CN205204469U - Motor for cone winder - Google Patents

Abstract

The utility model discloses a motor for cone winder, a serial communication port, including motor casing and pivot, be equipped with stator and rotor in the motor casing, the one end of pivot plant in in the motor casing with rotor in the motor casing is connected, the other end of pivot is located motor casing's outside, motor casing is equipped with first base, first base is used for can dismantling with the frame of cone winder and is connected. The utility model provides a motor for cone winder installs strong adaptability, and the workman can adopt the utility model provides a motor is installed in the frame of original cone winder after substituting directly drive arrangement and the pivot in original cone winder, need not the frame transformation to original cone winder, makes to reform transform the cone winder and become simple and convenient, reforms transform with low costsly.

Description

Bobbin-winding machine motor

Technical field

The utility model relates to a kind of bobbin-winding machine motor.

Background technology

Bobbin-winding machine generally adopts the design be all set in by all groove drums in a long rotating shaft, and one end of this rotating shaft is connected with actuating device, rotates under the driving of actuating device.Rotating shaft is rotated under the driving of actuating device, drives groove drum to rotate.Drive to rotate the line cylinder of contact with it by friction force after groove drum rotates and carry out coiling.All be set in by all groove drums in same rotating shaft, can cause the overload of same rotating shaft, can produce vibration during axis of rotation, and rotating shaft is longer, load is heavier, and vibration Shaoxing opera is strong.Therefore in order to reduce Oscillation Amplitude during axis of rotation as much as possible, need the rotating speed of rotating shaft can not be too high, the linear velocity general control of rotating shaft, at below 390m/min, directly has influence on the winding efficiency of bobbin-winding machine, makes production efficiency meet with bottleneck.

Utility model content

The purpose of this utility model is to overcome deficiency of the prior art, provides a kind of bobbin-winding machine motor.

For realizing above object, the utility model is achieved through the following technical solutions:

Bobbin-winding machine motor, is characterized in that, comprises electric machine casing and rotating shaft; Stators and rotators is provided with in described electric machine casing; One end of described rotating shaft is inserted in described electric machine casing and is connected with the rotor in described electric machine casing, drives rotating shaft center axis thereof around the shaft after described electrical power by rotor turns; The other end of described rotating shaft is positioned at the outside of described electric machine casing; Described electric machine casing is provided with the first base; Described first base is used for being connected with the frame of bobbin-winding machine.

Preferably, described first base is provided with at least one first through hole; First bolt or the first screw screw in the frame of bobbin-winding machine after running through described first through hole, are installed by described electric machine casing and are removably mounted in frame.

Preferably, described electric machine casing is provided with the first projection; Described first projection is connected with described first base, and outstanding described first base.

Preferably, described first projection offers at least one first through hole; Described first through hole is corresponding with the first tapped bore in bobbin-winding machine frame; First bolt or the first screw screw in described first tapped bore after running through described first through hole, are removably mounted in the frame of bobbin-winding machine by described electric machine casing.

Preferably, described first projection is arranged on the end of described first base.

Preferably, the angle α between described first projection and described first base is greater than 0 ° and is less than 180 °.

Preferably, the angle α between described first projection and described first base is more than or equal to 60 ° and is less than or equal to 100 °

All groove drums are generally all set in a long rotating shaft by bobbin-winding machine, and one end of this rotating shaft is connected with actuating device, rotates under the driving of actuating device.Line cylinder is along the axial array of rotating shaft.Rotating shaft is rotated under the driving of actuating device, drives groove drum to rotate.Drive line cylinder corresponding with it to rotate by friction force after groove drum rotates and carry out coiling.Contriver finds after deliberation, and during axis of rotation, its rotation self-powered moved end postpones gradually along the axis of rotating shaft, namely rotating shaft is rotated in rotating shaft away from the part of drive end after the partial turn of drive end again.Because groove drum rotates under the drive of rotating shaft, but when rotating shaft axially produces rotation delay phenomenon along it, also can there is rotation delay phenomenon corresponding with it in the multiple groove drums along rotating shaft axial array, thus cause the groove drum near drive end to rotate prior to the groove drum away from drive end.And because line cylinder is by groove drum drive rotation, when groove drum axially produces the phenomenon of rotating and postponing along rotating shaft, also rotation delay phenomenon corresponding with it can be there is in the multiple line cylinders along rotating shaft axial array, thus cause the line cylinder near drive end to rotate prior to the line cylinder away from drive end, make the rotation time of each line cylinder different.The rotation time difference of line cylinder will certainly cause the coiling amount of line cylinder also different.Line cylinder rotation time is longer, and its coiling amount is larger, otherwise line cylinder rotation time is shorter, and its coiling amount is less.And the axial length of groove drum is longer, the phenomenon of rotating delay is more obvious, thus makes the difference of the coiling amount of each line cylinder larger.

All be set in by all groove drums in same rotating shaft, also can cause the overload of same rotating shaft, can produce vibration during axis of rotation, and rotating shaft is longer, load is heavier, and vibration Shaoxing opera is strong.Therefore in order to reduce Oscillation Amplitude during axis of rotation as much as possible, need the rotating speed of rotating shaft can not be too high, linear velocity general control, at below 390m/min, cannot improve, and directly has influence on the winding efficiency of bobbin-winding machine, makes production efficiency meet with bottleneck.

The utility model provides a kind of bobbin-winding machine motor, the bobbin-winding machine motor that workman can adopt the utility model to provide is arranged in the frame of original bobbin-winding machine after directly substituting actuating device in original bobbin-winding machine and rotating shaft, a groove drum is driven independently to rotate relative to other groove drums by a bobbin-winding machine motor, realize the quick coiling of bobbin-winding machine, accurately control each line cylinder threading speed phase same function, without the need to transforming the frame of original bobbin-winding machine, make transformation bobbin-winding machine become simple and convenient, improvement cost is low.

The electric machine casing of the bobbin-winding machine motor that the utility model provides has the first base, and the first base of each motor rides against on the first brace table of the support on a bobbin-winding machine, realizes the support of the first brace table to electric machine casing.

The electric machine casing of the bobbin-winding machine motor that the utility model provides also has the first boss, and the first projection protrudes the first base.When first base rides against on the first brace table, the first projection is resisted against the side of the first brace table, with the first contacts side surfaces of the support on bobbin-winding machine, thus determines the relative position of electric machine casing and support, electric machine casing is accurately positioned in assigned address.

Owing to the support of bobbin-winding machine offering two the first tapped bore, therefore on the first projection of electric machine casing, first through hole corresponding with the first tapped bore is offered, screw in the first tapped bore after adopting the first bolt or the first screw to run through the first through hole, can electric machine casing be removably mounted on support, motor is simply easy for installation, make motor of the present utility model be applicable to the frame of original bobbin-winding machine, reduce the improvement cost of bobbin-winding machine.

Bobbin-winding machine arranges multiple bobbin-winding machine motor, each bobbin-winding machine motor drives a groove drum to rotate, each groove drum can relatively independently be rotated, the rotation of each groove drum is not by the impact of other groove drums, eliminate the rotation delay phenomenon of each groove drum, guarantee that the rotation time of each groove drum and velocity of rotation are all identical, thus guarantee that the rotation time of each line cylinder is all identical with velocity of rotation, the coiling amount of each line cylinder is all identical.

Bobbin-winding machine arranges multiple bobbin-winding machine motor, each bobbin-winding machine motor drives a groove drum to rotate, an only sheathed groove drum in the rotating shaft of i.e. each bobbin-winding machine motor, more all groove drums are set in a rotating shaft, and the length of rotating shaft shortens greatly, load greatly reduces, thus Oscillation Amplitude when greatly reducing axis of rotation, the rotating speed of rotating shaft is improved, linear velocity up to 1000m/min, can improve the winding efficiency of bobbin-winding machine, breaks through the production efficiency bottleneck of bobbin-winding machine.

Accompanying drawing explanation

Fig. 1 is the structural representation being provided with the bobbin-winding machine motor of groove drum of the present utility model;

Fig. 2 is the structural representation of bobbin-winding machine motor of the present utility model;

Fig. 3 is the inner structure schematic diagram of bobbin-winding machine motor of the present utility model;

Fig. 4 is the structural representation of the bobbin-winding machine adopting bobbin-winding machine motor of the present utility model;

Fig. 5 is the structural representation of the bobbin-winding machine adopting bobbin-winding machine motor of the present utility model;

Fig. 6 is the local structure schematic diagram of the bobbin-winding machine adopting bobbin-winding machine motor of the present utility model;

Fig. 7 is the local structure schematic diagram after adopting the bobbin-winding machine of bobbin-winding machine motor of the present utility model to remove groove drum;

Fig. 8 is the structural representation of the connecting panel of the bobbin-winding machine adopting bobbin-winding machine motor of the present utility model;

Fig. 9 is the structural representation of the rotary shaft rack of the bobbin-winding machine adopting bobbin-winding machine motor of the present utility model.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in detail:

As Figure 1-3, bobbin-winding machine motor 4 comprises electric machine casing 41 and rotating shaft 42.Stator 43 and rotor 44 is equipped with in electric machine casing 41.One end of rotating shaft 42 is inserted in electric machine casing 41 and is connected with the rotor 44 in electric machine casing 41, and the other end stretches out electric machine casing 41.Groove drum 2 is set in rotating shaft 41 and is positioned on the region of electric machine casing 41 outside.Rotating shaft 42 is rotated under the drive of rotor 44, drives groove drum 2 to rotate further.Electric machine casing 41 has the first base 411 and the first boss 412, first projection 412 protrudes the first base 411.First projection 412 is arranged on the end of the first base 411, and the angle α between the first projection 412 and the first base 411 is greater than 0 ° and is less than 180 °.The present embodiment preferred embodiment, the angle α between the first projection 412 and the first base 411 is more than or equal to 60 ° and is less than or equal to 100 °.

Be arranged in the frame of original bobbin-winding machine after adopting above-mentioned bobbin-winding machine motor directly to substitute actuating device in original bobbin-winding machine and rotating shaft, a groove drum is driven independently to rotate relative to other groove drums by a bobbin-winding machine motor, realize the quick coiling of bobbin-winding machine, accurately control each line cylinder threading speed phase same function, without the need to transforming the frame of original bobbin-winding machine, make transformation bobbin-winding machine become simple and convenient, improvement cost is low.

As shown in Figures 4 and 5, bobbin-winding machine comprises frame 1 and is provided with multiple support 3, the spaced setting of multiple supports 3.Each support 3 being installed a bobbin-winding machine motor 4 drives a groove drum 2 to rotate.

As shown in Figures 6 and 7, support 3 has the height of height higher than the second brace table 32 of the first brace table 31 and the second brace table 32, first brace table 31.Electric machine casing 41 is removably mounted on the first brace table 31.First base 411 of each bobbin-winding machine motor 4 rides against on first brace table 31, realizes the support of the first brace table 31 pairs of electric machine casings 41.When first base 411 rides against on the first brace table 31, first projection 412 is resisted against the side of the first brace table 31, contact with the first side 33 of support 3, thus determine the relative position of electric machine casing 41 and support 3, electric machine casing 41 is accurately positioned in assigned address.In order to make the first projection 412 fully contact with the first side 33 of support 3, the angle α between the first projection 412 and the first base 411 wants and angle between the first brace table 31 and the first side 33 adapts.Support 3 offers on two the first tapped bore 34, first projections 412 and offer first through hole 413 (as shown in Figure 1) corresponding with the first tapped bore 34.First bolt or the first screw screw in the first tapped bore 34 after running through the first through hole 413, thus are removably mounted on support 3 by electric machine casing 41.

Bobbin-winding machine also comprises multiple rotary shaft rack 5, and rotary shaft rack 5 is removably mounted in frame 1, is positioned at one end of electric machine casing 41 outside for supporting revolving shaft 42.Rotary shaft rack 5 is removably mounted on the second brace table 32 by connecting panel 6.As shown in Figure 8, connecting panel 6 has the first stay bearing plate 61 and the second stay bearing plate 62, first stay bearing plate 61 is connected with the second stay bearing plate 62.First stay bearing plate 61 rides against on the second brace table 32, realizes the support of the second brace table 32 pairs of connecting panels 6.Second stay bearing plate 62 exceeds the first stay bearing plate 61.As shown in Figure 9, rotary shaft rack 5 has the second base 51, second base 51 and rides against on the second stay bearing plate 62, realizes the support of connecting panel 6 countershaft support 5.Second base 51 is provided with the second through hole 511, second stay bearing plate 62 and is provided with second tapped bore 621 corresponding with the second through hole 511.Second bolt or the second screw run through the second through hole 511 and the second tapped bore 611 successively, thus are removably mounted on connecting panel 6 by rotary shaft rack 5.Connecting panel 6 also has the second projection 63, second projection 63 and protrudes the first stay bearing plate 61.When first stay bearing plate 61 rides against on the second brace table 32, second projection 63 is resisted against the side of the second brace table 32, contact with the second side 35 of support 3, thus determine the relative position of connecting panel 6 and support 3, connecting panel 6 is accurately positioned in assigned address, and rotary shaft rack 5 can accurately be located after accurately locating by connecting panel 6.Support 3 offers on two the 3rd tapped bore 36, second projections 63 and offer the third through-hole 64 corresponding with the 3rd tapped bore 36.3rd bolt or the 3rd screw screw in the 3rd tapped bore 36 after running through third through-hole 64, thus are removably mounted on support 3 by connecting panel 6.Because the height of the first brace table 31 of support 3 is higher than the height of the second brace table 32, and bobbin-winding machine motor 4 is arranged on the first brace table 31, if rotary shaft rack 5 is directly installed on the second brace table 32, second brace table 32 possibly cannot reach rotating shaft 42 place height, so by installing connecting panel 6 on the second brace table 32, again rotary shaft rack 5 is arranged on connecting panel 6, raise the height of rotary shaft rack 5, make rotary shaft rack 5 can arrive rotating shaft 42 place height, be connected smoothly with rotating shaft 42.

If the first brace table 31 of support 3 is identical with the height of the second brace table 32, or increase the length of rotary shaft rack 5, rotary shaft rack 42 is directly installed on the second brace table 32 and just can reaches rotating shaft 42 place height, also connecting panel 6 can be saved, directly insert in the second brace table 32 after second bolt or the second screw being run through the second through hole 511 on the second base 51, thus rotary shaft rack 5 is directly installed on the second brace table 32.

All groove drums are generally all set in a long rotating shaft by bobbin-winding machine, and one end of this rotating shaft is connected with actuating device, rotates under the driving of actuating device.Line cylinder is along the axial array of rotating shaft.Rotating shaft is rotated under the driving of actuating device, drives groove drum to rotate.Drive line cylinder corresponding with it to rotate by friction force after groove drum rotates and carry out coiling.Contriver finds after deliberation, and during axis of rotation, its rotation self-powered moved end postpones gradually along the axis of rotating shaft, namely rotating shaft is rotated in rotating shaft away from the part of drive end after the partial turn of drive end again.Because groove drum rotates under the drive of rotating shaft, but when rotating shaft axially produces rotation delay phenomenon along it, also can there is rotation delay phenomenon corresponding with it in the multiple groove drums along rotating shaft axial array, thus cause the groove drum near drive end to rotate prior to the groove drum away from drive end.And because line cylinder is by groove drum drive rotation, when groove drum axially produces the phenomenon of rotating and postponing along rotating shaft, also rotation delay phenomenon corresponding with it can be there is in the multiple line cylinders along rotating shaft axial array, thus cause the line cylinder near drive end to rotate prior to the line cylinder away from drive end, make the rotation time of each line cylinder different.The rotation time difference of line cylinder will certainly cause the coiling amount of line cylinder also different.Line cylinder rotation time is longer, and its coiling amount is larger, otherwise line cylinder rotation time is shorter, and its coiling amount is less.And the axial length of groove drum is longer, the phenomenon of rotating delay is more obvious, thus makes the difference of the coiling amount of each line cylinder larger.

All be set in by all groove drums in same rotating shaft, also can cause the overload of same rotating shaft, can produce vibration during axis of rotation, and rotating shaft is longer, load is heavier, and vibration Shaoxing opera is strong.Therefore in order to reduce Oscillation Amplitude during axis of rotation as much as possible, need the rotating speed of rotating shaft can not be too high, linear velocity general control, at below 390m/min, cannot improve, and directly has influence on the winding efficiency of bobbin-winding machine, makes production efficiency meet with bottleneck.

The present embodiment provides a kind of bobbin-winding machine motor, the bobbin-winding machine motor that workman can adopt the present embodiment to provide is arranged in the frame of original bobbin-winding machine after directly substituting actuating device in original bobbin-winding machine and rotating shaft, a groove drum is driven independently to rotate relative to other groove drums by a bobbin-winding machine motor, realize the quick coiling of bobbin-winding machine, accurately control each line cylinder threading speed phase same function, without the need to transforming the frame of original bobbin-winding machine, make transformation bobbin-winding machine become simple and convenient, improvement cost is low.

The electric machine casing of the bobbin-winding machine motor that the present embodiment provides has the first base, and the first base of each motor rides against on the first brace table of the support on a bobbin-winding machine, realizes the support of the first brace table to electric machine casing.

The electric machine casing of the bobbin-winding machine motor that the present embodiment provides also has the first boss, and the first projection protrudes the first base.When first base rides against on the first brace table, the first projection is resisted against the side of the first brace table, with the first contacts side surfaces of the support on bobbin-winding machine, thus determines the relative position of electric machine casing and support, electric machine casing is accurately positioned in assigned address.

Owing to the support of bobbin-winding machine offering two the first tapped bore, therefore on the first projection of electric machine casing, first through hole corresponding with the first tapped bore is offered, screw in the first tapped bore after adopting the first bolt or the first screw to run through the first through hole, can electric machine casing be removably mounted on support, motor is simply easy for installation, make motor of the present utility model be applicable to the frame of original bobbin-winding machine, reduce the improvement cost of bobbin-winding machine.

Bobbin-winding machine arranges multiple bobbin-winding machine motor, each bobbin-winding machine motor drives a groove drum to rotate, each groove drum can relatively independently be rotated, the rotation of each groove drum is not by the impact of other groove drums, eliminate the rotation delay phenomenon of each groove drum, guarantee that the rotation time of each groove drum and velocity of rotation are all identical, thus guarantee that the rotation time of each line cylinder is all identical with velocity of rotation, the coiling amount of each line cylinder is all identical.

Bobbin-winding machine arranges multiple bobbin-winding machine motor, each bobbin-winding machine motor drives a groove drum to rotate, an only sheathed groove drum in the rotating shaft of i.e. each bobbin-winding machine motor, more all groove drums are set in a rotating shaft, and the length of rotating shaft shortens greatly, load greatly reduces, thus Oscillation Amplitude when greatly reducing axis of rotation, the rotating speed of rotating shaft is improved, linear velocity up to 1000m/min, can improve the winding efficiency of bobbin-winding machine, breaks through the production efficiency bottleneck of bobbin-winding machine.

Of the present utility model upper and lower be all reference with Fig. 5, for the relative concept that the utility model uses is described better.

Embodiment in the utility model, only for being described the utility model, does not form the restriction to right, other equivalent in fact substituting, all in the utility model protection domain that those skilled in that art can expect.

Claims (7)

1. bobbin-winding machine motor, is characterized in that, comprises electric machine casing and rotating shaft; Stators and rotators is provided with in described electric machine casing; One end of described rotating shaft is inserted in described electric machine casing and is connected with the rotor in described electric machine casing, drives rotating shaft center axis thereof around the shaft after described electrical power by rotor turns; The other end of described rotating shaft is positioned at the outside of described electric machine casing; Described electric machine casing is provided with the first base; Described first base is used for being connected with the frame of bobbin-winding machine.

2. bobbin-winding machine motor according to claim 1, is characterized in that, described first base is provided with at least one first through hole.

3. bobbin-winding machine motor according to claim 1, is characterized in that, described electric machine casing is provided with the first projection; Described first projection is connected with described first base, and outstanding described first base.

4. bobbin-winding machine motor according to claim 3, is characterized in that, described first projection offers at least one first through hole.

5. bobbin-winding machine motor according to claim 3, is characterized in that, described first projection is arranged on the end of described first base.

6. bobbin-winding machine motor according to claim 3, is characterized in that, the angle α between described first projection and described first base is greater than 0 ° and is less than 180 °.

7. bobbin-winding machine motor according to claim 6, is characterized in that, the angle α between described first projection and described first base is more than or equal to 60 ° and is less than or equal to 100 °.