CN216212865U - Be applied to braid device on color code inductance winding equipment - Google Patents

Abstract

The utility model provides a be applied to braid device on color code inductance spooling equipment, including being used for carrying out the braid and forming banding braid mechanism to the color code inductance, be used for carrying on the upper paper tape mechanism that the upper paper tape unreeled, be used for carrying on the lower paper tape mechanism that the lower floor paper tape unreeled, be used for carrying out the row's of arranging the unloading to the color code inductance after the braid discharge mechanism, be used for holding the mechanism of the color code inductance of braid, be used for driving braid actuating mechanism of braid device work and be used for actuating mechanism power transmission to the drive mechanism in each mechanism, the automatic automation work that automatic braid and automatic unloading were put has been realized, need not artifical the participation, degree of automation is high, and braid mechanism and row's of arranging the mechanism carry out power transmission through drive mechanism, both actions go on in step, make braid process and arrange material process cooperativity and improve, the reliability of braid device operation is stronger.

Description

Be applied to braid device on color code inductance winding equipment

Technical Field

The utility model belongs to the technical field of color code inductance winding equipment, and particularly relates to a braiding device applied to color code inductance winding equipment.

Background

The manufacture of the color code inductor generally needs to be completed through the following procedures: 1. removing the braid, namely removing the braid from the strip-shaped inductance base material, and splitting to form an independent inductance base material; 2. winding, namely winding the split inductor base material by using enameled wires respectively to form a color code inductor; 3. and (4) braiding, namely braiding the single inductance substrate into a strip-shaped color code inductor after the wire winding is finished. The color code inductance winding equipment is mechanical equipment capable of automatically completing procedures of band removal, winding and braiding. Therefore, a braiding device applied to color code inductance winding equipment is needed to realize automatic braiding.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a braiding device applied to color code inductance winding equipment.

The technical scheme adopted by the utility model for solving the technical problems is as follows:

the utility model provides a be applied to braid device on color code inductance spooling equipment, is including being used for carrying out the braid to the color code inductance and forming banding braid mechanism, be used for carrying on the upper paper tape mechanism that the upper paper tape unreeled, be used for carrying on the lower paper tape mechanism that the lower paper tape unreeled, be used for carrying out the row of arranging material mechanism of arranging the unloading to the color code inductance after the braid, be used for holding the mechanism of color code inductance of braid, be used for driving braid actuating mechanism of braid device work and be arranged in actuating mechanism power transmission to each mechanism's drive mechanism, actuating mechanism passes through drive mechanism and connects braid mechanism and row material mechanism, and the coiled paper area is placed on upper paper tape mechanism and lower paper tape mechanism, introduces braid mechanism through upper paper tape mechanism and lower paper tape mechanism and carries out the braid process, it sets up in the below of arranging the material mechanism discharge gate to hold the mechanism.

As a further improvement of the utility model, the braiding mechanism comprises a braiding wheel used for receiving the color code inductor transmitted from the blanking mechanism, an upper lead-in wheel used for leading an upper layer paper tape to the braiding wheel, a lower lead-in wheel used for leading a lower layer paper tape to the braiding wheel and a pressing wheel set used for being matched with the braiding wheel to press and adhere the color code inductor between the upper layer paper tape and the lower layer paper tape, the upper lead-in wheel and the lower lead-in wheel are respectively arranged above and below the braiding wheel, the pressing wheel set is arranged at the rear part of the braiding wheel and is matched and connected with the braiding wheel, and a lead-out wheel used for leading out the strip color code inductor after the braiding is finished is arranged at the rear part of the braiding wheel.

As a further improvement of the utility model, the paper tape feeding mechanism comprises an upper loading frame for placing the rolled paper tape and an upper guide wheel arranged below the upper loading frame, wherein the upper paper tape is placed on the upper loading frame and sequentially passes through the upper guide wheel and the upper guide wheel to enter the braiding wheel.

As a further improvement of the utility model, the lower paper tape mechanism comprises a lower loading frame for placing the rolled paper tape and a lower guide wheel arranged above the lower loading frame, wherein the lower paper tape is placed on the lower loading frame and sequentially passes around the lower guide wheel and the lower guide wheel to enter the braiding wheel.

As a further improvement of the utility model, the pressing wheel set comprises two pressing arms hinged in a corner manner and pressing wheels arranged on the pressing arms, and the two pressing wheels are tightly matched on the side walls of the belt weaving wheel through springs.

As a further improvement of the utility model, the discharging mechanism comprises a discharging track for discharging the color code inductor after being braided at a specified position, a push rod for pushing the discharging track to swing back and forth, a connecting rod connected with the other end of the push rod, a rotary disc connected with the other end of the connecting rod and a traction wheel for drawing the color code inductor into a discharging channel, wherein the rotary disc and the traction wheel are both connected with the transmission mechanism.

As a further improvement of the utility model, the driving mechanism comprises a driving motor, a driving wheel connected to an output shaft of the driving motor, and a driven wheel connected with the driving wheel through a belt.

As a further improvement of the utility model, the transmission mechanism comprises a braiding shaft connected with a driven wheel, a braiding driving wheel sleeved on the braiding shaft, and a first discharging driving wheel and a second discharging driving wheel which are driven by chains, wherein the braiding shaft is connected into the braiding mechanism for power transmission, and the first discharging driving wheel and the second discharging driving wheel are respectively connected into the discharging mechanism for power transmission through a first discharging transmission shaft and a second discharging transmission shaft.

As a further improvement of the utility model, the containing mechanism comprises a containing disc for containing the color code inductor and a moving mechanism for driving the containing disc to move back and forth, and the moving mechanism comprises a rack fixed at the bottom of the containing disc, a gear matched with the rack and a moving motor for driving the gear to rotate.

The utility model has the beneficial effects that: according to the braiding device, the color code inductors wound by the winding mechanism are transmitted into the braiding mechanism one by one through the discharging mechanism, the upper paper tape mechanism and the lower paper tape mechanism respectively unreel the upper layer paper tape and the lower layer paper tape into the braiding mechanism along with the operation of the braiding mechanism, the color code inductors are adhered between the upper layer paper tape and the lower layer paper tape through the braiding mechanism, the color code inductors are conveyed into the discharging mechanism to be sequentially arranged and discharged after braiding is completed, and the color code inductors are finally discharged into the containing mechanism in order to be placed in a concentrated mode. In the whole braiding process, the full-automatic operation of automatic braiding and automatic discharging placement is realized, manual participation is not needed, the automation degree is high, the braiding mechanism and the discharging mechanism are in power transmission through the transmission mechanism, the two actions are carried out synchronously, the braiding process and the discharging process are improved in cooperativity, and the running reliability of the braiding device is higher. Specifically, the method comprises the following steps:

firstly, the discharging mechanism swings left and right, and the containing mechanism moves back and forth in a combined manner, so that ordered blanking is completed after the color code inductor is braided, the color code inductor is regularly spread and placed on the containing disc, the storage space is greatly reduced, and the storage space can contain one time more color code inductor materials;

secondly, the pressing wheel set is provided with a spring to enable the pressing wheel set to always press the upper paper tape, so that the paper tape is tightly attached to the color code inductor, and the splicing compatibility is improved;

and thirdly, the guide wheel structures such as an upper leading-in wheel, a lower leading-in wheel, an upper guide wheel and a lower leading-in wheel are arranged in the braiding mechanism, the upper paper tape mechanism and the lower paper tape mechanism, so that the paper tape introduced in the braiding process is kept in a tensioning state, the color code inductance braiding is tidy, and the phenomena of loosening and deviation of the paper tape are avoided.

Drawings

The utility model is further illustrated by the following figures and embodiments:

FIG. 1 is a schematic view of an installation structure of the taping device of this embodiment;

FIG. 2 is a perspective view of the braiding apparatus of this embodiment in a view direction;

FIG. 3 is a perspective view of the braiding apparatus of this embodiment in another view direction;

FIG. 4 is a front view of the braiding apparatus according to this embodiment;

FIG. 5 is a schematic view of the conveying direction of the paper tape in the taping device of this embodiment;

FIG. 6 is a schematic structural view of the taping mechanism of this embodiment;

FIG. 7 is a schematic structural view of a tape feeding mechanism according to the present embodiment;

FIG. 8 is a schematic structural view of a lower tape mechanism according to this embodiment;

FIG. 9 is a schematic structural diagram of the discharging mechanism of the present embodiment;

FIG. 10 is a schematic view showing the mounting structure of the driving mechanism and the transmission mechanism according to the present embodiment;

fig. 11 is a schematic structural view of the holding mechanism of the present embodiment;

FIG. 12 is a schematic view of an installation structure of the braiding apparatus and the transverse feeding mechanism of the present embodiment;

FIG. 13 is a schematic structural diagram of an interface component according to the present embodiment;

fig. 14 is a schematic structural view of the cross-over wheel of the present embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

Example (b):

as shown in fig. 1 to 11, the embodiment discloses a braiding device applied to a color code inductor winding device, which includes a braiding mechanism 1 for braiding a color code inductor into a strip shape, an upper paper tape mechanism 2 for unwinding an upper paper tape, a lower paper tape mechanism 3 for unwinding a lower paper tape, a discharging mechanism 4 for arranging and discharging the color code inductor after braiding, a holding mechanism 5 for holding the color code inductor of the braiding, a braiding driving mechanism 6 for driving the braiding device to work, and a transmission mechanism 7 for transmitting power of the driving mechanism 6 to each mechanism, wherein the driving mechanism 6 is connected with the braiding mechanism 1 and the discharging mechanism 4 through the transmission mechanism 7, the coiled paper tape is placed on the upper paper tape mechanism 2 and the lower paper tape mechanism 3, and is introduced into the braiding mechanism 1 through the upper paper tape mechanism 2 and the lower paper tape mechanism 3 for a braiding process, the containing mechanism 5 is arranged below the discharge hole of the discharging mechanism 4. During the taping, the color code inductors wound through the discharging mechanism are transmitted to the taping mechanism 1 one by one, along with the operation of the taping mechanism 1, the upper paper tape mechanism 2 and the lower paper tape mechanism 3 unreel the upper paper tape and the lower paper tape to the taping mechanism 1 respectively, the taping mechanism 1 adheres the color code inductors between the upper paper tape and the lower paper tape, after the taping is completed, the color code inductors are conveyed to the discharging mechanism 4 for orderly arranging and discharging, and the color code inductors are finally discharged to the containing mechanism 5 in order to be placed in a concentrated mode. In the whole braiding process, the full-automatic operation of automatic braiding and automatic discharging placement is realized, manual participation is not needed, the automation degree is high, the braiding mechanism 1 and the discharging mechanism 4 are in power transmission through the transmission mechanism 7, the actions of the braiding mechanism and the discharging mechanism are carried out synchronously, the braiding process and the discharging process are improved in cooperativity, and the operation reliability of the braiding device is higher.

In a preferred embodiment, the taping mechanism 1 includes a taping wheel 11 for receiving the color code inductor conveyed from the feeding mechanism, an upper introducing wheel 12 for introducing an upper paper tape to the taping wheel 11, a lower introducing wheel 13 for introducing a lower paper tape to the taping wheel 11, and a pressing wheel set 14 for cooperating with the taping wheel 11 to press and adhere the color code inductor between the upper paper tape and the lower paper tape, the upper introducing wheel 12 and the lower introducing wheel 13 are respectively arranged above and below the taping wheel 11, the pressing wheel set 14 is arranged at the rear part of the taping wheel 11 and is cooperatively connected with the taping wheel 11, and a leading-out wheel 15 for leading out the strip-shaped color code inductor after taping is completed is arranged at the rear part of the taping wheel 11. The upper paper tape is wound around the upper lead-in wheel 12 and enters the belt-weaving wheel 11, the lower paper tape is wound around the lower lead-in wheel 13 and enters the belt-weaving wheel 11, the upper paper tape is led in from the upper side of the color code inductance sensing position, the lower paper tape is led in from the lower side of the color code inductance sensing position, so that the color code inductance is just positioned between the upper paper tape and the lower paper tape when the color code inductance is led in from the blanking mechanism to the belt-weaving wheel 11, the color code inductance is tightly pressed and adhered between the upper paper tape and the lower paper tape under the matching action of the pressing wheel set 14 and the belt-weaving wheel 11, and after the belt-weaving is completed, the paper tape is led out from the lead-out wheel 15.

As a preferred embodiment, the upper tape mechanism 2 comprises an upper loading frame 21 for placing the rolled tape and an upper guide wheel 22 mounted below the upper loading frame 21, the upper tape is placed on the upper loading frame 21, and passes through the upper guide wheel 22 and the upper guide wheel 12 in turn into the tape winding wheel 11. The lower paper tape mechanism 3 comprises a lower loading frame 31 for placing the rolled paper tape and a lower guide wheel 32 arranged above the lower loading frame 31, wherein the lower paper tape is placed on the lower loading frame 31 and passes through the lower guide wheel 32 and the lower guide wheel 13 in sequence to enter the braiding wheel 11. Namely, the upper paper tape mechanism 2 and the lower paper tape mechanism 3 have the same structure, are installed in an inverted mode, and in order to enable the upper paper tape and the lower paper tape to be tensioned and orderly unreeled into the braiding mechanism 1, two upper guide wheels 22 and two lower guide wheels 32 are arranged, the upper paper tape is wound around the two upper guide wheels 22 in a staggered mode, and the lower paper tape is wound around the two lower guide wheels 32 in a staggered mode.

In a preferred embodiment, in order to provide a certain pressing force when the pressing wheel set 14 is engaged with the braiding wheel 11 to press the braiding belt, the pressing wheel set 14 includes two pressing arms 141 hinged at an angle and pressing wheels 142 mounted on the pressing arms 141, and the two pressing wheels 142 are engaged with the side walls of the braiding wheel 11 in a tensioned manner through springs. The spring is not drawn in the drawings of the specification.

As a preferred embodiment, the discharging mechanism 4 includes a discharging rail 41 for discharging the color code inductor after being woven at a designated position, a push rod 42 for pushing the discharging rail 41 to swing back and forth, a connecting rod 43 connected to the other end of the push rod 42, a turntable 44 connected to the other end of the connecting rod 43, and a traction wheel 45 for drawing the color code inductor into a discharging channel, a conveyor belt is arranged between the traction wheel 45 and the drawing wheel 15, the conveyor belt supports the color code inductor to be transmitted from the drawing wheel 15 to the traction wheel 45, the conveyor belt is not shown in the drawings, and both the turntable 44 and the traction wheel 45 are connected with the transmission mechanism 7. The transmission mechanism 7 drives the turntable 44 to rotate, the turntable 44 drives the push rod 42 to push the material discharge rail 41 to swing back and forth through the connecting rod 43, so that the color code inductors are arranged in a Z shape in the containing mechanism 5, the blanking work of the color code inductors is orderly carried out, and the arrangement is orderly.

In a preferred embodiment, the driving mechanism 6 includes a driving motor 61, a driving pulley 62 connected to an output shaft of the driving motor 61, and a driven pulley 64 connected to the driving pulley 62 via a belt 63. The transmission mechanism 7 comprises a braiding shaft 71 connected with the driven wheel 64, a braiding driving wheel 72 sleeved on the braiding shaft 71, and a first discharging driving wheel 74 and a second discharging driving wheel 75 which are driven by a chain 73, wherein the braiding shaft 71 is connected into the braiding mechanism 1 for power transmission, and the first discharging driving wheel 74 and the second discharging driving wheel 75 are respectively connected into the discharging mechanism 4 for power transmission through a first discharging transmission shaft 76 and a second discharging transmission shaft 77. The braiding shaft 71 is connected with the braiding wheel 11, the first discharging transmission shaft 76 is connected with the turntable 44, and the second discharging transmission shaft 77 is connected with the traction wheel 45.

As a further improvement of the present invention, the containing mechanism 5 comprises a containing tray 51 for containing the color code inductor and a moving mechanism for driving the containing tray 51 to move back and forth, and the moving mechanism comprises a rack 52 fixed at the bottom of the containing tray 51, a gear 53 matched with the rack 52 and a moving motor 54 for driving the gear 53 to rotate. The moving motor 54 drives the tray 51 to move through the cooperation of the gear 53 and the rack 52, and in order to make the tray 51 move stably and stably, a moving guide mechanism 55 is disposed at the bottom of the tray 51, and the moving guide mechanism 55 may be a slide guide structure.

As a preferred embodiment, as shown in fig. 12 to 14, the wound color code inductor is conveyed to the braiding device by the transverse feeding mechanism 8 for braiding, an interface part for transmitting the color code inductor on the transverse feeding mechanism 8 to the braiding device is arranged between the transverse feeding mechanism 8 and the braiding device, the interface part comprises an interface wheel 81, a plurality of transmission slot positions are arranged on the side wall of the interface wheel 81, the transverse feeding mechanism 8 transmits the color code inductor to the transmission slot positions of the interface wheel 81, the color code inductor runs on the braiding device along with the interface wheel 81, and the color code inductor is transmitted to the braiding device from the transverse feeding mechanism 8. And the colour code inductance can lead to the colour code inductance to take off the handing-over wheel 81 and drop because mechanical vibration, putting into the position not just scheduling problem in the transmission process, for solving this problem, the lateral wall of handing-over wheel 81 of this embodiment sets up a plurality of magnetic path 82 that is used for absorbing the colour code inductance, and the effect of magnetic attraction through magnetic path 82 makes the actuation of colour code inductance on handing-over wheel 81 to realize the effect of stably transmitting and carrying. Because the magnet 82 arranged on the cross-connecting wheel 81 can have magnetism, the magnetic attraction effect on the color code inductor is always kept, when the color code inductor is conveyed to a position close to the braiding device along with the cross-connecting wheel 81, the color code inductor needs to be conveyed to the braiding device from the cross-connecting wheel 81, and the magnetic attraction effect needs to be eliminated, therefore, the color code inductor is sleeved on the cross-connecting wheel 81 and separated from the conveyor belt 83, a separated driven wheel 84 used for being connected with the separated conveyor belt 83 to form belt transmission is arranged on the outer side of the cross-connecting wheel 81, the separated conveyor belt 83 is sleeved on the cross-connecting wheel 81 and separated from the driven wheel 84, when the color code inductor is separated from the cross-connecting wheel 81 and enters the braiding device, the magnetic attraction effect of the color code inductor separated from the cross-connecting wheel 81 through the separated conveyor belt 83 is transmitted to the braiding device, and the separation effect is realized.

The above description is only a preferred embodiment of the present invention, and the technical solutions that achieve the objects of the present invention by substantially the same means are within the protection scope of the present invention.

Claims (9)

1. The utility model provides a be applied to braid device on color code inductance spooling equipment which characterized in that: the device comprises a braiding mechanism (1) for braiding color code inductors to form strips, an upper paper tape mechanism (2) for unreeling an upper paper tape, a lower paper tape mechanism (3) for unreeling a lower paper tape, a discharging mechanism (4) for arranging and discharging the color code inductors after braiding, a containing mechanism (5) for containing the color code inductors of the braids, a braiding driving mechanism (6) for driving a braiding device to work and a transmission mechanism (7) for driving the driving mechanism (6) to be in power transmission to the mechanisms, wherein the driving mechanism (6) is connected with the braiding mechanism (1) and the discharging mechanism (4) through the transmission mechanism (7), coiled paper tapes are placed on the upper paper tape mechanism (2) and the lower paper tape mechanism (3) and are introduced into the braiding mechanism (1) through the upper paper tape mechanism (2) and the lower paper tape mechanism (3) to perform a braiding process, the containing mechanism (5) is arranged below the discharge hole of the discharging mechanism (4).

2. The braiding device applied to the color code inductance winding equipment as claimed in claim 1, wherein: the belt knitting mechanism (1) comprises a belt knitting wheel (11) used for receiving color code inductors conveyed from a discharging mechanism, an upper lead-in wheel (12) used for leading an upper layer paper tape to the belt knitting wheel (11), a lower lead-in wheel (13) used for leading a lower layer paper tape to the belt knitting wheel (11), and a pressing wheel set (14) used for being matched with the belt knitting wheel (11) to press and adhere the color code inductors between the upper layer paper tape and the lower layer paper tape, the upper lead-in wheel (12) and the lower lead-in wheel (13) are respectively arranged above and below the belt knitting wheel (11), the pressing wheel set (14) is arranged at the rear part of the belt knitting wheel (11) and is matched and connected with the belt knitting wheel (11), and a lead-out wheel (15) used for leading out strip color code inductors after belt knitting is completed is arranged at the rear part of the belt knitting wheel (11).

3. The braiding device applied to the color code inductance winding equipment as claimed in claim 2, wherein: the paper tape feeding mechanism (2) comprises an upper loading frame (21) used for placing coiled paper tapes and an upper guide wheel (22) arranged below the upper loading frame (21), wherein the upper paper tapes are placed on the upper loading frame (21) and sequentially pass through the upper guide wheel (22) and the upper guide wheel (12) to enter the tape weaving wheel (11).

4. The braiding device applied to the color code inductance winding equipment as claimed in claim 2, wherein: the lower paper tape mechanism (3) comprises a lower loading frame (31) used for placing the coiled paper tape and a lower guide wheel (32) arranged above the lower loading frame (31), wherein the lower paper tape is placed on the lower loading frame (31) and sequentially bypasses the lower guide wheel (32) and the lower guide wheel (13) to enter the belt weaving wheel (11).

5. The braiding device applied to the color code inductance winding equipment as claimed in claim 2, wherein: the pressing wheel set (14) comprises two pressing arms (141) hinged at a corner and pressing wheels (142) arranged on the pressing arms (141), and the two pressing wheels (142) are in tension fit with the side walls of the belt-winding wheel (11) through springs.

6. The braiding device applied to the color code inductance winding equipment as claimed in claim 1, wherein: the discharging mechanism (4) comprises a discharging track (41) used for discharging the color code inductor after being braided at a designated position, a push rod (42) used for pushing the discharging track (41) to swing in a reciprocating mode, a connecting rod (43) connected with the other end of the push rod (42), a rotary disc (44) connected with the other end of the connecting rod (43) and a traction wheel (45) used for drawing the color code inductor into a discharging channel, wherein the rotary disc (44) and the traction wheel (45) are both connected with the transmission mechanism (7).

7. The braiding device applied to the color code inductance winding equipment as claimed in claim 1, wherein: the driving mechanism (6) comprises a driving motor (61), a driving wheel (62) connected to an output shaft of the driving motor (61), and a driven wheel (64) connected with the driving wheel (62) through a belt (63).

8. The braiding device applied to the color code inductance winding equipment as claimed in claim 7, wherein: the transmission mechanism (7) comprises a braiding shaft (71) connected with a driven wheel (64), a braiding driving wheel (72) sleeved on the braiding shaft (71), and a first discharging driving wheel (74) and a second discharging driving wheel (75) which are driven by a chain (73), the braiding shaft (71) is connected into the braiding mechanism (1) for power transmission, and the first discharging driving wheel (74) and the second discharging driving wheel (75) are connected into the discharging mechanism (4) for power transmission through a first discharging transmission shaft (76) and a second discharging transmission shaft (77) respectively.

9. The braiding device applied to the color code inductance winding equipment as claimed in claim 1, wherein: the containing mechanism (5) comprises a containing disc (51) for containing color code inductors and a moving mechanism for driving the containing disc (51) to move back and forth, and the moving mechanism comprises a rack (52) fixed at the bottom of the containing disc (51), a gear (53) matched with the rack (52) and a moving motor (54) for driving the gear (53) to rotate.

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