CN205881688U - Coaxial poor step is sent traditional thread binding coiling machine of putting and having it - Google Patents

Abstract

The utility model discloses a coaxial poor step is sent traditional thread binding coiling machine of putting and having it, including first pivot, a drive arrangement, second pivot and the 2nd drive arrangement, wherein, coaxial being provided with can be along with the first action wheel of first pivot synchronous revolution and the first driving wheel of following that can be rotatory for first pivot in the first pivot, a drive arrangement is used for driving first pivot is rotatory, parallel arrangement about second pivot and the first pivot, coaxial being provided with can be along with the second action wheel of second pivot synchronous revolution and second from driving wheel that can be rotatory for the second pivot in the second pivot, first wire rod is carried with the first driving wheel relative up -down that follows with common centre gripping to the second action wheel, and second wire rod is carried with first action wheel relative up -down with common centre gripping from the driving wheel to the second, the 2nd drive arrangement is used for driving the second pivot is rotatory. According to the utility model provides a coaxial poor step is sent traditional thread binding putting, and its structure is very simple, and the cost is lower, and can realize wire rod conveying length's long regulation of benefit.

Description

Coaxial poor step wire-sending device and there is its coil winding machine

Technical field

This utility model relates to wire-sending device, particularly relates to a kind of coaxial poor step wire-sending device and has its coil winding machine.

Background technology

Some relate to the equipment of wire rod, during its processing and manufacturing, the most all can use wire-sending device and carry out wire rod Conveying, recycle other devices and the wire rod sent here be processed.Such as, in the field such as known motor, transformator, Need to be wound on by enamel-covered wire on iron core or magnetic core and then form coil, in its concrete manufacture process, the coiling that typically can utilize Machine carries out coiling, and one of them key component in coil winding machine is exactly wire-sending device.

Existing wire-sending device, generally comprises driving motor, driving shaft, driven shaft, drivewheel and driven pulley, wherein, drives Moving axis is connected with driving motor with by driving motor to drive rotation, and drivewheel arranges on the driving shaft and can synchronize with drive shaft Rotate, driven shaft be arranged in parallel with driving shaft, driven pulley be arranged on driven shaft and can with driven shaft synchronous rotary, while from Driving wheel and drivewheel recline setting.When specific works, wire rod is clamped by driven pulley and drivewheel, drive when driving motor When driving shaft rotates, drivewheel rotates with and then is fed forward by wire rod.

Obviously, above-mentioned wire-sending device can only carry single line material, or both threads material is carried out synchronous transport, and if needed Will the delivered length of conveying asynchronous to both threads material, i.e. both threads material when requiring different, then need independent above-mentioned of two sets to send Line apparatus, it is obvious that the structure of the two above-mentioned wire-sending devices of set is complex, and cost is multiplied.Simultaneously as two sets are solely Vertical above-mentioned wire-sending device includes two driving shafts and two driven shafts, and two groups of drivewheels and driven pulley are respectively arranged at difference Driving shaft and driven shaft on, accordingly, it would be desirable to control respectively, its control operation complexity.

Utility model content

This utility model is intended to one of technical problem at least solving prior art existence, to this end, of the present utility model one Individual purpose is to provide a kind of coaxial poor step wire-sending device.

Another purpose of the present utility model is to provide a kind of coil winding machine with above-mentioned coaxial poor step wire-sending device.

For achieving the above object, on the one hand, this utility model provide coaxial poor step wire-sending device, including:

First rotating shaft, it is coaxially arranged with can be with the first drivewheel of described first rotating shaft synchronous rotary and can be relative In the first driven pulley that described first rotating shaft rotates；

First driving means, in order to drive described first rotating shaft to rotate；

Second rotating shaft, be arranged in parallel up and down with described first rotating shaft, and described second rotating shaft is coaxially arranged with can be with described Second drivewheel of the second rotating shaft synchronous rotary and the second driven pulley that can rotate relative to described second rotating shaft；Described second Drivewheel is the most relative with described first driven pulley carries the first wire rod, described second driven pulley and described first with common clamping Drivewheel carries the second wire rod with common clamping up and down relatively；

Second driving means, in order to drive described second rotating shaft to rotate.

The coaxial poor step wire-sending device provided according to this utility model embodiment, it is only necessary to two rotating shaft (the i.e. first rotating shafts With the second rotating shaft), two rotating shafts are respectively provided with can with the drivewheel of rotating shaft synchronous rotary and can relative to rotating shaft rotate Driven pulley, so, a corresponding drivewheel and a driven pulley coordinate, and so, can form two groups of drivewheels and driven pulley, And then carry the first wire rod and the second wire rod respectively, need two to overlap independent line sending relative to prior art carries both threads material For device, its structure is very simple, and the equipment cost of wire-sending device is lower.Set additionally, two groups of drivewheels are corresponding with driven pulley Putting in two rotating shafts, as long as stopping the rotation of a wherein rotating shaft, the conveying that can make the first wire rod and the second wire rod is long Degree difference, it is, the delivered length of both threads material can freely be regulated, mends long purpose from reaching wire rod delivered length, its knot Structure is simple, controls easy to operate.

It addition, can also have the technical characteristic added as follows according to the coaxial poor step wire-sending device of utility model:

According to an embodiment of the present utility model, also include:

It is arranged in parallel about the 3rd rotating shaft, with described first rotating shaft, and by the first drive mechanism and described first rotating shaft Being connected, to be formed and described first rotating shaft synchronous rotary, described 3rd rotating shaft is coaxially arranged with can be same with described 3rd rotating shaft Walk the 3rd drivewheel rotated and the 3rd driven pulley that can rotate relative to described 3rd rotating shaft；

4th rotating shaft, be arranged in parallel up and down with described 3rd rotating shaft, by the second drive mechanism and described second rotating shaft phase Even, to be formed and described second rotating shaft synchronous rotary, described 4th rotating shaft is coaxially arranged with and can synchronize with described 4th rotating shaft The 4th drivewheel rotated and the 4th driven pulley that can rotate relative to described 4th rotating shaft；

Described 4th driven pulley is the most relative with described 3rd drivewheel carries described first wire rod with common clamping；Described 4th drivewheel is the most relative with described 3rd driven pulley carries described second wire rod with common clamping.

According to an embodiment of the present utility model, described first drive mechanism includes the first belt wheel, the second belt wheel and One transmission band, described first belt wheel is arranged in described first rotating shaft, and described second belt wheel is arranged in described 3rd rotating shaft, institute State the first transmission band to be sheathed on described first belt wheel and the second belt wheel；

Described second drive mechanism includes that the 3rd belt wheel, the 4th belt wheel and the second transmission band, described 3rd belt wheel are arranged at In described second rotating shaft, described 4th belt wheel is arranged in described 4th rotating shaft, and described second transmission band is sheathed on the described 3rd On belt wheel and the 4th belt wheel.

According to an embodiment of the present utility model, also include that slack adjuster, described slack adjuster include:

Fixing seat, described fixing seat is provided with vertically extending chute；

First sliding shoe, described first sliding shoe can be arranged in described chute with being slidable in the vertical direction, and described first Rotating shaft and the 3rd rotating shaft are arranged on described first sliding shoe along the longitudinal direction, and can rotate relative to described first sliding shoe；

First actuator, in order to drive described first sliding shoe to slide in described chute；

The second sliding shoe, described the second sliding shoe can be arranged in described chute with being slidable in the vertical direction, and with described First sliding shoe is arranged up and down, and described second rotating shaft and the 4th rotating shaft are arranged on described the second sliding shoe along the longitudinal direction, and Can rotate relative to described the second sliding shoe；

Second actuator, in order to drive described the second sliding shoe to slide in described slip.

According to an embodiment of the present utility model, described first actuator includes:

First screw rod, described first screw rod is vertically extending, and its one end and described first sliding shoe threaded engagement；

First knob, described first knob is rotatably disposed on described fixing seat, and with described first screw rod The other end connects, and drives for operation described first screw rod to rotate, and then drives described first sliding shoe to slide along the vertical direction Dynamic.

According to an embodiment of the present utility model, described second actuator includes:

Second screw rod, described second screw rod is vertically extending, and its one end is joined with described the second sliding shoe screw thread Close；

Second knob, described second knob is rotatably disposed on described fixing seat, and with described second screw rod The other end connects, and drives for operation described second screw rod to rotate, and then drives described second slide block to be slidable in the vertical direction.

According to an embodiment of the present utility model, described fixing seat includes:

Substrate, described substrate is provided with vertically extending hollow hole；

Two side block bars, two described side block bars are relatively arranged on described substrate back and are positioned at the left and right of described hollow hole Both sides, and limited described chute, described chute communicates with described hollow hole, described first, second, third and fourth rotating shaft Pass from described hollow hole.

According to an embodiment of the present utility model, described first sliding shoe forwardly convex formation the first positive stop lug boss, institute Stating the second sliding shoe forwardly convex formation the second positive stop lug boss, described first positive stop lug boss and the second positive stop lug boss are arranged in up and down In described hollow hole.

According to an embodiment of the present utility model, on the upside of described substrate back, it is provided with the first fixed block, described first rotation Button portion is rotatably disposed in described first fixed block, is provided with the second fixed block, described second knob on the downside of described substrate back It is rotatably disposed in described second fixed block.

On the other hand, the coil winding machine that this utility model provides, there is coaxial poor step wire-sending device as above.

Additional aspect of the present utility model and advantage will part be given in the following description, and part will be from explained below In become obvious, or recognized by practice of the present utility model.

Accompanying drawing explanation

Fig. 1 is the axonometric chart of coaxial poor one embodiment of step wire-sending device of this utility model；

Fig. 2 is the axonometric chart of coaxial poor step another embodiment of wire-sending device of this utility model；

Fig. 3 is the front view of coaxial poor step another embodiment of wire-sending device of this utility model；

Fig. 4 is the structural representation of coaxial poor another embodiment of the step wire-sending device (removing substrate) of this utility model；

Fig. 5 is the front view of coaxial poor another embodiment of the step wire-sending device (removing substrate) of this utility model；

Fig. 6 is the axonometric chart at another one visual angle of embodiment of the coaxial poor step wire-sending device of this utility model；

Fig. 7 is the axonometric chart at coaxial poor another another visual angle of embodiment of step wire-sending device of this utility model.

Reference:

First rotating shaft 10；

First drivewheel 101；

First driven pulley 102；

Second rotating shaft 11；

Second drivewheel 111；

Second driven pulley 112；

3rd rotating shaft 12；

3rd drivewheel 121；

3rd driven pulley 122；

4th rotating shaft 13；

4th drivewheel 131；

4th driven pulley 132；

First driving means 14；

Second driving means 15；

First drive mechanism 16；

First belt wheel 161；

Second belt wheel 162；

First transmission band 163；

Second drive mechanism 17；

4th belt wheel 171；

3rd belt wheel 172；

Second transmission band 173；

Fixing seat 18；

Substrate 181；

Side block bar 182,183；

First fixed block 184；

Second fixed block 185；

First sliding shoe 19；

First positive stop lug boss 191；

The second sliding shoe 20；

Second positive stop lug boss 201；

First actuator 21；

First screw rod 211；

First knob 212；

Second actuator 22；

Second screw rod 221；

Second knob 222；

Guider 23；

First wire rod 24；

Second wire rod 25；

Magnetic core 26.

The realization of this utility model purpose, functional characteristics and advantage will in conjunction with the embodiments, are described further referring to the drawings.

Detailed description of the invention

Of the present utility model embodiment is described below in detail, and the example of described embodiment is shown in the drawings, the most ad initio Represent same or similar element to same or similar label eventually or there is the element of same or like function.Below by ginseng It is exemplary for examining the embodiment that accompanying drawing describes, it is intended to be used for explaining this utility model, and it is not intended that to this utility model Restriction.

In description of the present utility model, it is to be understood that term " " center ", " longitudinally ", " laterally ", " length ", " width Degree ", " thickness ", " on ", D score, "front", "rear", "left", "right", " vertically ", " level ", " top ", " end " " interior ", " outward ", " suitable Hour hands ", the orientation of the instruction such as " counterclockwise " or position relationship be based on orientation shown in the drawings or position relationship, merely to just Describe in description this utility model and simplification rather than indicate or imply that the device of indication or element must have specific side Position, with specific azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.

Additionally, term " first ", " second " are only used for describing purpose, and it is not intended that instruction or hint relative importance Or the implicit quantity indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or Implicitly include one or more this feature.In description of the present utility model, " multiple " are meant that two or two Above, unless otherwise expressly limited specifically.

In this utility model, unless otherwise clearly defined and limited, term " install ", " being connected ", " connection ", " Gu Fixed " etc. term should be interpreted broadly, connect for example, it may be fixing, it is also possible to be to removably connect, or be integrally connected；Can To be mechanical connection, it is also possible to be electrical connection；Can be to be joined directly together, it is also possible to be indirectly connected to by intermediary, Ke Yishi The connection of two element internals.For the ordinary skill in the art, above-mentioned term can be understood as the case may be Concrete meaning in this utility model.

With reference to shown in Fig. 1, this utility model embodiment provides a kind of coaxial poor step wire-sending device, including the first rotating shaft 10, the first driving means the 14, second rotating shaft 11 and the second driving means 15.

Concrete, the first rotating shaft 10 is coaxially arranged with can be with the first drivewheel of described first rotating shaft 10 synchronous rotary 101 and can relative to described first rotating shaft 10 rotate the first driven pulley 102.It is to say, the first drivewheel 101 is and One rotating shaft 10 is circumferentially fixed, and then when the first rotating shaft 10 rotates, this first drivewheel 101 can be same with this first rotating shaft 10 Step rotates.And be can in relative rotation between the first driven pulley 102 and the first rotating shaft 10, the i.e. first driven pulley 102 can be around The axis of the first rotating shaft 10 rotates relative to the first rotating shaft 10, such as in an example of the present utility model, and the first driven pulley 102 are located in the first rotating shaft 10 by a bearing holder (housing, cover), thus realize relatively rotating between the first rotating shaft 10.

First driving means 14 is in order to drive described first rotating shaft 10 to rotate, when the first driving means 14 drives the first rotating shaft 10 rotate time, then the first drivewheel 101 and the first rotating shaft 10 synchronous rotary, the first driven pulley 102 the most not with the first rotating shaft 10 Synchronous rotary, this set drivewheel in same rotating shaft and driven pulley, the most not synchronous rotary version, it is properly termed as " coaxial poor step structure ".

Second rotating shaft 11 be arranged in parallel with described first rotating shaft about 10, and described second rotating shaft 11 is coaxially arranged with can be with Second drivewheel 111 of described second rotating shaft 11 synchronous rotary and can be second driven relative to what described second rotating shaft 11 rotated Wheel 112.It is to say, the second drivewheel 111 is circumferentially fixed with the second rotating shaft 11, and then when the second rotating shaft 11 rotates, This second drivewheel 111 can be with this second rotating shaft 11 synchronous rotary.And be can between the second driven pulley 112 and the second rotating shaft 11 With in relative rotation, the i.e. second driven pulley 112 can rotate relative to the second rotating shaft 11 around the axis of the second rotating shaft 11, such as, exist In an example of the present utility model, the second driven pulley 112 is located in the second rotating shaft 11 by a bearing holder (housing, cover), thus realize with Relatively rotate between second rotating shaft 11.

Second drivewheel 111 is relative with the first driven pulley about 102 carries the first wire rod 24 with common clamping.Such as, exist In an example of the present utility model, the second drivewheel 111 and the first driven pulley 102 are closely adjacent to each other and form one first and cross between line Gap, this first minima crossing line gap can be equal to zero, and now, the second drivewheel 111 and the first driven pulley 102 abut in one Rising, this first maximum crossing line gap is less than line footpath or the thickness of the first wire rod 24.So, when the first wire rod 24 through this During one mistake line gap, the second rotating shaft 11 rotates and drives the second drivewheel 111 to rotate, the second drivewheel 111 and the first driven pulley 102 opposing compression the first wire rods 24 also provide the power of tangential direction to carry this first wire rod 24.

Second driven pulley 112 is relative with described first drivewheel about 101 carries the second wire rod 25 with common clamping.Example As, in an example of the present utility model, the second driven pulley 112 and the first drivewheel 101 are closely adjacent to each other and form one second Crossing line gap, this second minima crossing line gap can be equal to zero, and now, the second driven pulley 112 pastes with the first drivewheel 101 Being close together, this second maximum crossing line gap is less than line footpath or the thickness of the second wire rod 25.So, wear when the second wire rod 25 When crossing this second mistake line gap, the first rotating shaft 10 rotates and drives the first drivewheel 101 to rotate, the first drivewheel 101 and second Driven pulley 112 opposing compression the second wire rod 25 also provides tangential power to carry this second wire rod 25.

Second driving means 15 rotates in order to drive described second rotating shaft 11.When the second driving means 15 drives the second rotating shaft 11 rotate time, then the second drivewheel 111 and the second rotating shaft 11 synchronous rotary, the second driven pulley 112 the most not with the second rotating shaft 11 Synchronous rotary, i.e. this second drivewheel 111 and the second driven pulley 112 are above-mentioned " coaxial poor step structure ".

It should be noted that the first driving means 14 and the second driving means 15 can use the driving means such as motor.

During specific works, the first rotating shaft and the second rotating shaft rotate, the second drivewheel 111 and the first driven pulley 102 The most relatively clamping and carry the first wire rod 24, the clamping relative with described first drivewheel about 101 of the second driven pulley 112 is the most defeated Send the second wire rod 25, when needing to regulate the first wire rod 24 and being different with the delivered length of the second wire rod 25, such as, need First Line Material 24 delivered length is more than the second wire rod 25 delivered length, then control the first driving means 14 and stop, and now, the first rotating shaft 10 stops Only, then the first drivewheel 101 in the first rotating shaft 10 stops, then the second wire rod 25 loses the major impetus of conveying, then carry Stop or slowly carrying, and the second rotating shaft 11 keeps rotating, then the second drivewheel 111 in the second rotating shaft 11 keeps rotating, the One wire rod 24 then keeps original speed to carry, and thus, can realize the regulation of the benefit length to the first wire rod 24 length.In like manner, when Need the second wire rod 25 delivered length more than the first wire rod 24 delivered length, control the second driving means 15 and stop.

The coaxial poor step wire-sending device provided according to this utility model embodiment, it is only necessary to two rotating shaft (the i.e. first rotating shafts 10 and second rotating shaft 11), being respectively provided with in two rotating shafts can be with the drivewheel of rotating shaft synchronous rotary with can revolve relative to rotating shaft The driven pulley turned, so, a corresponding drivewheel and a driven pulley cooperation, so, can be formed two groups of drivewheels and from Driving wheel, and then carry the first wire rod 24 and the second wire rod 25 respectively, need two sets relative to prior art carries both threads material For independent wire-sending device, its structure is very simple, and the equipment cost of wire-sending device is lower.Additionally, two groups of drivewheels and from Driving wheel is correspondingly arranged in two rotating shafts, as long as stopping the rotation of a wherein rotating shaft, can make the first wire rod 24 and second The delivered length of wire rod 25 is different, it is, the delivered length of both threads material can freely be regulated, mends long from reaching length of wires Purpose, its simple in construction, control operating aspect.

With reference to shown in Fig. 2 and Fig. 3, in an embodiment of the present utility model, also include the 3rd rotating shaft 12 and the 4th rotating shaft 13, wherein, the 3rd rotating shaft 12 be arranged in parallel with described first rotating shaft about 10, and by the first drive mechanism 16 with described first Rotating shaft 10 is connected, to be formed and described first rotating shaft 10 synchronous rotary.It is to say, the 3rd rotating shaft 12 is logical with the first rotating shaft 10 Cross the first drive mechanism 16 and form synchronous axial system, any with the first rotating shaft 10 and the 3rd rotating shaft 12 of the first driving means 14 One connects, and so, when the first driving means 14 works, the first rotating shaft 10 and the 3rd rotating shaft 12 can be driven to synchronize rotation Turn.Such as shown in Fig. 2, the first driving means 14 is connected with the first rotating shaft 10, drives the 3rd rotating shaft by the first drive mechanism 16 12 and first rotating shaft 10 synchronous rotary.

Being coaxially arranged with in 3rd rotating shaft 12 can be with the 3rd drivewheel 121 of described 3rd rotating shaft 12 synchronous rotary and can The 3rd driven pulley 122 rotated relative to described 3rd rotating shaft 12.It is to say, the 3rd drivewheel 121 is and the 3rd rotating shaft 12 Circumferentially fixed, when the 3rd rotating shaft 12 rotates, the 3rd drivewheel 121 can be with the 3rd rotating shaft 12 synchronous rotary.And the Between three driven pulleys 122 and the 3rd rotating shaft 12 being can in relative rotation, and the i.e. the 3rd driven pulley 122 can be around the 3rd rotating shaft 12 Axis rotates relative to the 3rd rotating shaft 12, and the i.e. the 3rd drivewheel 121 and the 3rd driven pulley 122 are above-mentioned " coaxial poor step knot Structure ".Such as in an example of the present utility model, the 3rd driven pulley 122 is located in the 3rd rotating shaft 12 by a bearing holder (housing, cover), Thus realize relatively rotating between the 3rd rotating shaft 12.

4th rotating shaft 13 be arranged in parallel with described 3rd rotating shaft about 12, by the second drive mechanism 17 with described second turn Axle 11 is connected, to be formed and described second rotating shaft 11 synchronous rotary.It is to say, the 4th rotating shaft 13 is to pass through with the second rotating shaft 11 Second drive mechanism 17 forms synchronous axial system, any one with the 4th rotating shaft 13 and the second rotating shaft 11 of the second driving means 15 Individual connect, so, when the second driving means 15 works, the 4th rotating shaft 13 and the second rotating shaft 11 can be driven to synchronize rotation Turn.Such as shown in Fig. 2, the second driving means 15 is connected with the 4th rotating shaft 13, drives the second rotating shaft by the second drive mechanism 17 11 and the 4th rotating shaft 13 synchronous rotary.

Being coaxially arranged with in 4th rotating shaft 13 can be with the 4th drivewheel 131 of described 4th rotating shaft 13 synchronous rotary and can The 4th driven pulley 132 rotated relative to described 4th rotating shaft 13.It is to say, the 4th drivewheel 131 is and the 4th rotating shaft 13 Circumferentially fixed, when the 4th rotating shaft 13 rotates, the 4th drivewheel 131 can be with the 4th rotating shaft 13 synchronous rotary.And the Between four driven pulleys 132 and the 4th rotating shaft 13 being can in relative rotation, and the i.e. the 4th driven pulley 132 can be around the 4th rotating shaft 13 Axis rotates relative to the 4th rotating shaft 13, and the i.e. the 4th drivewheel 131 and the 4th driven pulley 132 are above-mentioned " coaxial poor step knot Structure ".Such as in an example of the present utility model, the 4th driven pulley 132 is located in the 4th rotating shaft 13 by a bearing holder (housing, cover), Thus realize relatively rotating between the 4th rotating shaft 13.

4th driven pulley 132 is relative with described 3rd drivewheel about 121 carries described first wire rod 24 with common clamping. It is to say, the second drivewheel 111 and the first driven pulley 102 are as one group of clamping conveying assembly, the 4th driven pulley 132 and the 3rd Drivewheel 121 clamps conveying assembly as another set, and the first wire rod 24 sequentially passes through two groups of clamping conveying assemblies, by two groups Clamping conveying assembly provides equidirectional power and then carries this first wire rod 24.

4th drivewheel 131 is relative with described 3rd driven pulley about 122 carries described second wire rod 25 with common clamping. It is to say, the second driven pulley 112 and the first drivewheel 101 are as one group of clamping conveying assembly, the 4th drivewheel 131 and the 3rd Driven pulley 122 clamps conveying assembly as another set, and the second wire rod 25 sequentially passes through two groups of clamping conveying assemblies, by two groups Clamping conveying assembly provides equidirectional power and then carries this second wire rod 25.

Concrete, in an example of the present utility model, the 4th drivewheel 131 is closely adjacent to each other with the 3rd driven pulley 122 And form one the 3rd and cross line gap, the 3rd minima crossing line gap can be equal to zero, now, and the 4th drivewheel 131 and the Three driven pulleys 122 stick together, and the 3rd maximum crossing line gap is less than line footpath or the thickness of the second wire rod 25.4th from Driving wheel 132 and the 3rd drivewheel 121 are closely adjacent to each other and form one the 4th mistake line gap, and the minima in the 4th mistake line gap is permissible Equal to zero, now, the 4th driven pulley 132 sticks together with the 3rd drivewheel 121, and the 4th maximum crossing line gap is less than The line footpath of the first wire rod 24 or thickness.

When the first wire rod 24 sequentially pass through first cross line gap and the 4th cross line gap time, the second wire rod 25 sequentially passes through the When line gap is crossed in two mistake line gaps and the 3rd, start the first driving means 14 and the second driving means 15 works, the first rotating shaft 10 With the 3rd rotating shaft 12 synchronous rotary, the second rotating shaft 11 and the 4th rotating shaft 13 synchronous rotary, now, first in the first rotating shaft 10 from The second drivewheel 111 on driving wheel 102 and the second rotating shaft 11 is as first group of clamping conveying assembly, the 3rd in the 3rd rotating shaft 12 The 4th driven pulley 132 on drivewheel 121 and the 4th rotating shaft 13 is clamped in the respectively as second group of clamping conveying assembly clamping On one wire rod 24, and provide equidirectional power to carry the first wire rod 24.And the first drivewheel 101 in the first rotating shaft 10 with The second driven pulley 112 in second rotating shaft 11 is as the 3rd group of clamping conveying assembly, the 3rd driven pulley 122 in the 3rd rotating shaft 12 It is clamped in respectively on the second wire rod 25 as the 4th group of clamping conveying assembly with the 4th drivewheel 131 in the 4th rotating shaft 13, and There is provided equidirectional power to carry the second wire rod 25.

In other words, in the present embodiment, while not increasing driving means, set up the 3rd rotating shaft 12 and the 4th rotating shaft 13, And respectively with first rotating shaft the 10, second rotating shaft 11 synchronous rotary, the i.e. the 3rd rotating shaft 12 and the first rotating shaft 10 " linkage design " each other, And the 4th rotating shaft 13 and the second rotating shaft 11 " linkage design " each other, recycling the 3rd rotating shaft 12 and the 4th rotating shaft 13 drive " coaxial Difference step structure " the 3rd drivewheel 121 and the 4th driven pulley the 132, the 3rd driven pulley 122 and the 4th drivewheel 131, so, the One wire rod 24 and the second wire rod 25 all can provide equidirectional power to carry by two groups of clamping conveying assemblies, on the one hand, logical Cross " the coaxial poor step structure " of drivewheel and driven pulley and " the linkage design " of rotating shaft, conveying power can be increased, can improve The efficiency of conveying and reliability.

With reference to shown in Fig. 2 and Fig. 3, in one specific embodiment of this utility model, the first drive mechanism 16 includes first Belt wheel the 161, second belt wheel 162 and the first transmission band 163, described first belt wheel 161 is arranged in described first rotating shaft 10, described Second belt wheel 162 is arranged in described 3rd rotating shaft 12, and described first transmission band 163 is sheathed on described first belt wheel 161 and On two belt wheels 162.So, when the first driving means 14 works, and the first driving means 14 is directly connected to the first rotating shaft 10 Time, then the first driving means 14 drives the first rotating shaft 10, then drives the 3rd rotating shaft 12 to rotate by the first transmission band 163.

Second drive mechanism 17 includes the 3rd belt wheel the 172, the 4th belt wheel 171 and the second transmission band 173, described 3rd belt wheel 172 are arranged in described second rotating shaft 11, and described 4th belt wheel 171 is arranged in described 4th rotating shaft 13, described second transmission Band 173 is sheathed on described 3rd belt wheel 172 and the 4th belt wheel 171.So, when the second driving means 15 works, and second When driving means 15 and the 4th rotating shaft 13 are directly connected to, then the second driving means 15 drives the 4th rotating shaft 13, then by the second biography Dynamic band 173 drive the second rotating shaft 11 rotates.

In the present embodiment, use this V belt translation mode, it can be ensured that line sending more smoothes out, the first rotating shaft 10 and the 3rd turn Axle 12, the linkage effect between the second rotating shaft 11 and the 4th rotating shaft 13 is more preferable.

It should be noted that in other embodiments of the present utility model, the first drive mechanism 16 and second passes driver Structure can also use other common drive mechanisms of the prior art, such as gear drive, Chain conveyer etc..

With reference to shown in Fig. 4 to Fig. 7, in a preferred embodiment of the present utility model, also include slack adjuster, institute State slack adjuster and include fixing seat the 18, first sliding shoe the 19, first actuator 21, the second sliding shoe 20 and the second actuator 22。

Concrete, fixing seat 18 is provided with vertically extending chute, that is to say, the length direction of this chute is positioned at Above-below direction.

First sliding shoe 19 can be arranged in described chute with being slidable in the vertical direction, described first rotating shaft 10 and the 3rd turn Axle 12 is arranged on described first sliding shoe 19 along the longitudinal direction, and can rotate relative to described first sliding shoe 19.Such as Fig. 4 institute Showing, the axis of the first rotating shaft 10 and the 3rd rotating shaft 12 is positioned on fore-and-aft direction, and the first rotating shaft the 10, the 3rd rotating shaft about 12 is also Row is located on the first sliding shoe 19, simultaneously, on the one hand, the first rotating shaft 10 and the 3rd rotating shaft 12 respectively can be along the axles of himself Line rotates, on the other hand, and the first rotating shaft 10, first drivewheel the 101, first driven pulley the 102, the 3rd being positioned in the first rotating shaft 10 Rotating shaft 12, the 3rd drivewheel 121 and the 3rd driven pulley 122 and the first rotating shaft 10 or the 3rd rotating shaft being positioned in the 3rd rotating shaft 12 12 first driving means the 14, first sliding shoes 19 connected can move up and down as an entirety.

First actuator 21 slides in described chute in order to drive described first sliding shoe 19, say, that this is first years old First drivewheel the 101, first driven pulley the 102, the 3rd that actuator 21 can drive the first rotating shaft 10, be positioned in the first rotating shaft 10 Rotating shaft 12, the 3rd drivewheel 121 and the 3rd driven pulley 122 and the first rotating shaft 10 or the 3rd rotating shaft being positioned in the 3rd rotating shaft 12 12 first driving means the 14, first sliding shoes 19 connected move up and down in overall.

The second sliding shoe 20 can be arranged in described chute with being slidable in the vertical direction, and with on described first sliding shoe 19 Lower layout, described second rotating shaft 11 and the 4th rotating shaft 13 be arranged on described the second sliding shoe 20 along the longitudinal direction, and can be relative Described the second sliding shoe 20 rotates.Such as shown in Fig. 4, and the second sliding shoe 20 and the first sliding shoe 19 are the most positioned opposite 's.The axis of the second rotating shaft 11 and the 4th rotating shaft 13 is positioned on fore-and-aft direction, and the second rotating shaft the 11, the 4th rotating shaft about 13 is also Row is located on the second sliding shoe 20, simultaneously, on the one hand, the second rotating shaft 11 and the 4th rotating shaft 13 respectively can along himself Axis rotates, on the other hand, the second rotating shaft 11, second drivewheel the 111, second driven pulley 112 being positioned in the second rotating shaft 11, the Four rotating shafts 13, the 4th drivewheel 131 being positioned in the 4th rotating shaft 13 and the 4th driven pulley 132 and the 4th rotating shaft 13 or second turn The second driving means 15, the second sliding shoe 20 that axle 11 connects can move up and down as an entirety.

Second actuator 22 slides in described slip in order to drive described the second sliding shoe 20.It is to say, this second Second drivewheel the 111, second driven pulley the 112, the 4th that actuator 22 can drive the second rotating shaft 11, be positioned in the second rotating shaft 11 Rotating shaft 13, the 4th drivewheel 131 and the 4th driven pulley 132 and the 4th rotating shaft 13 or the second rotating shaft being positioned in the 4th rotating shaft 13 11 the second driving means 15 connected, the second sliding shoe 20 move up and down in overall.

The first rotating shaft 10 driven when the first actuator 21, the first drivewheel 101, first of being positioned in the first rotating shaft 10 from Driving wheel the 102, the 3rd rotating shaft 12, the 3rd drivewheel 121 and the 3rd driven pulley 122 and the first rotating shaft being positioned in the 3rd rotating shaft 12 10 or the 3rd first driving means the 14, first sliding shoe 19 entirety of connecting of rotating shaft 12 move downward, and/or the second actuator 22 Second drivewheel the 111, second driven pulley the 112, the 4th rotating shaft 13 of drive the second rotating shaft 11, being positioned in the second rotating shaft 11, it is positioned at The 4th drivewheel 131 in 4th rotating shaft 13 and the 4th driven pulley 132 be connected with the 4th rotating shaft 13 or the second rotating shaft 11 second When driving means 15, the second sliding shoe 20 entirety move upward, first, second, third and fourth is crossed line gap and is all gradually increased.

The first rotating shaft 10 driven when the first actuator 21, the first drivewheel 101, first of being positioned in the first rotating shaft 10 from Driving wheel the 102, the 3rd rotating shaft 12, the 3rd drivewheel 121 and the 3rd driven pulley 122 and the first rotating shaft being positioned in the 3rd rotating shaft 12 10 or the 3rd first driving means the 14, first sliding shoe 19 entirety of connecting of rotating shaft 12 move upward, and/or the second actuator 22 Second drivewheel the 111, second driven pulley the 112, the 4th rotating shaft 13 of drive the second rotating shaft 11, being positioned in the second rotating shaft 11, it is positioned at The 4th drivewheel 131 in 4th rotating shaft 13 and the 4th driven pulley 132 be connected with the 4th rotating shaft 13 or the second rotating shaft 11 second When driving means 15, the second sliding shoe 20 entirety move downward, first, second, third and fourth is crossed line gap and is all gradually reduced.

Owing to, in distinct device, the line footpath of the wire rod used or thickness are different, therefore, in the present embodiment, pass through Regulation first, second, third and fourth crosses the size in line gap, and then so that wire-sending device of the present utility model can be fitted For the most collinear various footpaths or the wire rod of thickness.

With reference to shown in Fig. 4 to Fig. 5, at a specific embodiment of the present utility model, described first actuator 21 includes the One screw rod 211 and the first knob 212.Wherein, the first screw rod 211 is vertically extending, and its one end is sliding with described first Motion block 19 threaded engagement.It is, the axis of the first screw rod 211 is in the vertical direction, and the first sliding shoe 19 is provided with One screwed hole, the threaded one end of the first screw rod 211 is connected in this first screwed hole.

First knob 212 is rotatably disposed on described fixing seat 18, and with the other end of described first screw rod 211 even Connect, drive for operation described first screw rod 211 to rotate, and then drive described first sliding shoe 19 to be slidable in the vertical direction. That is, on the one hand, the first knob 212 is arranged on fixing seat 18, and can be around the axis of self relative to fixing Seat 18 rotates, and on the other hand, the first knob 212 is circumferentially fixed, such as with the first screw rod 211: when operator this When applying rotating force on one knob 212, this first knob 212 can drive the first screw rod 211 to rotate, now, the One sliding shoe 19 then can be along the axial-movement of this first screw rod 211 on the first screw rod 211.

Corresponding, the second actuator 22 includes the second screw rod 221 and the second knob 222.Wherein, the second screw rod 221 edge Above-below direction extends, and its one end and described the second sliding shoe 20 threaded engagement.It is, the axis of the second screw rod 221 is upper Upwards, and the second sliding shoe 20 is provided with screwed hole in lower section, and the threaded one end of the second screw rod 221 is connected to this second screwed hole In.

Second knob 222 is rotatably disposed on described fixing seat 18, and with the other end of described second screw rod 221 even Connect, drive for operation described second screw rod 221 to rotate, and then drive described second slide block to be slidable in the vertical direction.The most just It is to say, on the one hand, the second knob 222 is arranged on fixing seat 18, and can be around the axis of self relative to fixing seat 18 Rotating, on the other hand, the second knob 222 is circumferentially fixed, such as with the second screw rod 221: when operator is in this second rotation When applying rotating force in button portion 222, this second knob 222 can drive the second screw rod 221 to rotate, and now, second is sliding Motion block 20 then can be along the axial-movement of this second screw rod 221 on the second screw rod 221.

Thus, operator, by rotating the first knob 212 and the second knob 222, can drive the first sliding shoe 19 Move towards each other or adverse movement with the second sliding shoe 20, and then realize first, second, third and fourth and cross closely spaced tune Joint, and simple in construction, flexible adjustment is convenient, and the precision of regulation is high.

An embodiment of the present utility model, fixing seat 18 includes substrate 181 and two side block bars 182,183.Wherein, base Plate 181 is provided with vertically extending hollow hole.It is, hollow hole is bar shaped.

Two described side block bars 182,183 are relatively arranged on described substrate 181 back side and are positioned at the left and right of described hollow hole Both sides, and limited described chute, described chute communicates with described hollow hole, described first, second, third and fourth rotating shaft 13 pass from described hollow hole.Such as shown in Fig. 7, the cross section of two side block bars 182,183 is L-shaped, both sides blend stop 182, 183 is vertically extending, lays respectively at the both sides of hollow hole, so, limits the chute formed in " convex " font.Corresponding, First sliding shoe 19 and the second sliding shoe 20 are arranged in chute, and the first, the 3rd rotating shaft 12 is through the first sliding shoe 19 the most certainly Described hollow hole passes, and the second, the 4th rotating shaft 13 through the second sliding shoe 20 and passes from described hollow hole.

Thus, in the present embodiment, using the fixing seat 18 of said structure, its structure letter is compact, it is simple to form chute, with Time, it being also convenient in the first sliding shoe 19, the installation of the second sliding shoe 20, sound construction is reliable.

With reference to shown in Fig. 6, more favorably, in an embodiment of the present utility model, the first sliding shoe 19 is forwardly convex Form the first positive stop lug boss 191, described the second sliding shoe 20 forwardly convex formation the second positive stop lug boss 201, described first spacing Boss 191 and the second positive stop lug boss about 201 are arranged in described hollow hole.So, slide when the first sliding shoe 19 and second Block 20 is in opposite directions or during adverse movement, the first positive stop lug boss 191 is as the lower limit of the stroke of the first sliding shoe 19, with hollow hole Top offsets, and the second positive stop lug boss 201 is as the upper limit of the second sliding shoe 20, offsets with the bottom of hollow hole, thus, rises To position-limiting action.

As exemplary, being provided with the first fixed block 184 on the upside of substrate 181 back side, described first knob 212 is rotatable Being arranged at described first fixed block 184, described substrate 181 back underside is provided with the second fixed block 185, described second knob 222 are rotatably disposed in described second fixed block 185.So, the first knob 212 and the second knob 222 can be convenient to Installation fix, keep simple and compact for structure.

With reference to shown in Fig. 6, in embodiments more of the present utility model, it is also possible to include that cable guiding device, cable guiding device are positioned at the Between one rotating shaft the 10, second rotating shaft 11 and the 3rd rotating shaft the 12, the 4th rotating shaft 13, and it is logical to be provided with the first wire rod 24 in this guider 23 Road and the second wire rod 25 passage, in order to when the first wire rod 24 and the second wire rod 25 carry, to the first wire rod 24 and the second line Material 25 plays guiding function.

This utility model embodiment also provides for a kind of coil winding machine, has the coaxial poor step line sending dress described in above-described embodiment Put, may be used for two limits coiling simultaneously of magnetic core 26.Owing to the coaxial poor step according to this utility model above-described embodiment is sent Line apparatus has above-mentioned technique effect, therefore, also has corresponding technique effect according to the coil winding machine of this utility model embodiment, And, forming two unicoil number of turns in coil different, meet customer need, quality is more preferable.

In the description of this specification, reference term " embodiment ", " some embodiments ", " example ", " specifically show Example " or the description of " some examples " etc. means to combine this embodiment or example describes specific features, structure, material or spy Point is contained at least one embodiment of the present utility model or example.In this manual, the schematic table to above-mentioned term State and be not necessarily referring to identical embodiment or example.And, the specific features of description, structure, material or feature can be Any one or more embodiments or example combine in an appropriate manner.

Although above it has been shown and described that embodiment of the present utility model, it is to be understood that above-described embodiment is Exemplary, it is impossible to it is interpreted as that those of ordinary skill in the art is without departing from this utility model to restriction of the present utility model Principle and objective in the case of above-described embodiment can be changed in the range of this utility model, revise, replace and Modification.

Claims (10)

1. a coaxial poor step wire-sending device, it is characterised in that including:

First rotating shaft, it is coaxially arranged with can be with the first drivewheel of described first rotating shaft synchronous rotary and can be relative to institute State the first driven pulley that the first rotating shaft rotates；

First driving means, in order to drive described first rotating shaft to rotate；

Second rotating shaft, be arranged in parallel up and down with described first rotating shaft, and described second rotating shaft is coaxially arranged with can be with described second Second drivewheel of rotating shaft synchronous rotary and the second driven pulley that can rotate relative to described second rotating shaft；Described second actively Taking turns and the most relative with described first driven pulley carry the first wire rod with common clamping, described second driven pulley is with described first actively Wheel carries the second wire rod with common clamping up and down relatively；

Second driving means, in order to drive described second rotating shaft to rotate.

Coaxial poor step wire-sending device the most according to claim 1, it is characterised in that also include:

It is arranged in parallel about the 3rd rotating shaft, with described first rotating shaft, and is connected with described first rotating shaft by the first drive mechanism, To be formed and described first rotating shaft synchronous rotary, described 3rd rotating shaft is coaxially arranged with can be with described 3rd rotating shaft synchronous rotary The 3rd drivewheel and can relative to described 3rd rotating shaft rotate the 3rd driven pulley；

4th rotating shaft, be arranged in parallel up and down with described 3rd rotating shaft, is connected with described second rotating shaft by the second drive mechanism, with Being formed and described second rotating shaft synchronous rotary, described 4th rotating shaft is coaxially arranged with can be with described 4th rotating shaft synchronous rotary 4th drivewheel and the 4th driven pulley that can rotate relative to described 4th rotating shaft；

Described 4th driven pulley is the most relative with described 3rd drivewheel carries described first wire rod with common clamping；Described 4th Drivewheel is the most relative with described 3rd driven pulley carries described second wire rod with common clamping.

Coaxial poor step wire-sending device the most according to claim 2, it is characterised in that described first drive mechanism includes first Belt wheel, the second belt wheel and the first transmission band, described first belt wheel is arranged in described first rotating shaft, and described second belt wheel is arranged at In described 3rd rotating shaft, described first transmission band is sheathed on described first belt wheel and the second belt wheel；

It is described that described second drive mechanism includes that the 3rd belt wheel, the 4th belt wheel and the second transmission band, described 3rd belt wheel are arranged at In second rotating shaft, described 4th belt wheel is arranged in described 4th rotating shaft, and described second transmission band is sheathed on described 3rd belt wheel With on the 4th belt wheel.

Coaxial poor step wire-sending device the most according to claim 2, it is characterised in that also include slack adjuster, described Slack adjuster includes:

Fixing seat, described fixing seat is provided with vertically extending chute；

First sliding shoe, described first sliding shoe can be arranged in described chute with being slidable in the vertical direction, described first rotating shaft It is arranged in along the longitudinal direction on described first sliding shoe with the 3rd rotating shaft, and can rotate relative to described first sliding shoe；

First actuator, in order to drive described first sliding shoe to slide in described chute；

The second sliding shoe, described the second sliding shoe can be arranged in described chute with being slidable in the vertical direction, and with described first Sliding shoe is arranged up and down, and described second rotating shaft and the 4th rotating shaft are arranged on described the second sliding shoe along the longitudinal direction, and can phase Described the second sliding shoe is rotated；

Second actuator, in order to drive described the second sliding shoe to slide in described slip.

Coaxial poor step wire-sending device the most according to claim 4, it is characterised in that described first actuator includes:

First screw rod, described first screw rod is vertically extending, and its one end and described first sliding shoe threaded engagement；

First knob, described first knob is rotatably disposed on described fixing seat, and with another of described first screw rod End connects, and drives for operation described first screw rod to rotate, and then drives described first sliding shoe to be slidable in the vertical direction.

Coaxial poor step wire-sending device the most according to claim 5, it is characterised in that described second actuator includes:

Second screw rod, described second screw rod is vertically extending, and its one end and described the second sliding shoe threaded engagement；

Second knob, described second knob is rotatably disposed on described fixing seat, and with another of described second screw rod End connects, and drives for operation described second screw rod to rotate, and then drives described second slide block to be slidable in the vertical direction.

Coaxial poor step wire-sending device the most according to claim 6, it is characterised in that described fixing seat includes:

Substrate, described substrate is provided with vertically extending hollow hole；

Two side block bars, two described side block bars are relatively arranged on described substrate back and are positioned at the left and right two of described hollow hole Side, and limited described chute, described chute communicates with described hollow hole, and described first, second, third and fourth rotating shaft is certainly Described hollow hole passes.

Coaxial poor step wire-sending device the most according to claim 7, it is characterised in that the described first forwardly convex shape of sliding shoe Become the first positive stop lug boss, described the second sliding shoe forwardly convex formation the second positive stop lug boss, described first positive stop lug boss and second Positive stop lug boss is arranged in described hollow hole up and down.

Coaxial poor step wire-sending device the most according to claim 7, it is characterised in that be provided with first on the upside of described substrate back Fixed block, described first knob is rotatably disposed in described first fixed block, is provided with second and fixes on the downside of described substrate back Block, described second knob is rotatably disposed in described second fixed block.

10. a coil winding machine, it is characterised in that there is coaxial poor step line sending as claimed in any one of claims 1-9 wherein dress Put.