CN211594653U - Belt winding machine with rotating equipment - Google Patents

Abstract

The utility model provides a belting machine takes slewing equipment in, include: the device comprises a rotary driving device, a rotary disk, a convolution disk, a tightening driving device and an elastic pressing device, wherein the rotary disk can be rotatably arranged on a moving seat, the rotary driving device is arranged on the moving seat and connected with the rotary disk, the convolution disk is arranged on the edge of the rotary disk and used for a convolution belt, the tightening driving device is arranged on the rotary disk and used for tightening a belt between the convolution disk and a columnar body and pulling the belt out of the convolution disk; the elastic pressing device is positioned between the tightening driving device and the columnar body and is used for pressing the belt on the columnar body. The belt rotating equipment in the belt winding machine solves the problem that the gap between the belt and the cylindrical body is large due to the lack of a device for pressing the belt on the cylindrical body in the prior art.

Description

Belt winding machine with rotating equipment

Technical Field

The utility model relates to an equipment is used in the production of columnar body, concretely relates to belting machine area rotating equipment.

Background

In the production process of cylindrical bodies such as cables and the like, the cylindrical bodies need to be wound with belts. In order to realize automatic tape winding, a tape winding machine is designed.

This coiler includes: support the limit and change equipment, conveying equipment, remove seat and take rotary equipment, design the convolution dish and the rotary driving device that are used for the convolution area in taking rotary equipment, the convolution dish is around rotating under rotary driving device drives, take rotary equipment to install on removing the seat, it moves in the direction parallel with the columnar body to remove the seat under conveying equipment carries, support limit and change equipment support column body and guarantee that the columnar body can not the rotation, thereby realized the relative columnar body screw motion of convolution dish, twine the area on the columnar body, but owing to do not have the device of taking the pressure on the columnar body, consequently, it is loose after consequently leading to the area to twine on the columnar body, the clearance is great between area and the columnar body, the phenomenon that leads to the finished product quality to be lower exists.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a belting rotating equipment in belting winder solves among the prior art and compresses tightly the great problem in clearance between area and the columnar body because of lacking the area.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a belting machine takes slewing equipment in, include: the device comprises a rotary driving device, a rotary disk, a convolution disk, a tightening driving device and an elastic pressing device, wherein the rotary disk can be rotatably arranged on a moving seat, the rotary driving device is arranged on the moving seat and connected with the rotary disk, the convolution disk is arranged on the edge of the rotary disk and used for a convolution belt, the tightening driving device is arranged on the rotary disk and used for tightening a belt between the convolution disk and a columnar body and pulling the belt out of the convolution disk; the elastic pressing device is positioned between the tightening driving device and the columnar body and is used for pressing the belt on the columnar body.

Preferably, the elastic pressing means includes: the mounting seat is fixed on the rotary disk, a guide groove is formed in the side wall of the mounting seat in a concave mode, the distance from the end portion, close to the convolution disk, of the guide groove to the center line of the convolution disk is larger than the distance from the end portion, away from the convolution disk, of the guide groove to the center line of the convolution disk, the mounting pin capable of sliding is installed in the guide groove, the screw rod is connected to the mounting seat in a threaded mode and fixed with the push disk acting on the mounting pin, the screw rod is parallel to the center line of the convolution disk, the mounting pin is fixed at one end of the guide rod, the other end of the guide rod extends into the guide sleeve, the guide sleeve can move in the radial direction of the convolution disk relative to the guide rod, the mounting head is installed on the guide sleeve, the mounting head is provided with the pressing wheel capable of rotating, and the pressing wheel is used for.

Preferably, a supporting block is arranged at the end part of the guide sleeve, which is far away from the mounting head, and the supporting block can act with the mounting seat to limit the pinch roller from being separated from the belt.

Preferably, the rotation driving means includes: the motor, first gear and second gear install two first supporting seats and the second supporting seat of mutual spaced on removing the seat, and first supporting seat and second supporting seat are all passed by the revolving drum, and revolving drum one end is fixed to the rotary disk, and the fixed second gear that has just passed in revolving drum middle part, second gear can with first gear engagement, and first gear is fixed with the motor output, and the motor is installed on removing the seat.

Preferably, the tightening driving means includes: the second supporting seat is positioned on one side, close to the convolution disc, of the first supporting seat, a gear ring is fixed on the second supporting seat and is used for a rotary cylinder to pass through, the gear ring is meshed with the third gear, the third gear is installed on the edge of the rotary disc and is connected with the fourth gear through a concentric shaft, the fourth gear is meshed with the fifth gear, the fifth gear is meshed with the sixth gear, the sixth gear is meshed with the seventh gear, the seventh gear is meshed with the eighth gear, the fourth gear is fixed with a first guide column, a second guide column capable of rotating is installed beside the eighth gear, a belt passes through the space between the fifth gear and the first guide column and the space between the seventh gear and the second guide column, and the fifth gear and the seventh gear are in contact with the belt.

Compared with the prior art, the utility model discloses following beneficial effect has:

the belt is convoluted to the columnar body after being pulled out from the convolution disc, the belt section on the convolution disc and the columnar body is tightened by the tightening driving device, the convolution disc can rotate around the disc shaft, the convolution disc is fixed to one end of the coil spring, the other end of the coil spring is fixed to the disc shaft, the coil spring is provided with a certain elastic limiting belt to be pulled out from the convolution disc, so that the belt can be tightened after being pulled out, the tightened belt is tightly pressed on the columnar body under the action of the elastic pressing device, the phenomenon that the belt is easily loosened and separated due to overlarge gap between the belt and the columnar body is avoided, the belt is tightly stuck to the columnar body everywhere is guaranteed, the quality of a winding belt is guaranteed, and the market competitiveness of a product is improved.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

FIG. 1 is a schematic structural view of a tape winder;

FIG. 2 is a schematic structural view of a belt rotating device in the belt winding machine;

fig. 3 is a schematic structural diagram of the elastic pressing device.

Reference numerals: the device comprises a rotary driving device 1, a motor 11, a first gear 12, a second gear 13, a rotating disk 2, a convolution disk 3, a tightening driving device 4, a toothed ring 41, a third gear 42, a fourth gear 43, a fifth gear 44, a sixth gear 45, a seventh gear 46, a first guide column 47, a second guide column 48, an elastic pressing device 5, a pressing wheel 51, a mounting head 52, a guide sleeve 53, a guide rod 54, a spring 55, a mounting pin 56, a mounting seat 57, a screw 59, a supporting block 50, a moving seat 6, a first supporting seat 61, a second supporting seat 62, a rotating cylinder 63 and a columnar body 7.

Detailed Description

In order to make the utility model realize that technical means, creation characteristics, achievement purpose and effect are clearer and easily understand, it is right to combine below the figure and the detailed implementation mode the utility model discloses do further explanation:

as shown in fig. 1 to 3, the utility model provides a belting rotating equipment in the coiler, include: the device comprises a rotary driving device 1, a rotary disk 2, a convolution disk 3, a tightening driving device 4 and an elastic pressing device 5, wherein the rotary disk 2 can be rotatably arranged on a moving seat 6, the rotary driving device 1 is arranged on the moving seat 6, the rotary driving device 1 is connected with the rotary disk 2, the convolution disk 3 is arranged on the edge of the rotary disk 2, the convolution disk 3 is used for a convolution belt, the tightening driving device 4 is arranged on the rotary disk 2, and the tightening driving device 4 is used for tightening a belt between the convolution disk 3 and a columnar body 7 and pulling the belt out of the convolution disk 3; the elastic pressing device 5 is positioned between the tightening driving device 4 and the columnar body 7, and the elastic pressing device 5 is used for pressing the belt on the columnar body 7.

In order to design the elastic pressing device 5 with a simple structure and realize that the elastic pressing device 5 presses the belt on the columnar body 7 after the belt is put into the elastic pressing device 5, the elastic pressing device 5 comprises: a pinch roller 51, a mounting head 52, a guide sleeve 53, a guide rod 54, a spring 55, a mounting pin 56, a mounting seat 57, a pushing disc and a screw 59, wherein the mounting seat 57 is fixed on the rotating disc 2, the side wall of the mounting seat 57 is concavely provided with a guide groove, the distance from the end part of the guide groove close to the convolution disc 3 to the central line of the convolution disc 3 is larger than the distance from the end part of the guide groove far away from the convolution disc 3 to the central line of the convolution disc 3, the mounting pin 56 capable of sliding is arranged in the guide groove, the screw 59 is in threaded connection with the mounting seat 57, the pushing disc acting with the mounting pin 56 is fixed on the screw 59, the screw 59 is parallel to the central line of the convolution disc 3, the mounting pin 56 is fixed at one end of the guide rod 54, the other end of the guide rod 54 extends into the guide sleeve 53, the guide sleeve 53 can move in the radial direction of the convolution disc 3 relative, the pinch roller 51 is used to pinch the belt against the cylindrical body 7. When mounting, first, the screw 59 is rotated so that the pushing disk on the screw 59 has no pressing effect on the mounting pin 56; then, the mounting pin 56 is moved to the end of the mounting seat 57 away from the convolution disc 3, so that the pinch roller 51 is distanced from the cylindrical body 7; then, the belt is put between the pinch roller 51 and the columnar body 7, so that the belt is convenient to mount; then, the screw 59 is rotated so that the screw 59 is pushed into the mounting seat 57, the screw 59 pushes the mounting pin 56 by pushing the disk, the mounting pin 56 is pressed into the end of the guide groove close to the convolution disk 3, and the mounting pin 56 is close to the center line of the convolution disk 3, so that the pinch roller 51 presses the belt against the columnar body 7 to achieve mounting.

In order to ensure that the pressing force of the pressing wheel 51 on the cylindrical body 7 is enough, a supporting block 50 is arranged at the end of the guide sleeve 53 away from the mounting head 52, the supporting block 50 can act with the mounting seat 57 to limit the pressing wheel 51 from being separated from the belt, and the supporting block 50 is arranged behind when the pressing wheel 51 presses the belt on the cylindrical body 7.

In order to design a simply structured rotary drive 1, the rotary drive 1 includes: motor 11, first gear 12 and second gear 13 install two first supporting seat 61 and the second supporting seat 62 of mutual spaced on removing seat 6, first supporting seat 61 and second supporting seat 62 are all passed by a rotatory section of thick bamboo 63, a rotatory section of thick bamboo 63 one end is fixed to rotary disk 2, it has second gear 13 to fix and pass in the middle part of a rotatory section of thick bamboo 63, second gear 13 can mesh with first gear 12, first gear 12 is fixed with motor 11 output end, motor 11 installs on removing seat 6.

In order to design the tightening drive device 4 with a simple structure, the tightening drive device 4 includes: a gear ring 41, a third gear 42, a fourth gear 43, a fifth gear 44, a sixth gear 45, a seventh gear 46, an eighth gear, a first guide column 47 and a second guide column 48, wherein the second supporting seat 62 is positioned at one side of the first supporting seat 61 close to the convolution disc 3, the gear ring 41 is fixed on the second supporting seat 62, the rotating cylinder 63 passes through the gear ring 41, the gear ring 41 is meshed with the third gear 42, the third gear 42 is installed on the edge of the rotating disc 2, the third gear 42 is connected with the fourth gear 43 through a concentric shaft, the fourth gear 43 is meshed with the fifth gear 44, the fifth gear 44 is meshed with the sixth gear 45, the sixth gear 45 is meshed with the seventh gear 46, the seventh gear 46 is meshed with the eighth gear, the fourth gear 43 is fixed with the first guide column 47, the rotatable second guide column 48 is installed beside the eighth gear, a belt passes through between the fifth gear 44 and the first guide column 47 and between the seventh gear 46 and the second guide column 48, the fifth gear 44 and the seventh gear 46 are in contact with the belt. The third gear 42 rotates around the gear ring 41 under the drive of the rotating disk 2, the third gear 42 and the fourth gear 43 rotate together under the drive of the gear ring 41, the fifth gear 44 rotates to cause the first guide column 47 to pull the belt out of the convolution disc 3, the seventh gear 46 and the fifth gear 44 rotate in the same direction, the seventh gear 46 and the fifth gear 44 cooperate together to pull the belt out of the convolution disc 3, the belt can be pulled out of the convolution disc 3 during the movement of the moving seat 6, and the seventh gear 46 and the fifth gear 44 are only auxiliary functions.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (5)

1. A rotating device in a tape winder is characterized by comprising: the device comprises a rotary driving device, a rotary disk, a convolution disk, a tightening driving device and an elastic pressing device, wherein the rotary disk can be rotatably arranged on a moving seat, the rotary driving device is arranged on the moving seat and connected with the rotary disk, the convolution disk is arranged on the edge of the rotary disk and used for a convolution belt, the tightening driving device is arranged on the rotary disk and used for tightening a belt between the convolution disk and a columnar body and pulling the belt out of the convolution disk; the elastic pressing device is positioned between the tightening driving device and the columnar body and is used for pressing the belt on the columnar body.

2. The rotating device of a belt in a belt winding machine of claim 1, characterized in that the elastic pressing means comprises: the mounting seat is fixed on the rotary disk, a guide groove is formed in the side wall of the mounting seat in a concave mode, the distance from the end portion, close to the convolution disk, of the guide groove to the center line of the convolution disk is larger than the distance from the end portion, away from the convolution disk, of the guide groove to the center line of the convolution disk, the mounting pin capable of sliding is installed in the guide groove, the screw rod is connected to the mounting seat in a threaded mode and fixed with the push disk acting on the mounting pin, the screw rod is parallel to the center line of the convolution disk, the mounting pin is fixed at one end of the guide rod, the other end of the guide rod extends into the guide sleeve, the guide sleeve can move in the radial direction of the convolution disk relative to the guide rod, the mounting head is installed on the guide sleeve, the mounting head is provided with the pressing wheel capable of rotating, and the pressing wheel is used for.

3. The tape winder as claimed in claim 2, wherein a support block is mounted to the end of the guide sleeve facing away from the mounting head, the support block being capable of acting with the mounting seat to limit the pinch roller from disengaging from the tape.

4. The tape winder as claimed in claim 1, wherein the rotary drive means comprises: the motor, first gear and second gear install two first supporting seats and the second supporting seat of mutual spaced on removing the seat, and first supporting seat and second supporting seat are all passed by the revolving drum, and revolving drum one end is fixed to the rotary disk, and the fixed second gear that has just passed in revolving drum middle part, second gear can with first gear engagement, and first gear is fixed with the motor output, and the motor is installed on removing the seat.

5. The tape winder as claimed in claim 1, wherein the tensioner comprises: the second supporting seat is positioned on one side, close to the convolution disc, of the first supporting seat, a gear ring is fixed on the second supporting seat and is used for a rotary cylinder to pass through, the gear ring is meshed with the third gear, the third gear is installed on the edge of the rotary disc and is connected with the fourth gear through a concentric shaft, the fourth gear is meshed with the fifth gear, the fifth gear is meshed with the sixth gear, the sixth gear is meshed with the seventh gear, the seventh gear is meshed with the eighth gear, the fourth gear is fixed with a first guide column, a second guide column capable of rotating is installed beside the eighth gear, a belt passes through the space between the fifth gear and the first guide column and the space between the seventh gear and the second guide column, and the fifth gear and the seventh gear are in contact with the belt.

Images