CN113572324B - Rotary pay-off device of multi-wire winding machine - Google Patents

Abstract

The invention discloses a rotary pay-off device of a multi-wire winding machine, which relates to the technical field of rotary pay-off devices and comprises a bracket, a pay-off mechanism and a wire outlet disc, wherein the pay-off mechanism and the wire outlet disc are arranged on the bracket, the pay-off mechanism comprises a mounting disc and a connecting disc, the center of the mounting disc is movably connected with a first gear, the peripheral wall of the first gear is in annular array meshing connection with a plurality of second gears, each second gear penetrates through the mounting disc and is fixedly connected with a wire loading device for mounting an enameled wire coil, and each wire loading device is correspondingly provided with a fixed assembly, so that a plurality of enameled wires are synchronously led out, the condition of differential speed between the wire outlet speed and the wire drawing speed of a winding machine is avoided, the wire outlet is more stable, and the suspended part of the enameled wire can be supported and impurities such as dust and the like can be timely treated, so that the product quality is improved.

Description

Rotary pay-off device of multi-wire winding machine

Technical Field

The invention relates to the technical field of rotary pay-off devices, in particular to a rotary pay-off device of a multi-wire winding machine.

Background

At present, a multi-wire winding machine for producing a motor of a battery car consists of a fixed type pay-off device and a multi-wire winding machine, wherein the conventional pay-off device is mostly matched with a support and wire guide wheels for use, and each wire guide wheel independently operates to pay off.

The Chinese patent of the invention with the publication number of CN103848268A in the prior art discloses a multi-wire winding machine rotary pay-off device, which comprises a frame, a rotary pay-off mechanism arranged on the frame, a wire outlet disc and a power assembly, wherein the rotary pay-off device mainly comprises a rotating shaft, two ends of the rotating shaft are respectively fixed with the frame and the wire outlet disc through a bearing and a bearing supporting seat, a plurality of pay-off discs are arranged on the rotating shaft, a plurality of supporting seat mechanisms for fixing the enameled wire disc and wire holes for the enameled wires to pass through are annularly arranged on each pay-off disc, each supporting seat mechanism corresponds to one tension assembly, a tension assembly fixing seat is arranged at the front end of the rotating shaft, the tension assembly fixing seat is provided with through holes corresponding to the tension assemblies, wire outlets with the number corresponding to that of the wire wheels are arranged on the wire outlet discs, the power assembly drives the rotating shaft to rotate, and the pay-off discs and the wire outlet discs coaxially rotate, the wire coil is characterized in that a synchronous wire outlet function is achieved, the enameled wire on the wire coil penetrates out of the wire outlet after passing through the tension assembly, and the enameled wire generates tension under the action of the tension assembly, so that the discharged enameled wire is in a constant tension state.

However, the rotating outgoing device of the multi-wire winding machine for the comparison document has the following defects: the power assembly drives the rotating shaft to rotate, so that the through shafts of the pay-off reel and the wire outlet reel can rotate to achieve the effect of synchronous wire outlet, but when the wire outlet device is used, the wire outlet speed of the power assembly and the wire pulling speed of a winding machine are easy to have differential speed, so that a plurality of enameled wires can be broken, knotted, wound and the like; secondly, the method comprises the following steps: when the wire outlet disc is matched with the multi-wire winding machine for paying off, the enameled wire is discharged from the wire outlet disc, but a section of suspended part is arranged between the enameled wire and the multi-wire winding machine, and the suspended part is too long, so that the enameled wire is easy to break, the enameled wire is required to be connected with the winding machine again, troubles are caused, and time is wasted; thirdly, the method comprises the following steps: when the enameled wire is outgoing, due to the influence of the outgoing environment, impurities such as dust in the air can be attached to the enameled wire, and the product quality is reduced.

Disclosure of Invention

The invention aims to provide a rotary pay-off device of a multi-wire winding machine, which aims to solve the problems that in the prior art, a wire cannot be synchronously wound, the tension force is insufficient, a suspended part is easy to break, and impurities such as dust cannot be cleaned.

The invention provides a rotary pay-off device of a multi-wire winding machine, which comprises a support, a pay-off mechanism and a wire outlet disc, wherein the pay-off mechanism and the wire outlet disc are installed on the support, the pay-off mechanism comprises an installation disc and a connection disc, the center of the installation disc is movably connected with a first gear, the peripheral wall of the first gear is in annular array meshing connection with a plurality of second gears, each second gear is fixedly connected with a wire loading device for installing an enameled wire coil, and the wire loading devices are arranged on the peripheral wall of the connection disc in annular array. The enameled wire drum is in for the mounting means of fixed joint on the wiring device, install on the wiring device through the mode of fixed joint, all correspond on every wiring device and be provided with fixed subassembly, it has a plurality of fixed third line holes of having seted up that are annular array to go out to be equipped with a plurality of being on the drum, wherein runs through in proper order after the line in the enameled wire drum is pulled out wiring device and third line hole.

Further, every dress traditional thread binding putting all includes erection column and chassis, erection column one end with second gear fixed connection, the chassis is close to the one end fixedly connected with rotation axis of erection column, the rotation axis with erection column swivelling joint, fixedly connected with tensioning assembly on the chassis, the chassis is kept away from a terminal surface fixedly connected with handle and the fixed block of erection column, the fixed block with fixed subassembly swing joint.

Further, the tensioning assembly comprises a sliding rail, a first spring group and a wire hole plate which are symmetrically arranged, a first wire hole is fixedly formed in the middle of the wire hole plate, a sliding rod is fixedly connected to the bottom of the wire hole plate, two ends of the sliding rod are embedded into the sliding rail, the bottom of the sliding rod is fixedly connected with the first spring group, and the first spring group is fixed to the outer peripheral wall of the chassis.

Further, fixed subassembly includes three closing device of group, and three groups closing device is annular equidistance and distributes around the chassis, every group closing device all includes the installation piece, the fixed shifting chute of having seted up in the installation piece, fixedly connected with second spring assembly in the shifting chute, the bottom of fixed block with chassis edge top fixed connection, second spring assembly bottom with fixed block top fixed connection.

Further, the last first sleeve of fixedly connected with of axis in the mounting disc outer wall, the mounting disc passes through first sleeve with connection pad fixed connection, the connection pad is kept away from one side fixedly connected with second sleeve of mounting disc, be the annular array fixedly connected with strutting arrangement on the second sleeve, fixedly connected with telescopic link on the play drum, the telescopic link with second sleeve fixed connection, first sleeve runs through the connection pad with second sleeve intercommunication is connected, just first sleeve with the inside of second sleeve link up each other, fixedly connected with transmission shaft on the first gear, the transmission shaft runs through in proper order first sleeve and second sleeve and tip fixedly connected with half-gear dish, half-gear dish with the strutting arrangement transmission is connected.

Further, strutting arrangement includes the connecting cylinder, connecting cylinder top fixedly connected with second line hole, the subassembly that resets and drive assembly are cleaned to the inside fixedly connected with of connecting cylinder, the subassembly that resets is in clean the below of subassembly, drive assembly sets up clean one side of subassembly, drive assembly passes through half gear disc drives, drive assembly with clean the subassembly transmission and be connected.

Further, the transmission assembly comprises a first transmission gear and a second transmission gear, the first transmission gear is in transmission connection with a connecting belt between the second transmission gears, the first transmission gear is located below the second transmission gears, the first transmission gear is in meshing connection with the half gear disc, and the second transmission gears are in transmission connection with the wiping assembly.

Further, clean the subassembly and include a driving plate, two elastic plates, one side fixedly connected with driving gear that the driving plate is close to second drive gear, the driving gear with the meshing of second drive gear is connected, two the elastic plate symmetry fixed mounting be in driving plate top both sides, every fixedly connected with sponge on the elastic plate, the export has been seted up to connecting cylinder top bilateral symmetry is fixed, export top and the equal fixedly connected with dust absorption board in bottom.

Further, the reset assembly comprises a third spring group and a base, the base is fixedly connected with the outer wall of the second sleeve, the top of the base is fixedly connected with the third spring group, and the top of the third spring group is fixedly connected with the bottom of the transmission plate.

Further, the support includes bottom plate, supporting seat and curb plate, the supporting seat have two and fix the bottom plate top, two the supporting seat respectively with it is qualified for the next round of competitions dish and mounting disc fixed connection, the curb plate is fixed the top of bottom plate, the at least one side top fixedly connected with arc roof of curb plate.

Compared with the prior art, the invention has the beneficial effects that:

(1) according to the invention, the plurality of enameled wire coils synchronously rotate with the first gear through the wire loading device, so that the plurality of enameled wire coils are in a synchronous wire outlet state, the conditions of nonuniform wire outlet and easy knotting of wire outlet are effectively avoided, the transmission effect of the gear also effectively ensures the stability of synchronous wire outlet, and the enameled wire coils are driven only by the winding machine without a driving device, so that the conditions of differential speed between the wire outlet rate and the wire pulling rate of the winding machine are avoided, and the wire outlet is more stable.

(2) According to the invention, the enameled wire is subjected to the pressure of the tensioning assembly and the downward pressure during wire drawing through the tensioning assembly, so that the enameled wire can be in a tightened state under any condition under the action of two forces, and the problems of uneven wire outlet and winding and knotting of a plurality of wires caused by simultaneous multi-wire discharging are avoided.

(3) According to the invention, the enameled wire penetrates through the second wire hole and then is connected with the winding machine, when the winding machine pulls the enameled wire coil to be led out, the enameled wire is in a suspended state in the air and is influenced by tension and gravity, when the suspended part is too long, the enameled wire is easy to break, and the supporting force can be effectively provided for the suspended part through the supporting device, so that the situation that the enameled wire is broken is avoided.

(4) According to the invention, the sponge can be driven to wipe the enameled wire in a reciprocating manner through the rotation of the half gear disc, so that dust and impurities on the enameled wire are cleaned, the phenomenon that the quality of a product is affected due to excessive enameled wire impurities on the product is avoided, the supporting effect of the supporting device on the suspended part of the enameled wire can be further enhanced, when the sponge moves in a reciprocating manner at an outlet, the dust on the sponge can be timely treated by the dust collection plate, the cleanliness of the sponge is improved, and the efficiency of wiping the enameled wire is improved.

(5) According to the invention, a user can conveniently pull the base plate through the handle to separate the base plate from the mounting column, so that the mounting or dismounting opening is opened, then the enameled wire coil is sleeved in the mounting column, then the handle is loosened, the base plate is reset under the action of the second spring group, the enameled wire coil is blocked, and dismounting and mounting are completed.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a first overall structure diagram of the present embodiment;

FIG. 2 is a perspective view of the bracket;

FIG. 3 is an enlarged view of FIG. 2 at B;

FIG. 4 is a second overall structural diagram of the present embodiment;

FIG. 5 is a schematic perspective view of a pay-off mechanism according to an embodiment;

FIG. 6 is an enlarged view taken at A in FIG. 5;

FIG. 7 is a perspective view of the tensioning assembly;

FIG. 8 is a perspective view of the fixing member;

FIG. 9 is a schematic view of an assembly structure of the supporting device and the paying-off mechanism;

FIG. 10 is an enlarged view at C of FIG. 9;

fig. 11 is an enlarged view of fig. 10 at D.

In the figure: 100. a support; 110. a base plate; 120. a supporting seat; 130. a side plate; 140. an arc-shaped top plate; 200. a pay-off mechanism; 210. mounting a disc; 211. a first gear; 212. a second gear; 220. a connecting disc; 300. wire outlet disc; 310. a third wire hole; 320. a telescopic rod; 400. a wire loading device; 410. mounting a column; 420. a chassis; 421. a rotating shaft; 422. a handle; 423. a fixed block; 430. a tension assembly; 431. a slide rail; 432. a first spring set; 433. a wire hole plate; 434. a first wire hole; 435. a slide bar; 500. a first sleeve; 600. a fixing assembly; 610. mounting blocks; 620. a moving groove; 630. a second spring set; 700. a second sleeve; 800. a support device; 810. a connecting cylinder; 811. a second wire hole; 812. an outlet; 813. a dust collection plate; 820. a wiping component; 821. a drive plate; 822. an elastic plate; 823. a transmission gear; 824. a sponge; 830. a reset assembly; 831. a third spring set; 832. a base; 840. a transmission assembly; 841. a first drive gear; 842. a second transmission gear; 843. a connecting belt; 900. a drive shaft; 910. a half-gear disc.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention.

The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 11, an embodiment of the present invention provides a rotary pay-off device for a multi-wire winding machine, including a support 100, a pay-off mechanism 200 installed on the support 100, and a pay-off disk 300, where the pay-off mechanism 200 includes a mounting disk 210 and a connecting disk 220, the center of the mounting disk 210 is movably connected with a first gear 211, the outer peripheral wall of the first gear 211 is in an annular array and is engaged with a plurality of second gears 212, each second gear 212 is fixedly connected with a wire loading device 400 for installing an enameled wire coil, and the plurality of wire loading devices 400 are arranged on the outer peripheral wall of the connecting disk 220 in an annular array. The enameled wire drum is installed on wiring device 400 through the mode of fixed joint, all corresponds on every wiring device 400 and is provided with fixed subassembly 600, is equipped with a plurality of third wire holes 310 that are the annular array on the dish 300 of being qualified for the next round of competitions, wherein runs through wiring device 400 and third wire hole 310 in proper order after the line in the enameled wire drum is pulled out.

Specifically, the method comprises the following steps: the opening of the wire loading device 400 is opened by the fixing assembly 600, so that a user can conveniently put a plurality of enameled wire coils into the corresponding wire loading devices 400 in a one-to-one correspondence manner respectively, then the enameled wire coils are fixed by the corresponding fixing assemblies 600, wherein the enameled wire coils are clamped and fixed with the wire loading devices 400, then the enameled wires are pulled out, the enameled wires sequentially penetrate through the wire loading devices 400, the second wire holes 811 and the third wire holes 310 to be connected with a winding machine, the winding machine is started to pull a plurality of enameled wires, so that the enameled wire coils and the wire loading devices 400 are driven to synchronously rotate, because the plurality of wire loading devices 400 are in meshed connection with the second gears 212, and the plurality of second gears 212 are in meshed connection with the first gear 211, the rotation of the plurality of second gears 212 is synchronously rotated with the same first gear 211, the synchronous rotation of the plurality of second gears 212 is ensured, and the wire outlet synchronism of the enameled wires coils is also ensured, the condition that the outgoing line is uneven and the outgoing line is easy to tie is effectively avoided, a driving device is not needed, the outgoing line is driven only by the winding machine, the condition that the speed of the outgoing line and the speed of the winding machine are differential is avoided, and the outgoing line is more stable.

Every wiring device 400 all includes erection column 410 and chassis 420, erection column 410 one end and second gear 212 fixed connection, chassis 420 is close to the one end fixedly connected with rotation axis 421 of erection column 410, rotation axis 421 and erection column 410 swivelling joint, fixedly connected with tensioning assembly 430 on the chassis 420, a terminal surface fixedly connected with handle 422 and fixed block 423 that erection column 410 was kept away from to chassis 420, fixed block 423 and fixed assembly 600 swing joint.

Specifically, the method comprises the following steps: when installing the enameled wire drum, embolia the enameled wire drum and block fixedly in erection column 410 to keep out through chassis 420, when pulling the enameled wire drum, the enameled wire drum can take place rotatoryly, and at this moment rotation axis 421 makes erection column 410 rotate along chassis 420, and chassis 420 need not to rotate. While rotation of the mounting post 410 causes the second gear 212 to rotate synchronously.

Tensioning assembly 430 includes slide rail 431, first spring group 432 and line hole board 433 that the symmetry set up, and first line hole 434 has been fixed to having seted up in the middle of the line hole board 433, and line hole board 433 bottom fixedly connected with slide bar 435, the embedding of slide bar 435 both ends in slide rail 431, slide bar 435 bottom and first spring group 432 fixed connection, and first spring group 432 is fixed on chassis 420's periphery wall.

Specifically, the method comprises the following steps: the enameled wire is pulled out and passes through a first wire hole 434, and the wire hole plate 433 is similar to the action of a middle supporting rod between the enameled wire coil and the winding machine, and there are two cases, the first: the wire drawing height of the winding machine is lower than the position of the first wire hole 434, at this time, the winding machine produces a downward pressure on the enameled wire when drawing the wire, so that the first spring group 432 moves downward under the pressure until the elastic force of the first spring group 432 is balanced with the downward pressure of the enameled wire, and in the process, the movement of the first spring group 432 drives the sliding rod 435 and the wire hole plate 433 to move synchronously, so that the enameled wire is driven to move downward, and under the interaction of the two forces, the enameled wire is in a tightened state; and the second method comprises the following steps: the coiling machine is acted as go-between highly be higher than first pore 434's height, the coiling machine can not produce a decurrent pressure to the enameled wire when acting as go-between this moment, just also can't compress tightly first spring unit 432, but first spring unit 432 is because self elastic effect can the rebound, thereby can drive the synchronous rebound of enameled wire, make the enameled wire can receive the decurrent pressure that produces when coming from the coiling machine and acting as go-between, from this under the effect of two kinds of power, make the enameled wire be in the state of tightening at the in-process of acting as go-between, thereby the enameled wire can both be in the state of tightening under any circumstances, it is inhomogeneous to be qualified for the next round of competitions that causes when having avoided the multi-thread to emit simultaneously, the problem that many line materials twine and knot.

Fixed subassembly 600 includes three closing devices of group, and three closing device of group are annular equidistance and distribute around chassis 420, and every closing device of group all includes installation piece 610, and fixed moving groove 620 has been seted up in installation piece 610, fixedly connected with second spring assembly 630 in the moving groove 620, the bottom and chassis 420 edge top fixed connection of fixed block 423, second spring assembly 630 bottom and fixed block 423 top fixed connection.

Specifically, three closing device of group can be fixed the enameled wire drum from different position, improve fixed stability, in installation or dismantlement enameled wire drum, at first through handle 422 person of facilitating the use pulling chassis 420, make chassis 420 break away from erection column 410, second spring assembly 630 compresses in to shifting chute 620 this moment, thereby open the opening of installation or dismantlement, then embolia the enameled wire drum in erection column 410, loosen handle 422 after that, under the effect of second spring assembly 630, second spring assembly 630 resets extrusion fixed block 423, thereby drive chassis 420 and reset, chassis 420 blocks the enameled wire drum, accomplish the dismouting.

Fixedly connected with first sleeve 500 on the axis of mounting disc 210 outer wall, mounting disc 210 is through first sleeve 500 and connection pad 220 fixed connection, one side fixedly connected with second sleeve 700 that mounting disc 210 was kept away from to connection pad 220, be annular array fixedly connected with strutting arrangement 800 on the second sleeve 700, be fixedly connected with telescopic link 320 on the dish 300 of being qualified for the next round of competitions, telescopic link 320 and second sleeve 700 fixed connection, first sleeve 500 runs through connection pad 220 and is connected with second sleeve 700, and first sleeve 500 link up each other with the inside of second sleeve 700, fixedly connected with transmission shaft 900 on first gear 211, transmission shaft 900 runs through first sleeve 500 and second sleeve 700 and tip fixedly connected with half-gear dish 910 in proper order, half-gear dish 910 is connected with strutting arrangement 800 transmission.

Specifically, the method comprises the following steps: when the winding machine pulls the enameled wire to be led out, the transmission shaft 900 synchronously rotates along with the first gear 211, so that the half gear plate 910 synchronously rotates, and the half gear plate 910 is a wheel plate of a half-cycle gear.

The supporting device 800 comprises a connecting cylinder 810, a second wire hole 811 is fixedly connected to the top of the connecting cylinder 810, a wiping component 820, a resetting component 830 and a transmission component 840 are fixedly connected to the inside of the connecting cylinder 810, the resetting component 830 is located below the wiping component 820, the transmission component 840 is arranged on one side of the wiping component 820, the transmission component 840 is driven through a half-gear plate 910, and the transmission component 840 is in transmission connection with the wiping component 820.

Specifically, the method comprises the following steps: the enameled wire passes second line hole 811 and then is connected with the coiling machine, and the coiling machine is when pulling the enameled wire drum and be qualified for the next round of competitions, because the enameled wire is in unsettled state in the air, the enameled wire receives the influence of tensile force and gravity this moment, and when unsettled part was too long, cracked condition takes place for the enameled wire easily, can effectually provide the dynamics of a support at unsettled part through strutting arrangement 800, avoids the enameled wire to take place cracked condition.

The transmission assembly 840 comprises a first transmission gear 841 and a second transmission gear 842, a connection belt 843 is connected between the first transmission gear 841 and the second transmission gear 842 in a transmission manner, the first transmission gear 841 is positioned below the second transmission gear 842, the first transmission gear 841 is meshed with the half-gear plate 910, the second transmission gear 842 is connected with the wiping assembly 820 in a transmission manner, the wiping assembly 820 comprises a transmission plate 821 and two elastic plates 822, one side of the transmission plate 821, which is close to the second transmission gear 842, is fixedly connected with a transmission tooth 823, the transmission tooth 823 is meshed with the second transmission gear 842, the two elastic plates 822 are symmetrically and fixedly arranged at two sides of the top of the transmission plate 821, each elastic plate 822 is fixedly connected with a sponge 824, two sides of the top of the connection cylinder 810 are symmetrically and fixedly provided with an outlet 812, the top and the bottom of the outlet 812 are both fixedly connected with a dust collection plate 813, the reset assembly 830 comprises a third spring group 831 and a base 832, the base 832 is fixedly connected with the outer wall of the second sleeve 700, the top of the base 832 is fixedly connected with the third spring group 831, and the top of the third spring group 831 is fixedly connected with the bottom of the driving plate 821.

Specifically, the method comprises the following steps: when the half gear plate 910 rotates, when the half peripheral wall of the half gear plate 910 with teeth drives the first transmission gear 841 to rotate, the first transmission gear 841 drives the second transmission gear 842 to rotate through the connection belt 843, the rotation of the second transmission gear 842 drives the transmission plate 821 to move upwards through the transmission gear 823, so that the transmission plate 821 pushes the two elastic plates 822 to move upwards, thereby pushing the two sponges 824 out of the connection cylinder 810, so that the sponges 824 wipe the enameled wires, thereby cleaning dust and impurities on the enameled wires, avoiding excessive impurities on the enameled wires and affecting the product quality, and playing a role of supporting in the cleaning process, further enhancing the supporting effect of the supporting device 800 on the suspended part of the enameled wires, when the half peripheral wall of the half gear plate 910 without teeth is close to the first transmission gear 841, at this time, the half gear plate 910 no longer has a transmission effect on the first transmission gear 841, therefore, under the action of the third spring group 831, the transmission plate 821 moves downwards, the sponge 824 is retracted, the sponge 824 can be driven to wipe the enameled wire in a reciprocating manner through the rotation of the half gear plate 910, when the sponge 824 moves in a reciprocating manner at the outlet 812, the dust suction plate 813 can timely treat dust on the sponge 824, the smoothness of the sponge 824 is improved, and the efficiency of wiping the enameled wire is improved, the dust suction plate 813 can be a panel with an electrostatic effect or a rubber panel with an adsorption effect, and because the two sponges 824 exit from two sides of the top of the transmission plate 821, the front sponge 824 is not wiped, and the rear sponge 824 can be supplemented.

The support 100 comprises a bottom plate 110, two support seats 120 and a side plate 130, wherein the two support seats 120 are fixed on the top of the bottom plate 110, the two support seats 120 are respectively fixedly connected with an outgoing line disc 300 and an installation disc 210, the side plate 130 is fixed on the top of the bottom plate 110, and the top of at least one side of the side plate 130 is fixedly connected with an arc-shaped top plate 140.

Specifically, the method comprises the following steps: the arc-shaped top plate 140 only shields and covers the device from one side, firstly, impurities above the arc-shaped top plate can be effectively blocked, and secondly, the arc-shaped top plate has larger space for a user to operate the device.

The working principle is as follows: firstly, a user can conveniently pull the base plate 420 through the handle 422 to separate the base plate 420 from the mounting column 410 so as to open an opening for mounting or dismounting, then the enameled wire coil is sleeved in the mounting column 410, then the handle 422 is loosened, the base plate 420 is reset under the action of the second spring group 630 to block the enameled wire coil to complete mounting, then a plurality of enameled wires are connected with the winding machine, the winding machine starts to pull a plurality of enameled wires so as to drive a plurality of enameled wire coils and the wire loading device 400 to synchronously rotate, because the plurality of wire loading devices 400 are in meshed connection with the second gear 212 and the plurality of second gears 212 are in meshed connection with the first gear 211, the rotation of the plurality of second gears 212 synchronously rotates with the same first gear 211, the synchronous rotation of the plurality of second gears 212 is ensured, the synchronism of the enameled wire coils is also ensured, and uneven wire outlet is effectively avoided, the condition of being qualified for the next round of competitions easily knottes, at the in-process of acting as go-between, tensioning assembly 430 can make the enameled wire be in the state of tightening, and can effectually provide the dynamics of a support at the unsettled part of enameled wire through strutting arrangement 800, avoids the enameled wire to take place cracked condition, and last half gear plate 910, clean subassembly 820, reset component 830 and drive assembly 840's combination cleans the enameled wire and clears up dust impurity and improve strutting arrangement 800's supporting effect simultaneously, the effectual quality that improves the product.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (9)

1. The utility model provides a rotatory pay-off of multi-thread winding machine, includes support (100), installs paying out machine structure (200) and play drum (300) on support (100), its characterized in that: the paying-off mechanism (200) comprises an installation disc (210) and a connection disc (220), wherein the center of the installation disc (210) is movably connected with a first gear (211), the outer peripheral wall of the first gear (211) is in meshing connection with a plurality of second gears (212), each second gear (212) is fixedly connected with a wire loading device (400) for installing an enameled wire coil, the wire loading devices (400) are arranged on the outer peripheral wall of the connection disc (220) in an annular array mode, the enameled wire coil is installed on the wire loading devices (400) in a fixed clamping mode, each wire loading device (400) is correspondingly provided with a fixed assembly (600), a plurality of third wire holes (310) which are in the annular array mode are formed in the wire outlet disc (300), and wires in the enameled wire coil sequentially run through the wire loading devices (400) and the third wire holes (310) after being pulled out, every dress traditional thread binding putting (400) all includes erection column (410) and chassis (420), erection column (410) one end with second gear (212) fixed connection, one end fixedly connected with rotation axis (421) that chassis (420) are close to erection column (410), rotation axis (421) with erection column (410) swivelling joint, fixedly connected with tensioning assembly (430) on chassis (420), keep away from chassis (420) a terminal surface fixedly connected with handle (422) and fixed block (423) of erection column (410), fixed block (423) with fixed subassembly (600) swing joint.

2. The rotary pay-off device for multi-wire winding machines according to claim 1, characterized in that: tensioning subassembly (430) is including slide rail (431), first spring assembly (432) and line orifice plate (433) that the symmetry set up, first line hole (434) have been fixed to seted up in the middle of line orifice plate (433), line orifice plate (433) bottom fixedly connected with slide bar (435), the embedding of slide bar (435) both ends in slide rail (431), slide bar (435) bottom with first spring assembly (432) fixed connection, first spring assembly (432) are fixed on the periphery wall of chassis (420).

3. The rotary pay-off device for multi-wire winding machines according to claim 1, characterized in that: fixed subassembly (600) includes three groups closing device, and three groups closing device is annular equidistance and distributes around chassis (420), every group closing device all includes installation piece (610), fixed moving groove (620) have been seted up in installation piece (610), fixedly connected with second spring group (630) in moving groove (620), the bottom of fixed block (423) with chassis (420) edge top fixed connection, second spring group (630) bottom with fixed block (423) top fixed connection.

4. The rotary pay-off device for multi-wire winding machines according to claim 1, characterized in that: fixedly connected with first sleeve (500) on the axis in mounting disc (210) outer wall, mounting disc (210) pass through first sleeve (500) with connection pad (220) fixed connection, connection pad (220) are kept away from one side fixedly connected with second sleeve (700) of mounting disc (210), be annular array fixedly connected with strutting arrangement (800) on second sleeve (700), fixedly connected with telescopic link (320) on play drum (300), telescopic link (320) with second sleeve (700) fixed connection, first sleeve (500) run through connection pad (220) with second sleeve (700) are connected, just first sleeve (500) with the inside of second sleeve (700) link up each other, fixedly connected with transmission shaft (900) on first gear (211), transmission shaft (900) run through in proper order first sleeve (500) and second sleeve (700) and tip fixedly connected with half gear A plate (910), the half gear plate (910) being in driving connection with the support device (800).

5. The rotary pay-off device for multi-wire winding machines according to claim 4, characterized in that: the supporting device (800) comprises a connecting cylinder (810), a second wire hole (811) is fixedly connected to the top of the connecting cylinder (810), a wiping component (820), a resetting component (830) and a transmission component (840) are fixedly connected to the inside of the connecting cylinder (810), the resetting component (830) is located below the wiping component (820), the transmission component (840) is arranged on one side of the wiping component (820), the transmission component (840) is driven through the half-gear disc (910), and the transmission component (840) is in transmission connection with the wiping component (820).

6. The rotary pay-off device for multi-wire winding machines according to claim 5, characterized in that: the transmission assembly (840) comprises a first transmission gear (841) and a second transmission gear (842), the first transmission gear (841) is in a transmission connection with a connecting belt (843) between the second transmission gear (842), the first transmission gear (841) is in the lower part of the second transmission gear (842), the first transmission gear (841) is in a meshing connection with the half-gear disc (910), and the second transmission gear (842) is in a transmission connection with the wiping assembly (820).

7. The rotary pay-off device for multi-wire winding machines according to claim 5, characterized in that: wipe subassembly (820) and include a driving plate (821), two elastic plate (822), one side fixedly connected with driving tooth (823) that driving plate (821) is close to second drive gear (842), driving tooth (823) with second drive gear (842) meshing is connected, two elastic plate (822) symmetry fixed mounting be in driving plate (821) top both sides, every fixedly connected with sponge (824) are gone up in elastic plate (822), export (812) have been seted up to connecting cylinder (810) top bilateral symmetry fixed, export (812) top and the equal fixedly connected with dust absorption board (813) in bottom.

8. The rotary pay-off device for multi-wire winding machines according to claim 7, characterized in that: the reset assembly (830) comprises a third spring set (831) and a base (832), the base (832) is fixedly connected with the outer wall of the second sleeve (700), the top of the base (832) is fixedly connected with the third spring set (831), and the top of the third spring set (831) is fixedly connected with the bottom of the transmission plate (821).

9. The rotary pay-off device for multi-wire winding machines according to claim 1, characterized in that: support (100) include bottom plate (110), supporting seat (120) and curb plate (130), supporting seat (120) have two and fix bottom plate (110) top, two supporting seat (120) respectively with go out drum (300) and mounting disc (210) fixed connection, curb plate (130) are fixed the top of bottom plate (110), one side top fixedly connected with arc roof (140) of curb plate (130).

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