CN220906396U - Carton flow dividing device - Google Patents

Abstract

The utility model discloses a carton splitting device, which is used for conveying cartons to a main conveying line or a branch conveying line and comprises the following components: a middle rotating frame; the transfer transmission belt is arranged on the transfer frame, the tail end of the transmission direction of the transfer transmission belt is in butt joint with the main transmission line, and one side of the transmission direction of the transfer transmission belt is in butt joint with the sub transmission line; the transfer conveying belt comprises a transfer conveying belt, a transfer plate and a driving piece, wherein the transfer conveying belt is arranged on the upper side of the transfer conveying belt, one end of the transfer plate rotates around a vertical central axis to be arranged on one side of the transfer conveying belt, the driving piece is connected with the transfer plate to drive the transfer plate to rotate, the transfer plate can rotate to a first position or a second position, when the transfer plate is located at the first position, the transfer plate avoids a moving path of a carton along the transfer conveying belt in the transfer conveying direction, and when the transfer plate is located at the second position, the transfer plate inclines towards the transfer conveying belt along the transfer conveying direction of the transfer conveying belt so as to guide the carton on the transfer conveying belt to the transfer conveying belt. The utility model has the advantages of simple structure and convenient use.

Description

Carton flow dividing device

Technical Field

The utility model relates to the technical field of transportation equipment, in particular to a carton splitting device.

Background

Paper extraction is a household paper frequently used in daily life of people, when the paper extraction is conveyed after the paper extraction is packaged, a plurality of conveying lines are often used for conveying the paper extraction so as to load the paper extraction or carry out other treatments according to batches, and a paper box splitting device is needed to split the paper box so that the paper box with the paper extraction is separately conveyed to different conveying lines. However, many existing diverting devices have complicated structures, numerous components, and inconvenient use and maintenance, so there is a need for a diverting device with a simple structure and convenient use to divert the cartons.

Disclosure of utility model

The present utility model aims to solve at least one of the technical problems existing in the prior art. Therefore, the utility model provides the carton splitting device which is simple in structure and convenient to use.

According to an embodiment of the utility model, a carton diverting device is used for conveying cartons to a main conveying line or a branch conveying line, and comprises:

a middle rotating frame;

The transfer conveyor belt is arranged on the transfer frame, the tail end of the transfer direction of the transfer conveyor belt is in butt joint with the main conveyor line, and one side of the transfer direction of the transfer conveyor belt is in butt joint with the branch conveyor line;

The diverter mechanism is arranged on the upper side of the transfer conveyor belt and comprises a diverter plate and a driving piece, one end of the diverter plate is rotationally arranged on one side of the transfer conveyor belt in the transmission direction around a vertical central axis, the driving piece is connected with the diverter plate to drive the diverter plate to rotate, the diverter plate can rotate to a first position or a second position, the diverter plate is positioned at the first position, the diverter plate avoids a moving path of a paper box along the transfer conveyor belt in the transmission direction, the diverter plate is positioned at the second position, the diverter plate is inclined towards the transfer conveyor belt in the transmission direction of the transfer conveyor belt, and the diverter plate is used for guiding the paper box on the transfer conveyor belt to the transfer conveyor belt.

The carton splitting device provided by the embodiment of the utility model has at least the following beneficial effects:

This embodiment sets up the transfer transmission band, make the terminal butt joint of main transfer chain and transfer transmission band direction, make the one side butt joint of branch transfer chain and transfer transmission band direction, simultaneously rotate and set up the splitter plate, utilize driving piece drive splitter plate to rotate, so that the splitter plate has two kinds of at least positions, one kind is the splitter plate avoid the carton along the ascending removal route of transfer transmission band direction, the carton can be along transfer transmission band's direction of transmission always on the main conveying line, another kind is the splitter plate is along transfer transmission band's direction of transmission orientation branch transfer chain slope, the carton can be blocked by the splitter plate after transfer one section distance on transfer transmission band this moment, then export to the branch conveying line from the side of transfer transmission band under the dual function of transfer transmission band and splitter plate, thereby realize the reposition of redundant personnel to the carton, so, only need utilize driving piece drive splitter plate to rotate to different positions, and cooperate transfer transmission of transfer transmission band, the whole device part is few, and simple structure, it is very convenient to use.

According to some embodiments of the utility model, the driving member has a telescopic output shaft, the output shaft is connected to the splitter plate, and the splitter plate is driven to rotate by telescopic movement of the output shaft.

According to some embodiments of the utility model, the driving member is configured as one of a hydraulic cylinder, a pneumatic cylinder, a telescopic motor.

According to some embodiments of the utility model, the driving piece is fixed at the top end of the transfer frame, a linkage structure is connected between the output shaft of the driving piece and the flow dividing plate, and the driving piece drives the flow dividing plate to rotate by driving the linkage structure.

According to some embodiments of the utility model, the linkage structure is provided with a linkage rod and a sliding seat, one end of the linkage rod is rotatably arranged on the middle rotating frame, the other end of the linkage rod is fixedly connected with the flow dividing plate, the rotation central axis of the linkage rod is collinear with the rotation central axis of the flow dividing plate and is perpendicular to the length direction of the linkage rod, the sliding seat is slidably arranged on the linkage rod along the length direction of the linkage rod, and the sliding seat is hinged with the output shaft.

According to some embodiments of the utility model, the linkage rod is located on the upper side of the flow dividing plate, and a connecting rod extending upwards is fixed on one side of the flow dividing plate and is connected with the linkage rod through the connecting rod.

According to some embodiments of the utility model, the transfer frame is provided with a first installation shaft extending vertically, one end of the linkage rod is provided with a first sleeve hole and sleeved on the first installation shaft, and the first installation shaft horizontally penetrates through the upper side of the linkage rod and is provided with a limiting structure for vertically limiting the linkage rod.

According to some embodiments of the utility model, a second installation shaft extending vertically is arranged on the middle rotating frame, the flow dividing plate is connected with the linkage rod through a fastener, one end of the flow dividing plate is provided with a second sleeve hole, and the flow dividing plate is sleeved into the second installation shaft from the top end of the second installation shaft through the second sleeve hole.

According to some embodiments of the utility model, a first T-shaped groove extending along the length direction of the linkage rod is arranged on one side of the linkage rod, the sliding seat is arranged in a T-shaped structure and is in sliding fit with the first T-shaped groove, and at least one end of the first T-shaped groove is arranged in an opening way.

According to some embodiments of the utility model, the linkage rod is sleeved with a mounting sleeve, the first T-shaped groove is formed between the mounting sleeve and the side wall of the linkage rod, the mounting sleeve is detachably connected with the linkage rod through a fastener, and when the mounting sleeve and the linkage rod are released from being relatively fixed, the mounting sleeve can slide along the length direction of the linkage rod.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The utility model is further described with reference to the accompanying drawings and examples, in which:

FIG. 1 is a schematic view illustrating an operation state of the splitter plate according to the embodiment of the utility model when the splitter plate is in the first position;

FIG. 2 is a schematic view illustrating an operation of the splitter plate according to the embodiment of the utility model when the splitter plate is in the second position;

fig. 3 is a schematic view of the mounting structure of the carton diverting device of the embodiment of the utility model;

fig. 4 is a schematic diagram of a connection structure between a driving member and a linkage structure according to an embodiment of the present utility model.

Reference numerals:

A main conveyor line 100, a branch conveyor line 101, and a turning roller conveyor 102;

The middle rotating frame 200, a first mounting shaft 210, a limiting structure 211, a second mounting shaft 220, a side frame 230, a connecting frame 240 and an extension rod 250;

A transfer belt 300;

the split-flow mechanism 400, the split-flow plate 410, the connecting rod 411, the second sleeve hole 412, the driving piece 420 and the output shaft 421;

The linkage structure 500, the linkage rod 510, the first sleeve hole 511, the first T-shaped groove 512, the sliding seat 520 and the mounting sleeve 530.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

In the description of the present utility model, it should be understood that the direction or positional relationship indicated with respect to the description of the orientation, such as up, down, etc., is based on the direction or positional relationship shown in the drawings, is merely for convenience of describing the present utility model and simplifying the description, and does not indicate or imply that the apparatus or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, plural means two or more. The description of the first and second is for the purpose of distinguishing between technical features only and should not be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present utility model, unless explicitly defined otherwise, terms such as arrangement, installation, connection, etc. should be construed broadly and the specific meaning of the terms in the present utility model can be reasonably determined by a person skilled in the art in combination with the specific contents of the technical scheme.

Referring to fig. 1 to 3, a carton diverting device according to an embodiment of the present utility model for conveying cartons to a main conveyor line 100 or a diverting line 101, the carton diverting device comprising: a transfer rack 200, a transfer conveyor 300, and a diverting mechanism 400.

The transfer conveyor belt 300 is arranged on the transfer frame 200, the start end of the transfer conveyor belt 300 in the transfer direction is in butt joint with the feeding device, the end of the transfer conveyor belt 300 in the transfer direction is in butt joint with the main conveying line 100, one side of the transfer conveyor belt 300 in the transfer direction is in butt joint with the sub conveying line 101, as shown in fig. 1, the front end of the transfer conveyor belt 300 is in butt joint with the main conveying line 100, the side edge of the transfer conveyor belt 300 is in butt joint with the sub conveying line 101, and the transfer directions of the main conveying line 100 and the transfer conveyor belt 300 are kept consistent; it should be noted that, there may be various relative positions between the main conveying line 100 and the sub conveying line 101, for example, the main conveying line 100 and the sub conveying line 101 may be perpendicular to each other, and the sub conveying line 101 may be directly abutted with one side of the transfer conveying belt 300 in the conveying direction when the main conveying line 100 is perpendicular to the sub conveying line 101, and when the main conveying line 100 and the sub conveying line 101 are parallel to each other or form an included angle other than a right angle, as shown in fig. 1 and fig. 2, a turning roller conveyor 102 needs to be disposed at the feeding end of the sub conveying line 101 to serve as a transition, the sub conveying line 101 is abutted with the transfer conveying belt 300 through the turning roller conveyor 102, and the turning roller conveyor 102 is a conventional means in the prior art, which is not repeated herein; in addition, the main conveyor line 100, the branch conveyor line 101, the turning roller conveyor 102, and the transfer conveyor 300 are provided with a rib for preventing the cardboard box from derailing on the sides in the conveying direction.

The diversion mechanism 400 is arranged on the upper side of the transfer conveyor belt 300, the diversion mechanism 400 comprises a diversion plate 410 and a driving piece 420, one end of the diversion plate 410 is rotatably arranged on one side, far away from the transfer line 101, of the transfer conveyor belt 300 in the transfer direction, the rotation central axis of the diversion plate 410 is vertically arranged, and the driving piece 420 is connected with the diversion plate 410 and used for driving the diversion plate 410 to rotate; the diverting plate 410 can rotate to the first position or the second position, when the diverting plate 410 is located at the first position, the diverting plate 410 avoids the moving path of the cartons along the conveying direction of the transfer conveyor belt 300, and at this time, the cartons can be conveyed along the conveying direction of the transfer conveyor belt 300 onto the main conveying line 100; when the splitter plate 410 is located at the second position, the splitter plate 410 is inclined towards the split conveying line 101 along the conveying direction of the transfer conveying belt 300, the mounting end of the splitter plate 410 and the free end of the splitter plate 410 are respectively located at two opposite sides of the conveying direction of the transfer conveying belt 300, so that cartons on the transfer conveying belt 300 are guided to the split conveying line 101, at the moment, the splitter plate 410 blocks a moving path of the cartons along the conveying direction of the transfer conveying belt 300, when the cartons are conveyed to the position of the splitter plate 410 on the transfer conveying belt 300, the cartons are blocked by the inclined splitter plate 410, and then are obliquely output from the side edge of the transfer conveying belt 300 to the split conveying line 101 under the dual functions of the transfer conveying belt 300 and the splitter plate 410, so that the splitting of the cartons is realized.

In some embodiments, a protective sleeve may be placed over the diverter plate 410 for contact with the cartons to prevent scratching of the cartons.

Referring to fig. 3, it can be understood that the driving member 420 has an output shaft 421 capable of extending and contracting, the output shaft 421 of the driving member 420 is connected to the flow dividing plate 410, and the flow dividing plate 410 is driven to rotate by extending and contracting the output shaft 421, so that the driving mode is simple; specifically, the driving member 420 is configured as one of a hydraulic cylinder, an air cylinder, and a telescopic motor.

Referring to fig. 3 and 4, it can be understood that the two sides of the transfer frame 200 corresponding to the transfer direction of the transfer belt 300 are respectively provided with a side frame 230, the driving member 420 is fixed on the top end of one of the side frames 230, a connecting frame 240 is connected between the tops of the two side frames 230, the connecting frame 240 is provided with an extending rod 250 extending downwards, the splitter plate 410 is rotatably arranged at the bottom of the extending rod 250, a linkage structure 500 is connected between the output shaft 421 of the driving member 420 and the splitter plate 410, the driving member 420 acts to drive the splitter plate 410 to rotate through the driving linkage structure 500, so that the driving member 420 can be arranged on the upper side of the splitter plate 410 to make the space layout more reasonable, and meanwhile, the driving member 420 is fixed on the transfer frame 200 and drives the splitter plate 410 to rotate through the linkage structure 500.

Referring to fig. 3 and 4, it can be understood that the linkage structure 500 is provided with a linkage rod 510 and a sliding seat 520, one end of the linkage rod 510 is rotatably disposed on the connecting frame 240 of the middle rotating frame 200, the other end of the linkage rod 510 is fixedly connected with the splitter plate 410, and the rotation central axis of the linkage rod 510 is collinear with the rotation central axis of the splitter plate 410 and is perpendicular to the length direction of the linkage rod 510, so that the linkage rod 510 can rotate synchronously with the splitter plate 410; in addition, the sliding seat 520 is slidably disposed along the length direction of the linkage rod 510 and is hinged to the output shaft 421 of the driving member 420, and the hinge axis of the sliding seat 520 is parallel to the rotation central axis of the linkage rod 510, so that when the output shaft 421 of the driving member 420 stretches and contracts, the sliding seat 520 rotates relative to the output shaft 421 of the driving member 420 and slides along the length direction of the linkage rod 510, thereby driving the linkage rod 510 to rotate, and the structure is simple and practical.

Referring to fig. 3 and 4, it can be appreciated that the link lever 510 is located at the upper side of the flow dividing plate 410, and the flow dividing plate 410 is not fixed with the upwardly extending connecting rod 411 at the side contacting the carton, and the flow dividing plate 410 is connected with the link lever 510 through the connecting rod 411, so that the space layout is quite reasonable.

Referring to fig. 3 and 4, it can be understood that the top end of the connecting frame 240 of the middle rotating frame 200 is provided with a first installation shaft 210 extending vertically, the top end of the first installation shaft 210 is a free end, one end of the linkage rod 510 is provided with a first sleeve hole 511 and sleeved on the first installation shaft 210, and the first installation shaft 210 horizontally passes through a limiting structure 211 for vertically limiting the linkage rod 510 on the upper side of the linkage rod 510, so that the linkage rod 510 is in rotational connection with the middle rotating frame 200, and the structure is simple and practical; it is contemplated that the spacing structure 211 may be a cylindrical structure such as a pin.

Referring to fig. 3 and 4, it can be understood that a second installation shaft 220 extending vertically is fixed on one side of the extension rod 250 of the middle frame 200, the second installation shaft 220 is coaxially arranged with the first installation shaft 210, the top end of the second installation shaft 220 is a free end, the splitter plate 410 is detachably connected with the linkage rod 510 through a fastener, specifically, a connecting rod 411 on the splitter plate 410 is connected with the linkage rod 510 through a fastener, so as to realize the detachable connection of the splitter plate 410 with the linkage rod 510, in addition, one end of the splitter plate 410 is provided with a second sleeve hole 412 and is sleeved with the second installation shaft 220 from the top end of the second installation shaft 220 through the second sleeve hole 412, so as to realize the rotary connection of the splitter plate 410 with the middle frame 200, the structure for vertically limiting the splitter plate 410 is not arranged on the second installation shaft 220, the vertical limitation of the splitter plate 410 is realized by the linkage rod 510, when the splitter plate 410 needs to be detached and replaced, only the fastener between the connecting rod 411 and the linkage rod 510 needs to be detached, and then the splitter plate 410 is moved upwards, so that the second installation shaft 220 is separated from the second sleeve hole 412.

Referring to fig. 3 and 4, it can be understood that one side of the link lever 510 is provided with a first T-shaped groove 512 extending along a length direction thereof, and the sliding seat 520 is provided in a T-shaped structure and slidably cooperates with the first T-shaped groove 512, so that the structure is simple and stable; it is envisioned that sliding seat 520 partially extends out of first T-slot 512 to articulate with output shaft 421 of driver 420; in addition, at least one end of the first T-shaped slot 512 is opened to facilitate the assembly and disassembly of the sliding seat 520.

Referring to fig. 3 and 4, it can be understood that the installation sleeve 530 is sleeved on the linkage rod 510, the installation sleeve 530 has a second T-shaped slot penetrating along the length direction of the installation sleeve 530, the first T-shaped slot 512 is formed between the installation sleeve 530 and the side wall of the linkage rod 510, the installation sleeve 530 is detachably connected with the linkage rod 510 through a fastener, when the installation sleeve 530 is released from being relatively fixed with the linkage rod 510, that is, after the fastener between the installation sleeve 530 and the linkage rod 510 is removed, the installation sleeve 530 can slide along the length direction of the linkage rod 510, so that when the driving member 420 is required to be disconnected from the linkage rod 510, only the fastener between the linkage rod 510 and the installation sleeve 530 is required to be removed, and then the installation sleeve 530 is slid, so that the installation sleeve 530 is separated from the sliding seat 520 is not required to be removed from the output shaft 421 of the driving member 420, contact with the output shaft 421 of the driving member 420 is reduced, and damage is avoided.

The embodiments of the present utility model have been described in detail with reference to the accompanying drawings, but the present utility model is not limited to the above embodiments, and various changes can be made within the knowledge of one of ordinary skill in the art without departing from the spirit of the present utility model.

Claims (10)

1. A carton diverting device for conveying cartons to a main conveyor line (100) or a branch conveyor line (101), characterized by comprising:

A middle rotating frame (200);

A transfer conveyor belt (300) arranged on the transfer frame (200), wherein the tail end of the transfer direction of the transfer conveyor belt is in butt joint with the main conveyor line (100), and one side of the transfer direction of the transfer conveyor belt is in butt joint with the branch conveyor line (101);

The diversion mechanism (400) is arranged on the upper side of the transfer conveyor belt (300), and comprises a diversion plate (410) and a driving piece (420), one end of the diversion plate (410) is rotationally arranged on one side of the transfer conveyor belt (300) in the transmission direction around a vertical central axis, the driving piece (420) is connected with the diversion plate (410) to drive the diversion plate to rotate, the diversion plate (410) can rotate to a first position or a second position, when the diversion plate (410) is positioned at the first position, the diversion plate (410) avoids a moving path of a paper box along the transfer conveyor belt (300) in the transmission direction, when the diversion plate (410) is positioned at the second position, the diversion plate (410) is inclined towards the transfer conveyor line (101) in the transmission direction of the transfer conveyor belt (300) so as to guide the paper box on the transfer conveyor belt (300) to the transfer conveyor line (101).

2. The carton diverting device according to claim 1, wherein: the driving piece (420) is provided with an output shaft (421) capable of stretching and retracting, the output shaft (421) is connected with the flow dividing plate (410), and the flow dividing plate (410) is driven to rotate through stretching and retracting of the output shaft (421).

3. The carton diverting device according to claim 2, wherein: the driving piece (420) is arranged as one of a hydraulic cylinder, a cylinder and a telescopic motor.

4. The carton diverting device according to claim 2, wherein: the driving piece (420) is fixed at the top end of the transfer frame (200), a linkage structure (500) is connected between an output shaft (421) of the driving piece (420) and the flow dividing plate (410), and the driving piece (420) drives the flow dividing plate (410) to rotate by driving the linkage structure (500).

5. The carton diverting device according to claim 4, wherein: the linkage structure (500) is provided with a linkage rod (510) and a sliding seat (520), one end of the linkage rod (510) is rotationally arranged on the transfer frame (200), the other end of the linkage rod is fixedly connected with the flow distribution plate (410), the rotation central axis of the linkage rod (510) is collinear with the rotation central axis of the flow distribution plate (410), and is perpendicular to the length direction of the linkage rod (510), and the sliding seat (520) is slidingly arranged on the linkage rod (510) along the length direction of the linkage rod (510), and the sliding seat (520) is hinged with the output shaft (421).

6. The carton diverting device according to claim 5, wherein: the linkage rod (510) is located on the upper side of the flow distribution plate (410), and a connecting rod (411) extending upwards is fixed on one side of the flow distribution plate (410) and is connected with the linkage rod (510) through the connecting rod (411).

7. The carton diverting device according to claim 5, wherein: the transfer frame (200) is provided with a first installation shaft (210) which extends vertically, one end of the linkage rod (510) is provided with a first sleeve hole (511) and is sleeved on the first installation shaft (210) through the first sleeve hole, and the first installation shaft (210) horizontally penetrates through the upper side of the linkage rod (510) to be provided with a limiting structure (211) for vertically limiting the linkage rod (510).

8. The carton diverting device according to claim 7, wherein: the transfer frame (200) is provided with a second installation shaft (220) extending vertically, the flow dividing plate (410) is connected with the linkage rod (510) through a fastener, one end of the flow dividing plate (410) is provided with a second sleeve hole (412) and is sleeved into the second installation shaft (220) from the top end of the second installation shaft (220) through the second sleeve hole.

9. The carton diverting device according to claim 5, wherein: the utility model discloses a motor vehicle, including gangbar (510), sliding seat (520), gangbar (510), slide seat (520), slide seat, at least one end opening sets up, gangbar (510) one side is equipped with first T type groove (512) that extend along its length direction, sliding seat (520) set up to T type structure and with first T type groove (512) sliding fit, at least one end opening of first T type groove (512).

10. The carton diverting device according to claim 9, wherein: the utility model discloses a motor vehicle linkage, including gangbar (510), installation cover (530) are equipped with to cover on gangbar (510), first T type groove (512) form in between installation cover (530) with the lateral wall of gangbar (510), installation cover (530) with gangbar (510) are through the fastener detachable connection, just installation cover (530) with when gangbar (510) are released relatively fixedly, installation cover (530) can be followed the length direction of gangbar (510) slides.