CN219949602U - Vibration blanking mechanism of paper rod segmentation cutting machine - Google Patents

Abstract

The utility model discloses a vibration blanking mechanism of a paper rod sectional cutting machine, which is characterized in that: the device comprises a frame, a rod storage box, a strip-shaped guide rail and at least two sliding blocks, and a serial movement mechanism capable of driving the strip-shaped guide rail to serial move back and forth on the frame; the rod storage box is surrounded by four side plates and a bottom plate which is independently arranged, the four side plates are all arranged on the frame, the bottom plate can be arranged on the frame in a tandem manner and is positioned below the bottom opening of the rod storage box, a gap is formed between the front side edge of the bottom plate and the bottom opening edge of the rod storage box, the gap forms a rod outlet, the upper surface of the bottom plate is provided with a plurality of steps which gradually decrease from back to front, and the top opening of the rod storage box is a paper rod adding opening; the strip-shaped guide rail is arranged on the frame in a front-back trend, each sliding block is arranged on the strip-shaped guide rail and can move on the strip-shaped guide rail, and the bottom of the bottom plate is arranged on each sliding block; the serial mechanism is arranged on the frame, and the power output end of the serial mechanism is in transmission connection with the bottom of the bottom plate.

Description

Vibration blanking mechanism of paper rod segmentation cutting machine

Technical Field

The utility model relates to the technical field of paper rod production, in particular to a vibration blanking mechanism of a paper rod segmentation cutting machine.

Background

At present, most of lollipop bodies and solid fragrant bodies adopt plastic bars or wooden bars, but in order to prevent a great deal of pollution to the environment, some manufacturers adopt degradable and recyclable paper bars to replace the plastic bars or the wooden bars.

The paper rod can be cut into short rod bodies with equal length by a paper rod segment cutting machine. At present, before paper sticks of the paper stick sectional cutting machine are cut in blanking, long stick bodies in a storage stick box can be dislocated, skewed or crossed and disordered due to unstable length or placement, so that the long stick bodies can be blocked or blocked out of a stick opening, and the blanking can not be performed smoothly.

Disclosure of Invention

The utility model aims to solve the problem of providing a vibration blanking mechanism of a paper rod sectional cutting machine, which can enable a longer rod body to be orderly and smoothly blanked through vibration.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides a vibration unloading mechanism of paper stick segmentation guillootine which characterized in that: the device comprises a frame, a rod storage box, a strip-shaped guide rail and at least two sliding blocks, and a serial movement mechanism capable of driving the strip-shaped guide rail to serial move back and forth on the frame; the rod storage box is surrounded by four side plates and a bottom plate which is independently arranged, the four side plates are all arranged on the frame, the bottom plate can be arranged on the frame in a tandem manner and is positioned below the bottom opening of the rod storage box, a gap is formed between the front side edge of the bottom plate and the bottom opening edge of the rod storage box, the gap forms a rod outlet, the upper surface of the bottom plate is provided with a plurality of steps which gradually decrease from back to front, and the top opening of the rod storage box is a paper rod adding opening; the strip-shaped guide rail is arranged on the frame in a front-back trend, each sliding block is arranged on the strip-shaped guide rail and can move on the strip-shaped guide rail, and the bottom of the bottom plate is arranged on each sliding block; the serial mechanism is arranged on the frame, and the power output end of the serial mechanism is in transmission connection with the bottom of the bottom plate.

The definition of front and rear above: the conveying direction of the paper rod is taken as the reference, one side of the paper rod which arrives first is the rear side, and one side of the paper rod which arrives slowly is the front side.

The rod storage box is formed by encircling four side plates and the independently arranged bottom plate, the four side plates encircle a bottomless cavity structure, the bottom plate is arranged below the bottom opening of the independently arranged cavity structure, the top opening of the rod storage box is used as a paper rod adding port, and longer rod bodies are conveniently and orderly placed into the rod storage box. When a certain amount of longer rod bodies are placed in the rod storage box, the whole bottom plate is driven by the serial moving mechanism to move back and forth in a small-amplitude reciprocating manner along the strip-shaped guide rail in the bottom opening of the rod storage box, so that the longer rod bodies on the bottom plate also vibrate in the horizontal direction in the rod storage box, as the upper surface of the bottom plate is provided with a plurality of steps which gradually decrease from back to front, the longer rod bodies can be pushed forward to the rod outlet by the steps which gradually decrease in the vibration process, the longer rod bodies can stably descend in the blanking process, the possibility of mutual collision and damage between the longer rod bodies is reduced, the phenomenon that the longer rod bodies are blocked or the rod outlet is blocked is avoided, the longer rod bodies can be tidy through vibration, the blanking accuracy and stability of paper rods are improved, and the blanking is orderly and smoothly carried out from the rod outlet.

In the preferred scheme, the rod storage box further comprises a front baffle and a rear lower baffle, wherein the front baffle is attached to the inner wall of the side plate positioned at the front side of the rod storage box, and the lower side edge of the front baffle sags and extends out of the rod outlet; the lower back curtain is attached to the inner wall of the side plate at the rear side of the rod storage box and is tiled from rear to front on the upper surface of the bottom plate, the lower side edge of the lower back curtain extends out of the rod outlet, and the lower side edge of the front curtain is located above the lower side edge of the lower back curtain. The gap between the bottom opening edge of the rod storage box and the bottom plate can be shielded by the front baffle and the rear lower baffle, so that the longer rod body is prevented from being contacted with each side plate and the bottom plate, and the possibility of abrasion of the longer rod body is reduced.

In a further preferable scheme, the front baffle and the rear lower baffle are made of rubber. The rubber is selected as the material of the front baffle and the rear lower baffle, so that the damping effect can be increased, vibration and noise are reduced, and the working efficiency and stability of the equipment are improved.

In the preferred scheme, the serial mechanism comprises a linkage shaft, a pull rod, a first eccentric wheel, a first wheel sleeve and a driving mechanism capable of driving the linkage shaft to rotate, wherein the linkage shaft is rotatably arranged on the frame and is positioned below the strip-shaped guide rail, the driving mechanism is arranged on the frame, and a power output end of the driving mechanism is in transmission connection with one end of the linkage shaft; the first eccentric wheel is arranged on the linkage shaft, the first wheel sleeve is sleeved on the first eccentric wheel, and the lower end of the pull rod is fixedly connected with the first wheel sleeve; the bottom of the bottom plate is provided with a connecting rod, and the upper end of the pull rod is hinged with the connecting rod. The driving mechanism drives the linkage shaft to rotate, so that the first eccentric wheel is driven to rotate, and meanwhile, power is transmitted to the pull rod through the first wheel sleeve, and the pull rod and the connecting rod can enable the bottom plate to do small-amplitude back and forth reciprocating vibration along the strip-shaped guide rail due to eccentric rotation.

In a further preferred scheme, a positioning shaft is arranged on the connecting rod, a second eccentric wheel is sleeved on the positioning shaft sleeve, a second wheel sleeve is sleeved outside the second eccentric wheel, and the upper end of the pull rod is fixedly connected with the second wheel sleeve. The combination of the second eccentric wheel and the second wheel sleeve can increase the movement range of the pull rod and the connecting rod, is beneficial to enabling the bottom plate to make larger-amplitude back and forth reciprocating vibration on the strip-shaped guide rail, and provides a more flexible movement mode.

In a further preferred scheme, the driving mechanism comprises a driving motor, a synchronous belt and two synchronous wheels, wherein the driving motor is fixedly arranged on the frame, one synchronous wheel is arranged on a power output shaft of the driving motor, the other synchronous wheel is arranged on the linkage shaft, and the synchronous belt is tensioned outside the two synchronous wheels. The synchronous wheel is driven to rotate by the driving motor, and the linkage shaft is driven to rotate by the synchronous belt, so that the linkage shaft drives the eccentric wheel to rotate.

Compared with the prior art, the utility model has the following advantages:

the vibration blanking mechanism of the paper rod segmentation cutting machine can enable the longer rod bodies to stably descend in the blanking process, reduce the possibility of mutual collision and damage between the longer rod bodies, avoid the phenomenon that the longer rod bodies are clamped or the rod outlet is blocked, enable the longer rod bodies to be tidy through vibration, improve the blanking accuracy and stability of the paper rods, and orderly and smoothly perform blanking from the rod outlet.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present utility model;

FIG. 2 is a schematic illustration of the structure of a rod storage bin according to an embodiment of the utility model;

fig. 3 is a schematic structural diagram of a tandem mechanism according to an embodiment of the present utility model.

Detailed Description

The utility model is described in detail below with reference to the drawings and the specific embodiments.

As shown in fig. 1-3, the vibration blanking mechanism of the paper rod segment cutting machine in the embodiment comprises a frame 1, a rod storage box 2, a strip guide rail 3, two sliding blocks 4 and a serial mechanism 5 capable of driving the strip guide rail 3 to serial move back and forth on the frame 1; the rod storage box 2 is surrounded by four side plates 21 and a bottom plate 22 which is independently arranged, the four side plates 21 are all arranged on the frame 1, the bottom plate 22 can be arranged on the frame 1 in a tandem manner and is positioned below the bottom opening of the rod storage box 2, a gap 221 is formed between the front side edge of the bottom plate 22 and the bottom opening edge of the rod storage box 2, the gap 221 forms a rod outlet 23, the upper surface of the bottom plate 22 is provided with a plurality of steps 222 which gradually decrease from back to front, and the top opening of the rod storage box 2 is a paper rod adding opening 24; the strip-shaped guide rail 3 is arranged on the frame 1 in a front-back trend, each sliding block 4 is arranged on the strip-shaped guide rail 3 and can move on the strip-shaped guide rail 3, and the bottom of the bottom plate 22 is arranged on each sliding block 4; the serial mechanism 5 is arranged on the frame 1, and the power output end of the serial mechanism 5 is in transmission connection with the bottom of the bottom plate 22.

The definition of front and rear above: the conveying direction of the paper rod is taken as the reference, one side of the paper rod which arrives first is the rear side, and one side of the paper rod which arrives slowly is the front side.

Generally, the bar-shaped guide rail 3 is provided with a limit bar-shaped groove with an outward opening, two opposite clamping blocks are arranged at the lower end of the sliding block 4, and when the sliding block 4 is installed on the bar-shaped guide rail 3, the two clamping blocks are located in the corresponding limit bar-shaped grooves.

The rod storage box 2 is formed by encircling four side plates 21 and a bottom plate 22 which is independently arranged, the four side plates 21 encircle a bottomless cavity structure, the bottom plate 22 is independently arranged below a bottom opening of the cavity structure, and the top opening of the rod storage box 2 is used as a paper rod adding port 24, so that longer rod bodies can be conveniently and orderly placed in the rod storage box 2. When a certain amount of longer rod bodies are placed in the rod storage box 2, the whole bottom plate 22 is driven by the serial mechanism 5 to reciprocate back and forth along the strip-shaped guide rail 3 in the bottom opening of the rod storage box 2 by a small amplitude, so that the longer rod bodies on the bottom plate 22 also vibrate in the horizontal direction in the rod storage box 2, as the upper surface of the bottom plate 22 is provided with the steps 222 which gradually decrease from back to front, the longer rod bodies can be pushed forward to the rod outlet 23 by the steps 222 which gradually decrease in the vibration process, the longer rod bodies stably descend in the blanking process, the possibility of mutual collision and damage between the longer rod bodies is reduced, the phenomenon that the longer rod bodies are blocked or the rod outlet 23 is blocked is avoided, the longer rod bodies can be tidy through vibration, the blanking accuracy and stability of paper rods are improved, and the blanking is orderly and smoothly performed from the rod outlet 23.

The embodiment also comprises a front baffle 6 and a rear lower baffle 7, wherein the front baffle 6 is attached to the inner wall of the side plate 21 positioned on the front side of the rod storage box 2, and the lower side edge of the front baffle 6 sags and extends out of the rod outlet 23; the rear lower baffle 7 is attached to the inner wall of the side plate 21 at the rear side of the rod storage box 2 and is flatly paved on the upper surface of the bottom plate 22 from rear to front, the lower edge of the rear lower baffle 7 extends out of the rod outlet 23, and the lower edge of the front baffle 6 is positioned above the lower edge of the rear lower baffle 7. The gaps between the bottom opening edges of the rod storage box 2 and the bottom plate 22 can be shielded by the front baffle 6 and the rear lower baffle 7, so that the longer rod body is prevented from being contacted with each side plate 21 and the bottom plate 22, and the possibility of abrasion of the longer rod body is reduced.

The front curtain 6 and the rear lower curtain 7 are made of rubber. The rubber is selected as the material of the front baffle 6 and the rear lower baffle 7, so that the damping effect can be increased, vibration and noise can be reduced, and the working efficiency and stability of the equipment can be improved.

The tandem mechanism 5 comprises a linkage shaft 51, a pull rod 52, a first eccentric wheel 53, a first wheel sleeve 54 and a driving mechanism 55 capable of driving the linkage shaft 51 to rotate, the linkage shaft 51 is rotatably arranged on the frame 1 and is positioned below the strip-shaped guide rail 3, the driving mechanism 55 is arranged on the frame 1, and a power output end of the driving mechanism 55 is in transmission connection with one end of the linkage shaft 51; the first eccentric wheel 53 is arranged on the linkage shaft 51, the first wheel sleeve 54 is sleeved on the first eccentric wheel 53, and the lower end of the pull rod 52 is fixedly connected with the first wheel sleeve 54; the bottom of the bottom plate 22 is provided with a connecting rod 223, and the upper end of the pull rod 52 is hinged with the connecting rod 223. The driving mechanism 55 drives the linkage shaft 51 to rotate, so as to drive the first eccentric wheel 53 to rotate, and meanwhile, the first wheel sleeve 54 transmits power to the pull rod 52, so that the pull rod 52 and the connecting rod 223 can make the bottom plate 22 vibrate back and forth along the strip-shaped guide rail 3 in a small amplitude due to the eccentric rotation.

The connecting rod 223 is provided with a positioning shaft 224, the positioning shaft 224 is sleeved with a second eccentric wheel 225, the outer surface of the second eccentric wheel 225 is sleeved with a second wheel sleeve 226, and the upper end of the pull rod 52 is fixedly connected with the second wheel sleeve 226. By combining the second eccentric wheel 225 and the second wheel sleeve 226, the movement range of the pull rod 52 and the connecting rod 223 can be increased, so that the base plate 22 can reciprocate back and forth on the strip-shaped guide rail 3 to provide a more flexible movement mode.

The driving mechanism 55 comprises a driving motor 551, a synchronous belt 552 and two synchronous wheels 553, the driving motor 551 is fixedly arranged on the frame 1, one synchronous wheel 553 is arranged on a power output shaft of the driving motor 551, the other synchronous wheel 553 is arranged on the linkage shaft 51, and the synchronous belt 552 is tensioned outside the two synchronous wheels 553. The synchronous wheel 553 is driven to rotate by the driving motor 551, and the linkage shaft 51 is driven to rotate by the synchronous belt 552, so that the linkage shaft 51 drives the eccentric wheel to rotate.

In addition, it should be noted that, in the specific embodiments described in the present specification, names of various parts and the like may be different, and all equivalent or simple changes of the structures, features and principles described in the conception of the present utility model are included in the protection scope of the present utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions in a similar manner without departing from the scope of the utility model as defined in the accompanying claims.

Claims (6)

1. The utility model provides a vibration unloading mechanism of paper stick segmentation guillootine which characterized in that: the device comprises a frame, a rod storage box, a strip-shaped guide rail and at least two sliding blocks, and a serial movement mechanism capable of driving the strip-shaped guide rail to serial move back and forth on the frame; the rod storage box is surrounded by four side plates and a bottom plate which is independently arranged, the four side plates are all arranged on the frame, the bottom plate can be arranged on the frame in a tandem manner and is positioned below the bottom opening of the rod storage box, a gap is formed between the front side edge of the bottom plate and the bottom opening edge of the rod storage box, the gap forms a rod outlet, the upper surface of the bottom plate is provided with a plurality of steps which gradually decrease from back to front, and the top opening of the rod storage box is a paper rod adding opening; the strip-shaped guide rail is arranged on the frame in a front-back trend, each sliding block is arranged on the strip-shaped guide rail and can move on the strip-shaped guide rail, and the bottom of the bottom plate is arranged on each sliding block; the serial mechanism is arranged on the frame, and the power output end of the serial mechanism is in transmission connection with the bottom of the bottom plate.

2. The vibratory blanking mechanism of a bar segment cutter of claim 1, wherein: the front baffle is attached to the inner wall of the side plate at the front side of the rod storage box, and the lower side edge of the front baffle sags and extends out of the rod outlet; the lower back curtain is attached to the inner wall of the side plate at the rear side of the rod storage box and is tiled from rear to front on the upper surface of the bottom plate, the lower side edge of the lower back curtain extends out of the rod outlet, and the lower side edge of the front curtain is located above the lower side edge of the lower back curtain.

3. The vibratory blanking mechanism of a bar segment cutter of claim 2, wherein: the front baffle and the rear lower baffle are made of rubber.

4. The vibratory blanking mechanism of a bar segment cutter of claim 1, wherein: the serial mechanism comprises a linkage shaft, a pull rod, a first eccentric wheel, a first wheel sleeve and a driving mechanism capable of driving the linkage shaft to rotate, wherein the linkage shaft is rotatably arranged on the frame and is positioned below the strip-shaped guide rail, the driving mechanism is arranged on the frame, and a power output end of the driving mechanism is in transmission connection with one end of the linkage shaft; the first eccentric wheel is arranged on the linkage shaft, the first wheel sleeve is sleeved on the first eccentric wheel, and the lower end of the pull rod is fixedly connected with the first wheel sleeve; the bottom of the bottom plate is provided with a connecting rod, and the upper end of the pull rod is hinged with the connecting rod.

5. The vibratory blanking mechanism of a bar segment cutter of claim 4, wherein: the connecting rod is provided with a positioning shaft, the positioning shaft is sleeved with a second eccentric wheel, the outer surface of the second eccentric wheel is sleeved with a second wheel sleeve, and the upper end of the pull rod is fixedly connected with the second wheel sleeve.

6. The vibratory blanking mechanism of a bar segment cutter of claim 4, wherein: the driving mechanism comprises a driving motor, a synchronous belt and two synchronous wheels, wherein the driving motor is fixedly arranged on the frame, one synchronous wheel is arranged on a power output shaft of the driving motor, the other synchronous wheel is arranged on the linkage shaft, and the synchronous belt is tensioned outside the two synchronous wheels.