CN210364500U - Ribbon conveyer of ribbon machine - Google Patents

Abstract

The utility model provides a ribbon conveyer of ribbon machine, is including the feeding mechanism who is used for carrying the ribbon to give pushing equipment for with the ribbon separately the pushing equipment of propelling movement one by one with be used for the guide mechanism with each derivation of ribbon of propelling movement, the utility model discloses an on traditional ribbon conveyer structure basis, a cylinder structure has been installed additional on pushing equipment, after making the piston cylinder among the prior art push the ribbon into this link in the guide pipe one by one, the cylinder mechanism that utilizes newly to add carries out the secondary to the ribbon and pushes away the material to can effectively reduce the number of times of the jam that the ribbon appears at the guide pipe, thereby improve production efficiency.

Description

Ribbon conveyer of ribbon machine

Technical Field

The utility model relates to a ribbon machine field is material conveyer in ribbon machine particularly.

Background

A strapping machine is a mechanical device used to replace manual strapping, and generally includes a strap transferring device for separating and guiding out the straps (usually nylon straps) one by one, thereby facilitating the strapping and cutting.

In the prior art, the chinese patent publication No. CN107098014A discloses an automatic distributing and counting device for bulk binders, and the accompanying drawings 9 to 16 disclose the structure of the distributing (i.e., binder conveying) device, which is a patent thereof, and the principle thereof is that piston cylinders are generally utilized to push the binders into material guiding pipes one by one, and then the valves of the material guiding pipes are closed. Then the ribbon is blown out from the material guide pipe by using a material blowing cylinder in the material guide pipe, so that the ribbon is separated and led out.

However, in the link that the piston cylinder pushes the binding tapes into the material guide pipe one by one in the prior art, along with the continuous movement of the piston cylinder, individual binding tapes do not completely enter the material guide pipe, so that a valve of the material guide pipe cannot be closed, the blocking of the material guide pipe is caused, and the production efficiency is affected.

Disclosure of Invention

The utility model provides a not enough to prior art, the utility model provides a ribbon conveyer of ribbon machine can effectively prevent the phenomenon of jam of ribbon appearance in the passage, improves production efficiency.

The utility model provides a ribbon conveyer of ribbon machine, is including the feeding mechanism who is used for carrying the ribbon to give pushing equipment for with the ribbon separately the pushing equipment of propelling movement one by one with be used for the guide mechanism that each derives of ribbon that has the propelling movement, its characterized in that: the pushing mechanism comprises a pushing base and a pushing slide seat, the pushing slide seat is mounted on the pushing base, a guide chute is arranged on one side of the pushing slide seat, a slide rail is arranged on the other side of the pushing slide seat, a first pushing slide block is arranged on the slide rail, a first air cylinder fixing block is arranged at the front end of the pushing slide seat, a first pushing air cylinder is mounted on the outer side of the first air cylinder fixing block, a first piston rod is arranged in the first pushing air cylinder, the first piston rod penetrates through the first air cylinder fixing block and is fixedly connected with the first pushing slide block, a second air cylinder fixing block is arranged at the top of the pushing slide seat, a second pushing air cylinder is mounted at the top of the second air cylinder fixing block, a second piston rod is arranged in the second pushing air cylinder, a second pushing slide block is arranged on the guide chute, a movable chute is arranged in the second pushing, one end of the L-shaped pushing rod extends out of the side wall of the bottom of the second pushing sliding block, the other end of the L-shaped pushing rod is fixedly connected with the pushing rod connector, the pushing rod connector is fixedly connected with the second piston rod, the second cylinder fixing block is fixedly connected with the first pushing sliding block and the second pushing sliding block respectively, and when the first pushing sliding block slides along the sliding rail, the second cylinder fixing block and the second pushing sliding block slide along the top of the sliding rail and the guide chute respectively.

Preferably, the tail end of the material pushing sliding seat is provided with a limiting block, the guide chute extends to the limiting block along one side of the material pushing sliding seat, a trapezoidal discharge chute is formed in the limiting block, and a discharge hole is formed in the tail end of the discharge chute.

Preferably, the shape of the side wall of the second material pushing slide block opposite to the discharge chute is a trapezoid matched with the guide chute.

Furthermore, feeding mechanism includes defeated charging tray, backup pad, branch material gear, step motor, defeated charging tray installs in the backup pad, and its one side links to each other with the baffle box, step motor is installed to one side of backup pad, step motor passes through the motor shaft and links to each other with branch material gear, be provided with the breach on the defeated charging tray, the teeth of a cogwheel part of branch material gear passes the breach.

Preferably, the bottom of the material conveying disc is also provided with an electric heating pipe.

The utility model provides a ribbon conveyer of ribbon machine which characterized in that: the material guiding mechanism comprises a connecting pipe, a U-shaped material guiding pipe, a material blowing valve, a valve cylinder and a first material blowing pipe, the connecting pipe is fixed on a limiting block, the U-shaped material guiding pipe is sleeved on the connecting pipe, the discharge port, the connecting pipe and the U-shaped material guiding pipe are communicated with each other, the material blowing valve and the valve cylinder are sequentially installed at the bottom of the connecting pipe, the material blowing valve is connected with the valve cylinder through a connecting rod, a cavity used for the material blowing valve to move up and down is formed in the connecting pipe, a first air vent and a second air vent are formed in one side of the material blowing valve and communicated with each other, the first air vent and the first material blowing pipe are communicated with each other, and when the material blowing valve enters the cavity of the connecting pipe, the second air vent is communicated with the U-shaped material guiding pipe.

Preferably, the connecting pipe is also internally provided with a pressure measuring communication hole.

Preferably, the tail end of the sliding rail is provided with an oil buffer.

Preferably, a second blowing air pipe is further arranged on the connecting head of the pushing rod, the L-shaped pushing rod is in a hollow tubular shape, one end of the L-shaped pushing rod extends out of the side wall of the bottom of the second pushing sliding block, and the other end of the L-shaped pushing rod penetrates through the pushing connecting head to be communicated with the second blowing air pipe.

The utility model discloses an on traditional ribbon conveyer structure basis, installed a cylinder structure additional, after piston cylinder among the prior art pushed the ribbon into this link in the passage one by one, utilized the cylinder mechanism of newly-adding to push away the material to the ribbon twice to can effectively reduce the number of times of the jam that the ribbon appears at the passage, thereby improved production efficiency.

Description of the drawings:

fig. 1 is a structural reference diagram of a band conveying device of a band binding machine according to the present invention;

fig. 2 is a structural reference diagram of a feeding mechanism of a ribbon conveying device of the ribbon machine of the present invention;

fig. 3 is a structural reference diagram of a pushing mechanism of a band conveying device of a band binding machine according to the present invention;

fig. 4 is a structural reference diagram of another view angle of the pushing mechanism of the band conveying device of the band binding machine according to the present invention;

fig. 5 is a structural reference diagram of a material guiding mechanism of a ribbon conveying device of the ribbon binding machine of the present invention;

fig. 6 is a structural reference diagram of a blowing valve of a material guiding mechanism of a ribbon conveying device of the ribbon binding machine of the present invention;

fig. 7 is a structural reference diagram of a connecting pipe of a material guiding mechanism of a band conveyer of a band binding machine according to the present invention;

fig. 8 is a state reference diagram of the material pushing process of the band conveying device of the band binding machine according to the present invention;

fig. 9 is a state reference diagram of another view angle of the material pushing process of the band conveying device of the band binding machine according to the present invention;

fig. 10 is a schematic structural view of another embodiment of the pushing mechanism of the band conveyer of the belt binding machine according to the present invention.

The specific implementation mode is as follows:

hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. The present invention can be easily understood by those skilled in the art from the description of the present specification. In addition, the definitions given in the present specification and the structures, ratios, sizes, directions and the like shown in the drawings are for convenience of description, so as to enable those skilled in the art to understand the present invention, and are not used to limit the practical limitations of the present invention, so they have no technical essential meaning. In addition, any structural modification, ratio change, or size adjustment should be within the scope of the present disclosure as long as the effect and the achieved purpose of the present disclosure are not affected.

A ribbon conveying device of a ribbon binding machine is disclosed, as shown in fig. 1 and fig. 2, comprising a feeding mechanism 10 for conveying ribbons 100 to a pushing mechanism, a pushing structure 20 for separating the ribbons 100 one by one and a guiding mechanism 30 for guiding out the ribbons 100 which have been pushed, wherein the feeding mechanism 10 comprises a conveying tray 11, a supporting plate 12, a separating gear 13 and a stepping motor 14, the conveying tray 11 is mounted on the supporting plate 12, one side of the conveying tray is connected with a guiding groove 23, the stepping motor 14 is mounted on one side of the supporting plate 12, the stepping motor 14 is connected with the separating gear 13 through a motor shaft 15, so that the stepping motor 14 can drive the separating gear 13 to rotate synchronously, a notch 17 is arranged on the conveying tray 11, the gear part of the separating gear 13 passes through the notch 17 and protrudes out of the top of the conveying tray 11, so that the gear part of the separating gear 13 can feed the ribbons 100 which are scattered into the guiding groove 23 from the conveying tray 11, preferably, the bottom of the material conveying disc 11 can be further provided with an electric heating tube 16, the electric heating tube 16 can be added to the bottom of the material conveying disc 11 through an external power supply, so that the nylon cable tie 100 can be softened in advance to a certain degree, and the phenomenon that the nylon cable tie 100 is broken or tripped is avoided in a low-temperature environment.

As shown in fig. 1, 3 and 4, the material pushing mechanism 20 includes a material pushing base 21 and a material pushing slide 22, the material pushing slide 22 is installed on the material pushing base 21, one side of the material pushing slide 22 is provided with a material guiding groove 23, the other side is provided with a slide rail 24, the slide rail 24 is provided with a first material pushing slide 25, the first material pushing slide 25 can slide along the slide rail 24, the front end of the material pushing slide 22 is provided with a first air cylinder fixing block 26, the outer side of the first air cylinder fixing block 26 is provided with a first material pushing air cylinder 27, a first piston rod 271 is arranged in the first material pushing air cylinder 27, the first piston rod 271 penetrates through the first air cylinder fixing block 26 and is fixedly connected with the first material pushing slide 25, when the first material pushing air cylinder 27 is opened, pressure generated in the first material pushing air cylinder 27 can push the first piston rod 271 to move, so as to push the first material pushing slide 25 to move, the tail end of the material pushing slide seat 22 is provided with a limiting block 221, the guide chute 23 extends to the limiting block 221 along one side of the material pushing slide seat 22, so that a trapezoidal discharge chute 222 is formed in the limiting block 221, a discharge port 223 is formed at the tail end of the discharge chute 222, the top of the material pushing slide seat 22 is provided with a second cylinder fixing block 28, the second cylinder fixing block 28 can slide at the top of the material pushing slide seat 22, the top of the second cylinder fixing block 28 is provided with a second material pushing cylinder 29, a second piston rod 291 is arranged in the second material pushing cylinder, the guide chute 23 is provided with a second material pushing slider 40, the second material pushing slider 40 can slide along the guide chute 23, a movable chute 43 is arranged in the second material pushing slider, an L-shaped material pushing rod 41 is arranged in the movable chute 43, and one end of the L-shaped material pushing rod 41 extends out from the side wall of the bottom of the second material, the other end and ejector beam connector 42 fixed connection, ejector beam connector 42 and second piston rod 291 fixed connection, when opening the second and pushing away material cylinder 29, second piston rod 291 can promote L shape ejector beam 41 removes along the movable groove 43, second cylinder fixed block 28 pushes away the fixed 40 connection of material slider with first material slider 25 and second respectively, like this when first material slider 25 that pushes away slides along slide rail 24 under the drive of first material cylinder 27, second cylinder fixed block 28 and second push away material slider 40 and carry out the synchronous slip along the top and the baffle box 23 of slide rail 24 respectively.

As shown in fig. 1, 5, 6 and 7, the material guiding mechanism 30 includes a connecting pipe 31, a U-shaped material guiding pipe 32, a material blowing valve 33, a valve cylinder 34 and a first material blowing pipe 35, the connecting pipe 31 is fixed on a limiting block 221, the U-shaped material guiding pipe 32 is sleeved on the connecting pipe 31, the discharge port 223, the connecting pipe 31 and the U-shaped material guiding pipe 32 are communicated with each other, the cable tie 100 can pass through the connecting pipe 31 and enter the U-shaped material guiding pipe 32 through the discharge port 223, the material blowing valve 33 and the valve cylinder 34 are sequentially installed at the bottom of the connecting pipe 31, the material blowing valve 33 is connected with the valve cylinder 34 through a connecting rod 36, the valve cylinder 34 can drive the material blowing valve 33 to move up and down, a chamber 311 for moving the material blowing valve 33 up and down is formed in the connecting pipe 31, a first vent hole 331 and a second vent hole 332 are formed in one side of the material, the first vent hole 331 and the second vent hole 332 are communicated with each other, the first vent hole 331 is connected to the first blowing air pipe 35, the first blowing air pipe 35 can supply compressed air into the first vent hole 331 through an external air source (not shown in the drawings), when the blowing valve 33 enters the cavity 311 of the connecting pipe 31, the second vent hole 332 is communicated with the U-shaped material guiding pipe 32, and the compressed air in the first blowing air pipe 35 can enter the U-shaped material guiding pipe 32 through the blowing valve 33.

As shown in fig. 8 and 9, after the cable tie 100 enters the material guiding groove 23 from the material conveying disc 11, the material pushing cylinder 27 is started, the material pushing cylinder 27 drives the piston rod 271 to push the first material pushing slider 25 to slide along the slide rail 24, because the second cylinder fixing block 28 is respectively connected with the first material pushing slider 25 and the second material pushing slider 40, the second cylinder fixing block 28 and the second material pushing slider 40 respectively slide along the top of the slide rail 24 and the material guiding groove 23 synchronously, when the second material pushing slider 40 pushes the cable tie 100 to enter the material discharging groove 222 along the material guiding groove 23, the second material pushing cylinder 29 is turned on, the second piston rod 291 pushes the L-shaped material pushing rod 41 to move along the movable groove 43, the L-shaped material pushing rod 41 extends from the bottom side wall of the second material pushing slider 40, so as to push the cable tie 100 in the material guiding groove 23 out of the material discharging hole 223, get into the passage 32 in, then open valve cylinder 34, valve cylinder 34 drive blows in material valve 33 gets into the cavity 311 of connecting pipe 31, makes second vent hole 332 communicate with each other with U-shaped passage 32, opens first blowing trachea 35 at last, compressed air in the first blowing trachea 35 spreads into second vent hole 332 from first vent hole 331 into, then blows off ribbon 100 in the passage 32 from the passage 32 to realize the conveying of ribbon 100, compare the condition that only utilizes a cylinder to push away material among the prior art like this, the utility model discloses utilize two material returned cylinders to push away material twice, can effectively prevent ribbon 100 from being detained in connecting pipe 31, ensured to blow that material valve 33 can be closed smoothly, reduced because ribbon 100 is because the shut down that the jam produced, thereby improved production efficiency.

Preferably, when the second material pushing slider 40 pushes the binding tape 100 along the material guiding groove 23 to enter the material outlet 223, the side wall of the second material pushing slider 40 is inserted into the material outlet 222 of the limiting block 221, and since the shape of the side wall of the second material pushing slider 40 opposite to the material outlet 222 is a trapezoid matched with the material guiding groove 23, the impact of the second material pushing slider 40 on the material outlet 222 is reduced, and the service life of the limiting block 221 is prolonged.

Preferably, the connecting tube 31 further has a pressure communication hole 50 formed therein, and a pressure measuring device (not shown in the drawings) can be connected thereto for measuring the pressure in the connecting tube to further determine whether the cable tie 100 is jammed in the connecting tube 31.

Preferably, the tail end of the slide rail 24 is provided with an oil buffer 60, and when the pushing cylinder 27 drives the first pushing slider 25 to slide along the slide rail 24, the oil buffer 60 can play a role in limiting and buffering, so that the reliability of the device can be further improved, and the service life of the device can be prolonged.

Fig. 10 is another embodiment of the present invention, which is different from fig. 8 only in that a second blowing air pipe 44 is further disposed on the pushing rod connector 42, the L-shaped pushing rod 41 is hollow and tubular, one end of the L-shaped pushing rod 41 extends from the bottom side wall of the second pushing slider 40, and the other end of the L-shaped pushing rod 41 passes through the pushing connector 42 and is communicated with the second blowing air pipe 44, the second blowing air pipe 44 delivers compressed air into the L-shaped pushing rod 41 through an external air source (not shown in the drawings), so that when the L-shaped pushing rod 41 pushes the ribbon 100 in the material guiding groove 23 out from the material outlet 223 and enters the material guiding pipe 32, the second blowing air pipe 44 is opened, the compressed air in the second blowing air pipe 44 can further blow the ribbon 100 into the material guiding pipe 32, so as to prevent the ribbon 100 from staying in the connecting pipe 31 to ensure that the blowing valve 33 can be closed smoothly, the downtime of the tie 100 due to the jam is reduced, thereby further improving the production efficiency.

Various other modifications and variations to the disclosed structure and principles of the invention will be apparent to those skilled in the art, and all such modifications and variations are within the scope of the invention.

Claims (9)

1. The utility model provides a ribbon conveyer of ribbon machine, is including the feeding mechanism who is used for carrying the ribbon to give pushing equipment for with the ribbon separately the pushing equipment of propelling movement one by one with be used for the guide mechanism that each derives of ribbon that has the propelling movement, its characterized in that: the pushing mechanism comprises a pushing base and a pushing slide seat, the pushing slide seat is mounted on the pushing base, a guide chute is arranged on one side of the pushing slide seat, a slide rail is arranged on the other side of the pushing slide seat, a first pushing slide block is arranged on the slide rail, a first air cylinder fixing block is arranged at the front end of the pushing slide seat, a first pushing air cylinder is mounted on the outer side of the first air cylinder fixing block, a first piston rod is arranged in the first pushing air cylinder, the first piston rod penetrates through the first air cylinder fixing block and is fixedly connected with the first pushing slide block, a second air cylinder fixing block is arranged at the top of the pushing slide seat, a second pushing air cylinder is mounted at the top of the second air cylinder fixing block, a second piston rod is arranged in the second pushing air cylinder, a second pushing slide block is arranged on the guide chute, a movable chute is arranged in the second pushing, one end of the L-shaped pushing rod extends out of the side wall of the bottom of the second pushing sliding block, the other end of the L-shaped pushing rod is fixedly connected with the pushing rod connector, the pushing rod connector is fixedly connected with the second piston rod, the second cylinder fixing block is fixedly connected with the first pushing sliding block and the second pushing sliding block respectively, and when the first pushing sliding block slides along the sliding rail, the second cylinder fixing block and the second pushing sliding block slide along the top of the sliding rail and the guide chute respectively.

2. A band transfer device of a band binder according to claim 1, characterized in that: the tail end of the material pushing sliding seat is provided with a limiting block, the guide chute extends to the limiting block along one side of the material pushing sliding seat, a trapezoidal discharge chute is formed in the limiting block, and a discharge port is formed at the tail end of the discharge chute.

3. A band transfer device of a band binder according to claim 2, characterized in that: the shape of the side wall of the second material pushing sliding block, which is opposite to the discharge chute, is a trapezoid matched with the guide chute.

4. A band transfer device of a band binder according to claim 3, characterized in that: the feeding mechanism comprises a material conveying disc, a supporting plate, a material distributing gear and a stepping motor, wherein the material conveying disc is installed on the supporting plate, one side of the material conveying disc is connected with the material guide groove, the stepping motor is installed on one side of the supporting plate, the stepping motor is connected with the material distributing gear through a motor shaft, a notch is formed in the material conveying disc, and the gear tooth part of the material distributing gear penetrates through the notch.

5. A band transfer device of a band binder according to claim 4, characterized in that: the bottom of the material conveying disc is also provided with an electric heating pipe.

6. A band transfer device of a band binder according to claim 3, characterized in that: the material guiding mechanism comprises a connecting pipe, a U-shaped material guiding pipe, a material blowing valve, a valve cylinder and a first material blowing pipe, the connecting pipe is fixed on a limiting block, the U-shaped material guiding pipe is sleeved on the connecting pipe, the discharge port, the connecting pipe and the U-shaped material guiding pipe are communicated with each other, the material blowing valve and the valve cylinder are sequentially installed at the bottom of the connecting pipe, the material blowing valve is connected with the valve cylinder through a connecting rod, a cavity used for the material blowing valve to move up and down is formed in the connecting pipe, a first air vent and a second air vent are formed in one side of the material blowing valve and communicated with each other, the first air vent and the first material blowing pipe are communicated with each other, and when the material blowing valve enters the cavity of the connecting pipe, the second air vent is communicated with the U-shaped material guiding pipe.

7. A band transfer device of a band binder according to claim 6, characterized in that: the connecting pipe is also internally provided with a pressure measuring communicating hole.

8. A band transfer device of a band binder according to claim 5 or 7, characterized in that: and the tail end of the sliding rail is provided with an oil buffer.

9. A band transfer device of a band binder according to claim 8, characterized in that: the material pushing rod connecting head is further provided with a second material blowing air pipe, the L-shaped material pushing rod is in a hollow tubular shape, one end of the L-shaped material pushing rod extends out of the side wall of the bottom of the second material pushing slider, and the other end of the L-shaped material pushing rod penetrates through the material pushing connecting head to be communicated with the second material blowing air pipe.

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