CN210592658U - Cartoning machine feed arrangement and dress box system - Google Patents

Abstract

The utility model discloses a cartoning machine feed arrangement, including first conveying mesh belt, second conveying mesh belt and pushing equipment, all be equipped with a plurality of feed bins on first conveying mesh belt and the second conveying mesh belt, the feed bin is including the tip feed bin that is located the conveying mesh belt both ends and the upper portion feed bin that is located conveying mesh belt upper portion, a tip feed bin of second conveying mesh belt is located pushing equipment with between the upper portion feed bin of first conveying mesh belt, and the opening side of this tip feed bin is equipped with the subassembly that blocks that is used for preventing that the bubble cap from dropping. The boxing system comprises a boxing machine and the boxing machine feeding device, wherein the front end of the first conveying mesh belt is butted with the boxing machine. The utility model has the advantages of simple structure, low cost, capability of realizing repackaging after 90-degree rotation, and the like.

Description

Cartoning machine feed arrangement and dress box system

Technical Field

The utility model relates to a food, medicine packaging machinery especially relate to a cartoning machine feed arrangement and dress box system.

Background

According to different requirements, the traditional medicine box is provided with a single-layer packaged bubble-cap plate and a multi-layer overlapped packaged bubble-cap plate, and the front face of the bubble-cap plate and the front face of the paper box are generally arranged in the paper box in parallel regardless of single-layer or multi-layer overlapped packaging. In addition, the conventional boxing system has a complicated structure and high cost in order to realize the packaging form that a plurality of layers of blister plates are stacked and then rotated by 90 degrees for repacking, namely the front surfaces of the blister plates and the front surfaces of the cartons are vertically loaded into the cartons. Furthermore, a pharmaceutical factory needs to purchase and configure boxing machines with various different packaging forms, and also needs to be equipped with resources such as manpower and material resources matched with the boxing machines, so that the equipment, personnel and site costs of the pharmaceutical factory are greatly increased.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome prior art not enough, provide a cartoning machine feed arrangement that simple structure, with low costs, can realize repackaging after 90 rotations.

The utility model discloses further provide a dress box system that contains above-mentioned cartoning machine feed arrangement.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the utility model provides a cartoning machine feed arrangement, includes first conveying mesh belt, second conveying mesh belt and pushing equipment, first conveying mesh belt and second conveying mesh belt all are equipped with a plurality of feed bins, the feed bin is including the tip feed bin that is located conveying mesh belt both ends and the upper portion feed bin that is located conveying mesh belt upper portion, a tip feed bin of second conveying mesh belt is located pushing equipment with between the upper portion feed bin of first conveying mesh belt, and the opening side of this tip feed bin is equipped with the subassembly that blocks that is used for preventing the bubble cap and drops.

As a further improvement of the above technical solution: the material grabbing device comprises a first conveying mesh belt, a second conveying mesh belt, a third conveying mesh belt, a feeding track arranged on one side of the third conveying mesh belt, and a material grabbing mechanical arm used for transferring materials on the third conveying mesh belt to the first conveying mesh belt or the second conveying mesh belt.

As a further improvement of the above technical solution: the first conveying mesh belt and the third conveying mesh belt are arranged on two sides of the second conveying mesh belt in parallel.

As a further improvement of the above technical solution: the blocking assembly comprises a stop lever and a pressing lever, a material pushing and discharging channel is formed between the stop lever and the second conveying mesh belt, and the pressing lever extends to the upper portion of the bin of the second conveying mesh belt.

As a further improvement of the above technical solution: a transition plate is arranged between the material pushing and discharging channel and the corresponding upper material bin on the first conveying mesh belt, and guide plates are arranged on two sides of the transition plate.

As a further improvement of the above technical solution: the pushing mechanism comprises a pushing head and a driving piece used for driving the pushing head to move in a reciprocating mode, and a plurality of grooves used for containing the edge portions of the bubble caps are uniformly formed in the pushing head.

As a further improvement of the above technical solution: first conveying mesh belt and second conveying mesh belt all include two parallel arrangement's hold-in range, evenly be provided with a plurality of dogs on the hold-in range, the feed bin is located adjacent two between the dog.

The boxing system comprises a boxing machine and the boxing machine feeding device, wherein the first conveying net belt is in butt joint with the boxing machine.

Compared with the prior art, the utility model has the advantages of: the utility model discloses a cartoning machine feed arrangement, in operation, in the upper portion feed bin of bubble cap material loading to second conveying mesh belt, the upper portion feed bin of second conveying mesh belt drives the one end motion at bubble cap to pushing equipment place, rotatory 90 when moving to the tip position of second conveying mesh belt, then in the bubble cap propelling movement to first conveying mesh belt's upper portion feed bin after 90 rotatory by pushing equipment, drive and keep the state after 90 rotatory to continue to carry to the cartoning machine in by first conveying mesh belt's upper portion feed bin, thereby can realize repackaging after 90 rotatory, and this kind of cartoning machine feed arrangement simple structure, and is with low costs.

The utility model discloses a boxing system, including foretell cartoning machine feed arrangement, therefore have above-mentioned advantage equally.

Drawings

Fig. 1 is a schematic view of the top view structure of the feeding device and the boxing system of the boxing machine of the present invention.

Fig. 2 is a schematic top view of each mesh belt of the present invention.

Fig. 3 is a schematic perspective view of the pushing mechanism of the present invention.

Fig. 4 is a schematic side view of the pushing mechanism of the present invention.

Fig. 5 is a partially enlarged view of fig. 3.

The reference numerals in the figures denote: 1. a first conveying mesh belt; 2. a feed rail; 3. a second conveying mesh belt; 4. a third conveying mesh belt; 41. a synchronous belt; 5. a storage bin; 51. an end bin; 52. an upper storage bin; 53. a stopper; 6. a material grabbing manipulator; 7. a material pushing mechanism; 71. pushing the head; 72. a drive member; 73. a groove; 8. a blocking component; 81. a stop lever; 82. a material pushing and discharging channel; 83. a pressure lever; 9. a blister; 10. a boxing machine; 20. a transition plate; 30. a guide plate.

Detailed Description

The invention is described in further detail below with reference to the drawings and specific examples.

Fig. 1 to 5 show an embodiment of the present invention, a cartoning machine feeding device and a cartoning system, the cartoning machine feeding device of this embodiment, including first mesh conveyor 4, second mesh conveyor 3 and pushing equipment 7, all be equipped with a plurality of feed bins 5 on first mesh conveyor 4 and the second mesh conveyor 3, feed bin 5 is including tip feed bin 51 that is located the mesh conveyor both ends and the upper portion feed bin 52 that is located mesh conveyor upper portion, a tip feed bin 51 of second mesh conveyor 3 is located between pushing equipment 7 and the upper portion feed bin 52 of first mesh conveyor 4, and the opening side of this tip feed bin 51 is equipped with the subassembly 8 that blocks that is used for preventing bubble cap 9 from dropping.

When the feeding device of the box packing machine works, bubble caps 9 are fed into an upper storage bin 52 of a second conveying mesh belt 3, the upper storage bin 52 of the second conveying mesh belt 3 drives the bubble caps 9 to move towards one end (the left end in the attached drawing 1) where a material pushing mechanism 7 is located, when the bubble caps move to the end position of the second conveying mesh belt 3, the bubble caps 9 rotating 90 degrees are rotated by 90 degrees and then pushed into the upper storage bin 52 of a first conveying mesh belt 4 by the material pushing mechanism 7, and the bubble caps are driven by the upper storage bin 52 of the first conveying mesh belt 4 and are continuously conveyed into the box packing machine 10 in a state of rotating 90 degrees, so that the aim of re-packing after rotating 90 degrees can be achieved.

Further, in this embodiment, the cartoning machine feeding device further includes a third conveyer belt 1, a feeding track 2 disposed on one side of the third conveyer belt 1, and a material grabbing manipulator 6 for transferring the material on the third conveyer belt 1 to the first conveyer belt 4 or the second conveyer belt 3. The boxing and feeding device with the structure can realize various packaging forms: firstly, the bubble caps 9 on the third conveying mesh belt 1 are directly placed in an upper storage bin 52 of the first conveying mesh belt 4 by a material grabbing manipulator 6, one packaging box corresponds to one plate of bubble cap 9, namely one plate of bubble cap 9 is placed in one upper storage bin 52, the bubble caps 9 are not stacked and packed, and the bubble caps 9 enter a packing machine 10 along with the operation of the first conveying mesh belt 4 to complete the packing of the bubble caps 9 into the box; secondly, directly placing the bubble caps 9 on the third conveying mesh belt 1 in an upper storage bin 52 of the first conveying mesh belt 4 by a material grabbing manipulator 6, placing a plurality of bubble caps 9 in one upper storage bin 52 corresponding to at least two plate bubble caps 9, stacking and boxing the bubble caps 9, and entering the bubble caps 9 into a boxing machine 10 along with the operation of the first conveying mesh belt 4; thirdly, the bubble caps 9 on the third conveying mesh belt 1 are placed in an upper storage bin 52 of the second conveying mesh belt 3 by the material grabbing manipulator 6, one packaging box corresponds to at least two plate bubble caps 9, namely a plurality of plate bubble caps 9 are placed in one upper storage bin 52, the bubble caps 9 are stacked and packaged, the bubble caps 9 rotate 90 degrees at the end along with the operation of the second conveying mesh belt 3, then the bubble caps 9 rotating 90 degrees are pushed into the upper storage bin 52 of the first conveying mesh belt 4 by the material pushing mechanism 7, the bubble caps are driven by the upper storage bin 52 of the first conveying mesh belt 4 and are continuously conveyed into the box packing machine 10 in a state of rotating 90 degrees, and therefore the purpose of re-packing after rotating 90 degrees can be achieved. The boxing feeding device integrates the feeding functions of a plurality of boxing machines with different packaging forms, and can greatly save the equipment cost and the site cost of a pharmaceutical factory. Wherein, the feeding track 2 can also adopt a mesh belt and the like.

Furthermore, in the embodiment, the first conveying mesh belt 4 and the third conveying mesh belt 1 are arranged on two sides of the second conveying mesh belt 3 in parallel, so that the boxing and feeding device has a compact structure and occupies less space.

Further, in the present embodiment, the blocking assembly 8 includes a blocking rod 81 and a pressing rod 83, a material pushing and discharging channel 82 is formed between the blocking rod 81 and the second mesh belt 3, that is, the blister 9 in the end bin 51 is pushed out therefrom, and the pressing rod 83 extends to above the upper bin 52 of the second mesh belt 3. The stop lever 81 and the press lever 83 can prevent the bubble cap 9 from rotating and falling from the opening side (the right side of figures 3, 4 and 5) of the end part bin 51 in the pushing and discharging processes, and the structure is simple and reliable. As the preferred technical scheme, only one pressure lever 83 is arranged, so that excessive compression is avoided, the bubble caps 9 can move in the end part storage bin 51 in a small range in the rotating process, and the two stop levers 81 can be arranged and are respectively arranged on two sides of the pressure lever 83.

Further, in this embodiment, a transition plate 20 is disposed between the material pushing and discharging channel 82 and the corresponding upper bin 52 on the first conveying mesh belt 4, and guide plates 30 are disposed on two sides of the transition plate 20. Under the action of the transition plate 20 and the guide plate 30, the pushing mechanism 7 can smoothly push the blister 9 in the end bin 51 into the upper bin 52, so as to prevent the blister 9 from being blocked or being incapable of being pushed into the upper bin 52 due to direction deviation.

Further, in the present embodiment, the pushing mechanism 7 includes a pushing head 71 and a driving member 72 (for example, a motor) for driving the pushing head 71 to reciprocate, and a plurality of grooves 73 for accommodating edge portions of the blister 9 are uniformly formed on the pushing head 71. The push head 71 is uniformly provided with a plurality of grooves 73 for accommodating the protruding parts of the edges of the bubble caps 9, so that the push head 71 can be better attached to the laminated bubble caps 9 integrally, and the push head is favorable for pushing and discharging materials.

Further, in this embodiment, the first conveying mesh belt 4 and the second conveying mesh belt 3 each include two rows of parallel-arranged synchronous belts 41, a plurality of stoppers 53 are uniformly disposed on the synchronous belts 41, and the storage bin 5 is located between two adjacent stoppers 53. Two synchronous belts 41 are independently configured on each mesh belt, stop blocks 53 are uniformly arranged on the synchronous belts 41, a bin 5 is formed between the two stop blocks 53, and the bubble caps 9 are stored in the bin 5. According to the specification size of bubble cap 9, the relative position of two hold-in ranges 41 can be adjusted to be used for adjusting the distance between two dog 53, reach and be applicable to different specification bubble caps 9, improved application scope. Preferably, the third mesh belt 1 has the same structure as the first mesh belt 4 and the second mesh belt 3. Preferably, the stopper 53 is provided with a notch at a position corresponding to the pressing rod 83, and the pressing rod 83 is inserted into the notch, which is advantageous for pressing the laminated blister 9.

The boxing system of the embodiment comprises a boxing machine 10 and further comprises the boxing machine feeding device, and the first conveying mesh belt 4 is in butt joint with the boxing machine 10. The boxing system comprises the boxing machine feeding device, thereby having the advantages

Although the present invention has been described with reference to the preferred embodiments, it is not intended to limit the present invention. The technical solution of the present invention can be used by anyone skilled in the art to make many possible variations and modifications, or to modify equivalent embodiments, without departing from the scope of the technical solution of the present invention, using the technical content disclosed above. Therefore, any simple modification, equivalent change and modification made to the above embodiments by the technical entity of the present invention should fall within the protection scope of the technical solution of the present invention.

Claims (8)

1. The utility model provides a cartoning machine feed arrangement which characterized in that: including first conveying mesh belt (4), second conveying mesh belt (3) and pushing equipment (7), all be equipped with a plurality of feed bins (5) on first conveying mesh belt (4) and second conveying mesh belt (3), feed bin (5) are including tip feed bin (51) that are located conveying mesh belt both ends and upper portion feed bin (52) that are located conveying mesh belt upper portion, a tip feed bin (51) of second conveying mesh belt (3) are located pushing equipment (7) with between upper portion feed bin (52) of first conveying mesh belt (4), and the opening side of this tip feed bin (51) is equipped with and is used for preventing blocking subassembly (8) that bubble cap (9) dropped.

2. Cartoning machine feeding apparatus according to claim 1, wherein: the material grabbing device is characterized by further comprising a third conveying mesh belt (1), a feeding track (2) arranged on one side of the third conveying mesh belt (1) and a material grabbing manipulator (6) used for transferring materials on the third conveying mesh belt (1) to the first conveying mesh belt (4) or the second conveying mesh belt (3).

3. Cartoning machine feeding apparatus according to claim 2, wherein: the first conveying mesh belt (4) and the third conveying mesh belt (1) are arranged on two sides of the second conveying mesh belt (3) in parallel.

4. Cartoning machine feeding apparatus according to claim 1, wherein: the blocking component (8) comprises a blocking rod (81) and a pressing rod (83), a material pushing and discharging channel (82) is formed between the blocking rod (81) and the second conveying net belt (3), and the pressing rod (83) extends to the position above an upper storage bin (52) of the second conveying net belt (3).

5. Cartoning machine feeding apparatus according to claim 4, wherein: a transition plate (20) is arranged between the material pushing and discharging channel (82) and the corresponding upper storage bin (52) on the first conveying mesh belt (4), and guide plates (30) are arranged on two sides of the transition plate (20).

6. Cartoning machine feeding apparatus according to claim 1, wherein: the pushing mechanism (7) comprises a pushing head (71) and a driving piece (72) used for driving the pushing head (71) to move in a reciprocating mode, and a plurality of grooves (73) used for containing the edge portions of the bubble caps (9) are uniformly formed in the pushing head (71).

7. Cartoning machine feeding apparatus according to any one of claims 1 to 6, wherein: first conveying mesh belt (4) and second conveying mesh belt (3) all include two parallel arrangement's hold-in range (41), evenly be provided with a plurality of dogs (53) on hold-in range (41), feed bin (5) are located adjacent two between dog (53).

8. A cartoning system comprising a cartoning machine (10), characterized in that: further comprising a cartoning machine feeding device according to any one of claims 1 to 7, the first foraminous conveyor belt (4) being interfaced with the cartoning machine (10).

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