CN210884539U - Automatic deviation rectifying device for small box transparent paper - Google Patents

Abstract

The utility model discloses a small box transparent paper automatic deviation rectifying device, which comprises a paper tray frame, a mounting bracket, a first sensor, a second sensor, a controller and a driving mechanism; the first sensor and the second sensor are both arranged on the mounting bracket and are in signal connection with the controller, and a distance for passing through the transparent paper is arranged between the first sensor and the second sensor; the driving end of the driving mechanism is connected with the paper tray frame and is used for driving the paper tray frame shaft to move; the driving mechanisms are all connected with the controller; the transparent paper is wound on a paper tray frame. The utility model provides an automatic deviation correcting device of capsule cellophane has realized detecting and the position is corrected the automation of the cellophane skew condition, has promoted production efficiency and packaging stability, has stopped to produce the risk of turning over the case because of capsule cellophane bottom exposure.

Description

Automatic deviation rectifying device for small box transparent paper

Technical Field

The utility model relates to the technical field of cigarette, especially, relate to an automatic deviation correcting device of capsule cellophane.

Background

For the YB55 type small box transparent paper packaging machine, the transparent paper is automatically unreeled by pulling force in the transparent paper conveying process. When the transparent paper is wound, the paper and the paper core deviate, so that the quality defect exists in the process of unfolding the transparent paper, and if the deviation between the head part and the bottom part of the transparent paper of the small bag is large, the appearance process standard of the small bag is influenced, and even the quality defect that the bottom of the small bag is exposed exists; if heavy, the roll cannot be used and is forcibly discarded.

Because the situation that the transparent paper has the skew when winding up, need beat the drawing inspection parcel appearance quality at the tobacco bale rejection mouth in process of production, wherein just including transparent paper length defect affirmation, if find that the deviation of interior outer paper is great, generally can only adopt manual mode to adjust, degree of automation is lower, leads to production efficiency to be lower.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a capsule cellophane automatic deviation rectification device to solve the problem among the above-mentioned prior art, realize correcting the automated inspection and the position of the cellophane skew condition.

The utility model provides a capsule cellophane paper automatic deviation rectification device, wherein, include: the paper tray frame, the mounting bracket, the first sensor, the second sensor, the controller and the driving mechanism;

the first sensor and the second sensor are both arranged on the mounting bracket and are in signal connection with the controller, and a distance for passing through the transparent paper is arranged between the first sensor and the second sensor;

the driving end of the driving mechanism is connected with the paper tray frame and is used for driving the paper tray frame to move axially; the driving mechanism is also connected with the controller;

the transparent paper is wound on a paper tray frame.

The automatic correction device for the small box transparent paper comprises a first sensor, a second sensor, a third sensor, a fourth sensor, a fifth sensor, a sixth sensor, a fifth sensor and a sixth sensor, wherein the first sensor is provided with a first installation part, a first connection part and a first detection part;

the second sensor is provided with a second mounting part, a second connecting part and a second detection part, two ends of the second connecting part are respectively connected with the second mounting part and the second detection part, a second U-shaped groove is formed among the second mounting part, the second connecting part and the second detection part, and the opening side of the second U-shaped groove is opposite to the opening side of the first U-shaped groove.

The automatic deviation rectifying device for the small box transparent paper is preferably provided with infrared transmitting tubes on the first detection part and the second detection part, and infrared receiving tubes aligned with the infrared transmitting tubes on the first installation part and the second installation part.

The automatic deviation rectifying device for the small box transparent paper is preferably characterized in that the driving mechanism is a linear motor.

The automatic deviation correcting device for the small box transparent paper preferably further comprises a lifting cylinder, and the mounting bracket is connected with the output end of the lifting cylinder.

The automatic deviation correcting device for the small box transparent paper comprises a mounting bracket, a first sensor, a second sensor, a bolt, a positioning hole, a first sensor and a second sensor, wherein the mounting bracket is provided with the positioning hole.

The automatic deviation rectifying device for the small box transparent paper is preferably characterized in that the positioning hole is a waist-shaped hole.

The automatic deviation correcting device for the small transparent paper box preferably comprises a paper tray frame and a roller, wherein the roller is rotatably sleeved on the fixed shaft, the fixed shaft is connected with the driving end of the driving mechanism, and the transparent paper is wound on the roller.

The automatic deviation rectifying device for the small box transparent paper preferably further comprises a coupler, and the driving end of the driving mechanism is connected with the fixed shaft through the coupler.

The automatic deviation rectifying device for the small box transparent paper is preferably provided with a first direction button, a second direction button and an automatic centering button.

The embodiment of the utility model provides a capsule cellophane automatic deviation rectification device has realized detecting with the position correction to the automation of cellophane skew condition, has promoted production efficiency and packaging stability, has stopped to produce the risk of turning over the case because of capsule cellophane bottom exposure.

Drawings

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

FIG. 1 is a schematic structural view of an automatic deviation rectifying device for small transparent paper boxes according to an embodiment of the present invention;

FIG. 2 is a state diagram of the first sensor and the second sensor in actual operation, as viewed in the direction A of FIG. 1;

fig. 3 is a state diagram in which the fixed shaft and the driving mechanism are connected.

Description of reference numerals:

100-controller 200-mounting bracket 210-positioning hole

300-paper tray frame 310-fixed shaft 400-transparent paper

500-first sensor 510-first mounting part 520-first detecting part

530-first connection 600-second sensor 610-second mounting

620-second detecting part 630-second connecting part 700-driving mechanism

800-coupler 900-frame

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present invention, and should not be construed as limiting the present invention.

As shown in fig. 1 and 2, an embodiment of the present invention provides an automatic deviation rectifying device for a small box of transparent paper, which includes a paper tray frame 300, a mounting bracket 200, a first sensor 500, a second sensor 600, a controller 100 and a driving mechanism 700; the first sensor 500 and the second sensor 600 are both arranged on the mounting bracket 200, the first sensor 500 and the second sensor 600 are both in signal connection with the controller 100, and a distance for passing through the transparent paper 400 is arranged between the first sensor 500 and the second sensor 600; the driving end of the driving mechanism 700 is connected with the paper tray frame 300 and is used for driving the paper tray frame 300 to move axially; the driving mechanism 700 is also connected to the controller 100; the transparent paper 400 is wound on the paper tray 300.

In practical application, the automatic deviation rectifying device for the small box of the transparent paper may be disposed on the rack 900 of the small box of the transparent paper packaging machine, specifically, the fixing portion of the driving mechanism 700 may be fixedly disposed on the rack 900, the driving mechanism 700 and the paper tray frame 300 may be disposed on two sides of the rack 900 or two sides of a wall plate of the rack 900, and the driving end of the driving mechanism 700 may pass through the wall plate of the rack 900 to be connected to the paper tray frame 300. And the mounting bracket 200 and the controller 100 may also be provided on the rack 900,

when the transparent paper 400 is conveyed, the transparent paper 400 wound on the paper tray 300 is gradually released, and when the normal conveyance is not deviated, the transparent paper 400 can be conveyed between the first sensor 500 and the second sensor 600 without touching the detection range of the first sensor 500 and the second sensor 600, and without triggering the response of the first sensor 500 or the second sensor 600.

However, as shown in fig. 2, when the first sensor 500 is triggered, it indicates that the transparent paper 400 is shifted to one side of the first sensor 500 and reaches the detection range of the first sensor 500, at this time, the first sensor 500 may send a shift signal, the controller 100 may control the driving mechanism 700 to operate according to the shift signal, the driving mechanism 700 may drive the paper tray 300 to move toward the rack 900, and further adjust the whole transparent paper 400 in the conveying direction toward the rack 900, so that the transparent paper 400 may be far away from the first sensor 500, and when the first sensor 500 stops responding, it indicates that the transparent paper 400 has returned to the normal conveying path, at this time, the first sensor 500 stops sending the shift signal, and the controller 100 stops the operation of the driving mechanism 700.

When the second sensor 600 is triggered, it indicates that the transparent paper 400 is shifted to one side of the second sensor 600 and reaches the detection range of the second sensor 600, at this time, the second sensor 600 may send a shift signal, the controller 100 controls the driving mechanism 700 to operate according to the shift signal, the driving mechanism 700 may drive the paper tray 300 to move in a direction away from the rack 900, and further, the whole transparent paper 400 in transmission is adjusted in a direction away from the rack 900, so that the transparent paper 400 may be away from the second sensor 600, and when the second sensor 600 stops responding, it indicates that the transparent paper 400 has recovered to the normal transmission path, at this time, the second sensor 600 stops sending the shift signal, and the controller 100 stops the operation of the driving mechanism 700.

Compared with the prior art, the embodiment of the utility model provides a capsule cellophane automatic deviation rectification device has realized detecting with the position correction to the automation of cellophane 400 skew condition, has promoted production efficiency and packaging stability, has stopped to produce the risk of turning over the case because of capsule cellophane 400 exposes the end.

Further, the first sensor 500 is provided with a first mounting portion 510, a first connecting portion 530 and a first detecting portion 520, two ends of the first connecting portion 530 are respectively connected with the first mounting portion 510 and the first detecting portion 520, and a first U-shaped groove is formed among the first mounting portion 510, the first connecting portion 530 and the first detecting portion 520; the second sensor 600 is provided with a second mounting portion 610, a second connecting portion 630 and a second detecting portion 620, two ends of the second connecting portion 630 are respectively connected with the second mounting portion 610 and the second detecting portion 620, a second U-shaped groove is formed among the second mounting portion 610, the second connecting portion 630 and the second detecting portion 620, and the opening side of the second U-shaped groove is opposite to the opening side of the first U-shaped groove. Wherein, the inner wall of first detection portion 520 and the inner wall of second detection portion 620 are on same horizontal plane, and cellophane 400 is in transmission process, and the horizontal plane that cellophane 400 is located the upper of the inner wall of first detection portion 520 and the inner wall place horizontal plane of second detection portion 620, and consequently, when cellophane 400 takes place the skew, cellophane 400 can move to the inside in first U-shaped groove or second U-shaped groove to can realize the sheltering from of detection position in first U-shaped groove or the second U-shaped groove, can trigger first U-shaped groove or second U-shaped groove.

Specifically, infrared ray emitting tubes are disposed on the first and second detecting portions 520 and 620, and infrared ray receiving tubes aligned with the infrared ray emitting tubes are disposed on the first and second mounting portions 510 and 610. In the case of normal transmission of the transparent paper 400, the infrared ray emitted from the infrared ray emitting tube of the first sensor 500 or the second sensor 600 can be received by the corresponding infrared ray receiving tube, and when the infrared ray is blocked and the infrared ray receiving tube cannot receive the infrared ray, it indicates that the transparent paper 400 is shifted toward the sensor, and at this time, the sensor can send a signal to the controller 100 that the transparent paper 400 is shifted.

Specifically, the driving mechanism 700 may be a linear motor that may drive the paper tray 300 to move in the axial direction to adjust the distance of the edge of the transparency paper 400 with respect to the first sensor 500 or the second sensor 600.

Further, this capsule cellophane automatic deviation rectification device still includes lift cylinder, and installing support 200 links to each other with the output of lift cylinder. So that the height of the mounting bracket 200 can be adjusted by the elevating cylinder so that the deviation of the transparent paper 400 can be successfully detected by the sensor.

Further, in order to facilitate the installation and fixation of the sensor, the installation bracket 200 may be provided with a positioning hole 210, the first sensor 500 and the second sensor 600 are both connected with the installation bracket 200 through the cooperation of the positioning hole 210 and a bolt, and the position of the sensors may be axially adjusted according to the width of the transparent paper.

In order to adjust the distance between the two sensors, the positioning hole 210 may be a kidney-shaped hole, so that the position of the sensor can be adjusted by changing the fixing position of the bolt in the kidney-shaped hole.

Further, as shown in fig. 3, the paper tray frame 300 includes a fixing shaft 310 and a roller, the roller is rotatably sleeved on the fixing shaft 310, the fixing shaft 310 is connected with the driving end of the driving mechanism 700, and the transparent paper 400 is wound on the roller. Therefore, the driving mechanism 700 can drive the fixing shaft 310 to move axially, and further, the distance between the transparent paper 400 on the fixing shaft 310 and the sensor can be adjusted.

Further, as shown in fig. 3, in order to ensure the reliable connection between the fixed shaft 310 and the driving mechanism 700, the automatic deviation rectifying device for a capsule transparent paper may further include a coupling 800, and the driving end of the driving mechanism 700 is connected to the fixed shaft 310 through the coupling 800.

Further, the controller 100 may be provided with a first direction button, a second direction button, and an automatic centering button. The first direction button is used for adjusting the paper tray frame 300 to move towards the direction close to the rack 900, the second direction button is used for adjusting the paper tray frame 300 to move towards the direction far away from the rack 900, and the automatic centering button is used for adjusting the transparent paper 400 to a standard transmission path.

When the roll of the transparent paper 400 needs to be replaced, the phenomenon that new and old paper are not aligned may be caused by manual splicing, and the splicing time of the new and old paper is increased when the controller 100 is always in the automatic detection state, so that when the roll of the transparent paper 400 is replaced, the automatic detection state of the controller 100 can be suspended, and the controller 100 is switched to the manual control state, that is, the position of the paper tray frame 300 can be adjusted by pressing the first direction button or the second direction button, and the new transparent paper 400 is adjusted to be aligned with the old transparent paper 400 by the automatic centering button, so that accurate splicing is completed; after splicing is completed, the controller 100 may be switched back to the automatic detection state again to detect whether the transparent paper 400 is shifted in the transmission process in real time.

The embodiment of the utility model provides a capsule cellophane automatic deviation rectification device has realized detecting with the position correction to the automation of cellophane skew condition, has promoted production efficiency and packaging stability, has stopped to produce the risk of turning over the case because of capsule cellophane bottom exposure.

The structure, features and effects of the present invention have been described in detail above according to the embodiment shown in the drawings, and the above is only the preferred embodiment of the present invention, but the present invention is not limited to the implementation range shown in the drawings, and all changes made according to the idea of the present invention or equivalent embodiments modified to the same changes should be considered within the protection scope of the present invention when not exceeding the spirit covered by the description and drawings.

Claims (10)

1. The utility model provides a capsule cellophane automatic deviation rectification device which characterized in that includes: the paper tray frame, the mounting bracket, the first sensor, the second sensor, the controller and the driving mechanism;

the first sensor and the second sensor are both arranged on the mounting bracket and are in signal connection with the controller, and a distance for passing through the transparent paper is arranged between the first sensor and the second sensor;

the driving end of the driving mechanism is connected with the paper tray frame and is used for driving the paper tray frame to move axially; the driving mechanism is also connected with the controller;

the transparent paper is wound on a paper tray frame.

2. The automatic deviation rectifying device for the small box transparent paper according to claim 1, wherein the first sensor is provided with a first mounting portion, a first connecting portion and a first detecting portion, two ends of the first connecting portion are respectively connected with the first mounting portion and the first detecting portion, and a first U-shaped groove is formed among the first mounting portion, the first connecting portion and the first detecting portion;

the second sensor is provided with a second mounting part, a second connecting part and a second detection part, two ends of the second connecting part are respectively connected with the second mounting part and the second detection part, a second U-shaped groove is formed among the second mounting part, the second connecting part and the second detection part, and the opening side of the second U-shaped groove is opposite to the opening side of the first U-shaped groove.

3. The automatic deviation rectifying device for cellophane carton as claimed in claim 2, wherein the first detecting portion and the second detecting portion are provided with infrared emitting tubes, and the first mounting portion and the second mounting portion are provided with infrared receiving tubes aligned with the infrared emitting tubes.

4. The apparatus according to claim 1, wherein the driving mechanism is a linear motor.

5. The automatic deviation rectifying device for the transparent paper in small box according to claim 1, further comprising a lifting cylinder, wherein the mounting bracket is connected with the output end of the lifting cylinder.

6. The automatic deviation rectifying device for capsule transparent paper according to claim 1, wherein the mounting bracket is provided with positioning holes, the first sensor and the second sensor are both connected with the mounting bracket through the matching of the positioning holes and bolts, and the position of the sensor can be adjusted axially according to the width of the transparent paper.

7. The automatic deviation rectifying device for small box transparent paper according to claim 6, wherein the positioning hole is a waist-shaped hole.

8. The apparatus for automatically correcting the position of a transparent paper in a capsule of claim 1, wherein the paper tray frame comprises a fixed shaft and a roller, the roller is rotatably fitted over the fixed shaft, the fixed shaft is connected to the driving end of the driving mechanism, and the transparent paper is wound around the roller.

9. The apparatus according to claim 8, further comprising a coupling, wherein the driving end of the driving mechanism is connected to the fixed shaft through the coupling.

10. The automatic deviation rectifying device for capsule transparent paper according to claim 1, characterized in that the controller is provided with a first direction button, a second direction button and an automatic centering button.

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