
- 2018-04-17 CN CN201820549702.9U patent/CN208361547U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108408476A (en) * | 2018-04-17 | 2018-08-17 | 川臻精密机械(苏州)有限公司 | A kind of multiple-spindle winding machine |
CN110054019A (en) * | 2019-04-11 | 2019-07-26 | 上海上电电机股份有限公司 | A kind of coil electromagnetism line is perpendicular around forming processing device |
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