CN220290219U - Code scanning device of cigarette filter stick tray filler and tray filler - Google Patents

Abstract

The utility model discloses a code scanning device of a cigarette filter stick tray filler and a tray filler, wherein the code scanning device comprises a detection module, the detection module comprises a code scanning machine and a bracket, the lower end of the bracket is a fixed end, the upper end of the bracket is a movable end, and the code scanning machine is connected with the movable end of the bracket and can move along with the bracket. The tray loader comprises a conveying module and a lifting module; the conveying module comprises a lower layer channel and an upper layer channel, one end of the lower layer channel is a feeding end provided with a charging mechanism, and the other end of the lower layer channel is a discharging end; the lifting module is positioned outside the conveying module and adjacent to the material conveying end of the lower-layer channel, and is used for conveying the material on the lower-layer channel to the upper-layer channel; the detection module comprises a code scanning machine arranged on the outer side of the lower-layer channel, a material frame is arranged on the conveying module, and an identification code is arranged on the material frame. The code scanning device of the cigarette filter stick tray filler and the tray filler replace manual recording, so that the accuracy of recording is improved, and the labor capacity and the labor intensity of staff are reduced.

Description

Code scanning device of cigarette filter stick tray filler and tray filler

Technical Field

The utility model belongs to the technical field of boxing equipment, and particularly relates to a code scanning device of a cigarette filter stick tray filler and the tray filler.

Background

The cigarette is one kind of tobacco product. The preparation method comprises drying tobacco, slicing, and rolling into cylindrical strip with a length of 120mm and a diameter of 10 mm. The cigarettes can be divided into flue-cured tobacco, sun-cured tobacco, beaten tobacco, air-cured tobacco and the like.

The cigarette filter rod can be sent into the sabot machine after being made into the strip, is accomodate and is sent to next step processing through the sabot machine, and current sabot machine has following problem when using: the structure is simple, the shipment data can not be recorded only with the shipment function, the manual marking method is adopted for marking and recording in the prior art, and the recording is rough and is easy to make mistakes.

Disclosure of Invention

The utility model aims to provide a code scanning device of a cigarette filter stick tray filler and the tray filler, which are used for solving the problems in the prior art.

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

in a first aspect, the utility model provides a code scanning device of a cigarette filter stick tray filler, which comprises a detection module, wherein the detection module comprises a code scanning machine and a support, the lower end of the support is a fixed end, the upper end of the support is a movable end, and the code scanning machine is connected with the movable end of the support and can move along with the support.

In one possible design, the bracket comprises a lower plate, an intermediate plate and an upper plate, wherein one end of the lower plate is the fixed end, the other end of the lower plate is used for connecting with the intermediate plate, the lower end of the upper plate is used for connecting with the intermediate plate, and the upper end of the upper plate is the movable end;

the middle plate comprises a transverse plate and a vertical plate, the transverse plate is connected with the vertical plate and is L-shaped, a first positioning groove is formed in the transverse plate, and correspondingly, a first fastener which is adapted to the first positioning groove is arranged on the lower plate; the upper plate is provided with a second positioning groove, and correspondingly, the vertical plate is provided with a second fastener which is adapted to the second positioning groove.

In a second aspect, the utility model provides a tray loader, which comprises a tray loader body, wherein the code scanning device is arranged on the side edge of the tray loader body and comprises a detection module; correspondingly, the tray filler body is provided with a material frame, and the material frame is provided with an identification code which is adapted to the detection module.

In one possible design, the material frame comprises an outer frame and an inner frame, wherein the outer frame is provided with a plurality of side surfaces, one side surface is open and forms a feed inlet communicated with the outside; the inner frame is detachably arranged in the outer frame, and a secondary feed port which is matched with and communicated with the feed port is arranged on the inner frame; correspondingly, the side face of the inner frame is printed with the identification code, and the corresponding side face of the outer frame is provided with a code scanning hole opposite to the identification code.

In one possible design, the outer frame is a first square frame, and the first square frame has two open sides, one side is configured as the feed inlet, and the other side is used for inserting and removing the inner frame.

In one possible design, the inner frame is a second square frame, at least one side surface of the second square frame is open, and the side surface is configured as the auxiliary feed port;

the side of the second square frame is L-shaped, a first part of the side is inserted into the outer frame, a second part of the side extends out of the outer frame, and correspondingly, the first part faces the outer frame and is provided with the identification code.

The beneficial effects are that:

the detection module is arranged on the lower-layer channel, so that automatic code scanning recording is realized through the code scanning machine, adaptability of the material frame is improved, the material frame is provided with an identification code of the adaptive code scanning machine, the identification code comprises various information, and detection and information uploading are realized through scanning of the code scanning machine. Based on the method, manual recording is replaced, on one hand, the accuracy of recording is improved, and on the other hand, the labor capacity and the labor intensity of staff are reduced.

Drawings

Fig. 1 is a schematic structural view of a disk loader.

Fig. 2 is a schematic structural view of the bracket.

Fig. 3 is a schematic structural view of a material frame.

Fig. 4 is a schematic structural view of the stopper.

In the figure:

100. a transport module; 101. a lower layer channel; 102. an upper layer channel; 200. a lifting module; 201. a base; 202. a lifting plate; 203. a hoist; 204. a manipulator; 205. a lifting plate; 206. an in-place detection unit; 300. a detection module; 301. a code scanner; 302. a bracket; 303. a lower plate; 304. an intermediate plate; 305. an upper plate; 306. a cross plate; 307. a riser; 308. a first positioning groove; 309. a second positioning groove; 400. a material frame; 401. an outer frame; 402. an inner frame; 403. a code scanning hole; 404. a side edge; 500. a material blocking piece; 501. a stop block; 502. a rotating shaft; 503. and a link mechanism.

Detailed Description

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the present utility model will be briefly described below with reference to the accompanying drawings and the description of the embodiments or the prior art, and it is obvious that the following description of the structure of the drawings is only some embodiments of the present utility model, and other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art. It should be noted that the description of these examples is for aiding in understanding the present utility model, but is not intended to limit the present utility model.

Example 1:

as shown in fig. 1 and fig. 2, a code scanning device of a cigarette filter rod tray filler comprises a detection module 300, wherein the detection module 300 comprises a code scanning machine 301 and a bracket 302, the lower end of the bracket 302 is a fixed end, the upper end of the bracket 302 is a movable end, and the code scanning machine 301 is connected with the movable end of the bracket 302 and can move along with the bracket 302.

For the current situation of manual recording, the code scanning device automatically scans the code through the code scanning machine 301 for recognition, and the code scanning machine 301 scans to realize detection and information uploading. Based on the method, manual recording is replaced, on one hand, the accuracy of recording is improved, and on the other hand, the labor capacity and the labor intensity of staff are reduced.

Meanwhile, the bracket 302 can move, and the position of the code scanner 301 is adjusted so as to be suitable for different types of code scanning requirements, so that the application range of the code scanning device is effectively widened, and the practicability is good.

As shown in fig. 2, the bracket 302 includes a lower plate 303, an intermediate plate 304 and an upper plate 305, wherein one end of the lower plate 303 is the fixed end, the other end of the lower plate 303 is used for connecting the intermediate plate 304, the lower end of the upper plate 305 is used for connecting the intermediate plate 304, and the upper end of the upper plate 305 is the movable end;

the middle plate 304 comprises a transverse plate 306 and a vertical plate 307, the transverse plate 306 is connected with the vertical plate 307 and is L-shaped, a first positioning groove 308 is formed in the transverse plate 306, and correspondingly, a first fastener which is adapted to the first positioning groove 308 is formed in the lower plate 303; the upper plate 305 is provided with a second positioning slot 309 and correspondingly the riser 307 is provided with a second fastener adapted to the second positioning slot 309.

Based on the above design, the first fastener is loosened, and then the middle plate 304 can move along the first positioning slot 308, so as to adjust the position of the code scanner 301, and then the first fastener is tightened to fix the code scanner 301. The second fastening member is loosened, and then the upper plate 305 can move along the second positioning slot 309, so as to adjust the height of the code scanner 301, and then the second fastening member is tightened to fix the code scanner 301. The two are matched with each other to flexibly adjust the code scanner 301, and the practicability is good.

In addition, as shown in fig. 2, the lower plate 303 may be provided with a third positioning groove to enable the middle plate 304 to move along the lower plate to adjust the position. And the first positioning groove 308, the second positioning groove 309 and the third positioning groove are perpendicular to each other, so that the bracket 302 forms a three-coordinate adjusting structure.

Example 2:

as shown in fig. 1 to 4, a palletizer comprises a conveying module 100 and a lifting module 200;

the conveying module 100 comprises a lower-layer channel 101 and an upper-layer channel 102, wherein one end of the lower-layer channel 101 is a feeding end provided with a charging mechanism, the other end of the lower-layer channel 101 is a discharging end provided with a detecting module 300;

the lifting module 200 is located outside the conveying module 100 and adjacent to the material conveying end of the lower channel 101, and the lifting module 200 is used for conveying the material on the lower channel 101 to the upper channel 102;

the detection module 300 comprises a code scanner 301 arranged on the outer side of the lower channel 101, and correspondingly, the conveying module 100 is provided with a material frame 400, and the material frame 400 is provided with an identification code adapted to the code scanner 301.

The tray loader is aimed at the current situation of manual recording, the detection module 300 is arranged on the lower-layer channel 101, so that automatic code scanning recording is realized through the code scanning machine 301, adaptability of the material frame 400 is improved, the material frame 400 is provided with an identification code which is adaptive to the code scanning machine 301, the identification code comprises but not limited to bar codes and two-dimensional codes, the identification code comprises various information, and detection and information uploading are realized through scanning of the code scanning machine 301. Based on the method, manual recording is replaced, on one hand, the accuracy of recording is improved, and on the other hand, the labor capacity and the labor intensity of staff are reduced.

Meanwhile, the conveying module 100 comprises a lower-layer channel 101 and an upper-layer channel 102, the lower-layer channel 101 is used for boxing, detecting and recording materials, the upper-layer channel 102 is used for recycling a material frame, so that the recycling is realized, meanwhile, the space in the height direction is effectively utilized, the space utilization rate is improved, and the purpose of saving the space of a factory is achieved. Therefore, the tray loader comprises the lifting module 200, and the lifting module 200 can lift the material on the lower channel 101 to the upper channel 102, so as to realize the transfer of the material frame 400.

When the material frame 400 moves along the lower-layer channel 101 and moves to the feeding end of the lower-layer channel 101, the material frame 400 pauses at the feeding end, and materials, such as cigarettes, are conveyed by the charging mechanism and gradually stored in the material frame 400; after the loading is completed, the material frame 400 moves along the lower layer channel 101, and when the material frame 400 passes through the code scanner 301, the code scanner 301 scans and records the identification code; after the code scanning is completed, the material frame 400 moves to the discharge end of the lower-layer channel 101, the lifting module 200 is started and lifts the material frame 400, the staff takes down the material, and the lifting module 200 sends the material frame 400 to the upper-layer channel 102.

In addition, the tray loader is provided with an alarm lamp, and when the code scanning machine 301 scans the code and mistakes or does not scan the code, the alarm lamp alarms in time so that a worker can process faults in time.

In one possible implementation, the material frame 400 includes an outer frame 401 and an inner frame 402, wherein the outer frame 401 has several sides, one of which is open and forms a feed inlet communicating with the outside; the inner frame 402 is detachably arranged in the outer frame 401, and a secondary feed inlet which is matched with and communicated with the feed inlet is arranged on the inner frame 402; correspondingly, the side surface of the inner frame 402 is printed with the identification code, and the corresponding side surface of the outer frame 401 is provided with a code scanning hole 403 opposite to the identification code. Based on the above design, the inner frame 402 is filled with materials, so as to realize the whole taking and placing of a plurality of materials. The outer frame 401 is used for accommodating the inner frame 402 for recycling.

Then, when the lifting module 200 is started and the material frame 400 is lifted, the worker removes the inner frame 402 filled with the material, and then the upper inner frame 402 is transferred to the outer frame 401, and the lifting module 200 then sends the material frame 400 to the upper channel 102.

Optionally, as shown in fig. 3, the outer frame 401 is a first square frame, and the first square frame has two open sides, wherein one side is configured as the feeding hole, and the other side is used for inserting and removing the inner frame 402;

the inner frame 402 is a second square frame, at least one side surface of the second square frame is open, and the side surface is configured as the auxiliary feed inlet;

the side 404 of the second square frame is L-shaped, a first part of the side 404 is inserted into the outer frame 401, a second part of the side 404 extends out of the outer frame 401, and correspondingly, the first part faces the outer frame 401 and is provided with the identification code.

In one possible implementation, a stopper 500 is provided on the lower channel 101 adjacent to the discharge end. Based on the above design scheme, through keeping off material piece 500 separation adjacent material frame 400, avoid two adjacent material frames 400 to be too near apart from, avoided the condition of taking down adjacent material frame 400 when material frame 400 promotes, reduced the production accident, shortened down time.

As shown in fig. 4, the material blocking member 500 includes a block 501, a rotating shaft 502, a link mechanism 503, and a first driving motor, where the block 501 is fixed on the rotating shaft 502 and extends to the upper side of the transporting surface of the lower channel 101, the rotating shaft 502 is rotatably disposed on the lower channel 101, the first driving motor is connected with the rotating shaft 502 through the link mechanism 503, and the first driving motor is used to drive the rotating shaft 502 to rotate, so as to drive the block 501 to move down to the lower side of the transporting surface of the lower channel 101.

Based on the above design, the first driving motor drives the driving force to the rotating shaft 502 through the link mechanism 503, so as to drive the rotating shaft 502 to rotate, the stop block 501 rotates along with the rotating shaft 502, the stop block 501 rotates downward to the lower side of the transporting surface of the lower channel 101, the material frame 400 can smoothly pass through the material blocking piece 500, the stop block 501 moves upward to the upper side of the transporting surface of the lower channel 101, and the material frame 400 is blocked by the material blocking piece 500.

Correspondingly, at least a hole body for the stop block 501 to swing up and down is arranged on the lower channel 101, so that the stop piece 500 can be blocked conveniently.

In this embodiment, the lifting module 200 includes a base 201, a second driving motor, a lifting disc 202 and lifting machines 203, where the base 201 is fixed on the outer side of the discharge end of the lower channel 101, the lifting disc 202 is rotatably disposed on the base 201, the output end of the second driving motor is connected to the lifting disc 202, two lifting machines 203 are respectively fixed on the lifting disc 202, and the two lifting machines 203 are oppositely disposed.

Based on the above design, the second driving motor outputs power and drives the lifting disc 202 to rotate, the lifting disc 202 drives the lifting machine 203 to rotate, when the lifting machine 203 rotates upwards, the material frame 400 located on the lifting machine 203 is lifted, and when the material frame 400 is lifted to the upper channel 102, the material frame 400 is moved to the upper channel 102. The elevator 203 continues to rotate to the lower side for the next lifting of the material frame 400.

Preferably, the lifts 203 are provided in two in order to improve the conveying efficiency. And the lifts 203 are disposed opposite to each other to avoid interference.

As shown in fig. 1, the elevator 203 includes a robot 204 and a lift plate 205, the robot 204 connecting the lift plate 202 and the lift plate 205, the lift plate 205 being configured as a lift surface toward the lower-stage passage 101 side. Based on the above design, the robot 204 may be used to place the material frame 400 on the upper channel 102 without additional equipment. The lifting plate 205 lifts the material frame 400 through the lifting surface, so the lifting surface is adapted to the outer surface of the material frame 400, so as to improve the fitting degree and ensure that the material frame 400 is relatively stable during the lifting process.

It is easy to understand that, the material frame 400 is generally a strip frame, when the material frame 400 is located on the lifting module 200 in a relatively inclined manner, shake easily occurs during the lifting process, and even the material frame 400 falls down, so the detection module 300 includes two in-place detection units 206, the two in-place detection units 206 are disposed on the same straight line, and the two in-place detection units 206 are disposed on two sides of the discharge end of the lower channel 101 relatively, and the in-place detection unit 206 is a in-place detection sensor. Based on the above design, the to-be-scanned object abuts against the in-place detection unit 206, which indicates that the to-be-scanned object reaches the design position, and the scanner 301 is started and scans the code.

Based on the above design, when the two ends of the material frame 400 are simultaneously abutted to the position detection unit 206, the material frame 400 is located at the designed lifting position, and the lifting module 200 is started to transfer the material frame 400. Meanwhile, optionally, the in-place detection unit 206 selects an in-place detection sensor.

Finally, it should be noted that: the foregoing description is only of the preferred embodiments of the utility model and is not intended to limit the scope of the utility model. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (6)

1. The utility model provides a yard device of sweeping of filter rod sabot machine for cigarette, its characterized in that includes detection module (300), and detection module (300) are including sweeping yard machine (301) and support (302), and the lower extreme of support (302) is the stiff end, and the upper end of support (302) is the movable end, sweeps the movable end of yard machine (301) connection support (302) and can follow support (302) activity.

2. The code scanning device according to claim 1, wherein the bracket (302) comprises a lower plate (303), an intermediate plate (304) and an upper plate (305), one end of the lower plate (303) is the fixed end, the other end of the lower plate (303) is used for connecting the intermediate plate (304), the lower end of the upper plate (305) is used for connecting the intermediate plate (304), and the upper end of the upper plate (305) is the movable end;

the middle plate (304) comprises a transverse plate (306) and a vertical plate (307), the transverse plate (306) is connected with the vertical plate (307) and is L-shaped, a first positioning groove (308) is formed in the transverse plate (306), and correspondingly, a first fastener which is adapted to the first positioning groove (308) is arranged on the lower plate (303); the upper plate (305) is provided with a second positioning groove (309), and correspondingly, the vertical plate (307) is provided with a second fastener which is adapted to the second positioning groove (309).

3. A palletizer, characterized by comprising a palletizer body, wherein the side of the palletizer body is provided with a code scanning device as set forth in any one of claims 1 and 2, and the code scanning device comprises a detection module (300); correspondingly, a material frame (400) is arranged on the tray filler body, and an identification code which is adapted to the detection module (300) is arranged on the material frame (400).

4. A palletizer according to claim 3, wherein the material frame (400) comprises an outer frame (401) and an inner frame (402), wherein the outer frame (401) has a plurality of sides, one of which is open and forms a feed opening communicating with the outside; the inner frame (402) is detachably arranged in the outer frame (401), and the inner frame (402) is provided with a secondary feed inlet which is matched with and communicated with the feed inlet; correspondingly, the side face of the inner frame (402) is printed with the identification code, and the corresponding side face of the outer frame (401) is provided with a code scanning hole (403) opposite to the identification code.

5. The tray loader according to claim 4, wherein the outer frame (401) is a first square frame, and the first square frame has two open sides, one side being configured as the feed port, and the other side being configured for inserting and removing the inner frame (402).

6. The palletizer according to claim 4, wherein the inner frame (402) is selected from a second square frame, at least one side of which is open and which is configured as the secondary feed opening;

the side (404) of the second square frame is L-shaped, a first part of the side (404) is inserted into the outer frame (401), a second part of the side (404) extends out of the outer frame (401), and correspondingly, the first part faces the outer frame (401) and is provided with the identification code.