CN213264843U - First recovery unit of wrapping paper - Google Patents

Abstract

The utility model provides a packing paper head recovery device, which comprises a sleeve structure, a sleeve cover arranged at the front end of the sleeve, a sliding sleeve arranged in the inner cavity of the sleeve in a sliding way, a rotary motor arranged in the middle of the sliding sleeve and a flange arranged at the rear end of the sliding sleeve, wherein a paper head stop block is fixed on the sleeve cover, and the flange is connected with the rotary motor; the fork-shaped frame is configured to clamp the packaging paper head, is fixed at the front end of the rotary motor and penetrates through the paper head stop block, and the rotary motor rotates to drive the fork-shaped frame to rotate; and the sliding mechanism is configured to drive the fork-shaped frame to do front-back telescopic motion by driving the sliding sleeve, so that the fork-shaped frame extends out of or retracts into the sleeve. Above-mentioned packing paper dust recovery unit has design science, automatic winding packing paper dust, improves advantages such as packing paper dust recovery efficiency.

Description

First recovery unit of wrapping paper

Technical Field

The utility model belongs to the technical field of tobacco packaging machinery, specific theory relates to a first recovery unit of wrapping paper.

Background

With the continuous progress of the tobacco mechanical technology, the production speed of the equipment is higher and higher, the production speed is also developed from medium speed to high speed and ultrahigh speed, the automation degree is also improved continuously, and with the progress of the packaging technology, short boards which cannot be automatically supplied by the packaging machine materials are displayed. The high-speed packaging machine has short material replacement time, high labor intensity of operators, more participators and high production cost. Cigarette manufacturing enterprises have stronger requirements on equipment, and semi-automatic and full-automatic novel packaging material supply systems are also in force.

The automatic recovery device for the paper tray materials is an important component of a full-automatic feeding system, determines the stability of paper tray feeding equipment, and designs a material splicing device for the stability. However, after the splicing work of the new and old packing paper of the material splicing device is completed, the new packing paper ends become waste paper, and the recycling of the packing paper ends not only increases the labor intensity and improves the labor cost, but also has low efficiency.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention is necessary to provide a recycling device for wrapping paper, which can automatically recycle the wrapping paper to reduce the labor cost and improve the recycling efficiency of the wrapping paper.

In order to realize the purpose, the utility model discloses the technical scheme who adopts is:

a garniture recycling apparatus comprising:

the sleeve structure comprises a sleeve, a sleeve cover arranged at the front end of the sleeve, a sliding sleeve arranged in an inner cavity of the sleeve in a sliding manner, a rotary motor arranged in the middle of the sliding sleeve, and a flange arranged at the rear end of the sliding sleeve, wherein a paper head stop block is fixed on the sleeve cover, and the flange is connected with the rotary motor;

the fork-shaped frame is configured to clamp the packaging paper head, is fixed at the front end of the rotary motor and penetrates through the paper head stop block, and the rotary motor rotates to drive the fork-shaped frame to rotate;

and the sliding mechanism is configured to drive the fork-shaped frame to do front-back telescopic motion by driving the sliding sleeve, so that the fork-shaped frame extends out of or retracts into the sleeve.

Basically, the rotary motor is connected with the flange through a joint, the flange is provided with an air inlet, and the rotation of the rotary motor is controlled through the air inlet. Wherein, the rotary motor is a pneumatic rotary motor. The rotation of the rotary motor drives the winding central shaft of the fork-shaped frame to rotate, so that the packaging paper head can be conveniently wound on the fork-shaped frame.

Basically, the sliding sleeve is provided with a fork-shaped frame vent hole, the fork-shaped frame vent hole is communicated with the air inlet, and the fork-shaped frame vent hole blows air to drive the rotary motor to rotate, so that the fork-shaped frame is driven to rotate.

The packaging paper head recovery device also comprises a positioning shaft arranged at the front end of the sliding sleeve, and the positioning shaft is arranged at one side of the rear end of the forked frame and controls the initial angle of the forked frame together with the forked frame.

Based on the above, the sliding sleeve is provided with a positioning shaft vent hole, the positioning shaft vent hole is communicated with the positioning shaft, the air blowing direction of blowing air to the positioning shaft vent hole is controlled to drive the positioning shaft to stretch up and down, and the positioning shaft and the fork-shaped frame are used for positioning the initial angle of the fork-shaped frame together.

Based on the above, the sliding mechanism comprises a sliding block and a sliding guide rail, wherein the sliding block is connected with the flange through a connecting block and moves linearly along the sliding guide rail, so that the sliding sleeve is driven to move back and forth.

Basically, the sliding guide rail is provided with a sliding block limiter, and the sliding block limiter is used for limiting the stroke of the sliding block. Wherein the slider stop may be a hydraulic buffer.

Based on the above, the slide guide rail is provided with a travel switch, and the travel switch is used for detecting whether the slide block is in place.

Based on the above, the sliding mechanism includes a slider driving mechanism that drives the slider to move along the sliding guide rail. The slide block driving mechanism is a pneumatic control driving mechanism, an electric control driving mechanism or a screw rod driving mechanism.

The packaging paper head recovery device further comprises a PLC controller and an inductive proximity switch, the inductive proximity switch is installed at one end, close to the forked frame, of the sliding sleeve, the PLC controller is connected with the inductive proximity switch, and starting and stopping actions of the rotary motor are controlled according to the number of pulses of the forked frame, which are induced by the inductive proximity switch.

The packaging paper head recovery device further comprises a waste material box which is configured to collect the packaging paper heads falling off from the fork-shaped frame.

The packaging paper head recovery device can further comprise a supporting body for fixedly mounting the sleeve, and the supporting body can be a wallboard or other supporting structures. The support body can also be provided with the sliding mechanism.

Compared with the prior art, the utility model has outstanding substantive characteristics and remarkable progress, specifically speaking, in the packaging paper head recovery device, the sliding mechanism moves to drive the sliding sleeve to move back and forth in the sleeve, the sliding sleeve moves back and forth to drive the rotary motor wrapped in the sliding sleeve to move back and forth, and the rotary motor moves back and forth to drive the fork-shaped frame arranged on the rotary motor to move back and forth, so that the fork-shaped frame extends out of or retracts into the sleeve; the rotation of the rotary motor drives the fork-shaped frame to rotate, and the fork-shaped frame rotates to wind the packaging paper head on the fork-shaped frame to be rolled into a paper tube shape; when the packaging paper head starts to work, the sliding mechanism is operated to drive the fork-shaped frame to extend out of the sleeve, the packaging paper head is clamped in the fork-shaped frame, and the rotary motor is operated to wind the packaging paper head which is clamped in the fork-shaped frame and driven on the fork-shaped frame; after the winding of wrapping paper head was at the forked frame, the swing motor bring to rest, simultaneously slide mechanism removes backward, drives the forked frame withdrawal in the sleeve, the winding simultaneously wrapping paper head on the sleeve is blockked the paper head dog is in outside the sleeve, and follow drop on the forked frame, so far accomplish the action of wrapping paper head recovery, so the utility model provides a wrapping paper head recovery unit degree of automation is high, labour saving and time saving, reduces the human cost, and recovery efficiency is high.

Further, the positioning shaft is arranged on one side of the fork-shaped frame, the positioning shaft is driven to extend out by blowing air to the positioning shaft vent hole, then the fork-shaped frame is driven by the rotating motor to rotate until the fork-shaped frame is contacted with the positioning shaft, and the angle when the fork-shaped frame stops rotating is the initial angle of the fork-shaped frame, so that the fork-shaped frame is prevented from touching a packaging paper head when extending out; and blowing air to the vent holes of the positioning shaft in the opposite direction, retracting the positioning shaft, and continuously driving the forked frame to rotate by the rotary motor so as to roll the packaging paper head into a paper tube shape.

Therefore, the utility model provides a first recovery unit of wrapping paper has design science, automatic winding wrapping paper head, improves advantages such as wrapping paper head recovery efficiency.

Drawings

Fig. 1 is a schematic structural diagram of a packaging paper recycling device provided by an embodiment of the present invention.

Fig. 2 is an enlarged schematic view of a portion a in fig. 1.

Figure 3 is a top plan view of the forked frame of the wrapper end-recovering device shown in figure 1, rotated through an angle.

Fig. 4 is an enlarged schematic view of a portion B in fig. 3.

Figure 5 is a side elevational view of the garniture recovery device shown in figure 1.

Fig. 6 is an enlarged schematic view of a portion C in fig. 5.

Figure 7 is a view of the figure 1 wrapper end recovering device after retraction of the fork.

In the figure: 1. packaging paper heads; 2. a fork-shaped frame; 3. a sleeve; 4. a paper head stop block; 5. a cylinder cover; 6. a sliding sleeve; 7. a slider; 8. a flange; 9. a sliding guide rail; 10. connecting blocks; 11. an inductive proximity switch; 12 a rotary motor; 13. positioning the shaft; 14; a waste material box; 15. a hydraulic buffer; 16. a wall panel.

Detailed Description

The technical solution of the present invention will be described in further detail through the following embodiments.

As shown in fig. 1 to 7, the present embodiment provides a recycling apparatus for a paper wrapping end, which comprises a sleeve structure, a forked frame 2 and a sliding mechanism. The fork-shaped frame 2 is configured to clamp the wrapping paper head 1. The sliding mechanism drives the forked frame 2 to move back and forth, and extends out of or retracts into the sleeve structure.

The sleeve structure comprises a sleeve 3, a paper head stop block 4, a sleeve cover 5, a sliding sleeve 6, a flange 8, a rotary motor 12 and a positioning shaft 13. The sleeve 3 is mounted on a wall panel 16. The cylinder cover 5 is arranged at the front end of the sleeve 3, a paper head stop block 4 is fixed on the cylinder cover 5, and the paper head stop block 4 is clamped in a groove of the cylinder cover 5. The sliding sleeve 6 is slidably mounted inside the sleeve 3. The rotation motor 12 is mounted inside the sliding sleeve 6. The flange 8 is mounted to the rear end of the sliding sleeve 6. The flange 8 is connected with the rotary motor 12 through a joint, an air inlet is formed in the flange 8, a fork-shaped frame vent hole is formed in the sliding sleeve 6 and communicated with the air inlet, and the fork-shaped frame vent hole blows air to drive the rotary motor 12 to rotate so as to drive the fork-shaped frame 2 to rotate.

The positioning shaft 13 is mounted at the front end of the sliding sleeve 6 and is arranged at one side of the rear end of the forked frame 2. The sliding sleeve 6 is also provided with a positioning shaft vent hole which is communicated with the positioning shaft 13, the positioning shaft vent hole blows air and controls the blowing direction, the positioning shaft 13 is driven to extend out and is positioned with the fork-shaped frame 2 at the initial angle of the fork-shaped frame 2, and the fork-shaped frame 2 is prevented from touching a packaging paper head when extending out; blowing air to the vent holes of the positioning shafts in the opposite direction, and retracting the positioning shafts 13 does not influence the autorotation of the forked frame 2. That is, the vertical extension and contraction of the positioning shaft 13 is controlled by controlling the direction of blowing air into the positioning shaft vent hole.

The fork-shaped frame 2 is configured to clamp the wrapping paper head 1. The packaging paper head 1 is clamped in the middle of the forked frame 2, the forked frame is fixed at the front end of the rotary motor 12 and penetrates through the paper head stop block 4, the rotary motor 12 rotates to drive the forked frame 2 to rotate, and the forked frame 2 rotates to roll the packaging paper head 1 into a paper tube shape. When the fork-shaped frame 2 extends out of the sleeve 3 and the packaging paper head 1 is clamped, the waste material box 14 is positioned right below the fork-shaped frame 2; when the fork-shaped frame 2 retracts into the sleeve 3, the packaging paper head rolled into the paper tube shape falls off from the fork-shaped frame 2 and falls into the waste box 14 below.

The sliding mechanism comprises a sliding block 7 connected with the flange 8, a sliding guide rail 9 and a driving mechanism. And a connecting block 10 is arranged on the flange 8, and the connecting block 10 is connected with the sliding block 7 and the flange 8. The driving mechanism drives the sliding guide rail 9 to drive the sliding block 7 to do front-back linear motion along the sliding guide rail 9, so as to drive the flange 8, the rotating motor 12, the sliding sleeve 6 and the forked frame 2 to do front-back telescopic motion, and the forked frame 2 extends out of or retracts into the sleeve 3.

Further, the packaging paper head recovery device further comprises a PLC controller and an inductive proximity switch 11 which is installed on the sliding sleeve 6 and faces the fork-shaped frame 2, the PLC controller is connected with the inductive proximity switch 11, and the starting and stopping actions of the rotary motor 12 are controlled according to the number of pulses of the inductive proximity switch 11, which are induced by the fork-shaped frame 2.

The slide guide rail 9 is provided with a travel switch, and the travel switch is used for detecting whether the slide block 7 is in place.

A hydraulic buffer 15 is arranged on the sliding guide rail 9, and the hydraulic buffer 15 is used for limiting the stroke of the sliding block 7.

The driving mechanism is an air pump, the sliding guide rail 9 and the sliding block 7 are a sliding rail part and a sliding block part of a rodless cylinder, the air pump drives the rodless cylinder to move through an electromagnetic valve, and the PLC controls the electromagnetic valve to be opened and closed.

The embodiment of the utility model provides an above-mentioned packing paper head recovery unit's working process and theory of operation are:

initially, the packaging paper is moved to the outer side of the forked frame 2, the positioning shaft 13 blows air through the positioning shaft vent hole to extend out, and meanwhile, the forked frame 2 automatically rotates to be in contact with the positioning shaft 13 through the forked frame vent hole, so that the positioning of the forked frame 2 with the positioning shaft 13 at an initial angle is realized;

while the initial angle of the fork-shaped frame 2 is positioned, the air pump drives a sliding block 7 through an electromagnetic valve to sequentially drive the connecting block 10, the sliding sleeve 6, the rotary motor 12 and the fork-shaped frame 2 to move forwards along a sliding guide rail 9, and the fork-shaped frame 2 extends out of the sleeve 3 until the packaging paper head 1 is clamped in the middle of the fork-shaped frame 2; at the moment, the positioning shaft 13 is blown to the positioning shaft vent hole in the opposite direction to retract;

then, controlling the rotary motor 12 to continuously blow air to the vent holes of the forked frame through the air inlet on the flange 8 to drive the forked frame 2 to rotate, wherein the wrapping paper heads 1 are rolled on the forked frame 2 into a paper tube shape and are in a tensioned state with the wrapping paper at the front section, and when the wrapping paper at the front section is cut off, the forked frame 2 is driven by the rotary motor 12 to continuously rotate to roll the wrapping paper heads 1 into a paper tube shape;

inductance type proximity switch 11 response when 2 pulse numbers of forked frame reach certain numerical value, rotating motor 12 stops to blow, simultaneously, the air pump passes through solenoid valve drive slider 7 and drives along sliding guide 9 connecting block 10, sliding sleeve 6 and rotating motor 12 will forked frame 2 retracts to sleeve 3, paper head dog 4 is in block the packing paper head 1 of batching fiber container after 2 retractions of forked frame from withdraw from and fall on forked frame 2 in waste material box 14, accomplish the paper head and retrieve the action, degree of automation is high, labour saving and time saving, and recovery efficiency is high.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention and not to limit it; although the present invention has been described in detail with reference to preferred embodiments, it should be understood by those skilled in the art that: the invention can be modified or equivalent substituted for some technical features; without departing from the spirit of the present invention, it should be understood that the scope of the claims is intended to cover all such modifications and variations.

Claims (10)

1. A garniture recycling apparatus, comprising:

the sleeve structure comprises a sleeve, a sleeve cover arranged at the front end of the sleeve, a sliding sleeve arranged in an inner cavity of the sleeve in a sliding manner, a rotary motor arranged in the middle of the sliding sleeve, and a flange arranged at the rear end of the sliding sleeve, wherein a paper head stop block is fixed on the sleeve cover, and the flange is connected with the rotary motor;

the fork-shaped frame is configured to clamp the packaging paper head, is fixed at the front end of the rotary motor and penetrates through the paper head stop block, and the rotary motor rotates to drive the fork-shaped frame to rotate;

and the sliding mechanism is configured to drive the fork-shaped frame to do front-back telescopic motion by driving the sliding sleeve, so that the fork-shaped frame extends out of or retracts into the sleeve.

2. A recycling apparatus for a wrapping tip according to claim 1, wherein said rotary motor is connected to said flange through a joint, said flange being provided with an air inlet through which rotation of said rotary motor is controlled.

3. A recycling device for wrapping paper ends according to claim 2, wherein said sliding sleeve is provided with a fork-shaped frame vent, said fork-shaped frame vent is communicated with said air inlet, and said fork-shaped frame vent blows air to drive said rotary motor to rotate, thereby driving said fork-shaped frame to rotate.

4. A recycling apparatus of a wrapping paper head according to claim 3, further comprising a positioning shaft installed at a front end of said sliding sleeve, provided at a side of a rear end of said forked frame and controlling an initial angle of said forked frame together with said forked frame.

5. A wrapping paper tip recovery device according to claim 4, wherein a positioning shaft vent hole is provided on said sliding sleeve, said positioning shaft vent hole is communicated with said positioning shaft, and controls the blowing direction of blowing air to said positioning shaft vent hole to drive said positioning shaft to extend and retract up and down and to position the initial angle of said fork-shaped frame together with said fork-shaped frame.

6. A wrapping paper head recycling device according to any one of claims 1 to 5, wherein said sliding mechanism comprises a slider and a sliding guide, said slider is connected with said flange through a connecting block and moves linearly along said sliding guide, thereby driving said sliding sleeve to move back and forth.

7. A wrapping paper tip recycling apparatus according to claim 6, wherein said sliding guide is provided with a slider limiter for limiting the travel of said slider.

8. A wrapping paper tip recycling apparatus according to claim 7, wherein said sliding mechanism includes a slider drive mechanism which drives said slider along said sliding guide.

9. A wrapping paper head recovery device according to any one of claims 1 to 5, further comprising a PLC controller and an inductive proximity switch, wherein the inductive proximity switch is installed on one end of the sliding sleeve close to the forked frame, the PLC controller is connected with the inductive proximity switch, and the starting and stopping actions of the rotary motor are controlled according to the number of pulses of the inductive proximity switch, which are induced by the forked frame.

10. A stub wrapper recovery device according to any one of claims 1 to 5 further comprising a waste bin configured to collect stub wrappers dislodged from the forked frame.

Images